CN105650721A - Interior architecture gas heating device - Google Patents
Interior architecture gas heating device Download PDFInfo
- Publication number
- CN105650721A CN105650721A CN201610100914.4A CN201610100914A CN105650721A CN 105650721 A CN105650721 A CN 105650721A CN 201610100914 A CN201610100914 A CN 201610100914A CN 105650721 A CN105650721 A CN 105650721A
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- parts
- pipe
- shell
- inlet pipe
- interior architecture
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D15/00—Other domestic- or space-heating systems
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D19/00—Details
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Thermal Insulation (AREA)
Abstract
The invention discloses an interior architecture gas heating device which comprises a shell. A heat insulating layer is arranged on the inner wall of the shell, and an air inlet pipe is arranged on the top side wall of the shell in a penetrating mode and provided with a filtering unit and an air blower. An air outlet pipe is arranged on the bottom side wall of the shell in a penetrating mode. A burner is arranged in the shell and connected with a gas inlet pipe penetrating through the shell, a spiral heating pipe and a gas exhaust fan are arranged on the burner, the heating pipe is connected with a smoke exhaust pipe which is provided with a tail gas treatment device, and the gas exhaust fan is provided with a heat insulating hood. The interior architecture gas heating device is simple in design, clean and high in heat energy utilizing rate.
Description
Technical field
The present invention relates to a kind of interior architecture gas burning heater.
Background technology
At present, people in winter are generally by air-conditioning or coal heating. Families with low and middle income is higher with electric energy warming by air conditioner expenditure, it is difficult to bear; Coal heating pollutes the environment, and is also easy to cause carbon monoxide poisoning event. And the combustion gas such as natural gas have been the universal energy, its efficiency is high, clean, convenient, and price is only 1/2nd of electric energy, is the cheap energy of desirable people's heating in winter; But there is presently no suitable simple and easy gas heating utensil.
Current fuel gas heating apparatus, generally by gas-fired heater, is constituted equipped with the heat exchanger of annular-heating comb, aerator and adnexa, and generally adopting the combustion gas such as coal gas, natural gas is fuel. The subject matter existed: one is that efficiency of combustion is not high enough, gas simply heats through over-heat-exchanger and just passes into indoor; Two is when combustion gas water content is excessive, very easily forms incrustation scale blocking pipeline under high temperature; Three is add hot-air filtered to be directly entered indoor, it is easy to cause room air pollution.
Summary of the invention
The technical problem to be solved in the present invention is to provide and a kind of designs simple, cleaning and the high interior architecture gas burning heater of heat utilization rate.
For solving above-mentioned technical problem, the present invention adopts the following technical scheme that
A kind of interior architecture gas burning heater, include shell, described outer casing inner wall is provided with thermal insulation layer, the air inlet pipe being provided through on described cover top portion sidewall, described air inlet pipe is provided with defecator and aerator, the escape pipe being provided through on described outer casing bottom sidewall, described enclosure is provided with burner, described burner is connected with the combustion gas inlet pipe running through shell, described burner is arranged arrange in the shape of a spiral add heat pipe and combustion gas air exhauster, described adding, is connected with smoke exhaust pipe on heat pipe, described smoke exhaust pipe is provided with exhaust gas processing device, being provided with heat shield on described combustion gas air exhauster, described thermal insulation layer is by by the perlite 30 40 parts of parts by weight proportioning, polyvinyl alcohol 20 22 parts, aluminium silicate 18 20 parts, titanium dioxide 20 24 parts, prodan 12 14 parts, 28 30 parts of Linesless charcoal, aluminium dihydrogen phosphate 12 16 parts, stearic acid 18 24 parts, aluminium sesquioxide 16 18 parts, 10 16 parts of magnesium hydroxide, citric acid 18 20 parts, 20 24 parts of polyester fiber, magnesium nitrate 16 20 parts, ammonium acetate 14 16 parts and 20 30 parts of water are made.
Further, described aerator is connected with solar panel, saves the energy.
Further, described air inlet pipe is provided with adjustment valve, is beneficial to adjustment intake velocity.
Further, described shell and the integrated setting of thermal insulation layer, the structure making equipment is compacter and firm.
Further, described air inlet pipe and escape pipe are provided with more than one, improve air inlet and the speed given vent to anger, thus improving work efficiency.
The manufacture method of thermal insulation layer, comprises the following steps:
1) take perlite 30 40 parts and send into pulverizing in jet mill, prepare the granule of 200nm 300nm, add polyvinyl alcohol 20 22 parts and aluminium silicate 18 20 parts, send in blender and stir, standby;
2) taking aluminium silicate 18 20 parts, titanium dioxide 20 24 parts and prodan 12 14 parts, send into blender high speed and stir 10 20min, be re-fed in heater, temperature rises to 60 80 DEG C, continues 30 50min, standby;
3) take 28 30 parts of Linesless charcoal to send into grinding machine for grinding and become powder, add step 2) in the raw material for preparing, send in hermetic container, temperature rises to 100 120 DEG C, continues 12 hours, is cooled to room temperature, standby;
4) taking aluminium dihydrogen phosphate 12 16 parts, stearic acid 18 24 parts and aluminium sesquioxide 16 18 parts, send in heater, temperature is risen to 120 DEG C by 80 DEG C, and heating rate is 2 DEG C/min, when arriving 120 DEG C, then is incubated 2 hours, standby;
5) taking 20 24 parts of polyester fiber to send to and make particle in jet mill, add magnesium nitrate 16 20 parts, ammonium acetate 14 16 parts and 20 30 parts of water, send in reactor, temperature rises to 160 180 DEG C, continues 12 hours, standby;
6) by step 5) in the raw material for preparing send in the drying machine of 300 DEG C, being dried to moisture is 10%, standby;
7) by step 1), step 3), step 4) and step 5) in the raw material for preparing send in blender, stir, add 10 16 parts of magnesium hydroxide and citric acid 18 20 parts, send in melting furnace, temperature rises to 600 800 DEG C, continue 12 hours, prepare fused mass, standby;
8) by step 7) in the fused mass for preparing inject the cast maintenance demoulding in 26 hours in mould, then room temperature maintenance six days, can be prepared by thermal insulation layer.
The invention have the benefit that the design of this interior architecture gas burning heater is simple, by being provided with defecator in air inlet pipe, filter out the impurity in air, improve the quality of air; Smoke exhaust pipe is provided with exhaust gas processing device, it is prevented that the smoke pollution environment of burner discharge; Being provided by spiral helicine adding heat pipe, it is possible to the waste heat in absorption burner, thus transferring heat in air, improve the utilization rate of heat energy; By wall in the enclosure is provided with thermal insulation layer, can prevent from, because device outside wall temperature is excessive, scald accident occurs, improve safety.
Accompanying drawing explanation
Fig. 1 is the structural representation of a kind of interior architecture gas burning heater of the present invention.
Detailed description of the invention
Embodiment one
With reference to shown in Fig. 1, a kind of interior architecture gas burning heater, include shell 1, described shell 1 inwall is provided with thermal insulation layer 2, the air inlet pipe 10 being provided through on the sidewall of described shell 1 top, described air inlet pipe 10 is provided with defecator 11 and aerator 12, the escape pipe 14 being provided through on sidewall bottom described shell 1, described shell 1 is internally provided with burner 4, described burner 4 is connected with the combustion gas inlet pipe 7 running through shell 1, described burner 4 is arranged arrange in the shape of a spiral add heat pipe 8 and combustion gas air exhauster 5, described adding, is connected with smoke exhaust pipe 3 on heat pipe 8, described smoke exhaust pipe 3 is provided with exhaust gas processing device 9, described combustion gas air exhauster 5 is provided with heat shield 6.
Described aerator 12 is connected with solar panel 13, saves the energy.
Described air inlet pipe 10 is provided with adjustment valve (not shown), is beneficial to adjustment intake velocity.
Described shell 1 and the integrated setting of thermal insulation layer 2, the structure making equipment is compacter and firm.
Described air inlet pipe 10 and escape pipe 14 are provided with more than one, improve air inlet and the speed given vent to anger, thus improving work efficiency.
The manufacture method of thermal insulation layer:
1) take perlite 30 parts and send into pulverizing in jet mill, prepare the granule of 200nm, add polyvinyl alcohol 20 parts and aluminium silicate 18 parts, send in blender and stir, standby;
2) taking aluminium silicate 18 parts, titanium dioxide 20 parts and prodan 12 parts, send into blender high speed stirring 10min, be re-fed in heater, temperature rises to 60 DEG C, continues 30min, standby;
3) take 28 parts of Linesless charcoal to send into grinding machine for grinding and become powder, add step 2) in the raw material for preparing, send in hermetic container, temperature rises to 100 DEG C, continues 1 hour, is cooled to room temperature, standby;
4) taking aluminium dihydrogen phosphate 12 parts, stearic acid 18 parts and aluminium sesquioxide 16 parts, send in heater, temperature is risen to 120 DEG C by 80 DEG C, and heating rate is 2 DEG C/min, when arriving 120 DEG C, then is incubated 2 hours, standby;
5) taking 20 parts of polyester fiber to send to and make particle in jet mill, add magnesium nitrate 16 parts, ammonium acetate 14 parts and 20 parts of water, send in reactor, temperature rises to 160 DEG C, continues 1 hour, standby;
6) by step 5) in the raw material for preparing send in the drying machine of 300 DEG C, being dried to moisture is 10%, standby;
7) by step 1), step 3), step 4) and step 5) in the raw material for preparing send in blender, stir, add 10 parts of magnesium hydroxide and citric acid 18 parts, sending in melting furnace, temperature rises to 600 DEG C, continues 1 hour, prepare fused mass, standby;
8) by step 7) in the fused mass for preparing inject the cast maintenance demoulding in 26 hours in mould, then room temperature maintenance six days, can be prepared by thermal insulation layer.
Embodiment two
With reference to shown in Fig. 1, a kind of interior architecture gas burning heater, include shell 1, described shell 1 inwall is provided with thermal insulation layer 2, the air inlet pipe 10 being provided through on the sidewall of described shell 1 top, described air inlet pipe 10 is provided with defecator 11 and aerator 12, the escape pipe 14 being provided through on sidewall bottom described shell 1, described shell 1 is internally provided with burner 4, described burner 4 is connected with the combustion gas inlet pipe 7 running through shell 1, described burner 4 is arranged arrange in the shape of a spiral add heat pipe 8 and combustion gas air exhauster 5, described adding, is connected with smoke exhaust pipe 3 on heat pipe 8, described smoke exhaust pipe 3 is provided with exhaust gas processing device 9, described combustion gas air exhauster 5 is provided with heat shield 6.
Described aerator 12 is connected with solar panel 13, saves the energy.
Described air inlet pipe 10 is provided with adjustment valve (not shown), is beneficial to adjustment intake velocity.
Described shell 1 and the integrated setting of thermal insulation layer 2, the structure making equipment is compacter and firm.
Described air inlet pipe 10 and escape pipe 14 are provided with more than one, improve air inlet and the speed given vent to anger, thus improving work efficiency.
The manufacture method of thermal insulation layer:
1) take perlite 35 parts and send into pulverizing in jet mill, prepare the granule of 250nm, add polyvinyl alcohol 21 parts and aluminium silicate 19 parts, send in blender and stir, standby;
2) taking aluminium silicate 19 parts, titanium dioxide 22 parts and prodan 13 parts, send into blender high speed stirring 15min, be re-fed in heater, temperature rises to 70 DEG C, continues 40min, standby;
3) take 29 parts of Linesless charcoal to send into grinding machine for grinding and become powder, add step 2) in the raw material for preparing, send in hermetic container, temperature rises to 110 DEG C, continues 1.5 hours, is cooled to room temperature, standby;
4) taking aluminium dihydrogen phosphate 14 parts, stearic acid 21 parts and aluminium sesquioxide 17 parts, send in heater, temperature is risen to 120 DEG C by 80 DEG C, and heating rate is 2 DEG C/min, when arriving 120 DEG C, then is incubated 2 hours, standby;
5) taking 22 parts of polyester fiber to send to and make particle in jet mill, add magnesium nitrate 18 parts, ammonium acetate 15 parts and 25 parts of water, send in reactor, temperature rises to 170 DEG C, continues 1.5 hours, standby;
6) by step 5) in the raw material for preparing send in the drying machine of 300 DEG C, being dried to moisture is 10%, standby;
7) by step 1), step 3), step 4) and step 5) in the raw material for preparing send in blender, stir, add 13 parts of magnesium hydroxide and citric acid 19 parts, sending in melting furnace, temperature rises to 700 DEG C, continues 1.5 hours, prepare fused mass, standby;
8) by step 7) in the fused mass for preparing inject the cast maintenance demoulding in 26 hours in mould, then room temperature maintenance six days, can be prepared by thermal insulation layer.
Embodiment three
With reference to shown in Fig. 1, a kind of interior architecture gas burning heater, include shell 1, described shell 1 inwall is provided with thermal insulation layer 2, the air inlet pipe 10 being provided through on the sidewall of described shell 1 top, described air inlet pipe 10 is provided with defecator 11 and aerator 12, the escape pipe 14 being provided through on sidewall bottom described shell 1, described shell 1 is internally provided with burner 4, described burner 4 is connected with the combustion gas inlet pipe 7 running through shell 1, described burner 4 is arranged arrange in the shape of a spiral add heat pipe 8 and combustion gas air exhauster 5, described adding, is connected with smoke exhaust pipe 3 on heat pipe 8, described smoke exhaust pipe 3 is provided with exhaust gas processing device 9, described combustion gas air exhauster 5 is provided with heat shield 6.
Described aerator 12 is connected with solar panel 13, saves the energy.
Described air inlet pipe 10 is provided with adjustment valve (not shown), is beneficial to adjustment intake velocity.
Described shell 1 and the integrated setting of thermal insulation layer 2, the structure making equipment is compacter and firm.
Described air inlet pipe 10 and escape pipe 14 are provided with more than one, improve air inlet and the speed given vent to anger, thus improving work efficiency.
The manufacture method of thermal insulation layer:
1) take perlite 40 parts and send into pulverizing in jet mill, prepare the granule of 300nm, add polyvinyl alcohol 22 parts and aluminium silicate 20 parts, send in blender and stir, standby;
2) taking aluminium silicate 20 parts, titanium dioxide 24 parts and prodan 14 parts, send into blender high speed stirring 20min, be re-fed in heater, temperature rises to 80 DEG C, continues 50min, standby;
3) take 30 parts of Linesless charcoal to send into grinding machine for grinding and become powder, add step 2) in the raw material for preparing, send in hermetic container, temperature rises to 120 DEG C, continues 2 hours, is cooled to room temperature, standby;
4) taking aluminium dihydrogen phosphate 16 parts, stearic acid 24 parts and aluminium sesquioxide 18 parts, send in heater, temperature is risen to 120 DEG C by 80 DEG C, and heating rate is 2 DEG C/min, when arriving 120 DEG C, then is incubated 2 hours, standby;
5) taking 24 parts of polyester fiber to send to and make particle in jet mill, add magnesium nitrate 20 parts, ammonium acetate 16 parts and 30 parts of water, send in reactor, temperature rises to 180 DEG C, continues 2 hours, standby;
6) by step 5) in the raw material for preparing send in the drying machine of 300 DEG C, being dried to moisture is 10%, standby;
7) by step 1), step 3), step 4) and step 5) in the raw material for preparing send in blender, stir, add 16 parts of magnesium hydroxide and citric acid 20 parts, sending in melting furnace, temperature rises to 800 DEG C, continues 2 hours, prepare fused mass, standby;
8) by step 7) in the fused mass for preparing inject the cast maintenance demoulding in 26 hours in mould, then room temperature maintenance six days, can be prepared by thermal insulation layer.
Experimental example
Select embodiment one, embodiment two, the sample of embodiment three and general room building gas combustion apparatus, be divided into 4 groups, respectively organize the behaviour in service of gas combustion apparatus.
Comparing result is shown in following table:
As can be seen here, the interior architecture gas combustion apparatus in three embodiments of the present invention is all obviously improved at programming rate and heat utilization efficiency, and apparatus surface temperature is remarkably decreased compared with building gas combustion apparatus with general room.
The invention have the benefit that the design of this interior architecture gas burning heater is simple, by being provided with defecator in air inlet pipe, filter out the impurity in air, improve the quality of air; Smoke exhaust pipe is provided with exhaust gas processing device, it is prevented that the smoke pollution environment of burner discharge; Being provided by spiral helicine adding heat pipe, it is possible to the waste heat in absorption burner, thus transferring heat in air, improve the utilization rate of heat energy; By wall in the enclosure is provided with thermal insulation layer, can prevent from, because device outside wall temperature is excessive, scald accident occurs, improve safety.
The above, be only the specific embodiment of the present invention, but protection scope of the present invention be not limited thereto, any change expected without creative work or replacement, all should be encompassed in protection scope of the present invention.
Claims (5)
1. an interior architecture gas burning heater, it is characterized in that: include shell, described outer casing inner wall is provided with thermal insulation layer, the air inlet pipe being provided through on described cover top portion sidewall, described air inlet pipe is provided with defecator and aerator, the escape pipe being provided through on described outer casing bottom sidewall, described enclosure is provided with burner, described burner is connected with the combustion gas inlet pipe running through shell, described burner is arranged arrange in the shape of a spiral add heat pipe and combustion gas air exhauster, described adding, is connected with smoke exhaust pipe on heat pipe, described smoke exhaust pipe is provided with exhaust gas processing device, being provided with heat shield on described combustion gas air exhauster, described thermal insulation layer is by by the perlite 30 40 parts of parts by weight proportioning, polyvinyl alcohol 20 22 parts, aluminium silicate 18 20 parts, titanium dioxide 20 24 parts, prodan 12 14 parts, 28 30 parts of Linesless charcoal, aluminium dihydrogen phosphate 12 16 parts, stearic acid 18 24 parts, aluminium sesquioxide 16 18 parts, 10 16 parts of magnesium hydroxide, citric acid 18 20 parts, 20 24 parts of polyester fiber, magnesium nitrate 16 20 parts, ammonium acetate 14 16 parts and 20 30 parts of water are made.
2. interior architecture gas burning heater according to claim 2, it is characterised in that: described aerator is connected with solar panel.
3. interior architecture gas burning heater according to claim 3, it is characterised in that: described air inlet pipe is provided with adjustment valve.
4. interior architecture gas burning heater according to claim 4, it is characterised in that: described shell and the integrated setting of thermal insulation layer.
5. interior architecture gas burning heater according to claim 5, it is characterised in that: described air inlet pipe and escape pipe are provided with more than one.
Priority Applications (1)
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CN201610100914.4A CN105650721A (en) | 2016-02-24 | 2016-02-24 | Interior architecture gas heating device |
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CN201610100914.4A CN105650721A (en) | 2016-02-24 | 2016-02-24 | Interior architecture gas heating device |
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CN201610100914.4A Pending CN105650721A (en) | 2016-02-24 | 2016-02-24 | Interior architecture gas heating device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106895472A (en) * | 2017-02-09 | 2017-06-27 | 武汉轻工大学 | Combustion gas heating air conditioner |
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CN2054880U (en) * | 1989-09-19 | 1990-03-21 | 丁家 | Case type convective combustion heating stove |
CN2083718U (en) * | 1990-12-06 | 1991-08-28 | 刘振欧 | Domestic gas burning hot wind heating device |
CN2398581Y (en) * | 1999-10-22 | 2000-09-27 | 吴万禄 | Environmental protection gas warmer |
CN2450571Y (en) * | 2000-10-16 | 2001-09-26 | 胡万里 | Microcomputerized full-automatic gas air warming fan |
CN2454696Y (en) * | 2000-11-21 | 2001-10-17 | 刘葵生 | Doemstic energy-savin hot-air cabinet |
CN2475959Y (en) * | 2001-04-09 | 2002-02-06 | 陶歌斯 | Gas heater |
CN2544212Y (en) * | 2002-06-18 | 2003-04-09 | 北京欣彤暖通科技发展有限公司 | Domestic air channel type gas heater |
US20080083404A1 (en) * | 2006-10-06 | 2008-04-10 | Seacombe Technologies Australia Pty Ltd. | Space Heater with Microprocessor Control |
CN201306784Y (en) * | 2008-12-04 | 2009-09-09 | 麦添光 | Gas heater |
KR20130050258A (en) * | 2011-11-07 | 2013-05-15 | 윤문근 | Coal stove heater |
KR20130075870A (en) * | 2011-12-28 | 2013-07-08 | (주)규원테크 | A pellet far-infrared heater |
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2016
- 2016-02-24 CN CN201610100914.4A patent/CN105650721A/en active Pending
Patent Citations (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2054880U (en) * | 1989-09-19 | 1990-03-21 | 丁家 | Case type convective combustion heating stove |
CN2083718U (en) * | 1990-12-06 | 1991-08-28 | 刘振欧 | Domestic gas burning hot wind heating device |
CN2398581Y (en) * | 1999-10-22 | 2000-09-27 | 吴万禄 | Environmental protection gas warmer |
CN2450571Y (en) * | 2000-10-16 | 2001-09-26 | 胡万里 | Microcomputerized full-automatic gas air warming fan |
CN2454696Y (en) * | 2000-11-21 | 2001-10-17 | 刘葵生 | Doemstic energy-savin hot-air cabinet |
CN2475959Y (en) * | 2001-04-09 | 2002-02-06 | 陶歌斯 | Gas heater |
CN2544212Y (en) * | 2002-06-18 | 2003-04-09 | 北京欣彤暖通科技发展有限公司 | Domestic air channel type gas heater |
US20080083404A1 (en) * | 2006-10-06 | 2008-04-10 | Seacombe Technologies Australia Pty Ltd. | Space Heater with Microprocessor Control |
CN201306784Y (en) * | 2008-12-04 | 2009-09-09 | 麦添光 | Gas heater |
KR20130050258A (en) * | 2011-11-07 | 2013-05-15 | 윤문근 | Coal stove heater |
KR20130075870A (en) * | 2011-12-28 | 2013-07-08 | (주)규원테크 | A pellet far-infrared heater |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106895472A (en) * | 2017-02-09 | 2017-06-27 | 武汉轻工大学 | Combustion gas heating air conditioner |
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