SU696248A1 - System of cold supply and ventilation of indoor skating rinks - Google Patents

Description

I

The invention relates to the field of engineering equipment, in particular, to the refrigeration and ventilation technology of indoor artificial ice rinks. A cooling and ventilation system is known that includes a refrigeration unit consisting of a compressor, an evaporator, a condenser, an air cooler, pumps, pipe blowers with shut-off and regulating equipment and a ventilation unit that includes an air intake chamber, a fan, air ducts and draws wells into rpjmTOBOM overlap 11.

The disadvantage of such a system is its inefficiency, since the heat removed from the room is not used, but is discharged into the environment.

More advanced is the cooling system and ventilators for covered artificial ice rinks, including a refrigeration unit, a cold accumulator with nozzles, pumps and an ice field cooling battery associated with the forward and reverse collectors of the refrigeration unit. treatment of air connected to the outside air and the roller shaft, as well as an air heat exchanger with inlet and outlet nozzles for supplying and discharging coolant 2.

Its disadvantage is that the heat removed from the ice field is discharged into the environment, and the supply of ventilation air is heated by an additional source of heat.

In addition, this system eliminates the use of seasonal and daily negative outdoor temperatures to maintain ice.

The purpose of the present invention is to improve the efficiency of the system by using the heat removed from the cooling ice field battery and the low outdoor temperatures raised in winter.

Claims (2)

This goal is achieved by the fact that in the system the return line of the cooling ice-field battery is connected to the inlet of the air heat exchanger, the outlet of which is connected to one 6 of the cold accumulator and the cold iioJiojijrforb collection of the cold accumulator and; the amount of heat of the heated boiler. T e cTiCiOn PrePiTe 1fga LHeSH of the cold supply and ventilation system of the KrsHi yskustyetsh ice nk skating rinks. , J1In the system. Cooling battery 1 of ice TIME SVYZAN. with the evaporator of the refrigeration unit, 2 and 3, respectively, with the pipelines 4 and 5 with valves 6 and 7. IspradaSch izdUd1 "y Shgf" y) 1 torus 8 of the cold from one side - with a collector 9 hoSDYOgreto1y6n Shdajcs W and 11 through pipe 12, and on the other, by a collector 13, the engine is powered by engines 14, T5, 16 and 1 through pipe 18. Battery 8 cold through pipes 12 and 18 is also connected by pipeline 19 to valve 20 and a pipe 21 with a valve 22 with a return outlet 23 of the air spade 24, inlet water patra; & EC 25 which is the return pipe 26 with a valve 27 sbegayayen with cooling batdrvey 1 unit floor. Circulation pump 1) | 3 pump 28 with an iodine device device 29 connecting with a collector of three pipes), a collector of 13 units of a separate cable and a pipeline 30. Circulating pumps 31 and 32 with mixing devices of 31 and 34 or 34 and max. a pipe 36 with a valve 37 with a collector 9 of a cold heat carrier, and a collector 13 of warmth (to; pipe conduit 30 and 38 with a valve 39 and 40 is connected to the return pipe 26 of the cooling field 1 of the ice field. Shut-off valve 41 of the ventilation system Soyuzt1b1 {s c 16, through the heat exchanger 43 - with the skating rink 44 Svtemma works as follows: Summer daily - daytime. In the demonstration mode of the skating rink,% of the steam of the refrigeration unit 2 work only on the ice run. With the help of the Cooled Coolant accumulated in the cold accumulator 8. At the same time, the coolant at the back & temperature, automatically maintained by mixing the mixing valve of the cold and warm coolants, circulating a 1M pump 28 It is directed through a G2bpr pipeline, a closed gate valve 27, into the air trough 24 Hb5 isdzheel Shzdukh. From the air heat exchanger 24 through the inlet 23, the heat transfer fluid through the pipeline 21 OTKpifbix valves 22 and 14 and the closed valve 20 RFSiBfynae through the pipe 18 partially into the battery 8 oloda, and partly into the collector 13 from the heat source with the valve 15 closed. the warm coolant from the accumulator battery 8 oloda through the pipe 12 through the pipe 19 cold coolant enters the collector 9 with the valve closed 10. Next, the heat carrier circulation is repeated and the battery is discharged ul cold torus. Summertime - night time. In summertime, the accumulator battery is produced, Kdtjia: heat flows to the ice field are less. the installed capacity of the chillers, for example, the elapsed time, and the maintenance of ice is consumed, the capacity of the refrigeration unit, and the other part is used for the accumulation of cold. With this, in order to maintain the coolant by means of a pump 31, the refrigerating unit 3 is supplied through conduit 5 with the valve 7 closed and the valve 6 open, to the cooling ice field cooling battery 1 and through the return pipeline 26 and 38, with the valves closed 11, 27, 39 and open 10 and 15, returns K:; to the steamer. , Accumulation of cold occurs when the heat source is circulated in the circuit: evaporation. 2, piping 4, 35, 36, cold heat collector 9 (through pipe 12 to cold accumulator 8 at shutter valve 7 and open valve.) .. ::::; , -.,.,. -: „-; CaOTBefctSeflHO amount of incoming chilled thermal accumulator of cold accumulator 8 o-hepatic coolant through pipe 18 and pipe 21 with closed valve 22 and open valves 14 and 16 enters the collector 13 of the heated heat carrier and then to the evaporator of the refrigeration unit 2. Winter period - daytime . When the outdoor air temperature is below the operating temperature of the coolant, refrigeration units 2 and 3 do not work and the coolant is cooled by the outside air; In this case, the heating system from the collector 9 of pumping 31 and 32 through pipelines 4 and 5 with the open valve 6 and the closed valve 7 enter the cooling field 1 of the ice field. Next, the coolant through the return pipe 26 with the open valve 27 through the inlet pipe 25 enters the air heat exchanger 24, where heat is exchanged between the coolant and outside air, the coolant through the pipe 23 1U pipe 19 enters at this valve 20 and the closed valve 22 into the collector 9 cold heat carrier. At the same time, the heated air from the heat exchanger 24 with the valve 41 closed and the valve 42 open with additional heating in the heat exchanger heater 43 is fed to the hall of the roller 44. Then the heat carrier circulates again. The winter period is night time. When the outdoor air temperature is lower than the operating temperature of the heat transfer medium and the heat flows, there are less calculated values to the ice field, Refrigeration unit 2 does not work and the heat transfer medium with cold accumulation is cooled by outside air. At the same time, the coolant from the cooling battery I of the ice field through pipe 26 enters the air heat exchanger 24, the cooled tester through - the pipe 23 through the pipe 19 comes partially to the collector 9 of the cold heat carrier, and partially through the pipe 12 to the cold accumulator 8, is displaced the same amount of heated coolant through the pipe 18 through line 21 to the collector 13 of the heated coolant when the valves 20 and 14 are open and the valve 22 is closed, which, after mixing with the cold coolant, goes to cool giving an ice pack 1 battery. The desired temperature of the heat carrier is maintained by means of a mixing valve under the agitating device 29. The exhaust air heated by the air heat exchanger 24 is expelled through the air valve 41 with the valve 42 closed. At the same time, no rotation of the shaft is performed. Such a cooling system does not allow ventilation first in the course of the air heat exchanger to use for the treatment of fresh air coolant, withdrawn from the cooling battery of the icy poly, and use a low supply air temperature for radiation and maintenance of ice, which significantly increases the efficiency of the system: topics. Invention system The cooling and ventilation system of artificially covered ice rinks, including the refrigeration unit, the cold accumulator with inlet and coolant outlet pipes, circulate the chambers and the collectors cold and warm coolant, cooling ice-field battery connected by direct and return pipelines with cold and adeleLeyno tey collectors, and 11y heat exchanger with inlet and outlet pipe and for the supply and removal teplonostel, and featuring in that; in order to increase the efficiency of the system by using low data | the outdoor air venture at the zineyo, the return pipe of the cooling ice field is connected; cold and collector coolant coolant. Ystedoki shchformshchshch, taken into account during the examination 1. Bobkov V. A. Recommendations on the 1mention of refrigeration equipment to preserve food in the North. M., ed. VNIHI, 1971, S, 34.- -; -:, - 2. Migdal I.D. et al. Artificial skating rinks Yub1} Leynoy - Refrigeration equipment, 1% 9, No. 6, p. nineteen.