CN204313570U

CN204313570U - There is the carbone dioxide cooling device of reinforcement function

Info

Publication number: CN204313570U
Application number: CN201420761330.8U
Authority: CN
Inventors: 陈尊山
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-12-08
Filing date: 2014-12-08
Publication date: 2015-05-06
Anticipated expiration: 2024-12-08

Abstract

There is a carbone dioxide cooling device for reinforcement function, relate to water saving, pneumatic machinery and refrigeration technology field.Be made up of heat sink, cooling chamber, step-up system, liquefaction reduction apparatus and temperature-controlled portion, power unit, cooling chamber 1, injector 3, impeller mechanism 5, surge chamber 6, air-cooled case 7, cooling tank 8, air compressor 9, fluid reservoir 10, preheating can 12 and relevant valve body and pipeline form carbon dioxide and are atomized by liquid state, endothermic gasification, acting is to the closed circulation of liquefaction reduction.Device start, the liquid carbon dioxide entering preheating can sprays to cooled device through injector with mist state, endothermic gasification, volumetric expansion, discharges, to the impeller boosting reinforcement rotated with cooled device, the Power output of cooled device is got a promotion from cooling chamber.Gaseous carbon dioxide enters surge chamber pressure release, and air-cooled case is air-cooled, and cooling tank is cold by force, then carries out liquefaction reduction by air compressor press-in fluid reservoir.The cooling that the utility model is applicable to giant mechanical and electrical equipment uses.

Description

There is the carbone dioxide cooling device of reinforcement function

Technical field: a kind of carbone dioxide cooling device with reinforcement function, relates to water saving, pneumatic machinery and refrigeration technology field.

Background technology: generally to the cooling producing high hot giant mechanical and electrical equipment, the mode adopting water-cooled, auxiliary facility is numerous and jumbled, and duty takes up an area many, also can take and consume a large amount of water resources more.

Summary of the invention: the purpose of this utility model is to provide a kind of carbone dioxide cooling device with reinforcement function, the problem solved is: replace water with carbon dioxide, giant mechanical and electrical equipment is cooled, have reinforcement function, it is made up of heat sink, cooling chamber, step-up system, liquefaction reduction apparatus and temperature-controlled portion, power unit simultaneously:

The outside of fluid reservoir 10 is covered with heat-insulation layer, be connected with preheating can 12 by fluid-delivery valve 11 and pipeline thereof, preheating can 12 is connected with injector 3 by control valve 13 and pipeline thereof, injector 3 is three, be arranged on the locular wall of cooling chamber 1 in triangular symmetrical layout, its spout is opened to cooled device 2, forms heat sink;

Cooling chamber 1 is arranged on the periphery of cooled device 2, with cooled device hermetically-sealed construction;

Impeller mechanism 5 is arranged on the power output shaft of cooled device 2, and its inlet end is connected by the exhaust outlet of pipeline with cooling chamber 1, and exhaust end is connected by the air inlet of pipeline with surge chamber 6, forms step-up system;

The air inlet of surge chamber 6 is connected by the exhaust end of pipeline with impeller mechanism 5, exhaust outlet is connected by the inlet end of pipeline with air-cooled case 7, the exhaust end of air-cooled case 7 is connected with cooling tank 8 by pipeline, the outside of cooling tank 8 is covered with heat-insulation layer, be connected with fluid reservoir 10 by air compressor 9 and pipeline, condenser 15 installs around the outside at preheating can 12, evaporimeter 17 is arranged in cooling tank 8, one end of condenser 15 is connected by the output of pipeline with refrigeration compressor 14, the other end is connected with evaporimeter 17 by flow controller 16 and pipeline, the other end of evaporimeter 17 is connected by the input end of pipeline with refrigeration compressor 14, form liquefaction reduction apparatus,

Temperature sensor 4 is arranged on cooled device 2, is electrically connected by the input of wire with temperature control circuit 22; The output of temperature control circuit 22 is electrically connected with control valve 13, air compressor motor 19, refrigeration compressor motor 20, blower motor 21, composition temperature-controlled portion;

Temperature control circuit 22, fluid-delivery valve 11 are electrically connected with power switch 23, composition power unit.

The utility model replaces water with carbon dioxide, cools giant mechanical and electrical equipment, has reinforcement function simultaneously, is applicable to use the cooling of giant mechanical and electrical equipment.

Accompanying drawing illustrates:

Fig. 1, the utility model schematic diagram.

Fig. 2, the utility model electrical schematic diagram.

In figure: 1, cooling chamber, 2, cooled device, 3, injector, 4, temperature sensor, 5, impeller mechanism, 6, surge chamber, 7, air-cooled case, 8, cooling tank, 9, air compressor, 10, fluid reservoir, 11, fluid-delivery valve, 12, preheating can, 13, control valve, 14, refrigeration compressor, 15, condenser, 16, flow controller, 17, evaporimeter, 18, blower fan, 19, air compressor motor, 20, refrigeration compressor motor, 21, blower motor, 22, temperature control circuit, 23, power switch.

Detailed description of the invention:

Composition graphs 1, Fig. 2 illustrate the utility model heat sink, cooling chamber, step-up system, the structure of liquefaction reduction apparatus and embodiment:

The outside of fluid reservoir 10 is covered with heat-insulation layer, be connected with preheating can 12 by fluid-delivery valve 11 and pipeline thereof, preheating can 12 is connected with injector 3 by control valve 13 and pipeline thereof, injector 3 is three, be arranged on the locular wall of cooling chamber 1 in triangular symmetrical layout, its spout is opened to cooled device 2, forms heat sink; Temperature sensor 4 is arranged on cooled device 2, be electrically connected by the input of wire with temperature control circuit 22, the output of temperature control circuit 22 is electrically connected with control valve 13, air compressor motor 19, refrigeration compressor motor 20, blower motor 21, composition temperature-controlled portion; Cooling chamber 1 is arranged on the periphery of cooled device 2, with cooled device hermetically-sealed construction.Power switch 23 closes, power supply is connected, fluid-delivery valve 11 is opened, liquid carbon dioxide in fluid reservoir 10 enters in preheating can 12, after cooled device 2 starts, when surface temperature rises to settings (being generally arranged on 60 DEG C), temperature sensor 4 is opened by temperature control circuit 22 drive control valve 13, air compressor motor 19 is driven to be with engine-driven air compressor 9 to operate, refrigeration compressor motor 20 is driven to drive refrigeration compressor 14 to operate, blower motor 21 is driven to drive blower fan 18 to operate, liquid carbon dioxide in preheating can 12 sprays to the surface of cooled device with mist state through injector 3, the carbon dioxide of mist state absorbs rapidly heat that cooled device distributes and gasifies, reach the object of cooling cooled device.

Impeller mechanism 5 is arranged on the power output shaft of cooled device 2, and its inlet end is connected by the exhaust outlet of pipeline with cooling chamber 1, and its exhaust end is connected by the air inlet of pipeline with surge chamber 6, forms step-up system.The heat of the carbon dioxide absorption cooled device 2 of mist state and after gasifying, volumetric expansion, pressure increase, by pipeline from inlet end discharged to impeller mechanism 5 of the exhaust outlet of cooling chamber 1, after equipment operation, be arranged on the impeller on cooled device 2 power output shaft and equipment constant speed rotation in the same way, after gases at high pressure enter, boosting reinforcement can be carried out, by energy supposition in the Power output of cooled device 2 to impeller.

The air inlet of surge chamber 6 is connected by the exhaust end of pipeline with impeller mechanism 5, the exhaust outlet of surge chamber 6 is connected by the inlet end of pipeline with air-cooled case 7, the exhaust end of air-cooled case 7 is connected with cooling tank 8 by pipeline, the outside of cooling tank 8 is covered with heat-insulation layer, be connected with fluid reservoir 10 by air compressor 9 and pipeline, condenser 15 installs around the outside at preheating can 12, evaporimeter 17 is arranged in cooling tank 8, one end of condenser 15 is connected by the output of pipeline with refrigeration compressor 14, the other end is connected with evaporimeter 17 by flow controller 16 and pipeline, the other end of evaporimeter 17 is connected by the input end of pipeline with refrigeration compressor 14, form liquefaction reduction apparatus.Due to the running of air compressor 9, after the carbon dioxide pressure release entered in surge chamber 6 is stablized, enter air-cooled case 7 again, by blower fan 18, wind cooling temperature lowering is carried out to it, enter again after wind cooling temperature lowering in cooling tank 8, carry out strong cold cooling by evaporimeter 17 to it, the volume height of the carbon dioxide after strong cold cooling concentrates, then is pressed in fluid reservoir 10 by air compressor 9 and carries out liquefaction reduction.

Condenser 15 installs around the outside at preheating can 12, evaporimeter 17 is arranged in cooling tank 8, this technical combinations mode, the heat that cooling tank 8 can be exchanged when cooled carbon dioxide gas, the liquid carbon dioxide entered in preheating can 12 is heated, the low temperature of the liquid carbon dioxide entering preheating can 12 is exchanged in cooling tank 8 simultaneously, cold and hotly to utilize each other, improve refrigerating efficiency, reduce refrigeration system energy consumption.

Claims

1. one kind has the carbone dioxide cooling device of reinforcement function, be made up of heat sink, cooling chamber, step-up system, liquefaction reduction apparatus and temperature-controlled portion, power unit, it is characterized in that: the outside of fluid reservoir (10) is covered with heat-insulation layer, be connected with preheating can (12) by fluid-delivery valve (11) and pipeline thereof, preheating can (12) is connected with injector (3) by control valve (13) and pipeline thereof, injector (3) is arranged on the locular wall of cooling chamber (1), its spout is opened to cooled device (2), forms heat sink;

Impeller mechanism (5) is arranged on the power output shaft of cooled device (2), its inlet end is connected by the exhaust outlet of pipeline with cooling chamber (1), exhaust end is connected by the air inlet of pipeline with surge chamber (6), forms step-up system;

The air inlet of surge chamber (6) is connected by the exhaust end of pipeline with impeller mechanism (5), exhaust outlet is connected by the inlet end of pipeline with air-cooled case (7), the exhaust end of air-cooled case (7) is connected with cooling tank (8) by pipeline, the outside of cooling tank (8) is covered with heat-insulation layer, be connected with fluid reservoir (10) by air compressor (9) and pipeline, condenser (15) installs around the outside in preheating can (12), evaporimeter (17) is arranged in cooling tank (8), one end of condenser (15) is connected by the output of pipeline with refrigeration compressor (14), the other end is connected with evaporimeter (17) by flow controller (16) and pipeline, the other end of evaporimeter (17) is connected by the input of pipeline with refrigeration compressor (14), form liquefaction reduction apparatus,

Temperature sensor (4) is arranged on cooled device (2), be electrically connected by the input of wire with temperature control circuit (22), the output of temperature control circuit (22) is electrically connected with control valve (13), air compressor motor (19), refrigeration compressor motor (20), blower motor (21), composition temperature-controlled portion;

Temperature control circuit (22), fluid-delivery valve (11) are electrically connected with power switch (23), composition power unit.

2. the carbone dioxide cooling device with reinforcement function according to claim 1, is characterized in that: cooling chamber (1) is arranged on the periphery of cooled device (2), with cooled device hermetically-sealed construction.

3. the carbone dioxide cooling device with reinforcement function according to claim 1, is characterized in that: injector (3) is three, is arranged on the locular wall of cooling chamber (1) in triangular symmetrical layout.

4. the carbone dioxide cooling device with reinforcement function according to claim 1, it is characterized in that: from fluid reservoir (10), through preheating can (12), injector (3), cooling chamber (1), impeller mechanism (5), surge chamber (6), air-cooled case (7), cooling tank (8), air compressor (9) and relevant valve body, return fluid reservoir (10), connected by pipeline, form carbon dioxide to be atomized by liquid state, endothermic gasification, acting, to the closed circulation of liquefaction reduction.