RU16198U1 - THERMOELECTRIC REFRIGERATOR - Google Patents

Abstract

Thermoelectric refrigerator containing a heat-insulating casing with a camera and a refrigeration unit located in the mounting opening of its rear wall, including a thermopile, an internal heat sink and an external heat sink and heat sink fan, characterized in that it is equipped with a base plate with a cold pipe on it and an internal heat absorption fan fixed in the casing, while the base plate is made in the form of a plate with windows located along its geometric axis, the number of which corresponds to corresponds to the number of thermocouples in the thermopile, and the cold pipe is made up of thermally insulated liners, each of which is placed in the window of the said base strip and has fastening elements for internal heat absorption radiators, and the casing of the internal fan is installed parallel to the internal heat sink with the possibility of communicating air channels between them while the refrigeration unit has a sealed enclosure, and the external fan is placed so that its geometric axis is located and parallel to the fins of the external radiator. ONCH 00

Description

Thermoelectric refrigerator

The utility model relates to environmentally friendly refrigerators, in particular, it is used in vehicles, for example, for locomotive brigades of railway transport, a compartment of a passenger carriage conductor.

Today, a very urgent task is to develop the design of a small environmentally friendly refrigerator for storing food and drinks that provide comfortable working conditions for traction rolling stock teams of railway transport or drivers of long-distance vehicles.

Ecologically friendly refrigerators are known that use thermoelectric modules (thermopiles) as a source of cold. However, as a rule, their designs are low effective in the possibility of heat removal from hot junctions of thermoelements and circulation of cold air when it moves from cold junctions of thermoelements into the volume of the refrigerating chamber.

For example, a built-in automobile refrigerator (1) is known, comprising a housing consisting of a working chamber, a lid and a folding table, and a cooling unit including a cold source, a heat sink, a fan and a temperature controller, as well as a heat sink. The cooling unit as a source of cold contains at least one Peltier thermoelectric module, a temperature controller, a heat sink and a fan are installed on the outer wall of the housing, the heat absorption radiator is made on the inner wall of the housing in the form of metal sheathing, while the heat-generating and heat-absorbing surfaces the modules are in thermal contact with the heat sink and the heat sink respectively.

The disadvantages of this device are as follows. The known refrigerator has a very low efficiency of heat removal from hot junctions of thermocouples, since the structural arrangement of the external fan does not provide directional movement of the entire air flow to the fins of the external radiator. The efficiency of removing cold from cold junctions of thermocouples is also very low due to the lack of circulation of cold air in the refrigerator chamber. Another disadvantage of this device is its low reliability during operation due to shaking of the device in transit.

Closest to the technical nature of the claimed object is a thermoelectric refrigerator (2) containing a heat insulating casing with a refrigeration unit located inside it, including a thermopile, external and internal radiators and an external fan installed in a casing made in the form of a pipe of rectangular cross-section, muffled from the side

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fan, and the height and width of the casing, respectively, are equal to the height and width of the radiator, and its length is not less than the sum of the length of the radiator and the diameter of the fan, and a hole is made on the outer wide side of the casing along the diameter of the fan.

The disadvantages of this known device are as follows. The efficiency of removing cold from the cold junctions of thermocouples is very low due to the lack of circulation of cold air in the refrigerator chamber. The efficiency of heat removal from hot junctions of thermoelements is also low, due to the fact that the location of the external fan does not provide directional movement of the air flow to all surfaces of the fins of the external radiator. When using this refrigerator in the cabin of the railway transport, additional significant design flaws are discovered due to shaking along the way. With this design, shocks from the wall of the refrigerator are transmitted to the entire refrigeration unit, which leads to its rapid destruction. This means low reliability of the known design of the refrigerator.

The problem to which the claimed utility model is directed is to create an inexpensive and simple in design environmentally friendly thermoelectric refrigerator with high efficiency of heat removal from hot junctions and cold from cold junctions of thermoelements and the reliability of the device in operation. In this case, the achievement of the following technical and economic results should be ensured:

-improved technical and operational characteristics;

- low cost of manufacturing a refrigerator and its quick payback.

A thermoelectric refrigerator is proposed, comprising a thermally insulating body with a camera and a refrigeration unit located in the mounting opening of its rear wall, including a thermal battery, an internal heat sink and an external heat sink and heat sink fan, an internal heat sink fan. The achievement of the indicated technical results is ensured due to the fact that the refrigerator is equipped with a base plate with a cold conduit located on it, as well as an internal heat absorption fan fixed in the casing, while the base plate is made in the form of a plate with windows located along its geometric axis, the number of which corresponds to the number thermocouples in the thermopile, and the cold pipe is made up of thermally insulated inserts, each of which is placed in the window of the aforementioned base plate and has an element Radiator fastening internal heat absorption, and the inner fan housing is arranged in parallel inner radiator heat absorption so as to form between them intercommunicating air channels, wherein the cooling unit has a sealed enclosure and an external fan disposed so that its geometrical axis is arranged parallel to the external edges teplosbrosa radiator.

The inventive utility model can be recognized as meeting the requirements of novelty, since no analogue has been found characterized by features identical to all the essential features of the utility model.

The proposed utility model meets the requirement of industrial applicability, since it is manufactured and used, for example, in railway transport with the technical result seen in this application (see the attached advertising sheet). The essence of the claimed device is illustrated by the following drawings:

-Fig. 1 is a general view of a thermoelectric refrigerator (in a section);

-Fig. 2 - the same, view A;

-Fig. 3 - the same section AA;

-Fig. 4 - the same, section BB;

-Fig. 5 - base plate (item 7)

The thermoelectric refrigerator contains (see Fig. 1-4) a thermally insulating body 1 with a chamber 2 and a refrigeration unit 3 located in the mounting opening of its rear wall. The refrigeration unit 3 includes (see Fig. 1, 2, 3, 4) a thermal battery 4, an internal heat sink 5, an internal fan 6, a base plate 7 (see Figs. 3, 4, 5) with a cold conduit 8, an external heat sink radiator 9 and an external fan 10 (see Figs. 1, 4). The thermopile 4 is composed (see Fig. 3) of thermocouples 11 operating on the Peltier effect, each of which has cold and hot junctions. The internal heat sink 5 is made in the form of a system of heat insulating radiators, each of which contains a base 12 with fins 13 (Fig. 3). In this case, the internal radiator 5 is installed by the free surface of the base close to the cold junctions of the thermocouples 11 of the thermopile 4 (see Fig. 3)

The base plate 7 is made in the form of a plate 14 (see Fig. 3, 5) with windows 15 located along its geometric axis, the number of which corresponds to the number of thermocouples 11 in the thermal battery 4. The cold pipe 8 is made (see Fig. 2, 3, 4) made up of liners 16 thermally insulated from each other, each of which is placed in the window 15 of said base strip 7 and has a fastening element 17 (for example, in the form of two screws) of the internal heat sinks 5. The external heat sink 9 consists of a system of heat sinks, each which sod holds the base 18 and the ribs 19. In this case, the external radiator 9 is installed close to the surfaces of the liners 16 of the cold conduit 8. Moreover, each insert 16 is fastened with two screws 20 to each base of the external radiator 10. Thus, one side of the liners 16 of the cold conduit 8 is placed close to the cold junction thermocouple 11, and the opposite side of each liner 16 is placed close to the bases of the internal heat sink 5.

The internal heat absorption fan 6 is installed in the casing 21, and the casing 21 is installed (see Figs. 3, 4) inside the chamber 2 parallel to the base of the internal radiator 5 with the possibility of formation of channels communicating with each other between them (i.e. between the ribs and the casing) 22.

The refrigeration unit has an airtight shell 23, which can be made, for example, of polyurethane foam GOST PPU-355MF TU6-55-221-1372-94. In this case, the external fan 10 is located on the rear wall of the housing 1 so that its geometric axis 24 is parallel to the ribs of the external radiator 9 (see Fig. 4).

Thermoelectric refrigerator operates as follows (see Fig. 1 - 5). The principle of operation of the refrigerator is based on the use of the Peltier effect, when when passing direct current through the contacts of the two dissimilar substances (metals, semiconductors) that make up the thermocouple, heat is absorbed (i.e. cooling) on one of the contacts, and heat is released on the other . By switching on the toggle switch, the Network (not shown in FIG.) Supplies voltage to the thermopile 4 of the refrigeration unit 3. From this moment, the process of cooling the cold junctions of the thermocouples 11 and the fins of the internal heat sink 5 begins. In this case, the internal fan 6 carries out the process of circulating cold air from the radiator 5 into the volume of the chamber 2 and warm air from the volume of the chamber 2 to the fins of the heat absorption radiator 5. Due to the design in which the casing 21 of the internal heat absorption fan 6 is installed parallel to the internal heat sink 5 with the possibility of formation between them communicating air channels 22, warm air circulates from the chamber 2 through the said channels 22 to the cold junctions of the thermocouples 11 of the thermopile 4 and it is cold about air from the cold junctions of thermoelements 11 through the liner 16 of the refrigeration pipe 8, then through the fins of the internal radiator 5 to the volume of the chamber 2. Moreover, the internal fan 6 circulates cold air inside the chamber 2, which creates conditions for uniform and stable cooling of the entire volume of the chamber 2 of the thermoelectric refrigerator .

Simultaneously with the cooling process, there is a process of heat generation on the hot junctions of the thermocouples 11, which is transmitted to the fins of the external heat sink 9. Due to the fact that the external fan 10 is installed so that its geometric axis 24 is parallel to the fins of the external heat sink 9, the channels 22 form an external heat sink 9 directed air flow, blowing the maximum surface of the fins of the radiator 9 and forming a circulating stream, providing effective heat removal to the external environment. The hermetic shell 23 made of polyurethane foam on the refrigeration unit 3 provides increased reliability of the operation of the refrigerator due to the fact that significantly reduces external influences on the refrigeration unit.

From the above, the following advantages of the proposed thermoelectric refrigerator are obvious:

- The design is compact and low cost in comparison with the known;

- The design is characterized by the use of an environmentally friendly source of cold;

-increased efficiency of heat removal from hot junctions and cold from cold junctions of thermocouples due to original design solutions;

-increased reliability of the refrigerator when operating in a moving railway transport due to the cushioning effect of the airtight shell;

-improved specifications.

INFORMATION SOURCES, AND USED IN THE DESCRIPTION OF THE USEFUL MODEL:

1.Built-in car refrigerator.

Utility Model Certificate No. 4858, M.cl. H 01 L% about 06/27/96.

2. Thermoelectric refrigerator.

Utility Model Certificate No. 4367, M.cl. F 25 V Vo2, 05/31/96, publ. 08.16.97 (PROTOTYPE). Applicant:

Authors:

juv A.S.

 Ivanov A.S. L /

Varlamov S.A.

Buldakov S.N. Didenko I.B. Open Joint-Stock Company General Director of OJSC RIF

THERMOELECTRIC REFRIGERATOR

Purpose and principle of operation

Thermoelectric refrigerator (CTE) is designed to store food and drinks in the rolling stock of locomotive-driven railway vehicles. The refrigerator is available in a metal case with a chamber volume of 80 dm and is designed to operate when powered by a DC network with a voltage of 50V or 110V.

According to the operating conditions, refrigerators belong to built-in small-sized devices, environmentally friendly, solid-state (without liquid coolants). Thermoelectric refrigerators (CTE) are manufactured in the climatic version of ultrasonic testing in accordance with GOST 15150-69, and for the electrical part - in accordance with GOST 15543.1-89.

Specifications

Features

 The refrigerator is small, built-in.

t The thermoelectric cooling principle based on thermoelectric modules (Peltier elements), which is most acceptable for railway cars, ensures operation without the use of liquid coolants (freon), which makes the refrigerator safe and environmentally friendly.

hte

Claims (1)

Thermoelectric refrigerator containing a heat-insulating casing with a camera and a refrigeration unit located in the mounting opening of its rear wall, including a thermopile, an internal heat sink and an external heat sink and heat sink fan, characterized in that it is equipped with a base plate with a cold conduit located on it, as well as an internal fan heat absorption, fixed in the casing, while the base plate is made in the form of a plate with windows located along its geometric axis, the number of which corresponds to corresponds to the number of thermocouples in the thermopile, and the cold pipe is made up of thermally insulated liners, each of which is placed in the window of the mentioned base strip and has fastening elements for internal heat absorption radiators, and the casing of the internal fan is installed parallel to the internal heat absorption radiator with the possibility of formation of communicating air channels between them, at this refrigeration unit has a sealed enclosure, and the external fan is placed so that its geometric axis is located parallel to the edges of the external heat sink.