RU49961U1 - THERMOELECTRIC AIR COOLER - Google Patents

Abstract

The invention relates to environmentally friendly devices for cooling air in a thermally insulated volume, in particular, used in vehicles, for example, in vehicles for transporting products, in commercial refrigeration equipment and in closed electronic cabinets. The air cooler contains thermal modules, a heat pipe and a cold pipe, a hot and cold radiator, fans for heat dissipation and heat absorption, a disk heat diffuser and a cold diffuser. The use of the invention will improve the technical and operational characteristics.

Description

The invention relates to environmentally friendly devices for cooling air in a thermally insulated volume, in particular, used in vehicles, for example, in vehicles for transporting products, in commercial refrigeration equipment and in closed electronic cabinets.

Currently, a rather urgent task is to develop an inexpensive and environmentally friendly air cooler for a thermally insulated volume, which provides effective cooling and at the same time ensures high reliability during operation as a whole.

For example, a thermoelectric conditioner (1) is known that contains a detachable housing in which a set of thermoelectric cells is located, each of which consists of a thermoelectric module and radiators with fins attached to the outer opposite surfaces of its heat-exchange plates by means of a highly heat-conducting, elastic material. The fastening system of thermoelectric cells consists of rigid and elastic seals. Radiators are located on supporting, elastic elements made in the form of U-shaped plates. The control unit contains bimetallic temperature sensors, an electric current reversing unit, and an automatic control system based on microprocessors. The housing is attached to the vehicle ceiling by means of supporting elements with shock absorbers, each of which contains coaxially arranged cylindrical bushings with a layer of elastic material placed between them.

The disadvantage of this device is that its design is low effective in the possibility of heat removal from the hot and cold from the cold sides of the thermal modules and is unreliable in operation due to the rapid destruction of the cold source due to shaking of the device on the way.

The closest in technical essence to the claimed object is a thermoelectric air conditioner (2), selected as a prototype.

This thermoelectric air conditioner comprises a housing divided by a partition into a main (air-conditioned) air flow channel and an auxiliary (technological) air flow channel, with fans installed in each of these channels, and thermoelectric batteries installed in the partition, some of which are located on the channel side process air, while others are from air conditioning.

In the known air conditioner, the casing is divided by a thermally insulated partition into two air channels, and the thermoelectric batteries are equipped with heat exchangers connected to the opposite sides of the thermoelectric batteries, which are located in the partition.

The disadvantages of this design are low operational reliability, due to the fairly rapid destruction of switching connections and semiconductor branches in thermoelectric batteries. Thermoelectric batteries are rigidly fixed in the partition dividing the body into channels, and prolonged vibration and shock loads that occur when the vehicle is moving result in the destruction of these elements of the thermoelectric conditioner.

In addition, the disadvantage of this design is its low cooling efficiency, due to the complexity of the design, and

namely: requires special thermoelectric batteries and complex cases. The low efficiency of the air conditioning system limits its use for vehicles in a wide range of climatic conditions.

The object of the present invention is to eliminate some of these disadvantages: the creation of an inexpensive and simple in design, environmentally friendly thermoelectric air cooler having high efficiency of heat removal from the hot sides and cold from the cold sides of the thermal modules, while having high operational reliability. In this case, the achievement of the following technical and economic results should be ensured:

- improvement of technical and operational characteristics;

- simplicity of design;

- convenience and high reliability during operation;

- environmental safety due to the absence of reactive or high pressure refrigerants;

- the possibility of application on moving objects;

- the possibility of operation in a wide range of climatic conditions.

A thermoelectric air cooler is proposed comprising thermal modules, each of which has hot and cold sides, a heat conduit and a cold conduit mounted on top of the thermal modules for thermal contact with the corresponding side of the thermal module, hot and cold radiators, heat-discharge and heat absorption fans. The achievement of these technical results is ensured due to the fact that the air cooler is equipped with a disk heat diffuser and a cold diffuser, each of which is made in the form of a flat disk-shaped washer mounted over hot fins

and cold radiators above and below, and hot and cold radiators are made in the form of a cylindrical surface formed by a tape of U-shaped ribs in the form of a hollow central collector channel forming a pump system with three-sided radial channels communicating with it tapering to the center, formed by communicating faces of the aforementioned tapes of a cylindrical surface, while a hot radiator is installed between the heat conductor and the heat dissipator with the formation of a pump system for supplying air to the hot a thermo Onam and cool the radiator is installed between holodoprovodom and holodorasseivatelem to form a pumping system for supplying air to the cold side of a thermo, the fans and the heat absorption teplosbrosa installed respectively above and below the heat spreader disc holodorasseivatelem.

The claimed technical solution 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 proposed object of protection.

The technical solution can be recognized as having an inventive step, since it does not explicitly follow from the prior art for a specialist, since the influence of the transformations prescribed by this invention, characteristic of the essential features distinctive from the prototype, aimed at achieving the claimed technical result is not revealed from the prior art.

The claimed technical solution meets the requirement of industrial applicability, since it is manufactured and used in industry.

For a better understanding of the essence of the claimed invention, you can refer to the following design details, illustrated by the relevant drawings, namely:

- figure 1 is a General view (axonometric image) of a thermoelectric air cooler (arrows indicate the movement of air);

- figure 2 is a section of a thermoelectric air cooler along the central geometric axis;

- figure 3 - the cylindrical surface of the radiators;

- figure 4 - installation of thermoelectric air cooler

Thermoelectric air cooler contains (see Figs. 1-4) thermal modules 1, each of which has hot 2 and cold 3 sides, a heat pipe 4 and a cold pipe 5 installed on top of thermal modules 1 for thermal contact with the corresponding side of the thermal module, hot 6 and cold 7 radiators , heat transfer fans 8 and heat absorption 9.

In addition, the air cooler is equipped with a disk thermal diffuser 10 and a cold diffuser 11 (see figures 1, 2, 4), each of which is made in the form of a flat disk-shaped washer. A flat disco-shaped washer is installed on top of the fins of hot 6 and cold 7 radiators above and below.

Hot 6 and cold 7 radiators are made in the form of cylindrical surfaces, formed by a tape from narrowed to the center of the U-shaped ribs 12, 13 in the form of hollow central collector channels 14, 15. Hollow central collector channels 14, 15 form pump systems with tapering communicating with them to the center of the trihedral radial channels 16, 17 (see Fig.1-3).

In this case, the inner surfaces of the collector channels 14, 15 have the appearance of a cellular structure formed by the narrow ends of the trihedral radial channels 16, 17. Each radial channel 16, 17 has the shape of a hollow trihedral truncated cone, with a wide base facing the external environment (see Fig. 3) .

A hot 6 radiator is installed between the heat conductor 4 and the heat dissipator 10 with the formation of a pumping system for supplying air to the hot 2 sides of the thermal module 1 (see Figs. 1-3).

Cold 7 radiator is installed between the cold pipe 5 and the diffuser 11 with the formation of a pumping system for supplying air to the cold 3 sides of the thermal module 1 (see Fig.1-3).

Fans of heat transfer 8 and heat absorption 9 are installed respectively above the disk heat diffuser 10 and under the cold diffuser 11 (see figures 1, 2, 4).

Thermoelectric air cooler operates as follows (see figure 1-4).

The principle of operation of the air cooler 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 thermal module, cooling occurs on one of the contacts (heat absorption), and heat is released on the other.

An air cooler is installed (see Fig. 4) in the wall of the thermally insulated chamber 18. Then, by switching on the “Network” switch (not shown in Fig.), Voltage is applied to the thermo modules 1 and the heat-transfer fans 8 and heat absorption 9. From this moment, the cooling process begins.

The cold 3 sides of the thermal modules 1 cool the air in the volume above the heat absorption fan 9 in the thermally insulated chamber 18.

Due to natural convection, warm air heated by the instruments, tapering towards the center of the trihedral radial channels 17, rushes into the hollow central collector channel 15, where the air is cooled by the cold 3 sides of the thermal module 1.

Directions of warm air are created through the triangular radial channels 17 tapering towards the center into the device and cold air from the hollow central collector channel 15 to the cabinet chamber 18 through an opening above which the heat absorption fan 9 is installed. This direction of the cooled air is amplified by the heat absorption fan 9. The air is cooled in the internal volume of the thermally insulated chamber 18, where the heat-emitting devices are located.

Simultaneously with the process of cooling the air in the chamber 18, there is a process of heating the air outside the chamber 18.

The air in the hollow central collector channel 14 under the heat sink fan 8 is heated by the hot 2 sides of the thermal modules. Due to natural convection caused by the heterogeneity of the medium (temperature gradient), the cooler ambient air rushes along the tapering channels 16 tapering towards the center into the hollow central channel 14, from where the warm air rushes out. This direction of warm air is enhanced by the action of the heat-release fan 8. At the same time, air tapering towards the center of the trihedral channels 16 is directed to the hot 2 sides of the thermocouples 1, is heated and removed outward by the heat-release fan 8.

Due to the optimal design of the air cooler and the absence of a housing, more efficient cooling of the thermally insulated volume is ensured.

From the foregoing, the following advantages of the proposed thermoelectric air cooler are obvious.

- the design is compact, high strength and low cost;

- the design is distinguished by the use of an environmentally friendly source of cold and the absence of chemically active or high-pressure refrigerants;

- the design is distinguished by the possibility of operation in a wide range of climatic conditions;

- increased reliability of the air cooler during operation;

- improved specifications.

Sources of information used in the description of the invention:

1. Thermoelectric air conditioning for the vehicle. RF patent No. 2165363, M. cl. At 60 h _^3/00, 20.04.2001

2. Thermoelectric air conditioning. RF patent No. 2029687, M. cl. At 60 h _^3/00, 27.02.1995 (prototype).

Claims (1)

Thermoelectric air cooler containing thermal modules, each of which has hot and cold sides, a heat conduit and a cold pipe installed on top of the thermal modules for thermal contact with the corresponding side of the thermal module, hot and cold radiators, heat dissipation and heat absorption fans, characterized in that it is equipped with a disk heat dissipator and a heat dissipator each of which is made in the form of a flat disk-shaped washer mounted on top of the fins of the hot and cold radiators above and below, and hot and cold radiators are made in the form of a cylindrical surface formed by a tape of U-shaped ribs in the form of a hollow central collector channel forming a pump system with three-sided radial channels communicating with it tapering towards the center, formed by communicating faces of the said tape of a cylindrical surface, while hot a radiator is installed between the heat conductor and the heat dissipator to form a pump system for supplying air to the hot sides of the thermal module, and a cold radiator installed between the refrigeration pipe and the diffuser with the formation of a pump system for supplying air to the cold sides of the thermal module, and the heat dissipation and heat absorption fans are installed respectively above the disc heat dissipator and under the diffuser.