RU84515U1 - THERMOELECTRIC MODULE FOR HEATING AND / OR COOLING-FREEZING LIQUID OR SOLID PRODUCTS - Google Patents

Abstract

1. Thermoelectric module for heating and / or cooling-freezing liquid or solid products, including a container made of thermally conductive material, a thermoelectric battery with a heat exchanger in contact with the working surface of the thermally conductive wall of the container from the outside, characterized in that the container is made in horizontal section in the form of a polygon with at least four sides (N), and the thermoelectric battery contains several thermoelectric elements located on all (N) sides or (N-1) sides of the side surface of the container. ! 2. The thermoelectric module according to claim 1, characterized in that the capacitance has a rectangular or square shape in horizontal section. ! 3. The thermoelectric module according to claim 1, characterized in that on the sides of the side surface of the vessel where the thermoelectric elements of the battery are installed, the latter are contained in an amount of at least two and are arranged in a row in height and / or width. ! 4. The thermoelectric module according to claim 1, characterized in that for the heat treatment of liquid products, the tank has a bottom with a thermocouple battery located on the (N-1) sides with a slope to the side, inclined to the side, free from thermoelectric elements, or conical - when located thermoelectric elements from all its (N) sides.

Description

The utility model relates to devices for heating and / or cooling-freezing liquid or solid products, purifying water by freezing in the home, improving its biological properties by removing soluble organic and inorganic substances and gases, and can be used in the home, food industry and medicine.

A device for freezing water (RF patent No. 2221201, IPC F25C 1/12, publ. 10.01.2004), which contains a container filled with water with a lid that is made with fins. A two-layer tubular element is installed in the lid. The bottom end of this element is located in the area of unfrozen liquid, and the top above the cover. The outer layer of the tubular element is made of aluminum tube, and the inner one is made of fluoroplastic tube. The lower portion of the tubular element is perforated in the form of holes. Thermoelectric batteries with cold and hot junctions are placed on the outer surface of the container and the lid, on which heat exchangers are installed on the sides opposite to the container and the lid. The heat exchangers of thermoelectric batteries placed on the tank are made in the form of needle or plate finning, and those placed on the lid are made in the form of a tank open on top.

The closest analogue (prototype) is a water purifier, including a container with a lid and a conical bottom with a hole for draining water and a thermoelectric module for freezing water and melting ice, a container for receiving melt purified water and a container for receiving water with impurities and high content deuterium, thermoelectric module control unit, pipelines for draining water, connected at one end to the drain hole of the conical bottom of the tank for freezing water and melting ice, and other ends their pipelines are equipped with valves, under which are installed respectively a container for receiving purified melt water and a container for receiving water with impurities and a high deuterium content (Japan Patent No. 5123668, IPC С02F 1/22, F25В 21/02, publ. 21.05.1993, )

However, the above analogs have one cooling or heating element in the thermoelectric module, which is located on one side of the tank, which does not allow to uniformly freeze the liquid product in volume or thaw it uniformly, as a result of which the quality of the heat-treated product (water purification from harmful impurities) decreases and increases the time of heat treatment of the product.

The technical result of the claimed utility model is the creation of such a thermoelectric module for heating and / or cooling-freezing liquid or solid products, which increases uniformity and shortens the heat treatment time of liquid or solid products.

The specified technical result is achieved in that in a thermoelectric module for heating and / or cooling-freezing liquid or solid products, including a container made of thermally conductive material, a thermoelectric battery with a finned heat exchanger that contacts the working surface with the thermally conductive wall of the container from the outside, according to the useful models, the capacitance is made in horizontal section in the form of a polygon with the number of sides (N) at least four, and the thermoelectric module contains several lko thermopiles finned heat exchangers disposed on all (N) or sides (N-1) of the side surface of the container.

The container may have a horizontal section of a rectangular or square shape. On the sides of the side surface of the tank where thermoelectric batteries are installed, the latter are contained in an amount of at least two and are arranged in a row in height and / or width.

For the temperature treatment of liquid products, the tank has a bottom with a tilt to the side free from thermoelectric batteries when the thermoelectric batteries are located from (N-1) of its lateral sides, or conical when the thermoelectric batteries are located on all of its (N) sides.

Figure 1 presents a diagram of a thermoelectric module with a rectangular cross-sectional capacity for products and the location of thermoelectric batteries on three sides. Figure 2 presents a diagram of a thermoelectric module with a square in cross-section capacity for products and the location of thermoelectric batteries on four sides. Figure 3 presents a diagram of a thermoelectric module with a pentagonal cross-sectional capacity for products and the location of thermoelectric batteries on five sides. Figure 4 presents the layout of thermoelectric batteries on one of the walls of the capacitance of the thermoelectric module. Figure 5 presents a diagram of the apparatus for water purification by freezing, which uses a thermoelectric module with a square cross-sectional capacity having a conical bottom, and thermopiles located on four sides, as in figure 2.

The thermoelectric module for heating and / or cooling-freezing liquid or solid products includes a container 1 made of thermoconductive material, a thermoelectric battery containing thermoelectric elements 2 and finned heat exchangers 3. The thermoelectric elements 2 contact the working surfaces with the thermally conductive sides (walls 4) of the vessel 1 on the outside. The capacity is made in horizontal section in the form of a polygon (Fig.1-3) with the number of sides (N) of at least four. The thermoelectric element 2 is located on all (N) sides (FIG. 2 or 3) or (N-1) sides (FIG. 1) of the container 1.

The container may have a horizontal section of a rectangular (figure 1) or square shape (figure 2). On the side walls 4 of the tank 1, where the thermoelectric elements 2 of the battery are installed, the latter are contained in an amount of at least two and are arranged in a row in height and / or width (Fig. 4).

For heat treatment of liquid products, the tank 1 has, when the thermoelectric elements 2 with (N-1) its lateral sides are located, a bottom 5 with an inclination to the side that is free of thermoelectric elements 2 (Fig. 1). A drain hole 6 is located in the bottom 5 near the wall 4 free of thermoelectric elements 2. When the thermoelectric elements 2 are located on all sides (N), the bottom 5 of the tank 1 is conical in shape with a drain hole 6 in the middle.

The inventive polygonal shape of the container 1 and the optimal number of thermocouples 2 batteries located around the tank 1 allow more even cooling, freezing and / or heating of liquid or solid products.

The inventive thermoelectric module can be mounted in the form of a refrigerating chamber for storing products, or a cooler for heating and cooling water, or in the form of an apparatus for cleaning water by freezing.

The description and operation of the thermoelectric module is given in more detail on the example of the apparatus for freezing water treatment.

The apparatus (Fig. 5) includes a housing 7, in which a working container 8 with a cover 9 and a conical bottom 10 with a hole 11 for draining water, a thermoelectric battery 12 for freezing water and melting ice, a container 13 for receiving melt purified water and a container 14 are placed for intake of water with impurities and high deuterium content. Pipelines 15 and 16 contain means 17 for controlling the discharge of water and are connected to the hole 11 of the conical bottom 10 of the working tank 8. The drain pipes 18 and 19 of the pipelines 15 and 16 are mounted respectively above the tank 13 for receiving purified melt water and the tank 14 for receiving water with impurities and high deuterium content. The thermoelectric battery 12 contains eight thermoelectric elements 20 located externally on each side surface of the working tank 8 for freezing water and melting ice, having a horizontal cross-section in square shape (figure 2). The means 17 for controlling the discharge of water in the pipelines 15 and 16 contains four valves 21, 22, 23 and 24 installed in pairs in the last, and the indicated pipelines 15 and 16 for draining the water are additionally interconnected by a pipe 25 with a fine filter 26. The connection points of the pipeline 25 with the pipelines 15 and 16 for draining the water are located respectively between the valves 21, 22 and 23, 24 of the means 17 for controlling the draining of water in these pipelines. In addition, the apparatus has an electronic control unit 27, including a control unit 28 for a thermoelectric battery 12 connected to its elements 20, a valve control unit 21-24 connected to the latter, a program machine 30 and a temperature measuring unit 31 with a temperature sensor 32 installed on the wall of the tank 2 for freezing water and melting ice. The program machine 30 is connected to the valve control unit 29, the temperature measurement unit 31 and the thermoelectric battery control unit 28. In an embodiment of the apparatus for domestic use, the containers 8, 13 and 14 have a volume of 2 liters.

The device operates as follows.

1. The device is included in the electrical network.

2. Open the lid 9 and pour 1.5-2 liters of water (drinking, tap in accordance with GOST) into the working container 8. Cover 9 is closed.

3. On the control panel (not shown) include a "Network" button connected to the electronic control unit 27. The network indicator lights up.

4. Click on the button “Start the process”.

The software machine 30 in the electronic control unit 27 performs the following algorithm of the device:

5. The valve control unit 29 opens the valves 21 and 24 (valves 22, 23 are closed). The filter 26 and pipelines 15, 16 and 25 are washed with water in a volume of up to 50 ml from the working tank 8 and dirty water is drained into the tank 14.

6. Valves 21 and 24 close.

7. The control unit 28 of the thermoelectric battery 12 includes thermoelectric elements 20 in the cooling mode. The electronic control unit 27 includes a temperature measuring unit 31.

8. In tank 8, water is cooled to a crystallization temperature of 0 ° C, then the crystallization process - ice formation and cooling of the resulting ice to minus 4-5 ° C for 4-5 hours.

The process of ice formation occurs in the direction from the walls of the working tank 8, cooled by thermoelectric elements 20 to the center. Heat removal from thermoelectric elements 20 is provided using radiators 3.

Impurities dissolved in water (metal salts, organic pollution, etc.) are displaced during the formation of ice into a volume located in the center of the working tank 8, thereby forming a “brine” - water with a high content of salts and various pollutants. In accordance with well-known data, the freezing temperature of this "brine" is minus 6-7 ° C.

9. The valve control unit 29 opens the valves 23, 24 (valves 21, 22 are closed). There is a discharge of "brine" from the working tank 8 through the pipe 16 to the tank 14 within 2-5 minutes. Valves 23, 24 are closed.

10. The control unit 28 of the thermoelectric battery 12 includes thermoelectric elements 20 in the heating mode. The temperature of the ice in the working vessel 8 rises to a temperature of 0 ° C, at which the ice melts and then heats the resulting purified melt water to a temperature of + 2 ° C over a period of 2-3 hours.

11. The control unit 28 of the thermoelectric battery 12 includes thermoelectric elements 20 in thermostat mode to maintain the set temperature of the purified melt water in the working tank 8 in the range of plus 2-3 ° C. The heavy water contained in the melt water (D20) has a freezing temperature of +3.8 degrees Celsius, so in the process of maintaining the temperature of melt water in the range + 2 + 3 degrees Celsius, the process of crystallization of heavy water occurs with the formation of small crystals of heavy water.

12. After 1-2 hours have elapsed, the inscription “The process is finished” lights up on the electronic control unit 27. After tanning the inscription within 5 hours, melt water can be drained and the device turned off.

13. Press the button "Melt water". The valve control unit 29 opens the valves 22, 23 (the valves 21, 24 are closed), melt water is drained through pipelines 15, 16 through the filter 26 into the container 13 over a period of 3-5 minutes.

The passage of melt water through the filter 26 ensures the deposition of tiny crystals of heavy water (D20) on it. The valve control unit 29 closes the valves 22, 23. The control unit 28 of the thermoelectric battery 12 turns off the thermoelectric elements 14. The electronic control unit 27 turns off the temperature measurement unit 31 and turns off itself.

14. If within 5 hours after the tanning of the inscription “Process is finished” the melt water has not been drained and the device has been turned off, the program machine 30 sends a signal to the electronic control unit 27, which issues a command to the valve control unit 29. This opens the valves 23, 24 (valves 21, 23 are closed). The melt water is discharged into the container 14. The valves 23, 24 are closed, the valve control unit 29 is turned off, the thermoelectric battery control unit 28 is turned off, the temperature measurement unit 31 is turned off, the program machine 30 is turned off, the electronic control unit 27 is turned off. The total time course of the process of obtaining melt water is 7-10 hours.

15 .. The "Network" button is turned off.

Thus, the inventive thermoelectric module for heating and / or cooling-freezing liquid or solid products in comparison with the known analogues and prototype reduces the heat treatment time of liquid or solid products due to their more uniform heating or cooling in the working capacity and increase the contact area of thermoelectric batteries with the surface of the thermally conductive side walls of the specified working capacity.

Claims (4)

1. Thermoelectric module for heating and / or cooling-freezing liquid or solid products, including a container made of thermally conductive material, a thermoelectric battery with a heat exchanger in contact with the working surface of the thermally conductive wall of the container from the outside, characterized in that the container is made in horizontal section in the form of a polygon with at least four sides (N), and the thermoelectric battery contains several thermoelectric elements located on all (N) sides or (N-1) sides of the side surface of the container. 2. The thermoelectric module according to claim 1, characterized in that the capacitance has a rectangular or square shape in horizontal section. 3. The thermoelectric module according to claim 1, characterized in that on the sides of the side surface of the vessel where the thermoelectric elements of the battery are installed, the latter are contained in an amount of at least two and are arranged in a row in height and / or width. 4. The thermoelectric module according to claim 1, characterized in that for the heat treatment of liquid products, the tank has a bottom with a thermocouple battery located on the (N-1) sides with a slope to the side, inclined to the side, free from thermoelectric elements, or conical - when located thermoelectric elements from all its (N) sides.