CN103557509B - Intelligent steam generator - Google Patents
Intelligent steam generator Download PDFInfo
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- CN103557509B CN103557509B CN201310425868.1A CN201310425868A CN103557509B CN 103557509 B CN103557509 B CN 103557509B CN 201310425868 A CN201310425868 A CN 201310425868A CN 103557509 B CN103557509 B CN 103557509B
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- steam
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P80/00—Climate change mitigation technologies for sector-wide applications
- Y02P80/10—Efficient use of energy, e.g. using compressed air or pressurized fluid as energy carrier
- Y02P80/15—On-site combined power, heat or cool generation or distribution, e.g. combined heat and power [CHP] supply
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Abstract
The invention discloses an intelligent steam generator. The intelligent steam generator is high in steam generating speed, large in steam generating quantity, capable of achieving steam recycling, easy to operate, fully-intelligent in operation, energy-saving and environmentally friendly and comprises an intelligent control system, a water supplying and atomizing device and a hot steam generating device, wherein the water supplying and atomizing device and the hot steam generating device are connected with the intelligent control system. The hot steam generating device comprises an atomizer (24), an atomizing diverter pipe (25), an steam generating pipe (22), a steam storage container (30) and a steam diverter (29), wherein the atomizer (24) is connected to the atomizing diverter pipe (25), the atomizing diverter pipe (25) is connected to the steam generating pipe (22), and the steam generating pipe (22) is connected to the steam storage container (30). The intelligent steam generator can achieve waste steam bottom filling recycling and avoid superfluous consumption; is energy-saving and environmentally friendly due to an electromagnetic heating mode; avoids potential risks due to high consumption over small supplementation; achieve fully automatic control and convenient operation through single-step setting; achieves cleanliness during the whole process due to the fact that no sediment exists in the device.
Description
Technical field
The present invention relates to steam generator, particularly a kind of intelligent steam generator.
Background technology
Industrial steaming plant, use coal, oil heating, energy consumption is large, and can cause great environmental pollution.If with electrical heating, have that power consumption is large, the problem of the wasting of resources equally.
And existing steaming plant all needs heating water tanks, all there is extremely dangerous potential safety hazard, every ten thousand accident rates are 0.92 according to statistics, and the death rate is 0.76 people, and accident death rate is 82.6%.
Application number be 02234607.4 patent document disclose a kind of steam generator, comprise heater, thin-film electro hot material layer and vapor collection room, its steam supply speed, but be applicable on the small steam such as humidifier, facial vaporizer generator, be not suitable for Large steam and produce equipment.
Application number be 200620009661.1 patent document disclose a kind of electric steam generator, comprise water tank, air chamber, heat-insulation layer, temperature sensor, safety valve, water intaking valve connects water pump, magnetic valve successively, raw vapour chamber is provided with in water tank, water inlet is had under raw vapour chamber, and have electric heater to be connected with attemperating unit, raw top, vapour chamber is connected with steam chest, dividing plate is had between air chamber and water tank, liquid level sensor is provided with in water tank, steam chest top is provided with magnetic valve, and in water tank, liquid level sensor is connected with warning device.Still comprise water tank in this device, there is potential safety hazard.
Summary of the invention
In order to overcome above-mentioned defect, the technical problem to be solved in the present invention is: provide a kind of steam fast, steam production is high, vapor recycle uses, production cost is low, simple to operate, run the intelligent steam generator of full intelligence, energy-conserving and environment-protective.
The present invention is the technical scheme solving the problems of the technologies described above employing: comprise intelligence control system, the confession aquation mist device be connected with intelligence control system respectively and thermalization vapour device.Described thermalization vapour device, comprise atomizer, change mist isocon, change steam pipe, check-valves, steam storage, steam diverter, on being connected to of atomizer mist isocon, change on being connected to of mist isocon steam pipe, changing steam pipe is connected on steam storage, steam storage is provided with steam supply heatproof valve on steam ports, and steam supply heatproof valve is connected on the admission heatproof valve of steam diverter by steam supply pipe.
Described steam diverter is provided with an admission heatproof valve and many shunting steam supply heatproof valves, each shunting steam supply heatproof valve is connected on many shunting vapour switches by respective steam supply pipe, shunting vapour switch is arranged on steam operative installations, the each bar steam supply pipe being connected with many shunting vapour switches is all connected on return tube, and return tube is connected on back-steam check-valves; Bottom steam diverter, sewage draining valve is installed.
The internal diameter of describedization steam pipe and number will be determined according to intelligent steam generator producing steam amount, and join that corresponding every bar steam pipe is divided into upper, middle and lower three joint for aquation mist device, often save and suitable for readingly all check-valves is installed, three joints are connected, often saves and a solenoid is all installed.
Described intelligence control system, comprises and controls electronic integration block, for steam flow inductor, time steam flow inductor, temperature inductor, pressure inductor, steam moisture inductor, electromagnetic generator, solenoid, display Pressure gauge, safety lock valve, water regulator, water supply electromagnetic valve, back-steam magnetic valve, electromagnetism water level self-control valve, starting valve.
Described control electronic integration block, comprises temperature sensor, pressure sensor, steam moisture sensor, for steam flow sensor, returns steam flow sensor and electric switch etc.
Described temperature inductor is connected on temperature sensor, and temperature inductor is arranged on steam storage; Described pressure inductor is connected on pressure sensor, and pressure inductor is arranged on steam storage; Described steam moisture inductor is connected on steam moisture sensor, and steam moisture inductor is arranged on steam supply heatproof valve and supplies on the steam supply pipe between steam flow inductor; Described being connected to for steam flow inductor supplies on steam flow sensor, is arranged on steam moisture inductor and starts on the steam supply pipe between pipe for steam flow inductor; Described time steam flow inductor is connected to back on steam flow sensor, returns steam flow inductor and is arranged on back-steam magnetic valve and starts on the return tube between pipe; Described electromagnetic generator has three components and is not connected on the solenoid of three groups, and three groups of solenoids are arranged on each bar steam pipe upper, middle and lower three joint respectively; Described display Pressure gauge is arranged on steam storage and steam diverter respectively, for providing digital information when levelling electronic integration block conversion ratio provides digital information and just opens; Described safety lock valve is arranged on steam storage; Described water supply electromagnetic valve is arranged on the feed pipe between water regulator and atomizer; Described back-steam magnetic valve is arranged on back on the return tube between steam flow inductor and atomizer; Described electromagnetism water level self-control valve is arranged on water source tube and water storage box, for controlling the water level of water storage box; Described starting valve is arranged on and starts in the middle of pipe, starts pipe two and is connected to on the steam supply pipe between steam flow inductor and admission heatproof valve, and return on the return tube between steam flow inductor and back-steam check-valves.
Described for aquation mist device, comprise water storage box, feed pipe, atomizer, return tube, feed pipe, water storage box top is provided with electromagnetism water level self-control valve, bottom is provided with sewage draining valve, service water outlet to be welded on bottom water storage box slightly eminence, and service water outlet is connected on feed pipe, and feed pipe is connected on water regulator, water regulator is connected on water supply electromagnetic valve by feed pipe, and water supply electromagnetic valve is connected on atomizer by feed pipe;
Described atomizer is connected on back-steam magnetic valve by return tube, back-steam magnetic valve is connected to back on steam flow inductor by return tube, returning steam flow inductor is connected on back-steam check-valves by return tube, is connected on each bar steam supply pipe by return tube with back-steam check-valves.
The invention has the beneficial effects as follows:
1, energy-conservation: waste vapour fills out end reuse; No consumption, without supplementing, does not have unnecessary consumption; Utilize Electromagnetic Heating.
2, safety: change steam pipe diameter and do not surpass 10 centimeters, change vapour for three grades: jointization vapour under change steam pipe, middle joint steam, pressure, temperature, the humidity of upper joint steam regulation, pressure, temperature are directly controlled by change steam pipe, consume how many, how much mend, there is not potential safety hazard.
3, environmental protection: heating common oil, coal, electricity three kinds, oil, coal environmental pollution are well-known, electrical heating, and self generation heat can not all turn passes to the thing that is heated, and waste heat diffusion couple ambient room temperature also has impact.Solenoid heating does not produce self heat, only to the raw magnetic field heating of the produce that are heated, so also want environmental protection than electrical heating.
4, easy: open operation is simple and practical, once set, full Based Intelligent Control is run, and is adjusted to the normal generation steam that runs only needs 3--5 minute from unlatching fully-automatic intelligent.
5, clean: running gear does not exist sediment, and water is through water storage box sinking, and water consumption is few, circulation is fast, and magnetic field heating steam pipe does not produce dirt of forming sediment, and aquatic microorganisms is emptying in time by steam diverter.
Accompanying drawing explanation
Intelligent steam generator of the present invention is illustrated below in conjunction with accompanying drawing.
This accompanying drawing is the structural representation of intelligent steam generator.
In figure: 1, control electronic integration block, 2, for steam flow inductor, 3, return steam flow inductor, 4, temperature inductor, 5, pressure inductor, 6, steam moisture inductor, 7, electromagnetic generator, 8, display Pressure gauge, 9, safety lock valve, 10, water regulator, 11, water storage box, 12, for steam flow sensor, 13, return steam flow sensor, 14, temperature sensor, 15, pressure sensor, 16, steam moisture sensor, 17, solenoid, 18, electromagnetism water level self-control valve, 19, water supply electromagnetic valve, 20, back-steam magnetic valve, 21, electric switch, 22, change steam pipe, 23, check-valves, 24, atomizer, 25, change mist isocon, 26, sewage draining valve, 27, back-steam check-valves, 28, start heatproof valve, 29, steam diverter, 30, steam storage, 31, admission heatproof valve, 32, shunting steam supply heatproof valve, 33, steam supply heatproof valve, 34, shunting vapour switch, 35, use steam unit.
Detailed description of the invention
As shown in drawings, intelligent steam generator of the present invention comprises intelligence control system, the confession aquation mist device be connected with intelligence control system respectively and thermalization vapour device.
Described intelligence control system, comprises and controls electronic integration block 1, for steam flow inductor 2, time steam flow inductor 3, temperature inductor 4, pressure inductor 5, steam moisture inductor 6, electromagnetic generator 7, solenoid 17, display Pressure gauge 8, safety lock valve 9, water regulator 10, water supply electromagnetic valve 19, back-steam magnetic valve 20, electromagnetism water level self-control valve 18, starting heatproof valve 28.
Described control electronic integration block, comprises temperature sensor 14, pressure sensor 15, steam moisture sensor 16, for steam flow sensor 12, returns steam flow sensor 13 and electric switch 21.
Described temperature inductor 4 is connected on temperature sensor 14, and temperature inductor 14 is arranged on steam storage 30; Described pressure inductor 5 is connected on pressure sensor 15, and pressure inductor 5 is arranged on steam storage 30; Described steam moisture inductor 6 is connected on steam moisture sensor 16, and steam moisture inductor 6 is arranged on steam supply heatproof valve 33 and supplies on the steam supply pipe between steam flow inductor 2; Described being connected to for steam flow inductor 2 supplies on steam flow sensor 12, is arranged on steam moisture inductor 6 and starts on the steam supply pipe between pipe for steam flow inductor 2; Described time steam flow inductor 3 is connected to back on steam flow sensor 13, returns steam flow inductor 3 and is arranged on back-steam magnetic valve 20 and starts on the return tube between pipe; Described electromagnetic generator 7 has three components and is not connected on the solenoid 17 of three groups, and three groups of solenoids are arranged on each bar steam pipe 22 upper, middle and lower three joint respectively; Described display Pressure gauge 8 is arranged on steam storage 30 and steam diverter 29 respectively, for providing digital information when levelling electronic integration block conversion ratio provides digital information and just opens; Described safety lock valve 9 is arranged on steam storage 30; Described water supply electromagnetic valve 19 is arranged on the feed pipe between water regulator 10 and atomizer 24; Described back-steam magnetic valve 20 is arranged on back on the return tube between steam flow inductor 3 and atomizer 24; Described electromagnetism water level self-control valve 18 is arranged on water source tube and water storage box 11, for controlling the water level of water storage box; Described starting heatproof valve 28 is arranged on and starts in the middle of pipe, start pipe two be connected to on the steam supply pipe between steam flow inductor 2 and admission heatproof valve 31, return between steam flow inductor 3 and back-steam check-valves 27 return tube on.
Described thermalization vapour device, comprise atomizer 24, change mist isocon 25, change steam pipe 22, steam storage 30, steam diverter 29, on being connected to of atomizer 24 mist isocon 25, changing mist isocon 25 is connected on each bar steam pipe 22 times joints, every bar steam pipe is divided into upper, middle and lower three joint by three check-valves, change steam pipe 22 saves check-valves to be connected on steam storage 30, steam storage is provided with steam supply heatproof valve 33 on steam ports, steam diverter 29 is provided with admission heatproof valve 31, steam supply heatproof valve 33 is connected on the admission heatproof valve 31 of steam diverter 29 by steam supply pipe.
Described steam diverter 29 is provided with an admission heatproof valve 31 and many shunting steam supply heatproof valves 33, each shunting steam supply heatproof valve 33 is connected on many shunting vapour switches 34 by respective steam supply pipe, shunting vapour switch 34 is arranged on and uses on steam unit 35, the each bar steam supply pipe being connected with many shunting vapour switches is all connected on return tube, and return tube is connected on back-steam check-valves 27; Sewage draining valve 26 is installed bottom steam diverter 29.
Described for aquation mist device, comprise water storage box 11, feed pipe, atomizer 24, return tube, feed pipe, water storage box top is provided with electromagnetism water level self-control valve 18, bottom is provided with sewage draining valve 26, service water outlet to be welded on bottom water storage box 11 slightly eminence, and service water outlet is connected on feed pipe, and feed pipe is connected on water regulator 10, water regulator is connected on water supply electromagnetic valve 19 by feed pipe, and water supply electromagnetic valve is connected on atomizer 24 by feed pipe.
Described atomizer 24 is connected on back-steam magnetic valve 20 by return tube, back-steam magnetic valve is connected to back on steam flow inductor 3 by return tube, returning steam flow inductor is connected on back-steam check-valves 27 by return tube, is connected on each bar steam supply pipe by return tube with back-steam check-valves.
The course of work of intelligent steam generator: water supply electromagnetic valve 19 opened by the electric switch 21 of control electronic integration block 1 and back-steam magnetic valve 20 works, water in water storage box 11 by feed pipe in water regulator 10, controlling water regulator 10 regulating pondage through controlling electronic integration block 1, entering in atomizer 24 through water supply electromagnetic valve 19 with by feed pipe.
Each steam supply pipe is after each use steam unit 35 uses, and the steam in each steam supply pipe all imports in return tube, and steam is entered in atomizer 24 through gland steam exhauster through returning steam flow inductor 3 to back-steam magnetic valve 27 to back-steam check-valves 27 by return tube.
The flowback steam of the interior water with water storage box hydraulic pressure of atomizer 24 and band vapour pressure enters in atomizer 24 simultaneously and carries out mixed aerosol, compressing into mist isocon 25, compress into joint group under every bar steam pipe to heat vaporization by changing the shunting of mist isocon, back down joint group in lower entering of joint group check-valves 23 steam pipe to heat vaporization, back down joint group on entering of joint group check-valves 23 steam pipe to heat vaporization, steam backs down joint group check-valves and enters in steam storage 30, steam enters in steam diverter 29 through steam supply heatproof valve 33 by admission heatproof valve 31, steam enters in each bar steam supply pipe through each shunting steam supply heatproof valve 32, steam uses for steam unit 35 through too much only shunting vapour switch, circulation like this.
Claims (6)
1. an intelligent steam generator, comprise intelligence control system, the confession aquation mist device be connected with intelligence control system respectively and thermalization vapour device, it is characterized in that: described thermalization vapour device, comprise atomizer (24), change mist isocon (25), change steam pipe (22), steam storage (30), steam diverter (29), on atomizer (24) being connected to mist isocon (25), changing mist isocon (25) is connected on each change steam pipe (22), and every steam pipe of only changing is divided into three joints by three check-valves; Changing steam pipe (22) is connected on steam storage (30);
Described intelligence control system, comprises and controls electronic integration block (1), for steam flow inductor (2), time steam flow inductor (3), temperature inductor (4), pressure inductor (5), steam moisture inductor (6), electromagnetic generator (7), solenoid (17), display Pressure gauge (8), safety lock valve (9), water regulator (10), water supply electromagnetic valve (19), back-steam magnetic valve (20), electromagnetism water level self-control valve (18), starting heatproof valve (28);
Described control electronic integration block (1), comprises temperature sensor (14), pressure sensor (15), steam moisture sensor (16), for steam flow sensor (12), returns steam flow sensor (13) and electric switch (21);
Described temperature inductor (4) is connected on temperature sensor (14), and temperature inductor (4) is arranged on steam storage (30); Described pressure inductor (5) is connected on pressure sensor (15), and pressure inductor (5) is arranged on steam storage (30); Described steam moisture inductor (6) is connected on steam moisture sensor (16), and steam moisture inductor (6) is arranged on steam supply heatproof valve (33) and supplies on the steam supply pipe between steam flow inductor (2); Described being connected to for steam flow inductor (2) supplies on steam flow sensor (12), is arranged on steam moisture inductor (6) and starts on the steam supply pipe between pipe for steam flow inductor (2); Described time steam flow inductor (3) is connected to back on steam flow sensor (13), returns steam flow inductor (3) and is arranged on back-steam magnetic valve (20) and starts on the return tube between pipe; The total three components of described electromagnetic generator (7) is not connected on the solenoid (17) of three groups, and three groups of solenoids are arranged on each bar steam pipe (22) respectively; Described display Pressure gauge (8) is arranged on steam storage (30) and steam diverter (29) respectively; Described safety lock valve (9) is arranged on steam storage (30); Described water supply electromagnetic valve (19) is arranged on the feed pipe between water regulator (10) and atomizer (24); Described back-steam magnetic valve (20) is arranged on back on the return tube between steam flow inductor (3) and atomizer (24); Described starting heatproof valve (28) is arranged on starts in the middle of pipe, starts pipe two and is connected to on the return tube on the steam supply pipe between steam flow inductor (2) and admission heatproof valve (31), time between steam flow inductor (3) and back-steam check-valves (27).
2. intelligent steam generator according to claim 1, it is characterized in that: described steam storage (30) is provided with steam supply heatproof valve (33) on steam ports, steam diverter (29) is provided with admission heatproof valve (31), steam supply heatproof valve (33) is connected on the admission heatproof valve (31) of steam diverter (29) by steam supply pipe.
3. intelligent steam generator according to claim 1, it is characterized in that: described steam diverter (29) comprises an admission heatproof valve (31) and many shuntings steam supply heatproof valve (32), and bottom is provided with sewage draining valve (26); Each shunting steam supply heatproof valve (32) is connected on the shunting vapour switch of use steam unit by respective steam supply pipe.
4. intelligent steam generator according to claim 1, is characterized in that: describedization steam pipe (22) often saves and is suitable for readingly all provided with check-valves, and three joints connect, and often save and are all provided with solenoid (17).
5. intelligent steam generator according to claim 1, it is characterized in that: described for aquation mist device, comprise water storage box (11), feed pipe, atomizer (24), return tube, water storage box top is provided with electromagnetism water level self-control valve (18), bottom is provided with sewage draining valve (26), service water outlet is welded on water storage box (11) bottom slightly eminence, service water outlet is connected on feed pipe, feed pipe is connected on water regulator (10), water regulator is connected on water supply electromagnetic valve (19) by feed pipe, water supply electromagnetic valve is connected on atomizer (24) by feed pipe.
6. intelligent steam generator according to claim 1, it is characterized in that: described atomizer (24) is connected on back-steam magnetic valve (20) by return tube, back-steam magnetic valve is connected to back on steam flow inductor (3) by return tube, return steam flow inductor to be connected on back-steam check-valves (27) by return tube, be connected on steam supply pipe by return tube with back-steam check-valves.
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CN201310425868.1A CN103557509B (en) | 2013-09-17 | 2013-09-17 | Intelligent steam generator |
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CN201310425868.1A CN103557509B (en) | 2013-09-17 | 2013-09-17 | Intelligent steam generator |
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CN103557509A CN103557509A (en) | 2014-02-05 |
CN103557509B true CN103557509B (en) | 2015-04-22 |
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CN201310425868.1A Expired - Fee Related CN103557509B (en) | 2013-09-17 | 2013-09-17 | Intelligent steam generator |
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Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN104713063A (en) * | 2015-02-16 | 2015-06-17 | 宁波格林美孚新材料科技有限公司 | Unit combined type steam generating device |
CN104896453A (en) * | 2015-05-13 | 2015-09-09 | 宁波格林美孚新材料科技有限公司 | Integrated electromagnetic induction steam generation system |
CN105125087B (en) * | 2015-09-24 | 2017-12-26 | 思咪乐咖啡设备(北京)有限公司 | A kind of high efficient full automatic steam raising plant |
CN105716063B (en) * | 2016-04-15 | 2017-10-03 | 董道法 | Electromagnetism steam boiler |
CN108561865A (en) * | 2018-04-20 | 2018-09-21 | 青岛中正周和科技发展有限公司 | A kind of solar steam generator of connection tube spacing variation |
CN110107874A (en) * | 2019-06-16 | 2019-08-09 | 佛山市仙机智能科技有限公司 | A kind of dual-purpose steam generator of quick high-temp pneumoelectric |
CN114321864A (en) * | 2022-03-04 | 2022-04-12 | 桐庐巴特斯科技有限公司 | Control method for generating steam with stable quality |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3775379B2 (en) * | 2002-11-25 | 2006-05-17 | 松下電器産業株式会社 | High frequency heating device |
CN201377781Y (en) * | 2009-01-16 | 2010-01-06 | 陈正贤 | Fast steam generator |
CN201462775U (en) * | 2009-06-05 | 2010-05-12 | 倪军 | High-temperature steam generator |
CN103104904A (en) * | 2011-11-13 | 2013-05-15 | 小田(中山)实业有限公司 | Novel steam generator |
CN203099782U (en) * | 2012-12-13 | 2013-07-31 | 叶梦佳 | Steam boiler for ship |
-
2013
- 2013-09-17 CN CN201310425868.1A patent/CN103557509B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3775379B2 (en) * | 2002-11-25 | 2006-05-17 | 松下電器産業株式会社 | High frequency heating device |
CN201377781Y (en) * | 2009-01-16 | 2010-01-06 | 陈正贤 | Fast steam generator |
CN201462775U (en) * | 2009-06-05 | 2010-05-12 | 倪军 | High-temperature steam generator |
CN103104904A (en) * | 2011-11-13 | 2013-05-15 | 小田(中山)实业有限公司 | Novel steam generator |
CN203099782U (en) * | 2012-12-13 | 2013-07-31 | 叶梦佳 | Steam boiler for ship |
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