RU2737808C1 - Device for creation of thermal conditions in areas of young animals keeping with variable generation of level and direction of heat flow - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular, to local heating plants designed to create the required temperature parameters in the area of young animals live in production premises of cattle-breeding farms. Device for creation of thermal conditions in areas of keeping young animals with variable generation of level and direction of heat flow includes floor panel with heating element with stabilization of temperature parameters. In the thermostatting panel there built is a liquid circuit out of tubes with leads for heat carrier inlet and outlet and a temperature sensor. Heat-conducting material is placed on the top of the panel to level the temperature along its surface and the corrosion-resistant coating, and heat insulation is arranged at the bottom of the panel. Liquid circuit of the panel is connected by a unit of heat-insulated pipelines with a liquid circuit of the unit with variable generation of the level and direction of heat flow, which includes a heat exchanger "surface-liquid", pellet thermoelectric elements, surface-to-air heat exchanger, fan, circulating pump with controlled supply of heat carrier, temperature sensor at the input of heat-exchanger "surface-liquid" and temperature sensor at the output of heat exchanger "surface-liquid". Unit fluid circuit consists of inlet and outlet tubes with heat carrier inlet and outlet terminals connected to surface-liquid heat exchanger, note here that at inlet of heat-exchanger "surface-fluid" there is built-in pump and temperature transducer in inlet tube. Temperature transducer is built-in at outlet of "surface-liquid" heat exchanger in outlet pipe. Liquid circuits of the panel, unit for generation of level and direction of energy flow with unit of heat-insulated pipeline form closed loop for circulation of heat carrier. Heat level and direction generation control is carried out by thermoelectric elements from control system. At that, heat exchanger "surface-liquid" releases heat into heat carrier or absorbs heat from heat carrier, panel temperature sensor controls temperature on its surface and direction of heat flow, temperature sensors at the input and output of the heat exchanger "surface-liquid" control the level of heat flow generation, the pump circulates the heat carrier in the closed circuit, and the fan dissipates the excess energy into the environment.

EFFECT: invention provides an increase in the efficiency of heating young animals and creating the required temperature parameters in the area of young animals during the whole year.

1 cl, 1 dwg

Description

The invention relates to agriculture, namely, to local heating installations designed to create the required temperature parameters in the area where young animals are located in the production facilities of livestock farms.

Known floor-standing electric heater for piglets, including a heat-insulating element, a heating source, curtains with vertical cuts in the lower part and a vertical support, fire-resistant fiberglass heat-generating electrical panels for local heating of piglets (RF patent No. 2442322, IPC A01K 29/00, publ. 20.01.2012 . Bulletin No. 5). A heat-resistant heater in the form of a stranded wire made of a chromium-nickel alloy (nichrome) in heat-resistant silicone insulation is evenly located inside the panel.

The disadvantages of known heaters are that they do not ensure the maintenance of the required temperature parameters on the surface of the panel when the temperature of the air and enclosing structures in the room rises above the standard values in the summer and transitional periods of the year.

The closest in technical essence to the proposed invention is an electrically heated panel for young animals, in which the electric heating element is made of a heating wire with stabilization of temperature parameters and is equipped with a starting device containing a semiconductor diode and a temperature sensor-relay (A.S. No. 1814505, IPC, publ. 07.05.93 Bul. No. 17).

The disadvantages of the known electrically heated panel are that the use of the panel is limited to the heating period of the year when the outside air temperature is low.

The objective of the present invention is to increase the efficiency of heating young animals and create the required temperature parameters in the area of keeping young animals throughout the year, winter, transitional and summer periods.

As a result of using the proposed invention, it becomes possible to grow and keep young animals (machines, cages, etc.) by creating the required temperature parameters in the area of keeping young animals with standard industrial equipment, to form a thermal regime in the area where young animals are located and to provide the required and uniform temperature field on surface of a thermostatic liquid floor panel during the entire growing period, to increase their safety, animal productivity, to reduce the specific feed costs per unit of weight gain due to the fact that the device is equipped with a thermostatic liquid floor panel and an energy flow generation unit on thermoelectric modules that are connected to the control system ...

The above technical result is achieved by the fact that in the proposed device for creating thermal conditions in the areas of keeping young animals with variable generation of the level and direction of the heat flow, containing a floor panel with a heating element with stabilization of temperature parameters, according to the invention, a liquid circuit of tubes is built into the thermostatic panel with terminals for the inlet and outlet of the coolant and a temperature sensor, a heat-conducting material is placed on top of the panel to equalize the temperature along its surface and a corrosion-resistant coating and thermal insulation is located at the bottom of the panel, while the liquid circuit of the panel is connected by a block of heat-insulated pipelines with a liquid circuit of the block with variable generation of level and direction heat flow, which contains a surface-liquid heat exchanger, Pelte thermoelectric elements, a surface-to-air heat exchanger, a fan, a circulation pump with an adjustable coolant supply, etc. The temperature sensor at the inlet of the surface-liquid heat exchanger and the temperature sensor at the outlet of the surface-liquid heat exchanger, and the liquid circuit of the unit consists of inlet and outlet tubes with leads for the inlet and outlet of the coolant, connected to the surface-liquid heat exchanger, and at the inlet to the surface-liquid heat exchanger, a pump and a temperature sensor are integrated in the inlet tube; at the outlet of the surface-to-liquid heat exchanger, a temperature sensor is integrated in the outlet tube; the pipeline forms a closed loop for the circulation of the coolant, and the generation of the level and direction of the heat flux is controlled by thermoelectric elements from the control system, while the surface-liquid heat exchanger releases heat into the coolant or absorbs heat from the coolant, the panel temperature sensor controls the temperature the temperature on its surface and the direction of the heat flow, temperature sensors at the inlet and outlet of the surface-liquid heat exchanger control the level of heat flow generation,

the pump circulates the coolant in a closed loop, the fan dissipates excess energy into the environment.

The essence of the invention is illustrated by the drawing, which shows the general diagram of the device.

A device for creating thermal conditions in the areas of keeping young animals with variable generation of the level and direction of the heat flux contains a thermostatic liquid floor panel 1 with a material with a high thermal conductivity applied to its surface to equalize the temperature along the surface of the panel and a corrosion-resistant coating 2, thermal insulation 3, a temperature sensor 5 installed in the panel 1, the liquid circuit 4 of the panel 1 by the outlet 6 through the block of heat-insulated pipelines 8 is connected to the input 9 of the liquid circuit of the unit with variable generation of the level and direction of the heat flow 11, the inlet 7 of the liquid circuit 4 of the panel 1 through the block of heat-insulated pipelines 8 is connected to the outlet 10 of the liquid circuit of the unit with variable generation of the level and direction of the heat flux 11, the inlet 9 is connected by the inlet tube 18 through a pump with a variable supply of the heat carrier (water) 15 to the inlet of the surface-liquid heat exchanger 17, in the inlet tube 18 at the input A temperature sensor 16 is integrated in the surface-liquid heat exchanger 17, and the outlet of the surface-liquid heat exchanger 17 is connected to outlet 10 by an outlet tube 19, and a temperature sensor 20 is built into the outlet tube 19 from the outlet of the surface-to-liquid heat exchanger 17.

The liquid circuit of the unit with variable generation of the level and direction of the heat flux 11 consists of an inlet tube 18 with an inlet 9, a surface-liquid heat exchanger 17 and an outlet tube 19 with an outlet 10. The liquid circuit of the panel 4 and a liquid circuit of the unit with variable generation of the level and direction heat flow 11 and a block of heat-insulated pipelines 8 form a closed circuit of the circulation of the coolant. The heat flux generation control unit 11 contains Peltier thermoelectric modules 12, fan 13, surface-to-air heat exchanger 14, surface-to-liquid heat exchanger 17. Thermoelectric modules on Peltier elements 12 are connected to the control system 21.

A device for creating thermal conditions in the areas of keeping young animals with variable generation of the level and direction of the heat flow is in operation as follows.

When thermoelectric modules 12 are connected to the control system 21, heat is released in the surface-liquid heat exchanger 17 on the side of the modules, which is transferred to the coolant. The circulating pump with a variable flow rate 15 supplies the heat carrier to the liquid circuit 4 of the thermostatic liquid panel 1, where it transfers heat energy to the panel array and material with a high thermal conductivity coefficient and a corrosion-resistant coating 2, which is evenly distributed over the surface of the panel 1. Thermal insulation 3 reduces heat losses to the floor ... The temperature sensor 5 monitors the temperature on the surface of the panel and when it goes beyond the set value, the control system 21 regulates the heat power generated by the thermoelectric modules 12 in the control unit for generating the level and direction of the energy flow 11. The circulation pump 15 and temperature sensors 16 and 20 control the level generated power of thermoelectric modules 12 to compensate for heat losses in the floor panel.

A change in the temperature regime of the room leads to the need to extract heat energy from the floor panel 1 to maintain the required temperature on its surface. The control system 21 changes the polarity of the power supply of the Peltier thermoelectric modules 12, on the side of the modules 12 in the surface-liquid heat exchanger 17 heat is absorbed, which is taken from the coolant circulating in the liquid circuit 4 of the floor panel 1, and is transferred to the surface-air heat exchanger 14 , the fan 13 dissipates excess heat energy from the surface-to-air heat exchanger 14 into the environment. Thus, a thermal regime is provided in the area where young animals are located.

Claims (1)

A device for creating thermal conditions in areas where young animals are kept with variable generation of the level and direction of heat flow, containing a floor panel with a heating element with stabilization of temperature parameters, characterized in that a liquid circuit is built into the thermostatic panel from tubes with outlets for the inlet and outlet of the heat carrier and a temperature sensor, a heat-conducting material is placed on top of the panel to equalize the temperature along its surface and a corrosion-resistant coating and thermal insulation is located at the bottom of the panel, while the liquid circuit of the panel is connected by a block of heat-insulated pipelines with a liquid circuit of the unit with variable generation of the level and direction of heat flow, which contains a heat exchanger "surface -Liquid ", Pelte thermoelectric elements," surface-to-air "heat exchanger, fan, circulation pump with adjustable coolant supply, temperature sensor at the inlet of the" surface-liquid "heat exchanger and sensors to the temperature at the outlet of the surface-liquid heat exchanger, and the liquid circuit of the unit consists of inlet and outlet tubes with outlets for the inlet and outlet of the coolant connected to the surface-liquid heat exchanger, and at the inlet to the surface-liquid heat exchanger in the inlet a pump and a temperature sensor are built into the tube, a temperature sensor is built into the outlet tube at the outlet of the surface-liquid heat exchanger, while the liquid circuits of the panel, the level generation unit and the direction of the energy flow with the unit with a heat-insulated pipeline form a closed loop for the circulation of the coolant, and the generation control the level and direction of the heat flow is carried out by thermoelectric elements from the control system, while in the surface-liquid heat exchanger heat is released into the coolant or heat is absorbed from the coolant, the panel temperature sensor controls the temperature on its surface and the direction of the heat flow, temperature sensors At the inlet and outlet of the surface-liquid heat exchanger, the level of heat flux generation is controlled, the pump circulates the coolant in a closed loop, and the fan dissipates excess energy into the environment.

Images