RU2764169C1 - Installation of local heating of piglets - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, namely to equipment for creating the required temperature parameters in the area where the pigs are in the pigsty. The effect is achieved by the fact that the installation for local heating of pigs contains a thermoelectric heat pump, which is a thermoelectric assembly with a thermoelectric module located in it, a liquid heat exchanger of a hot loop, and is equipped with a loop heat pipe. The heat sink for the evaporator of the loop heat pipe installed in the exhaust shaft transfers the heat energy of the removed ventilation air to the heat sink for the heat pipe condenser, which is adjacent to the cold loop of the thermoelectric module, from where the recovered heat energy is transferred to the hot loop of the thermoelectric module, which is connected to the control unit. In this case, the inlet pipe of the heat exchanger of the hot circuit is connected by a direct-flow pipeline through a circulation pump with the outlet pipe of the thermal panel, and the outlet pipe of the heat exchanger is connected by a return pipe to the inlet pipe of the thermal panel, forming a closed circuit for the circulation of the coolant.

EFFECT: efficiency increases and the reliability of the installation increases, and it also becomes possible to keep piglets in comfortable conditions with less energy consumption to create a microclimate in the area where the pigs are located by reducing the length of pipelines for circulating the coolant and reducing transport losses of renewable heat energy in the latter due to the location of the thermoelectric heat pump, which is a thermoelectric assembly with a thermoelectric module located in it, a liquid heat exchanger for a hot circuit and a loop heat pipe directly next to a thermal panel for heating piglets.

1 cl, 2 dwg

Description

The invention relates to the field of agriculture, namely to equipment for creating the required temperature parameters in the area where piglets are in a pigsty.

A well-known floor heating system for pigsties, which stabilizes the temperature regime directly in the area where animals are located, consisting of an electric heating element - a sealed thermal plate "TEPLOPOL-03U-100PP", which is made of plastic resistant to aggressive media, including ammonia, phenol and caustic organic substances;

A floor electric heater for piglets is known, including a heat-insulating element, a heating source in the form of a stranded wire made of chromium-nickel alloy in heat-resistant silicone insulation (RF patent No. 2442322, IPC A01K 29/00, publ.

Disadvantages of the known underfloor heating system for pigsties and electric underfloor heaters for piglets are the increased power consumption and the inability to use renewable energy from the ventilation air from the pigsty.

The closest in technical essence to the proposed invention is a plant for local heating of piglets using a thermoelectric heat pump, containing a thermal panel for heating piglets with thermal insulation, a control unit with a temperature sensor, a thermoelectric heat pump according to the "liquid-air" scheme, which is a thermoelectric assembly with located it has a hot junction liquid heat exchanger, a cold circuit air cooler and a thermoelectric module located between them, while the hot circuit heat exchanger is connected by a pipeline through the hot circuit circulation pump to a thermal panel on which the pigs are located and a return pipeline with the hot circuit heat exchanger of the thermoelectric module, forming a closed circuit coolant circulation (RF patent No. 2743814, IPC A01K 1/015, A01K 29/00, H01L 35/28, F25B 21/02, publ. 26.02.2021. Bull. No. 6).

The disadvantage of the known installation is the relatively large length of the direct-flow and return pipelines that form a closed circulation circuit of the hot heat carrier from the thermal panel through the circulation pump to the radiator of the hot circuit of the thermoelectric heat pump located in the bypass channel of the exhaust ventilation shaft, which leads to complication, increase in cost and decrease in the reliability of the installation from - for possible leaks in the pipeline for the circulation of the coolant.

The objective of the invention is to increase the efficiency and increase the reliability of the installation for keeping piglets in comfortable conditions.

As a result of using the proposed invention, the efficiency increases and the reliability of the installation increases, and it also becomes possible to keep piglets in comfortable conditions with less energy consumption for creating a microclimate in the zone where the piglets are located, by reducing the length of pipelines for circulating the coolant and reducing transport losses of renewable thermal energy in the latter due to the location of the thermoelectric heat pump, which is a thermoelectric assembly with a thermoelectric module located in it, a hot loop liquid heat exchanger and a loop heat pipe directly next to the thermal panel for heating piglets.

The above technical result is achieved by the fact that in the proposed installation for local heating of piglets, containing a thermoelectric heat pump according to the "liquid - air" scheme for generating thermal energy, a circulation pump, direct-flow and return pipelines for circulating the coolant, a thermal panel for heating piglets with thermal insulation, a block control and temperature sensor of the thermal panel, according to the invention, a thermoelectric heat pump, which is a thermoelectric assembly with a thermoelectric module located in it, a hot circuit liquid heat exchanger, is equipped with a loop heat pipe, a heat sink for the evaporator of the loop heat pipe installed in the exhaust shaft, transfers the thermal energy of the removed ventilation air to the heat sink for the heat pipe condenser, which is adjacent to the cold circuit of the thermoelectric module, from where the recovered thermal energy is transferred to the hot circuit of the thermoelectric module i, which is connected to the control unit, while the inlet pipe of the hot circuit heat exchanger is connected by a direct-flow pipeline through the circulation pump to the outlet pipe of the thermal panel, and the outlet pipe of the heat exchanger is connected by a return pipe to the inlet pipe of the thermal panel, forming a closed circuit of the heat carrier circulation.

When the thermoelectric module is connected to the control unit, one side of the module releases heat into the hot circuit liquid radiator, which is transferred to the heat carrier, while the hot circuit heat exchanger is connected by a hot circuit pipeline through a hot circuit circulation pump with a thermal panel and a hot circuit return pipeline with a hot circuit heat exchanger, forming a closed the coolant circulation circuit, and the other side of the thermoelectric module cools the condenser zone of the loop heat pipe.

The heat sink for the evaporator of the loop heat pipe is installed in the exhaust ventilation shaft and is blown with a stream of heated air removed from the pigsty, while assimilating the heat of the air removed from the room.

In the proposed installation, thermal energy for heating the heat carrier used in the thermal panel is generated by a thermoelectric heat pump based on a thermoelectric module, when thermal energy is transferred through pipelines from the hot side of the thermoelectric module to the thermal panel using the heat carrier.

The heat sink for the condenser of the loop heat pipe is fixed on the cold side of the thermoelectric module. The cold circuit of the thermoelectric module removes the heat of the heated air removed from the room and, using a loop heat pipe, transfers it to the cold side of the thermoelectric module, which, according to the Peltier law, leads to an increase in heat generation on the hot side of the thermoelectric module and significant energy savings during local heating of piglets due to the use of renewable energy ventilation air from the pigsty.

The essence of the invention is illustrated by drawings, where in Fig. 1 shows a general diagram of the installation for local heating of piglets, in Fig. 2 shows a piglet rearing pen which is divided into two zones, a sow zone and a piglet zone.

The installation for local heating of piglets contains a thermoelectric heat pump 1, which is a thermoelectric assembly with a heat sink for the condenser 2 of the heat pipe 5 located in it, adjacent to the cold circuit 13 of the thermoelectric module 3 and a liquid heat exchanger 4 of the hot circuit 14 of the thermoelectric module 3, located between the heat sink 2 of the circuit a heat pipe 5 and a liquid heat exchanger 4, a heat sink for the evaporator 6 of a loop heat pipe 5 is installed in an exhaust shaft 7 with a cover 16 through which the room is ventilated, a temperature sensor 15 of a thermal panel 11 with thermal insulation 12 from below, a circulation pump 8, a direct-flow pipeline 10 and a return pipeline 9, inlet pipe 17 of the thermal panel 11, outlet pipe 18 of the thermal panel 11, inlet pipe 19 of the heat exchanger 4, outlet pipe 20 of the heat exchanger 4, control unit 21, sow location area 22, grate 23 dividing the pig location area uterus 22 and piglets location area 25, in which there is a thermal panel for heating piglets 11, a passage for piglets 24.

The inlet pipe 19 of the heat exchanger 4 of the hot circuit is connected by a direct-flow pipeline 10 through a circulation pump 8 to the outlet pipe 18 of the thermal panel 11, and the outlet pipe 20 of the heat exchanger 4 is connected by a return pipe 9 to the inlet pipe 17 of the thermal panel 11, thus forming a closed circuit of the heat carrier circulation. The control unit 21, using the temperature sensor 15, controls the operation of the thermoelectric module 3 and the circulation pump 8.

The installation of local heating of piglets works as follows.

When the thermoelectric module 3 is connected to the control unit 21, heat is released on the hot side 14 of the thermoelectric module 3, which heats the coolant through the heat exchanger 4. With the help of the circulation pump 8 through the pipeline 10, the heat carrier from the thermal panel 11 is supplied to the heat exchanger of the hot circuit 4, where it is heated, and returns to the thermal panel 11 through the pipeline 9, forming a closed circuit for the circulation of the heat carrier and heating the thermal panel.

The loop heat pipe 5 transfers the heat extracted from the heated ventilation air from the heated ventilation air to the cold circuit 13 of the thermoelectric module 3 and then transfers it to the hot circuit 14 of the thermoelectric module 3, while the unit operates in the heat pump mode, utilizing the thermal energy of the removed heated ventilation air and energy transfer to the heat carrier for heating the thermal panel.

Thermoelectric heat pump 1 operates according to the "liquid-air" scheme and contains a thermoelectric assembly 2, which consists of a thermoelectric module 3, a loop heat pipe 5 with a heat sink 6 for the evaporator installed in the exhaust shaft, a heat sink 2 for condensation adjacent to the cold circuit 13 thermoelectric module 3, liquid radiator 4 of the hot circuit 14, connected by direct-flow 10 and return 9 pipelines through the circulation pump 8 with the outlet pipe 18 of the thermal panel 11, and the outlet pipe 20 of the heat exchanger 4 by the return pipeline 9 is connected to the inlet pipe 17 of the thermal panel 11, thus forming , a closed circuit of circulation of the heat carrier for heating the thermal panel 11. The machine for growing piglets is divided by a grate 23 into two zones - the area for the sow 22 and the piglets 25. comfortable conditions and at the same time reducing heat output and energy consumption by using the renewable energy of heated air with the help of a heat pump 1.

To create a microclimate in the zone where the piglets are located, a thermoelectric heat pump is used to ensure the standard parameters of the air environment in the machine for growing piglets 25-27°C and in the pigsty room 16-18°C.

The proposed invention will increase the efficiency, improve the reliability of the installation, reduce energy costs for keeping piglets in comfortable conditions by using renewable energy of ventilation air by reducing the length of pipelines for circulating the coolant and reducing transport losses of thermal energy.

Claims (1)

Installation of local heating of piglets, containing a thermoelectric heat pump according to the "liquid-air" scheme for generating thermal energy, a circulation pump, direct-flow and return pipelines for circulating the heat carrier, a thermal panel for heating piglets with thermal insulation, a control unit and a thermal panel temperature sensor, characterized in that thermoelectric heat pump, which is a thermoelectric assembly with a thermoelectric module located in it, a hot circuit liquid heat exchanger, is equipped with a loop heat pipe, a heat sink for the loop heat pipe evaporator installed in the exhaust shaft transfers the thermal energy of the removed ventilation air to the heat sink for the heat pipe condenser, which adjacent to the cold circuit of the thermoelectric module, from where the recovered thermal energy is transferred to the hot circuit of the thermoelectric module, which is connected to the control unit, while the inlet pipe heat exchange nick of the hot circuit is connected by a direct-flow pipeline through a circulation pump to the outlet pipe of the thermal panel, and the outlet pipe of the heat exchanger is connected by a return pipeline to the inlet pipe of the thermal panel, forming a closed circuit of the heat carrier circulation.

Images