RU71156U1 - ARTIFICIAL ROLLER ROOM AIR-CONDITIONING SYSTEM - Google Patents

Abstract

The utility model is aimed at reducing energy consumption. The specified technical result is achieved by the fact that the air conditioning system contains a filter sequentially arranged along the air, a drying chamber with air heaters, a mixing chamber, an additional filter, an additional air heater, fans, a silencer, supply air ducts with air distribution nozzles, as well as an exhaust device and an automatic control unit while the heaters of the drying chamber are an evaporator and a condenser of the refrigeration circuit with at least two compresses oram, and the exhaust device is located in the center of the ice arena under the ceiling of the room. 1 s.p. f., 1 ill.

Description

The utility model relates to the energy sector, in particular, to air conditioning systems of the ice zone of artificial ice rink rooms.

Known air conditioning systems of rooms with artificial ice rinks containing air filters, heaters, air valves, silencers, a mixing chamber, supply and exhaust fans, dehumidifiers (Kokorin O.Ya., Modern air conditioning systems, M., Fizmatlit, 2003, p .94-95).

A disadvantage of the known systems is the increased energy consumption for drying the prepared air.

The technical result of the proposed utility model is to reduce energy costs for drying and preparing air. The estimated energy consumption of the proposed system compared with the known is reduced by about 19 times. The capital cost of the system is reduced by 2 times. There is no need for the construction of pipelines with massive insulation for transporting antifreeze with a negative temperature of -15 C, which serves as a source of cold for the known system. The reliability of the system increases and the time for maintenance is reduced.

The technical result is achieved by the fact that the air conditioning system of the ice zone area of artificial ice rinks contains a filter successively arranged along the air, a drying chamber with air heaters, a mixing chamber, an additional filter, an additional air heater, fans, a silencer, supply air ducts with air distribution nozzles, and an exhaust device and automatic control unit, while the heaters of the drying chamber are an evaporator and a condenser refrigeration Contours with at least two compressors, the drawing device taken through the middle of the ice arena under the ceiling of the room. The automatic control unit is made in the form of sensors for monitoring the temperature and relative humidity of the supply air, mounted in the supply air ducts and configured accordingly:

a temperature sensor for maintaining the supply air temperature determined by the condition for the formation of the thermal regime of the ice field, and

associated with the actuator on the line supplying thermal energy to the additional air heater, and the sensor for controlling the relative humidity of the supply air is set to the minimum allowable value and maximum allowable value and through the control panel affects the operation of the compressor motors.

The drawing shows a schematic diagram of the proposed air conditioning system.

To maintain the ice field zone of artificial ice rinks, the minimum permissible sanitary norm of the supply air is L _{mon. min.} enters the dehumidification chamber, in which there are at least two compressors 1, connected by copper tubes to heaters representing the condenser 2 and the evaporator 3 of the refrigeration circuit. The duct 6 through unregulated air valves 7 and filters 8, the drying chamber is connected to the intake of external air. The drying chamber 9 and a fan 4 control panel having a wired connection to the sensor 5 relative humidity, the blower fan inlet 9 is connected with the mixing chamber 10, which through air adjustment valve 12 is connected a duct 11 Incoming air recirculation L _WR, and supply air mixture L _n = L + L _{pn.min wR} passes through the filter 13 and the additional heater 14 connected to the hot water pipe G _wr and the pipeline entering the additional heater 14, hot water smo an automatic valve 15 has been wired with a sensor 16, and the fan 17 is connected through a muffler 18 to the supply air ducts 19 on which the air-distributing nozzles 20 are mounted, and under the ceiling over the ice field an exhaust device 21 is connected, connected by an air duct 22 to the exhaust device 23, which the air duct 24 is connected to the exhaust air outlet L _y into the atmosphere.

The air conditioning system operates year-round if there is an artificially maintained ice field in the ice rink.

The most energy-consuming is the mode of operation of the system in the design conditions of the warm season, when maximum drying of the supply of external air is required, which enters the drying chamber from the operation of fan 9, and the operation of compressors 1 provides circulation and phase changes of the working agent, which turns into a liquid state tubes of the air conditioner 2 at high temperatures and boils in the tubes of the evaporator 3 at low temperatures, which provides initial cooling and drying L _{Mon min} when passing from the fin side of the tubes of the evaporator 3 and heats up at a constant

moisture content, when passing from the finning side of the condenser tubes 2 and blows into the mixing chamber 10, where from the operation of the fan 17 through the duct 11 through the air valve 12 is taken from the area where people are on the ice field recirculated air L _vl , the flow rate of which should provide in the estimated solving the system’s operation in the warm season, obtaining, when mixed with drained air heated in the condenser 2, L _{pn min, the} inflow temperature required by the thermal solution of the ice field is t _cm = t _n , and to ensure sufficient If the ice field is completely blocked by the supply air jets leaving the nozzles 20 mounted on the supply ducts 19, the location of the supply ducts 19 and nozzle models 20 is selected and if the mixture is mixed in chambers 10, the mixture temperature t _cm <t _p , then the sensor 16 sends a command to an automatic valve 15 for delivery of hot water in heater 14 and purified in the filter 13, the mixture of supply air L _n from the fan 17 compresses the sound pressure level in the muffler 18, and evolved from the occupants of the ice field yanye pair and evaporating moisture at a periodic updating of the ice surface through its coating with a thin layer of hot water lying under the covering, wherein by operation of exhaust fan 23 and connecting ducts 22 and 24 is discharged into the atmosphere in an amount L _y = L _mon, and when the temperature t _n d _n and the moisture content of outside air dehumidifying ability operating apparatus is reduced, which is controlled by the relative humidity sensor 5 and at lower φ _n less than the set value, originally the signal of the sensor 5 on the control board eniya 4 stops a compressor and a dehumidifying capacity chamber to decrease by 50%, which will provide the increase in φ _n, and for further reduction of t _n and where t _n is close to the desired moisture content of the supply air d _p is stopped and the second compressor, the cell continues to operate only blower 9 , and the fan 17 and the supply air temperature t _{p is} supported by the regulation of the air heater 14 with an automatic valve 15, and moisture is emitted from the operation of the exhaust fan 23 through the exhaust device 21 through the air ducts 22 and 23 Eden.

Claims (2)

1. The air conditioning system of the zone of the ice field of the artificial ice rink rooms, characterized in that it contains a filter successively arranged along the air, a drying chamber with air heaters, a mixing chamber, an additional filter, an additional air heater, fans, a silencer, supply air ducts with air distribution nozzles, and an exhaust device and an automatic control unit, while the heaters of the drying chamber are an evaporator and a condenser of the refrigeration circuit with at least two compressors, and the exhaust device is located in the center of the ice arena under the ceiling of the room. 2. The system according to claim 1, characterized in that the automatic control unit is made in the form of sensors for monitoring the temperature and relative humidity of the supply air mounted in the supply air ducts and configured accordingly: a temperature sensor to maintain the supply air temperature, determined by the condition for the formation of the thermal regime of the ice field , and associated with the actuator on the line for supplying thermal energy to the additional air heater, and the sensor for controlling the relative humidity of the supply air is set ene to minimum permissible value and the maximum permissible value and in a control board affects operation of the compressor motor.