CN114216297A

CN114216297A - Energy-saving high-efficiency refrigerator

Info

Publication number: CN114216297A
Application number: CN202111650451.6A
Authority: CN
Inventors: 钱小明; 杨汉洲; 宋声文; 莫求告
Original assignee: Aeglos Refrigeration Ltd
Current assignee: Aeglos Refrigeration Ltd
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2022-03-22
Anticipated expiration: 2041-12-31
Also published as: CN114216297B

Abstract

The invention relates to an energy-saving high-yield refrigerated cabinet, which comprises a cabinet body and a cabinet door, wherein a containing cavity of the cabinet body is divided into an evaporation chamber and a display cavity through a water receiving disc, the evaporation chamber is positioned above the display cavity, an evaporator and an evaporation fan are arranged in the evaporation chamber, and the evaporation fan is positioned on the front side of the evaporator; the cabinet door is arranged on the cabinet body; 2 inserting and buckling pieces are arranged in an accommodating cavity of the cabinet body, each inserting and buckling piece is arranged close to the back surface of the accommodating cavity, and an inserting and buckling hole is formed in each inserting and buckling piece; the rear side of water collector is equipped with 2 bolt portions, and 2 bolt portions of water collector and the cartridge hole one-to-one cartridge of 2 fastener are formed with preceding plate body in the front side of water collector, are formed with the air inlet side just right with evaporation fan on the plate body in the front, and the top edge of preceding plate body is forward the bending type and is formed with folded plate portion, the folded plate portion and the cabinet body fixed connection of water collector. The invention has the characteristics of simple structure, reasonable design, high assembly efficiency, high production efficiency and the like.

Description

Energy-saving high-efficiency refrigerator

Technical Field

The invention relates to the technical field of refrigerators, in particular to an energy-saving high-efficiency refrigerator.

Background

During the operation of the refrigerator, water vapor in the evaporation chamber is condensed into liquid water due to heat absorption, and the condensed water is accumulated in the evaporation chamber due to the increase of the operation time of the refrigerator. In order to avoid the influence of the condensed water on the normal use of the refrigerator, the existing refrigerator is provided with a water pan for collecting the condensed water in an evaporation chamber. The water collector of current freezer is when the equipment, and the periphery of water collector all fixes through screw and cabinet body, and the freezer needs longer equipment time like this, and production efficiency is low, is unfavorable for the long-term development of enterprise.

Disclosure of Invention

The invention aims to provide an energy-saving high-efficiency refrigerated cabinet which has the advantages of simple structure, reasonable design, high assembly efficiency, high production efficiency and the like.

The technical scheme of the invention is realized as follows: an energy-saving high-yield cold storage cabinet comprises a cabinet body and a cabinet door, wherein a containing cavity is formed in the cabinet body, a cavity opening of the containing cavity is positioned on a front vertical surface of the cabinet body, a water receiving disc is arranged in the containing cavity, the containing cavity is divided into an evaporation chamber and a display cavity by the water receiving disc, the evaporation chamber is positioned above the display cavity, an evaporator and an evaporation fan are arranged in the evaporation chamber, the evaporation fan is positioned on the front side of the evaporator, and the air outlet side of the evaporation fan is arranged towards the direction of the evaporator; the cabinet door is arranged on the cabinet body and used for closing the cavity opening of the accommodating cavity; the cabinet is characterized in that 2 inserting and buckling pieces are arranged in an accommodating cavity of the cabinet body, each inserting and buckling piece is arranged close to the back surface of the accommodating cavity, and an inserting and buckling hole is formed in each inserting and buckling piece; the rear side of water collector is equipped with 2 bolt portions, and 2 bolt portions of water collector and the cartridge hole one-to-one cartridge of 2 fastener are formed with preceding plate body in the front side of water collector, are formed with the air inlet side just right with evaporation fan on the plate body in the front, and the top edge of preceding plate body is forward the bending type and is formed with folded plate portion, the folded plate portion and the cabinet body fixed connection of water collector.

Through adopting above-mentioned technical scheme, when carrying out the equipment of water collector, earlier 2 bolt portions of water collector with hold the cartridge hole one-to-one cartridge of 2 eye-splice spare of intracavity, later with the folded plate portion of water collector with the cabinet body beat the fix with screw can, need not beat the screw to the periphery of water collector, such package assembly has improved packaging efficiency greatly, is favorable to improving production efficiency.

Furthermore, clamping convex edges are arranged on the left side surface and the right side surface of the water receiving tray, and each clamping convex edge extends from the front side to the rear side of the water receiving tray; all be equipped with the sealing clamp on each clamps the chimb, be formed with the clamp pressure mouth that is used for the clamp pressure to clamp the chimb on the sealing clamp, the left sealing clamp that is located the water collector can move about and press close to the left chamber wall that holds the chamber for the left side of water collector, and the sealing clamp that is located the water collector right side can move about and press close to the right chamber wall that holds the chamber for the right side of water collector.

Furthermore, the cabinet door comprises a door frame and a glass plate, wherein the door frame is formed by enclosing a plurality of profile frames, the glass plate is arranged in the door frame, and each profile frame comprises a main profile, an auxiliary profile and a sealing rubber strip; the cross section of the auxiliary sectional material is of an F-shaped structure, and the auxiliary sectional material comprises a first transverse plate, a second transverse plate and an outer vertical plate; the main section bar is provided with a nesting frame body and an inner vertical plate, the nesting frame body of the main section bar is embedded between a first transverse plate and a second transverse plate of the auxiliary section bar, and the nesting frame body of the main section bar is clamped with the first transverse plate and the second transverse plate of the auxiliary section bar together, so that a glass installation groove for embedding the side edge of the glass plate is formed between the inner vertical plate of the main section bar and the outer vertical plate of the auxiliary section bar; a heating wire mounting groove is also formed on the first transverse plate of the auxiliary section of each section frame, and a heating wire is mounted in the heating wire mounting groove; the sealing rubber strips of the section bar frames are connected with the main section bars, and elastic shielding parts for shielding the heating wire mounting grooves are formed on the sealing rubber strips.

Furthermore, the cabinet body comprises an outer shell, an inner shell and a connecting frame, the connecting frame is formed by enclosing a plurality of profile components, each profile component comprises an inner profile and an outer profile, the inner profile is made of a plastic material, and an inner shell clamping gap is formed in the inner profile; the outer section is made of metal materials, and the outer section and the inner section of each section assembly are connected to form a shell clamping gap; the edges of the shell openings of the shell correspond to the profile components of the connecting frame one by one, and the edges of the shell openings of the shell are clamped in shell clamping gaps of the profile components; the edges of the shell openings of the inner shell correspond to the profile components of the connecting frame one by one, and the edges of the shell openings of the inner shell are clamped in the inner shell clamping gaps of the profile components, so that the outer shell, the inner shell and the connecting frame enclose to form a foaming cavity, and the foaming cavity is filled with foaming materials.

The invention has the beneficial effects that: the device has the advantages of simple structure, reasonable design, high assembly efficiency, high production efficiency and the like.

Drawings

Fig. 1 is a schematic front view of the structure of embodiment 1.

Fig. 2 is a schematic sectional view in the direction of a-a in fig. 1.

Fig. 3 is a schematic view of a partial cross-section in the direction B-B in fig. 2 (with the water bottle removed).

Fig. 4 is an enlarged schematic structural view of a portion C in fig. 3.

Fig. 5 is an enlarged schematic view of a portion D in fig. 2.

Fig. 6 is a schematic cross-sectional structure view of the profile assembly of example 1.

Fig. 7 is a schematic cross-sectional structure view of the profile frame of example 1.

Fig. 8 is an enlarged schematic view of a portion E in fig. 2.

Fig. 9 is a schematic top view of the choke-drain apparatus according to embodiment 1.

Fig. 10 is a schematic sectional view in the direction F-F in fig. 9.

Fig. 11 is a schematic front view of the structure of embodiment 2.

Fig. 12 is a schematic sectional structure view in the G-G direction in fig. 11.

Fig. 13 is a partial sectional structure view in the H-H direction in fig. 12.

Description of reference numerals: 1-a cabinet body; 11-a housing; 12-an inner shell; 13-a profile component; 14-inner profile; 141-inner shell clamping gap; 142-a light bar groove; 143-LED lamps; 144-lamp base profile; 145-card position; 146-a lamp shade; 15-outer profile; 16-clamping the gap by the shell; 17-a mounting cavity; 2-cabinet door; 21-profile frame; 22-a glass plate; 23-a main profile; 231-nesting frame bodies; 232-inner vertical plate; 24-minor profile; 241-a first transverse plate; 242-a second transverse plate; 243-outer vertical plate; 244-heating wire installation groove; 245-a heat-generating wire; 25-sealing rubber strips; 251-an elastic shielding portion; 26-a glass mounting groove; 3-a containing cavity; 31-an evaporation chamber; 32-a display cavity; 33-a separator; 34-an air duct cavity; 4-a water pan; 41-a plug pin portion; 42-a front plate body; 43-flap portion; 44-clamping the convex edge; 45-water outlet pipe; 5-an evaporator; 6-an evaporation fan; 7-a fastener; 71-an insertion hole; 8-sealing clamp; 81-a nip; 9-gas-barrier drainer; 91-water inlet; 92-a housing; 93-water permeable and air-blocking member; 931-a prismoid gas barrier layer; 932-grit gas barrier; 933-nylon mesh; 934-go up the otter board; 935-lower net plate; 94-a drainage pipeline; 941 water inlet; 942-water outlet; 95-water inlet cavity; 96-air blocking and water draining cavity; 961-a bump; 97-water through hole; 10-a compressor; 20-a condenser; 30-an evaporation pan;

40-a compressor; 50-a condenser; 60-a water storage box; 70-an evaporation tube; 701-a serpentine segment; 80-gas-barrier drainer; and 90-cabinet body.

Detailed Description

Example 1

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 8, the energy-saving high-efficiency refrigerated cabinet of the present embodiment includes a cabinet body 1 and a cabinet door 2, a receiving cavity 3 is formed in the cabinet body 1, a cavity opening of the receiving cavity 3 is located on a front vertical surface of the cabinet body 1, a water receiving tray 4 is installed in the receiving cavity 3, the receiving cavity 3 is divided by the water receiving tray 4 to form an evaporation chamber 31 and a display cavity 32, the evaporation chamber 31 is located above the display cavity 32, an evaporator 5 and an evaporation fan 6 are installed in the evaporation chamber 31, the evaporation fan 6 is located on a front side of the evaporator 5, and an air outlet side of the evaporation fan 6 is located toward the direction of the evaporator 5; the cabinet door 2 is arranged on the cabinet body 1, and the cabinet door 2 is used for closing a cavity opening of the accommodating cavity 3; 2 inserting and buckling pieces 7 are arranged in the accommodating cavity 3 of the cabinet body 1, each inserting and buckling piece 7 is arranged close to the back surface of the accommodating cavity 3, and an inserting and buckling hole 71 is formed in each inserting and buckling piece 7; the rear side of the water pan 4 is provided with 2 bolt parts 41, the 2 bolt parts 41 of the water pan 4 are correspondingly inserted into the insertion holes 71 of the 2 insertion pieces 7 one by one, a front plate body 42 is formed on the front side of the water pan 4, an air inlet hole opposite to the air inlet side of the evaporation fan 6 is formed on the front plate body 42, a folded plate part 43 is formed on the top edge of the front plate body 42 in a forward bending mode, and the folded plate part 43 of the water pan 4 is fixedly connected with the cabinet body 1. When carrying out the equipment of water collector 4, earlier 2 bolt portions 41 of water collector 4 with hold the cartridge hole 71 one-to-one cartridge of 2 eye-splice spare 7 in the chamber 3, later with the folded plate portion 43 of water collector 4 with the cabinet body 1 beat the fix with screw can, need not beat the screw to the periphery of water collector 4, such package assembly has improved packaging efficiency greatly, is favorable to improving production efficiency.

In order to make the cold air in the display cavity 32 flow more uniformly, as shown in fig. 1, fig. 2 and fig. 8, a partition plate 33 is arranged in the display cavity 32, an air duct cavity 34 is formed between the partition plate 33 and the back surface of the display cavity 32, the top of the air duct cavity 34 is communicated with the rear side of the evaporation chamber 31, and a plurality of air outlet holes are arranged on the partition plate 33.

In order to facilitate the formation of the sealed evaporation chamber 31, as shown in fig. 1, 2, 3, 4 and 8, clamping convex edges 44 are respectively arranged on the left and right side surfaces of the water-receiving tray 4, and each clamping convex edge 44 extends from the front side to the rear side of the water-receiving tray 4; all be equipped with sealing clamp 8 on each clamps the chimb 44, be formed with the clamp on the sealing clamp 8 and press the mouth 81 that clamps chimb 44, be located the left sealing clamp 8 of water collector 4 and can move about and press close to the left chamber wall face of holding chamber 3 for the left side of water collector 4, the sealing clamp 8 that is located the right side of water collector 4 can move about and press close to the right chamber wall face of holding chamber 3 for the right side of water collector 4. The left side surface and the right side surface of the water pan 4 are in sealing fit with the left side wall and the right side wall of the accommodating cavity 3 by using the movable sealing clamp 8, so that the assembly is more convenient; for the convenience of production, the clamping convex edge 44 is arranged on a separate part, and the part formed with the clamping convex edge 44 is fixedly connected with the water pan 4.

In order to make the structure of the cabinet door 2 more reasonable, as shown in fig. 1, fig. 2, fig. 5 and fig. 7, the cabinet door 2 includes a door frame formed by enclosing a plurality of profile frames 21 and a glass plate 22 installed in the door frame, and each profile frame 21 includes a main profile 23, an auxiliary profile 24 and a sealing rubber strip 25; the cross section of the auxiliary sectional material 24 is an F-shaped structure, and the auxiliary sectional material 24 comprises a first transverse plate 241, a second transverse plate 242 and an outer vertical plate 243; the main section bar 23 is provided with a nesting frame 231 and an inner vertical plate 232, the nesting frame 231 of the main section bar 23 is embedded between the first transverse plate 241 and the second transverse plate 242 of the auxiliary section bar 24, and the nesting frame 231 of the main section bar 23 is clamped with the first transverse plate 241 and the second transverse plate 242 of the auxiliary section bar 24, so that a glass installation groove 26 for embedding the side edge of the glass plate 22 is formed between the inner vertical plate 232 of the main section bar 23 and the outer vertical plate 243 of the auxiliary section bar 24; a heating wire installation groove 244 is further formed on the first transverse plate 241 of the secondary section bar 24 of each section bar frame 21, and a heating wire 245 is installed in the heating wire installation groove 244; the sealing rubber strip 25 of each profile frame 21 is connected to the main profile 23, and an elastic shielding portion 251 that shields the heating wire installation groove 244 is formed in the sealing rubber strip 25. Through the design, when in use, the heating wire 245 can be laid or maintained only by lifting the elastic shielding part 251 of the sealing rubber strip 25, the cabinet door 2 does not need to be dismantled for maintenance, and the use is convenient.

For the convenience of forming the cabinet 1, as shown in fig. 1, fig. 2, fig. 5, and fig. 6, the cabinet 1 includes an outer shell 11, an inner shell 12, and a connecting frame, the connecting frame is formed by enclosing a plurality of profile assemblies 13, each profile assembly 13 includes an inner profile 14 and an outer profile 15, the inner profile 14 is made of a plastic material, and an inner shell clamping gap 141 is formed on the inner profile 14; the outer section 15 is made of metal material, and the outer section 15 and the inner section 14 of each section assembly 13 are connected to form a shell clamping gap 16; the edges of the shell openings of the shell 11 correspond to the profile components 13 of the connecting frame one by one, and the edges of the shell openings of the shell 11 are clamped in the shell clamping gaps 16 of the profile components 13; the edges of the openings of the inner shell 12 correspond to the profile assemblies 13 of the connecting frame one by one, and the edges of the openings of the inner shell 12 are clamped in the inner shell clamping gaps 141 of the profile assemblies 13, so that the outer shell 11, the inner shell 12 and the connecting frame enclose to form a foaming cavity, and the foaming cavity is filled with a foaming material. This section bar subassembly 13 of energy-conserving high productive freezer is gone up and is in the interior section bar 14 that holds in chamber 3 and is made by plastic materials, the outer section bar 15 that is outside being in holding chamber 3 is made by metal materials, such design makes section bar subassembly 13 have sufficient structural strength simultaneously, the cold air in the show chamber 32 only contacts with interior section bar 14, interior section bar 14 that plastic materials constitutes blocks on the cold source transmits the outer section bar 15 that metal materials made, avoid the panel of the cabinet body 1 and outer section bar 15 surface condensation or even frosting, energy-conserving efficiency can improve greatly. In addition, the inner shell 12 in this embodiment is a front opening box body formed by connecting a plurality of side plates, between 2 connected side plates, the side edges of the 2 side plates are connected by a plastic sealing strip, the structure of the plastic sealing strip is the same as that of the sealing clamp 8, and the plastic sealing strip is provided with a clamping slot opening for clamping the side edges of the 2 side plates simultaneously, so that the design does not need rivets to connect the side plates for manufacturing the inner shell 12, and the production efficiency of the inner shell 12 is greatly improved.

In order to make the structural strength of the energy-saving high-yield refrigerated cabinet higher, as shown in fig. 1, fig. 2 and fig. 5, the outer section 15 of the section assembly 13 of the connecting frame is enclosed to form an outer metal frame, the cabinet door 2 is embedded in the outer metal frame, one end of the top surface of the cabinet door 2 is rotatably connected with the inner top surface of the outer metal frame through an upper hinge, and one end of the bottom surface of the cabinet body 1 is rotatably connected with the inner bottom surface of the outer metal frame through a lower hinge. And a first magnetic strip is further arranged on the sealing rubber strip 25 of each section frame 21 of the cabinet door 2, and a second magnetic strip adsorbed with the first magnetic strip is correspondingly arranged on each section component 13 of the connecting frame.

In order to make the structure of the energy-saving high-yield refrigerated cabinet more reasonable, as shown in fig. 1, 2, 5 and 6, the surface of the inner section 14 of each section assembly 13 is positioned in the accommodating cavity 3, a light bar groove 142 arranged towards the accommodating cavity 3 is formed on the inner section 14 of each section assembly 13, the light bar grooves 142 are arranged along the length direction of the

inner section

14, 2 clamping positions 145 arranged oppositely are formed on the light bar grooves 142, and the clamping positions 145 are arranged along the length direction of the inner section 14; an LED lamp 143 and a lamp holder profile 144 are installed in a lamp strip groove 142 of an inner profile 14 of at least one

profile component

13, 2 clamping parts are formed on the lamp holder profile 144 and are arranged along the length direction of the lamp holder profile 144, the 2 clamping parts of the

lamp holder profile

144 and 2 clamping positions 145 on the lamp strip groove 142 are clamped in a one-to-one correspondence mode, and the LED lamp 143 is installed on the lamp holder profile 144. When the energy-saving high-efficiency refrigerating cabinet is implemented, the connecting frame is formed by enclosing the left vertically-arranged section bar assembly 13, the right vertically-arranged section bar assembly 13, the upper horizontally-arranged section bar assembly 13 and the lower horizontally-arranged section bar assembly 13, wherein the LED lamps 143 and the lamp holder section bars 144 are respectively arranged in the lamp strip grooves 142 of the left vertically-arranged section bar assembly 13, the right vertically-arranged section bar assembly 13 and the upper horizontally-arranged section bar assembly 13, and the LED lamps 143 are distributed into a door-shaped structure, so that the inside of the cabinet body 1 can be comprehensively illuminated, and the articles in the cabinet body 1 can be more easily seen clearly; in addition, the lamp shade 146 is further installed in the lamp strip groove 142 of the left vertically arranged profile component 13, the right vertically arranged profile component 13 and the upper transversely arranged profile component 13, so that the LED lamp 143 in the lamp strip groove 142 is protected conveniently, the shielding profile is clamped in the lamp strip groove 142 of the lower transversely arranged profile component 13, dust is prevented from being easily hidden in the lamp strip groove 142 of the lower transversely arranged profile component 13, and the cleaning is facilitated.

In order to make the energy-saving high-yield refrigeration cabinet have better use effect, as shown in fig. 1, fig. 2 and fig. 8, the bottom surface of the tray cavity of the water pan 4 is an inclined plane which gradually inclines downwards from front to back, a water outlet pipe 45 is formed at the back end of the water pan 4, one end of the water outlet pipe 45 is communicated with the tray cavity of the water pan 4, the water outlet pipe 45 also gradually inclines downwards from front to back, and the other end of the water outlet pipe 45 penetrates through the cabinet body 1 from the cavity back surface of the accommodating cavity 3 and extends out of the back surface of the cabinet body 1; a choke and drain unit 9 is mounted on the back of the cabinet 1, and a water inlet 91 communicating with the water outlet pipe 45 of the water receiving tray 4 is provided in the choke and drain unit 9. Through the design that adopts choke drainer 9, when using, when evaporimeter 5 does not produce the comdenstion water, choke drainer 9 can stop the cold air that holds in the chamber 3, avoids the cold air to leak, and when evaporimeter 5 produced the comdenstion water, choke drainer 9 can be walked the comdenstion water again, makes this energy-conserving high productive freezer more energy-conserving.

In order to make the structure of the choke-drain 9 more reasonable, as shown in fig. 1, 2, 9 and 10, the choke-drain 9 comprises a housing 92, a water permeable choke 93 and a drain pipe 94; the shell 92 is installed on the back of the cabinet body 1, a water inlet cavity 95 and a gas and water blocking and draining cavity 96 which are horizontally distributed side by side are arranged in the shell 92, the water inlet cavity 95 is communicated with the gas and water blocking and draining cavity 96 through a water through hole 97, and the water inlet 91 communicated with the water inlet cavity 95 is formed in the shell 92; the drainage pipeline 94 is positioned in the air-blocking drainage cavity 96, the upper part of the drainage pipeline 94 is provided with a water inlet 941, the bottom end of the drainage pipeline 94 extends out of the shell 92, the bottom end of the drainage pipeline 94 is provided with a water outlet 942, and the height of the water inlet 941 of the drainage pipeline 94 is higher than the water through hole 97 and lower than the water inlet 91; the outer wall surface of drainage pipe 94 and the chamber wall of choke drainage cavity 96 are filled to the piece 93 that blocks air that permeates water, drainage pipe 94's inlet opening 941 is through permeating water and blocking air piece 93 and crossing water hole 97 and inlet cavity 95 intercommunication. The water inlet 941 of the drainage pipeline 94 of the air-blocking drainer 9 of the energy-saving high-efficiency refrigerating cabinet is higher than the top surface of the water-permeable air-blocking member 93, and the bottom surface of the water-permeable air-blocking member 93 is higher than the water through hole 97; when in use, if the evaporator 5 does not produce condensed water, the water-permeable air-blocking member 93 of the air-blocking water drainer 9 can block the cold air in the accommodating cavity 3 to prevent the cold air from leaking; when the condensed water generated by the evaporator 5 flows to the air-blocking drainer 9, so that the liquid level in the water inlet cavity 95 and the air-blocking drainer cavity 96 is higher than the water through hole 97, the water storage and air blocking are realized, and the accommodating cavity 3 is sealed.

In order to make the structure of the water and gas permeable and gas resistant member 93 of the gas and water barrier 9 more reasonable, as shown in fig. 9 and 10, the water and gas permeable and gas resistant member 93 comprises a small-edged stone gas barrier layer 931, a coarse sand gas barrier layer 932, a nylon net 933, an upper net plate 934 and a lower net plate 935, the upper net plate 934 and the lower net plate 935 have the same structure, and the small-edged stone gas barrier layer 931, the nylon net 933 and the coarse sand gas barrier layer 932 are sequentially placed between the upper net plate 934 and the lower net plate 935 from bottom to top. A projection 961 for resting the lower mesh plate 935 is formed on the bottom surface of the air and water blocking and draining chamber 96.

In order to make the structure of the energy-saving high-efficiency refrigerator more reasonable, as shown in fig. 1 and fig. 2, the energy-saving high-efficiency refrigerator further comprises a compressor 10, a condenser 20 and an evaporation pan 30, wherein a mounting cavity 17 is formed at the bottom of the refrigerator body 1, the condenser 20, the compressor 10 and the evaporation pan 30 are all mounted in the mounting cavity 17, the condenser 20, the compressor 10 and the evaporator 5 are in cooperation, and the evaporation pan 30 is arranged in front of the air outlet end of the condenser 20; a pipe is connected to the water outlet 942 of the choke and drain unit 9, and the pipe transfers water flowing out of the water outlet 942 of the choke and drain unit 9 to the evaporation pan 30. When the condenser is used, the condensed water flows to the evaporation tray 30 through the choke-drain 9, so that the condensed water is quickly evaporated under the matching action of the evaporation pipe between the compressor 10 and the condenser 20 and the cooling fan of the condenser 20, the condensed water does not need to be cleaned regularly, and the use is convenient.

Example 2

The present embodiment is different from embodiment 1 in that: the compressor 40 and the condenser 50 in this embodiment are installed at different positions. As shown in fig. 11, 12 and 13, the present embodiment further includes a compressor 40, a condenser 50 and a water storage box 60, wherein the compressor 40 and the condenser 50 are both installed on the top surface of the cabinet 90, the water storage box 60 is installed on the back surface of the cabinet 90, the water storage box 60 is used for receiving water flowing out from the water outlet of the choke water drain 80, the evaporation pipe 70 between the compressor 40 and the condenser 50 includes a serpentine section 701 in the water storage box 60, and the serpentine section 701 is located below the water outlet of the choke water drain 80. Due to the design, the condensed water flowing out of the choke-drain device 80 can be in contact with the serpentine section 701 in the water storage box 60 on the evaporation tube 70, so that the condensed water is evaporated by heat exchange with the evaporation tube 70, and the condensed water is stored without an external container, so that the use is more convenient.

Claims

1. An energy-saving high-yield cold storage cabinet comprises a cabinet body and a cabinet door, wherein a containing cavity is formed in the cabinet body, a cavity opening of the containing cavity is positioned on a front vertical surface of the cabinet body, a water receiving disc is arranged in the containing cavity, the containing cavity is divided into an evaporation chamber and a display cavity by the water receiving disc, the evaporation chamber is positioned above the display cavity, an evaporator and an evaporation fan are arranged in the evaporation chamber, the evaporation fan is positioned on the front side of the evaporator, and the air outlet side of the evaporation fan is arranged towards the direction of the evaporator; the cabinet door is arranged on the cabinet body and used for closing the cavity opening of the accommodating cavity; the method is characterized in that: 2 inserting and buckling pieces are arranged in an accommodating cavity of the cabinet body, each inserting and buckling piece is arranged close to the back surface of the accommodating cavity, and an inserting and buckling hole is formed in each inserting and buckling piece; the rear side of water collector is equipped with 2 bolt portions, and 2 bolt portions of water collector and the cartridge hole one-to-one cartridge of 2 fastener are formed with preceding plate body in the front side of water collector, are formed with the air inlet side just right with evaporation fan on the plate body in the front, and the top edge of preceding plate body is forward the bending type and is formed with folded plate portion, the folded plate portion and the cabinet body fixed connection of water collector.

2. An energy efficient and efficient refrigerated cabinet as claimed in claim 1 wherein: clamping convex edges are arranged on the left side surface and the right side surface of the water receiving tray, and each clamping convex edge extends from the front side to the rear side of the water receiving tray; all be equipped with the sealing clamp on each clamps the chimb, be formed with the clamp pressure mouth that is used for the clamp pressure to clamp the chimb on the sealing clamp, the left sealing clamp that is located the water collector can move about and press close to the left chamber wall that holds the chamber for the left side of water collector, and the sealing clamp that is located the water collector right side can move about and press close to the right chamber wall that holds the chamber for the right side of water collector.

3. An energy efficient and efficient refrigerated cabinet as claimed in claim 1 wherein: the cabinet door comprises a door frame and a glass plate, wherein the door frame is formed by enclosing a plurality of profile frames, and each profile frame comprises a main profile, an auxiliary profile and a sealing rubber strip; the cross section of the auxiliary sectional material is of an F-shaped structure, and the auxiliary sectional material comprises a first transverse plate, a second transverse plate and an outer vertical plate; the main section bar is provided with a nesting frame body and an inner vertical plate, the nesting frame body of the main section bar is embedded between a first transverse plate and a second transverse plate of the auxiliary section bar, and the nesting frame body of the main section bar is clamped with the first transverse plate and the second transverse plate of the auxiliary section bar together, so that a glass installation groove for embedding the side edge of the glass plate is formed between the inner vertical plate of the main section bar and the outer vertical plate of the auxiliary section bar; a heating wire mounting groove is also formed on the first transverse plate of the auxiliary section of each section frame, and a heating wire is mounted in the heating wire mounting groove; the sealing rubber strips of the section bar frames are connected with the main section bars, and elastic shielding parts for shielding the heating wire mounting grooves are formed on the sealing rubber strips.

4. An energy efficient and efficient refrigerated cabinet as claimed in claim 1 wherein: the cabinet body comprises an outer shell, an inner shell and a connecting frame, wherein the connecting frame is formed by enclosing a plurality of profile components, each profile component comprises an inner profile and an outer profile, the inner profile is made of a plastic material, and an inner shell clamping gap is formed in the inner profile; the outer section is made of metal materials, and the outer section and the inner section of each section assembly are connected to form a shell clamping gap; the edges of the shell openings of the shell correspond to the profile components of the connecting frame one by one, and the edges of the shell openings of the shell are clamped in shell clamping gaps of the profile components; the edges of the shell openings of the inner shell correspond to the profile components of the connecting frame one by one, and the edges of the shell openings of the inner shell are clamped in the inner shell clamping gaps of the profile components, so that the outer shell, the inner shell and the connecting frame enclose to form a foaming cavity, and the foaming cavity is filled with foaming materials.

5. An energy efficient and efficient refrigerated cabinet as claimed in claim 4 wherein: the surface of the inner section of each section assembly is positioned in the accommodating cavity, the inner section of each section assembly is provided with a light bar groove arranged towards the accommodating cavity, the light bar grooves are arranged along the length direction of the inner section, 2 clamping positions which are oppositely arranged are formed on the light bar grooves, and the clamping positions are arranged along the length direction of the inner section; the LED lamp and the lamp holder section bar are installed in the lamp strip groove of the inner section bar of the at least one section bar assembly, 2 clamping parts are formed on the lamp holder section bar and are distributed along the length direction of the lamp holder section bar, the 2 clamping parts of the lamp holder section bar and the 2 clamping positions on the lamp strip groove are clamped in a one-to-one correspondence mode, and the LED lamp is installed on the lamp holder section bar.

6. An energy efficient and efficient refrigerated cabinet as claimed in claim 1 wherein: the bottom surface of the tray cavity of the water pan is an inclined plane which is gradually inclined downwards from front to back, a water outlet pipe is formed at the back end of the water pan, one end of the water outlet pipe is communicated with the tray cavity of the water pan, the water outlet pipe is also gradually inclined downwards from front to back, and the other end of the water outlet pipe penetrates through the back surface of the cavity of the accommodating cavity and extends out of the back surface of the cabinet body; the back of the cabinet body is provided with an air-blocking drainer which is provided with a water inlet communicated with a water outlet pipe of the water pan.

7. An energy efficient and efficient refrigerated cabinet as claimed in claim 6 wherein: the air-blocking drainer comprises a shell, a water-permeable air-blocking piece and a drainage pipeline; the shell is arranged on the back of the cabinet body, a water inlet cavity and an air blocking and water draining cavity which are horizontally distributed side by side are arranged in the shell, the water inlet cavity is communicated with the air blocking and water draining cavity through a water through hole, and the shell is provided with a water inlet communicated with the water inlet cavity; the drainage pipeline is positioned in the air-blocking drainage cavity, a water inlet hole is formed in the upper part of the drainage pipeline, the bottom end of the drainage pipeline extends out of the shell, a water outlet is formed in the bottom end of the drainage pipeline, and the height of the water inlet hole of the drainage pipeline is higher than the water through hole and lower than the water inlet; the water-permeable air-blocking piece is filled between the outer wall surface of the drainage pipeline and the wall of the air-blocking drainage cavity, and the water inlet hole of the drainage pipeline is communicated with the water inlet cavity through the water-permeable air-blocking piece and the water passing hole.

8. An energy efficient and efficient refrigerated cabinet as claimed in claim 7 wherein: the water-permeable gas barrier member comprises a small-edged stone gas barrier layer, a coarse sand gas barrier layer, a nylon net, an upper net plate and a lower net plate, the upper net plate and the lower net plate are identical in structure, and the small-edged stone gas barrier layer, the nylon net and the coarse sand gas barrier layer are sequentially arranged between the upper net plate and the lower net plate from bottom to top.

9. An energy efficient and highly productive refrigerated cabinet as claimed in claim 6 or 7 or 8 wherein: the refrigerator is characterized by also comprising a compressor, a condenser and an evaporation disc, wherein a mounting cavity is formed at the bottom of the cabinet body, the condenser, the compressor and the evaporation disc are all mounted in the mounting cavity, the condenser, the compressor and the evaporator are in a matched action, and the evaporation disc is arranged in front of the air outlet end of the condenser; and a water outlet of the air-blocking drainer is connected with a pipeline, and the pipeline transmits water flowing out of the water outlet of the air-blocking drainer to the evaporation tray.

10. An energy efficient and highly productive refrigerated cabinet as claimed in claim 6 or 7 or 8 wherein: still include compressor, condenser and water storage box, the top surface at the cabinet body is all installed to compressor, condenser, the water storage box is installed on the back of the cabinet body, and the water storage box is used for connecing the delivery port water that chokes the gas drainer and flows, evaporating pipe between compressor and the condenser is in the delivery port below of choked gas drainer including the snakelike section that is in the water storage box.