SU1193381A1 - System for automatic regulation of microclimate in training mine thermal chamber - Google Patents

Abstract

The AUTOMATIC REGULATION of the MICROCLIMATE in the HEATING CAMERA of the TRAINING MINE, containing the heater, the humidifier connected to the cold water supply line equipped with a control valve, the temperature and humidity sensors in the heat chamber connected to the control unit of the heater and the humidifier, which is different in a non-uniform, and there is no other; the aim is to increase the reliability of operation by ensuring the accuracy of adjusting the air parameters evenly throughout the volume of the heat chamber, it is equipped with a water heater made in the form of a pipe, an involute bent in shape and placed in a heat-insulating casing, and a water flow sensor installed up to the control valve and connected to the control unit, the heater is designed as an electric heater consisting of a vertical and horizontal section, and the humidifier is located above the horizontal section of the heater and consists of coaxially attached to the outlet part of the water tube of a hollow drum, on the lateral surface (of which there are tangentially directed slit-like nozzles. with with OO 00

Description

The invention relates to air conditioning technology. The purpose of the invention is to increase the reliability of operation by ensuring the accuracy of adjusting the parameters of air evenly throughout the volume of the heat chamber. FIG. 1 shows a diagram of an automatic microclimate control system in a heat chamber of a training shaft; in fig. 2 air heater with built-in humidifier, obsh, iy view; in fig. 3 shows section A-A in FIG. 2; in fig. 4 - design of the humidifier; in fig. 5 view B in FIG. four; in fig. 6 is an electrical control circuit of an automatic microclimate control system in a heat chamber of a training shaft. The automatic microclimate control system in the heat chamber 1 of training shaft 2 contains a heater 3, a humidifier 4 connected to the cold water supply line 5 equipped with an adjustable valve 6, sensors 7 and 8 of the temperature and humidity of the air in the heat chamber 1 connected to block 9 controlling the heater 3 and the humidifier 4, the water heater 10, made in the form of a tube 11, bent in the shape of an involute and placed in the heat-insulated casing 12, and a sensor 13 of water flow, installed before the control valve 6 and connected to the unit ohm 9 control The heater 3 is made in the form of an electric heater 14 consisting of vertical and horizontal sections 15 and 16, and the humidifier 4 is located above the horizontal section 16 of the heater 3 and consists of a heater 11 of the hollow drum 18 coaxially attached to the outlet 17 of the pipe 11, on the side surface 19 which are located tangentially directed sh, spruce nozzles 20. The system of automatic control of the microclimate in the heat chamber of the training shaft also contains a pre-chamber 21, starting equipment 22, a simulator 23, a box 24 calories ferra 3, made of angles 25, nozzle 26 humidifier 4, power circuit 26, control circuits 27, amplifiers 28 and 29, respectively, sensors 7 and 8 of temperature and humidity, power supply unit 30 and toggle switch 31 of the regulating valve 6. Thermal climate control system chamber training mine works as follows. The moving contacts of sensors 7 and 8 of temperature and humidity are set to predetermined temperatures, after which sections 15 and 16 of the heater 3 are turned on, ensuring that the air in the heat chamber I is heated to the temperature set at temperature sensor 7. The electrical circuit of the device is designed in such a way that when the temperature reaches a predetermined temperature, the heater 3 switches to automatic control mode. This supplies power to the amplifier 29 of the signals from the humidity sensor 8 and simultaneously closes the valve 6 circuit, the opening of which provides water to the humidifier 4. Due to the toggle switch 31 closing the valve circuit 6, the humidifier 4 can operate in the forced and pulsed modes. As a result of the interaction of water with the highly warmed inner surface of the drum 18 of the humidifier 4, jet jets of steam flow out of its slit-like nozzles 20, ensuring rotation of the drum 18 (when forced) or turning it through a certain angle (with a pulse operation of the humidifier 4). which results in intensive mixing of steam with air and its entry into almost all points of the heat chamber 1. The preliminary heating of water in the pipe 11 entering the drum 18 of the humidifier 4 increases the intensity The evaporation and economic efficiency of the automatic microclimate control system in the heat chamber 1 of training shaft 2. When the specified humidity value is reached, the contacts of the humidity sensor 8 are closed, the valve 6 is closed, and the humidification is stopped. Subsequently, the humidity and temperature of the air in chamber 1 are maintained at a predetermined level automatically.

L

14

l, l , 0. d, l, l I I TT 1 I II A1 "

G4 S / 3

LJ //// 7 // 7 // y / / U //// u /// / W / (Rie.2 Rig.4

VidB

-20

go

20

12

Water

fpuy.S

Claims (1)

SYSTEM OF AUTOMATIC MICROCLIMATE CONTROL IN THE HEATER OF THE EDUCATIONAL MINES, containing a heater, humidifier, connected to the cold water supply line, equipped with a control valve, temperature and humidity sensors in the heat chamber, connected to the control unit of the heater and humidifier, which increase the reliability of work by ensuring the accuracy of controlling the air parameters evenly throughout the volume of the heat chamber, it is equipped with a water heater made in the form of a pipe, I will bend that in the form of an involute and placed in a heat-insulating casing, and a water flow sensor installed before the control valve and connected to the control unit, the heater is made in the form of an electric heater, consisting of vertical and horizontal sections, and the humidifier is located above the horizontal section of the heater and consists of coaxially connected to the outlet of the water heater pipe of the hollow drum, on the lateral surface of which there are tangentially directed slit-like nozzles. FIG. /