CN201517485U - Energy-saving heat exchange equipment generating hot water via afterheat of air compressor - Google Patents
Energy-saving heat exchange equipment generating hot water via afterheat of air compressor Download PDFInfo
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- CN201517485U CN201517485U CN2009201935646U CN200920193564U CN201517485U CN 201517485 U CN201517485 U CN 201517485U CN 2009201935646 U CN2009201935646 U CN 2009201935646U CN 200920193564 U CN200920193564 U CN 200920193564U CN 201517485 U CN201517485 U CN 201517485U
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- air compressor
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Abstract
The utility model relates to energy-saving heat exchange equipment, in particular to energy-saving heat exchange equipment generating hot water via the afterheat of an air compressor. The heat exchange equipment comprises an air compressor, a thermal energy conversion machine and a circulation water tank, wherein a hydraulic fluid port of a radiator in the air compressor is connected with the thermal energy conversion machine to form a circulating oil circuit, a vent hole of the radiator in the air compressor is connected with the thermal energy conversion machine to form a circulating air passage, and the thermal energy conversion machine is connected with a water gap of the circulation water tank to form a circulating waterway. When the structure is adopted, the utility model can recover the afterheat for heating, and provides enterprises' employees with domestic hot water, industrial water, constant temperature hot water below 65 DGE C, hot water air conditioning, etc., thereby solving the long-standing economic burden of the enterprises with respect to the use of hot water, prolonging the service life of the air compressor, reducing the running cost, saving the manufacturing cost of hot water, alleviating the work load of a dryer, and achieving the purpose of power conservation, energy conservation, abrasion reduction and service life extension of air compressors and dryers.
Description
Technical field:
The utility model relates to a kind of energy-saving heat-exchange equipment, refers in particular to the energy-saving heat-exchange equipment that a kind of residual heat of air compressor produces hot water.
Background technique:
The application of China's air compressor is very extensive at present, because the air compressor of a large amount of electronics and light industry all is to adopt internally air-cooled structure, if pure employing water-cooling pattern, air compressor produces a large amount of waste heats when work, all be discharged in the past and do not utilize this heat energy in the air, caused operation cost height and environmental pollution on the contrary by radiator and radiation fan.
Design the energy-saving heat-exchange equipment that a residual heat of air compressor produces hot water in person for this reason, this equipment can produce a large amount of heat recovery in heating with air compressor when working, become enterprise staff domestic hot-water, industrial water, hot water constant temperature water, hot-water air-conditioning etc. below 65 ℃, thereby solved enterprise for using the long-term economic burden of hot water.
The model utility content:
Technical problem to be solved in the utility model is exactly in order to overcome the deficiency of present product, and a kind of power saving, energy-conservation, energy-saving heat-exchange equipment that residual heat of air compressor that reduce wearing and tearing, life-saving produces hot water are provided.
For solving the problems of the technologies described above, the utility model has adopted following technological scheme: the energy-saving heat-exchange equipment that this residual heat of air compressor produces hot water comprises: air compressor, heat energy converting machine, cyclic water tank, the hydraulic fluid port of radiator and heat energy converting machine connect into circulating oil path in the air compressor, the gas port of radiator and heat energy converting machine connect into the circulation gas circuit in the air compressor, and the mouth of a river of heat energy converting machine and cyclic water tank connects into circulation waterway.
Described energy-saving heat-exchange equipment also comprises heat-insulating water tanks, and heat-insulating water tanks is connected with cyclic water tank with the insulation pipe fitting by hot water pump.
In the described cyclic water tank temperature control sensor is housed.
First water level sensor is housed in the described cyclic water tank.
Tap water water intake, first sewage draining exit are housed on the described cyclic water tank.
Second water level sensor is housed in the described heat-insulating water tanks.
Hot water inlet, hot-water outlet, second sewage draining exit are housed on the described heat-insulating water tanks.
Described heat energy converting machine is provided with the controller of control air compressor, hot water pump, temperature control sensor, first water level sensor, second water level sensor.
Described heat energy converting machine adopts composite material to be made.
After the utility model adopted said structure, it had the following advantages:
1, the utility model can for enterprise staff provides domestic hot-water, industrial water, hot water constant temperature water, hot-water air-conditioning etc. below 65 ℃, thereby solve enterprise for using the long-term economic burden of hot water with heat recovery in heating.
2, the utility model can prolong the life-span of air compressor, reduces operating cost, saves the cost of production of hot water.
3, the utility model has reduced the working load of dryer, reaches air compressor and dryer power saving, energy-conservation, the purpose that reduces wearing and tearing, life-saving.
4, energy-conservation, the cleaning of the utility model, environmental protection have bigger economic benefit and social benefit.
Description of drawings:
Fig. 1 is a schematic representation of the present utility model.
The primary component explanation:
1 air compressor; 11 radiators; 2 heat energy converting machines; 3 cyclic water tanks; 31 tap water water intakes; 32 first sewage draining exits; 4 heat-insulating water tankss; 41 hot water inlets; 42 hot-water outlets; 43 second sewage draining exits; 5 overheated water pumps; 6 temperature control sensors; 7 first water level sensors; Water level sensor on 71 first; 72 first middle water level inductors; 73 first times water level sensors; 8 second water level sensors; Water level sensor on 81 second; 82 second middle water level inductors; Go up water level sensor 83 second times; 9 controllers.
Embodiment:
Below in conjunction with accompanying drawing the utility model is further described:
See shown in Figure 1ly, the utility model comprises: air compressor 1, heat energy converting machine 2, cyclic water tank 3, heat-insulating water tanks 4.
Particularly:
The hydraulic fluid port of radiator 11 and heat energy converting machine 2 connect into circulating oil path in the above-mentioned air compressor 1, and the gas port of radiator 11 and heat energy converting machine 2 connect into the circulation gas circuit in the air compressor 1, and heat energy converting machine 2 connects into circulation waterway with the mouth of a river of cyclic water tank 3.Heat-insulating water tanks 4 is connected with cyclic water tank 3 with the insulation pipe fitting by hot water pump 5.Temperature control sensor 6 is housed in the cyclic water tank 3.First water level sensor 7 is housed in the cyclic water tank 3, and this first water level sensor 7 comprises: 72, the first times water level sensors 73 of water level sensor 71, the first middle water level inductors on first.Tap water water intake 31, first sewage draining exit 32 are housed on the cyclic water tank 3.Second water level sensor 8 is housed in the heat-insulating water tanks 4, and this second water level sensor 8 comprises: water level sensor 81 on second, the second middle water level inductor 82, go up water level sensor 83 second time.Hot water inlet 41, hot-water outlet 42, second sewage draining exit 43 are housed on the heat-insulating water tanks 4.
Above-mentioned heat energy converting machine 2 is provided with the controller 9 of control air compressor 1, hot water pump 5, temperature control sensor 6, first water level sensor 7, second water level sensor 8, controller 9 is connected with air compressor 1, hot water pump 5, temperature control sensor 6, first water level sensor 7, second water level sensor 8 by transmission line, thus radiator 11 work of control air compressor 1 inside and the normal operation of assurance air compressor 1.Air compressor 1 can be slide plate, vortex, screw-rod air compressor 1.
When the radiation fan in the air compressor 1 or radiator 11 are reduced under 80~83 ℃ of appropriate condition and will stop using automatically at oil temperature, temperature, simultaneously can cool off the gas that air compressor 1 generates, reduce the working load of dryer, reached air compressor 1 and dryer power saving, energy-conservation, the purpose that reduces wearing and tearing, life-saving.
Controller 9 detects the water temperature of cyclic water tank 3 by control temperature control sensor 6, thereby controls the proper functioning and the heat recovery work of air compressor 1.When the water temperature of cyclic water tank 3 reaches the temperature of design, radiator 11 work of SC sigmal control air compressor 1 inside of sending by temperature control sensor 6, open radiator 11, close the oil circuit, the gas circuit valve that enter heat energy converting machine 2, guarantee the normal operation of air compressor 1; Detect the water temperature of cyclic water tanks 3 owing to use and after cold water replenishes reduction, close radiator 11 when temperature control sensor 6, open oil circuit, the gas circuit valve of heat energy converting machine 2, carry out heat recovery work by heat energy converting machine 2 by controller 9.Like this by the work of control controller 9 control air compressors 1 and hot water pump 5, just can produce endlessly hot water for the needs of life and production.
Above-mentioned heat energy converting machine 2 adopts high temperature resistant, high heat, high-heat-conductive composite material to be made, and so just can realize the purpose that heat exchange efficiency is high.
Certainly, the above only is the utility model example, be not to limit the utility model practical range, all equivalences of doing according to the described structure of the utility model claim, feature and principle change or modify, and all should be included in the utility model claim.
Claims (9)
1. a residual heat of air compressor produces the energy-saving heat-exchange equipment of hot water, it is characterized in that: it comprises: air compressor (1), heat energy converting machine (2), cyclic water tank (3), the hydraulic fluid port and the heat energy converting machine (2) of radiator (11) connect into circulating oil path in the air compressor (1), the gas port and the heat energy converting machine (2) of radiator (11) connect into the circulation gas circuit in the air compressor (1), and heat energy converting machine (2) connects into circulation waterway with the mouth of a river of cyclic water tank (3).
2. residual heat of air compressor according to claim 1 produces the energy-saving heat-exchange equipment of hot water, and it is characterized in that: it also comprises heat-insulating water tanks (4), and heat-insulating water tanks (4) is connected with cyclic water tank (3) with the insulation pipe fitting by hot water pump (5).
3. residual heat of air compressor according to claim 2 produces the energy-saving heat-exchange equipment of hot water, it is characterized in that: temperature control sensor (6) is housed in the described cyclic water tank (3).
4. residual heat of air compressor according to claim 3 produces the energy-saving heat-exchange equipment of hot water, it is characterized in that: first water level sensor (7) is housed in the described cyclic water tank (3).
5. residual heat of air compressor according to claim 4 produces the energy-saving heat-exchange equipment of hot water, it is characterized in that: tap water water intake (31), first sewage draining exit (32) are housed on the described cyclic water tank (3).
6. residual heat of air compressor according to claim 5 produces the energy-saving heat-exchange equipment of hot water, it is characterized in that: second water level sensor (8) is housed in the described heat-insulating water tanks (4).
7. residual heat of air compressor according to claim 6 produces the energy-saving heat-exchange equipment of hot water, it is characterized in that: hot water inlet (41), hot-water outlet (42), second sewage draining exit (43) are housed on the described heat-insulating water tanks (4).
8. residual heat of air compressor according to claim 7 produces the energy-saving heat-exchange equipment of hot water, it is characterized in that: described heat energy converting machine (2) is provided with the controller (9) of control air compressor (1), hot water pump (5), temperature control sensor (6), first water level sensor (7), second water level sensor (8).
9. produce the energy-saving heat-exchange equipment of hot water according to any described residual heat of air compressor of claim 1~8, it is characterized in that: described heat energy converting machine (2) adopts composite material to be made.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009201935646U CN201517485U (en) | 2009-08-27 | 2009-08-27 | Energy-saving heat exchange equipment generating hot water via afterheat of air compressor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2009201935646U CN201517485U (en) | 2009-08-27 | 2009-08-27 | Energy-saving heat exchange equipment generating hot water via afterheat of air compressor |
Publications (1)
Publication Number | Publication Date |
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CN201517485U true CN201517485U (en) | 2010-06-30 |
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CN2009201935646U Expired - Fee Related CN201517485U (en) | 2009-08-27 | 2009-08-27 | Energy-saving heat exchange equipment generating hot water via afterheat of air compressor |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104454463A (en) * | 2014-12-18 | 2015-03-25 | 天津恒吉压缩机技术有限公司 | Air compressor cooling box |
CN110762899A (en) * | 2019-01-24 | 2020-02-07 | 中船第九设计研究院工程有限公司 | Heat preservation pond and holding water box joint water supply pipeline system |
CN112253427A (en) * | 2020-10-24 | 2021-01-22 | 江西智奇压缩机有限公司 | Heat energy recovery device for air compressor |
-
2009
- 2009-08-27 CN CN2009201935646U patent/CN201517485U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104454463A (en) * | 2014-12-18 | 2015-03-25 | 天津恒吉压缩机技术有限公司 | Air compressor cooling box |
CN110762899A (en) * | 2019-01-24 | 2020-02-07 | 中船第九设计研究院工程有限公司 | Heat preservation pond and holding water box joint water supply pipeline system |
CN112253427A (en) * | 2020-10-24 | 2021-01-22 | 江西智奇压缩机有限公司 | Heat energy recovery device for air compressor |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20100630 Termination date: 20130827 |