RU24271U1 - THERMOELECTRIC CONTAINER - Google Patents

Abstract

1. Thermoelectric container containing a housing, a removable partition and a cover in which a heat pump is located, consisting of a thermoelectric module installed between two radiators, a fan and a power supply control unit with a temperature sensor are installed in the cover, characterized in that the inner surface of the chamber has protrusions on which the partition is installed. 2. The thermoelectric container according to claim 1, characterized in that the partition consists of two shelves, which are made in the form of gratings. The thermoelectric container according to claim 1, characterized in that the recesses are made in the bottom part.

Description

THERMOELECTRIC CONTAINER

The thermoelectric container relates to the field of refrigeration, in particular to thermoelectric refrigeration units using thermoelectric batteries with heat exchangers on cold and hot junctions, mainly small-sized and portable.

Known thermoelectric small-sized refrigerator (1), which consists of a housing with a lid. The heat pump is located in the enclosure, which includes a Peltier-type thermoelectric module installed between two radiator stoves, as well as a fan and a power control unit with temperature sensors, which are also located in the lid of the refrigerator.

A disadvantage of the known design is the limitation of functionality, since it is difficult and inconvenient to place large and small-sized objects in a container at the same time.

Known thermoelectric refrigerator (2), which consists of a thermally insulated chamber with a removable cover. The lid contains a thermoelectric battery with external and internal fins. The chamber has a partition dividing it into two compartments, in each of which a certain temperature is reached depending on the orientation of the removable cover.

The disadvantage of this design is the limited possibilities for intensifying heat transfer between the internal heat exchanger and the chamber volume. The location of the partition in a vertical position does not allow the use of temperature differences of gravitational nature along the height of the chamber. When the lid is periodically opened, the lower part of the chamber communicates directly with the atmosphere, this enhances

convective heat transfer of the internal volume of the chamber with the environment, which affects the efficiency of using cold.

The objective of the proposed technical solution is to expand the functionality of the container.

To solve this problem, the thermoelectric container contains a housing with a removable partition and a lid that form the chamber of at least one thermoelectric module .. A fan, a power control unit with a temperature sensor, a heat pump and radiators are installed in the hinge.

The camera has projections for installing a removable partition. The partition mounted on the protrusions of the inner surface of the chamber consists of two shelves. Shelves are made in the form of gratings, in the bottom of the container recesses are made.

The drawing shows the device container in section along its longitudinal axis.

The container contains a housing 1 with a lid 2 located in the upper part of the container, a thermoelectric module 3 and external 4 and internal 5 radiators in contact with its surfaces are located in the lid.

The chamber 6 of the container, formed by the housing 1 and the lid 2, and is divided into two compartments: the upper (main) compartment 7 and the lower compartment 8. The compartments 7 and 8 are separated by a partition of two removable shelves 9 and 10 located on the protrusions 11 of the chamber 6 The protrusions 11 are made on the inner surface of the chamber 6 along its perimeter.

The partition can be made in the form of two gratings, either continuous from a heat-conducting material, or from a heat-insulating material. Lattice shelves can be covered with a continuous heat-conducting or heat-insulating coating. The dimensions of the shelves of the partition are consistent with the dimensions of the chamber 6 so that the shelves 9 and 10 can simultaneously be placed in the chamber 6 in a vertical position.

 3

The container works as follows.

When connecting to the thermal module 3 electric power on its surfaces, due to the Peltier effect, a temperature difference is created. Heat is absorbed through the radiator 5 from the side of the chamber 6, and heat is absorbed through the radiator 4 from the outside, due to this the heat is removed from the chamber 6 to the environment. For intensification of heat transfer can be used forced pumping of air through radiators 4 and 5, as well as pumping liquid through an external radiator 4.

Depending on the type and location of shelves 9 and 10, the following options for using the container are possible.

Both shelves 9 and 10 are made lattice and placed on the tabs 11 in a row. The lower compartment 8 is used to place products that require a lower temperature or are used last. At elevated ambient temperatures (above 32 ... 35 ° C), cold elements 12 are additionally placed in the lower compartment 8, for example, polyethylene containers with frozen liquid.

Both shelves 9 and 10 are made of continuous heat-conducting material (for example, from an aluminum sheet) or covered with a continuous heat-conducting coating (for example, parchment), and placed on the protrusions 11 in a row. This increases the temperature difference between compartments 7 and 8 due to the elimination of air exchange between them. In the lower compartment 8 can also be additionally placed elements of the cold 12.

Both shelves 9 and 10 are made of continuous heat-insulating material (for example, of multilayer plywood) or are covered with a heat-insulating coating (for example, isolon) and placed on the protrusions 11 in a row, cold elements 12 are placed in the lower compartment 8. The temperature difference between compartments 7 and 7 increases. 8, in addition to limiting air exchange, due to the low thermal conductivity of the materials of the shelves 9 and 10, additional coating of the shelves and increasing their thickness. At the same time, it increases

the time of maintaining a low temperature in the lower compartment 8 with the power supply of the thermal module 3 disconnected.

Shelves 9 and 10 are stacked one on top of the other.

The shelves 9 and 10 are shifted to one of the side walls of the chamber 6. In this case, products having a considerable height, for example, bottles of drinks, can be placed on the opposite side of the chamber 6. The remaining products are placed on shelves 9 and 10 and under them.

The shelves 9 and 10 are shifted to the middle of the chamber 6. Products with a considerable height can be placed on both sides of the chamber 6, for example, containers with drinks. The remaining products are placed on shelves 9 and 10 and under them. At elevated ambient temperatures (vpp 32 ... 35 ° C) in the lower compartment 8 additionally place the elements of the cold 12.

Both shelves 9 and 10 are removed and mounted vertically or removed from the chamber 6. The chamber 6 allows you to place products with maximum dimensions in height, length and width. At elevated ambient temperatures (vpp 32 ... 35 ° C) in the lower compartment 8 additionally place the elements of the cold 12.

A positive effect is the possibility of placing in the chamber products having different dimensions, different requirements for storage temperature or different order of use, increasing the efficiency of use of the container during storage of products requiring low temperatures and in the absence of power supply.

Literature:

1. Certificate for utility model No. 7480 F 25 V 21/02; Small-sized thermoelectric refrigerator.

Claims (3)

1. Thermoelectric container containing a housing, a removable partition and a cover in which a heat pump is located, consisting of a thermoelectric module installed between two radiators, a fan and a power supply control unit with a temperature sensor are installed in the cover, characterized in that the inner surface of the chamber has protrusions on which the partition is installed.  2. The thermoelectric container according to claim 1, characterized in that the partition consists of two shelves, which are made in the form of gratings. 3. The thermoelectric container according to claim 1, characterized in that the recesses are made in the bottom.