SU750222A1 - Apparatus for controlling microclimate in animal-keeping housings - Google Patents

Description

(54) DEVICE FOR THE REGULATION OF MICROCLIMATE OF ANIMAL AND WATER PREMISES The invention relates to the field of automatic control of the parameters of the air environment of the premises and can be used primarily to create an optimal microclimate in livestock buildings. Known devices for indoor microclimate control include temperature and relative air humidity sensors, temperature and humidity controllers, supply and exhaust fans, and control circuits for them l. The disadvantage of this device is the increased consumption of heat and electrical energy in the cold and transition year. Closest to the invention in its technical essence and the achievable setting is a device for regulating the microclimate of livestock buildings, containing sensors and sensors for temperature, relative humidity and concentration of carbon dioxide. connected to the comparison elements connected to the input of amplifiers whose outputs are connected to the maximum signal sharing unit associated with control systems of supply and exhaust fans installed on opposite sides of the room 2 The disadvantage of the known device is the violation of the uniformity of temperature-humidity and gas fields in terms of room volume when the wind pressure is applied to the building. This is due to the fact that in a known device, the supply (capacity) of 1-PHOTO and exhaust fans is simultaneously proportional to the temperature deviation of the relative humidity or the concentration of carbon dioxide in the room from the set values. Since the exhaust fans in the livestock building are located in the side openings on both sides of the building, when the wind acts, the supply of exhaust fans located on the windward side decreases, and the supply of fans on the leeward side increases. In the cold period of the year, the supply of fans on the windward side at the specified wind speed decreases to zero. Accordingly, the supply of fans on the leeward side increases. This leads to a significant temperature drop (up to + 10 ° C) t of relative humidity (up to ± 2%) and carbon dioxide concentration (up to 0.03%) over the volume of the livestock building, which is inadmissible according to zootechnical requirements. The purpose of the invention is to increase the uniformity of temperature. humid and gas fields by volume of the room. This is achieved in that the device additionally contains a wind pressure sensor and two adders connected between the extraction unit, the maximum signal and the control systems of the exhaust fans, and the wind pressure sensor is connected to one adder directly and to the other through an inverter. The drawing shows a block diagram of a device for climate control. The device contains sensors 1, 2, 3 and setting devices 4,5,6, respectively, temperature, relative humidity and carbon dioxide concentration, connected with elements 7,8,9 comparison, connected to the input of amplifiers Yu, 11, 12, whose outputs are connected to block 13 the selection of the maximum signal associated with the systems 14, 15, 16 of the control of the supply and exhaust fans, respectively 17 and 18, 19, installed on opposite sides of the room (not shown). The second outputs of the amplifiers U and 12 are connected respectively to systems 20 to 21. Control of heaters 22 and humidifier 23, The device additionally contains a wind pressure sensor 24 and two adders 25 and 26 included between the maximum signal extraction unit 13 and the exhaust air control systems 15, 16 18, 19 and the wind pressure sensor 24 are connected directly to the adder 25, and to the adder 26 via an inverter 27. The device operates as follows. Signals of the corresponding polarity, the projective deviations of the current temperature, the concentration of acid and the relative humidity of air from their given values from the comparison elements 7.8 and 9 are amplified by amplifiers 10, 11, 12 and are fed to the maximum signal extraction unit 13. In addition, when the temperature and relative humidity of the air relative to the set points decrease, the signal from the amplifier 10 is temperature, the channel acts through the control system 2O on the heaters 22, which increase the current temperature to the specified value, and the signal from the amplifier 12 on the humidity channel through the control system 21 affects a humidifier 23 that raises the relative humidity of the air to a predetermined value. The maximum signal extraction unit 13 transmits a signal, the largest in amplitude of the three incoming signals, proportional to temperature deviations, carbon dioxide concentrations and air humidity from the set values. Since in animal husbandry the most important parameter of the microclimate is temperature, the gain of the temperature channel must be somewhat higher than the others. The maximum output signal from amplifiers 10, 11, 12 of each channel is achieved when the temperature deviates from the setpoint by i 2C, relative humidity by ilO% and carbon dioxide concentration by 0.01%, which corresponds to the accuracy determined by zoo-technical requirements. The magnitude of the signal of unit 13 through the system 14 of the control of the supply fan 17 and through the adders 25, 26, the system 15, 16 of the control of the fans 18, 19 determines the supply of the supply and exhaust fans. The higher the deviation of the selected dictating microclimate parameter from the predetermined value, the greater the supply of supply and exhaust fans, since a larger volume of supplied and exhausted air is required to reduce the selected microclimate parameter to the predetermined value. In the absence of wind pressure on the control systems 15, 16 by the exhaust fans 18, 19, through the adders 25, 26, the same signal passes and the flow of the fans located on one side of the room is equal to the flow of the fans located on the other side.

In the presence of wind pressure acting, for example, on the fan 17, the signal from the output of the wind pressure sensor 24 is supplied to the adder 25 and is summed with the signal of the extraction unit 13 of the maximum signal. As a result, the pressure and the supply of the fans 18 increase proportionally to the wind pressure to compensate for the reduction in supply due to the action of the wind.

At the same time, the signal from the output of the sensor 24 is fed through the inverter 27 to the adder 26, where it is subtracted from the signal coming from the block 13 in the slit of the maximum signal. Accordingly, the pressure and supply of the fans 19 are reduced to compensate for the increase in their supply due to the negative pressure on the leeward side.

Thus, the temperature and humidity and gas fields are equalized by the volume of the room under the action of wind pressure on it.

The use of this device will make it possible to more accurately maintain the microclimate parameters in livestock buildings and, as a result, increase the safety and productivity of animals.

Claims (2)

1. USSR Author's Certificate No. ZZO439, cl. G O5D 23/19, 1972. 2. USSR Author's Certificate No. 6133О4, cl. Q O5D 23/19, 1976.