JP7321742B2 - storage - Google Patents

Description

The present invention relates to storage.

Patent Document 1 below describes a refrigerator as a storage, and the refrigerator includes a storage main body having a storage chamber, a door attached to the storage main body that can open and close the storage chamber, and a back surface of the door. A seal member (packing) for closing the gap between the storage body and the door, and a heater provided at the edge of the opening of the storage body. The amount of heat generated by the heater is controlled based on the cooling temperature in the storage compartment, and the temperature of the packing during cooling can be adjusted to suppress dew condensation and freezing of the door. there is Further, Patent Literature 2 below describes a rapid cooling chamber that can rapidly cool food and the like as a storage chamber.

JP-A-11-344282 JP 2014-215019 A

The above-mentioned sealing member is generally made of a soft material in order to firmly close the gap between the storage body and the door. For example, in a storage that may stop the cooling operation, such as the rapid cooling storage described in Patent Document 2, or in a storage that can not only cool but also heat the inside of the storage, the seal member temperature change is large. Then, after the sealing member is warmed and expanded or softened, when it is cooled again, the sealing member contracts. Due to the contraction of the sealing member, the sealing member adheres to the storage body, requiring a large force to open the door, or creating a gap between the sealing member and the storage, causing the air inside the storage to escape to the outside. There is a risk of leakage.

The present invention has been made in view of such circumstances, and it is possible to suppress the shrinkage of the sealing member, thereby suppressing the adhesion of the sealing member to the storage body and the generation of a gap between the sealing member and the storage body. The object is to provide a safe storage facility.

In order to solve the above problems, the storage of the present invention is
a box-shaped storage body having a storage chamber and opening forward;
a door attached to the storage body and capable of opening and closing the storage chamber;
a sealing member provided on the rear surface of the door for closing a space between the frame-shaped front end surface of the storage body and the door;
a cooling device for cooling the storage chamber;
a front frame heater that heats the front end surface of the storage body;
a control device having a cooling device control section for controlling the cooling device and a front frame heater control section for controlling the front frame heater;
with
The front frame heater control unit executes a cooling-time operation process for operating the front frame heater when the cooling device is operated by the cooling device control unit, and the cooling device is not operating. In this case, when the temperature of the sealing member is lowered, a non-cooling operation process is executed to operate the front frame heater.

When the cooling operation by the cooling device is stopped, if the temperature around the storage decreases, the temperature of the sealing member also decreases, and there is a risk that the sealing member will shrink. However, the storage with this configuration operates the front frame heater to warm the seal member in a situation where the temperature of the seal member is low (hereinafter sometimes referred to as "low temperature condition of the seal member"). and the shrinkage of the sealing member can be suppressed. Therefore, according to the storage with this configuration, it is possible to suppress the sealing member from sticking to the storage body due to contraction and from creating a gap between the sealing member and the storage body. Whether or not the sealing member is in a low temperature condition can be determined, for example, by the temperature inside the refrigerator, the ambient temperature of the storage, or the elapsed time since the cooling operation was stopped (the elapsed time since the front frame heater was turned off). time), the elapsed time since the non-cooling operation process was last executed, and the like, or a combination of a plurality of them.

In the storage container having the above configuration, the front frame heater control unit, in the non-cooling operation process, based on at least one of an internal temperature that is the temperature inside the storage chamber and an external temperature that is the temperature outside the storage chamber, If it is determined that the temperature of the sealing member is lowered, the front frame heater can be activated.

The storage with this configuration uses at least one of the internal temperature and the external temperature as an index for estimating whether or not the seal member is under a low temperature condition, and it is possible to appropriately estimate the temperature drop of the seal member. can.

Further, in the storehouse having the above configuration, the front frame heater control unit controls the temperature of the sealing member when the internal temperature is equal to or lower than the threshold internal temperature and the external temperature is equal to or lower than the threshold external temperature. It can be configured to determine that it is below and activate the front frame heater.

This configuration of the reservoir activates the front frame heater when both the internal and external temperatures are below the threshold. On the other hand, if one of the internal temperature and the external temperature exceeds the threshold, the front frame heater will be turned off. For example, if only one of the internal temperature and the external temperature is monitored, the front frame heater will continue to operate even if the temperature of the other increases, unless the temperature being monitored increases. It will be. According to the storage with this configuration, such a situation can be avoided and the temperature of the sealing member can be kept at an appropriate temperature.

Further, in the storage with the above configuration, a main power supply for switching between an activated state in which the storage is activated to allow at least the operation of the cooling device and a non-activated state in which the operation of the cooling device is not allowed, The frame heater and the front frame heater control section are operable even when the main power supply is in the non-activated state, and the front frame heater control section is operable in both the activated state and the non-activated state. In the above, the non-cooling operation process can be executed.

The storage container with this configuration can suppress the temperature drop of the sealing member even when the main power supply is in a non-starting state, and the sealing member can be maintained even in the non-starting state or immediately after the main power supply is started. It is possible to suppress sticking to the storage body due to shrinkage and generation of a gap between the seal member and the storage body.

Moreover, the storage with the above configuration may be configured to include a heating device for heating the storage chamber.

The storage of this configuration is provided with a heating device for the purpose of temperature control and drying of the interior of the storage. In the storage with this structure, the temperature inside the storage is temporarily raised, so that the temperature of the sealing member also rises temporarily and easily expands. In other words, in the storehouse of this configuration, the temperature drop of the seal member is large, and the seal member is particularly likely to be compressed due to the temperature drop. Therefore, the non-cooling operation process for operating the front frame heater during non-cooling is particularly effective for the storage of this configuration.

ADVANTAGE OF THE INVENTION According to this invention, the shrinkage|contraction of a sealing member can be suppressed, and the storage which can suppress sticking of a sealing member to the storage main body and generation|occurrence|production of the clearance gap between a sealing member and a storage main body can be provided.

1 is a front view of a rapid cooling warehouse, which is a storage warehouse of an embodiment of the present invention; FIG. FIG. 2 is a perspective view of the rapid cooling warehouse shown in FIG. 1 (with two doors and pillars removed and the cart taken out). It is a figure which shows the state which opened the door on the right side shown in FIG. 1, and opened the storage compartment. FIG. 2 is a front cross-sectional view of the rapid cooling warehouse shown in FIG. 1; 3 is a block diagram showing a functional configuration of a control device shown in FIG. 2; FIG. 3 is a flow chart showing a front frame heater control program executed in the control device shown in FIG. 2;

DESCRIPTION OF THE PREFERRED EMBODIMENTS Several embodiments of the present invention will be described in detail below as modes for carrying out the present invention, with reference to the drawings. It should be noted that the present invention is not limited to the following examples, and can be implemented in various modes with various modifications and improvements based on the knowledge of those skilled in the art.

<Storage structure>
A rapid cooling chamber 10 as a storage chamber that is an embodiment of the present invention is shown in FIGS. 1 and 2. FIG. The rapid cooling chamber 10 is also called a blast chiller, and cools cooked hot food to a low temperature such as +3°C in a short time. The rapid cooling chamber 10 has a vertically long rectangular shape as a whole, and includes a cooling chamber main body (storage chamber main body) 11 which is a box-shaped housing that opens forward, and 2 that opens and closes the opening of the cooling chamber main body 11. Doors 12 and 13 and a machine room 14 arranged above the refrigerator main body 11 are included. The rapid cooling chamber 10 is of a cart-in type (trolley type) and includes a cart 15 that can be accommodated within the cooling chamber main body 11 . In the following description, the side of the doors 12 and 13 is the front side, and the side opposite to the doors 12 and 13 is the rear side (rear side). 1) will be described as the left-right direction of the rapid cooling chamber 10. FIG.

A pillar 16 is attached to the refrigerator main body 11 between the upper end and the lower end on the opening side. The opening of the refrigerator main body 11 is divided in the left-right direction by the pillars 16, and two vertically long rectangular openings are formed. As shown in FIG. 2, the interior of the refrigerator main body 11 has an area on the right side of the pillar 16 as a storage chamber (storage chamber) 20 in which food to be cooled is stored. The area on the left side of the pillar 16 is an installation room 22 in which the cooling unit 21 is installed. A relatively large door 12 is rotatably attached to the right side end of the frame-shaped front end face 11A of the cooling chamber main body 11, and a relatively large door 12 is attached to the right side end. A smaller door 13 is pivotally mounted. That is, the storage room 20 can be opened and closed by the door 12 on the right side, and the installation room 22 can be opened and closed by the door 13 on the left side.

The rapid cooling chamber 10 has a lock mechanism 23 for holding the doors 12 and 13 in a closed state. The lock mechanism 23 includes a lever 24 provided on the surface of the door 12 on the right side and an engaging portion 25 provided on the door 13 on the left side. By engaging the lever 24 with the engaging portion 25, the doors 12 and 13 are locked, and by releasing the engagement of the lever 24 with the engaging portion 25, the doors 12 and 13 are unlocked. It can be locked.

As shown in FIG. 3, the door 12 has a packing 26 as a sealing member along the peripheral edge portion of the rear surface thereof to close the front end surface 11A of the cooling chamber body 11 or the front surfaces of the pillars 16. installed. The packing 26 is made of soft polyvinyl chloride in this embodiment.

The accommodation chamber 20 is configured to accommodate most of the upper portion of the cart 15 described above. Next, the cart 15 will be briefly described. As shown in FIG. 2, the cart 15 includes a square frame-shaped carriage portion 31 provided with casters 30, and a cart body portion 32 positioned above the carriage portion 31 and on which food to be cooled is placed. and a connecting portion 33 that connects the carriage portion 31 and the cart body portion 32 . The connecting portion 33 is erected from the front end portion of the carriage portion 31 . The cart main body 32 includes a base 34 extending rearward from the rear upper portion of the connecting portion 33, a pair of front and rear frames 35 provided on the base 34 and forming a vertically long gate shape, and a pair of frames 35. and a plurality of pairs of tray receptacles 36 extending between them. That is, when the cart 15 configured as described above is moved toward the refrigerator main body 11, the carriage portion 31 enters the lower side of the refrigerator main body 11, and the cart main body portion 32 is accommodated in the accommodation chamber 20. It has become.

As mentioned above, the cooling unit 21 is installed in the installation room 22 . As shown in FIG. 4, the cooling unit 21 is formed by housing two coolers 40 (evaporators) and three internal fans 41 in a casing 42 to form a unit. The cooler 40 is arranged on the left side in the casing 42, and is cyclically connected to a refrigerating device 43 including a compressor and a condenser provided in the machine room 14 via refrigerant pipes, thereby forming a refrigerating cycle. shall be In other words, the cooling device 44 for cooling the housing chamber 20 is configured including the cooling unit 21, the freezing device 43, the refrigerant pipes, and the like.

In the cooling operation for cooling the storage chamber 20 , when the refrigerator 43 and the internal fan 41 are operated, the air in the storage chamber 20 is sucked into the casing 42 , and the sucked air cools the cooler 40 . The cold air blown out from the left side of the casing 42 hits the inner wall surface 11B on the left side of the cooler main body 11, and then flows around the casing 42 into the storage chamber 20. be The storage chamber 20 is cooled by such continuous air circulation.

The cooling unit 21 also includes an internal heater 45 . The in-chamber heater 45 is provided on the right side of the cooler 40 and is used when performing a drying operation for drying the inside of the chamber. Note that the drying operation is performed, for example, after cleaning the inside of the refrigerator.

The rapid cooling chamber 10 is equipped with a washing device 50 for washing the inside of the chamber. As shown in FIGS. 3 and 4, the cleaning device 50 is provided on the top surface inside the refrigerator main body 11 . The cleaning device 50 includes a plurality of nozzles 51 , 52 , 53 and a rotating shaft 54 for rotating the plurality of nozzles 51 , 52 , 53 , and the plurality of nozzles 51 rotated around the rotating shaft 54 . , 52 and 53 spray cleaning liquid and water in various directions, so that the inside of the cooling chamber body 11 can be cleaned to every corner. Further, the rapid cooling chamber 10 is equipped with a sterilization device 55 for sterilizing the inside of the chamber. The sterilization device 55 is a UV sterilization device that utilizes the sterilization effect of ultraviolet rays, and is provided on the inner wall surface 11C on the right side of the refrigerator main body 11 at three intervals in the vertical direction.

Furthermore, as shown in FIG. 3, the rapid cooling chamber 10 has a front frame heater 60 for the purpose of preventing dew condensation on the opening edge of the cooling chamber main body 11 and preventing freezing of the doors 12 and 13 to the cooling chamber main body 11. is provided. Specifically, the front frame heater 60 includes a body heater 61 that heats the front end surface 11A of the refrigerator body 11 from the inside, and a pillar heater 62 that heats the front surfaces of the pillars 16 from the inside. The main body heater 61 and the pillar heater 62 are cord heaters and are attached to the inner surfaces of the front surfaces of the cooler main body 11 and the pillars 16 . The right part of the main body heater 61 and the right part of the pillar heater 62 are along the peripheral edge of the door 12 , and the left part of the main body heater 61 and the left part of the pillar heater 62 are along the peripheral edge of the door 13 . are distributed along the In other words, the main body heater 61 and the pillar heater 62 are arranged at locations facing the packing 26 of the closed door 12 and the packing of the door 13, and the temperature of the packing during cooling can be adjusted. , it is possible to suppress condensation and freezing of the door.

As shown in FIG. 2, the rapid cooling chamber 10 is provided with a control device 70 arranged in the machine room 14. The control device controls the cooling device 44, the internal heater 45, the cleaning device 50, and the The bacterium device 55 and the front frame heater 60 are controlled. The control device 70 is mainly composed of a computer including a CPU, a ROM, and a RAM, and includes a cooling device 44 (specifically, a compressor, a condenser, an internal fan 41, etc.), an internal heater 45, a cleaning device 50, The sterilization device 55, the front frame heater 60 and the like are electrically connected. In addition, as shown in FIG. 5, the rapid cooling chamber 10 includes an internal temperature sensor 71 for detecting an internal temperature (the internal temperature of the storage chamber 20) _TIN , and an external temperature ( and an outside temperature sensor 72 for detecting the outside temperature _TOUT , which is the temperature outside the storage chamber 20 , and are also connected to the control device 70 .

Further, as shown in FIG. 1, the rapid cooling chamber 10 is provided with an operation panel 73 for accepting user's operations, and the operation panel 73 is also connected to the control device 70 . A main power source 74 is provided near the operation panel 73, and the main power source 74 activates the rapid cooling chamber 10 to operate the cooling operation, the drying operation, and the like. and a non-starting state in which the rapid cooling chamber 10 is stopped. It should be noted that this non-starting state is based on the premise that the rapid cooling chamber 10 is energized.

<Control of rapid cooling chamber>
The ROM of the control device 70 stores various programs for controlling the rapid cooling chamber 10, and the control device 70 controls the rapid cooling chamber 10 by executing these programs. It's like

i) Rapid cooling operation The rapid cooling operation, which is the main operation mode of the rapid cooling chamber 10, is an operation mode for rapidly cooling cooked hot food. In the rapid cooling operation, after the cart 15 holding the food tray 36 is accommodated in the storage chamber 20 of the rapid cooling chamber 10, the user operates the operation panel 73 to start the rapid cooling operation. is started when instructed by

In the rapid cooling operation, the control device 70 operates the internal fan 41 of the cooling device 44 and the freezing device 43 (specifically, the compressor and the condenser fan). As described above, when the refrigerating device 43 and the internal fan 41 are operated, the air in the housing chamber 20 is sucked into the casing 42, and the sucked air is cooled while passing through the cooler 40. As a result, the cool air blows out from the left side of the casing 42, hits the inner wall surface 11B on the left side of the cooler main body 11, and is sent into the storage chamber 20 around the casing 42. - 特許庁This circulates cold air in the refrigerator and quickly cools the food. When the rapid cooling operation is started, the control device 70 monitors the temperature of the food by the core temperature sensor, and terminates the rapid cooling operation when the food is cooled down to a predetermined temperature.

When this rapid cooling operation is performed, dew condensation is likely to occur near the opening of the cooling chamber main body 11, in other words, around the edges of the doors 12 and 13 due to the temperature difference between the inside and outside of the chamber. There is a possibility that the doors 12 and 13 may freeze to the refrigerator main body 11 due to freezing of the dew condensation. Therefore, the rapid cooling chamber 10 operates the front frame heater 60 during the rapid cooling operation to prevent the dew condensation (activation processing during cooling).

ii) Drying operation In addition, the rapid cooling chamber 10 is capable of drying operation as an operation mode for drying the inside of the chamber. The drying operation is started, for example, when the user operates the operation panel 73 to instruct the start of the drying operation after washing the inside of the refrigerator.

In the drying operation, the control device 70 operates the indoor heater 45 and the indoor fan 41 . When the internal heater 45 is energized and the internal fan 41 is rotated, warm air is sent into the internal storage, the internal temperature rises, and the moisture in the internal storage gradually changes to steam. When the moisture changes to steam, the volume expands and the pressure inside the chamber rises, causing the steam to be exhausted from the exhaust port and the outside air to be drawn into the chamber from the intake port to dry the interior. there is

iii) Maintenance operation In addition, the rapid cooling chamber 10 is capable of automatically washing the inside of the chamber by the washing device 50, and after the automatic washing, the drying operation described above, and after the drying operation, It is possible to perform UV sterilization by and continuously. After performing the rapid cooling operation, when the operation panel 73 is operated to instruct the start of the maintenance operation, the maintenance operation is started. After the maintenance operation is completed, the main power supply 74 can be switched from the activated state to the non-activated state.

iv) Control of front frame heater (non-cooling operation process)
When the drying operation described above is performed, the temperature inside the refrigerator rises to nearly 60°C. As the temperature inside the refrigerator rises and the humidity inside the refrigerator rises due to steam, the packing 26 of the door 12 and the packing of the door 13 at the boundary between the inside and outside of the refrigerator are warmed and softened (expanded). It conforms to the front surface of the refrigerator main body 11 and the pillars 16, for example, increasing the contact area. After the drying operation and maintenance operation are completed, the temperature is returned to normal temperature, but if the packing 26 is exposed to an environment with a low outside air temperature for a long time, the temperature of the packing 26 will drop and it will shrink. Due to the contraction, the packing 26 adheres to the refrigerator main body 11 and the pillars 16, requiring a large force to open the door 12, and creating a gap between the door 12 and the refrigerator main body 11 and the pillars 16. There is a risk of

In order to cope with this, the rapid cooling chamber 10 is designed to operate under conditions where the temperature of the packing 26 is low (hereinafter referred to as "packing ), the control device 70 activates the front frame heater so that the temperature drop of the packing 26 can be suppressed. Specifically, the control device 70 determines whether the packing is in a low temperature condition based on the internal temperature _TIN detected by the internal temperature sensor 71 and the external temperature _TOUT detected by the external temperature sensor 72. If it is determined that the packing is in a low temperature condition, the front frame heater 60 is activated.

In the rapid cooling chamber 10 of the present embodiment, _the control _{device 70 controls} the packing low temperature It determines that the situation exists and activates the front frame heater 60 . Then, when either one of the external temperature _TOUT and the internal temperature _TIN becomes higher, specifically, when the external temperature _TOUT becomes higher than the threshold external temperature _T0 , or when the internal temperature T When _IN rises above the threshold internal temperature _T1 , the activated front frame heater 60 is turned off.

In the rapid cooling chamber 10, the temperature inside the chamber may temporarily rise due to the inner heater 45 as a heating device, and the temperature of the packing 26 is also likely to rise. That is, in the rapid cooling chamber 10 of the present embodiment, the temperature difference of the packing 26 is large, and the packing 26 tends to shrink due to the temperature drop. temperature drop can be effectively suppressed.

It should be noted that the determination as to whether or not the packing is in a low temperature condition is not limited to the above means. For example, determination may be made based on only one of the external temperature _TOUT and the internal temperature _TIN . However, if the on/off of the front frame heater 60 is controlled by only one of the external temperature T _OUT and the internal temperature _TIN , if the temperature of the non-monitored one does not rise, the front frame The timing of stopping the heater 60 is delayed, and there is a risk that the cooler main body 11 and the front surfaces of the pillars 16 will become hot. Therefore, in the rapid cooling chamber 10 of this embodiment, when either one of the external temperature _TOUT and the internal temperature _TIN becomes high, the front frame heater 60 is stopped. Excessive situations can be avoided.

Further, the determination of whether or not the packing is in a low temperature condition is based on the elapsed time from the end of the drying operation, the elapsed time from the state in which the front frame heater 60 was stopped, or the elapsed time, and the above You may make it judge by the combination with the temperature of .

In addition, in the rapid cooling chamber 10 of the present embodiment, the controller 70 operates not only when it is in the activated state but also when it is in the non-activated state, and the controller 70 operates the front frame heater 60. It is possible to In other words, the control device can execute the non-cooling operation process of the front frame heater 60 regardless of whether it is in the activated state or the non- activated state. Therefore, even immediately after the rapid cooling chamber 10 is activated by the main power supply 74, the doors 12 and 13 are stuck to the cooling chamber main body 11 due to the contraction of the packing 26, and the gap between them is formed. occurrence can be suppressed.

<Control program for front frame heater>
The control of the front frame heater 60 described above is performed by the controller 70 repeatedly executing a front frame heater control program whose flow chart is shown in FIG. 6 at short time intervals. The front frame heater control program will be described below.

In the front frame heater control program, first, in step 1 (hereinafter abbreviated as "S1"; the same applies to other steps), it is determined whether or not the cooling device 44 is operating (whether cooling is in progress). is determined, S2 to S4 are skipped during the cooling operation, and the front frame heater 60 is operated in S5. On the other hand, if the cooling operation is not being performed, it is determined in S2 whether or not other functions (drying operation, maintenance operation, etc.) are being performed. , S6, the front frame heater 60 is disabled.

If other functions are not being executed in S2, it is determined in S3 whether the external temperature _TOUT detected by the outside temperature sensor 72 is equal to or lower than the threshold external temperature _T0 . It is determined whether or not the internal temperature _TIN detected by the internal temperature sensor 71 is equal to or lower than the threshold internal temperature _T1 . When the external temperature _TOUT is equal to or lower than the threshold external temperature _T0 and the internal temperature _TIN is equal to or lower than the threshold internal temperature _T1 , it is determined that the temperature of the packing 26 is decreasing, Front frame heater 60 is activated.

On the other hand, if the external temperature _TOUT is higher than the threshold external temperature _T0 , or if the internal temperature _TIN is higher than the threshold internal temperature _T1 , the front frame heater 60 is turned off at S6. That is, when the front frame heater 60 is activated, the front frame heater 60 is stopped when either the external temperature _TOUT or the internal temperature _TIN becomes higher than the threshold value. This completes one execution of the front frame heater control program.

<Functional configuration of control device>
The control device 70 can be considered to have a functional configuration as shown in the block diagram of FIG. 5, that is, a functional configuration having several functional units such as a functional unit for executing the above-described programs and the like. . Specifically, first, the control device 70 includes a cooling device control unit 80 that controls the cooling device 44 in the cooling operation, an internal heater control unit 81 that controls the internal heater 45 in the drying operation, etc., and a cleaning operation. etc., a cleaning device control unit 83 that controls the cleaning device 55 in maintenance operation, etc., and a front frame heater 60 that is constantly controlled regardless of whether it is in the activated state or the non-activated state. and a front frame heater control unit 84 that controls the .

Further, according to the execution of the front frame heater control program described above, the front frame heater control section 84 functions as a functional section that executes the processes of S1 and S5, and the cooling device 44 is operated by the cooling device control section 80. When the cooling device 44 is not in operation, the cooling operation processing unit 85 that executes the cooling operation processing that operates the front frame heater 60 when the cooling device 44 is not in operation. and a non-cooling operation processing unit 86 that executes a non-cooling operation processing for activating the front frame heater 60 when the temperature of the heater is lowered.

<Other embodiments>
Although the storage of this embodiment is a rapid cooling storage, it is not limited to this, and can be widely applied to storage in which the cooling operation may be stopped. Moreover, although the storage of the present embodiment is equipped with the interior heater 45 as a heating device for heating the interior of the storage, the storage may not be equipped. However, since the temperature of the sealing member tends to be high in a storage provided with a heating device, the storage of the present invention is particularly effective for such a storage.

DESCRIPTION OF SYMBOLS 10... Rapid cooling box [storage box], 11... Cooling box main body [storage box main body], 11A... Front end surface, 12... Door, 16... Pillar, 20... Storage chamber [storage room], 21... Cooling unit, 26... Packing [ Seal member], 40 Cooler, 41 In-chamber fan, 43 Refrigerating device, 44 Cooling device, 45 In-chamber heater [heating device], 60 Front frame heater, 70 Control device, 71 Inside Temperature sensor 72 Outside temperature sensor 74 Main power supply 80 Cooling device control unit 84 Front frame heater control unit 85 Cooling operation processing unit 86 Non-cooling operation processing unit

Claims (5)

a box-shaped storage body having a storage chamber and opening forward;
a door attached to the storage body and capable of opening and closing the storage chamber;
a sealing member provided on the rear surface of the door for closing a space between the frame-shaped front end surface of the storage body and the door;
a cooling device for cooling the storage chamber;
a front frame heater that heats the front end surface of the storage body;
a control device comprising: a cooling device control unit that controls the cooling device to perform a cooling operation for cooling the inside of the storage chamber; and a front frame heater control unit that controls the front frame heater;
with
When the cooling operation is executed by the cooling device control unit and the internal temperature, which is the temperature inside the storage chamber, is lowered below the external temperature, which is the temperature outside the storage chamber, the front frame heater control unit controls the A situation in which the temperature of the seal member is lowered when the cooling operation process for operating the front frame heater is performed and the external temperature is lower than the internal temperature because the cooling operation is not being performed. A reservoir that, when down, performs a no-cool activation process that activates the front frame heater. The front frame heater control unit determines that the temperature of the seal member is decreasing based on at least one of the internal temperature and the external temperature in the non-cooling operation process. 2. The storeroom of claim 1, wherein upon determination, the front frame heater is activated. The front frame heater control unit determines that the temperature of the seal member is decreasing when the external temperature is equal to or lower than the threshold external temperature and the internal temperature is equal to or lower than the threshold internal temperature. 3. The storeroom of claim 2, wherein a determination is made and the front frame heater is activated. A main power supply that switches between an activated state in which the storage is activated to allow at least the operation of the cooling device and a non-activated state in which the cooling device is not allowed to operate;
The front frame heater and the front frame heater control unit are operable even when the main power supply is in the non-activated state,
4. The storehouse according to any one of claims 1 to 3, wherein the front frame heater control section is capable of executing the non-cooling operation process in both the activated state and the non-activated state. A heating device for heating the storage chamber ,
5. The method according to any one of claims 1 to 4, wherein the control device is capable of executing a drying operation for drying the inside of the storage chamber by controlling the heating device, and is capable of executing the non-cooling operation process after the drying operation. A reservoir according to any one of the preceding claims.

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