CN210624905U - High-efficient heat transfer mechanism that gas hanging stove was used - Google Patents
High-efficient heat transfer mechanism that gas hanging stove was used Download PDFInfo
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- CN210624905U CN210624905U CN201921385973.6U CN201921385973U CN210624905U CN 210624905 U CN210624905 U CN 210624905U CN 201921385973 U CN201921385973 U CN 201921385973U CN 210624905 U CN210624905 U CN 210624905U
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- 238000002485 combustion reaction Methods 0.000 claims abstract description 52
- 230000005855 radiation Effects 0.000 claims abstract description 18
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- 238000001514 detection method Methods 0.000 claims abstract description 7
- 238000009434 installation Methods 0.000 claims description 6
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Abstract
The utility model discloses a high-efficiency heat exchange mechanism for a wall-mounted gas furnace, which mainly comprises a shell, a combustion chamber, a heat exchanger, a water pump, a water feeding pipe and a water outlet pipe, wherein the combustion chamber is arranged in the shell, the combustion chamber is provided with the heat exchanger, the utility model relates to the technical field of the wall-mounted gas furnace, the high-efficiency heat exchange mechanism for the wall-mounted gas furnace has simple structure and convenient use, the external temperature is detected by a temperature detection assembly, the wall-mounted gas furnace is heated at proper time and temperature, the combustion chamber on the wall-mounted gas furnace is matched with a heat exchange plate to complete the process from combustion to heat exchange, circulating water absorbs the heat generated by combustion and then exchanges heat with the inside of the room to heat the inside of the room, and in order to increase the heat exchange efficiency and the utilization rate of the heat, the absorption efficiency of the heat radiation is, can be absorbed to preheat circulating water and improve heat exchange efficiency.
Description
Technical Field
The utility model relates to a gas hanging stove technical field specifically is a high-efficient heat transfer mechanism that gas hanging stove was used.
Background
The gas wall hanging stove has a powerful household central heating function, can meet the heating requirements of multiple rooms, can set comfortable temperature at will in each room according to the requirements, can also decide to independently close heating in a certain room according to the requirements, and can provide large-flow constant-temperature sanitary hot water for occasions such as household bathing and kitchens. Since the invention of the wall-mounted gas furnace, how to increase the heat utilization efficiency of the wall-mounted gas furnace is a difficult problem, and the wall-mounted gas furnace is heated by adopting a gas and air mixing combustion mode, so that the heat of the wall-mounted gas furnace can be radiated outwards, while the existing wall-mounted gas furnace mostly adopts a reflecting material to reflect the heat radiation inwards to prevent the radiation from being radiated outwards, the reflected heat can be partially lost, and the natural attenuation of the heat can be generated in the exchange process with a heat exchanger, so that the part of the heat is not fully utilized, and the wall-mounted gas furnace is deeply researched to solve the problems.
SUMMERY OF THE UTILITY MODEL
The utility model provides a not enough to prior art, the utility model provides a high-efficient heat transfer mechanism that gas hanging stove was used has solved current hanging stove and has scattered and disappear for preventing the radiation, adopts reflecting material more, with the heat radiation internal reflection, though can avoid the heat external radiation, but partial loss can appear in the heat of reflecting back, in addition with the heat exchanger exchange process, thermal natural attenuation can appear, this partial heat does not have make full use of, has produced the extravagant problem of energy.
In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a high-efficiency heat exchange mechanism for a wall-mounted gas furnace mainly comprises a shell, a combustion chamber, a heat exchanger, a water pump, a water feeding pipe and a water outlet pipe, wherein the combustion chamber is arranged in the shell, the heat exchanger is arranged on the combustion chamber, the water pump is arranged in the shell and positioned below the combustion chamber, the water feeding pipe is connected with the water pump, a thermal radiation absorption structure is arranged between the water pump and a heat exchange plate, and the water outlet pipe is arranged on the heat exchanger and positioned on the opposite side of the water feeding pipe;
the high-efficient heat transfer mechanism that gas hanging stove was used still includes: the device comprises a gas inlet pipe, an air inlet pipe, an exhaust fan and an exhaust flue;
the exhaust fan is embedded in the exhaust flue;
the thermal radiation absorbing structure includes: the heat conduction plates, the heat conduction pipes, the water inlet pipe and the reflection cover are arranged;
a plurality of the heat-conducting plate wraps up in the combustion chamber outside, and encircle to wrap up on the combustion chamber outer wall, the heat pipe inlays and is adorned in a plurality of on the heat-conducting plate, the bowl is installed in a plurality of the heat-conducting plate outside, inlet tube one end and heat pipe intercommunication, and its other end and heat exchanger intercommunication, the upper hose is connected with the heat pipe.
Preferably, the temperature detection device further comprises a temperature detection assembly, wherein the temperature detection assembly comprises: the temperature detector, the control valve and the controller;
the temperature detector is embedded on one side wall surface of the lower end of the shell, the control valve is installed on the gas inlet pipe, the controller is installed at the lower end in the shell and is electrically connected with the temperature detector, and the controller is embedded with the control panel on the shell.
Preferably, the combustion chamber is a rectangular cavity structure box made of steel.
Preferably, a pair of connecting joints with the same structure are arranged on the bottom surface of the shell and are respectively communicated with the water feeding pipe and the water outlet pipe.
Preferably, the water outlet pipe is wrapped with a heat insulation layer.
Preferably, a plurality of pairs of installation sheets with the same structure are installed on two sides of the shell, through holes are formed in the installation sheets, and threaded assemblies are arranged on the through holes.
Advantageous effects
The utility model provides a high-efficient heat transfer mechanism that gas hanging stove was used. The method has the following beneficial effects: this high-efficient heat transfer mechanism that gas hanging stove was used, moreover, the steam generator is simple in structure, high durability and convenient use, detect the external temperature through the temperature detection subassembly, make it heat at suitable opportunity and temperature, through combustion chamber cooperation heat transfer board above that, accomplish the process of gas combustion to heat transfer, make the circulating water absorb the heat that the burning produced, and then with indoor heat transfer, heat the room, in order to increase heat exchange efficiency and thermal utilization ratio, through the heat radiation absorption structure above that, increase heat radiation's absorption efficiency, make the heat of combustion chamber radiation-out, can be absorbed, carry out preheating of circulating water, and the heat exchange efficiency is improved.
Drawings
Fig. 1 is a schematic view of a high-efficiency heat exchange mechanism for a wall-mounted gas furnace.
Fig. 2 is the utility model discloses a high-efficient heat transfer mechanism's that gas hanging stove was used overlook partial cross sectional structure sketch map.
Fig. 3 is a schematic side view of a high-efficiency heat exchange mechanism for a wall-mounted gas stove.
In the figure: 1. a housing; 2. a combustion chamber; 3. a heat exchanger; 4. a water pump; 5. a water feeding pipe; 6. a water outlet pipe; 7. a gas inlet pipe; 8. an air inlet pipe; 9. an exhaust fan; 10. an exhaust flue; 11. a water inlet pipe; 12. a heat conducting plate; 13. a heat conducting pipe; 14. a reflector; 15. a temperature detector; 16. a control valve; 17. a controller; 18. connecting a joint; 19. a thermal insulation layer; 20. And (7) mounting the sheet.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
All the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained.
Example (b): according to the attached figures 1-3 of the specification, the scheme is a high-efficiency heat exchange mechanism for a wall-mounted gas furnace, which mainly comprises a shell 1, a combustion chamber 2, a heat exchanger 3, a water pump 4, a water feeding pipe 5, a water discharging pipe 6, a gas inlet pipe 7, an air inlet pipe 8, an exhaust fan 9 and an exhaust flue 10, wherein the connection relationship and the position relationship are as follows;
the combustion chamber 2 is arranged in the shell 1, the combustion chamber 2 is provided with a heat exchanger 3, the water pump 4 is arranged in the shell 1 and is positioned below the combustion chamber 2, the water feeding pipe 5 is connected with the water pump 4, a thermal radiation absorption structure is arranged between the water pump 4 and the heat exchange plate, and the water outlet pipe 6 is arranged on the heat exchanger 3 and is positioned on the opposite side of the water feeding pipe 5;
the gas inlet pipe 7 is arranged on the combustion chamber 2, the air inlet pipe 8 is arranged on the combustion chamber 2 and is positioned at one side of the gas inlet pipe 7, the exhaust flue 10 is arranged on the combustion chamber 2, one end of the exhaust flue extends out of the shell 1, and the exhaust fan 9 is embedded in the exhaust flue 10;
in the specific implementation process, the shell 1 plays a role in external protection and isolation, the combustion chamber 2 is a main space for providing combustion reaction, when heating is needed, gas is injected into the combustion chamber 2 through the gas inlet pipe 7 by automatic control, air is injected into the combustion chamber 2 through the air extracting fan arranged in the air inlet pipe 8, ignition is carried out through the igniter arranged in the combustion chamber 2, internal mixed gas and air are ignited, heat is released, main heat generated in the combustion process is absorbed by the heat exchanger 3, the combustion chamber 2 is reinforced, smoke generated by the combustion chamber is discharged along a flue, water is pumped into the heat exchanger 3 from the water inlet pipe 11 by starting the water pump 4, the heat generated by combustion is exchanged with water in the heat exchanger 3, the water carries the heat to be discharged from the water outlet pipe 6, and heat exchange is carried out with the interior through heat exchange equipment such as externally installed heating radiators and the like, the indoor temperature is raised, after heat is dissipated, water circulates from the water inlet pipe 11 and enters the heat exchanger 3 again, the reciprocating operation is carried out, the indoor temperature is raised, and part of heat radiated outwards is absorbed by the heat radiation absorption structure and used for preheating when the water enters the heat exchanger 3, so that the heat is recycled, the heat utilization rate is improved, and the energy-saving and efficient effects are achieved;
as can be seen from the accompanying fig. 1-3 of the specification, the thermal radiation absorbing structure comprises: a plurality of heat conducting plates 12, heat conducting pipes 13 and reflection covers 14 having the same structure, and the connection relationship and the position relationship are as follows;
the heat conduction plates 12 are wrapped outside the combustion chamber 2 and are wrapped on the outer wall of the combustion chamber 2 in a surrounding mode, the heat conduction pipes 13 are embedded on the heat conduction plates 12, the reflection covers 14 are installed on the outer sides of the heat conduction plates 12, one end of the water inlet pipe 11 is communicated with the heat conduction pipes 13, the other end of the water inlet pipe is communicated with the heat exchanger 3, and the water feeding pipe 5 is connected with the heat conduction pipes 13;
in the specific implementation process, when the heat generated by combustion radiates to the periphery, the heat at the radiation position is absorbed by the heat conduction plates 12 and then is transferred to the heat conduction pipes 13, the heat passes through the water in the heat conduction pipes 13, and then enters the heat exchange plates to absorb the heat for the second time, so that the utilization rate of combustion is increased, and the heat exchange efficiency is improved in this way, and the external reflector 14 is reflected back to the internal space through the reflector 14 when the heat is insufficiently absorbed and radiates outwards, so that the absorption efficiency is further increased;
to sum up, this high-efficient heat transfer mechanism that gas hanging stove was used, moreover, the steam generator is simple in structure, high durability and convenient use, detect external temperature through the temperature determine module, make it heat at suitable opportunity and temperature, 2 cooperation heat transfer boards through the combustion chamber above that, accomplish the process of gas burning to the heat transfer, make the heat that the circulating water absorbed the burning and produced, and then with indoor heat transfer, heat the room, in order to increase heat exchange efficiency and thermal utilization ratio, through the heat radiation absorption structure above that, increase the absorption efficiency of heat radiation, make the heat that 2 radiant-out of combustion chamber, can be absorbed, carry out preheating of circulating water, improve heat exchange efficiency.
Preferably, as can be seen from fig. 1 to 3 of the specification, the temperature detecting assembly includes: the temperature detector 15, the control valve 16 and the controller 17 are connected and positioned as follows;
the temperature detector 15 is embedded on one side wall surface of the lower end of the shell 1, the control valve 16 is installed on the gas inlet pipe 7, the controller 17 is installed at the inner lower end of the shell 1 and is electrically connected with the temperature detector 15, and the controller 17 is embedded with a control panel on the shell 1;
in the specific implementation process, through temperature detector 15, detect external temperature, when the temperature is low excessively, through the signal of temperature detector 15 transmission, make controller 17 open switch, and then through starting control valve 16, make it open gas intake pipe 7, send the signal of telecommunication through controller 17 and start the air extraction fan and inject the air to inside, the two co-combustion, and then the heat transfer, when the temperature reaches the required value, temperature detector 15 sends the signal of telecommunication and gives controller 17, controller 17 closes equipment, and then keep indoor temperature no longer to rise, further increase thermal utilization ratio.
Preferably, the combustion chamber 2 is a rectangular hollow structural box made of steel, and has high structural strength.
Preferably, a pair of connection joints 18 with the same structure are arranged on the bottom surface of the shell 1 and are respectively communicated with the water feeding pipe 5 and the water outlet pipe 6.
Preferably, the water outlet pipe 6 is further wrapped with a heat insulation layer 19 to prevent heat loss.
Preferably, a plurality of pairs of installation pieces 20 with the same structure are installed on two sides of the housing 1, and through holes are formed in the installation pieces, and threaded components are arranged on the through holes and used for installing the housing 1.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. A high-efficiency heat exchange mechanism for a wall-mounted gas furnace mainly comprises a shell (1), a combustion chamber (2), a heat exchanger (3), a water pump (4), a water feeding pipe (5) and a water outlet pipe (6), and is characterized in that the combustion chamber (2) is installed in the shell (1), the heat exchanger (3) is arranged on the combustion chamber (2), the water pump (4) is installed in the shell (1) and located below the combustion chamber (2), the water feeding pipe (5) is connected with the water pump (4), a heat radiation absorption structure is arranged between the water pump (4) and a heat exchange plate, and the water outlet pipe (6) is installed on the heat exchanger (3) and located on the opposite side of the water feeding pipe (5);
the high-efficient heat transfer mechanism that gas hanging stove was used still includes: a gas inlet pipe (7), an air inlet pipe (8), an exhaust fan (9) and an exhaust flue (10);
the gas inlet pipe (7) is arranged on the combustion chamber (2), the air inlet pipe (8) is arranged on the combustion chamber (2) and is positioned on one side of the gas inlet pipe (7), the exhaust flue (10) is arranged on the combustion chamber (2) and one end of the exhaust flue extends out of the shell (1), and the exhaust fan (9) is embedded in the exhaust flue (10);
the thermal radiation absorbing structure includes: a plurality of heat conducting plates (12), heat conducting pipes (13), a water inlet pipe (11) and a reflecting cover (14);
a plurality of heat-conducting plate (12) parcel is outside combustion chamber (2), and encircles and wrap up on combustion chamber (2) outer wall, heat pipe (13) inlay and adorn in a plurality of on heat-conducting plate (12), bowl (14) install in a plurality of the heat-conducting plate (12) outside, inlet tube (11) one end and heat pipe (13) intercommunication, and its other end and heat exchanger (3) intercommunication, it is connected with heat pipe (13) to go up water pipe (5).
2. The efficient heat exchange mechanism for the wall-mounted gas furnace of claim 1, further comprising a temperature detection assembly, wherein the temperature detection assembly comprises: a temperature detector (15), a control valve (16) and a controller (17);
the temperature detector (15) is embedded on one side wall surface of the lower end of the shell (1), the control valve (16) is installed on the gas inlet pipe (7), the controller (17) is installed at the lower end in the shell (1) and is electrically connected with the temperature detector (15), and the controller (17) is embedded with a control panel on the shell (1).
3. The high-efficiency heat exchange mechanism for the wall-mounted gas furnace of claim 1, wherein the combustion chamber (2) is a steel rectangular cavity structure box.
4. The efficient heat exchange mechanism for the wall-mounted gas stove is characterized in that a pair of connecting joints (18) with the same structure are arranged on the bottom surface of the shell (1) and are respectively communicated with the water feeding pipe (5) and the water outlet pipe (6).
5. The efficient heat exchange mechanism for the gas wall hanging stove is characterized in that the water outlet pipe (6) is wrapped with a heat insulation layer (19).
6. The efficient heat exchange mechanism for the wall-mounted gas stove is characterized in that a plurality of pairs of installation pieces (20) with the same structure are installed on two sides of the shell (1), through holes are formed in the installation pieces, and thread assemblies are arranged on the through holes.
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Publication number | Priority date | Publication date | Assignee | Title |
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CN111721001A (en) * | 2020-07-27 | 2020-09-29 | 四川昊宇龙星科技有限公司 | Integral heat exchanger for wall-mounted furnace and application method thereof |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111721001A (en) * | 2020-07-27 | 2020-09-29 | 四川昊宇龙星科技有限公司 | Integral heat exchanger for wall-mounted furnace and application method thereof |
CN111721001B (en) * | 2020-07-27 | 2023-09-19 | 四川昊宇龙星能源科技有限公司 | Integral heat exchanger for wall-mounted furnace and application method thereof |
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Effective date of registration: 20231031 Address after: Shop 1-2, 1st Floor, Shangmei International, Xingding Road, Dingzhou City, Baoding City, Hebei Province, 073000 Patentee after: Dingzhou Deyi Energy Co.,Ltd. Address before: 073000 Daqi Liantiapin Community, Dingzhou Economic Development Zone, Hebei Province Patentee before: Hebei YeGe Environmental Protection Technology Co.,Ltd. |
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