CN208595696U - Heating boiler - Google Patents
Heating boiler Download PDFInfo
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- CN208595696U CN208595696U CN201821176511.9U CN201821176511U CN208595696U CN 208595696 U CN208595696 U CN 208595696U CN 201821176511 U CN201821176511 U CN 201821176511U CN 208595696 U CN208595696 U CN 208595696U
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- heat
- chamber
- pipe
- heat transfer
- water storage
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Abstract
The utility model discloses a kind of heating boilers, are related to Industrial Boiler Technology field, and main purpose is to provide a kind of heating boiler that can be improved heat transference efficiency.A kind of main technical schemes of the utility model are as follows: heating boiler, comprising: furnace body;Combustion section, combustion section are arranged in furnace body, and combustion section includes combustion chamber, heat transfer chamber and smoke exhaust pipe, combustion chamber is arranged in heat transfer chamber room, and it is interconnected with one end of heat transfer chamber, one end of smoke exhaust pipe is connected to the other end of heat transfer chamber, and the other end stretches out furnace body;Heating part, heating part includes water storage chamber, follows bad water pipe and heat-transfer pipe, water storage chamber is arranged between furnace body and combustion section, one end of circulating water pipe is connected to water storage chamber, the other end protrudes into heat transfer chamber room, and heat-transfer pipe is airtight cavity, and heat transfer chamber is protruded into one end of heat-transfer pipe, the other end protrudes into water storage chamber, for conducting the indoor heat of heat transfer chamber into water storage chamber.The utility model is mainly used for heat supply.
Description
Technical field
The utility model relates to Industrial Boiler Technology field more particularly to a kind of heating boilers.
Background technique
With the worsening shortages of the energy, power-saving technology is increasingly valued by people.It is used on present society
Heating boiler is all the energy heat supply discharged by the indoor coal burning that burns.Boiler is to utilize fuel or other energy
Thermal energy be converted to the mechanical equipment of hot gas, the heat generated in boiler can provide required thermal energy directly for industrial production,
The energy of other forms can also be converted heat by power device.
Existing heating boiler generally includes furnace body, combustion chamber and water tank, and combustion chamber is burnt in furnace body, then will combustion
It burns and carries out heat exchange between room and water tank, to achieve the purpose that the water in heating water tank, still, due to the heat transference efficiency of water
Lower than the heat transference efficiency of gas, causes the time for heating water longer, not only reduce the efficiency of heat transmitting, also improve production
Cost.
Utility model content
In view of this, the utility model embodiment provides a kind of heating boiler, main purpose, which is to provide one kind, be can be improved
The heating boiler of heat transference efficiency.
In order to achieve the above objectives, the utility model mainly provides the following technical solutions:
The utility model embodiment provides a kind of heating plant, which includes:
Furnace body;
Combustion section, the combustion section are arranged in the furnace body, and the combustion section includes combustion chamber, heat transfer chamber and row
Smoke pipe, the combustion chamber are arranged in the heat transfer chamber room, and are interconnected with one end of the heat transfer chamber, the row
One end of smoke pipe is connected to the other end of the heat transfer chamber, and the other end stretches out the furnace body, for gas to be discharged;
Heating part, the heating part include water storage chamber, follow bad water pipe and heat-transfer pipe, and the water storage chamber is arranged described
Between furnace body and the combustion section, one end of the circulating water pipe is connected to the water storage chamber, and the other end protrudes into the heat transfer
In chamber, the heat-transfer pipe is airtight cavity, and the heat transfer chamber is protruded into one end of the heat-transfer pipe, and the other end protrudes into the storage
Water chamber, for conducting the indoor heat of the heat transfer chamber into the water storage chamber.
Further, the heat-transfer pipe includes tube body and plug, and the plug is separately positioned on the both ends of the tube body, is used
In the both ends for blocking the tube body.
Further, the material of the plug is copper product or aluminum material.
Further, the heat-transfer pipe is an integral molding structure.
Further, the combustion chamber is closed connection cavity, the bottom of the combustion chamber and the heat transfer chamber
One end of room is interconnected.
Further, the bottom of the combustion chamber is arranged in grate, the grate, is used for placing burning object.
Further, intake section, the intake section include inlet duct and air inlet pipe, and one end of the air inlet pipe is connected to
The inlet duct, the other end are connected to the top of the combustion chamber, for being passed through air into the combustion chamber.
Further, collection portion, the lower part of the grate is arranged in the collection portion, for collecting cigarette ash.
Compared with prior art, the utility model has the following technical effect that
In technical solution provided by the embodiment of the utility model, the effect of furnace body is to provide the place of heating water, combustion section
Effect be to provide the burning place of comburant, combustion section is arranged in furnace body, combustion section include combustion chamber, heat transfer chamber and
Smoke exhaust pipe, combustion chamber are arranged in heat transfer chamber room, and are interconnected with one end of heat transfer chamber, one end connection of smoke exhaust pipe
In the other end of heat transfer chamber, the other end stretches out furnace body, for being discharged gas, heating part include water storage chamber, follow bad water pipe and
Heat-transfer pipe, water storage chamber are arranged between furnace body and combustion section, and one end of circulating water pipe is connected to water storage chamber, and the other end protrudes into
In heat transfer chamber room, heat-transfer pipe is airtight cavity, and heat transfer chamber is protruded into one end of heat-transfer pipe, and the other end protrudes into water storage chamber, is used for
The indoor heat of heat transfer chamber is conducted into water storage chamber, when needing to heat the indoor water of water storage cavity, combustion chamber is to comburant
It burns, and transfers heat in heat transfer chamber, since heat-transfer pipe is airtight cavity, only there is portion in heat-transfer pipe
Divide gas, heat is transferred to by the one end for protruding into the indoor heat-transfer pipe of heat transfer chamber by the gas in heat-transfer pipe protrudes into water storage chamber
One end make to be added rapidly in the indoor water of water storage cavity since the heat transference efficiency of gas is higher than the heat transference efficiency of liquid
Heat, compared with the existing technology, combustion chamber are burnt in furnace body, then heat exchange will be carried out between combustion chamber and water tank, thus
Achieve the purpose that the water in heating water tank, still, since the heat transference efficiency of water is lower than the heat transference efficiency of gas, causes to heat
The time of water is longer, not only reduces the efficiency of heat transmitting, also improves production cost, in the utility model embodiment, passes through
The indoor heat transfer of heat transfer chamber into water storage chamber, is made the indoor heat of heat transfer chamber pass through gas and carries out heat by setting heat-transfer pipe
Transmitting, to reach the technical effect for improving the heating speed of water.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of heating boiler provided by the embodiment of the utility model;
Fig. 2 is the structural schematic diagram of second of heating boiler provided by the embodiment of the utility model.
Specific embodiment
The utility model is described in further detail with reference to the accompanying drawings and examples.
As depicted in figs. 1 and 2, the utility model embodiment provides a kind of heating boiler, which includes:
Furnace body 1;
Combustion section, combustion section are arranged in furnace body 1, and combustion section includes combustion chamber 21, conduct heat chamber 22 and smoke exhaust pipe 23,
The setting of combustion chamber 21 is interconnected in heat transfer chamber 22, and with one end of heat transfer chamber 22, and one end of smoke exhaust pipe 23 connects
It is connected to the other end of heat transfer chamber 22, the other end stretches out furnace body 1, for gas to be discharged;
Heating part 3, heating part 3 include water storage chamber 31, follow bad water pipe and heat-transfer pipe 33, and water storage chamber 31 is arranged in furnace body
Between 1 and combustion section, one end of circulating water pipe 32 is connected to water storage chamber 31, and the other end protrudes into heat transfer chamber 22, heat-transfer pipe
33 be airtight cavity, and heat transfer chamber 22 is protruded into one end of heat-transfer pipe 33, and the other end protrudes into water storage chamber 31, for the chamber that will conduct heat
Heat in 22 is conducted into water storage chamber 31.
In technical solution provided by the embodiment of the utility model, the effect of furnace body 1 is to provide the place of heating water, combustion section
Effect be to provide the burning place of comburant, combustion section is arranged in furnace body 1, and combustion section includes combustion chamber 21, heat transfer chamber
Room 22 and smoke exhaust pipe 23, the setting of combustion chamber 21 are interconnected in heat transfer chamber 22, and with one end of heat transfer chamber 22, row
One end of smoke pipe 23 is connected to the other end of heat transfer chamber 22, and the other end stretches out furnace body 1, and for gas to be discharged, heating part 3 includes
Water storage chamber 31 follows bad water pipe and heat-transfer pipe 33, and water storage chamber 31 is arranged between furnace body 1 and combustion section, circulating water pipe 32
One end is connected to water storage chamber 31, and the other end protrudes into heat transfer chamber 22, and heat-transfer pipe 33 is airtight cavity, one end of heat-transfer pipe 33
Heat transfer chamber 22 is protruded into, the other end protrudes into water storage chamber 31, for conducting the heat to conduct heat in chamber 22 to water storage chamber 31
In, when needing to heat the water in water storage chamber 31, combustion chamber 21 burns to comburant, and transfers heat to heat transfer chamber
In room 22, since heat-transfer pipe 33 is airtight cavity, only there is portion gas in heat-transfer pipe 33, protrude into heat transfer chamber 22
One end of heat-transfer pipe 33 heat is transferred to the one end for protruding into water storage chamber 31 by the gas in heat-transfer pipe 33, due to gas
Heat transference efficiency be higher than the heat transference efficiency of liquid, be heated quickly the water in the water storage chamber 31, relative to existing
Technology, combustion chamber are burnt in furnace body 1, then heat exchange will be carried out between combustion chamber and water tank, to reach heating water tank
In water purpose, still, due to water heat transference efficiency be lower than gas heat transference efficiency, cause heat water time compared with
It is long, the efficiency of heat transmitting is not only reduced, also improves production cost, in the utility model embodiment, passes through setting heat-transfer pipe
33 will conduct heat the heat transfer in chamber 22 into water storage chamber 31, and the heat to conduct heat in chamber 22 is made to carry out hot biography by gas
It passs, to reach the technical effect for improving the heating speed of water.
Above-mentioned furnace body 1 generallys use stainless steel material and is made, and has gate on furnace body 1, and gate connects with combustion chamber 21 is entered
Logical, for conveying comburant into combustion chamber 21, furnace body 1 can use cylindrical body or cuboid, can also use other
Shape, as long as combustion section and heating part 3 can be put into, furnace body 1 is closed structure under normal conditions, it is therefore an objective to prevent heat
Amount sheds, and optionally, thermal insulation layer can be arranged on 1 outer wall of furnace body, so that the thermal losses of furnace body 1 is reduced, the work of combustion section
With the burning place for being to provide comburant, combustion section is arranged in furnace body 1, that is to say, that heat transfer chamber 22 is by combustion chamber 21
Inside it, the heating efficiency of combustion chamber 21 can be improved in set, and combustion section includes combustion chamber 21, heat transfer 22 and of chamber
Smoke exhaust pipe 23, the setting of combustion chamber 21 are interconnected in heat transfer chamber 22, and with one end of heat transfer chamber 22, smoke exhaust pipe 23
Effect be exhaust gas in discharge combustion chamber 21, one end of smoke exhaust pipe 23 is connected to the other end of heat transfer chamber 22, and the other end stretches
Furnace body 1 out, for gas to be discharged;Heating part 3, which acts on, is to provide the heating place of water, heating part 3 include water storage chamber 31, follow it is bad
Water pipe and heat-transfer pipe 33, water storage chamber 31 are arranged between furnace body 1 and combustion section, and one end of circulating water pipe 32 is connected to water storage cavity
Room 31, the other end protrude into heat transfer chamber 22, it should be noted that the effect of circulating water pipe 32 is by the water in water storage chamber 31
It is passed through in heat transfer chamber 22, the water in make to conduct heat heat and circulating water pipe 32 in chamber 22 carries out heat exchange, mentions to reach
The effect of the temperature of water in high water storage chamber 31, therefore, circulating water pipe 32 can make water carry out shuttling movement, and heat-transfer pipe 33 is
Heat transfer chamber 22 is protruded into airtight cavity, one end of heat-transfer pipe 33, and the other end protrudes into water storage chamber 31, for that will conduct heat in chamber 22
Heat conduct into water storage chamber 31, the effect of heat-transfer pipe 33 is transmitting heat, and it is common that the heat transference efficiency of water is higher than part
Metal heat transference efficiency, therefore the heat transference efficiency that the heat transference efficiency of air is higher than water sets close for heat-transfer pipe 33
Stopped pipe, sealed tube are a kind of structures being completely closed, and the inside of heat-transfer pipe 33 has air or helium, tool in heat transfer chamber 22
The flame for having comburant to generate, flame heat one end of heat-transfer pipe 33, and the air or helium in heat-transfer pipe 33 will be warm
Amount is transferred to the other end of heat-transfer pipe 33, and heats to the water in water storage chamber 31, to reach the effect for improving heating water
The technical effect of rate heats one end of heat-transfer pipe 33,3 to after five minutes, the other end of heat-transfer pipe 33 can under normal circumstances
Reach 100 degree, optionally, heat-transfer pipe 33 can use metallic aluminium or metallic copper, can be further improved the biography of heat-transfer pipe 33
The thermal efficiency in the present embodiment, will conduct heat the heat transfer in chamber 22 into water storage chamber 31 by setting heat-transfer pipe 33, and make to pass
Heat in hot chamber 22 carries out hot transmitting by gas, to reach the technical effect for improving the heating speed of water.
Further, as shown in Figure 1, heat-transfer pipe 33 includes tube body 331 and plug 332, plug 332 is separately positioned on tube body
331 both ends, for blocking the both ends of tube body 331.In the present embodiment, heat-transfer pipe 33 is further defined, heat-transfer pipe 33 includes
Tube body 331 and plug 332, plug 332 are separately positioned on the both ends of tube body 331, can use between heat-transfer pipe 33 and plug 332
The mode being fixedly connected is attached, such as is welded, and can also be integrally formed in such a way that mold pours, and heat-transfer pipe is formed
33, plug 332 can use fine copper or aluminum alloy materials, and fine copper is at 100 degree, thermal coefficient 331, have good lead
Thermal effect, since the heat-conducting effect of heat-transfer pipe 33 is preferable, and usage amount is less, not only increases heat transfer efficiency, additionally it is possible to drop
The production cost of low heating boiler.
Further, heat-transfer pipe 33 is an integral molding structure.In the present embodiment, heat-transfer pipe 33 is further defined, is conducted heat
Pipe 33 is an integral molding structure, and the intensity of heat-transfer pipe 33 can be improved, while can also prevent from entering impurity, shadow in heat-transfer pipe 33
Ring the heat transfer efficiency of heat-transfer pipe 33.
Further, as shown in Figure 1, combustion chamber 21 is closed connection cavity, the bottom of combustion chamber 21 and heat transfer
One end of chamber 22 is interconnected.In the present embodiment, combustion chamber 21, the bottom of combustion chamber 21 and heat transfer are further defined
One end of chamber 22 is interconnected, and the heat in combustion chamber 21 is discharged into heat transfer chamber 22 by 21 bottom of combustion chamber, by
It is interconnected in the bottom of combustion chamber 21 and heat transfer chamber 22, makes the burning direction of the comburant in combustion chamber 21 downward,
It is more abundant so as to make comburant burn, not only reduce the generation of carbon monoxide, additionally it is possible to reduce due to comburant
Burn it is insufficient and generate other impurities, by the bottom of combustion chamber 21 with conduct heat chamber 22 one end be interconnected, make to fire
The bottom for burning flame towards combustion chamber 21 caused by the comburant in chamber 21 is burnt, and comburant is not only made to burn
More sufficiently, but also it can be improved the burning time of comburant, and dust caused by comburant can also be reduced, thus
Reach the technical effect for reducing environmental pollution.
Further, as depicted in figs. 1 and 2, grate 4 is increased, grate 4 is arranged in the bottom of combustion chamber 21, is used for
Placing burning object.In the present embodiment, increase grate 4, the effect of grate 4 is placing burning object, grate 4 and combustion chamber 21 it
Between generally use dismountable connection type and be attached, there are multiple through-holes, flame can be discharged into biography by through-hole on grate 4
In hot chamber 22, to reach the technical effect of transmitting heat;Also, grate 4 is arranged in the bottom of combustion chamber 21, it can
Increase the air flow property in combustion chamber 21, to further increase the combustion efficiency of comburant.
Further, increase intake section, intake section includes inlet duct and air inlet pipe, one end of air inlet pipe be connected into
Device of air, the other end are connected to the top of combustion chamber 21, for being passed through air into combustion chamber 21.In the present embodiment, increase
Intake section is added, has needed a large amount of oxygen that can burn in burning for comburant abundant, therefore, increase air inlet
Air or oxygen can be passed through in air inlet pipe and combustion chamber 21 by portion, inlet duct, make the comburant in combustion chamber 21
What is burnt is more abundant, thereby reduces the generation of carbon monoxide, reduces the exhaust gas and flue dust of comburant generation.
Further, as depicted in figs. 1 and 2, collection portion 5 is increased, the lower part of grate 4 is arranged in collection portion 5, for receiving
Collect cigarette ash.In the present embodiment, collection portion 5 is increased, the effect of collection portion 5 is the coal ash or cigarette ash collecting comburant and generating,
The lower part of grate 4 is arranged in collection portion 5, burns in sufficient situation in comburant, can generate less coal ash or cigarette ash, coal
Perhaps cigarette ash can be fallen in collection portion 5 by the gap of grate 4 under gravity and makes cigarette ash or coal ash will not be with ash
Air-flow be discharged heating boiler, thereby reduce the technical effect of environmental pollution.
Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to
In this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation
Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be with the power
Subject to the protection scope that benefit requires.
Claims (8)
1. a kind of heating boiler characterized by comprising
Furnace body;
Combustion section, the combustion section are arranged in the furnace body, and the combustion section includes combustion chamber, heat transfer chamber and smoke evacuation
Pipe, the combustion chamber are arranged in the heat transfer chamber room, and are interconnected with one end of the heat transfer chamber, the smoke evacuation
One end of pipe is connected to the other end of the heat transfer chamber, and the other end stretches out the furnace body, for gas to be discharged;
Heating part, the heating part include water storage chamber, follow bad water pipe and heat-transfer pipe, and the water storage chamber is arranged in the furnace body
Between the combustion section, one end of the circulating water pipe is connected to the water storage chamber, and the other end protrudes into the heat transfer chamber
Interior, the heat-transfer pipe is airtight cavity, and the heat transfer chamber is protruded into one end of the heat-transfer pipe, and the other end protrudes into the water storage cavity
Room, for conducting the indoor heat of the heat transfer chamber into the water storage chamber.
2. heating boiler according to claim 1, which is characterized in that
The heat-transfer pipe includes tube body and plug, and the plug is separately positioned on the both ends of the tube body, for blocking the pipe
The both ends of body.
3. heating boiler according to claim 2, which is characterized in that
The material of the plug is copper product or aluminum material.
4. heating boiler according to claim 1, which is characterized in that
The heat-transfer pipe is an integral molding structure.
5. heating boiler according to any one of claims 1 to 4, which is characterized in that
The combustion chamber is closed connection cavity, and the bottom of the combustion chamber and one end of the heat transfer chamber mutually interconnect
It is logical.
6. heating boiler according to claim 5, which is characterized in that further include:
The bottom of the combustion chamber is arranged in grate, the grate, is used for placing burning object.
7. heating boiler according to claim 6, which is characterized in that further include:
Intake section, the intake section include inlet duct and air inlet pipe, and one end of the air inlet pipe is connected to the inlet duct,
The other end is connected to the top of the combustion chamber, for being passed through air into the combustion chamber.
8. heating boiler according to claim 7, which is characterized in that further include:
Collection portion, the lower part of the grate is arranged in the collection portion, for collecting cigarette ash.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821176511.9U CN208595696U (en) | 2018-07-24 | 2018-07-24 | Heating boiler |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821176511.9U CN208595696U (en) | 2018-07-24 | 2018-07-24 | Heating boiler |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208595696U true CN208595696U (en) | 2019-03-12 |
Family
ID=65603511
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821176511.9U Expired - Fee Related CN208595696U (en) | 2018-07-24 | 2018-07-24 | Heating boiler |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208595696U (en) |
-
2018
- 2018-07-24 CN CN201821176511.9U patent/CN208595696U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190312 Termination date: 20200724 |
|
CF01 | Termination of patent right due to non-payment of annual fee |