CN103267386B - A kind of consumption-free heat source system - Google Patents

A kind of consumption-free heat source system Download PDF

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Publication number
CN103267386B
CN103267386B CN201310177514.XA CN201310177514A CN103267386B CN 103267386 B CN103267386 B CN 103267386B CN 201310177514 A CN201310177514 A CN 201310177514A CN 103267386 B CN103267386 B CN 103267386B
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China
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pressure
compressed air
connected
consumption
heat source
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CN201310177514.XA
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Chinese (zh)
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CN103267386A (en
Inventor
陶荣
李岱华
王东佫
唐恩强
陶俊霖
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沈阳东朝红革仪器仪表有限公司
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Abstract

A kind of consumption-free heat source system, comprises photoelectric conversion device, electronic aerogenesis apparatus, compressed air storage device, air release stable-pressure device, compressor, evaporimeter, condenser, expansion valve, end-equipment, expansion tank, immersible pump, water source treatment facility, backfill water treatment facilities, gas converting power device, Wind resource change blowing plant, wind-force receiving system, circulating pump; Wherein: photoelectric conversion device is connected with compressed air storage device by electronic aerogenesis apparatus; Wind-force receiving system is connected with compressed air storage device by Wind resource change blowing plant; Compressed air storage device is connected with gas converting power device by air release stable-pressure device, and gas converting power device is connected with compressor, and condenser is connected with end-equipment, and immersible pump is connected with water source treatment facility.Advantage of the present invention: for housing heating, refrigeration, really solves without electricity, without fuel, free of contamination safety temperature adjusting problem.

Description

A kind of consumption-free heat source system

Technical field

The present invention relates to for warm refrigeration system, particularly a kind of consumption-free heat source system.

Background technology

In current heat supply in winter cooling in summer equipment, the chemical energy generally adopting electric energy or coal burning to produce realizes, and the at substantial energy, causes environmental pollution simultaneously.In order to energy-saving and emission-reduction, protection of the environment, needs to carry out perfect to the system for warm refrigeration.

Summary of the invention

The object of the invention is to realize economize energy, decreasing pollution in heating and refrigeration plant, spy provides a kind of consumption-free heat source system.

The invention provides a kind of consumption-free heat source system, it is characterized in that: described consumption-free heat source system, comprise photoelectric conversion device 1, electronic aerogenesis apparatus 2, compressed air storage device 3, air release stable-pressure device 4, compressor 5, evaporimeter 6, condenser 7, expansion valve 8, the first end-equipment 9, second end-equipment 10, expansion tank 11, immersible pump 12, water source treatment facility 13, backfill water treatment facilities 14, gas converting power device 15, Wind resource change blowing plant 16, wind-force receiving system 17, circulating pump 18;

Wherein: photoelectric conversion device 1 is connected with compressed air storage device 3 by electronic aerogenesis apparatus 2; Wind-force receiving system 17 is connected with compressed air storage device 3 by Wind resource change blowing plant 16; Compressed air storage device 3 is connected with gas converting power device 15 by air release stable-pressure device 4, gas converting power device 15 is connected with compressor 5, compressor 5 respectively evaporimeter 6 is connected with condenser 7, expansion valve 8 is installed between evaporimeter 6 and condenser 7, condenser 7 is connected with the first end-equipment 9 and the second end-equipment 10 respectively, between the delivery port of the first end-equipment 9 and the second end-equipment 10 and the water inlet of condenser, circulating pump 18 is installed, immersible pump 12 is connected with water source treatment facility 13, and backfill water treatment facilities 14 are connected with evaporimeter 6.

Described electronic aerogenesis apparatus 2 drives crankshaft rotating, drive link for direct current generator, promotes piston movement, the compressed-air actuated device of output.

Described Wind resource change blowing plant 16 drives crankshaft rotating for wind-force receiving system 17, and drivening rod promotes piston movement, the compressed-air actuated device of output.

Described air release stable-pressure device 4 inside is with pressure-regulating valve and vacuum tank, and the structure of pressure-regulating valve comprises output wireway 401, valve body top 402, chock flap 403, input wireway 404, pressure adjustment knob 405, brute spring 406, pressure piston 407, valve body lower portion 408, valve body Connection Block 409;

Compressed air injects in valve body top 402 by inputting wireway 404, because the pressure in vacuum tank is normal pressure, pressure piston 407 is under the effect of brute spring 406, chock flap 403 is opening, and therefore compressed air continuously injects in vacuum tank by exporting wireway 401-valve body Connection Block 409 smoothly; Pressure in vacuum tank increases gradually, under simultaneously pressure piston 407 is stressed the effect that raises gradually, also outwards drives chock flap 403 to move gradually; When the pressure in vacuum tank is increased to scheduled pressure value, chock flap 403, under the promotion of pressure piston 407, blocks the gas delivery port on valve body top 402, and Compressed Gas circulation is obstructed, and ensures that in vacuum tank, pressure is not increasing; Because gas is all the time in using state, vacuum tank output is discharging with the pressure index of setting always, pressure in vacuum tank also changes thereupon, pressure piston 407 drives chock flap 403, travelling under the situation of pressure change, the compressed air realized through voltage-stabilizing system obtains stable pressure, uses continuously.

Described gas converting power device 15 is air motor.

Described photoelectric conversion device 1 is solar panel shape photovoltaic cell.

Described compressed air storage device 3 is can-like structure.

Described compressed air storage device 3 is the hollow tubular structures for building house.

The first described end-equipment 9 and the second end-equipment 10 are heating installation.

The present invention be with solar energy, wind energy, ground source heat can for Main Resources, by the direct current of photovoltaic cell output, by direct current generator switching kinetics, form compressed-air-storing, through voltage-stabilization control system limitation release compressed air, by air motor switching kinetics, drive the immersible pump of water source extraction system, the compressor of refrigeration system, the circulating pump work of heating system, form real lossless heating technology.

Advantage of the present invention:

Consumption-free heat source system of the present invention, for housing heating, refrigeration, Non-energy-consumption, pollution-free.Be provided with solar panel, wind-force receiving system, power energy storage equipment, gas voltage stabilizer, source immersible pump, compression refrigeration heat-exchange system, house circulating temperature-regulating system; Forming with wind energy, solar energy, ground source heat can for the heating of resource--kind of refrigeration cycle system, really solves without electricity, without fuel, free of contamination safety temperature adjusting problem.

Accompanying drawing explanation

Below in conjunction with drawings and the embodiments, the present invention is further detailed explanation:

Fig. 1 is the overall theory structure schematic diagram of consumption-free heat source system;

Fig. 2 is pressure-regulating valve theory structure schematic diagram.

Detailed description of the invention

Embodiment 1

Present embodiments provide a kind of consumption-free heat source system, it is characterized in that: described consumption-free heat source system, comprise photoelectric conversion device 1, electronic aerogenesis apparatus 2, compressed air storage device 3, air release stable-pressure device 4, compressor 5, evaporimeter 6, condenser 7, expansion valve 8, the first end-equipment 9, second end-equipment 10, expansion tank 11, immersible pump 12, water source treatment facility 13, backfill water treatment facilities 14, gas converting power device 15, Wind resource change blowing plant 16, wind-force receiving system 17, circulating pump 18;

Wherein: photoelectric conversion device 1 is connected with compressed air storage device 3 by electronic aerogenesis apparatus 2; Wind-force receiving system 17 is connected with compressed air storage device 3 by Wind resource change blowing plant 16; Compressed air storage device 3 is connected with gas converting power device 15 by air release stable-pressure device 4, gas converting power device 15 is connected with compressor 5, compressor 5 respectively evaporimeter 6 is connected with condenser 7, expansion valve 8 is installed between evaporimeter 6 and condenser 7, condenser 7 is connected with the first end-equipment 9 and the second end-equipment 10 respectively, between the delivery port of the first end-equipment 9 and the second end-equipment 10 and the water inlet of condenser, circulating pump 18 is installed, immersible pump 12 is connected with water source treatment facility 13, and backfill water treatment facilities 14 are connected with evaporimeter 6.

Described electronic aerogenesis apparatus 2 drives crankshaft rotating, drive link for direct current generator, promotes piston movement, the compressed-air actuated device of output.

Described Wind resource change blowing plant 16 drives crankshaft rotating for wind-force receiving system 17, and drivening rod promotes piston movement, the compressed-air actuated device of output.

Described air release stable-pressure device 4 inside is with pressure-regulating valve and vacuum tank, and the structure of pressure-regulating valve comprises output wireway 401, valve body top 402, chock flap 403, input wireway 404, pressure adjustment knob 405, brute spring 406, pressure piston 407, valve body lower portion 408, valve body Connection Block 409;

Compressed air injects in valve body top 402 by inputting wireway 404, because the pressure in vacuum tank is normal pressure, pressure piston 407 is under the effect of brute spring 406, chock flap 403 is opening, and therefore compressed air continuously injects in vacuum tank by exporting wireway 401-valve body Connection Block 409 smoothly; Pressure in vacuum tank increases gradually, under simultaneously pressure piston 407 is stressed the effect that raises gradually, also outwards drives chock flap 403 to move gradually; When the pressure in vacuum tank is increased to scheduled pressure value, chock flap 403, under the promotion of pressure piston 407, blocks the gas delivery port on valve body top 402, and Compressed Gas circulation is obstructed, and ensures that in vacuum tank, pressure is not increasing; Because gas is all the time in using state, vacuum tank output is discharging with the pressure index of setting always, pressure in vacuum tank also changes thereupon, pressure piston 407 drives chock flap 403, travelling under the situation of pressure change, the compressed air realized through voltage-stabilizing system obtains stable pressure, uses continuously.

Described gas converting power device 15 is air motor.

Described photoelectric conversion device 1 is solar panel shape photovoltaic cell.

Described compressed air storage device 3 is can-like structure.

The first described end-equipment 9 and the second end-equipment 10 are heating installation.

The present embodiment be with solar energy, wind energy, ground source heat can for Main Resources, by the direct current of photovoltaic cell output, by direct current generator switching kinetics, form compressed-air-storing, through voltage-stabilization control system limitation release compressed air, by air motor switching kinetics, drive the immersible pump of water source extraction system, the compressor of refrigeration system, the circulating pump work of heating system, form real lossless heating technology.

Embodiment 2

The present embodiment and embodiment 1 overall structure similar, difference part be:

Described compressed air storage device 3 is the hollow tubular structures for building house, and hollow tubular structures is the general frame in house, sturdy and durable, while storing gas, significantly promotes the overall anti-seismic performance in house.

Claims (9)

1. a consumption-free heat source system, it is characterized in that: described consumption-free heat source system, comprise photoelectric conversion device (1), electronic aerogenesis apparatus (2), compressed air storage device (3), air release stable-pressure device (4), compressor (5), evaporimeter (6), condenser (7), expansion valve (8), first end-equipment (9), second end-equipment (10), expansion tank (11), immersible pump (12), water source treatment facility (13), backfill water treatment facilities (14), gas converting power device (15), Wind resource change blowing plant (16), wind-force receiving system (17), circulating pump (18),
Wherein: photoelectric conversion device (1) is connected with compressed air storage device (3) by electronic aerogenesis apparatus (2), wind-force receiving system (17) is connected with compressed air storage device (3) by Wind resource change blowing plant (16), compressed air storage device (3) is connected with gas converting power device (15) by air release stable-pressure device (4), gas converting power device (15) is connected with compressor (5), compressor (5) respectively evaporimeter (6) is connected with condenser (7), expansion valve (8) is installed between evaporimeter (6) and condenser (7), condenser (7) is connected with the first end-equipment (9) and the second end-equipment (10) respectively, circulating pump (18) is installed between the delivery port of the first end-equipment (9) and the second end-equipment (10) and the water inlet of condenser, immersible pump (12) is connected with water source treatment facility (13), backfill water treatment facilities (14) is connected with evaporimeter (6).
2. according to consumption-free heat source system according to claim 1, it is characterized in that: described electronic aerogenesis apparatus (2) drives crankshaft rotating, drive link for direct current generator, promotes piston movement, the compressed-air actuated device of output.
3. according to consumption-free heat source system according to claim 1, it is characterized in that: described Wind resource change blowing plant (16) is wind-force receiving system (17) drive crankshaft rotating, drivening rod promotes piston movement, the compressed-air actuated device of output.
4. according to consumption-free heat source system according to claim 1, it is characterized in that: described air release stable-pressure device (4) is inner with pressure-regulating valve and vacuum tank, the structure of pressure-regulating valve comprises output wireway (401), valve body top (402), chock flap (403), input wireway (404), pressure adjustment knob (405), brute spring (406), pressure piston (407), valve body lower portion (408), valve body Connection Block (409);
Compressed air injects in valve body top (402) by inputting wireway (404), because the pressure in vacuum tank is normal pressure, pressure piston (407) is under the effect of brute spring (406), chock flap (403) is opening, and therefore compressed air continuously injects in vacuum tank by exporting wireway (401)-valve body Connection Block (409) smoothly; Pressure in vacuum tank increases gradually, under simultaneously pressure piston (407) is stressed the effect that raises gradually, also outwards drives chock flap (403) mobile gradually; When the pressure in vacuum tank is increased to scheduled pressure value, chock flap (403) is under the promotion of pressure piston (407), the gas delivery port of blocking valve body top (402), Compressed Gas circulation is obstructed, and ensures that in vacuum tank, pressure no longer increases; Because gas is all the time in using state, vacuum tank output is discharging with the pressure index of setting always, pressure in vacuum tank also changes thereupon, pressure piston (407) drives chock flap (403), travelling under the situation of pressure change, realize obtaining stable pressure through the compressed air of voltage-stabilizing system.
5. according to consumption-free heat source system according to claim 1, it is characterized in that: described gas converting power device (15) is air motor.
6. according to consumption-free heat source system according to claim 1, it is characterized in that: described photoelectric conversion device (1) is solar panel shape photovoltaic cell.
7. according to consumption-free heat source system according to claim 1, it is characterized in that: described compressed air storage device (3) is can-like structure.
8. according to consumption-free heat source system according to claim 1, it is characterized in that: described compressed air storage device (3) is the hollow tubular structures for building house.
9. according to consumption-free heat source system according to claim 1, it is characterized in that: described the first end-equipment (9) and the second end-equipment (10) are heating installation.
CN201310177514.XA 2013-05-15 2013-05-15 A kind of consumption-free heat source system CN103267386B (en)

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CN103267386B true CN103267386B (en) 2015-09-02

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Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3960322A (en) * 1974-12-17 1976-06-01 Ruff John D Solar heat pump
JPS5452850A (en) * 1977-10-03 1979-04-25 Matsushita Electric Ind Co Ltd Solar-heat heat pump
CN1333429A (en) * 2000-08-28 2002-01-30 许忠 Technonical project for converting solar and wind energy into pneumatic energy and combined application
US6484506B1 (en) * 1997-06-18 2002-11-26 York Research Corp. Solar power enhanced combustion turbine power plant and methods
CN2918144Y (en) * 2006-05-09 2007-07-04 袁金余 Self-energy-supplying electric automobile capable of acquiring electric energy from wind energy and light energy
CN200946783Y (en) * 2006-08-18 2007-09-12 支忠 Wind-energy and solar energy complemented large power LED lighting lamp
CN201972868U (en) * 2010-11-23 2011-09-14 陈志军 Solar energy heat-collecting supercharging power generating system
CN202013043U (en) * 2011-03-25 2011-10-19 山东宏力空调设备有限公司 Independent new energy building energy conservation integrated system
CN102839995A (en) * 2011-06-20 2012-12-26 中国科学院工程热物理研究所 Isothermal-isobaric compressed air energy storage system
CN203336875U (en) * 2013-05-15 2013-12-11 沈阳东朝红革仪器仪表有限公司 Lossless heat source system

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3960322A (en) * 1974-12-17 1976-06-01 Ruff John D Solar heat pump
JPS5452850A (en) * 1977-10-03 1979-04-25 Matsushita Electric Ind Co Ltd Solar-heat heat pump
US6484506B1 (en) * 1997-06-18 2002-11-26 York Research Corp. Solar power enhanced combustion turbine power plant and methods
CN1333429A (en) * 2000-08-28 2002-01-30 许忠 Technonical project for converting solar and wind energy into pneumatic energy and combined application
CN2918144Y (en) * 2006-05-09 2007-07-04 袁金余 Self-energy-supplying electric automobile capable of acquiring electric energy from wind energy and light energy
CN200946783Y (en) * 2006-08-18 2007-09-12 支忠 Wind-energy and solar energy complemented large power LED lighting lamp
CN201972868U (en) * 2010-11-23 2011-09-14 陈志军 Solar energy heat-collecting supercharging power generating system
CN202013043U (en) * 2011-03-25 2011-10-19 山东宏力空调设备有限公司 Independent new energy building energy conservation integrated system
CN102839995A (en) * 2011-06-20 2012-12-26 中国科学院工程热物理研究所 Isothermal-isobaric compressed air energy storage system
CN203336875U (en) * 2013-05-15 2013-12-11 沈阳东朝红革仪器仪表有限公司 Lossless heat source system

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