JP2021169868A - Temperature regulating box - Google Patents

Abstract

To improve portability and secure stability during transportation.SOLUTION: A temperature regulating box includes: a storage box 40 having a storage part 421 which stores stored objects; a freezing/refrigeration unit 20 which cools an interior of the storage box 40; and a cover member 10 which stores the storage box 40 and the temperature regulating unit 20. The cover member 10 has a pair of left and right shoulder belts 14 which is provided to allow a user to lift the cover member 10 onto its back and extends from an upper part to a lower part of a back surface 10a of the cover member 10. The freezing/refrigeration unit 20 is disposed at the back surface 10a side of the cover member 10 relative to the storage part 421.SELECTED DRAWING: Figure 1

Description

The present invention relates to a temperature control box.

Conventionally, there is a cooler box described in Patent Document 1. This cooler box contains a heat insulating container that houses the object to be cooled, a heat conductor arranged along the inner wall of the heat insulating container, a Perche element bonded to the heat conductor, and the electricity generated by the solar cell. The inside of the heat insulating container is cooled by supplying the element.

Japanese Unexamined Patent Publication No. 2000-7056

Since the thing described in Patent Document 1 is not provided with a handle, a belt for carrying, etc., it is necessary to carry the heat-insulating container by lifting it with both hands, or to carry the heat-insulating container on a trolley. , Not excellent in portability.

Therefore, it is conceivable to provide a shoulder strap so that the heat insulating container can be carried on the back. However, when the heat insulating container is carried on the back, there is a problem that the heat insulating container becomes unstable depending on the arrangement of the parts for cooling the inside of the heat insulating container.

The present invention has been made in view of the above points, and an object of the present invention is to improve portability and ensure stability during transportation.

In order to achieve the above object, the invention according to claim 1 comprises a storage box (40) having a storage unit (421) for storing the contents, a temperature control unit (20) for cooling the inside of the storage box, and the like. A cover member (10) for accommodating the accommodating box and the temperature control unit is provided. Further, the cover member has a pair of left and right shoulder belts (14) provided for carrying the cover member on the back and extending from the upper part to the lower part of the back surface (10a) of the cover member, and the temperature control unit accommodates the cover member. It is located on the back side of the part.

According to such a configuration, the cover member has a pair of left and right shoulder belts (14) provided for carrying the cover member on the back and extending from the upper part to the lower part of the back surface (10a) of the cover member. The adjustment box can be carried on the back, and the portability can be improved. In addition, the temperature control unit is arranged on the back side of the cover member on the back side of the accommodating portion, and the center of gravity of the temperature control box can be brought closer to the back side of the cover member, so that stability during transportation can be ensured. can.

The reference reference numerals in parentheses attached to each component or the like indicate an example of the correspondence between the component or the like and the specific component or the like described in the embodiment described later.

It is the figure which showed typically the state which the person carried the temperature control box on the back. It is an external view of a temperature control box. It is an exploded view of a temperature control box. It is an exploded view of a freezing and refrigerating unit. It is a front view of the refrigerating / refrigerating unit, and is the view of the refrigerating / refrigerating unit viewed from the back side of the cover member. It is a front view of a freezing and refrigerating unit, and is the figure which showed the modification.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In each of the following embodiments, the same or equal parts are designated by the same reference numerals, and the description thereof will be omitted.

(First Embodiment)
The temperature control box according to the first embodiment will be described with reference to FIGS. 1 to 5. As shown in FIG. 1, the main temperature control box 1 has a freezing / refrigerating unit 20 for freezing or refrigerating the inside of a storage box 40 having a storage unit 421 for storing a cold object, and the storage box 40 for a long time. It is possible to cool the inside of the box. The temperature control box 1 of the present embodiment functions as a cooling box. Further, the main temperature control box 1 has a pair of left and right shoulder belts 14, and these shoulder belts 14 can be hung on the shoulders and carried on the back.

The temperature control box 1 includes a cover member 10 that forms an outer shell, a freezing / refrigerating unit 20 and a storage box 40 that are housed inside the cover member 10.

The cover member 10 has an opening that opens upward in the vertical direction, and the freezing / refrigerating unit 20 and the storage box 40 are housed through this opening. The cover member 10 has a back surface 10a, a right side surface 10b, a left side surface 10c, and a surface surface 10d that come into contact with the back of the person carrying the cover member 10.

The cover member 10 has a rectangular parallelepiped shape. The cover member 10 has a pair of left and right shoulder belts 14 extending from the upper part to the lower part of the back surface 10a of the cover member 10. These shoulder belts 14 are provided to carry the cover member 10 on their backs. The cover member 10 and the shoulder strap 14 of the present embodiment are made of cloth.

The cover member 10 has a lid portion 11 that covers an upper opening in the vertical direction. The lid portion 11 is provided above the cover member 10 so that an upper opening in the vertical direction can be opened and closed.

The cover member 10 has an air intake 13 for taking in air into the freezing / refrigerating unit 20 and an air outlet 12 for discharging air from the freezing / refrigerating unit 20. The air intake 13 and the air outlet 12 are made of a mesh-like cloth that allows ventilation.

The freezing / refrigerating unit 20 cools the inside of the storage box 40. The freezing / refrigerating unit 20 corresponds to a temperature control unit. The freezing / refrigerating unit 20 is arranged in the storage box 40.

The storage box 40 has a heat insulating box 41 and an inner case 42. The heat insulating box 41 and the inner case 42 each form a rectangular parallelepiped.

The inner case 42 has an accommodating portion 421 for accommodating the contained object. An opening is formed in the upper part of the inner case 42. The inner case 42 is made of resin. The inner case 42 is arranged inside the heat insulating box 41 to prevent water leakage to the heat insulating box 41 side.

The freezing / refrigerating unit 20 is arranged on the back surface 10a side of the cover member 10 with respect to the accommodating portion 421 of the accommodating box 40.

The heat insulating box 41 has a substantially rectangular parallelepiped shape. At the lower end of one side surface of the heat insulating box 41 in the vertical direction, a protruding portion 411 projecting in a direction orthogonal to one side surface is formed. Further, an opening is formed in the upper part of the heat insulating box 41. The heat insulating box 41 accommodates the inner case 42. The heat insulating box 41 is made of a heat insulating material such as urethane or polystyrene, and insulates heat transferred from the outside to the inside of the heat insulating box 41.

Next, the freezing and refrigerating unit 20 will be described with reference to FIG. The refrigerating / refrigerating unit 20 includes an electric compressor 21, a condenser 22, a condenser fan 22a, a decompressor 23, an evaporator 24, an accumulator 29, a battery 30, a control unit 31, a power supply box 32, a bracket 28, a casing 25, and the like. Have.

The casing 25 has a substantially rectangular parallelepiped shape. The electric compressor 21, the condenser fan 22a, the decompressor 23, the evaporator 24, the accumulator 29, the battery 30, the control unit 31, and the power supply box 32 are housed inside the casing 25. Further, the condenser 22 and the bracket 28 are arranged so as to project outward from the outer wall surface of the casing 25.

The electric compressor 21, the condenser 22, the decompressor 23, the evaporator 24, and the accumulator 29 constitute a vapor compression refrigeration cycle, and are connected by a pipe 26.

The electric compressor 21 is a fluid machine that compresses and discharges the refrigerant, and operates by the current supplied from the control unit 31. As shown in FIG. 5, the electric compressor 21 includes the center line RLCL in the left-right direction of the freezing / refrigerating unit 20, and is arranged below the center line UDCL in the vertical direction of the freezing / refrigerating unit 20.

The condenser 22 condenses the refrigerant discharged from the electric compressor 21. The condenser 22 dissipates the heat of the refrigerant absorbed by the evaporator 24 by heat exchange between the refrigerant discharged from the electric compressor 21 and the air blown by the condenser fan 22a.

The condenser fan 22a introduces the air outside the cover member 10 from the air intake 13 of the cover member 10 into the inside of the casing 25, and introduces the introduced air through the condenser 22 and the air outlet 12 of the cover member 10. And discharge to the outside of the casing 25. The operation of the condenser fan 22a is controlled by the control unit 31.

The decompressor 23 decompresses and expands the refrigerant that has passed through the condenser 22 by narrowing the passage of the refrigerant. The condenser 22 is controlled by the control unit 31.

The evaporator 24 is arranged above the condenser 22. The evaporator 24 is composed of a thin plate-shaped member. In the thin plate-shaped member, the flow path through which the refrigerant flows is formed to meander. The evaporator 24 is located in contact with or in close proximity to the containment box 40.

The evaporator 24 is a heat exchanger that exchanges heat between the refrigerant expanded under reduced pressure by the decompressor 23 and the air inside the storage box 40. The evaporator 24 cools the inside of the housing box 40 by evaporating the refrigerant from the decompressor 23.

The accumulator 29 separates the gas and liquid of the refrigerant flowing from the evaporator 24. The accumulator 29 stores the liquid phase refrigerant among the gas-liquid separated refrigerants in the liquid storage space formed in the accumulator 29. The electric compressor 21 sucks in the gas-phase refrigerant separated by the accumulator 29, compresses it, and discharges it as a high-pressure refrigerant.

The power supply box 32 is a power unit that supplies electric power for driving the electric compressor 21.

The battery 30 supplies electric power to the electric compressor 21, the decompressor 23, and the control unit 31 via the power supply box 32. As the battery 30, a rechargeable battery that can be recharged can also be used. The battery 30 is fixed to the casing 25 by the support member 30a.

The control unit 31 is configured as a computer equipped with a CPU, memory, I / O, and the like. The control unit 31 executes various processes according to the program stored in the memory.

Various detection signals are input to the control unit 31 from a sensor (not shown). The control unit 31 controls the rotation speed of the electric compressor 21, the throttle opening degree of the decompressor 23, and the like based on various detection signals from the sensor.

The battery 30 and the control unit 31 are housed in a storage unit 251 formed in the casing 25. The storage unit 251 formed in the casing 25 is covered with the cover 33 after the battery 30 and the control unit 31 are stored. The cover 33 is screwed to the casing 25 with screws (not shown).

Next, the assembly of the main temperature control box 1 will be described.

First, the operator opens the lid portion 11 of the cover member 10 and stores the heat insulating box 41 inside the cover member 10 through the opening formed in the upper part of the cover member 10.

Next, the operator stores the inner case 42 inside the heat insulating box 41 through the opening formed in the upper part of the heat insulating box 41. At this time, the inner case 42 is housed inside the heat insulating box 41 so that the protruding portion 411 formed at the lower end of the heat insulating box 41 faces the back surface 10a side of the cover member 10.

Next, the worker accommodates the freezing / refrigerating unit 20 inside the heat insulating box 41. At this time, the freezing / refrigerating unit 20 is housed so as to be placed on the protruding portion 411 formed in the heat insulating box 41. That is, the freezing / refrigerating unit 20 is arranged on the back surface 10a side of the cover member 10 with respect to the accommodating portion 421 of the accommodating box 40. As a result, the freezing / refrigerating unit 20 is arranged on the back surface 10a side of the accommodating box 40 of the cover member 10 with respect to the accommodating portion 421 of the inner case 42.

Next, the operator closes the lid portion 11 of the cover member 10 to complete the assembly of the main temperature control box 1.

Next, the operation of the main temperature control box 1 will be described.

The control unit 31 controls the operation of the electric compressor 21, the decompressor 23, and the condenser fan 22a so that the inside of the housing box 40 is cooled by the evaporator 24.

The electric compressor 21 compresses the refrigerant flowing out of the evaporator 24 and discharges it to the condenser 22 side. Further, the outside air of the casing 25 is introduced into the casing 25 by the action of the condenser fan 22a.

The high-temperature and high-pressure refrigerant discharged from the electric compressor 21 is dissipated to the air introduced into the casing 25 by the condenser 22. That is, the condenser 22 exchanges heat between the refrigerant discharged from the electric compressor 21 and the air introduced into the casing 25 to release the heat of the refrigerant to the air introduced into the casing 25 and to release the refrigerant. Condense.

The air that has passed through the condenser 22 is sucked by the condenser fan 22a and then discharged to the outside of the casing 25 through the air discharge port 12 of the cover member 10.

Further, the refrigerant that has passed through the condenser 22 flows into the decompressor 23. The decompressor 23 decompresses the refrigerant condensed in the condenser 22. The refrigerant decompressed by the condenser 22 flows into the evaporator 24 and evaporates by heat exchange with the air inside the storage box 40. At this time, the air inside the storage box 40 is cooled by the latent heat of vaporization of the refrigerant. The refrigerant flowing out of the evaporator 24 is separated into gas and liquid by the accumulator 29, and the separated liquid phase refrigerant is accumulated in the liquid storage space formed in the accumulator 29. Further, the gas-liquid refrigerant separated by the accumulator 29 is sucked into the electric compressor 21, compressed again, and discharged as a high-pressure refrigerant.

As described above, the main temperature control box 1 includes a storage box 40 having a storage unit 421 for storing the contents, a freezing / refrigerating unit 20 for cooling the inside of the storage box 40, and the storage box 40 and freezing. A cover member 10 for accommodating the refrigerating unit 20 is provided. Further, the cover member 10 has a pair of left and right shoulder belts 14 that are provided to carry the cover member 10 on their backs and extend from the upper part to the lower part of the back surface 10a of the cover member 10. The freezing / refrigerating unit 20 is arranged on the back surface 10a side of the cover member 10 with respect to the accommodating portion 421.

According to such a configuration, the cover member 10 has a pair of left and right shoulder belts (14) provided for carrying the cover member 10 on its back and extending from the upper part to the lower part of the back surface 10a of the cover member 10. The temperature control box 1 can be carried on the back, and the portability can be improved. Further, the freezing / refrigerating unit 20 is arranged on the back surface 10a side of the cover member 10 with respect to the storage box 40, and the center of gravity of the temperature control box 1 can be brought closer to the back surface 10a of the cover member 10 during transportation. Stability can be ensured.

Further, the freezing / refrigerating unit 20 includes an electric compressor 21 that compresses and discharges the refrigerant, and a condenser 22 that condenses the refrigerant discharged from the electric compressor 21. Further, it has a decompressor 23 for decompressing the refrigerant flowing out of the condenser 22, and an evaporator 24 for cooling the inside of the storage box 40 by evaporating the refrigerant from the decompressor 23. The electric compressor 21 is arranged at a position including the center line RLCL in the width direction of the back surface 10a of the cover member 10.

According to such a configuration, the relatively heavy electric compressor 21 is arranged at a position including the center line RLCL in the width direction of the back surface 10a of the cover member 10, so that the width of the back surface 10a of the cover member 10 is included. It is possible to improve the balance of directions.

Further, the temperature control box 1 includes a battery 30 that supplies electric power to the electric compressor 21. The condenser 22 and the evaporator 24 are arranged on one side of the back surface 10a of the cover member in the width direction, and the battery is arranged on the other side of the back surface of the cover member in the width direction.

According to such a configuration, the relatively heavy condenser 22 and the evaporator 24 are arranged on one side in the width direction of the back surface 10a of the cover member, and the relatively heavy battery is placed on the back surface of the cover member 10. It is arranged on the other side in the width direction of 10a.

Therefore, it is possible to further stabilize the balance of the back surface 10a of the cover member 10 in the width direction.

Further, the electric compressor 21 is arranged below the center line UDCL in the vertical direction of the back surface 10a of the cover member 10 in the vertical direction.

In this way, by arranging the relatively heavy electric compressor 21 vertically below the center line UDCL in the vertical direction of the back surface 10a of the cover member 10, the center of gravity of the freezing / refrigerating unit 20 is lowered. Therefore, the stability can be improved.

(Second Embodiment)
The temperature control box according to the second embodiment will be described with reference to FIG. In the first embodiment, the battery 30 is arranged at a position including the vertical center line UDCL of the freezing / refrigerating unit 20. On the other hand, in the present embodiment, as shown in FIG. 6, the battery 30 is arranged below the center line UDCL in the vertical direction of the freezing / refrigerating unit 20 in the vertical direction.

In this way, by arranging the relatively heavy electric compressor 21 and the battery 30 vertically below the center line UDCL in the vertical direction of the back surface 10a of the cover member 10, the center of gravity of the freezing and refrigerating unit 20 can be set. Since it can be lowered, stability can be improved.

(Other embodiments)
(1) In each of the above embodiments, an example in which the inside of the storage box 40 is cooled by the freezing and refrigerating unit 20 is shown for the temperature control box, but the temperature control box is configured to heat the inside of the storage box 40 by the heating unit. You can also do it. In this case, the inside of the storage box 40 may be heated by the refrigeration cycle, or the inside of the storage box 40 may be heated by an electric heater or the like.

(2) In each of the above embodiments, the cover member 10 made of cloth is provided, but the material of the cover member 10 is not limited to cloth, and may be made of, for example, resin or the like.

(3) In each of the above embodiments, the storage box 40 is composed of the heat insulating box 41 and the inner case 42 formed separately, but the heat insulating box 41 and the inner case 42 may be integrated to form the storage box 40. ..

(4) In the second embodiment, the electric compressor 21 and the battery 30 are arranged vertically below the center line UDCL in the vertical direction of the back surface 10a of the cover member 10. On the other hand, at least one of the electric compressor 21 and the battery 30 may be arranged vertically below the center line UDCL in the vertical direction of the back surface 10a of the cover member 10.

(5) In each of the above embodiments, the freezing and refrigerating unit 20 is provided with the accumulator 29, but it is not always necessary to include the accumulator 29.

The present invention is not limited to the above-described embodiment, and can be appropriately modified within the scope of the claims. Further, the above-described embodiments are not unrelated to each other, and can be appropriately combined unless the combination is clearly impossible. Further, in each of the above embodiments, it goes without saying that the elements constituting the embodiment are not necessarily essential except when it is clearly stated that they are essential and when they are clearly considered to be essential in principle. stomach. Further, in each of the above embodiments, when numerical values such as the number, numerical values, quantities, and ranges of the constituent elements of the embodiment are mentioned, when it is clearly stated that they are particularly essential, and in principle, the number is clearly limited to a specific number. It is not limited to the specific number except when it is done. Further, in each of the above embodiments, when referring to the material, shape, positional relationship, etc. of the constituent elements, etc., except when specifically specified or when the material, shape, positional relationship, etc. are limited to a specific material, shape, positional relationship, etc. in principle. , The material, shape, positional relationship, etc. are not limited.

(summary)
According to the first aspect shown in part or all of each of the above embodiments, the temperature control box includes a storage box having a storage portion for storing the contents, and a temperature control unit for cooling the inside of the storage box. , A cover member for accommodating a storage box and a temperature control unit. Further, the cover member has a pair of left and right shoulder belts that are provided to carry the cover member and extend from the upper part to the lower part of the back surface of the cover member, and the temperature control unit is located on the back side of the cover member on the back side of the accommodating portion. Have been placed.

Further, according to the second aspect, the temperature control unit includes an electric compressor that compresses and discharges the refrigerant, and a condenser that condenses the refrigerant discharged from the electric compressor. Further, it has a decompressor for decompressing the refrigerant flowing out of the condenser and an evaporator for cooling the inside of the storage box by evaporating the refrigerant from the decompressor. The electric compressor is arranged at a position including the center line in the width direction of the back surface of the cover member.

According to such a configuration, the relatively heavy electric compressor is arranged at a position including the center line in the width direction of the back surface of the cover member, so that the balance in the width direction of the back surface of the cover member is stabilized. It is possible to make it.

Further, according to the third aspect, the temperature control box includes a battery for supplying electric power to the electric compressor. Further, the condenser and the evaporator are arranged on one side in the width direction of the back surface of the cover member, and the battery is arranged on the other side in the width direction of the back surface of the cover member.

According to such a configuration, the relatively heavy electric compressor is arranged at a position including the center line in the width direction of the back surface of the cover member, so that the balance in the width direction of the back surface of the cover member is improved. It is possible.

Further, according to the fourth aspect, at least one of the electric compressor and the battery is arranged below the vertical center line of the back surface of the cover member in the vertical direction.

In this way, the center of gravity of the freezing and refrigerating unit is lowered by arranging at least one of the relatively heavy electric compressor and the battery below the vertical center line of the back surface of the cover member in the vertical direction. Therefore, the stability can be improved.

1 Temperature control box 10 Cover member 10a Back surface 14 Shoulder belt 20 Freezing and refrigerating unit 21 Electric compressor 22 Condenser 22a Condenser fan 23 Decompressor 24 Evaporator 30 Battery 31 Control unit 40 Storage box 41 Insulation box 42 Inner case

Claims (4)

A storage box (40) having a storage unit (421) for storing the contents, and a storage box (40).
A temperature control unit (20) that cools the inside of the storage box, and
A cover member (10) for accommodating the storage box and the temperature control unit is provided.
The cover member has a pair of left and right shoulder belts (14) provided for carrying the cover member on the back and extending from the upper part to the lower part of the back surface (10a) of the cover member.
The temperature control unit is a temperature control box arranged on the back side of the cover member with respect to the accommodating portion. The temperature control unit includes an electric compressor (21) that compresses and discharges the refrigerant, a condenser (22) that condenses the refrigerant discharged from the electric compressor, and the refrigerant that has flowed out of the condenser. It has a compressor (23) for depressurizing and an evaporator (24) for cooling the inside of the storage box by evaporating the refrigerant from the compressor.
The temperature control box according to claim 1, wherein the electric compressor is arranged at a position including a center line (RLCL) in the width direction of the back surface of the cover member. A battery (30) for supplying electric power to the electric compressor is provided.
Claim that the condenser and the evaporator are arranged on one side of the back surface of the cover member in the width direction, and the battery is arranged on the other side of the back surface of the cover member in the width direction. The temperature control box according to 2. The temperature control box according to claim 3, wherein at least one of the electric compressor and the battery is arranged vertically below the center line (UDCL) in the vertical direction on the back surface of the cover member.

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