CN103953968B - Distributed environment-friendly heat-supply system - Google Patents
Distributed environment-friendly heat-supply system Download PDFInfo
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- CN103953968B CN103953968B CN201410124663.4A CN201410124663A CN103953968B CN 103953968 B CN103953968 B CN 103953968B CN 201410124663 A CN201410124663 A CN 201410124663A CN 103953968 B CN103953968 B CN 103953968B
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Abstract
The invention discloses a distributed environment-friendly heat-supply system. The distributed environment-friendly heat-supply system comprises a thermal insulation outer shell and a metal inner shell, wherein the metal inner shell is internally provided with a combustion device, a heating cavity, a fuel tank, a feeding control device, an air inlet control device, a combustion groove temperature sensor and a combustion tank opening and closing device; the heating cavity is filled with circulating water; the heating cavity is connected with a remote radiating device through a plurality of circulating pipelines; an electromagnetic valve and a water pump is arranged at the inlet of each circulating pipeline; the feeding control device, the air inlet control device, the combustion groove temperature sensor, the combustion groove opening and closing device, the electromagnetic valves and the water pumps are connected with a microprocessor; the microprocessor is provided with a wireless local area network communication device; the microprocessor is used for transmitting and displaying temperature data of a combustion device to a computer or mobile terminal equipment through the Internet; the microprocessor is controlled by the computer or the mobile terminal equipment through the Internet. According to the distributed environment-friendly heat-supply system, energy can be reasonably distributed and controlled, and remote monitoring and control can be carried out through the Internet.
Description
Technical field
The present invention relates to a kind of distributed environmental protection heating system.
Background technology
Heating system all has a large amount of use in industrial and mining establishment's heat supply, laboratory insulation and household heating, and it typically uses two ways to carry out, and 1, added hot water by burning natural gas, fire coal or oil plant, and then heat by heating Posterior circle water;2, using air-conditioning to heat, but the former is controlled by each circulation line is busy, therefore in the space without heating also at circulation cooling, the waste energy is relatively big, and it is more that the latter expends electric energy.And above-mentioned heating system all cannot implement long-distance intelligent control, it is impossible to monitor its ruuning situation in real time, and be controlled by.
Summary of the invention
In order to overcome the deficiencies in the prior art, the technical problem to be solved is to provide and a kind of energy can carry out reasonable distribution control and can implement the distributed environmental protection heating system remotely monitoring and controlling.
nullThe technical solution adopted for the present invention to solve the technical problems is: distributed environmental protection heating system,Including lagging casing and integrated metal inner shell,Inner metal shell is provided with burner、Heating chamber、Fuel tank、Feed controls device、Air inlet control device、Burning groove temperature sensor and burning groove headstock gear,Described heating intracavity is with recirculated water,Described heating chamber is in the top of burner,And the flame that burned device produces,Described inner metal shell is separated to form levels by intermediate interlayer,Described heating chamber is in the upper chamber of inner metal shell,Described burner is in the lower cavity of inner metal shell,Heating chamber is connected with heat abstractor at a distance by multiple circulating lines,The porch of each described circulating line is provided with electromagnetic valve and water pump,Described feed controls device、Air inlet control device、Burning groove temperature sensor、Burning groove headstock gear、Electromagnetic valve and water pump are connected with microprocessor,Microprocessor is configured with WLAN communication device,Described microprocessor is connected with the Internet by WLAN communication device,Described microprocessor is transmitted the temperature data of burner by the Internet to computer or mobile terminal device and is shown,Microprocessor is controlled by by described computer or mobile terminal device by the Internet,And then realize feed is controlled the bio-fuel supply of device、The intake of air inlet control device、The switching motion of burning groove headstock gear、The keying of electromagnetic valve and the control of the keying of water pump.
In the present invention, the circulation line in space, specific region can be turned on or off by water pump and electromagnetic valve, thus only heating, heating are implemented in the region needing heating or heating, such that it is able to the saving energy, make the waste gas discharge for producing for warm heating less, pollution to environment is less, it is possible to achieve the purpose of energy-conserving and environment-protective.Additionally the feed controlling burning and display state is controlled device, air inlet control device, burning groove temperature sensor and burning groove headstock gear by the present invention to be connected with microprocessor, the water pump and electromagnetic valve that control circulation line are also connected with microprocessor simultaneously, and be connected on the Internet by WLAN, the equipment such as computer or mobile terminal device is made can remotely to show the state of burner, control its burning
Make people away from family, laboratory and can controlling in real time during work position, facilitate the life of people, work and go on a journey, when the when of the coldest, long journey is gone home, just can start burner by mobile terminal device, warm home environment just can be enjoyed when going back home, or forget when going out to close burner, burner can be closed on the internet by mobile terminal device or computer, and need not again go home to close.Each heat-preserving equipment in laboratory can be implemented personalized temperature by mobile terminal or computer and adjusts, control the heat supply situation of each equipment, grasp the temperature data of each equipment leaving laboratory when by the most such as people.The biomass energy burner based on Internet of Things control that additionally present invention provides uses bio-fuel, such as ethanol in a large number, it is well known that
Ethanol itself is nontoxic, only has carbon dioxide and water after burning, harmless, does not also pollute the environment.
Accompanying drawing explanation
The present invention is further described with embodiment below in conjunction with the accompanying drawings.
Fig. 1 is the attachment structure schematic diagram of the distributed environmental protection heating system that the present invention provides.
Fig. 2 is the structural representation of the distributed environmental protection heating system in Fig. 1.
Detailed description of the invention
nullWith reference to Fig. 1、Shown in Fig. 2,The distributed environmental protection heating system that the present invention provides,Including lagging casing 1 and integrated metal inner shell 2,Integrated metal inner shell 2 under lagging casing 1 wraps up is conducive to the heat produced by burner to be transmitted to heat in the hot water in chamber 3 as far as possible,Heat energy is avoided to lose in a large number,Inner metal shell 2 is provided with burner 4、Heating chamber 3、Fuel tank、Feed controls device 6、Air inlet control device 7、Burning groove temperature sensor 8 and burning groove headstock gear 9,With recirculated water in described heating chamber 3,Heating chamber 3 is in the top of burner 4,And the flame that burned device 4 produces,Described inner metal shell 2 is separated to form levels by intermediate interlayer,Described heating chamber 3 is in the upper chamber of inner metal shell 2,Described burner 4 is in the lower cavity of inner metal shell 2,Heating chamber 3 is connected with heat abstractor at a distance by multiple circulating lines,The porch of each described circulating line is provided with electromagnetic valve 10 and water pump 11,Described feed controls device 6、Air inlet control device 7、Burning groove temperature sensor 8、Burning groove headstock gear 9、Electromagnetic valve 10 and water pump 11 are connected with microprocessor 12,Microprocessor 12 is configured with WLAN communication device 13,Described microprocessor 12 is connected with the Internet by WLAN communication device 13,Described microprocessor 12 is transmitted the temperature data of burner by the Internet to computer or mobile terminal device 14 and is shown,Microprocessor 12 is controlled by by described computer or mobile terminal device 14 by the Internet,And then realize feed is controlled the bio-fuel supply of device 6、The intake of air inlet control device 7、The switching motion of burning groove headstock gear 9、The keying of electromagnetic valve 10 and the control of the keying of water pump 11.In order to make the environment in heating space more comfortable, described heat abstractor is the capillary pipeline being connected with circulation line head and the tail, the body of wall shallow-layer of capillary pipeline embedment building.Owing to capillary pipeline distribution is wider, and combining together with body of wall etc., the heat given out is the most comfortable.
With reference to shown in Fig. 1, Fig. 2, in described inner metal shell 2, next-door neighbour heating chamber 3 and burner 4 are provided with the fresh air channel 15 for introducing natural wind, the exit of fresh air channel 15 is provided with and controls air intake electromagnetic valve 16 and the fan 17 that passage opens and closes, described fresh air channel 15 distance from top to bottom is through the side metal wall of described inner metal shell 2, described air intake electromagnetic valve 16 and fan 17 are connected with microprocessor 12, and described lagging casing 1 is provided with the carbon dioxide induction installation 18 being connected with microprocessor 12.In the present embodiment, carbon dioxide induction installation 18 can be by the gas concentration lwevel information conveyance that senses to microprocessor 12, microprocessor 12 is after comparing, as long as the safety value that gas concentration lwevel exceedes setting can send instruction to the air intake electromagnetic valve 16 in fresh air channel exit and fan 17, air intake electromagnetic valve 16 is opened, fan 17 starts to guide natural wind to enter, owing to fresh air channel 15 distance is through the sidewall of inner metal shell, and burner 4 has substantial amounts of heat to be transmitted to inner metal shell 2 when working, the natural wind making temperature relatively low enters back into the interior space through heating, thus heat energy can be avoided to lose in a large number, also the temperature that can enable indoor keeps consistent.
Claims (3)
- null1. a distributed environmental protection heating system,It is characterized in that: include lagging casing and integrated metal inner shell,Inner metal shell is provided with burner、Heating chamber、Fuel tank、Feed controls device、Air inlet control device、Burning groove temperature sensor and burning groove headstock gear,Described heating intracavity is with recirculated water,Described heating chamber is in the top of burner,And the flame that burned device produces,Described inner metal shell is separated to form levels by intermediate interlayer,Described heating chamber is in the upper chamber of inner metal shell,Described burner is in the lower cavity of inner metal shell,Heating chamber is connected with heat abstractor at a distance by multiple circulating lines,The porch of each described circulating line is provided with electromagnetic valve and water pump,Described feed controls device、Air inlet control device、Burning groove temperature sensor、Burning groove headstock gear、Electromagnetic valve and water pump are connected with microprocessor,Microprocessor is configured with WLAN communication device,Described microprocessor is connected with the Internet by WLAN communication device,Described microprocessor is transmitted the temperature data of burner by the Internet to computer or mobile terminal device and is shown,Microprocessor is controlled by by described computer or mobile terminal device by the Internet,And then realize feed is controlled the bio-fuel supply of device、The intake of air inlet control device、The switching motion of burning groove headstock gear、The keying of electromagnetic valve and the control of the keying of water pump.
- Distributed environmental protection heating system the most according to claim 1, is characterized in that: described heat abstractor is the capillary pipeline being connected with circulation line head and the tail, the body of wall shallow-layer of capillary pipeline embedment building.
- Distributed environmental protection heating system the most according to claim 1 and 2, it is characterized in that: in described inner metal shell, next-door neighbour heating chamber and burner are provided with the fresh air channel for introducing natural wind, the exit of fresh air channel is provided with and controls air intake electromagnetic valve and the fan that passage opens and closes, described fresh air channel distance from top to bottom is through the side metal wall of described inner metal shell, described air intake electromagnetic valve and fan are connected with microprocessor, and described lagging casing is provided with the carbon dioxide induction installation being connected with microprocessor.
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4337619A (en) * | 1981-05-08 | 1982-07-06 | Vapor Energy, Inc. | Hot water system |
CN101373084A (en) * | 2007-08-23 | 2009-02-25 | 上海市张江高科技园区热力有限公司 | System and method for centralized monitoring dispersed boilers |
CN202452538U (en) * | 2011-12-08 | 2012-09-26 | 黄成源 | Anti-overflow fireplace |
CN102759144A (en) * | 2012-07-16 | 2012-10-31 | 天津隆吉散热器有限公司 | Warmer and temperature control method based on internet of things for same |
CN203249304U (en) * | 2013-04-22 | 2013-10-23 | 福州斯狄渢电热水器有限公司 | Geothermal source heating supply system capable of being remotely controlled |
CN203731556U (en) * | 2014-03-31 | 2014-07-23 | 温州爱盟科技有限公司 | Distributive environment-friendly heat supply system |
-
2014
- 2014-03-31 CN CN201410124663.4A patent/CN103953968B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4337619A (en) * | 1981-05-08 | 1982-07-06 | Vapor Energy, Inc. | Hot water system |
CN101373084A (en) * | 2007-08-23 | 2009-02-25 | 上海市张江高科技园区热力有限公司 | System and method for centralized monitoring dispersed boilers |
CN202452538U (en) * | 2011-12-08 | 2012-09-26 | 黄成源 | Anti-overflow fireplace |
CN102759144A (en) * | 2012-07-16 | 2012-10-31 | 天津隆吉散热器有限公司 | Warmer and temperature control method based on internet of things for same |
CN203249304U (en) * | 2013-04-22 | 2013-10-23 | 福州斯狄渢电热水器有限公司 | Geothermal source heating supply system capable of being remotely controlled |
CN203731556U (en) * | 2014-03-31 | 2014-07-23 | 温州爱盟科技有限公司 | Distributive environment-friendly heat supply system |
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