WO2014067493A1

WO2014067493A1 - Novel semiconductor cool/warm box and fabrication method

Info

Publication number: WO2014067493A1
Application number: PCT/CN2013/086519
Authority: WO
Inventors: 刘万辉
Original assignee: 沈茂相
Priority date: 2012-11-05
Filing date: 2013-11-04
Publication date: 2014-05-08
Also published as: CN103808062A

Abstract

Provided are a semiconductor cool/warm box and fabrication method of same. The semiconductor cool/warm box comprises a semiconductor cool/warm box body having a large-volume storage chamber (1) and a bottom equipment chamber (2) and a semiconductor cooler/warmer (16). A semiconductor cooler/warmer working chamber (3) connecting inside and outside is provided at the back of the semiconductor cool/warm box body. The fabrication method comprises installing the semiconductor cooler/warmer (16) in the semiconductor cooler/warmer working chamber (3), and connecting an external heat exchanger (6), a composite condenser (8), and a liquid transfer pump (11) of the semiconductor cooler/warmer (16) by using connecting pipes, so as to form a cyclic flow path for a liquid refrigerant. The fabrication method has advantages such as simple operations, lowered difficulty in body foaming preparation work, and easy maintenance.

Description

Novel semiconductor refrigerating warm storage box and manufacturing method thereof

The invention relates to a manufacturing method of a novel semiconductor refrigerating warm storage box, in particular to a novel semiconductor refrigerating warm storage box with a large volume storage room.

Background technique

At present, refrigerator products with large-volume storage rooms are basically foamed after the relevant components such as evaporators are installed in the casing during the production process. This process is difficult to industrialize in semiconductor refrigerated warm storage boxes. In the application, the primary reason is that the preparation of the foaming of the box is more difficult. The second reason is that the after-sales maintenance service of the semiconductor refrigerated warm storage box thus produced is more difficult. In addition, the compressor refrigerator with a large-volume storage room is only The semiconductor refrigerated warm-up box technology that can not be cooled and can be cooled and heated can only meet the basic needs of a small-volume storage room.

Summary of the invention

The object of the present invention is to overcome the shortcomings of the prior art, and to provide a semiconductor refrigerated warm storage box with a simple operation, a difficulty in reducing the foaming preparation work of the box, and a large-volume storage room for reducing the workload of the after-sales maintenance service, and a manufacturing method thereof. Moreover, compared with the semiconductor refrigerated warm storage box without the box bottom machine room manufactured by the prior method, the new semiconductor refrigerated warm storage box has significant progress in cooling efficiency, cooling temperature difference depth and product volume.

The main technical solution of the present invention: after installing the pre-prepared semiconductor cooling and heating device into the semiconductor refrigeration and heating device studio of the prepared semiconductor refrigerated warm-up box body, and then connecting the semiconductor cooling and heating device with the connecting tube, The composite condenser and the infusion pump constitute a circulating flow path of the liquid refrigerant.

A novel semiconductor refrigerated warm storage box according to the present invention is characterized by comprising:

1. A semiconductor refrigerated warm storage box body, wherein the refrigerated warm storage box body is assembled by inserting the outer body plate, the inner liner and the related parts into a foaming mold; the semiconductor refrigerated warm storage box The back of the body storage compartment is provided with a semiconductor cooling and heating device working inside and outside, and the bottom of the semiconductor refrigerating and warming box body is a machine room that passes through the front and the back;

2. Semiconductor refrigeration heater: The internal heat exchanger of one of the semiconductor refrigerating sheet, the outer heat exchanger of one of the metal components of the refrigerating heater, and the metal component of the refrigerating heater are in close contact with each other, and fastened. The connecting member is fixedly composed;

3. The semiconductor refrigeration heater is installed in a working chamber of the semiconductor refrigeration heater, and communicates with the external heat exchanger of the semiconductor refrigeration heater, the composite condenser and the infusion pump through a connecting pipe to form a circulating flow path of the liquid refrigerant.

4. The composite condenser is composed of a horizontal composite condenser and a vertical composite condenser, and the horizontal composite condenser and the infusion pump are located in the machine room, and the vertical composite condenser is located in the dual-purpose box. The back of the body.

The specific manufacturing method of the present invention includes the following steps:

1. Preparation of semiconductor refrigerated warm storage box body: The semiconductor refrigerated warm box outer body plate, inner liner and related parts are assembled and put into foaming mold foaming to prepare a semiconductor refrigerated warm box box, semiconductor The refrigerated warm storage box has a large-volume storage room, and the semiconductor refrigerated storage box storage room The back of the semiconductor refrigeration and heating device is opened inside and outside, and the bottom of the semiconductor refrigerated warm box is a machine room that is connected to the front and back;

2. Preparation of a semiconductor refrigeration heater: an external heat exchanger of one of a semiconductor refrigeration chip, a semiconductor refrigeration and heat exchanger metal component, and a heat exchanger of one of the semiconductor refrigeration and heat exchanger metal components are closely contacted and attached. The fastening connector is fixed to form a semiconductor refrigeration heater;

3. Assembling: After installing the semiconductor cooling heater into the semiconductor cooling and heating chamber, the external heat exchanger, the composite condenser and the infusion pump that connect the semiconductor refrigeration heater with the connecting tube constitute a circulation of the liquid refrigerant. Flow path.

Comparing the test results of the test prototype, the new semiconductor refrigerated warm storage box with the machine room at the bottom of the box is compared with the semiconductor refrigerated warm storage box without the bottom bottom machine room manufactured by the prior method. In the cooling state, the former is compounded. The temperature difference between the hot end temperature of the condenser and the ambient temperature is less than half of the temperature difference between the hot end temperature of the composite condenser and the ambient temperature, and the heat dissipation effect is remarkably improved. Now the cooling efficiency of the new semiconductor refrigerated warm box is increased by 3 times. The cooling depth is increased by 30%, and the capacity of the semiconductor refrigerated warm storage box that can be manufactured is increased from 150L to 500L, and all aspects are significantly improved. The 260L large-volume full-glass semiconductor wine developed by us has been rejected by the national daily electrical appliance. The center test, the test result data prove that the technology is at the domestic and international leading level in the application field of semiconductor refrigeration technology. The external name of the national daily electrical appliance testing center is Guangzhou Weikai Testing Technology Co., Ltd., and the test report number is WTS2012-4875.

BRIEF DESCRIPTION OF THE DRAWINGS:

1 is a schematic cross-sectional view showing a structure of a novel semiconductor refrigerated warm storage box according to an embodiment of the present invention; FIG. 2 is a cross-sectional view showing a structure of a novel semiconductor refrigerated warm storage box according to an embodiment of the present invention; Schematic diagram of the connection scheme of the refrigeration heater, the composite condenser and the infusion pump;

4 is a cross-sectional view showing the structure of an outer heat exchanger of a semiconductor refrigeration heater according to an embodiment of the present invention; wherein: 1. a storage compartment; 2. a machine room; 3. a semiconductor refrigeration and heating device studio; Heat exchanger; 5. Semiconductor refrigeration sheet; 6. External heat exchanger; 7. Internal heat exchange fan; 8. Composite condenser; 9. Horizontal composite condenser; 10. Vertical composite condenser; Infusion pump; 12. External heat exchange fan; 1 3. Rehydration vent; 14. Liquid refrigerant inflow/outlet; 15. Flow path; 16. Semiconductor refrigeration heater.

detailed description

The invention will be further described below with reference to the accompanying drawings: Referring to the drawings: 1. A novel semiconductor refrigerated warm storage box includes:

1) a semiconductor refrigerated warm storage box body, wherein the refrigerated warm storage box body is assembled by inserting the outer casing, the inner liner and the related parts into a foaming mold; the semiconductor refrigerating warm storage box The back of the box storage compartment 1 has a semiconductor cooling and heating device 3 that penetrates inside and outside, and the bottom of the semiconductor refrigerated warm box box is a machine room 2 that penetrates front and rear;

2), semiconductor refrigeration heater 16: the semiconductor heat exchanger 5, the outer heat exchanger 6 of one of the refrigeration heater metal components and the inner heat exchanger 4 of one of the refrigeration heater metal components are in close contact with each other in sequence Sticking, fixed by a fastening connector;

3), the semiconductor cooling and heating device 16 is installed in the semiconductor refrigeration and heating device working chamber 3, and communicates with the external heat exchanger 6, the composite condenser 8 and the infusion pump 11 of the semiconductor cooling and heating device 16 through a connecting pipe. A circulating flow path that constitutes a liquid refrigerant.

4), the composite condenser 8 is composed of a horizontal composite condenser 9 and a vertical composite condenser 10, and the horizontal composite condenser 9 and the infusion pump 11 are located in the machine room 3, vertical The composite condenser 10 is located on the back of the dual purpose tank.

The horizontal composite condenser 9 is composed of at least one horizontal single layer condenser.

Further, the vertical composite condenser 14 is composed of at least one vertical single layer condenser. Further, an external heat exchange fan 12 for improving the heat exchange capability of the horizontal composite condenser 9 and the air is installed beside the horizontal composite condenser 9 in the machine room 3.

The outer heat exchanger 6 of the semiconductor cooling and heating device 16 is provided with a liquid refrigerant inflow/outlet port 14 through which the liquid refrigerant passes, and a rehydration and exhaust port 13 , and an S shape in which the liquid refrigerant flows inside the outer heat exchanger 6 Flow path 15.

The inner heat exchanger 4 described above is a finned heat exchanger, and the inner heat exchanger abuts the inner heat exchange fan 7.

The method according to the present invention can be seen from Fig. 2, the semiconductor refrigerated warm box outer casing, the inner liner and related parts are assembled and put into a foaming mold to foam, and a semiconductor refrigerated warm storage box body is prepared, and the semiconductor refrigerating warm box is heated. The storage box has a large-volume storage room 1 , and the semiconductor refrigerated storage box storage room 1 has a semiconductor cooling and heating device 3 that is open inside and outside. The bottom of the semiconductor refrigerated storage box is front and rear. The machine room 2; as shown in Fig. 1, the heat exchanger 4 of one of the metal cooling fins 5, one of the metal components of the semiconductor refrigerating heater 16, and the heat exchanger 4 of one of the metal components of the semiconductor refrigerating heater 16 are closely arranged. The semiconductor cooling and heating device 16 is assembled by being fastened by a fastening member, and the semiconductor cooling and heating device 16 is mounted in the semiconductor cooling and heating device 3, as shown in FIG. 1, FIG. 2 and FIG. The outer heat exchanger 6, the composite condenser 8, and the infusion pump 11 of the semiconductor refrigeration heater 16 are connected by a connecting pipe to constitute a circulating flow path of the liquid refrigerant.

As shown in FIG. 1 and FIG. 3, the composite condenser 8 is composed of a horizontal composite condenser 9 and a vertical composite condenser 10, and a horizontal composite condenser 9 and an infusion pump 11 are provided. Placed in the machine room 2 of the new semiconductor refrigerated warm storage box, the vertical composite condenser 10 is placed on the outside of the new semiconductor refrigerated warm storage box.

In the technical solution of the present invention, the horizontal composite condenser 9 is composed of one or more horizontal single-layer condensers.

In the technical solution of the present invention, the vertical composite condenser 10 is composed of one or more vertical single-layer condensers.

In the technical solution of the present invention shown in Fig. 1, an external heat exchange fan 12 for improving the heat exchange capacity of the horizontal composite condenser 9 and the air is installed beside the horizontal composite condenser 9 in the machine room 2.

In the technical solution of the present invention as shown in Fig. 1, the inner heat exchanger 4 is a finned heat exchanger, and the inner heat exchanger 4 abuts the inner heat exchange fan 7.

In the technical solution of the present invention, as shown in FIG. 4, the outer heat exchanger 6 of the semiconductor refrigeration heater 16 is provided with a liquid refrigerant inflow/outflow port 14 through which the liquid refrigerant passes, and a rehydration exhaust port 13 and an external heat exchanger 6. An S-shaped flow path 15 through which a liquid refrigerant flows is opened inside.

In the technical solution of the present invention, the semiconductor cooling and heating device 16 is composed of at least one sub-semiconductor refrigerating heater, and the replenishing and exhausting port 13 is opened on the outer heat exchanger of the sub-semiconductor refrigerating heater having the highest position.

Claims

Rights request

1. A novel semiconductor refrigerated warm storage box, characterized by comprising:

1) a semiconductor refrigerated warm storage box body, wherein the refrigerated warm storage box body is assembled by the outer casing, the inner liner and the related parts, and then filled into the foaming mold to form an integral part; the semiconductor refrigerated warm storage box Box storage room

(1) The semiconductor cooling and heating device studio (3) with internal and external openings on the back, and the bottom of the semiconductor refrigerated warm storage box is a machine room (2) that runs through the front and back;

2), semiconductor refrigeration heater (16): an internal heat exchanger consisting of a semiconductor refrigerating sheet (5), an outer heat exchanger (6) of one of the cooling heater metal components, and one of the cooling heater metal components (4) in close contact with each other in sequence, and fixed by a fastening connector;

3), the semiconductor refrigeration heater (16) is installed in the semiconductor refrigeration and heating device working chamber (3), and the external heat exchanger (6) of the semiconductor refrigeration heater (16) is connected through the connecting tube, and the composite type The condenser (8) and the infusion pump (11) constitute a circulating flow path of the liquid refrigerant.

4), the composite condenser (8) is composed of a horizontal composite condenser (9) and a vertical composite condenser (10), and a horizontal composite condenser (9) and an infusion pump (11) ) Located in the machine room (3), the vertical composite condenser (10) is located on the back of the dual-purpose case.

2. A novel semiconductor refrigerated warm storage box according to claim 1 wherein: the horizontal composite condenser (9) is comprised of at least one horizontal single layer condenser.

3. A novel multifunctional semiconductor refrigerated warm storage tank according to claim 1, wherein: the vertical composite condenser (14) is composed of at least one vertical single layer condenser.

4. A novel semiconductor refrigerated warm storage box according to claim 1, wherein: the horizontal composite condenser (9) in the machine room (3) is provided with an improved horizontal composite condenser (9) and External heat exchange fan (12) with air heat exchange capacity.

A novel semiconductor refrigerated warm storage box according to claim 1, wherein: the outer heat exchanger (6) of the semiconductor refrigerating heater (16) is provided with a liquid refrigerant inflow/outlet through which the liquid refrigerant passes. (14) and the rehydration vent (13), the external heat exchanger (6) has an S-shaped flow path through which the liquid refrigerant flows.

(15).

6. A novel semiconductor refrigerated warm storage box according to claim 1, wherein: the inner heat exchanger (4) is a finned heat exchanger, and the inner heat exchanger is adjacent to the inner heat exchange fan (7).

7. A method of fabricating a novel semiconductor refrigerated warm storage box, characterized in that the preparation process comprises the following steps:

IX Preparation of semiconductor refrigerated warm storage box body: The outer plate, inner liner and related parts of the box are assembled and filled into a foaming mold to be foamed, and prepared into a semiconductor refrigerated warm box box, a semiconductor refrigerated warm box box The storage room (1) has a semiconductor cooling and heating device working chamber (3) inside and outside, and the bottom of the semiconductor refrigerating and warming box box is a machine room (2) which is connected to the front and the back; 2), preparing a semiconductor refrigeration heater (16): internal heat exchange of one of the semiconductor refrigerating sheet (5), the outer heat exchanger (6) of one of the cooling heater metal components, and one of the cooling heater metal components The device (4) is in close contact with each other in sequence, and is fixed by a fastening connector to form a semiconductor cooling and heating device (16);

3), assembly: After installing the semiconductor cooling and heating device (16) into the semiconductor cooling and heating device studio (3), the external heat exchanger (6) of the semiconductor cooling and heating device (16) is connected by a connecting pipe. The compound condenser (8) and the infusion pump (11) constitute a circulating flow path of the liquid refrigerant.

8. A method of fabricating a novel semiconductor refrigerated warm storage box according to claim 7, wherein: the composite condenser (8) comprises a horizontal composite condenser (9) and a vertical composite condenser (10). The horizontal composite condenser (9) and the infusion pump (11) are placed in the machine room (2) of the new semiconductor refrigerated warm storage box, and the vertical composite condenser (10) is placed in a new type. The outside of the semiconductor refrigerated warm storage box.

9. A method of fabricating a novel semiconductor refrigerated warm storage box according to claim 1, wherein: the horizontal composite condenser (9) is composed of one or more horizontal single-layer condensers.

10. A method of fabricating a novel semiconductor refrigerated warm storage box according to claim 7, wherein: the vertical composite condenser (10) is composed of one or more vertical single-layer condensers.

11. A method of fabricating a novel semiconductor refrigerated warm storage box according to claim 7, wherein: the horizontal composite condenser (9) in the machine room (2) is provided with a horizontal composite condenser ( 9) External heat exchange fan (12) with heat exchange capacity with air.

12. A method of fabricating a novel semiconductor refrigerated warm storage box according to claim 7, wherein: the inner heat exchanger (4) is a finned heat exchanger, and the inner heat exchanger is close to the inner heat exchange fan ( 7).

13. A method of fabricating a novel semiconductor refrigerated warm storage box according to claim 7, wherein: the external heat exchanger (6) of the semiconductor refrigeration heater (16) has a liquid refrigerant flowing through the liquid refrigerant. / The outflow port (I ⁴ ) and the rehydration exhaust port (I ³ ), and the outer heat exchanger (6) has an S-shaped flow path (15) through which the liquid refrigerant flows.

14. A method of fabricating a novel semiconductor refrigerated warm storage box according to claim 7, wherein: the semiconductor refrigerating heater (16) is composed of at least one sub-semiconductor refrigerating heater, and a refilling vent (1) 3) Open on the sub-external heat exchanger of the sub-semiconductor refrigeration heater with the highest position.