JP3948876B2 - Cooling storage - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cooling storage chamber, capable of forming two temperature zones in a storage chamber while capable of forming one temperature zone in the storage chamber in accordance with the using purpose of the same, in one set of cooling storage chamber. SOLUTION: The storage chamber 2 is constituted in a heat insulating box body 1 to cool the inside of the storage chamber by the latent heat of fusion of a cold heat storage agent 18 while the cooling storage chamber is equipped with a detachable partitioning plate 5 for defining the inside of the storage chamber 2 into two divisions of up-and-down, a rear duct 9 for supplying cold air, cooled by the cold heat storage agent 18, into the defined upper storage chamber 2A as well as the lower storage chamber 2B and temperature sensors 22A, 22B for regulating the temperatures of respective storage chambers 2A, 2B.

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cooling storage that keeps a storage room at a low temperature by using a cold storage agent.
[0002]
[Prior art]
Conventionally, this kind of cold storage is used in, for example, a low-temperature article transportation system. In this physical distribution system, an AC power supply cannot be used during transportation of the cooling storage. Therefore, a battery is installed in the cooling storage, a cool storage agent is disposed in the heat insulation box of the cooling storage, and it is cooled by the latent heat of fusion of this cool storage agent. The cool air is circulated to the storage room by a direct current (DC) blower fed from the battery for cooling.
[0003]
The storage chamber is provided with temperature detection means for detecting the temperature in the storage chamber. The output of the temperature detection means cools the storage chamber to a predetermined temperature, that is, a freezing or refrigeration temperature.
[0004]
However, as described above, there is only one temperature zone in the cooling storage, so if there are both refrigerated and refrigerated items even if there are a small amount of items, the cooling of the two units for refrigeration and refrigeration will be performed. It was necessary to install the storage in the delivery means.
[0005]
Therefore, in order to accommodate both frozen and refrigerated goods in a single cooling storage, a partition plate is provided in the storage room of the cooling storage to form a freezing room and a refrigerating room, and the latent heat of fusion of the cold storage agent is formed in the freezing room. There is a cold storage to cool by.
[0006]
[Problems to be solved by the invention]
However, in the conventional cold storage only in one temperature zone, if there are both frozen and refrigerated items as described above, two refrigerated and refrigerated storages are delivered. It had to be mounted on the means and lacked convenience. In addition, since the conventional cooling storage cabinet having two temperature zones is provided with a fixed partition plate, the partition plate becomes an obstacle when it is desired to store only articles in one temperature zone such as a busy season. There was a problem.
[0007]
Therefore, the present invention has been made to solve the conventional problems, and it is possible to form two temperature zones in the storage chamber with a single cooling storage, and in the storage chamber according to the purpose of use. It aims at providing the cooling storage which can be set as one temperature range.
[0008]
[Means for Solving the Problems]
The present invention comprises a storage chamber in a heat insulating box, and is formed by cooling the storage chamber by the latent heat of fusion of a cool storage agent, and is provided with a removable partition plate that partitions the storage chamber into a plurality of chambers. Each of the chambers is provided with a duct for supplying cold air cooled with a cool storage agent, and temperature adjusting means for adjusting the temperature of each chamber .
[0009]
According to the present invention, a storage chamber is configured in the heat insulation box, and in the cooling storage box formed by cooling the storage chamber by the latent heat of fusion of the cool storage agent, a removable partition plate that divides the storage chamber into a plurality of chambers is partitioned. In addition, each room has a duct for supplying cold air cooled by a regenerator and a temperature adjusting means for adjusting the temperature of each room. It can be stored.
[0010]
In addition, since the partition plate that divides the storage chamber into a plurality of chambers is detachable, the storage space of the room in the target temperature zone can be expanded by removing the partition plate according to the purpose of use. Become.
[0011]
According to a second aspect of the present invention, in addition to the first aspect of the present invention, the temperature adjusting means detects a temperature of each of the air blower for supplying cold air to each room partitioned by the partition plate, respectively. And a control means for controlling the operation of each blower based on the output of the temperature detection means.
[0012]
According to the invention of claim 2, in addition to the invention of claim 1, the temperature adjusting means detects the temperature of each blower and a fan for supplying cold air to each room partitioned by the partition plate, respectively. Since each temperature detection means and a control means for controlling the operation of each blower based on the output of these temperature detection means are configured, each room is set to a target temperature by controlling the operation of each blower. Will be able to.
[0013]
The cooling storage of the invention of claim 3 is provided with partition plate detecting means for detecting the presence or absence of the partition plate in addition to the invention of claim 2, and the control means is based on the presence or absence of the partition plate detected by the partition plate detection means. The control method is changed.
[0014]
According to the invention of claim 3, in addition to the invention of claim 2, provided with a partition plate detection means for detecting the presence or absence of the partition plate, the control means is based on the presence or absence of the partition plate detected by the partition plate detection means, Since the control method is changed, the temperature of each chamber can be controlled according to the presence or absence of the partition plate.
[0015]
According to a fourth aspect of the present invention, in addition to the third aspect of the present invention, the control means adjusts the temperature in the storage chamber based on the output of any one of the temperature detecting means when there is no partition plate. And
[0016]
According to the invention of claim 4, in addition to the invention of claim 3, the control means adjusts the temperature in the storage chamber based on the output of any of the temperature detection means when there is no partition plate. One temperature zone can be formed.
[0017]
In addition to the invention of claim 1, claim 2, claim 3 or claim 4, the cooling storage of the invention of claim 5 is formed on the back surface of the storage room, and cool air that has exchanged heat with the cold storage agent is stored in the storage room. A discharge duct for supplying and a suction duct arranged in parallel with the discharge duct for returning the cool air in the storage chamber to the cool storage agent are provided.
[0018]
According to the invention of claim 5, in addition to the invention of claim 1, claim 2, claim 3 or claim 4, cold air formed on the back surface of the storage chamber and exchanging heat with the cold storage agent is supplied to the storage chamber. And a suction duct for returning the cool air in the storage chamber to the cool storage agent, so that the cool air generated by the latent heat of fusion of the cool storage agent is discharged from the discharge duct into the storage chamber. It is possible to circulate the cool air that is discharged and circulated through the storage chamber to return the cool air from the suction duct to the cool storage agent.
[0019]
Thereby, the cool air discharged from the discharge duct is controlled by controlling the operation of the blower provided in each chamber, so that each chamber can be set to the set temperature zone.
[0020]
The cooling storage of the invention of claim 6 is formed on the back surface of the storage chamber in addition to claim 1, 2, 3, or 4 for supplying the storage chamber with the cold air heat-exchanged with the cold storage agent. And a suction duct formed on the side surface of the storage chamber for returning the cool air in the storage chamber to the cool storage agent.
[0021]
According to the invention of claim 6, in addition to the invention of claim 1, claim 2, claim 3 or claim 4, cold air formed on the back surface of the storage chamber and exchanging heat with the cold storage agent is supplied to the storage chamber. It has a discharge duct and a suction duct that is formed on the side of the storage chamber and returns the cool air in the storage chamber to the cool storage agent, so that the cool air generated by the latent heat of fusion of the cool storage agent is formed on the back of the storage chamber It becomes possible to circulate the cool air that is discharged from the discharged duct into the storage chamber and returns the cool air circulated in the storage chamber to the cool storage agent from the suction duct formed on the side surface of the storage chamber.
[0022]
Thereby, compared with the case where the discharge duct and the suction duct are formed close to each other, the storage chamber can be more uniformly filled with cold air.
DETAILED DESCRIPTION OF THE INVENTION
[0023]
Hereinafter, the cooling storage R of the present invention will be described with reference to FIG. FIG. 1 shows a longitudinal side view of the cooling storage R of the present invention. In the state where the AC power supply is connected to the delivery base, the cooling storage R of the embodiment operates the compressor by receiving the supply of the AC power supply, performs the cold storage operation for freezing the cold storage agent, and stores articles such as food. After storage, the AC power supply is cut off and loaded on the platform of a delivery vehicle such as a truck, and during the delivery, the cool air cooled by circulating the cool air cooled by the latent heat of fusion of the cool storage agent to the storage room For cooling storage.
[0024]
The cooling storage R is composed of a heat insulating box 1 that opens to the front surface. A storage chamber 2 for storing articles is formed in the heat insulating box 1, and the front surface of the storage chamber 2 is opened and closed. A door 15 is provided, and a machine room 3 is formed below the heat insulating box 1. Incidentally, moving wheels 4 are attached to the four corners of the lower surface of the cooling storage R.
[0025]
Moreover, the partition plate 5 comprised with the heat insulation board for dividing and forming the inside of the storage chamber 2 up and down is attached in the storage chamber 2 so that attachment or detachment is possible. Thereby, the upper storage chamber 2 </ b> A is formed above the partition plate 5, and the lower storage chamber 2 </ b> B is formed below the partition plate 5. Each of the upper storage chamber 2A and the lower storage chamber 2B is provided with temperature sensors 22A and 22B for detecting the temperature, and these temperature sensors 22A and 22B are connected to a control device (not shown). 2 and 3, the partition plate 5 is held by being placed on the inner wall of the storage chamber 2 and the upper surface of a substantially L-shaped attachment 6 attached to a duct plate 7 described later. .
[0026]
Above the fixture 6 attached to the duct plate 7, a detection switch 8 is provided as a partition plate detection means for detecting the presence or absence of the partition plate 5. This detection switch 8 is connected to a control means (not shown). The detection switch 8 protrudes forward when the partition plate 5 is not attached. When the partition plate 5 is mounted on the fixture 6 as shown in FIG. The partition plate 5 is detected.
[0027]
The duct plate 7 is attached to the rear surface of the storage chamber 2 with a space from the heat insulating box 1, and a rear duct 9 is formed between the duct plate 7 and the heat insulating box 1. . As shown in FIGS. 4 and 5, the rear duct 9 is provided with partition plates 10, 10 extending vertically and provided on the left and right. And the discharge duct 11 is formed between the partition plates 10 and 10 of this rear duct 9, and the fans 12A and 12B correspond to the upper portions of the upper storage chamber 2A and the lower storage chamber 2B, respectively. Is provided. The blowers 12A and 12B are operated by a battery 25 installed in the machine room 3, respectively.
[0028]
Further, suction ducts 13 and 13 are formed on the left and right sides of the discharge duct 11 via the partition plates 10 and 10. The duct plate 7 is formed with a plurality of suction ports 14 corresponding to the upper portions of the upper storage chamber 2A and the lower storage chamber 2B of the suction ducts 13 and 13, respectively.
[0029]
Then, a heat insulating partition plate 16 is installed on the bottom surface of the lower storage chamber 2B with a predetermined distance from the bottom surface of the heat insulating box 1, whereby a cold storage partitioned from the storage chamber 2 is formed below the heat insulating box 1. Chamber 17 is configured. In the cold storage chamber 17, a plurality of flat plate-like cold storage agents 18 are provided across the left and right sides. The regenerator 18 is cooled by a cooler 20 that constitutes a cooling device together with a compressor 19, a condenser 23, and a condenser blower 24 installed in the machine room 3.
[0030]
A rear guide 21 is formed at the rear end of the cold storage chamber 17, and all the gaps between the cold storage agents 18 are communicated with the discharge duct 11 of the rear duct 9 and outward of the cold storage agent 18 located at both ends. Are communicated with suction ducts 13 and 13 formed on the left and right of the rear duct 9, respectively.
[0031]
On the other hand, a temperature sensor 22A for detecting the temperature of the upper storage chamber 2A, a temperature sensor 22B for detecting the temperature of the lower storage chamber 2B, and the detection switch 8 of the partition plate 5 are connected to the control device, The fans 12A and 12B are controlled based on these outputs. Further, the cooling storage 1 is provided with a control panel (not shown), and the temperature of the upper storage chamber 2A and the lower storage chamber 2B can be set.
[0032]
With the above configuration, the cooling storage R receives the supply of AC power and operates the compressor 19 in a state where the AC power is connected at the delivery base, and freezes the regenerator 18. And after storing goods, such as food, in the cold storage R, it is loaded on the loading platform of a delivery vehicle such as a truck with the AC power supply cut off, and the cold air cooled by the latent heat of fusion of the regenerator is stored during the delivery. It is circulated through the chamber 2 for cooling.
[0033]
At this time, when the user preliminarily freezes or refrigerates the interior of the storage chamber 2, for example, the partition plate 5 is installed on the fixture 6, and the upper storage chamber 2A is placed in the refrigeration temperature zone by the control panel. The lower storage chamber 2B is set to a freezing temperature zone. Thereby, operation | movement of air blower 12A and 12B is controlled by the control apparatus which is not shown in figure.
[0034]
Here, the flow of cold air will be described with reference to FIGS. 4 and 5. FIG. 4 is a structural explanatory diagram for explaining the flow of cold air in the cooling storage R, and FIG. 5 is a plan sectional view of the cold storage chamber 17. When the blowers 12A and 12B of the upper storage chamber 2A and the lower storage chamber 2B are operated by the control device, the cold air cooled by the latent heat of fusion of the cool storage agent 18 that has been cooled in advance in the cold storage chamber 17 is transferred to the fan 12A. Then, after the inside of the discharge duct 11 is raised by 12B, cold air is discharged into the upper storage chamber 2A and the lower storage chamber 2B, respectively. Then, the cool air staying in the respective storage chambers 2 </ b> A and 2 </ b> B is sucked into the suction duct 13 through the suction port 14 and then returned to the cold storage chamber 17. The cool air that has returned to the cold storage chamber 17 passes through the outside of the cold storage agents 18 located at both ends, then passes between the cold storage agents 18, is cooled here, and then is discharged in the same manner as described above. 11 is sucked into.
[0035]
At this time, the temperatures of the storage chambers 2A and 2B are detected by the temperature sensors 22A and 22B provided in the storage chambers 2A and 2B, and the temperature in the storage chambers 2A and 2B is controlled by the control device. The In this embodiment, the upper storage chamber 2A is set to a refrigeration temperature zone, and the lower storage chamber 2B is set to a refrigeration temperature zone. The chamber 2B may be a refrigerated temperature zone. Moreover, it is good also considering both the storage rooms 2A and 2B as the same temperature range.
[0036]
Here, when the interior of the storage chamber 2 is expanded and used in one temperature zone, the partition plate 5 may be removed. At this time, since the control device is provided with the detection switch 8 of the partition plate 5, when the partition plate 5 is not attached, the control device can select either the preset temperature sensor 22A or 22B. Cooling in the storage chamber 2 is controlled using one temperature sensor. In this case, the fans 12A and 12B may be operated both, but only one of them may be operated to perform cooling control. Moreover, you may control the operation | movement of each air blower 12 and 12B with the detection temperature of both temperature sensor 22A and 22B.
[0037]
With the above configuration, the cooling storage R according to the present invention divides the inside of the storage room 2 into two storage rooms 2A and 2B according to the purpose of use of the user. And the cooling temperature zone of both refrigeration can be formed.
[0038]
As a result, if there are both refrigerated and refrigerated goods, even though the goods are delivered in small quantities at the time of delivery, the two refrigeration and refrigeration dedicated cooling storages are not required, so that one cooling storage can be used. Thus, both articles can be accommodated, and the number of units mounted on a truck or the like can be reduced.
[0039]
Moreover, the inside of the storage room 2 can be expanded by removing the partition plate 5, and even when storing only articles in one temperature zone such as the busy season, without using a refrigeration store dedicated to refrigeration or freezing, It becomes possible to form a storage room having a temperature range according to the purpose of use.
[0040]
Next, a cooling storage of another embodiment will be described with reference to FIG. In the cooling storage of this embodiment, a duct plate 30 is attached to the back surface of the storage chamber 2 in the above embodiment with a space from the heat insulation box 1, and between this duct plate 30 and the heat insulation box 1. A discharge duct 32 is formed. The upper storage chamber 2A and the lower storage chamber 2B are provided with blowers (not shown) corresponding to the upper portions thereof. Duct plates 31 and 31 are similarly attached to both side surfaces of the storage chamber 2 with a space from the heat insulation box 1, and a suction duct 33 is provided between the duct plates 31 and 31 and the heat insulation box 1. , 33 are configured. The duct plates 31, 31 are provided with a plurality of suction ports (not shown) corresponding to the upper portions of the upper storage chamber 2A and the lower storage chamber 2B of the suction ducts 33, 33, respectively.
[0041]
As in the above embodiment, a rear guide 34 is formed at the rear end of the cold storage chamber 17, and all the gaps between the cold storage agents 18 are communicated with the discharge duct 32, and the cold storage agent located at both ends. The outer side of 18 communicates with the suction ducts 33 and 33, respectively.
[0042]
With the above configuration, the flow of cool air in the storage chamber 2 will be described with reference to FIG. When the blowers of the upper storage chamber 2A and the lower storage chamber 2B are respectively operated by the control device in the same manner as in the above embodiment, the cold air cooled by the latent heat of fusion of the cool storage agent 18 cooled in advance in the cool storage chamber 17 is After the inside of the discharge duct 32 is raised by the blower, the cold air is discharged into the upper storage chamber 2A and the lower storage chamber 2B. Then, the cool air staying in the storage chambers 2A and 2B is sucked into the suction duct 33 from the suction port and then returned to the cold storage chamber 17. The cold air that has returned to the cold storage chamber 17 passes between the respective cold storage agents 18, is cooled here, and is then sucked into the discharge duct 32 in the same manner as described above.
[0043]
With the above configuration, the storage chamber can be more uniformly filled with cold air than when the discharge duct 32 and the suction duct 33 are formed close to each other.
[0044]
【The invention's effect】
As described above in detail, according to the present invention, a detachable partition that divides a storage chamber into a plurality of chambers in a cooling storage chamber that is configured by forming a storage chamber in a heat insulating box and cooling the storage chamber by the latent heat of fusion of a cool storage agent. It is equipped with a plate, a duct for supplying cold air cooled by a cold storage agent to each compartment, and a temperature adjusting means for adjusting the temperature of each compartment, so that the storage compartment is cooled at different temperature zones. Can be stored.
[0045]
In addition, since the partition plate that divides the storage chamber into a plurality of chambers is detachable, the storage space of the room in the target temperature zone can be expanded by removing the partition plate according to the purpose of use. Become.
[0046]
According to the invention of claim 2, in addition to the invention of claim 1, the temperature adjusting means detects the temperature of each blower and a fan for supplying cold air to each room partitioned by the partition plate, respectively. Since each temperature detection means and a control means for controlling the operation of each blower based on the output of these temperature detection means are configured, each room is set to a target temperature by controlling the operation of each blower. Will be able to.
[0047]
According to the invention of claim 3, in addition to the invention of claim 2, provided with a partition plate detection means for detecting the presence or absence of the partition plate, the control means is based on the presence or absence of the partition plate detected by the partition plate detection means, Since the control method is changed, the temperature of each chamber can be controlled according to the presence or absence of the partition plate.
[0048]
According to the invention of claim 4, in addition to the invention of claim 3, the control means adjusts the temperature in the storage chamber based on the output of any of the temperature detection means when there is no partition plate. One temperature zone can be formed.
[0049]
According to the invention of claim 5, in addition to the invention of claim 1, claim 2, claim 3 or claim 4, cold air formed on the back surface of the storage chamber and exchanging heat with the cold storage agent is supplied to the storage chamber. And a suction duct for returning the cool air in the storage chamber to the cool storage agent, so that the cool air generated by the latent heat of fusion of the cool storage agent is discharged from the discharge duct into the storage chamber. It is possible to circulate the cool air that is discharged and circulated through the storage chamber to return the cool air from the suction duct to the cool storage agent.
[0050]
Thereby, the cool air discharged from the discharge duct is controlled by controlling the operation of the blower provided in each chamber, so that each chamber can be set to the set temperature zone.
[0051]
According to the invention of claim 6, in addition to the invention of claim 1, claim 2, claim 3 or claim 4, cold air formed on the back surface of the storage chamber and exchanging heat with the cold storage agent is supplied to the storage chamber. It has a discharge duct and a suction duct that is formed on the side of the storage chamber and returns the cool air in the storage chamber to the cool storage agent, so that the cool air generated by the latent heat of fusion of the cool storage agent is formed on the back of the storage chamber It becomes possible to circulate the cool air that is discharged from the discharged duct into the storage chamber and returns the cool air circulated in the storage chamber to the cool storage agent from the suction duct formed on the side surface of the storage chamber.
[0052]
Thereby, compared with the case where the discharge duct and the suction duct are formed close to each other, the storage chamber can be more uniformly filled with cold air.
[Brief description of the drawings]
FIG. 1 is a longitudinal side view of a cooling storage of the present invention.
FIG. 2 is an enlarged explanatory view showing a state before placing a partition plate of the cooling storage of FIG. 1;
3 is an enlarged explanatory view showing a mounting state of the partition plate of FIG. 2. FIG.
4 is a structural explanatory diagram showing a flow of cold air in the cooling storage of FIG. 1; FIG.
FIG. 5 is a cross-sectional plan view of a cold storage room of the cooling storage of FIG. 1;
FIG. 6 is a plan sectional view of a cold storage room of a cooling storage of another embodiment.
[Explanation of symbols]
R Cooling storage 1 Heat insulation box 2 Storage room 2A Upper storage room 2B Lower storage room 3 Machine room 4 Wheel 5 Partition plate 6 Fixture 7, 30, 31 Duct plate 8 Detection switch 9 Rear duct 10 Partition plate 11, 32 Discharge duct 12A, 12B Blower 13, 33 Suction duct 14 Suction port 16 Thermal insulation partition plate 17 Cold storage chamber 18 Cool storage agent 21, 34 Rear guide 22A, 22B Temperature sensor

Claims (6)

In a cooling storehouse comprising a storage chamber in the heat insulation box and cooling the storage chamber by the latent heat of fusion of the cool storage agent,
A removable partition plate that divides the storage chamber into a plurality of chambers, a duct that supplies cold air cooled by the cold storage agent to each of the partitioned chambers, and a temperature adjusting unit that adjusts the temperature of each of the chambers. And a cooling storage.   The temperature adjusting means includes a blower for supplying cold air to each of the chambers partitioned by the partition plate, temperature detecting means for detecting the temperature of each of the chambers, and each of the above-described temperature detection means based on the output of these temperature detecting means. The cooling storage according to claim 1, further comprising control means for controlling the operation of the blower.   3. The cooling storage according to claim 2, wherein partition plate detecting means for detecting presence / absence of the partition plate is provided, and the control means changes the control method according to presence / absence of the partition plate detected by the partition plate detecting means.   The cooling storage according to claim 3, wherein the control means adjusts the temperature in the storage chamber based on the output of any of the temperature detection means when there is no partition plate.   A discharge duct formed on the rear surface of the storage chamber for supplying cold air heat-exchanged with the cold storage agent to the storage chamber, and a suction pipe arranged in parallel with the discharge duct for returning the cold air in the storage chamber to the cold storage agent The cooling storage of claim 1, 2, 3, or 4 characterized by comprising a duct.   A discharge duct formed on the back surface of the storage chamber for supplying cold air heat-exchanged with the cold storage agent to the storage chamber, and formed on a side surface of the storage chamber for returning the cold air in the storage chamber to the cold storage agent. The cooling storage of claim 1, 2, 3, or 4, further comprising a suction duct.

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