CN101970960B - Refrigerator - Google Patents
Refrigerator Download PDFInfo
- Publication number
- CN101970960B CN101970960B CN2009801090553A CN200980109055A CN101970960B CN 101970960 B CN101970960 B CN 101970960B CN 2009801090553 A CN2009801090553 A CN 2009801090553A CN 200980109055 A CN200980109055 A CN 200980109055A CN 101970960 B CN101970960 B CN 101970960B
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- Prior art keywords
- cold
- food
- storage spare
- container
- door
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D25/00—Charging, supporting, and discharging the articles to be cooled
- F25D25/02—Charging, supporting, and discharging the articles to be cooled by shelves
- F25D25/024—Slidable shelves
- F25D25/025—Drawers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D11/00—Self-contained movable devices, e.g. domestic refrigerators
- F25D11/006—Self-contained movable devices, e.g. domestic refrigerators with cold storage accumulators
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D2303/00—Details of devices using other cold materials; Details of devices using cold-storage bodies
- F25D2303/08—Devices using cold storage material, i.e. ice or other freezable liquid
- F25D2303/083—Devices using cold storage material, i.e. ice or other freezable liquid using cold storage material disposed in closed wall forming part of a container for products to be cooled
- F25D2303/0831—Devices using cold storage material, i.e. ice or other freezable liquid using cold storage material disposed in closed wall forming part of a container for products to be cooled the liquid is disposed in the space between the walls of the container
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D2331/00—Details or arrangements of other cooling or freezing apparatus not provided for in other groups of this subclass
- F25D2331/80—Type of cooled receptacles
- F25D2331/812—Trays
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D2500/00—Problems to be solved
- F25D2500/02—Geometry problems
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Physics & Mathematics (AREA)
- Mechanical Engineering (AREA)
- Thermal Sciences (AREA)
- General Engineering & Computer Science (AREA)
- Cold Air Circulating Systems And Constructional Details In Refrigerators (AREA)
- Devices That Are Associated With Refrigeration Equipment (AREA)
Abstract
Provided is a refrigerator comprising: a refrigerator body having a storage compartment partitioned in a thermally insulating way; a door for putting food into and taking food out of a freezer compartment, which is a storage compartment; a container which is taken outside of the refrigerator body when the door is opened; and a refrigerant mounted inside the container. After the door is opened or closed, the refrigerating effect of the refrigerant makes it possible to minimize any increase in temperature of frozen foods already stored, and to rapidly cool foods put in. The refrigerator maintains a structure that makes it easy to put in and take out food, and also can minimize any temperature increase in the container when the door is open, cool food faster, and maintain the freshness of food better.
Description
Technical field
The present invention relates to a kind of freezer that can improve the fresh-keeping property of freezing preservation food.
Background technology
In freezer in recent years, as being the invention of purpose with the fresh-keeping property that improves freezing preservation food, the chilling rate that improves freezing preservation food, (for example there is following example, with reference to patent documentation 1), namely, it is by making the passage of the container bottom of cooling air by being arranged at metal tray below, realizes the shortening of cooling time.
Figure 17 be expression patent documentation 1 be the open communique 2000-304435 number described existing freezer of Japan Patent an embodiment want portion's sectional side view.
As shown in figure 17, the part of the storeroom of the freezer main body 2 that is constituted by heat insulating box 1 be refrigerating chamber 8 by the top heat insulation dividing body 5 in top, the following heat insulation dividing body 6 in bottom, be divided into temperature band different refrigerating chamber 7 and vegetable compartment 9.In addition, the peristome of refrigerating chamber 8 is provided with between left and right peristome is divided into dividing body 11 up and down.
Cold air in the rear side that is arranged at refrigerating chamber 8 generates the pressure fan 14 that chamber 12 disposes evaporimeter 13 and cold air is supplied with, circulated to refrigerating chamber 7, refrigerating chamber 8, vegetable compartment 9, the defrosting heater 15 that starts when the lower space of evaporimeter 13 disposes defrosting.
In addition, the bottom in the container 27 in the refrigerating chamber 8 and the bottom container 28 is provided with pallet 31, on each container 27 and bottom container 28, is formed with cold air path 27a, 28a between before and after its bottom.
In addition, be provided with in the front of cold air distributor chamber 30 towards cool-air feed mouth 30a, the 30b of the upper open face of container 27, bottom container 28, and the cool-air feed mouth 30c corresponding with the cold air path 27a of container 27, the cool-air feed mouth 30d corresponding with the cold air path 28a of bottom container 28.Therefore, be not only container 27, in bottom container 28, the cold air from cold air distributor chamber 30 directly circulated to its cold air path 28a, can improve the cooling velocity of food.
Like this, the pallet 31 in container 27 and the bottom container 28 cools off fast, and by the upper open face cool-air feed to each container, the food in the container can be at short notice with food product refrigeration from cooling off up and down.
In the above-mentioned present formation, for example, under the situation of opening door 21, take in the container 27 of food and pull out to the outside with door 21 interlocks, therefore, have and see food, the very easy taking-up of taking in easily and put into this advantage of food.
But, in the above-mentioned present formation, put into to pallet 31 under the situation of the food before freezing, especially put under the situation of the high food of temperature, because pallet 31 does not have cool storage function, therefore, pallet 31 heats up at once, though food self is cooled, conducts heat via pallet 31, cause other food to heat up, worry may make the part that movable bacterium has been melted, has been suppressed on the surface of taking in food of freezing preservation breed.Especially worry to take in the melting under the big situation of degree of surface of food, the quality when freezing again worsens very serious.In addition, during the cooling beginning, because the pallet 31 that heats up need cool off pallet 31 in cooling food, the speed of cooling food is slack-off, and freezing quality reduces.
In addition, opened door at 21 o'clock, under the situation that cold air sprays from cool-air feed mouth 30c, the distance of cold air path 27a from cool-air feed mouth 30c to container 27 becomes far away, extremely reduce to the amount that cold air path 27a circulates from the cold air of cool-air feed mouth 30c ejection, most of to cold air path 27a dispersion in addition.Therefore, uncolled at the frozen food that cold air stores above by 27a, and be exposed to extraneous air, temperature is risen, and the air in the refrigerating chamber 8 is stirred, and replacing of the cold air in extraneous air and the refrigerating chamber 8 is serious, therefore, closing the cooling of door after 21 need expend time in, and the time that frozen food is exposed to above the temperature of the set point of temperature of refrigerating chamber 8 increases.Thus, the part that movable bacterium has been melted, has been suppressed on the surface of taking in food of freezing preservation is bred.Especially the surface to melt degree more big, the portion that freezes again that closes behind the door 21 is more many, quality worsens very serious.Even put into from the outside under the situation of food, owing to follow the inflow of the extraneous air of the opening of door 21 when putting into, the temperature in the container 27 rises, even in the cooling after closing door 21, also need the time to be refrigerated to set point of temperature, therefore, the cooling time of putting into food increases.
In addition, even according to stop cooling when door 21 is opened, namely under the situation about not considering from the mode of cool- air feed mouth 30a or 30c ejection cold air, though degree reduces, frozen food still is exposed in the extraneous air, so temperature rises, and causes same consequence.
Like this, in the present formation, the problem that the quick-frozen of the inhibition that existence is interfered the heat of other food and the food of putting into can not and be deposited is being sought to keep the taking-up of food and the simplification of putting at present and is suppressed the intensification that extraneous air causes and keep the method for quality.
Patent documentation 1: open communique 2000-304435 number of Japan Patent
Summary of the invention
The present invention is the invention corresponding with above-mentioned present problem, and its purpose is to provide a kind of intensification, the freezer that the shortening effect guaranteeing to take in the preservation quality of food and make freezing speed continues when realizing that suppressing food puts into.
For the above-mentioned present problem of correspondence, freezer of the present invention comprises: have by the freezer main body of the storeroom of heat insulation division; Be used for food is taken out the door of putting into storeroom; When door is open, from the extended container of the gabarit of apotheca; With the parts with cool storage function that are installed on container be cold-storage spare.
Thus, keep the taking-up of food and the simplification of putting into, and, even under the situation that door is open, namely, be drawn to the outside and be exposed under the situation of extraneous air at container, utilize cold-storage spare that extraneous air is flowed into the thermic load of bringing and absorb heat, therefore, will remain on low temperature in the container, the temperature of the food that can suppress to store rises, and can suppress the deterioration of quality.In addition, when putting into food and before closing door, cold-storage spare also can flow into the thermic load of bringing and the thermic load of putting into food to extraneous air and absorb heat, therefore, food is cooled, and compares with present freezer, remains on low temperature in the container, cooling food can improve fresh-keeping property at short notice.
In addition, for the above-mentioned present problem of correspondence, the present invention includes: have by the freezer main body of the storeroom of heat insulation division; Be used for food is taken out the door of putting into storeroom; Be used for taking in the container of food; Be installed on the cooling promotion parts with cool storage function at least one container in the container; With being used for cooling is promoted a plurality of cooling bodies that parts and storeroom cool off.
Thus, even under the situation of putting into the high food of temperature, also can promote the bigger thermal capacity that parts have by cooling, intensification in the container is suppressed to be irreducible minimum, and, because directly the intensification of the part of contact is few, therefore, can keeps the speed that promotes the direct cooling of parts to take in food by cooling and improve effect.In addition, even make cooling promote owing to have a plurality of cooling bodies, therefore, can shorten cooling time again under the situation of parts intensification owing to putting into food.
Freezer of the present invention is by above-mentioned formation, and the intensification in the time of can suppressing to put into food guarantees to take in the preservation quality of food, and keeps freezing speed and shorten effect.
Description of drawings
Fig. 1 is the sectional side view of wanting portion of the door of freezer of embodiment of the present invention 1 when open;
Fig. 2 is the sectional side view of wanting portion of door when closing of the freezer of embodiment of the present invention 1;
Fig. 3 A is the sectional side view of wanting portion of the door of freezer of embodiment of the present invention 2 when open;
Fig. 3 B is the stereogram of the container that possesses cold-storage spare of the freezer of embodiment of the present invention 2;
Fig. 3 C is the stereogram of the cold-storage spare of embodiment of the present invention 2;
Fig. 3 D is the profile of 3D-3D direction of the cold-storage spare of embodiment of the present invention 2;
Fig. 4 is the sectional side view of wanting portion of door when closing of the freezer of embodiment of the present invention 2;
Fig. 5 is the sectional side view of wanting portion of embodiment of the present invention 3;
Fig. 6 A is the sectional side view of wanting portion of the freezer of embodiment of the present invention 4;
Fig. 6 B is the stereogram of the container that possesses cold-storage spare of embodiment of the present invention 4;
Fig. 6 C is the stereogram of the cold-storage spare of embodiment of the present invention 4;
Fig. 6 D is the profile of 6D-6D direction of the cold-storage spare of embodiment of the present invention 4;
Fig. 7 is the sectional side view of wanting portion of door when closing of the freezer of embodiment of the present invention 4;
Fig. 8 is the sectional side view of wanting portion of embodiment of the present invention 4;
Fig. 9 A be embodiment of the present invention 5 freezer want portion's sectional side view;
Fig. 9 B is the stereogram of the cold-storage spare of embodiment of the present invention 5;
Fig. 9 C is the sectional side view of 9C-9C direction of the cold-storage spare of embodiment of the present invention 5;
Figure 10 is the comparison diagram of the freezing cooling time of the quick-frozen of embodiment of the present invention 5 and other modes;
Figure 11 A is the photo of taking a picture the cell of employed tuna in the experiment of embodiment 5 is photographed with SEM, and being expression freezingly begins to utilize industrial freezer YASUDA chest freezer to carry out the figure of freezing photo from-60 ℃;
Figure 11 B is illustrated on the cold-storage spare from the go forward side by side figure of the photo that scanning frequency freezes of above-below direction sustainable supply cold air;
Figure 11 C is illustrated on the aluminium sheet from the top according to being adjusted to mode that cryogenic temperature sets cool-air feed and carry out the figure of freezing photo at any time;
Figure 12 A is the figure of needed time of snap frozen in the experimental result under meal that expression utilizes the quick-frozen of the formation of embodiment 5 will be fresh the to come out of the stove situation about cooling off;
Figure 12 B is the result's that estimates of sense that expression compares the delicious food of fresh meal of coming out of the stove and the freezing meal after the snap frozen figure;
Figure 12 C result's that to be expression compare the moisture of fresh meal of coming out of the stove and the freezing meal after the snap frozen figure;
Figure 13 be embodiment of the present invention 6 freezer want portion's sectional side view;
Figure 14 A is the sectional side view of wanting portion of the door of freezer of embodiment of the present invention 7 when open;
Figure 14 B is the stereogram of the container of embodiment of the present invention 7;
Figure 14 C is the stereogram of the cold-storage spare of embodiment of the present invention 7;
Figure 14 D is the profile of 14D-14D direction of the cold-storage spare of embodiment of the present invention 7;
Figure 15 is the sectional side view of wanting portion of door when closing of the freezer of embodiment of the present invention 7;
Figure 16 is the sectional side view of wanting portion of embodiment of the present invention 7;
Figure 17 be present freezer want portion's sectional side view.
Symbol description
101 heat insulating boxes
102 freezer main bodys
105 heat insulation dividing bodies
107 refrigerating chambers
108 refrigerating chambers
109 vegetable compartment
113 evaporimeters
114 pressure fans
121
122
127 containers
127a boundary portion (boundary portion) (fixed mechanism)
The 127b rake
128 containers
150 cold-storage spares (cold-storage parts)
151 castors (caster)
152 arrange face
153 freezer ejiction openings
153a, 153b refrigerating chamber ejiction opening
154 freezer outlets
155 feed paths
156 protuberances (fixed mechanism)
157 frozen food
158 put into food
160 depressed parts (fixed mechanism)
161 food maintaining bodies
162 food arrange face
163 preservation portions
170 loading and unloading assisted parts
171 loading and unloading assisted parts
172 cold-storage spares loading and unloading assisted parts
173 cold-storage spares loading and unloading maintaining part
257 cold-storage spares (heat-storing material)
258 gases
259 food arrange face
The 259a mark
The 259b mark center
260 absorbent portions
263 preservation portions
280 non-contact detecting mechanisms
302 freezer main bodys
303 refrigerating chambers (storeroom)
306 refrigerating chambers (storeroom)
307 vegetable compartment (storeroom)
321 cold air ejiction openings
322 cold air ejiction openings
323
324
327 epimere containers (container)
328 hypomere containers (container)
329 coolings promote parts
329a cold-storage spare
329b food mounting portion
332 stage casing containers (container)
333 cold air ejiction openings
The specific embodiment
Freezer of the present invention comprises: have by the freezer main body of the storeroom of heat insulation division; Be used for food is taken out the door of putting into storeroom; When door is open, from the extended container of the gabarit of apotheca; With the cold-storage spare that is installed on container, therefore, can be when keeping the taking in property of food, when pulling out with the door opening and with container, the temperature of the food that can suppress to store by the low temperature of cold-storage spare maintenance container rises, and therefore the thermic load of the food of putting into and the extraneous air of inflow, can be cooled off food at short notice by cold-storage spare heat absorption cooling.
In freezer of the present invention, cold-storage spare is installed on the reveal of container, therefore, can be when keeping the taking in property of food, intensification, the cool time when shortening food is put into of suppressing foodstuff storing, and be exposed in the extraneous air at first when door is open, when being closed, door is exposed in the extraneous air to the latest, therefore, be vulnerable to most the influence of extraneous air, and because cold-storage spare is installed on the many reveals of load heat, so can further suppress intensification, the cool time when shortening food is put into of foodstuff storing.In addition, cold-storage spare is positioned at the front, therefore, can food be accommodated near the cold-storage spare under not with whole situations of pulling out to gabarit of container, can carry out quick-frozen, therefore, can suppress extraneous air and flow into to container, and can easily take in food.
In the freezer of the present invention, cold-storage spare is the structure that can load and unload, therefore, can suppress intensification, the cool time when shortening food is put into of foodstuff storing, and be easy to cleaning when keep the taking in property of food, also can be applied to other devices.In addition, under the situation that cold-storage spare uses under zubzero temperature, even carrying out food with wet hand etc. when taking in, just in case hand contacts and clings under the situation of cold-storage spare, cold-storage spare is together unloaded and heat etc., can easily carry out the processing that hand and cold-storage spare are separated.
In the freezer of the present invention, possessing the face that the arranges height that at least a portion of the container of cold-storage spare is positioned at apart from the freezer main body is 600mm~1200mm, therefore, storeroom be positioned at height that the taking-up that is easy to carry out food concerning the user most puts into namely from the height that face is set for being positioned at 600mm~1200mm, therefore, in the high storeroom of the possibility that frequently opens and closes, can be when keeping the taking in property of food, the intensification of the foodstuff storing after the switching of inhibition door, the cool time when shortening food is put into, thus, can further improve the fresh-keeping property of food.
Therefore and cold-storage spare is positioned at most people's hand easy to reach height, can easily carry out the loading and unloading of cold-storage spare, is bonded at cold-storage spare and under the situation about can not separate, most people can dispose easily at hand.
In the freezer of the present invention, cold-storage spare be positioned at container the bottom above, therefore, by with the contacting of food, food can be cooled off, therefore, can when keeping the taking in property of food, further suppress intensification, the cool time when shortening food is put into of foodstuff storing.
Freezer of the present invention comprises the fixed mechanism of fixing cold-storage spare and is used for making food to food the food maintaining body that move in the place beyond the face not to be set, therefore, when can keep the taking in property of present food, when pulling out with the door opening and with container, keep the low temperature of container and the temperature of the food that can suppress to store rises by cold-storage spare, simultaneously, the thermic load of the food of putting into and the extraneous air of inflow is by cold-storage spare heat absorption cooling, therefore, can at short notice food be cooled off.In addition, even by the switching of carrying out door in a jumble or continually repeatedly or to carry out a switching than fast speeds, cold-storage spare also can not move in container, therefore, the heat of food is absorbed by cold-storage spare, can further suppress intensification, the cool time when shortening food is put into of foodstuff storing.
Freezer of the present invention, fixed mechanism is made of the part of the inscape of container, therefore, can be in the taking in property of keeping present food, intensification, the cool time when shortening food is put into of suppressing foodstuff storing, and, can realize fixed mechanism and food maintaining body with simple formation, and can possess fixed mechanism or the food maintaining body of comparing and having improved rigidity with the structure of split formation.
In the freezer of the present invention, cold-storage spare mainly has the absorbent portion that the food that has heat-storing material and be used for arranging food arranges face, absorbs the Volume Changes of the phase transformation of following heat-storing material, therefore, under the situation that door is open, utilize cold-storage spare that extraneous air is flowed into the thermic load of bringing and absorb heat, therefore, will remain on low temperature in the container, the temperature of the food that can suppress to store rises, and can suppress the deterioration of quality.In addition, when putting into food and before closing door, cold-storage spare also can flow into the thermic load of bringing and the thermic load of putting into food to extraneous air and absorb heat, therefore, food is cooled, and compares with present freezer, remains on low temperature in the container, cooling food can improve fresh-keeping property at short notice.In addition, the Volume Changes that not becoming conducts heat hinders absorbs the space of usefulness, can successfully transmit heat.In addition, food arranges the influence of the Volume Changes that phase transformation that face is not vulnerable to heat-storing material brings, and therefore, follows the change of shape of Volume Changes to reduce, and keeps and the contacting of food.Thus, intensification, the cool time when shortening food is put into that can further suppress foodstuff storing.
In the freezer of the present invention, absorbent portion is outstanding towards the top from the setting of food, therefore, intensification, the cool time when shortening food is put into that can suppress foodstuff storing, and can suppress foodstuff storing to slide owing to the reaction that brings of door on-off action and from food emaciated face is set and falls, can further suppress intensification, the cool time when shortening food and putting into of foodstuff storing.
Freezer of the present invention possesses: have by the freezer main body of the storeroom of heat insulation division; Be used for food is taken out the door of putting into described storeroom; Be used for taking in the container of food; Be installed on the promotion of the cooling at least one container parts in the described container; Be used for described cooling is promoted a plurality of cooling bodies that parts and described storeroom cool off, thus, even under the situation of putting into the high food of temperature, also can promote the bigger thermal capacity that parts have by the cooling with refrigerating function, to promote the intensification of parts to suppress to be irreducible minimum with cooling in the container, and the cooling that heats up can be promoted parts cool off rapidly, thus, can make the freezing speed of taking in food shorten effect and continue for a long time.
Freezer of the present invention disposes a plurality of containers at above-below direction in storeroom, in container, by being installed at the epimere container, cooling promotes parts, can suppress the intensification in the epimere container, simultaneously, suppress to approach the interior intensification of hypomere container that cooling promotes parts.
Freezer of the present invention is provided with a plurality of cold air ejiction openings of carrying cold air in the storeroom, by the cold air of carrying from the cold air ejiction opening, can promote that to cooling parts cool off expeditiously from upper and lower surface.
Cooling of the present invention promotes that parts are cold-storage spares, thus, can at random set the temperature with the contact-making surface of food, therefore, can set the temperature that is fit in the freezer, to the high direct cooling surface of the thermal conductivity of food.
The advantage of freezer of the present invention is that cold-storage spare foreign currency is to be made by the good material of thermal conductivity, thus, can improve the heat transfer efficiency from food to agent for storage of coldness, can realize the raising of food freezing speed.
The present invention is provided with for air in cold-storage spare at cold-storage spare and accumulates from the bubble of removing with the contact-making surface of food, thus, the air layer that can get rid of the contact-making surface of cold-storage spare and food, can improve the heat transfer efficiency from food to cold-storage spare, therefore, can realize the raising of the freezing speed of food.
Freezer of the present invention is characterized in that, crust at cold-storage spare is provided with concavo-convex, concavo-convex thickness is identical, thus, the surface area of cold-storage spare increases, the raising of freezing speed again of cold-storage spare after can realizing melting, therefore, the chilling rate that the direct cooling on the cold-storage spare is brought improves ability to be kept for a long time.
Below, with reference to accompanying drawing embodiment of the present invention is described.In addition, about the formation identical with present freezer and the little part of difference, omit detailed explanation.In addition, following embodiment does not limit this invention.
(embodiment 1)
Fig. 1, Fig. 2 are the sectional side views of wanting portion of the freezer of embodiment of the present invention 1.
As shown in Figure 1 and Figure 2, the part of the storeroom of the freezer main body 102 that is made of heat insulating box 101 is that refrigerating chamber 108 is divided into temperature band different refrigerating chamber 107 and vegetable compartment 109 by heat insulation dividing body 105 up and down.In addition, be provided with between left and right in the portion of remaining silent of refrigerating chamber 108 its peristome is divided into dividing body 111 up and down.
Dispose the evaporimeter 113 that generates cold air and the pressure fan 114 that cold air is supplied with, circulated to refrigerating chamber 107, refrigerating chamber 108, vegetable compartment 109 in the cold air generation chamber 112 of the rear side that is arranged at refrigerating chamber 108, the defrosting heater 115 that when the lower space of evaporimeter 113 disposes defrosting, starts.
In refrigerating chamber 108, the storeroom of drawer type is that container 127 and 128 is made of two sections, fixedly is useful on respectively in storeroom in its front and takes out the door 121 and 122 of putting into food.Cold-storage parts with cool storage function are the inside bottom that cold-storage spare 150 is positioned in the container 127 that is positioned at epimere, and are positioned in the depressed part 160 that is arranged at door 121 sides.This sunk part conduct fixedly fixed mechanism of cold-storage spare plays a role.Put into storeroom and when the door 121 of epimere is open for food is taken out, container 127 extends from gabarit.Thus, constitute: when the switching of door 121, follow container 127 to move with fast speeds and the inertia that produces at fore-and-aft direction, the rear that cold-storage spare 150 can be in container 127 is easily mobile.Namely, in the storeroom that possesses cold-storage spare 150 is the container of refrigerating chamber 108, the zone that is positioned at the front face side of door 121 sides can be used as the zone of taking in that possesses cold-storage spare 150, use as the general freezing zone i.e. preservation portion differentiation that does not have cold-storage spare 150 in the zone that will be positioned at rear side.
In addition, for freezer main body 102 can easily be moved, the storeroom that is positioned at the following castor that possesses 151 of heat insulating box 101 above the cold-storage spare 150 that refrigerating chamber 108 possesses and is arranged at the below of refrigerating chamber 108 is the top of vegetable compartment 109, and the height that face 152 is set for distance is the position of 800mm.
In addition, the latent heat of cold-storage spare 150 is lower than the solidification point of general freezing food, and preferably the temperature than maximum ice crystallization generating zone is low, like this, when setting the chill point temperature of cold-storage spare 150, the cooling velocity in the time of can improving the food mounting to maximum limit on cold-storage spare 150.But, be set at when hanging down, can not fully freeze cold-storage spare 150, suppose that at the cold-storage spare material that cold-storage spare 150 possesses be not under the situation of solid but liquid, its cooling capacity significantly reduces, therefore, and in the refrigerating chamber 108, in order fully to freeze cold-storage spare, it is made of the material that namely has latent heat in the temperature higher than the temperature of the refrigerating chamber 108 of general home-use freezer under-15 ℃.In addition, this cold-storage spare 150 is made as wide 300mm, depth 300mm, and height is thickness 20mm.When determining that such appearance and size is charging quantity in the cold-storage spare 150, consider that the heat that the food of hypothesis has sets optimal amount.Charging quantities in the accumulation of heat material 150 are preferably held following heat, and this heat has the atmospheric temperature of the amount that is equivalent to be arranged at top volume of food, for example is equivalent to from the latent heat amount of the summation that is equivalent to 30 ℃~-10 ℃ latent heat amount and sensible heat amount.Thus, under the situation that cold-storage spare 150 freezes, when putting into general food, can not melt fully, that is, even from the outside food that temperature is high contact with cold-storage spare 150 and the situation of mounting under, by freezing under the situation of not melting at cold-storage spare 150, cool off fast.
Refrigerating chamber ejiction opening 153 is ejiction openings that ejection is used for the cold air of cooling refrigerating chamber 108, and refrigerating chamber outlet 154 is with the outlet of refrigerating chamber 108 cooled cold air from refrigerating chamber 108 Returning evaporimeters 113.Feed path 155 is passages that the cold air for refrigerated compartment 107 ventilates.
Possess the food of preserving in the container 127 of cold-storage spare 150 and be the frozen food of having preserved 157 and newly put into and put into food 158 on the cold-storage spare 150.
In addition, be used for refrigerating chamber 107 and vegetable compartment 109 cooling cool-air feed and circulate not shown.
Freezer about constituting as mentioned above describes its action below.
Cold-storage spare 150 and frozen food 157 are cooled and freeze to namely-20 ℃ of the set points of temperature of refrigerating chamber 108.As shown in Figure 1, door 121 is opened and will be put under the top situation that food 158 is positioned over cold-storage spare 150, put into food 158 and take heat by force by the cold-storage spare 150 that freezes to-20 ℃ putting into the back, begin to cool down.In addition, also cooled off by cold-storage spare 150 owing to the door of following food to put into opens and closes the extraneous air that flows into container 127, compare with present freezer, the air in the container 127 can keep low temperature, also can cool off by this Cryogenic air and put into food 158.
In addition, opened door at 121 o'clock, under the situation of the frozen food of before the zone with the rear side of cold-storage spare 150 adjacency exists, preserving 157, extraneous air in 150 pairs of inflow containers of cold-storage spare 127 cools off, therefore, compare with present freezer, can remain low temperature around the frozen food 157.In addition, even in higher the putting under the situation that food 158 is positioned at same containers 127 of temperature, compare with present freezer, can suppress to interfere the intensification that brings from the heat of putting into food 158.
Like this, in the storeroom that possesses cold-storage spare 150 is the container of refrigerating chamber 108, the zone that is positioned at the front face side of door 121 sides can be used as the zone of taking in that possesses cold-storage spare 150, use is distinguished as the general freezing zone i.e. preservation portion that does not have cold-storage spare 150 in the zone that will be positioned at rear side, thus, for the user, can be when putting into the food of heat, make that to preserve the zone put into food clearer and more definite, also can reduce the heat affecting of the frozen food 157 of putting into 158 pairs of preservations of food.
Afterwards, as shown in Figure 2, when door 121 is closed, be judged as door 121 by not shown checkout gear and close, the running of freeze cycle (not shown) begins, and refrigerant is to evaporimeter 113 circulations and generate cold air, simultaneously, pressure fan 114 turns round and makes circulating cold air, thus, begins to cool down.Cold air 108 is supplied with from refrigerating chamber ejiction opening 153 to refrigerating chamber, to frozen food 157 and put into food 158 and cool off.At this moment, the indirect cooling that brings by the cold air that ventilates around of frozen food 157, cool off from these two kinds of devices of direct cooling of following cold-storage spare 150.
At this moment, when cooling off putting into food 158, the part of cold air also is used for the cooling of cold-storage spare 150.But for the cooling of refrigerating chamber 8, being cooled to than set point of temperature is-20 ℃ high, and therefore, little with the temperature difference of the latent heat temperature-15 of cold-storage spare 150 ℃, cold air is mainly used in the cooling of food.In addition, 108 cold air of supplying with ventilate in container 127 from refrigerating chamber ejiction opening 153 to refrigerating chamber.At this moment, the put into food 158 of mounting above cold-storage spare 150 that is positioned at the frozen food 157 of upstream side and is positioned at the downstream from the wind path of the cold gas of refrigerating chamber ejiction opening 153 ejection is cooled.At this, frozen food 157 and put into food 158 more with the latent heat temperature of cold-storage spare 150 namely-15 ℃ approach, frozen food 157 and the temperature difference of putting into food 158 and cold air just more approach with the temperature difference of cold air and cold-storage spare 150, and therefore, the component that cold air is used for the cooling of cold-storage spare 150 increases.But, for example, frozen food 157 and putting under food 158 situation for fish or meat, owing to contain mineral matter and amino acid etc., therefore, maximum ice crystallization generating zone mostly is 0 ℃~-10 ℃, in this temperature band, mainly by the major part of cold air to frozen food 157 and put into food 158 and cool off.On the basis of the cooling that this cold air brings, by the cooling from cold-storage spare 150, rapidly by maximum ice crystallization generating zone.
Like this, during the pulling out of the container 127 under the situation that door 121 is open, by cold-storage spare 150, cooling in the container 127, the temperature of the frozen food 157 that can suppress to store rises, and the extraneous air of putting into of putting into food 158 and flowing into also by 150 coolings of cold-storage spare, therefore, can freeze at short notice.
In addition, when door 121 is open, be exposed in the extraneous air at first, be exposed to when door 121 is closed in the extraneous air to part the latest and be provided with cold-storage spare 150, therefore, can further control the intensification of frozen food 157, the cool time that food 158 is put in shortening.In addition, cold-storage spare is positioned at the front, therefore, under whole situations of pulling out to the outside with container not, just food can be accommodated near the cold-storage spare, and can carry out quick-frozen, therefore, can suppress extraneous air and flow into to container, easily carries out taking in of food.
In addition, therefore the structure of cold-storage spare 150 for can easily loading and unloading on container 127, be easy to cleaning, also can be applied to other devices.In addition, even when taking in putting into food 158 with wet hand etc., just in case hand contacts and cling under the situation of cold-storage spare 150, cold-storage spare 150 is together unloaded and heat etc., can easily carry out the processing that hand and cold-storage spare 150 are separated.
In addition, even possess women that at least a portion of the container of cold-storage spare 150 the is made as general height height that hand also can reach of not bending over, therefore, be positioned at can imaginary majority the hand easy to reach, be about 800mm apart from the height that face is set, same be the position of 800mm because cold-storage spare 150 is positioned at the height that distance arranges face, therefore, can easily carry out the loading and unloading of cold-storage spare 150, be bonded at cold-storage spare 150 at hand and under the situation about can not separate, can dispose easily.In addition, in the embodiment 1, at least a portion that possesses the container of cold-storage spare 150 is established and highly is 800nm, but generally is position the most easy to use between 600nm~1200nm, therefore, is preferably placed in this scope.
In addition, cold-storage spare 150 is with respect to wide and depth 300mm, its height dimension is little, is 20mm, therefore, even inner cold-storage dosage equates, area is set also can increases of food, though the cold-storage dosage of cold-storage spare inside equate, can also can increase with the area of Food Contact, can when keeping the taking in property of food, further suppress intensification, the cool time when shortening food is put into of foodstuff storing.And, can take in a lot of frozen food 157 and put into food 158, in addition, can take in big frozen food 157 and put into food 158.In addition, can obtain big frozen food 157 and put into the contact area of food 158 and cold-storage spare 150, therefore, can suppress to heat up, shorten cool time.
In addition, in the embodiment 1, used cold-storage spare as the cold-storage parts with cool storage function, but for example metallic and thickness is the above hold-over plate of 5mm so long as possess the parts of cool storage function and can be suitable for.
In addition, door 121 is drawer types, therefore, compares with the swinging door, and the cold air that temperature is low is difficult to escape above container, intensification that can freezing-inhibiting food 157, shortens the cool time of putting into food 158.
(embodiment 2)
Fig. 3 A is the sectional side view of wanting portion of the freezer of embodiment of the present invention 2; Fig. 3 B is the stereogram of the container that possesses cold-storage spare of the freezer of embodiment of the present invention 2; Fig. 3 C is the stereogram of the cold-storage spare of embodiment of the present invention 2; Fig. 3 D is the profile of 3D-3D direction of the cold-storage spare of embodiment of the present invention 2; Fig. 4 is the sectional side view of wanting portion of the freezer of embodiment of the present invention 2.
In addition, in the embodiment 2, about the part identical with the formation that illustrated and technological thought in the embodiment 1, omit detailed explanation, about the formation of the applicable technological thought identical with the content described in the embodiment 1, can realize with the technology contents described in the embodiment 1 and constitute the formation of combination.
As shown in the figure, the cold-storage parts with cool storage function be cold-storage spare to be placed at storeroom in 150 years be that the inside bottom that is arranged in the refrigerating chamber 108 with the container 127 of the epimere of two sections formations is above the bottom surface side, and be arranged at door 121 sides.
In addition, the fixed mechanism that suppresses the movement of cold-storage spare 150 is depressed part 160, and the inscape that this depressed part 160 is containers 127 is the part of resin component, constitutes integratedly with container 127.
Like this, depressed part 160 according to the front side that is arranged at container 127 namely the cold-storage spare 150 of door 121 sides can be owing to the inertia of the on-off action of door 121 rearward mobile mode arrange.
The food that food maintaining body 161 is located at the top food that cold-storage spare 150 is set arranges face 162, be at cold-storage spare 150 at least the rear, namely the opposition side of door 121 sides arranges face 162 more outstanding shape than food.Thus, the food that suppresses cold-storage spare 150 arrange place on the face 162 put into food 158 since the on-off action of door 121 to more moving by the incorporating section i.e. preservation portion 163 at rear than cold-storage part 150.
In addition, be not only the rear of cold-storage spare 150, food maintaining body 161 also can arrange on four limits entirely according to surrounding the mode that food arrange face 162, and in the embodiment 2, food maintaining body 161 is striden food, and that the periphery of face 162 is set is continuous.
Like this, in the storeroom that possesses cold-storage spare 150 is the container 127 of refrigerating chamber 108, the zone that is positioned at the front face side of door 121 sides can be divided and used as the zone of taking in that possesses cold-storage spare 150, will be positioned at than taking in the zone and more distinguish uses by the zone of rear side (rear side) as the general zone i.e. preservation portion 163 that does not have cold-storage spare 150.
In addition, possess cold-storage spare take in the food maintaining body 161 that the zone possesses and the 127a of boundary portion that does not possess the general freezing zone i.e. preservation portion 163 of cold-storage spare forms smoothly via rake 127b.The 127a of boundary portion, rake 127b all be container inscape a part and form as one, and improve rigidity, the 127a of this boundary portion is the fixed mechanism that prevents the movement of depressed part 160 and cold-storage spare 150.
Cold-storage spare 150 can load and unload, and possess the loading and unloading assisted parts 170 that mode that the finger according to user when the place ahead of the depressed part 160 of container 127 loading and unloading cold-storage spare 150 can enter forms at recess, possess loading and unloading maintaining part 171 in recess formation at the container with these loading and unloading assisted parts 170 opposed rear portion side.They are sticked in respectively to possess on cold-storage spare 150 and reach the cold-storage spare that forms at protuberance at the cold-storage spare loading and unloading assisted parts 172 that recess forms loads and unloads maintaining part 173.
In the embodiment 2, the injection portion that uses when injecting cold-storage liquid in the gabarit container of cold-storage spare forms this cold-storage spare loading and unloading assisted parts 172.
In addition, link the line 3D-3D of this cold-storage spare loading and unloading assisted parts 172 and cold-storage spare loading and unloading maintaining part 173 by the center line on the left and right directions of cold-storage spare.
In addition, because possessing below heat insulating box 101 and be used for making the castor 151 that freezer main body 102 can easily move and the storeroom that is arranged at the below of refrigerating chamber 108 is vegetable compartment 109, being arranged at above ground 152 height above the cold-storage spare 150 that has on the refrigerating chamber 108 is the position of 800mm.
In addition, cold-storage spare 150 is by lower than the solidification point of common freezing food and lower and constitute than the material that the high temperature of the temperature of refrigerating chamber 108 namely has latent heat in-15 ℃ than the temperature of maximum ice crystallization generating zone, and wide 300mm, depth 300nm, height are thickness 20mm.Charging quantities in the cold-storage spare 150 are held following heat, and this heat has the atmospheric temperature of the amount that is equivalent to be arranged at top volume of food, for example is equivalent to from the latent heat amount of the summation that is equivalent to 30 ℃~-10 ℃ latent heat amount and sensible heat amount.That is, under the situation that cold-storage spare 150 freezes, when putting into normally used general food, can not melt fully.
That takes in the frozen food of having preserved 157 and newly putting into of preserving in the container 27 on cold-storage spare 150 puts into food 158.
In addition, with respect to the level height 163a of the preservation portion 163 in the freezing zone of the frozen food 157 in the accommodating container 27, the level height 162a that takes in the food mounting portion 162 of taking in the zone that puts into food 158 is disposed at the high position.
In addition, be used for the cool-air feed of refrigerated compartment 107 and vegetable compartment 109 and circulate not shownly, but carry out cool-air feed and circulation by the cooling air duct different with the cooling air duct of cooling refrigerating chamber.
Freezer about the embodiment 2 that constitutes as mentioned above describes its action below.
Cold-storage spare 150 and frozen food 157 are cooled and freeze to namely-20 ℃ of the set points of temperature of refrigerating chamber 108.As shown in the figure, the food that food 158 is positioned over cold-storage spare 150 is opened and will be put into to door 121 arrange under the top situation of face 162, put into food 158 and take heat by force by the cold-storage spare 150 that freezes to-20 ℃ putting into the back, begin to cool down.In addition, flow into the extraneous air of container 127 also by 150 coolings of cold-storage spare, compare with present freezer, the air in the container 127 can keep low temperature, also can cool off by this Cryogenic air and put into food 158.
In addition, opened door at 121 o'clock, arrange at the food with cold-storage spare 150 under the situation of the frozen food of preserving before face 162 existence 157, be cooled by cold-storage spare 150 frozen food 157, simultaneously, extraneous air in 150 pairs of inflow containers of cold-storage spare 127 cools off, and compares with present freezer, can remain low temperature around the frozen food 157.In addition, compare with present freezer, can suppress to interfere the intensification that brings from the heat of putting into food 158.
Afterwards, as shown in the figure, when door 121 is closed, be judged as door 121 by not shown checkout gear and close, the running of not shown freeze cycle begins, and refrigerant is to evaporimeter 113 circulations and generate cold air, simultaneously, pressure fan 114 turns round and makes circulating cold air, thus, begins to cool down.Cold air 108 is supplied with from refrigerating chamber ejiction opening 153 to refrigerating chamber, to frozen food 157 and put into food 158 and cool off.At this moment, frozen food 157 and put into food 158 and cool off by the cold air that ventilates with from the cooling of following cold-storage spare 150.The part of cold air also is used for the cooling of cold-storage spare 150.But for the cooling of refrigerating chamber 108, being cooled to than set point of temperature is-20 ℃ high, and therefore, little with the temperature difference of the latent heat temperature-15 of cold-storage spare 150 ℃, cold air is mainly used in the cooling of food.In addition, the ventilation of cold air constitutes to container 127 interior ventilations by not shown ventilation.At this moment, the food of cold-storage spare 150 arranges face 162 and places and cover frozen food 157 and put into food 158, therefore, and mainly to frozen food 157 with put into food 158 and cool off.At this, frozen food 157 and put into food 158 more with the latent heat temperature of cold-storage spare 150 namely-15 ℃ approach, cold air is more many for the component of the cooling of cold-storage spare 150, but, for example, frozen food 157 and putting under food 158 situation for fish or meat, solidification point is near 0 ℃, maximum ice crystallization generating zone mostly is to-10 ℃, in this temperature band, mainly by the major part of cold air to frozen food 157 and put into food 158 and cool off.On the basis of the cooling that this cold air brings, by the cooling from cold-storage spare 150, rapidly by maximum ice crystallization generating zone.
Like this, under the situation that door 121 is opened, container 127 is pulled out from freezer main body 102, when cold-storage spare 150 is exposed in the extraneous air, by cold-storage spare 150, cooling in the container 127, the temperature of the frozen food 157 that can suppress to store rises, and the extraneous air of putting into of putting into food 158 and flowing into also by 150 coolings of cold-storage spare, therefore, can freeze at short notice.
In addition, the thermal capacity of cold-storage spare 150 is big, therefore, follows the part of the moisture in the extraneous air that the extraneous air of door 121 switching flows in cold-storage spare 150 dewfall or frosting.Under long situation of the time that next time opens and closes of door 121, distillation or evaporation in the cooling air that utilizes the cooling running to circulate and from surface removal, highly humid air is in evaporimeter 113 frostings, circulation by the cooling air in the cooling running as described below, remove moisture and the frost of the surface attachment of cold-storage spare 150, this cooling running circulates the Cryogenic air that has dehumidified once again, and the moisture of cold-storage spare 150 is removed in circulation around cold-storage spare 150.But, carry out at short notice under the situation about next time opening and closing of door 121, namely, cold-storage spare 150 residual owing on once under the state of the moisture that adheres to of the switching of door 121 and frost, open door 121 and put under the situation of food, under the situation of the food lower temperature of especially putting into, put into and close door at 121 o'clock will putting into food 158, because reaction is put into food 158 and is easily slided on cold-storage spare 150.In addition, the moisture that exists between this food and the cold-storage spare 150, namely therefore frost or ice be difficult to distil or evaporate because the cooling air is difficult to circulation, easily residual, opened door again under residual state at 121 o'clock, and its reaction also may make the food slip.Like this, even contingency produces and makes cold-storage spare 150 and put into the power that food 158 slides and moves to the rear of container 127 owing to the action of the switching of carrying out door 121 in a jumble or continually, cold-storage spare 150 is that the 127a of boundary portion conflicts with fixed mechanism, frozen food 157 and put into food 158 and conflict with food holding member 161.Therefore, cold-storage spare 150 is that the 127a of boundary portion can prevent the movement of incorporating section 163 rearward by fixed mechanism, frozen food 157 and put into food 158 and can prevent that by food maintaining body 161 from the food of cold-storage spare 150 face 162 being set stops at food to moving of preservation portion 163 position on the face 162 is set.In addition, about cold-storage spare 150 or frozen food 157 and put into food 158 movement forwards, can prevent the movement of any by the place ahead wall of container 127.
Because, can prevent from following the movement of cold-storage spare 150, putting into food 158 arranges face 162 from food and departs from, and, can suppress to put into the movement of self sliding and causing of food 158, even the reaction that exists the switching etc. of door 121 to bring, frozen food 157 and the heat of putting into food 158 are absorbed by cold-storage spare 150 expeditiously, the cool time in the time of can suppressing to heat up, shorten food and put into.
As mentioned above, in the embodiment 2, the food that food maintaining body 161 is located at the top food that cold-storage spare 150 is set arranges on the face 162, be at the rear of cold-storage spare 150 namely the opposition side of door 121 sides than food face 162 more outstanding shape is set.Thus, the food that suppresses cold-storage spare 150 arrange place on the face 162 put into food 158 since the on-off action of door 121 to than cold-storage part 150, more the incorporating section i.e. preservation portion 163 by the rear moves.
In addition, food maintaining body 161 arranges the mode of face 162 according to encirclement food, arrange entirely on four limits, in the embodiment 2, food maintaining body 161 is striden food, and that the periphery of face 162 is set is continuous, therefore, as implement mode 2, especially owing to utilize resin to form gabarit, therefore arrange under the situation of the formation that the low food of coefficient of friction of face easily slides for food, follow the switching of pulling out under the situation of multi-direction slip even suppose food, owing to be formed with food maintaining body 161 on whole four limits of food mounting portion, therefore, can suppress to put into the movement of self sliding and causing of food 158, even the reaction that the switching of existence door 121 etc. brings, the heat of putting into food 158 is absorbed by cold-storage spare 150 expeditiously, can suppress to heat up, cool time when shortening food is put into.
In addition, in this class formation that door 121 is pulled out to the freezer outside for drawer type door and container 127, the cold-storage spare 150 that is arranged on container 127 easily is exposed to extraneous air, dewfall and frosting on cold-storage spare 150 increase, the possibility that food slides increases, therefore, the fixed mechanism of embodiment 2 is that the slip inhibition of food of boundary portion 127a, depressed part 160 and food maintaining body 161 is especially effective.
In addition, the 127a of boundary portion that takes in the food maintaining body 161 that the zone possesses and the general freezing zone that does not possess cold-storage spare that possesses cold-storage spare forms smoothly via rake 127b, in other words, can not form the step at right angle in general freezing regional portion, therefore, further reduce the wind path resistance at the flow direction from the cold air of rear side, flow in the zone of taking in that makes cold air can namely possess cold-storage spare 150 swimmingly downstream, do not hinder the structure that cold air forwards flows from the rear of stage portion etc. owing to do not possess, therefore, for example can suppress to produce whirlpool and make from the cold air adverse current of taking in the zone of the food of taking in heat and to the i.e. preservation in freezing zone portion 163 in the flowing of cold air to flow, can further improve cooling effectiveness.
In addition, in the embodiment 2, with respect to the level height 163a of the face of taking in of the preservation portion 163 in the freezing zone of the frozen food 157 in the accommodating container 27, take in the level height 162a that the food of taking in the zone of putting into food 158 arranges the face of taking in of face 162 and be disposed at the high position.Thus, even suppose to put into food putting under the situation of food 158 for the higher food of temperature of face is set, because the air of heat does not flow downwards and flows upward, therefore, arrange at food under the situation of the hot air of face generation, can prevent that heating installation from flowing into to the level height 163a of the face of taking at least of preservation portion 163, can further suppress to put into the heat affecting of the frozen food 157 that 158 pairs of freezing zones of food i.e. preservation portion 163 takes in.
In addition, cold-storage spare 150 can load and unload, and possess the loading and unloading assisted parts 170 that mode that the finger according to user when the place ahead of depressed part 160 loading and unloading cold-storage spare 150 can enter forms at recess, possess loading and unloading maintaining part 171 in recess formation at the container with these loading and unloading assisted parts 170 opposed sides.They be sticked in respectively possesses on cold-storage spare 150, the cold-storage spare loading and unloading assisted parts 172 that forms at recess and the cold-storage spare loading and unloading maintaining part 173 that forms at protuberance, thus, the use sense during loading and unloading is good, and the location can load and unload reliably the time.Namely, cold-storage spare 150 is being installed under the state of depressed part 160, the loading and unloading assisted parts 170 of container 127 sides and cold-storage spare loading and unloading assisted parts 172 constitute connection by recess respectively, thus, user's finger is entered, availability when improving loading and unloading, further, by in the loading and unloading maintaining part 171 that is formed at container 127 sides, inserting cold-storage spare loading and unloading maintaining part 173, when cold-storage spare is installed, can locate reliably, when unloading cold-storage spare, can make these loading and unloading maintaining parts become fulcrum and easily unload cold-storage spare, therefore, can further improve user's availability.
In the embodiment 2, the injection portion that uses when injecting cold-storage liquid in the gabarit container of cold-storage spare forms this cold-storage spare loading and unloading assisted parts 172, therefore, forms cold-storage spare loading and unloading assisted parts 172 with more rational formation.
In addition, link the line 3D-3D of this cold-storage spare loading and unloading assisted parts 172 and cold-storage spare loading and unloading maintaining part 173 by the center line on the left and right directions of cold-storage spare, therefore, the weight of cold-storage spare is not is not roughly loaded and unloaded to the left and right on the bias, therefore, can bring loading and unloading sensation smoothly to the user.
In addition, as shown in Embodiment 2, the arranging of cold-storage spare 150 that is arranged at the container 127 of door 121 highly is 800mm, therefore, the position of door 121 is also near 800mm, it is 500mm~1200mm than the height that is easier to operate that door 121 is positioned at general people, therefore, apply manpower easily, the possibility height of following the reaction of door 121 switching to increase, therefore, the fixed mechanism of embodiment 2 is that the slip inhibition of food of boundary portion 127a, depressed part 160 and food maintaining body 161 is especially effective.
In addition, in the embodiment 2, the supplementary structure that the user stretches into finger when being used for loading and unloading cold-storage spare 150, form loading and unloading assisted parts 170 and cold-storage spare loading and unloading assisted parts 172, in addition, more smooth and easy and keep structure reliably as being used for making loading and unloading, in loading and unloading maintaining part 171, be provided with cold-storage spare loading and unloading maintaining part 173, but not necessarily need to possess both sides, structure according to user's needs and storeroom or cold-storage spare 150, for example, only be suitable for the situation that the supplementary structure only be formed for stretching into finger namely loads and unloads assisted parts 170 and cold-storage spare loading and unloading assisted parts 172, or only be suitable for as being used for making loading and unloading more smooth and easyly and keep structure reliably, in loading and unloading maintaining part 171, be provided with the situation of cold-storage spare loading and unloading maintaining part 173.
In addition, the structure that finger is stretched into as cold-storage spare, in the embodiment 2, load and unload being combined to form of assisted parts 172 by the loading and unloading assisted parts 170 of container 127 sides and the cold-storage spare of cold-storage spare 150 sides, but for example also can consider successfully to load and unload by only possess the loading and unloading supplementary structure of easy seizure finger at cold-storage spare 150.
Equally, more smooth and easy and keep structure reliably as being used for making loading and unloading, in with the loading and unloading maintaining part 171 of container 127 sides as recess structure, be provided with the cold-storage spare loading and unloading maintaining part 173 of cold-storage spare side as the protuberance structure, but these are so long as concavo-convex coincideing then is not limited to this combination.
(embodiment 3)
Below, with reference to accompanying drawing embodiment of the present invention 3 is described.
In addition, in embodiment 3, about the part identical with the formation that illustrated and technological thought in embodiment 1 and 2, omit detailed explanation, about the formation of applicable identical technological thought, can realize with the technology contents described in embodiment 1 and 2 and constitute the formation of combination.
Fig. 5 is the sectional side view of wanting portion of embodiment of the present invention 3.In addition, this embodiment 3 does not limit this invention.
Among Fig. 5, the food of aspect ratio cold-storage spare 150 of protuberance 156 that the back side that constitutes the cold-storage spare 150 of depressed part 160 does not namely possess the freezing area side of cold-storage spare 150 arranges face 162 height, on the basis as the function of fixed mechanism, also have the function of the food maintaining body 161 of the movement that is suppressed at the food of mounting on the cold-storage spare 150 concurrently.
Freezer about constituting as mentioned above describes its action below.
Thus, though the vibration that exists the switching etc. of door 121 to bring, frozen food 157 and put into food 158 and take heat expeditiously by force by cold-storage spare 150 and be cooled, therefore, the cool time in the time of can suppressing to heat up, shorten food and put into.In addition, fixed mechanism is the structure that protuberance 156 is given prominence to upward for the part of the bottom surface of the resin of container 127, therefore, for example, can moulding integratedly when the resin forming of container 127, therefore, can possess by with simpler formation and one-body molded fixed mechanism and the food maintaining body that possesses high rigidity.
(embodiment 4)
Fig. 6 A is the sectional side view of wanting portion of the freezer of embodiment of the present invention 4; Fig. 6 B is the stereogram of the container that possesses cold-storage spare of embodiment 4; Fig. 6 C is the stereogram of the cold-storage spare of embodiment 4; Fig. 6 D is the profile of 6D-6D direction of the cold-storage spare of embodiment 4; Fig. 7 is the sectional side view of wanting portion of the freezer of embodiment 4; Fig. 8 is the sectional side view of wanting portion of embodiment of the present invention 4;
In addition, in the embodiment 4, about the part identical with the formation that illustrated and technological thought in the embodiment 1~3, omit detailed explanation, about being suitable for the formation of identical technological thought, can realize the formation with the technology contents described in the embodiment 1~3 and formation combination.
Shown in Fig. 6 A~Fig. 6 D, the parts with cool storage function be cold-storage spare 150 in the inside bottom by two sections containers that are positioned at epimere 127 that constitute of refrigerating chamber 108, be arranged at the door 121 sides.In addition, possess and prevent that cold-storage spare 150 from following the switching of door and mobile fixed mechanism is protuberance 156, protuberance 156 is that the movement of fore-and-aft direction is purpose to stop to the switching direction of door 121, therefore, be that left and right directions is that the mode of length direction forms according to the switching direction right angle orientation with respect to door 121.
In addition, the resin enclosure of cold-storage spare 150 be provided with in the above the more smooth food that food is set arrange face 259, this food arrange face 259 around surrounding shape that food arranges face 259 outstanding absorbent portion 260 upward, this absorbent portion 260 has the function of the food maintaining body that the movement to the food of mounting on the cold-storage spare 150 suppresses.In addition, the mark 259a of the central authorities of the mounting part when food arranges face and possesses as the food mounting, for mark 259a, its core is that to be positioned at the switching direction of pulling out that face is set than food be that center line 6D-6D on the fore-and-aft direction is more by rear side to mark center 259b.
In addition, possess non-contact detecting mechanisms 280 such as infrared ray sensor at the wall with the opposed top of mark 259a, this non-contact detecting mechanism possesses in food the opposed position of face being set.That is, it is rear side on the center line 6D-6D on the fore-and-aft direction that mark 259a possesses in the switching direction of pulling out that food arranges face, and non-contact detecting mechanism 280 is positioned on the perspective plane of above-below direction of this center line 6D-6D.That is, the core of above-mentioned mark 259a is that mark center 259b is consistent on the projection line of above-below direction with non-contact detecting mechanism 280.
The food maintaining body is that the inner space of absorbent portion 260 exists gas 258 up, even it is stored in the capacity of the inside of absorbent portion 260 for the major part that also can make gas 258 under having tilted 5 ° situation at cold-storage spare 150.Thus, to arrange with interior level of incline with respect to 5 ° of horizontal directions under the situation of cold-storage spare 150, food arranges and does not have gas 258 under the face 259, and is full of cold-storage spare material (also claiming heat-storing material, to call cold-storage spare material in the following text) 257.
Like this, embodiment 4 is when forming the food maintaining body, utilizes the rational formation of the part formation food maintaining body of the gas 258 that forms in the inside of cold-storage spare 150 well.
In addition, cold-storage spare 150 can load and unload, and possess the loading and unloading assisted parts 170 that mode that the finger according to user when the loading and unloading cold-storage spare 150 can enter forms with recess at container 127, possess loading and unloading maintaining part 171 in recess formation at the container 127 with these loading and unloading assisted parts 170 opposed sides.They are sticked in respectively possesses the cold-storage spare loading and unloading maintaining part 173 that cold-storage spare on cold-storage spare 150, that form at recess loads and unloads assisted parts 172 and forms at protuberance, thus, and the location in the time of can installing reliably.Namely, cold-storage spare 150 is being installed under the state of depressed part 160, the loading and unloading assisted parts 170 of container 127 sides and cold-storage spare loading and unloading assisted parts 172 constitute connection by recess respectively, thus, user's finger is entered, availability when improving loading and unloading, further, by in the loading and unloading maintaining part 171 that is formed at container 127 sides, inserting cold-storage spare loading and unloading maintaining part 173, when cold-storage spare is installed, can locate reliably, when unloading cold-storage spare, can make these loading and unloading maintaining parts become fulcrum and easily unload cold-storage spare, therefore, can further improve user's availability.
In addition, in the embodiment 4, the part that this user's finger enters namely loads and unloads assisted parts 170 and cold-storage spare loading and unloading assisted parts 172 arranges according to the mode that is positioned at the right side under the situation of opening the storeroom that possesses cold-storage spare 150 the user.That is, loading and unloading assisted parts 170 and cold-storage spare loading and unloading assisted parts 172 is formed at the right side of storeroom, and therefore, the action when general right-handed user loads and unloads cold-storage spare 150 is more smooth and easy, easily assembling.
In addition, be that the gabarit of cold-storage spare 150 is made as resin by the cold-storage parts that will have cool storage function, user's finger can not followed loading and unloading and cling cold-storage spare, and the action during loading and unloading cold-storage spare 150 is safer and smooth and easy, easily assembling.
In addition, in the embodiment 4, the injection portion that uses when injecting cold-storage liquid in the gabarit container of cold-storage spare forms this cold-storage spare loading and unloading assisted parts 172, therefore, can form cold-storage spare loading and unloading assisted parts 172 with more rational formation.
In addition, link the line 6C-6C of this cold-storage spare installation assisted parts 172 and cold-storage spare installation maintaining part 173 by the center line on the fore-and-aft direction of cold-storage spare, therefore, the weight of cold-storage spare is not is not roughly loaded and unloaded to the left and right on the bias, therefore, can bring loading and unloading sensation smoothly to the user.
In addition, height dimension about the upper surface of the cold-storage spare 150 that to refrigerating chamber 108, has, owing to possess vegetable compartment 109 below heat insulating box 101, that be used for making the castor 151 that freezer main body 102 can easily move and the below that is arranged at refrigerating chamber 108, be arranged at above ground above 152 800mm.
Refrigerating chamber ejiction opening 153 is ejiction openings that ejection is used for the cold air of cooling refrigerating chamber 108, and refrigerating chamber outlet 154 is with the outlet of refrigerating chamber 108 cooled cold air from refrigerating chamber 108 Returning evaporimeters 113.Feed path 155 is passages that the cold air for refrigerated compartment 107 ventilates.
Cold-storage spare 150 is arranged at the bottom of container 127, the front of cold-storage spare 150 is that the inner face ways of connecting in the place ahead is configured according to the door 121 with container 127, the back of cold-storage spare 150 is according to being configured with the front ways of connecting of conduct from the protuberance 156 of the outstanding fixed mechanism in the bottom of container 127, thus, on fore-and-aft direction, do not fix movably.
In addition, cold-storage spare 150 exists cold-storage spare material 257 and gas 258 in its airtight resin enclosure.Gas 258 is air.Resin enclosure is that appearance and size is that wide 300mm, depth 300mm, height are the blow molding product of the polyvinyl resin of 20mm, thickness 1.5mm.Cold-storage spare material 257 be lower than the solidification point of general freezing food and than the temperature of maximum ice crystallization generating zone low and than the temperature of refrigerating chamber 108 high temperature namely has the material of latent heat in-15 ℃, charging quantity is held following heat, and this heat has and is equivalent to be arranged at the amount of top volume of food, for example is equivalent to from the latent heat amount of the summation that is equivalent to 30 ℃~-10 ℃ latent heat amount and sensible heat amount.That is, under the situation that cold-storage spare 150 freezes, can not melt fully when putting into normally used general food.
In container 127, be placed with the frozen food of having preserved 157 and newly put into put into food 158.
In addition, be used for the cool-air feed of refrigerated compartment 107 and vegetable compartment 109 and circulate not shown, but constitute with to possess cold-storage spare and can be set at cool-air feed wind path that the storeroom of cryogenic temperature band cools off mutually independently, different wind path.
Freezer about the present embodiment that constitutes as mentioned above describes its action below.
Cold-storage spare 150 and frozen food 157 are cooled and freeze to namely-20 ℃ of the set points of temperature of refrigerating chamber 108.As shown in Figure 6A, door 121 opened and the food that food 158 is positioned over cold-storage spare 150 of putting into that will be equivalent to 5 ℃ of refrigerated storage temperatures arranges under the top situation of face 259, put into food 158 and take heat by force by the cold-storage spare 150 that freezes to-20 ℃ putting into the back, begin to cool down.At this moment, cold-storage spare 150 is i.e.-20 ℃~-15 ℃ intensifications to the sensible heat territory by heat absorption, and in latent heat territory-15 ℃ maintenance and the temperature difference of putting into food 158, a part is melted simultaneously.In addition, flow into the extraneous air of container 127 also by 150 coolings of cold-storage spare, compare with present freezer, the air in the container 127 can keep low temperature, also can cool off by this Cryogenic air and put into food 158.At this moment, the cold-storage spare material of cold-storage spare 150 257 is i.e.-20 ℃~-15 ℃ intensifications to the sensible heat territory by heat absorption, ℃ are kept for carrying out with the extraneous air of putting into food 158 or flow into the temperature difference of the appropriateness of heat exchange in latent heat territory-15, and a part is melted simultaneously.Not under the situation of cold-storage spare of latent heat type, by putting into the cooling of food 158, on the basis of low temperatureization, follow by the intensification of cold-storage spare and carry out heat exchange, temperature difference reduces, to put into food 158 is cooled to set point of temperature and needs the time, but use the cold-storage spare 150 of latent heat temperature-15 ℃ in the embodiment 4, therefore, carry out heat exchange when the maximum ice crystallization generating zone that freezes correlation of attributes of input food 158 is namely made an appointment with-10 ℃, big temperature difference can be guaranteed, maximum ice crystallization generating zone can be passed through rapidly.In addition, the latent heat temperature is ℃ higher than freezer temperature-20, and therefore, it is poor to guarantee be used to freezing cold-storage spare 150 necessary heat exchange temperature.
In addition, under the situation that door 121 is opened, under the situation of the frozen food of preserving before existing 157,150 coolings of cold-storage spare flow into the extraneous air in the containers 127, compare with present freezer, remain low temperature around the frozen food 157.In addition, compare with present freezer, can suppress to interfere the intensification that causes from the heat of putting into food 158.
Afterwards, as shown in Figure 7, when door 121 is closed, utilize contactless detection device such as infrared ray sensor 280 to detect the temperature of putting into food 158, be certain fixed temperature when above, be judged as and carry out quick-frozen, and the running of beginning freeze cycle (not shown), refrigerant generates cold air to evaporimeter 113 circulations, simultaneously, pressure fan 114 turns round and makes circulating cold air, thus, begins to cool down.Like this, in the embodiment 4, the temperature of utilizing 280 pairs in non-contact detecting mechanism to put into food 158 detects and is fixed temperature when above, begins freezing running automatically.
Thus, cold air 108 is supplied with from refrigerating chamber ejiction opening 153 to refrigerating chamber, rapidly to frozen food 157 and put into food 158 and cool off.At this moment, putting into food 158 cools off by the cold air that ventilates with from the device that the food of cold-storage spare 150 arranges cooling two aspects of face 259.Thus, putting under the higher situation of putting into food 158 of temperature, by carrying out the quick-frozen running automatically rapidly, can prevent to around the temperature effect of the frozen food of preserving in advance 157, the result can prevent other parts of temperature effect of container 127 integral body of refrigerating chamber, therefore, concentrate and utilize cold-storage spare 150 and cold gas two sides to cool off by the food 158 put into that temperature is high, the freezing load of freezer integral body is reduced rapidly, can realize energy-conservation and high-quality freezing preservation.
In addition, the part of cold air also is used in the cooling of cold-storage spare 150.But about the cooling of refrigerating chamber 108, being cooled to than set point of temperature is-20 ℃ high, and therefore, little with the temperature difference of the latent heat temperature-15 of cold-storage spare 150 ℃, cold air mainly is used in the cooling of food.In addition, the ventilation of cold air constitutes to container 127 interior ventilations by not shown ventilation.At this moment, the food of cold-storage spare 150 arranges face 259 and places and cover frozen food 157 and put into food 158, therefore, and mainly to frozen food 157 with put into food 158 and cool off.At this, frozen food 157 and put into food 158 more with the latent heat temperature of cold-storage spare 150 namely-15 ℃ approach, cold air is more many for the component of the cooling of cold-storage spare 150, but, for example, frozen food 157 and putting under food 158 situation for fish or meat, solidification point is near 0 ℃, maximum ice crystallization generating zone mostly is to-10 ℃, in this temperature band, mainly by the major part of cold air to frozen food 157 and put into food 158 and cool off.On the basis of the cooling that this cold air brings, by the cooling from cold-storage spare 150, rapidly by maximum ice crystallization generating zone.
In addition, under the situation that door 121 is opened, container 127 is pulled out from freezer main body 102, when cold-storage spare 150 is exposed in the extraneous air, by cold-storage spare 150, be cooled in the container 127, the temperature that suppresses the frozen food 157 of storage rises, and the extraneous air of putting into of putting into food 158 and flowing into also by 150 coolings of cold-storage spare, freezes at short notice.
The part of the moisture in the extraneous air that the extraneous air when in addition, following door 121 switching flows into is in cold-storage spare 150 dewfall or frosting.Under long situation of the time that next time opens and closes of door 121, distillation or evaporation in the cooling air that utilizes the cooling running to circulate and from the surface removal of cold-storage spare 150, highly humid air is in evaporimeter 113 frostings, circulation by the cooling air in the cooling running as described below, remove moisture and the frost of the surface attachment of cold-storage spare 150, this cooling running circulates the Cryogenic air that has dehumidified once again, and the moisture of cold-storage spare 150 is removed in circulation around cold-storage spare 150.But, carry out at short notice under the situation about next time opening and closing of door 121, namely, cold-storage spare 150 residual owing on once under the state of the moisture that adheres to of the switching of door 121 and frost, open door 121 and put under the situation of food, under the situation of the food lower temperature of especially putting into, put into and close door at 121 o'clock will putting into food 158, because its reaction is put into food 158 and at food easily slip on the face 259 is set.In addition, afterwards, the moisture that exists between this food and the cold-storage spare 150, namely frost or ice since the cooling air be difficult to circulate, therefore be difficult to distil or evaporate, easily residual, under residual state, opened door again at 121 o'clock, its reaction also may make food slide.Like this, even contingency produces and makes cold-storage spare 150 and frozen food 157 and put into the power that food 158 slides and moves to the rear of container 127 owing to the action of the switching of carrying out door 121 in a jumble or continually, cold-storage spare 150 mechanism that is fixed is that the protuberance 156 of container 127 is fixing, therefore, do not move.In addition, prevent cold-storage spare 150 from following the switching of door and mobile fixed mechanism be protuberance 156 to stop to the switching direction of door 121 is that the movement of fore-and-aft direction is purpose, therefore, be that left and right directions is that the mode of length direction forms according to the switching direction right angle orientation with respect to door 121, therefore, can suppress to follow the movement of cold-storage spare 150 of the switching of door 121 more reliably.
In addition, therefore frozen food 157 and put into food 158 and cold-storage spare 150 outstanding absorbent portions 260 and conflict, can prevent that so also from food the rearward preservation of face 259 portion 263 being set moves, and arranges on the face 259 at food and successfully cools off.
In addition, the mark 259a of the central authorities of the mounting part when food arranges face and possesses as the food mounting, for mark 259a, its core is that to be positioned at the switching direction of pulling out that face is set than food be that center line 6C-6C on the fore-and-aft direction is more by rear side to mark center 259b, therefore, even suppose owing to follow the inertia force of the obstruction of pulling out, putting into food 158 has carried out under the mobile situation, even near the food 158 of putting into that is positioned at the mark center 259b moves, also can promote to put into food 158 and be positioned at food face is set.
Like this, about cold-storage spare 150 or frozen food 157 and put into food 158 movement forwards, can prevent the movement of any by the place ahead wall of container 127.Therefore, can freezing-inhibiting food 157 or put into the movement that the slip of food 158 causes, even the reaction that exists the switching etc. of door 121 to bring, frozen food 157 and the heat of putting into food 158 are absorbed by cold-storage spare 50 expeditiously, the cool time in the time of can suppressing to heat up, shorten food and put into.
In addition, in the embodiment 4, the part that this user's finger enters namely loads and unloads assisted parts 170 and cold-storage spare loading and unloading assisted parts 172 arranges according to the mode that is positioned at the right side under the situation of opening the storeroom that possesses cold-storage spare 150 the user.Namely, loading and unloading assisted parts 170 and cold-storage spare loading and unloading assisted parts 172 are formed at the right side of storeroom, therefore, action when general right-handed user loads and unloads cold-storage spare 150 is more smooth and easy, easily assembling can possess the cold-storage spare that can load and unload 150 of the universal design of the usability of having realized considering the user.
In addition, in the embodiment 4, putting under the higher situation of putting into food 158 of temperature, by carrying out the quick-frozen running automatically rapidly, can prevent to around the temperature effect of the frozen food of preserving in advance 157, the result can prevent other parts of temperature effect of container 127 integral body of refrigerating chamber, therefore, concentrate and utilize cold-storage spare 150 and cold gas two sides to cool off by the food 158 put into that temperature is high, the freezing load of freezer integral body is reduced rapidly, can realize energy-conservation and high-quality freezing preservation.
In addition, owing to buying or power supply stop for a long time etc. making under the state that the cold-storage spare material 257 of cold-storage spare 150 melts fully, liquid level is positioned at and is positioned at the absorbent portion 260 that food arranges the top of face 259.Afterwards, by cooling, 257 volumetric expansions of cold-storage spare material are also freezed.The gas 258 that this volumetric expansion is absorbed in the portion 260 absorbs, liquid level is risen and freeze, therefore, food arranges the gas 258 that is difficult to exist the expansion absorption that hinders heat conduction to be used on the face 259, in addition, can reduce the warpage that food that freezing expansion causes arranges face 259, therefore, can successfully keep with frozen food 157 and put into contacting of food 158.That is, absorbent portion 260 is used for absorbing the Volume Changes of the phase change of following heat-storing material.Thus, cooling quick-freezing food 157 and put into food 158 expeditiously, intensification, the cool time when shortening food and putting into that can suppress food.
In addition, be in drawer type door and container 127 this type of the structure of pulling out to the freezer outside at door 121, the cold-storage spare 150 that is arranged at container 127 easily is exposed in the extraneous air, frosting and dewfall at cold-storage spare 150 increase, the possibility that food slides raises, therefore, the slip inhibition of the food on the absorbent portion 260 of embodiment 4 is especially effective.
In addition, as implement mode 4, the arranging of cold-storage spare 150 that is arranged at the container 127 of door 121 highly is 800mm, and therefore, the position of door 121 is also near 800mm, it is 500mm~1200mm than the height that is easier to operate that door 121 is positioned at general people, therefore, apply manpower easily, the possibility height of following the reaction of door 121 switching to increase, therefore, the slip inhibition of the food on the absorbent portion 260 of embodiment 4 is especially effective.
In addition, in the embodiment 4, non-contact detecting mechanism 280 be positioned at the opposed position of mark 259a on, even suppose under inconsistent situation, as long as non-contact detecting mechanism 280 is positioned at the arbitrary place on the perspective plane of above-below direction of center line 6D-6D, when opposite house opens and closes, even food has carried out also can detecting reliably by non-contact detecting mechanism 280 under the mobile situation.Preferably, by making non-contact detecting mechanism possess the middle body of the face that arranges in food, mark 259a possesses in the rear side of food mounting portion, under with the door closing state, on fore-and-aft direction, non-contact detecting mechanism 280 is positioned at the side more on the front than the core 259b of mark 259a, therefore, can imagine following situation, namely, even suppose owing to follow the inertia force of the obstruction of pulling out, put into food 158 and carried out under the mobile situation, be positioned at and put into further side shifting forwards of food 158 near the mark center 259b, therefore, can make and put into the correct detection range that food 158 is positioned at non-contact detecting mechanism 280, can put into the temperature detection of food 158 more accurately, therefore, such formation is also passable.
(embodiment 5)
Fig. 9 A be embodiment of the present invention 5 freezer want portion's sectional side view; Fig. 9 B is the stereogram of the cold-storage spare of embodiment 5; Fig. 9 C is the sectional side view of 9C-9C direction of the cold-storage spare of embodiment 5; Figure 10 is the comparison diagram of the freezing cooling time of the quick-frozen of embodiment 5 and other modes.
In addition, in the embodiment 5, about the part identical with the formation that illustrated and technological thought in the embodiment 1~4, omit detailed explanation, about being suitable for the formation of identical technological thought, can realize the formation with the technology contents described in the above-mentioned embodiment 1~4 and formation combination.
Among Fig. 9 A~Fig. 9 C, the heat insulation dividing body 305 in bottom that the part of the storeroom of the freezer main body 302 that is made of heat insulating box 301 is refrigerating chamber 303 by the heat insulation dividing body 304 in the top of top and below is divided into temperature band different refrigerating chamber 306 and vegetable compartment 307.In addition, the front openings portion at refrigerating chamber 303 is provided with the dividing body of holding about connection 308.
Cold air at the back side that is arranged at refrigerating chamber 303 generates chamber 309 and disposes the evaporimeter 310 that generates cold air and the pressure fan 311 of respectively cold air being supplied with, being circulated to refrigerating chamber 306, refrigerating chamber 303, vegetable compartment 307, alive defrosting heater 312 when the lower space of evaporimeter 310 disposes defrosting.In addition, the back side of refrigerating chamber 303 is provided with cold air distributor chamber 319, is provided with cold air ejiction opening 321 and cold air ejiction opening 322 continuously at cold air distributor chamber 319.This cold air ejiction opening 321 and cold air ejiction opening 322 are directly supplied with the cold air that is cooled to low temperature by evaporimeter 310, and any of cold air ejiction opening 321 or cold air ejiction opening 322 is from the blow-off outlet of evaporimeter 310 by the cold air of the shortest wind path supply.
Front openings portion at refrigerating chamber 303 is provided with door 323 and door 324, and it seals refrigerating chamber 3 so that cold air does not flow into from refrigerating chamber 303.Door 323 and door 324 all are the drawer type doors, take out when putting into food, to the freezer front side, be that left direction among Fig. 9 is pulled out and used.In addition, be respectively equipped with framework 325,326 at the rear of door 323 and door 324.At this framework 325,326 difference mounting epimere container 327 and hypomere containers 328.
There is cooling to promote parts 329 in the bottom surface of epimere container 327 mounting.Cooling promotes that parts 329 are cold-storage spare 329a, and this cold-storage spare 329a is-15 ℃ in the temperature lower and lower and higher than the temperature of refrigerating chamber 303 than the temperature of maximum ice crystallization generating zone than the solidification point of usually freezing food and sets thaw temperatures.In addition, as the charging quantity of cold-storage spare 329a, even be set at the amount that also can not melt fully under the situation on the cold-storage spare 329a is put into, is disposed to food.
The metal that the crust of cold-storage spare 329a is good by thermal conductivity, corrosion resistance is strong namely for example aluminium form.
At cold-storage spare 329a, the bubble that the face instant food mounting 329b of portion that the air that is used for comprising in the gabarit container with cold-storage spare 329a contacts with cold-storage spare 329a from food gets rid of accumulates 329c and is arranged at gabarit above the cold-storage spare.Namely, on above-below direction, bubble accumulates the 329c of place and is positioned at than the food mounting 329b of portion more by upper side, therefore, mounting under the situation of cold-storage spare, enter the cold-storage spare material 329d of inside of cold-storage spare because gravity and mobile downwards, the air that comprises in the external container of cold-storage spare 329a is by accumulating the 329c of place and move to being positioned at more the bubble of upper portion, cold-storage spare material is contacted with the inner face of the food mounting 329b of portion reliably, further improve the heat transfer efficiency of the food mounting 329b of portion.
Like this, for cold-storage spare material 329d is contacted with the inner face of the food mounting 329b of portion reliably, cold-storage spare 329a water product are arranged and the topmost 329da of the cold-storage spare material 329d when freezing is positioned at the top more than the inner face side 329ba of the gabarit container of the cold-storage spare at least of the food mounting 329b of portion.
In addition, cold-storage spare 329a can load and unload, and the cold-storage spare loading and unloading assisted parts 372 that possesses that mode that the finger according to user when the container loading and unloading cold-storage spare 329a can enter possesses on cold-storage spare 329a and form at recess and the cold-storage spare loading and unloading maintaining part 373 that forms at protuberance, this loading and unloading maintaining part 373 can be carried out loading and unloading and the location of cold-storage spare reliably by engaging with the recess that possesses in vessel side.For example, even under the situation that the user loads and unloads cold-storage spare 329a, also can make bubble accumulate the 329c one of place by this location and be positioned upper side, therefore, can make the roughly comprehensive engagement of the inner face of cold-storage spare material 329d and the food mounting 329b of portion, further improve the heat transfer efficiency of the food mounting 329b of portion.
In addition, in the embodiment 5, in the gabarit container of cold-storage spare, injecting this cold-storage spare loading and unloading assisted parts 372 of injection portion formation that uses when cold-storage liquid is cold-storage spare material 329d.
In addition, link the line 9B-9B of this cold-storage spare loading and unloading assisted parts 372 and cold-storage spare loading and unloading maintaining part 373 by the center line on the left and right directions of cold-storage spare.
In addition, bubble accumulates the 329c of place and has the function that keeps the food maintaining body that food do not come off from the food mounting 329b of portion, and in the embodiment 5, the food maintaining body arranges the mode of the periphery of the 329b of portion according to surrounding food, possesses continuously on whole four limits.Thus, as implement mode 5, especially for making the coefficient of friction of food mounting portion low owing to cold-storage spare 329a forms gabarit by resin, under the situation of the formation that food easily slides, even suppose food follow pull out the door switching and under the situation of multi-direction slip, owing to be formed with the food maintaining body on whole four limits of food mounting portion, therefore, can suppress the movement that the slip of food self brings, even the reaction that the switching of existence door etc. brings, the heat of putting into food also can absorb expeditiously by cold-storage spare, can suppress to heat up, cool time when shortening the food input.
In addition, be provided be used to sucking cold air and guiding to the cold air sucting inlet 330 of evaporimeter 310 in the lower backside of refrigerating chamber 303.
In addition, food 331 is put, is stored on the cold-storage spare 329a by user's hand shovelling.
About the freezer that constitutes as mentioned above, below its action, effect are described.
At first, behind the connection power supply, the running of not shown freeze cycle begins, and refrigerant is to evaporimeter 310 circulations and generate cold air.The cold air that generates is carried to cold air distributor chamber 319 by pressure fan 311, distributes from cold air ejiction opening 321 and cold air ejiction opening 322, to refrigerating chamber 303 interior ejections.
By being ejected to the cold air in the refrigerating chamber 303, refrigerating chamber 303 is cooled to the temperature of regulation, and simultaneously, cold-storage spare 329a also is cooled.At this moment, refrigerating chamber 303 adjustment are to food product refrigeration being stored in certain temperature during fixing, for example-20 ℃, but cold-storage spare 329 uses thaw temperature is set in high more 5 ℃ i.e.-15 ℃ the material of temperature of design temperature than storeroom, therefore, after refrigerating chamber 303 fully was cooled and passes through certain hour, cold-storage spare 329a became the state that freezes fully.
The cold air that has carried out cooling in the refrigerating chamber 303 is entered cold air from cold air sucting inlet 330 generate chamber 309, be cooled again by evaporimeter 310.
The user desires to take under the situation of food 331, carries out the action that door 323 is pulled out to the left direction among freezer the place ahead, Fig. 9.At this moment, framework 325 is fixed in door 323, therefore, follows the action of pulling out of door, and framework 325 and mounting are drawn out in the cold-storage spare 329a of the bottom surface of epimere container 327 simultaneously in epimere container 327, the mounting of framework 325.The user carries out food 331 is positioned over the action that cold-storage spare 329a went up and closed door 323.When owing to putting into of 323 opening of door, the food 331 higher than refrigerating chamber 303 temperature refrigerating chamber 303 being heated up, utilize in the freezer and heat up in temperature-detecting device (not shown) the detection freezer, utilize control device (not shown) to regulate the running of freeze cycle, carry out again refrigerating chamber 303 being cooled to the action of set point of temperature.
Cold air ejiction opening 321 is disposed at the top of epimere container 327, from cold air ejiction opening 321 peristome ejection cold air above epimere container 327.The food 331 that is accommodated on the cold-storage spare 329a is cooled by the heat transmission that the cold air from 321 ejections of cold air ejiction opening brings, and simultaneously, self also directly takes heat by force by heat conduction cold-storage spare 329a.That is, with do not have cold-storage spare 329a only the situation of epimere container 327 compare, transmit two sides by combination heat conduction and heat and cool off, can be energy-conservation and frozen food 331 more quickly.
And, cold air ejiction opening 322 can cool off by the cold-storage spare 329a to direct cooling food 331 from the below, therefore, cooling body is that cold air can be by more cooling off with being positioned at than cold gas cold-storage spare 329a cold air ejiction opening 322 more on the lower, that spray from a plurality of blow-off outlets by the cold air ejiction opening 321 of top from being positioned at than the food mounting 329b of portion.Therefore, though since on cold-storage spare 329a the higher food of mounting temperature, and the temperature of cold-storage spare 329a is risen or the situation of melting under, also can promptly recover ability that food is cooled off fast, and cooling capacity is continued.
And, in the embodiment 5, directly supply with the cold air that is cooled to low temperature by evaporimeter 310 to this cold air ejiction opening 321 and cold air ejiction opening 322, and, cold air ejiction opening 322 is blow-off outlets of the cold air supplied with by the shortest wind path from evaporimeter 310, and cold air ejiction opening 321 is blow-off outlets of the wind path near apart from evaporimeter 310 second.Thus, the air of lowest temperature is supplied with to cold air ejiction opening 321 and cold air ejiction opening 322 in the cold gas of freezer, forms cooling body with the cold air of the low temperature of further reduction heat loss, therefore, further improves the ability of cooling fast.
As mentioned above, in the embodiment 5, as cooling body, by from the cold gas of cold air ejiction opening 321 with from a plurality of cooling bodies of the cold gas of cold air ejiction opening 322, cool off, on this basis, promote that by cooling parts are cold-storage spare 329a, further cool off rapidly.
In addition, storeroom be positioned at the refrigerating chamber 303 that carries out the cooling rapidly that such cryogenic temperature band brings about.Thus, being positioned at the freezer that the storeroom of topmost or foot constitutes with refrigerating chamber 303 that either party up and down is connected with extraneous air via heat insulation material compares, even under the situation that the cold air that quick cooling brings leaks by heat conduction via thermal wall, the cold air that is brought by quick cooling in the cooling also is used in the cooling of the storeroom of refrigerating chamber 306 or vegetable compartment 307.Therefore, as freezer integral body, also can realize energy-conservation.
In addition, food 331 has been taken in, has freezed to be stored in the epimere container 327, when consideration is appended the situation of putting into epimere container 327 with the food 331 of high temperature, compare with the situation that does not have cold-storage spare 329a, direct cooling effect by cold-storage spare 329a, can suppress the heat affecting for the food 331 of taking in, freezing to preserve, suppress to heat up.
Promote parts 329 to be made as cold-storage spare 329a by cooling off, can set temperature with the contact-making surface of food arbitrarily by cold-storage spare selected, can cooperate and preserve environment temperature and select cooling to keep temperature arbitrarily.
Cold-storage spare 329a generally thaw temperature is set at than the solidification point of freezing food 331 low and lower and than namely-15 ℃ of high about the 5 ℃ temperature of the temperature of refrigerating chamber 303 than the temperature of maximum ice crystallization generating zone, can freeze cold-storage spare 329a reliably.Thus, latent heat that can the cooling continuous capability of cold-storage spare 329a is the highest is used for the food cooling, and, generally can increase with normal temperature near the temperature difference of putting into food, therefore, the heat transfer efficiency of cold-storage spare 329a and food can be improved, therefore, the raising of the freezing speed of food 331 can be realized.
Like this, in the embodiment 5, promote that by cooling off parts are cold-storage spare 329a, improve the cooling velocity of food, further utilize the cold gas of directly supplying with from evaporimeter 310 to cool off cold-storage spare 329a from above-below direction two sides.Thus, can access with at present general home-use freezer in irrealizable, cryogenic temperature be-60 ℃ of cooling velocities that industrial freezer is complementary.
Figure 10 represents the comparison diagram of the cooling time that the quick-frozen of embodiment 5 and other modes are freezing.
Test summary when carrying out the experiment of Figure 10 is as described below.
Trial target: tuna 200g, thickness 2cm, and pack with preservative film.
Test method: the method by embodiment 5 is namely newly freezing, goes up at cold-storage spare (15 ℃ freeze, 810g, crust thickness of slab 1.3mm) and carries out freezing from above-below direction sustainable supply cold air.From quick-frozen begin on the aluminium sheet from above sustainable supply cold air carry out quick-frozen, from common freezing beginning on the aluminium sheet from above according to be adjusted to mode that cryogenic temperature sets at any time cool-air feed carry out freezing (space AT25 ℃ of 1TFC epimere quick-frozen), carry out-60 freezingly, and be positioned over industrial freezer YASUDA chest freezer.
According to Figure 10, about the formation of using embodiment 5 be cold-storage spare further to supply with cooling body from above-below direction two sides be the cooling velocity of " newly freezing " of cold air, begin during from 0 ℃ of the temperature arrival of food to the time of the temperature-5 by maximum ice crystallization generating zone ℃ be 60 minutes.It is usually freezing 120 minutes 1/2, is 3/5 of present quick-frozen 100 minutes, has significantly improved speed, for the industrial freezer that namely is made as-60 ℃ cryogenic temperature with freezer with general industrial is equal to or high slightly cooling velocity mutually.
Like this, be home-use freezer but can realize that with-60 ℃ cryogenic temperature be the cooling velocity that industrial freezer is equal to mutually, and can realize the quick cooling under the power save mode, in the real machine of home-use freezer, on the formation and energy consumption of practicality, obtain significant effect.
In addition, will realize in home-use freezer that as mentioned above with-60 ℃ cryogenic temperature be that the quality of the food after the cooling velocity that is equal to mutually of industrial freezer compares in Figure 11 A~C.
Figure 11 A, Figure 11 B, Figure 11 C are the photos of the cell of employed tuna in the above-mentioned experiment being photographed with the SEM photo.Figure 11 A be-60 ℃ freezing, utilize industrial freezer YASUDA chest freezer to carry out freezing photo, Figure 11 B is that (15 ℃ are freezed at cold-storage spare, 810g, crust thickness of slab 1.3mm) go up from the above-below direction sustainable supply cold air photo that scanning frequency freezes of going forward side by side, Figure 11 C be from common freezing beginning onboard from the top according to being adjusted to mode that cryogenic temperature sets cool-air feed and carry out freezing photo at any time.
Observe these cells, in-60 ℃ industrial freezer, carry out its cell of tuna big or small roughly the same of quick-frozen, in addition, almost can't see the destruction of the cell membrane between cell and cell.In addition, in the quick-frozen of embodiment 5, on the cell membrane between cell and the cell, can see the tissue of adhesion a little, but the sizes of cell etc. are little roughly the same.With respect to this, its cell of tuna of cooling significantly breaks usually, becomes the irregular tissue that differs greatly with above-mentioned Figure 11 A, Figure 11 B.
Hence one can see that, and the quick-frozen of embodiment 5 is worse than-60 ℃ industrial freezer, but it is realizing on the energy-conservation basis, can realize roughly the freezing quality that is equal to mutually with-60 ℃ industrial freezer in general home-use freezer.
It promotes the quick cooling that parts are the direct cooling effect that brings of the heat conduction of cold-storage spare, a plurality of cooling bodies of simultaneously food and cold-storage spare being cooled off from above-below direction bring to realize by cooling, it is the invention that to play extraordinary practical function as described below, namely can be with the freezer of simpler and consuming little energy, reach the degree that roughly is equal to-60 ℃ industrial freezer as mentioned above, and improve freezing quality.
In addition, Figure 12 A, Figure 12 B, Figure 12 C utilize snap frozen that the formation of embodiment 5 brings with the experimental result under the situation of fresh meal cooling of coming out of the stove, and Figure 12 A is the figure of expression needed time of snap frozen; Figure 12 B is the result that sense that the delicious food to fresh meal of coming out of the stove and the freezing meal after the snap frozen compares is estimated; Figure 12 C represents the result that the moisture to fresh meal of coming out of the stove and the freezing meal after the snap frozen compares.
Test summary when carrying out the experiment of Figure 12 A, Figure 12 B, Figure 12 C is as described below.Trial target is 170g meal (70*80*35mm), and packs with preservative film, preserves 7 days.As test method, as enforcement mode 5, utilize cold-storage spare and from the cooling of upper and lower surface, put at 40 ℃, after packing with preservative film, after central temperature naturally cools to 40 ℃ (25 ℃ of external air temperatures), snap frozen on cold-storage spare.
Then, put into after coming out of the stove, after will putting into 70 ℃ the fresh meal of coming out of the stove that preservative film is packed, snap frozen on cold-storage spare.To utilize the freezing preservation of the freezing meal of said method after 7 days, utilize micro-wave oven 600W heating to thaw in 3 minutes.
Sense is estimated: 7 stage relative evaluations (blank: newly freezing), carry out sense evaluation (N=10) by 10 people
According to the result who estimates by above-mentioned experiment, compare with at first fresh meal of coming out of the stove being cooled at normal temperatures the situation of carrying out snap frozen (newly freezing) after 40 ℃, its sense evaluation of situation of 70 ℃ fresh meals of coming out of the stove directly being carried out snap frozen (newly freezing) can access preferred result.
During the observation moisture, 70 ℃ fresh meals of coming out of the stove are directly carried out the meal of snap frozen and fresh meal of coming out of the stove keep moisture containing ratio more than 60% equally, be reduced to below 60% but be cooled to its moisture of meal that carries out snap frozen after 40 ℃, this moisture reduces can influence food flavor (Figure 11 C).
In addition, in this experimental result, it is more than fresh meal moisture amount of coming out of the stove to carry out freezing meal after with preservative film fresh meal of coming out of the stove being packed, this be by rapidly with preservative film pack make meal around the air that exists significantly reduce, further suppress the result from the evaporation of the moisture of meal.
Like this, freezing speed about food, general expression q=h (thermal conductivity factor) A (contact area) the Δ t (temperature difference) of heat-transfer rate, hA is under certain situation, the temperature difference of food 331 and cold-storage spare 329a is the main cause that heat-transfer rate is changed, and in order to increase the temperature difference of cold-storage spare 329a and food to greatest extent, and it is freezed fully, and in cooling, use the high latent heat of fusion of cooling vitality, select the cold-storage spare material of the latent heat of fusion of temperature height+5 degree that have than refrigerating chamber 3.
Under the situation of the cold-storage spare material of selected such cold-storage spare, by putting into the high food of temperature, suppose that its cooling effectiveness significantly reduces under the situation that cold-storage spare material melts.Therefore, at present in the home-use freezer that uses in the general family, the quality under the situation of melting from hypothesis cold-storage spare material reduces, and is difficult to selected cold-storage spare material with latent heat of fusion of temperature height+5 degree than refrigerating chamber 303.As implement mode 5, and supply with the live gas that provides from evaporimeter 310 from the above-below direction two sides of cold-storage spare 329a and the formation of cryogenic temperature band cold air by being made as, can possess the cold-storage spare that has more near the solution temperature of storeroom temperature.Under this situation, setting as more reliable coolant can possess cooling promotion parts as described below, namely, its with storeroom be the highest design temperature in the design temperature of refrigerating chamber 303 as benchmark, this high design temperature be set at be at least 7 ℃ with interior, preferably have higher cooling capacity during with interior thaw temperature at 5 ℃.
In addition, the minimum cool storage function that has of cold-storage spare 329a for example need be 460kcal/mm with the tuna 200g that preservative film is packed in the time of freezing 60 minutes with food 331
2More than, be 0.63kcal/mm with respect to thickness
2More than.In addition, preferably, has 1040kcal/mm if further use
2The cold-storage spare 329a of above cool storage function even then food 331 is 80 ℃ rice 170g/5, also can make temperature in the refrigerating chamber 3 rise and carries out snap frozen.
Like this, according to embodiment 5, supply with the live gas that provides from evaporimeter 310 from the above-below direction two sides of cold-storage spare 329a and the formation of cryogenic temperature band cold air by being made as, the temperature of the frozen food of preserving in advance in the refrigerating chamber 303 is risen, even put under the situation of hot food 331, also can carry out snap frozen.
In addition, on cold-storage spare 329a, by being accumulated, the bubble of getting rid of from the contact-making surface of food and cold-storage spare 329a for the air that will comprise in the cold-storage spare 329a container is arranged at gabarit above the cold-storage spare 329a, can improve the heat transfer efficiency of food and cold-storage spare 329a, therefore, can realize the raising of the freezing speed of food.In addition, concavo-convex by arranging at cold-storage spare 329a crust wall thickness, the surface area of cold-storage spare is increased, can improve the heat-exchange capacity of cold-storage spare and cooling body.Thus, even owing to food is put into, when door opens and closes cold-storage spare 329a is melted, also can shorten the freeze-off time again of cold-storage spare.
In addition, utilize the good aluminium of thermal conductivity to form cold-storage spare 329a, but also can be resin type.Utilize resin type, cheapness and moulding are simple, transportation, easy to operate when making.
In addition, as the aluminium laminated film, be made as thin skin thickness by the crust with cold-storage spare 329a, can improve the thermal conductivity of cold-storage spare and food, realize the raising of the freezing speed of food.
In addition, freezer about embodiment 5, be illustrated by the formation at the bottom of epimere container 327 mounting cold-storage spare 329a, when according to the part at epimere container 327 hole being set and the mode that directly contacts with cold-storage spare 329a from the cold air of cold air ejiction opening 322 is constituted, can further cool off cold-storage spare 329a rapidly.At this moment, the hole that arranges on the epimere container 327 also can be positioned at the part of the bottom surface of epimere container 327, also can be positioned at the trailing flank of epimere container 327 cold air ejiction opening 322 near.
As mentioned above, in the embodiment 5, possess: have by the freezer main body of the storeroom of heat insulation division; Be used for food is taken out the door of putting into storeroom; Be used for taking in the container of food; Be installed on the promotion of the cooling at least one container parts in the container; For a plurality of cooling bodies that cooling promoted cool off in parts and the storeroom.Thus, even putting under the situation of food, also can promote the bigger thermal capacity that parts have by cooling, intensification in the container is suppressed to be irreducible minimum, and, because directly the intensification of the part of contact is few, therefore, can keeps the speed that promotes the direct cooling of parts to take in food by cooling and improve effect.In addition, even make cooling promote owing to have a plurality of cooling bodies, therefore, can shorten cooling time again under the situation of parts intensification owing to putting into food.
In addition, in the embodiment 5, be provided with a plurality of cold air ejiction openings of carrying cold air in the storeroom, can promote that to cooling parts cool off expeditiously from upper and lower surface by the cold air of sending from the cold air ejiction opening.
In addition, in the embodiment 5, in the above and below of the container that cold-storage spare has been installed above-mentioned cold air ejiction opening is set respectively, can promotes that to cooling parts cool off more expeditiously.
(embodiment 6)
In the embodiment 6, about the part identical with the formation that illustrated and technological thought in the embodiment 1~5, omit detailed explanation, about being suitable for the formation of the technological thought identical with the content described in the above-mentioned embodiment, can realize the formation with the technology contents described in the embodiment 1~5 and formation combination.
Figure 13 be embodiment of the present invention 6 freezer want portion's sectional side view.Among Figure 13, the door that is arranged at the front openings portion of refrigerating chamber 303 324 is doors of drawer type, when food is put in taking-up, to the freezer front side, be that the left direction at place shown in Figure 11 is pulled out and used.In addition, be provided with framework 326 at the rear of door 324, mounting has hypomere container 328.In addition, upload at hypomere container 328 and be equipped with stage casing container 332.This stage casing container 332 is followed the action of pulling out of door 324, pulls out with hypomere container 328 interlocks.In addition, stage casing container 332 can slide in certain scope of the left and right directions that is positioned at freezer fore-and-aft direction, place shown in Figure 10 on hypomere container 328.
In addition, be provided with cold air ejiction opening 321,322 and cold air ejiction opening 333 at the back side of refrigerating chamber 303 (right of figure).Cold air ejiction opening 321 is positioned at the top of epimere container 327, cold air ejiction opening 322 is positioned at the below of epimere container 327 and the top of stage casing container 332, cold air ejiction opening 333 is positioned at the below of stage casing container 332 and more leans on the top than the trailing flank upper end of hypomere container 328, and is configured respectively.
There is cooling to promote that parts 329 are cold-storage spare 329a in the bottom surface of stage casing container 332 mounting.
About other formation, identical with embodiment 5, therefore omit explanation.
About the freezer that constitutes as mentioned above, below its action, effect are described.
Cold air ejiction opening 321 is disposed at the top of epimere container 327, and cold air is from cold air ejiction opening 321 peristome ejection cold air above epimere container 327, to cooling off in the epimere container 327.
Cold air ejiction opening 322 is belows of epimere container 327, and between epimere container 327 and stage casing container 332, peristome ejection cold air above stage casing container 332.
The food 331 that is accommodated on the cold-storage spare 329a cools off by the cold air from 322 ejections of cold air ejiction opening, simultaneously, directly takes heat by force by cold-storage spare self.Under this situation, with do not have cold-storage spare 329a only the situation of stage casing container 332 compare, frozen food 331 more quickly.
And, cold air ejiction opening 333 can melt direct cooling food 331 from the below cold-storage spare 329a directly cool off, therefore, can promptly recover ability that food is cooled off fast, and cooling capacity is continued.
In addition, food 331 has been taken in, has freezed to be stored in the stage casing container 332, when consideration is appended the situation of putting into stage casing container 332 with the food of high temperature, compare with the situation that does not have cold-storage spare 329a, direct cooling effect by cold-storage spare 329a, can suppress the heat affecting for the food 331 of taking in, freezing to preserve, suppress to heat up.
In addition, freezer about embodiment 6, be illustrated by the formation at the bottom of stage casing container 332 mounting cold-storage spare 329a, when according to the part at stage casing container 332 hole being set and the mode that directly contacts with cold-storage spare 329a from the cold air of cold air ejiction opening 333 is constituted, can further cool off cold-storage spare 329a rapidly.At this moment, the hole that arranges on the stage casing container 332 also can be positioned at the part of the bottom surface of stage casing container 332, also can be positioned at the trailing flank of stage casing container 332 cold air ejiction opening 333 near.
In addition, the above-below direction position of cold air ejiction opening 333 not necessarily must be positioned at the below of epimere container 327 so long as cold air can get final product in the position of flowing in the bottom surface of stage casing container 332.Same reason, the above-below direction position of cold air ejiction opening 333 and hypomere container 328 not necessarily must be positioned at the top of stage casing container 332 so long as cold air can get final product in the position of flowing in the bottom surface of stage casing container 332.
The user desires to take in food and under the situation that door 324 is open, carries out the action that door 324 is pulled out to the left direction among freezer the place ahead, the figure.At this moment, framework 326 is fixed in door 324, therefore, follows the action of pulling out of door 324, and framework 326 and mounting are drawn out in the stage casing of hypomere container 328 container 332 simultaneously in hypomere container 328, the mounting of framework 326.The user carries out food is accommodated in the action of closing door 324 behind hypomere container 328 or the stage casing container 332.When owing to putting into of 324 opening of door, the food higher than refrigerating chamber 303 temperature refrigerating chamber 303 being heated up, utilize in the freezer and heat up in temperature-detecting device (not shown) the detection freezer, utilize control device (not shown) to regulate the running of freeze cycle, carry out again refrigerating chamber 303 being cooled to the action of set point of temperature.
In the running of freezer, for regularly paying the defrosting of removing in the frost of evaporimeter 310 during opportunity, the heating of defrosting heater 312 can be suppressed at irreducible minimum to the heat affecting of taking in food in the refrigerating chamber 303, therefore, running with pressure fan 311 during defrosting stops, and prevents that high temperature air from flowing into the control in the refrigerating chamber 303.
Under the open situation about overlapping of this defrosting opportunity and above-mentioned door 324, control by defrosting, compare with common running, refrigerating chamber 303 heats up, on this basis, because the inflow of air in the open room of bringing of door further makes in the hypomere container 328 and in the stage casing container 332 and heats up.Especially when door 324 is open, be in blocks by stage casing container 332 above the hypomere container 328 of most state of peristome compare the easy easier intensification of a side of leaking the stage casing container 332 of air in the room cruelly.Even under these circumstances, be equipped with cold-storage spare 329a owing to containing at stage casing container 332, therefore, the big thermal capacity by cold-storage spare 329a even without positive circulating cold air, also can suppress the intensification in the stage casing container 332.In addition, cold-storage spare 329a is positioned at the top of hypomere container 328, therefore, because door is open, under the situation that hypomere container 328 heats up, even without positive circulating cold air, also can be to cooling off in the hypomere container 328.
About other effect, action, identical with the situation of embodiment 5, therefore omit explanation.
As mentioned above, in the embodiment 6, possess: have by the freezer main body of the storeroom of heat insulation division; Be used for food is taken out the door of putting into described storeroom; Be used for taking in a plurality of containers of food; Be installed on the cold-storage spare at least one container in the described container.Thus, even door is open and in the room air flow under the situation in the container, the also bigger thermal capacity that can have by cold-storage spare, with in the container and the intensification of the contact-making surface of cold-storage spare 329a and food 331 suppress to be irreducible minimum, even under the situation of cold-storage spare 329a dissolving, by up, the below arranges the cold air ejiction opening, can promptly cool off cold-storage spare 329a.In addition, further directly cool off by cold-storage spare 329a and take in food, can shorten the freezing speed of taking in food.
In addition, by arranging concavo-convex at cold-storage spare 329a crust wall thickness, the surface area of cold-storage spare is increased, can improve the heat-exchange capacity of cold-storage spare and cooling body, thus, even owing to food put into, when door opens and closes cold-storage spare 329a is melted, the cold freeze-off time again that holds material 329a that also can shorten.
In addition, in embodiment 6, by in described storeroom, disposing a plurality of described containers up and down, and in described container, promote that in the described cooling of stage casing container installation parts 329 are cold-storage spare 329a, can suppress the intensification in the container of described stage casing, also suppress the intensification of the hypomere container that approaches with described cold-storage spare simultaneously.
In addition, in the embodiment 6, in described storeroom, be provided with a plurality of cold air ejiction openings of sending cold air, can expeditiously described cold-storage spare be cooled off from upper and lower surface by the cold air of sending from described ejiction opening.
In addition, in the embodiment 6, in the above and below of the described container that cold-storage spare has been installed above-mentioned cold air ejiction opening is set respectively, can cools off cold-storage spare more expeditiously.
In addition, in embodiment 5 or the embodiment 6, cold-storage spare 329a to cold and hot situation of carrying out accumulation of heat under, cool off by the cool cycles of not shown freezer each chamber of refrigerating chamber, each chamber arrives set point of temperature, utilizes the cool cycles ability when not needing to cool off to carry out accumulation of heat.Thus, when putting into food to the stage casing container 332 of the epimere container 327 of embodiment 5, embodiment 6, on the basis of the cooling under the ultimate operational capability of present cool cycles, an example that adds a plurality of cooling bodies of accumulation of heat is the cooling capacity of cold-storage spare 329a, food is cooled off, therefore, even with at present with the cool cycles of ability, also can accelerate the cooling velocity of food greatly.At this, the cooling under the ultimate operational capability of the cool cycles that what is called is present for example makes not shown compressor and pressure fan 311 cool off running for the rotating speed with maximum.
(embodiment 7)
Figure 14 A is the sectional side view of wanting portion of the door of freezer of embodiment of the present invention 7 when open; Figure 14 B is the stereogram of the container of embodiment 7; Figure 14 C is the stereogram of the cold-storage spare of embodiment 7; Figure 14 D is the profile of 14D-14D direction of the cold-storage spare of embodiment 7; Figure 15 is the sectional side view of wanting portion of door when closing of the freezer of embodiment of the present invention 7; Figure 16 is the sectional side view that the freezer of embodiment of the present invention 7 is wanted portion.
In addition, in the embodiment 7, about the part identical with the formation that illustrated and technological thought in the embodiment 1~6, omit detailed explanation, about being suitable for the formation of identical technological thought, can realize the formation with the technology contents described in the embodiment 1~6 and formation combination.
As shown in the figure, the cooling with cool storage function promotes that parts are the inside bottom of container 127 of the epimere of cold-storage spare 150 two sections formations being arranged at refrigerating chamber 108, and is arranged at door 121 sides.In addition, possessing the fixed mechanism that moves be used to preventing cold-storage spare 150 from following the switching of door at container 127 is protuberance 156, protuberance 156 is that the movement of fore-and-aft direction is purpose to stop to the switching direction of door 121, therefore, be that left and right directions is that the mode of length direction forms according to the switching direction right angle orientation with respect to door 121.In addition, keep cold-storage spare 150 by depressed part 160, therefore, depressed part 160 is fixed mechanism too.
In addition, the gabarit container of cold-storage spare 150 be resin enclosure be provided with in the above the more smooth food that food is set arrange face 259, this food arrange face 259 around that the shape of face 259 is set is outstanding upward to surround food, have the absorbent portion 260 that bubble accumulates the place, this absorbent portion 260 has the function of the food maintaining body that the movement to the food of mounting on the cold-storage spare 150 suppresses.In addition, the mark 259a of the central authorities of the mounting part when food arranges face and possesses as the food mounting, for mark 259a, its core is that to be positioned at the switching direction of pulling out that face is set than food be that center line 14D-14D on the fore-and-aft direction is more by rear side to mark center 259b.
In addition, possess non-contact detecting mechanisms 280 such as infrared ray sensor at the wall with food mounting portion opposed top, this non-contact detecting mechanism possesses the middle body of the face that arranges in food.That is, it is the back quadrate part of the center line 14D-14D on the fore-and-aft direction that mark 259a possesses the switching direction of pulling out that face is set in food, and in other words, non-contact detecting mechanism 280 is positioned at the arbitrary place on the perspective plane of above-below direction of center line 14D-14D.Namely, with the core of above-mentioned mark 259a be that mark center 259b as one man arranges at the projection line of above-below direction, under the state that Jiang Men opens, non-contact detecting mechanism 280 is positioned at the side more on the front than the core 259b of mark 259a at fore-and-aft direction.
Even under the situation that food is moved owing to the switching of pulling out, the food maintaining body that keeps according to the mode that is positioned at food mounting portion is that the bubble place of accumulating that the inner space of absorbent portion 260 is located up exists the part of gas 258, even guarantee can be stored in for the major part that also can make gas 258 under 5 ° the situation of having tilted at cold-storage spare 150 capacity of the inside of absorbent portion 260.Thus, to arrange with interior level of incline with respect to 5 ° of horizontal directions under the situation of cold-storage spare 150, food arranges and does not have gas 258 under the face 259, and roughly is full of cold-storage spare material 257 on whole.
Like this, in the embodiment 7, for when forming the food maintaining body, utilize the rational formation of the part formation food maintaining body of the gas 258 that forms in the inside of cold-storage spare 150 well.
In addition, the bubble place of accumulating has the function that keeps food that the food maintaining body that face 259 comes off is not set from food, according to surrounding food the mode of face 259 is set, and arranges continuously on whole four limits.In the embodiment 7, the food maintaining body is striden whole peripheries that food arranges face 259 and is possessed continuously.Thus, as implement mode 7, especially under the situation about constituting that gabarit makes the coefficient of friction of food mounting portion low owing to being formed by resin, food easily slides, even suppose food follow pull out the door switching and under the situation of multi-direction slip, owing to be formed with the food maintaining body on whole four limits of food mounting portion, therefore, can suppress the movement that the slip of food self brings, even the reaction that the switching of existence door etc. brings, the heat of putting into food also can absorb expeditiously by cold-storage spare, the cool time in the time of can suppressing to heat up, shorten the food input.
In addition, cold-storage spare 150 can load and unload, and possess the loading and unloading assisted parts 170 that mode that the finger according to user when the container 127 loading and unloading cold-storage spare 150 can enter forms at recess, possess loading and unloading maintaining part 171 in recess formation via this loading and unloading assisted parts 170 and cold-storage spare 150 at the container of opposition side.They are sticked in the cold-storage spare loading and unloading assisted parts 172 that possesses on cold-storage spare 150 and form at recess and the cold-storage spare loading and unloading maintaining part 173 that forms at protuberance respectively, and thus, the use sense during loading and unloading is good, and the location can load and unload reliably the time.Namely, cold-storage spare 150 is being installed under the state of depressed part 160, the loading and unloading assisted parts 170 of container 127 sides and cold-storage spare loading and unloading assisted parts 172 constitute connection by recess respectively, thus, user's finger is entered, availability when improving loading and unloading, further, by in the loading and unloading maintaining part 171 that is formed at container 127 sides, inserting cold-storage spare loading and unloading maintaining part 173, when cold-storage spare is installed, can locate reliably, when unloading cold-storage spare, can make these loading and unloading maintaining parts become fulcrum and easily unload cold-storage spare, therefore, can further improve user's availability.
In addition, in the embodiment 7, the part that this user's finger enters namely loads and unloads assisted parts 170 and cold-storage spare loading and unloading assisted parts 172 arranges according to the mode that is positioned at the right side under the situation of opening the storeroom that possesses cold-storage spare 150 the user.That is, loading and unloading assisted parts and cold-storage spare loading and unloading assisted parts 172 is formed at the right side of storeroom, and therefore, the action when general right-handed user loads and unloads cold-storage spare 150 is more smooth and easy, easily assembling.
In addition, be that the gabarit of cold-storage spare 150 is made as resin by the cold-storage parts that will have cool storage function, user's finger can not followed loading and unloading and cling cold-storage spare, and the action during loading and unloading cold-storage spare 150 is safer and smooth and easy, easily assembling.
In addition, in the embodiment 7, be that the injection portion that cold-storage spare uses when chatting forms this cold-storage spare loading and unloading assisted parts 172 in the gabarit container of cold-storage spare, injecting cold-storage liquid, therefore, form cold-storage spare loading and unloading assisted parts 172 with more rational formation.
In addition, link the line 14D-14D of this cold-storage spare loading and unloading assisted parts 172 and cold-storage spare loading and unloading maintaining part 173 by the center line on the fore-and-aft direction of cold-storage spare, therefore, the weight of cold-storage spare is not is not loaded and unloaded forwards, backwards on the bias, therefore, can bring loading and unloading sensation smoothly to the user.
In addition, because possessing below heat insulating box 101 and be used for making the castor 151 that freezer main body 102 can easily move and the storeroom that is arranged at the below of refrigerating chamber 108 is vegetable compartment 109, the height dimension till the upper surface of the cold-storage spare 150 that has to the refrigerating chamber 108 is arranged at above ground above 152 the 800mm.
Refrigerating chamber ejiction opening 153a, 153b are the ejiction openings that ejection is used for the cold air of cooling refrigerating chamber 108, clamping cold-storage spare and about being disposed at.In addition, refrigerating chamber outlet 154 is with the outlet of refrigerating chamber 108 cooled cold air from refrigerating chamber 108 Returning evaporimeters 113.Feed path 155 is passages that the cold air for refrigerated compartment 107 ventilates.
Cold-storage spare 150 is arranged at the bottom of container 127, and the front of cold-storage spare 150 is that the inner face ways of connecting in the place ahead is configured according to door 121 sides with container 127.The back of cold-storage spare 150 is according to outstanding from the bottom of container 127 and prevent that fixed mechanism that cold-storage spare moves up in front and back from being that the front ways of connecting of protuberance 156 is configured, and thus, do not fix movably on fore-and-aft direction.
In addition, cold-storage spare 150 exists cold-storage spare material 257 and gas 258 in airtight resin enclosure.Gas 258 is air.Resin enclosure is that appearance and size is that wide 300mm, depth 300mm, height are the blow molding product of the polyvinyl resin of 20mm, thickness 1.5mm.Cold-storage spare material 257 be lower than the solidification point of general freezing food and than the temperature of maximum ice crystallization generating zone low and than the temperature of refrigerating chamber 108 high temperature namely has the material of latent heat in-15 ℃, charging quantity is held following heat, and this heat has and is equivalent to be arranged at the amount of top volume of food, for example is equivalent to from the latent heat amount of the summation that is equivalent to 30 ℃~-10 ℃ latent heat amount and sensible heat amount.That is, under the situation that cold-storage spare 150 freezes, can not melt fully when putting into normally used general food.
In container 127, be placed with the frozen food of having preserved 157 and newly put into put into food 158.
Like this, the upstream side on the wind path of the cold air that flows out from refrigerating chamber ejiction opening 153a, 153b is the freezer rear side, is formed with the freezing zone of preserving to the frozen food of having preserved 157,
It is the freezer front side that the food mounting portion that puts into food 158 that mounting is newly put into is positioned at the downstream, in the embodiment 7, forms this food mounting portion by cold-storage spare 150.
In addition, the 127a of boundary portion that takes in the food maintaining body that the zone possesses and the general freezing zone that does not possess cold-storage spare that possesses cold-storage spare forms smoothly via rake 127b, in other words, can not form the step at right angle in general freezing regional portion, therefore, can be further reduce the wind path resistance at the flow direction from the cold air of rear side, flowing in the zone of taking in that makes cold air can namely possess cold-storage spare swimmingly downstream, and can not change cold air and forwards flow from the rear of stage portion etc.Therefore, for example, can suppress to produce whirlpool in the flowing of cold air and make self-absorption heat food the cold air adverse current of taking in the zone and flow to the i.e. preservation in freezing zone portion 163, can further improve cooling effectiveness.
In addition, be used for the cool-air feed of refrigerated compartment 107 and vegetable compartment 109 and circulate not shown, but constitute with to possess cold-storage spare and can be set at cool-air feed wind path that the storeroom of cryogenic temperature band cools off mutually independently, different wind path, therefore, for example carry out quick-frozen and a large amount of cold air of bringing can not flow directly into other storeroom.
Freezer about constituting as mentioned above describes its action below.
Namely-20 ℃ of the set points of temperature that cooling promotes the parts cold air cooling that to be cold-storage spare 150 and frozen food 157 namely flow into from refrigerating chamber ejiction opening 153a, 153b by cooling body and freezes to refrigerating chamber 108.As shown in the figure, door 121 opened and will be equivalent to the food 158 of putting into of 5 ℃ of refrigerated storage temperatures to be positioned over food mounting portion be that the food of cold-storage spare 150 arranges under the situation on the face 259, put into food 158 and after putting into, take heat by force by the cold-storage spare 150 that freezes to-20 ℃, begin to cool down.At this moment, under the big situation of the thermic load of input food 158, cold-storage spare 150 is i.e.-20 ℃~-15 ℃ intensifications to the sensible heat territory by heat absorption, and in latent heat territory-15 ℃ maintenance and the temperature difference of putting into food 158, a part is melted simultaneously.
In addition, flow into the extraneous air of container 127 also by 150 coolings of cold-storage spare, compare with present freezer, the air in the container 127 can keep low temperature, also can cool off by this Cryogenic air and put into food 158.At this moment, the cold-storage spare material of cold-storage spare 150 257 is i.e.-20 ℃~-15 ℃ intensifications to the sensible heat territory by heat absorption, ℃ are kept for carrying out with the extraneous air of putting into food 158 or flow into the temperature difference of the appropriateness of heat exchange in latent heat territory-15, and a part is melted simultaneously.Under this situation, not under the situation of cold-storage spare of latent heat type, by putting into the cooling of food 158, on the basis of low temperatureization, follow by the intensification of cold-storage spare and carry out heat exchange that temperature difference reduces, will put into food 158 and be cooled to set point of temperature and need the time.But be the cold-storage spare 150 of latent heat temperature-15 ℃ in the embodiment 7, therefore, carry out heat exchange when the maximum ice crystallization generating zone that freezes correlation of attributes of input food 158 is namely made an appointment with-10 ℃, can guarantee big temperature difference, can pass through maximum ice crystallization generating zone rapidly.In addition, the latent heat temperature is higher about 5 ℃ than freezer temperature, and therefore, it is poor to guarantee be used to freezing cold-storage spare 150 necessary heat exchange temperature.
In addition, under the situation that door 121 is opened, under the situation of the frozen food of preserving before existing 157, cold-storage spare 150 coolings that are positioned at the place ahead flow into the extraneous air of container 127, compare with present freezer, remain low temperature around the frozen food 157.In addition, compare with the situation that does not have cold-storage spare, can significantly suppress to interfere the intensification that causes from the heat of putting into food 158.
Afterwards, as shown in the figure, when door 121 is closed, utilize contactless detection device such as infrared ray sensor 280 to detect the temperature of putting into food 158, detect under the situation of having put into the food higher than storeroom temperature, be judged as and carry out quick-frozen, and the running of beginning freeze cycle (not shown).And.Refrigerant generates cold air to evaporimeter 113 circulations, and simultaneously, pressure fan 114 turns round and makes circulating cold air, thus, begins quick cooling automatically.Like this, in the embodiment 7, after the temperature of utilizing 280 pairs in non-contact detecting mechanism to put into food 158 detects, begin freezing running automatically.
Thus, 108 supplied with from refrigerating chamber ejiction opening 153a, 153b to refrigerating chamber by the cold gas of evaporimeter 113 cooling, from above-below direction two sides rapidly to frozen food 157 and put into food 158 and cool off.At this moment, the device of putting into this two aspect of indirect cooling that the direct cooling that the heat conduction of the cold-storage spare 150 of food 158 by face 259 is set from food brings and the heat conduction that comes the cold air of self-ventilation bring cools off.Thus, putting under the higher situation of putting into food 158 of temperature, by carrying out quick-frozen running automatically rapidly, the situation that at random begins the quick-frozen running with the user is compared, and can realize freezing under the speed rapidly reliably.In addition, promptly begin the quick-frozen running, and possess cold-storage spare, will put into the downstream that food mounting portion that food puts into is positioned at the cold air that blows out from refrigerating chamber ejiction opening 153a, 153b, therefore, can prevent the temperature effect of frozen food 157 that the preservation portion 263 at the upstream side of cold air is preserved in advance, the result can prevent that the temperature of container 127 integral body of refrigerating chamber or the temperature of the frozen food in the hypomere container from rising.Like this, concentrate and utilize cold-storage spare 150 and cold gas two sides to cool off by the food 158 put into that temperature is high, the freezing load of freezer integral body is reduced rapidly, can realize energy-conservation and high-quality freezing preservation.
In addition, if usually, then in most cases the storeroom of cryogenic temperature band continues the ejection cold gas, and under the situation of having cooled off refrigerating chamber fully, Cryogenic air still can flow, therefore, even under this situation, also the load of cooling off directly can be carried out cold-storage at cold-storage spare superfluously, therefore, in refrigerating chamber, can realize more energy-conservation refrigerating chamber.
In addition, the part of cold air also is used in the cooling of cold-storage spare 150.But about the cooling of refrigerating chamber 108, being cooled to than set point of temperature is-20 ℃ high, therefore, if it is freezing that cold-storage spare 150 carries out when putting at first, then after with cold-storage spare 150 the temperature difference of latent heat temperature-15 ℃ little, cold air mainly is used in the cooling of food.In addition, the ventilation of cold air constitutes to container 127 interior ventilations by not shown ventilation.At this moment, the food of putting into food mounting portion and be cold-storage spare 150 arranges face 259 and is placed with and puts into food 158, therefore, mainly the cold food 158 of putting into is cooled off.At this, put into food 158 more with the latent heat temperature of cold-storage spare 150 namely-15 ℃ approach, cold air is more many for the component of the cooling of cold-storage spare 150, but, for example, frozen food 157 and putting under food 158 situation for fish or meat, solidification point is near 0 ℃, maximum ice crystallization generating zone mostly is to-10 ℃, in this temperature band, mainly by the major part of cold air the cold food 158 of putting into is concentrated cooling.On the basis of this cooling, by the direct cooling that 150 heat conduction from cold-storage spare bring, pass through maximum ice crystallization generating zone rapidly.
In addition, under the situation that door 121 is opened, container 127 is pulled out from freezer main body 102, when cold-storage spare 150 is exposed in the extraneous air, by cold-storage spare 150, be cooled in the container 127, the temperature that suppresses the frozen food 157 of storage rises, and the extraneous air of putting into of putting into food 158 and flowing into also by 150 coolings of cold-storage spare, freezes at short notice.
In addition, follow the part of the moisture in the extraneous air that the extraneous air of door 121 switching flows in cold-storage spare 150 dewfall or frosting.Under long situation of the time that next time opens and closes of door 121, distillation or evaporation in the cooling air that utilizes the cooling running to circulate and from cold-storage spare 150 surface removals, highly humid air is in evaporimeter 113 frostings, circulation by the cooling air in the cooling running as described below, remove moisture and the frost of the surface attachment of cold-storage spare 150, this cooling running circulates the Cryogenic air that has dehumidified once again, and the moisture of cold-storage spare 150 is removed in circulation around cold-storage spare 150.But, carry out at short notice under the situation about next time opening and closing of door 121, namely, cold-storage spare 150 residual owing on once under the state of the moisture that adheres to of the switching of door 121 and frost, open door 121 and put under the situation of food, under the situation of the food lower temperature of especially putting into, put into and close door at 121 o'clock will putting into food 158, because its reaction is put into food 158 and at food easily slip on the face 259 is set.In addition, afterwards, the moisture that exists between this food and the cold-storage spare 150, namely frost or ice since the cooling air be difficult to circulate, therefore be difficult to distil or evaporate, easily residual, under residual state, opened door again at 121 o'clock, its reaction also may make food slide.Like this, even contingency produces and makes cold-storage spare 150 and frozen food 157 and put into the power that food 158 slides and moves to the rear of container 127 owing to the action of the switching of carrying out door 121 in a jumble or continually, cold-storage spare 150 mechanism that is fixed is that the protuberance 156 of container 127 is fixing, therefore, do not move.In addition, prevent cold-storage spare 150 from following the switching of door and mobile fixed mechanism be protuberance 156 to stop to the switching direction of door 121 is that the movement of fore-and-aft direction is purpose, therefore, be that left and right directions is that the mode of length direction forms according to the switching direction right angle orientation with respect to door 121, therefore, can suppress to follow the movement of cold-storage spare 150 of the switching of door 121 more reliably.
In addition, frozen food 157 and put into food 158 and cold-storage spare 150 outstanding absorbent portions 260 and conflict, therefore, can prevent that so also from food the rearward preservation of face 259 portion 263 being set moves, arrange on the face 259 at food and successfully to cool off, therefore, can cool off fast putting into food 158 more reliably.
In addition, the mark 259a of the central authorities of the mounting part when food arranges face and possesses as the food mounting, for mark 259a, its core is that to be positioned at the switching direction of pulling out that face is set than food be that center line 14D-14D on the fore-and-aft direction is more by rear side to mark center 259b.Therefore, even suppose to put into food 158 and carried out under the mobile situation owing to follow the inertia force of the obstruction of pulling out, put into further side shifting forwards of food 158 even be positioned near the mark center 259b, also can suppress and door 121 collision, promote to put into food 158 and be positioned at food face is set.
In addition, possess non-contact detecting mechanisms 280 such as infrared ray sensor at the wall with food mounting portion opposed top, this non-contact detecting mechanism possesses in food the middle body of face being set.That is, it is back quadrate part on the center line 14D-14D on the fore-and-aft direction that mark 259a possesses in the switching direction of pulling out that food arranges face, and in other words, non-contact detecting mechanism 280 is positioned at the arbitrary place on the perspective plane of above-below direction of center line 14D-14D.Namely, with the core of above-mentioned mark 259a be that mark center 259b as one man arranges on the projection line of above-below direction, under with the door closing state, non-contact detecting mechanism 280 is positioned at the side more on the front than the core 259b of mark 259a at fore-and-aft direction.Therefore, can imagine following situation, namely, even suppose to put into food 158 and carried out under the mobile situation owing to follow the inertia force of the obstruction of pulling out, be positioned at and put into further side shifting forwards of food 158 near the mark center 259b, therefore, can make and put into the correct detection range that food 158 is positioned at non-contact detecting mechanism 280, can put into the temperature detection of food 158 more accurately, further improve rapidly the precision of cooling fast.
Like this, about cold-storage spare 150 or frozen food 157 and put into food 158 movement forwards, can prevent the movement of any by the place ahead wall of container 127.Because, can freezing-inhibiting food 157 and put into the movement that the slip of food 158 causes, even the reaction that exists the switching etc. of door 121 to bring, frozen food 157 and the heat of putting into food 158 are absorbed by cold-storage spare 50 expeditiously, the cool time in the time of can suppressing to heat up, shorten food and put into.
In addition, in the embodiment 7, the part that this user's finger enters is is namely loaded and unloaded assisted parts and cold-storage spare loading and unloading assisted parts 172 and is arranged according to the mode that is positioned at the right side under the situation of opening the storeroom that possesses cold-storage spare 150 the user.Namely, loading and unloading assisted parts and cold-storage spare loading and unloading assisted parts 172 are formed at the right side of storeroom, therefore, action when general right-handed user loads and unloads cold-storage spare 150 is more smooth and easy, easily assembling can possess the cold-storage spare that can load and unload 150 of the universal design of the usability of having realized considering the user.
In addition, in the embodiment 7, putting under the higher situation of putting into food 158 of temperature, by carrying out the quick-frozen running automatically rapidly, can further improve the cooling velocity of putting into food reliably, can prevent to around the temperature effect of the frozen food of preserving in advance 157, the result can prevent other parts of temperature effect of container 27 integral body of refrigerating chamber.Therefore, concentrate and utilize cold-storage spare 150 and cold gas two sides to cool off by the food 158 put into that temperature is high, the freezing load of freezer integral body is reduced rapidly, can realize energy-conservation and high-quality freezing preservation.
In addition, in the embodiment 7, if present freezer, quick-frozen and food temperature are irrelevant usually, carry out the quick-frozen about 150 minutes, and therefore, the situation that increases consumption electric power owing to the quick-frozen that surpasses necessity is more.Among the present invention, after food is put into, with with respect to present freezing about 3 times speed frozen food, utilize infrared ray sensor to detect food temperature, be difficult to make the central temperature-10 ℃ of food deterioration in arrival after, stop freezing and be back to usually freezing, thus, food can deterioration, and carries out necessary quick-frozen, and can be energy-conservation.
Therefore, by finishing of automatic quick-frozen being made as-10 ℃ and be made as than the higher temperature of common cryogenic temperature band, can keep under the state of freezing quality, carry out automatic quick-frozen more energy-conservationly.In addition, should-10 ℃ of central temperatures with respect to common cryogenic temperature band be-20 ℃ high 10 ℃.
Like this, at present, in freezer, adopted freezing function, but its usage frequency is low.As enumerating as this reason, when beginning, quick-frozen need the user to begin to operate, do not know the existence of quick-frozen function self.According to the present invention, can not need the user to begin operation, and make the quick-frozen function operation automatically, therefore, can more promptly carry out the cooling under energy-conservation.
In addition, the present quick-frozen time is roughly necessarily, perhaps is the time that is cooled to the design temperature of storeroom, therefore, although food is frozen, but still carries out excessive cooling running, thereby causes the increase that consumes electric power.The present invention carries out following automatic quick-frozen, namely by possessing the infrared ray sensor that detects food temperature, infer central temperature from the surface temperature of the food that drops into, begin quick-frozen control automatically, if further passed through maximum ice crystallization generating zone then can finish quick-frozen control automatically.Thus, can carry out more energy-conservationly high-quality freezing.
The mixing cooling that two sides of the forced convertion by cold-storage spare and cold air bring, even the cold air in lowest temperature still is approximately the freezing function that realizes having the cooling velocity that equates with the industrial freezer that is refrigerated to-60 ℃ in-40 ℃ the home-use freezer energy-conservationly, can significantly improve the freezing quality of food.
In addition, owing to buying or power supply stop for a long time etc. making under the state that the cold-storage spare material 257 of cold-storage spare 150 melts fully, liquid level is positioned at and is positioned at the absorbent portion 260 that food arranges the top of face 259.Afterwards, by cooling, 257 volumetric expansions of cold-storage spare material are also freezed.The gas 258 that this volumetric expansion is absorbed in the portion 260 absorbs, liquid level is risen and freeze, therefore, food arranges the gas 258 that is difficult to exist the expansion absorption that hinders heat conduction to be used on the face 259, in addition, can reduce the warpage that food that freezing expansion causes arranges face 259.Therefore, can successfully keep and put into contacting of food 158, thus, cooling quick-freezing food 157 and put into food 158 expeditiously.
Like this, about the cold-storage spare material 257 of cold-storage spare 150, the bubble place of accumulating is that absorbent portion 260 is positioned at than food mounting portion instant food and face 259 is set more by above-below direction (on the gravity direction for upper side).Therefore, mounting under the situation of cold-storage spare, enter the cold-storage spare material 257 of inside of cold-storage spare because gravity and mobile downwards, the air that is contained in the gabarit container of cold-storage spare 150 moves to being positioned at the cold-storage spare material 257 that the bubble of upper portion more accumulates the place.Thus, cold-storage spare material with contact with private side that food arranges face 259 opposed gabarit containers, can further improve the heat transfer efficiency that food arranges face 259.
In addition, in this class formation that door 121 is pulled out to the freezer outside for drawer type door and container 127, the cold-storage spare 150 that is arranged on container 127 easily is exposed to extraneous air, dewfall and frosting on cold-storage spare 150 increase, the possibility that food slides increases, therefore, the slip inhibition of the food on the absorbent portion 260 of embodiment 7 is especially effective.
In addition, as implement mode 7, the height of the face that arranges that distance is arranged at the cold-storage spare 150 of the container 127 of door in 121 is 800mm, therefore, also near 800mm, it is 500mm~1200mm than the height that is easier to operate that door 121 is positioned at general people in door 121 position, therefore, automatically the storeroom that carries out quick-frozen is positioned at the most wield position, therefore, can further improve user's usability.The door that is positioned at the people and than the height that is easier to operate is the position of 500mm~1200mm applies manpower easily, the possibility height of following the reaction of door 121 switching to increase, but in the embodiment 7, the food maintaining body absorbent portion 260 that the food that the slip of food causes when suppressing to close moves is especially effective.
Industrial utilizability
As mentioned above, freezer of the present invention can suppress the intensification in the container to be irreducible minimum, and can directly cool off and take in food and guarantee to preserve quality, therefore, is not only home-use freezer, also can be applicable in the purposes such as industrial freezer.
Claims (8)
1. a freezer is characterized in that, comprising:
Have by the freezer main body of the storeroom of heat insulation division;
Be used for food is taken out the door of putting into described storeroom;
When open described door, from the extended container of the gabarit of described storeroom; With
Be positioned at described container the bottom upper surface and have the cold-storage spare that food arranges face,
In described container, comprise: have taking in the zone and not having the preservation portion of described cold-storage spare of described cold-storage spare, have cold-storage spare take in zone and described preservation portion as the fore-and-aft direction of described switching direction in abutting connection with configuration, the side that the zone is positioned at described door of taking in described cold-storage spare
Described container possesses the fixed mechanism that prevents that described cold-storage spare from moving at the fore-and-aft direction as the switching direction of described door,
Described cold-storage spare possesses and suppresses the food maintaining body that food moves towards described preservation portion from described food setting,
Described food maintaining body form as the opposition side of a side of the described door at the rear of described cold-storage spare from described food setting towards above outstanding.
2. freezer as claimed in claim 1 is characterized in that:
Described cold-storage spare is the structure that can load and unload.
3. freezer as claimed in claim 2 is characterized in that:
Possess the face that arranges that at least a portion of the container of described cold-storage spare is positioned at from described freezer main body and highly be the position of 600mm~1200mm.
4. as each described freezer in the claim 1~3, it is characterized in that:
Described fixed mechanism is made of the part of the inscape of described container.
5. as each described freezer in the claim 1~3, it is characterized in that:
Described cold-storage spare also comprises the absorbent portion of the Volume Changes that absorbs the phase transformation of following heat-storing material.
6. freezer as claimed in claim 4 is characterized in that:
Described cold-storage spare also comprises the absorbent portion of the Volume Changes that absorbs the phase transformation of following heat-storing material.
7. freezer as claimed in claim 5 is characterized in that:
Described absorbent portion is outstanding upward in the periphery of the face that arranges of described food.
8. freezer as claimed in claim 6 is characterized in that:
Described absorbent portion is outstanding upward in the periphery of the face that arranges of described food.
Applications Claiming Priority (13)
Application Number | Priority Date | Filing Date | Title |
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JP2008-065410 | 2008-03-14 | ||
JP2008065414 | 2008-03-14 | ||
JP2008065410 | 2008-03-14 | ||
JP2008-065414 | 2008-03-14 | ||
JP2008-157754 | 2008-06-17 | ||
JP2008157754 | 2008-06-17 | ||
JP2008-184439 | 2008-07-16 | ||
JP2008184439 | 2008-07-16 | ||
JP2008231735A JP2010025530A (en) | 2008-06-17 | 2008-09-10 | Refrigerator |
JP2008-231735 | 2008-09-10 | ||
JP2008233215A JP2010043825A (en) | 2008-03-14 | 2008-09-11 | Refrigerator |
JP2008-233215 | 2008-09-11 | ||
PCT/JP2009/001109 WO2009113309A1 (en) | 2008-03-14 | 2009-03-12 | Refrigerator |
Publications (2)
Publication Number | Publication Date |
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CN101970960A CN101970960A (en) | 2011-02-09 |
CN101970960B true CN101970960B (en) | 2013-08-28 |
Family
ID=43048984
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN2009801090553A Expired - Fee Related CN101970960B (en) | 2008-03-14 | 2009-03-12 | Refrigerator |
Country Status (3)
Country | Link |
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EP (1) | EP2258995B1 (en) |
CN (1) | CN101970960B (en) |
WO (1) | WO2009113309A1 (en) |
Families Citing this family (11)
Publication number | Priority date | Publication date | Assignee | Title |
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JP5617305B2 (en) * | 2009-12-21 | 2014-11-05 | パナソニック株式会社 | refrigerator |
JP6284127B2 (en) | 2013-02-01 | 2018-02-28 | シャープ株式会社 | Storage container |
JP6386275B2 (en) * | 2014-07-08 | 2018-09-05 | シャープ株式会社 | Cold storage |
EP3037763A1 (en) * | 2014-12-23 | 2016-06-29 | Indesit Company S.p.A. | Refrigeration apparatus |
CN104819615B (en) * | 2015-05-29 | 2017-03-01 | 佛山市顺德区北滘威利厨用设备有限公司 | A kind of fast-refrigerating fresh-keeping refrigerator |
WO2017134219A1 (en) | 2016-02-05 | 2017-08-10 | Arcelik Anonim Sirketi | A drawer comprising phase changing material and a refrigerator wherein the same is used |
IT201700022326A1 (en) * | 2017-02-28 | 2018-08-28 | Lenari Italia S R L | ICE CREAM SHOWCASE AND ICE CREAM DRAWER |
JP6967725B2 (en) * | 2017-10-06 | 2021-11-17 | パナソニックIpマネジメント株式会社 | Refrigerator and refrigerator control method |
CN107940851A (en) * | 2017-11-06 | 2018-04-20 | 合肥华凌股份有限公司 | Quick cooler and there is its wind cooling refrigerator |
KR102474192B1 (en) * | 2017-11-22 | 2022-12-06 | 엘지전자 주식회사 | Refrigerator |
CN112923652A (en) * | 2021-03-01 | 2021-06-08 | 合肥美菱物联科技有限公司 | Control method of fresh-keeping refrigerator |
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CN1340146A (en) * | 1999-02-19 | 2002-03-13 | Bsh博施及西门子家用器具有限公司 | Freezer cabinet with cold accumulators |
CN2814277Y (en) * | 2005-05-24 | 2006-09-06 | 广东科龙电器股份有限公司 | Cold storage device for refrigerator |
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JPS58188588U (en) * | 1982-06-10 | 1983-12-14 | シャープ株式会社 | freezer quench tray |
JP2000304435A (en) | 1999-04-20 | 2000-11-02 | Fujitsu General Ltd | Refrigerator |
JP3800900B2 (en) * | 1999-09-09 | 2006-07-26 | 三菱電機株式会社 | Refrigerating refrigerator, operation method of freezing refrigerator |
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2009
- 2009-03-12 CN CN2009801090553A patent/CN101970960B/en not_active Expired - Fee Related
- 2009-03-12 EP EP09720395.4A patent/EP2258995B1/en active Active
- 2009-03-12 WO PCT/JP2009/001109 patent/WO2009113309A1/en active Application Filing
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Publication number | Priority date | Publication date | Assignee | Title |
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CN1340146A (en) * | 1999-02-19 | 2002-03-13 | Bsh博施及西门子家用器具有限公司 | Freezer cabinet with cold accumulators |
CN2814277Y (en) * | 2005-05-24 | 2006-09-06 | 广东科龙电器股份有限公司 | Cold storage device for refrigerator |
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Also Published As
Publication number | Publication date |
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CN101970960A (en) | 2011-02-09 |
EP2258995A4 (en) | 2015-04-29 |
EP2258995A1 (en) | 2010-12-08 |
WO2009113309A1 (en) | 2009-09-17 |
EP2258995B1 (en) | 2019-10-02 |
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