TW202242329A - Energy-charging system and heat conduction structure of portable cold-and-heat energy storage device which is applied to the low-temperature home distribution box for automobiles and motorcycles - Google Patents

Abstract

The present invention is an energy-charging system of a portable cold-and-heat energy storage device, which includes a temperature regulating device, multiple heat conduction structures and multiple cold-and-heat energy storage boxes. Each of the heat conduction structures has two heat conduction plates connected with the temperature regulating device. One side of each of the cold-and-heat energy storage boxs is concavely formed with two heat conduction grooves. The two heat conduction grooves of the cold-and-heat energy storage box are detachably sleeved outside the two heat conduction plates of the heat conduction structure, and the opposite two side surfaces of the heat conduction plate are respectively attached to the opposite two walls of the heat conduction groove. As compared with cooling or heating from outside of the cold-and-heat energy storage box, this invention enables cold energy or heat energy to be quickly transferred to all the cold-and-heat energy storage agents in the cold-and-heat energy storage box through the heat conduction plate, by means of inserting the heat conduction plate into the heat conduction groove of the cold-and-heat energy storage box, which can greatly shorten the time required to cool to solidify or to heat to a specific temperature of the cold-and-heat energy storage box.

Description

Charging system and heat conduction structure of portable cold and heat storage device

This creation relates to a freezing or heating and heat preservation system with a portable cold storage and heat storage device, especially a low temperature heat preservation system used in conjunction with low temperature distribution boxes of automobiles/locomotives and other vehicles.

In recent years, the rise of catering and low-temperature fresh food delivery platforms has led to the vigorous development of the logistics business that uses cars/locomotives or bicycles for delivery. Among them, the temperature of low-temperature fresh food must be maintained throughout the distribution process to avoid deterioration, and a pre-frozen portable cold storage ice box is placed in the low-temperature distribution box for low-temperature distribution.

The current way to freeze the cold storage ice boxes is to stack the cold storage ice boxes on the market and put them into the freezer/box, and wait for the cold storage ice boxes to be completely frozen in the freezer/box before taking them out for delivery. However, the convective heat transfer coefficient of the freezer/box and the heat transfer coefficient of the cold storage ice box under the state of liquid state to solid state are both low, resulting in the existing cold storage ice box needing to wait at least 3 to 7 days to completely cool and freeze. The freezing efficiency is very poor and cannot be quickly It provides personnel replacement, which is inconvenient to use.

Therefore, the freezing system of the cold storage device in the prior art needs to be improved.

In view of the above-mentioned shortcomings and deficiencies of the prior art, this invention provides a charging system for a portable cold storage and heat storage device, which is a detachable heat conduction structure installed in the cold storage ice box, thereby increasing the cooling and solidification speed.

In order to achieve the above creative purpose, the technical means used in this creation is to design a charging system for a portable cold storage and heat storage device, including: a temperature regulating device; At least one thermally conductive structure having: at least one heat conducting plate connected to the temperature regulating device; At least one cold storage and heat storage box, which is filled with cold storage and heat storage agent; one side of the cold and heat storage box is concavely formed with at least one heat conduction groove; the at least one heat conduction groove of the cold and heat storage box is detachably sleeved on the heat conduction structure Outside the at least one heat conduction plate; the opposite side surfaces of the heat conduction plate are respectively attached to the opposite two groove walls of the corresponding heat conduction groove; Wherein, the temperature regulating device cools or heats the cold and heat storage box through the heat conduction structure.

In order to achieve the above creation purpose, this creation further provides a heat conduction structure for the charging system of a portable cold and heat storage device, which is used to connect between a temperature adjustment device and a cold and heat storage box, so that the temperature adjustment device can pass through the heat conduction The structure cools or heats the cold storage heat storage box; one side of the at least one cold storage heat storage box is concavely formed with at least one heat conduction groove; the heat conduction structure includes: At least one heat conduction plate, which is used to connect to the temperature adjustment device; the heat conduction plate is used to be detachably penetrated in the heat conduction groove of the cold storage and heat storage box; the opposite two sides of the heat conduction plate are respectively attached to the opposite sides of the heat conduction groove Two groove walls.

The advantage of this creation is that the cold storage and heat storage box is formed with a heat conduction groove, the heat conduction groove is covered with the heat conduction groove of the cold storage and heat storage box, and the opposite two groove walls of the heat conduction groove are respectively attached to the opposite two sides of the heat conduction plate. Thereby, the average distance between the heat conduction plate and the cold storage and heat storage agent in each place in the cold storage and heat storage box will be less than the average distance between any outer surface of the cold and heat storage box and the cold and heat storage agent in various places in the cold and heat storage box; To cool or heat from the outside of the cold storage and heat storage box, this invention inserts the heat conduction plate into the heat conduction groove of the cool and heat storage box, so that the cold or heat energy can be quickly transferred to all the cold storage in the cold and heat storage box through the heat conduction plate The heat storage agent can greatly shorten the time required for charging the cold storage and heat storage box (that is, cooling and solidification or heating to a specific temperature), and is more convenient to use.

Furthermore, the energy charging system of the portable cold storage and heat storage device, wherein the heat conduction plate of the heat conduction structure includes a relatively bent fixing portion and a piercing portion; one side of the fixing portion is closely against the temperature adjustment The device; the piercing portion is detachably pierced with the corresponding heat conduction groove.

Furthermore, in the energy charging system of the portable cold and heat storage device, the heat conducting plate of the heat conducting structure is provided with at least one heat pipe.

Furthermore, in the energy charging system of the portable cold and thermal storage device, the heat conduction plate of the heat conduction structure is provided with at least one heat pipe, and the heat pipe extends from the fixed part of the heat conduction plate to the piercing part.

Furthermore, in the energy charging system of the portable cold storage and heat storage device, the heat conduction plate of the heat conduction structure is recessed to form at least one heat pipe installation groove; the heat pipe is arranged in the heat pipe installation groove; the heat pipe is close to the The temperature regulating device and one of the tank walls of the heat conduction tank of the cold storage and heat storage box.

Furthermore, in the energy charging system of the portable cold storage and heat storage device, the heat conduction plate of the heat conduction structure is recessed to form at least one heat pipe installation groove, and the heat pipe installation groove is pressed against the heat conduction plate from the fixing part. One side of the temperature adjustment device extends to the piercing portion; the heat pipe is arranged in the heat pipe installation groove; the heat pipe is close to the temperature adjustment device and one of the groove walls of the heat conduction groove of the cold and heat storage box.

Furthermore, in the energy charging system of the portable cold storage and heat storage device, the heat pipe is a flat tube body, and the opposite two sides of the heat pipe are respectively attached to the heat conduction plate and one of the groove walls of the heat conduction groove.

Furthermore, the heat conduction structure of the energy charging system of the portable cold storage heat storage device, wherein the heat conduction plate of the heat conduction structure includes a relatively bent fixing part and a piercing part; The temperature adjusting device; the piercing part is detachably pierced with the corresponding heat conduction groove.

Furthermore, the heat conduction structure of the charging system of the portable cold and heat storage device, wherein the heat conduction plate of the heat conduction structure is provided with at least one heat pipe.

Furthermore, the heat conduction structure of the charging system of the portable cold and heat storage device, wherein the heat conduction plate of the heat conduction structure is provided with at least one heat pipe, and the heat pipe extends from the fixed part of the heat conduction plate to the penetration part .

Furthermore, the heat conduction structure of the charging system of the portable cold storage heat storage device, wherein the heat conduction plate of the heat conduction structure is recessed to form at least one heat pipe installation groove; the heat pipe is arranged in the heat pipe installation groove; the heat pipe One of the groove walls of the heat conduction groove used to abut against the temperature adjustment device and the cold and heat storage box.

Furthermore, the heat conduction structure of the energy charging system of the portable cold storage and heat storage device, wherein the heat conduction plate of the heat conduction structure is recessed to form at least one heat pipe installation groove, and the heat pipe installation groove is formed from the fixed part of the heat conduction plate A side close to the temperature adjustment device extends to the piercing portion; the heat pipe is arranged in the heat pipe installation groove; the heat pipe is used to abut against the temperature adjustment device and one of the heat conduction grooves of the cold storage and heat storage box wall.

Furthermore, the heat conduction structure of the charging system of the portable cold storage and heat storage device, wherein the heat pipe is a flat pipe, and the opposite sides of the heat pipe are respectively attached to the heat conduction plate and one of the heat conduction grooves. tank wall.

The technical means adopted by this creation to achieve the predetermined creation purpose are further described below in conjunction with the drawings and the preferred embodiments of this creation.

Please refer to FIG. 1 , FIG. 2 and FIG. 4 , the charging system of the portable cold storage and heat storage device of this invention includes a temperature regulating device 10 , multiple heat conducting structures 20 and multiple cold storage and heat storage boxes 30 .

The temperature regulating device 10 is a device that can continuously absorb heat energy (that is, cool other things) or generate heat energy (that is, heat other things). In this embodiment, the temperature regulating device 10 is a refrigerant evaporator of the refrigeration equipment, which utilizes the refrigerant to evaporate and absorb heat for cooling, but it is not limited thereto. For example, the temperature regulating device 10 can also be a large number of low-temperature fluids or electric heaters.

The aforementioned heat conduction structures 20 each have two heat conduction plates 21 spaced apart from each other, and each heat conduction plate 21 is connected to the temperature adjustment device 10 . In other preferred embodiments, each heat conduction structure 20 may only have one heat conduction plate 21 as required, and the present invention may also have only one heat conduction structure 20 .

In this embodiment, each heat conducting plate 21 includes a fixing portion 211 and a penetrating portion 212 that are relatively bent. One side of the fixing part 211 is in close contact with the temperature adjusting device 10 to ensure that heat energy can be quickly transferred between the fixing part 211 and the temperature adjusting device 10 . The piercing portion 212 extends away from the temperature regulating device 10 . The two penetrating portions 212 of the two heat conducting plates 21 of each heat conducting structure 20 are parallel to each other. The heat conducting plate 21 is preferably made of copper, aluminum or graphite and other materials with good thermal conductivity.

Please refer to FIG. 2 to FIG. 4 , further speaking, each heat conducting plate 21 is formed with a plurality of heat pipe installation grooves 213 , and each heat conducting plate 21 is provided with a plurality of heat pipes 22 . The heat pipe installation groove 213 extends from a side of the fixing portion 211 of the heat conducting plate 21 abutting against the temperature adjusting device 10 to the penetrating portion 212 . Each heat pipe 22 is respectively disposed in a corresponding heat pipe installation groove 213 , and the heat pipe 22 is directly attached to the temperature regulating device 10 to improve the heat conduction effect. More specifically, the heat pipe 22 is a flat pipe body, one of its two opposite sides abuts against the bottom of the heat pipe installation groove 213, and the other side abuts against the temperature regulating device 10, but the heat pipe 22 is not limited to a flat shape. . In addition, the heat pipe 22 is not limited to be disposed in the groove of the heat conduction plate 21 , as long as the heat pipe 22 is in contact with the heat conduction plate 21 to increase the heat transfer speed between the fixing portion 211 and the piercing portion 212 . In other preferred embodiments, each heat conducting plate 21 may also be provided with only one heat pipe 22 . In addition, please refer to FIG. 5 , in the second embodiment of the energy charging system of the portable cold and heat storage device of this invention, the heat conducting plate 21A may not be provided with the heat pipe 22, but simply made of a material with good thermal conductivity. Into a board body.

Please refer to Fig. 1 and Fig. 4, the interior of the aforementioned cold storage and heat storage box 30 is filled with a cold storage and heat storage agent, and one side of each cold storage and heat storage box 30 is recessed to form two heat conduction grooves 31, and the two heat conduction grooves 31 are separately covered. It is arranged outside the two piercing parts 212 of the two heat conducting plates 21 of the corresponding heat conducting structure 20, and the opposite two groove walls of each heat conducting groove 31 are respectively attached to the opposite two sides of the corresponding piercing part 212, thereby increasing Contact area to increase heat conduction speed. In this embodiment, one of the groove walls of the heat conduction groove 31 is more directly abutted against one of the side surfaces of the heat pipe 22 .

When the invention is in use, align the heat storage box 30 to be cooled with the heat conduction groove 31 with the heat conduction plate 21 inserted into any heat conduction structure 20 . According to actual tests, the cold storage heat storage box 30 with a weight of 2 kg and a solidification temperature of minus 23 degrees Celsius can be completely cooled and solidified after about 2 hours. The cold and heat storage box 30 after cooling and solidification can be taken out and placed in an insulated box for low-temperature delivery.

To sum up, this creation forms the heat conduction groove 31 in the cold storage and heat storage box 30, and inserts the heat conduction plate 21 into the heat conduction groove 31 of the cold and heat storage box 30, so that cold energy or heat energy can be quickly transferred through the heat conduction plate 21 The cold storage heat storage agent in the cold storage heat storage box 30 can greatly shorten the time required for charging the cold storage heat storage box, and is more convenient to use.

The above description is only a preferred embodiment of this creation, and does not impose any formal restrictions on this creation. Although this creation has been disclosed as above with a preferred embodiment, it is not used to limit this creation. Anyone in the technical field has Ordinary knowledgeable persons, without departing from the scope of this creative technical solution, may use the technical content disclosed above to make some changes or modify them into equivalent embodiments with equivalent changes. The technical essence of the creation Any simple modification, equivalent change and modification made to the above embodiments still belong to the scope of the technical solution of the creation.

10: Temperature adjustment device 20: Thermal conduction structure 21: heat conduction plate 211: fixed part 212: Wearing department 213: heat pipe installation groove 22: heat pipe 30: Cold and heat storage box 31: heat conducting groove 21A: heat conduction plate

Fig. 1 is the three-dimensional appearance schematic diagram of the first embodiment of the charging system of the portable cold and heat storage device of the present invention. Fig. 2 is a schematic partial upper view of the first embodiment of the charging system of the portable cold and heat storage device of the present invention. Fig. 3 is a three-dimensional appearance schematic diagram of the heat conducting plate of the first embodiment of the charging system of the portable cold and heat storage device of the present invention. Fig. 4 is a schematic cross-sectional view of the charging system of the first embodiment of the portable cold and thermal storage device of the invention. Fig. 5 is a three-dimensional appearance schematic diagram of the heat conduction plate of the second embodiment of the charging system of the portable cold and heat storage device of the present invention.

10: Temperature adjustment device

20: Thermal conduction structure

21: heat conduction plate

22: heat pipe

30: Cold and heat storage box

31: heat conducting groove

Claims (14)

A charging system for a portable cold storage and heat storage device, comprising: a temperature regulating device; At least one thermally conductive structure having: at least one heat conducting plate connected to the temperature regulating device; At least one cold storage and heat storage box, which is filled with cold storage and heat storage agent; one side of the cold and heat storage box is concavely formed with at least one heat conduction groove; the at least one heat conduction groove of the cold and heat storage box is detachably sleeved on the heat conduction structure Outside the at least one heat conduction plate; the opposite side surfaces of the heat conduction plate are respectively attached to the opposite two groove walls of the corresponding heat conduction groove; Wherein, the temperature regulating device cools or heats the cold and heat storage box through the heat conduction structure. The energy charging system of a portable cold storage heat storage device according to claim 1, wherein the heat conduction plate of the heat conduction structure includes a relatively bent fixing part and a piercing part; one side of the fixing part is close to the temperature adjustment The device; the piercing portion is detachably pierced with the corresponding heat conduction groove. The energy charging system of a portable cold storage and heat storage device according to claim 1, wherein the heat conducting plate of the heat conducting structure is provided with at least one heat pipe. The energy charging system of a portable cold storage heat storage device according to claim 2, wherein the heat conduction plate of the heat conduction structure is provided with at least one heat pipe, and the heat pipe extends from the fixed part of the heat conduction plate to the piercing part. The charging system of the portable cold and heat storage device as described in claim 3, wherein The heat conduction plate of the heat conduction structure is recessed to form at least one heat pipe installation groove; The heat pipe is arranged in the heat pipe installation groove; the heat pipe is attached to the temperature adjustment device and one of the groove walls of the heat conduction groove of the cold and heat storage box. The energy charging system of the portable cold storage heat storage device as described in claim 4, wherein The heat conduction plate of the heat conduction structure is concavely formed with at least one heat pipe installation groove, and the heat pipe installation groove extends from a side of the heat conduction plate that is close to the temperature adjustment device at the fixed portion to the penetrating portion; The heat pipe is arranged in the heat pipe installation groove; the heat pipe is attached to the temperature adjustment device and one of the groove walls of the heat conduction groove of the cold and heat storage box. The energy charging system of a portable cold storage heat storage device as described in any one of claims 3 to 6, wherein the heat pipe is a flat tube, and the opposite sides of the heat pipe are respectively attached to the heat conduction plate and the heat conduction tank One of the groove walls. A heat conduction structure of the energy charging system of a portable cold and heat storage device, used to connect between a temperature adjustment device and a cold and heat storage box, so that the temperature adjustment device cools or heats the cold and heat storage box through the heat conduction structure; the at least One side of a cold storage and heat storage box is recessed to form at least one heat conduction groove; the heat conduction structure includes: At least one heat conduction plate, which is used to connect to the temperature adjustment device; the heat conduction plate is used to be detachably penetrated in the heat conduction groove of the cold storage and heat storage box; the opposite two sides of the heat conduction plate are respectively attached to the opposite sides of the heat conduction groove Two groove walls. The thermal conduction structure of the energy charging system of the portable cold storage heat storage device as described in claim 8, wherein the heat conduction plate of the heat conduction structure includes a relatively bent fixing part and a piercing part; one side of the fixing part is closely abutted against The temperature adjusting device; the piercing part is detachably pierced with the corresponding heat conduction groove. The thermal conduction structure of the charging system of the portable cold storage and heat storage device according to claim 8, wherein the heat conduction plate of the heat conduction structure is provided with at least one heat pipe. The thermal conduction structure of the energy charging system of the portable cold storage heat storage device according to claim 9, wherein the heat conduction plate of the heat conduction structure is provided with at least one heat pipe, and the heat pipe extends from the fixed part of the heat conduction plate to the penetration part . The thermal conduction structure of the charging system of the portable cold and heat storage device as described in claim 10, wherein The heat conduction plate of the heat conduction structure is recessed to form at least one heat pipe installation groove; The heat pipe is arranged in the heat pipe installation groove; the heat pipe is used to abut against the temperature adjustment device and one of the groove walls of the heat conduction groove of the cold and heat storage box. The thermal conduction structure of the charging system of the portable cold storage heat storage device as described in claim 11, wherein The heat conduction plate of the heat conduction structure is concavely formed with at least one heat pipe installation groove, and the heat pipe installation groove extends from a side of the heat conduction plate that is close to the temperature adjustment device at the fixed portion to the penetrating portion; The heat pipe is arranged in the heat pipe installation groove; the heat pipe is used to abut against the temperature adjustment device and one of the groove walls of the heat conduction groove of the cold and heat storage box. According to any one of claims 10 to 13, the heat conduction structure of the energy charging system of the portable cold storage heat storage device, wherein the heat pipe is a flat pipe, and the opposite sides of the heat pipe are respectively attached to the heat conduction plate and the heat conduction plate. One of the groove walls of the heat conduction groove.

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