RU2110021C1 - Thermoelectric refrigerator - Google Patents

Abstract

FIELD: refrigerating engineering; domestic and transport refrigerators. SUBSTANCE: refrigerator includes heat-insulated housing, inner heat-conducting freezing and cooling chambers, thermoelectric unit whose cold end is thermally connected with freezing chamber and hot end is connected with external air or liquid radiator. Thermoelectric unit of refrigerator is made from system of similar thermal modules forming two stages (levels) for discharge of heat at inter-stage equithermal characteristic; they are interconnected by means of heat-conducting adapter. EFFECT: reduced temperatures in freezing and cooling chambers as compared with Freon compression refrigerators at similar power requirements and identical volumes. 7 cl, 3 dwg

Description

 The invention relates to refrigeration, in particular to household and transport thermoelectric refrigerators.

 Today, a large number of models of thermoelectric home and car refrigerators have been created in the world. In the USSR in the first half of the 80s, a number of options for thermoelectric refrigerators were developed [1].

 These types of structures have different types and types of heat exchangers, fans, including additional chambers, dampers, screens, partitions of various types, air ducts, etc.

 A common drawback of the designs is that the proposed measures have not led to a significant increase in the economy, cooling capacity, or operational reliability of refrigerators.

 The most common and actively developed is the group of portable household and truck refrigerators [2, 3, 4].

 Technical solutions relate to issues of improving the manufacturability of refrigerators, their reliability during operation by sealing the thermal module installation unit, introducing automatic regulation and protection against thermal modules overheating in case of violation of heat removal systems from hot junctions, as well as to prevent battery discharge during long-term parking.

 The design solutions of refrigerators are diverse (mounted, portable, built-in, stationary), and in all cases they try to achieve maximum compactness, the absence of protruding parts.

 In most designs, a finned radiator with forced blowing by a fan is used as a heat exchanger, natural convective heat exchangers are used in a small number, and an air-to-air circuit, similar to that used in the HATE-12 refrigerator, is also common. Evaporative cooling systems using porous coatings on heat exchangers are used [2].

 Attempts to overcome the limited functionality of transport refrigerators are interesting. So, in [3] a camera with a partition is proposed, designed in such a way that with different installation of the cover, either the same mode in two zones is provided, or different, i.e. it becomes possible to cool or heat part of the products in one zone while storing the remaining products in another zone.

 The invention is aimed at eliminating the above drawbacks, namely, increasing the temperature difference while reducing energy consumption through the use of the same type of thermal modules, forming at least two cascades (sections, levels) of heat pumping from the refrigerator chambers and connected by a highly conductive interstage adapter, wherein the system’s power supply mode is selected so that the heat release of the first stage is equal to the cooling capacity of the second stage when temperature conditions, i.e. interstage equithermality is observed. In addition, the highly heat-conducting equithermal adapter between the cascades allows the cold and hot sides of the system to be separated (removed) from each other by the required distance equal to the total thickness of the thermal insulation of the refrigerator chamber.

 The essence of the invention lies in the fact that a thermoelectric refrigerator containing a thermally insulated body, an internal heat-conducting freezer, a refrigerator and at least one thermoelectric unit, the cold side of which is thermally connected to the freezer, in the hot side, with an external air or liquid radiator. In this case, the thermoelectric unit is made of a system of the same type of thermomodules, which form at least two stages (levels) of heat pumping under interstage equithermality under given temperature conditions.

 Cascades are thermally interconnected by integral heat-conducting adapters providing minimal thermal resistance, and the possibility of choosing the height of interstage adapters allows you to set the required thickness of thermal insulation in the zone of thermopile construction, i.e. between cold and hot (external) radiators. To facilitate the design of the thermoelectric block, the interstage heat-conducting adapter can be hollow, and the cavity is filled with a heat-conducting liquid, for example, water.

 The first and second stages, depending on the purpose and design considerations, can be made of various types of thermal modules.

 The thermoelectric unit of three of the same type of electrically connected in series thermal modules is the most rational in execution, which makes it possible to reduce current and increase supply voltage.

 Separate power supply of the first and second cascades allows you to most closely establish the interstage equithermality at different temperature conditions, which increases the cooling capacity of the fuel and energy complex with the same energy consumption.

 When dividing the freezer and the refrigerator in one refrigerator case with a partition, it is possible to reduce the temperature in the freezer. To ensure the necessary temperature regime in the refrigerator, as well as with an increase in its volume, at least one thermoelectric unit is installed mainly in the center of the refrigerator on the rear wall of the latter. Given the necessary conditions, by installing a nozzle spraying water on an external air radiator, it is possible to increase the efficiency of heat removal from an external air radiator and thus increase the cooling capacity of the thermoelectric unit.

 The main significant difference of the proposed thermoelectric cooler is at least two-stage thermopile with interstage equithermality and the possibility of choosing the thickness of the insulation due to the height of the heat-conducting interstage adapters.

 Other significant differences of the proposed thermo-refrigerator are.

increasing the supply voltage and reducing the amperage when the thermal modules and thermoelectric unit are switched on sequentially;
increased cooling capacity with separate power supply of the first and second cascades.

 The main features of the proposed device are absent in the analogues and prototype devices, are interconnected with each other and with the signs of the ascertaining part. Their relationship is sustainable.

 In FIG. 1 shows a general view; in FIG. 2 - cross section aa thermopile; in FIG. 3 - a comparative graph of the temperature difference from the power consumption of the refrigerator according to the prototype and the proposed refrigerator.

 Thermoelectric refrigerator (Fig. 1) includes a radiator 1 of the refrigerating chamber 2, a thermoelectric block 3 of the refrigerating chamber, a thermoelectric block 4 of the freezing chamber 5, a radiator 6 of the freezing chamber, a thermally insulated chamber 7 of the refrigerator. The thermoelectric unit (Fig. 2) includes a thermal module 8 of the first cascade, an adapter plate 9, installed between the thermal module 8 and the radiator 6 of the freezer 5, refrigeration 2 chambers, a heat-conducting adapter 10 that thermally connects the hot side of the thermal modules 8 of the first cascade and the cold side of the thermal modules 11 of the second cascade , external radiator 12, fan 13.

 The refrigerator operates as follows.

 The power supply (not shown) of the thermoelectric unit thermal modules (Fig. 2) and fan 13 are turned on. The cold side of thermal module 8 of the first thermopile cascade begins to pump heat from radiator 6 (freezer), radiator 1 (refrigeration) chambers through adapter plate 9. Radiator 6 (freezer ) and the radiator 1 of the (refrigeration) chamber are cooled. At this time, the heat generated by the thermal module 8 of the first cascade, passing through the adapter 10, is pumped out by the thermal modules 11 of the second cascade, and the heat generated on the hot side of the thermal modules 11 is removed through the air radiator 12 to the surrounding space. To improve the heat sink from the air radiator 12, it is purged with a fan 13 or a water-cooled radiator is installed instead of the air radiator 12.

 The graph (Fig. 3) shows comparative indicators of the temperature difference ΔT in the freezer of refrigerators having the same volume, insulation and heat sink with a fan relative to the environment, depending on the power consumption W: 14 - for the refrigerator according to the prototype; 15 - for the inventive refrigerator.

Claims (7)

 1. Thermoelectric refrigerator containing a thermally insulated body, an internal heat-conducting freezer, a refrigerator and at least one thermoelectric unit, the cold side of which is thermally connected to the freezer and the hot side to an external air or liquid radiator, characterized in that the thermoelectric unit of the refrigerator made of a system of the same type of thermal modules, forming at least two cascades of heat pumping, with interstage equithermal thermally connected between oboj tselnotelym thermally conductive adapter.  2. The refrigerator according to claim 1, characterized in that the first and second stages of the thermoelectric unit are made of various types of thermal modules.  3. The refrigerator according to claim 1, characterized in that the interstage heat-conducting adapter is hollow, and the cavity is filled with a heat-conducting liquid, such as water.  4. The refrigerator according to claim 1, characterized in that the thermoelectric unit is made predominantly of three thermoelectric modules connected in series.  5. The refrigerator according to claim 1, characterized in that the first and second stages of the thermoelectric block have separate electrical power.  6. The refrigerator according to claim 1, characterized in that at least one thermoelectric unit is mounted on the rear wall mainly in the center of the refrigerator compartment of the refrigerator.  7. The refrigerator according to claim 1, characterized in that it is equipped with an external radiator and at least one nozzle for additional cooling with a sprayed water stream of the radiator.

Images