RU2006102699A - METHOD FOR COMBINED LOCAL ENERGY-SAVING HEATING AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (5)

1. The method of combined local energy-saving heating and a device for its implementation, which includes receiving information from a pyrometric sensor of the radiation temperature of the animal, processing it and issuing control commands to turn on and off the ultraviolet, infrared irradiators and aeroionizer, characterized in that before the appearance of the animal in the local heating zone is supplied with a safe voltage to the electric mat located in the local heating zone; information is received from the ambient temperature sensor heating air and from the temperature sensor of the electric carpet and when the temperature of the electric carpet reaches a value several degrees higher than the ambient temperature, they are ready to receive the animal, the appearance of which in the heating zone is detected by the actuation of the load cell, after which, according to the program, taking into account the breed and the age of the animal produce its local heating, while measuring the humidity of the ambient air and adjusting its value to the temperature setting during regulation both the radiation temperature and the temperature of the electric carpet, increasing the temperature settings with increasing ambient humidity and decreasing temperature settings with decreasing ambient humidity, and on the basis of the measured currents of consumption and the time spent in the on state separately infrared, ultraviolet irradiators, aeroionizer and electric carpet calculate energy costs on combined local heating, and based on the measured readings of the load cell the daily weight gain of the animal s. 2. The method according to claim 1, characterized in that the maximum preset value of the radiation temperature setpoint must not exceed the superheat temperature, and the minimum set value of the setpoint must not be lower than the animal supercooling temperature, regardless of the time parameters of their irradiation program and the value of the measured air humidity. 3. A device for implementing the method, comprising an irradiation control unit, a pyrometric sensor, a time relay, a comparison unit, infrared and ultraviolet emitters and an aero ionizer, characterized in that it further comprises a microcomputer with a power supply, two temperature sensors, four current sensors with matching units, humidity sensor and load cell with interface modules, input module for indication and alarm data, control key and electric mats, while the power supply, time relay, output of the comparison unit, temp sensors The temperature and the input module for indication and alarm data are directly connected to the inputs of the microcomputer, the current sensors, the load cell, the humidity sensor are connected to the inputs of the microcomputer through matching blocks and interface modules, respectively, and the outputs of the microcomputer are connected directly to the input module for the indication and signaling data, to the first input the comparison unit, and through the irradiation control unit to the infrared and ultraviolet emitters and the air ionizer, through the control key to the electric mat, and the second input of the unit is compared I connected to the output of the pyrometer sensor. 4. The device according to claim 3, characterized in that the radiation control unit contains a special connector (card reader) for installing memory cards with different programs: combined heating for different types and breeds of young animals. 5. The device according to claim 3, characterized in that four racks are installed in the zone of local combined heating, a floor suspended by spring-loaded supports to the upper ends of the racks, while a load cell is installed on one of the supports, and a pyrometric sensor is installed on one of the racks and an outdoor temperature sensor, an electric mat with a temperature sensor is placed along the floor surface.