CN217816971U - Double-heat-source heating equipment combining air-source heat pump and gas furnace - Google Patents
Double-heat-source heating equipment combining air-source heat pump and gas furnace Download PDFInfo
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- CN217816971U CN217816971U CN202221448839.8U CN202221448839U CN217816971U CN 217816971 U CN217816971 U CN 217816971U CN 202221448839 U CN202221448839 U CN 202221448839U CN 217816971 U CN217816971 U CN 217816971U
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Abstract
The utility model discloses a two heat source heating equipment of air energy heat pump and gas furnace combination, air energy heat pump and the full premix gas module stove that sets up about including, the left side of full premix gas module stove is equipped with module stove wet return and module stove delivery pipe respectively, the right side of air energy heat pump is equipped with air energy heat pump delivery pipe and air energy heat pump wet return, air energy heat pump delivery pipe connection has a tee bend connecting pipe, the tee bend connecting pipe is equipped with the first connecting pipe and the second connecting pipe of mutual intercommunication, the lateral part of second connecting pipe is connected with the third connecting pipe, the one end of first connecting pipe with air energy heat pump water supply connection, the other end of first connecting pipe with module stove wet return is connected. The utility model discloses the flue gas that the gas produced can carry out the secondary heat transfer, and the thermal efficiency is higher, and full premix gas module stove and air can the heat pump all can the independent operation, and under the change of outside temperature, equipment can make up the most energy-conserving mode and heat.
Description
Technical Field
The utility model relates to a heating technical field, concretely relates to two heat source heating equipment of air energy heat pump and gas furnace combination.
Background
Along with the improvement of science and technology and the improvement of living standard of people, heating equipment becomes important equipment in people's life, especially in cold north, heating equipment is indispensable, and current heating equipment has heating boiler, heating gas furnace, air can the room heater etc.. However, the existing heating equipment has the following defects: 1. the existing heating equipment uses single energy, and the conventional heating equipment is limited in air limitation or electricity limitation in special areas. 2. The single heating equipment can not reasonably utilize the waste heat of the flue gas. 3. The efficiency of the air energy at low temperature may be extremely low or start-up may not be possible at all. Therefore, there is a need for improvements in the prior art to avoid the disadvantages of the prior art.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects in the prior art and provide a double-heat-source heating device which is simple in structure and high in energy utilization rate and combines an air energy heat pump and a gas furnace.
The utility model discloses a realize through following technical scheme:
a double-heat-source heating device combining an air-source heat pump and a gas furnace comprises an air-source heat pump and a full-premixing gas module furnace which are arranged on the left and the right, wherein a module furnace return pipe and a module furnace supply pipe are respectively arranged on the left side of the full-premixing gas module furnace, an air-source heat pump supply pipe and an air-source heat pump return pipe are arranged on the right side of the air-source heat pump, a three-way connecting pipe is connected to the air-source heat pump supply pipe, the three-way connecting pipe is provided with a first connecting pipe and a second connecting pipe which are mutually communicated, the side part of the second connecting pipe is connected with a third connecting pipe, one end of the first connecting pipe is connected with the air-source heat pump supply pipe, the other end of the first connecting pipe is connected with the module furnace return pipe, the third connecting pipe is connected with the module furnace supply pipe, the top of the full-premixing gas module furnace is provided with a transverse smoke pipe, the front side and the back side of the smoke pipe are both connected with longitudinal smoke pipe, the left side of the smoke pipe is connected with longitudinal split smoke pipe, the split smoke pipe is connected with a plurality of solar vacuum pipes, a plurality of transverse air inlet grooves are formed among the solar vacuum pipes, and an air-source heat exchanger corresponding to the inner side of the air-source heat pump is arranged on the air-source heat pump.
Furthermore, a communicating pipe is connected between the module furnace water return pipe and the module furnace water supply pipe, and the communicating pipe is provided with an electric ball valve.
Furthermore, the module furnace return water pipe is connected with a full premix burner through a first inner connecting pipe, the full premix burner is connected with the module furnace water supply pipe through a second inner connecting pipe, and the top of the full premix burner is provided with a full premix fan.
Further, the reposition of redundant personnel tobacco pipe diminishes from right to left gradually.
Furthermore, the end of the shunting smoke pipe is provided with a water seal, and the water seal is connected with a water seal pipe.
Further, an exhaust fan is arranged at the top of the air energy heat pump.
Further, the air heat exchanger is gradually reduced from top to bottom.
Further, the air-source heat pump is provided with a vacuum tube mounting bracket for mounting the solar vacuum tube.
Furthermore, the end parts of the module furnace water return pipe, the module furnace water supply pipe, the air energy heat pump water return pipe, the first connecting pipe, the second connecting pipe and the third connecting pipe are all provided with connecting flanges.
Further, a plurality of heat exchange fins are arranged on the front side and the rear side of the air heat exchanger.
Compared with the prior art, the utility model discloses a set up air energy heat pump and the heating of full premix gas module stove combination, the one end and the air energy heat pump water supply pipe connection of first connecting pipe, the other end and the module stove wet return of first connecting pipe are connected, third connecting pipe and module stove water supply pipe connection, the top of full premix gas module stove is equipped with horizontal tobacco pipe, both sides all are connected with fore-and-aft branch tobacco pipe around the tobacco pipe, the left side of branch tobacco pipe is connected with fore-and-aft branch tobacco pipe, the branch tobacco pipe is connected with a plurality of horizontal solar vacuum tubes, form a plurality of inlet ducts between the solar vacuum tube, the inboard of air energy heat pump is equipped with the air heat exchanger that corresponds with the inlet duct, the waste heat that makes the flue gas that full premix gas module stove produced can be by air energy heat pump recycle, can not heat or low efficiency heating because of receiving the external condition such as air restriction or temperature cross low, and the flue gas that the gas produced can carry out the secondary heat transfer, the thermal efficiency can be than the high of standalone facility, it is more energy-conserving, full premix gas module stove and air energy heat pump can all be can independently operate, the water supply pipe is established ties on the air energy heat pump, the temperature heat pump, the beneficial effect of taking out according to the energy source at that the time, the indoor energy is carried out the most reasonable allotment:
1. the combination of multiple energy sources is utilized, and the heat energy is reasonably utilized.
2. And the waste heat of the flue gas is utilized for secondary heat exchange.
3. When the air energy is low in efficiency due to low temperature, smoke generated by starting the full-premixing gas module furnace can pass through the solar vacuum tube, the solar vacuum tube assists in heating the air, so that the air temperature reaches the optimal heating temperature of the air energy heat pump, and efficient heat exchange is performed.
4. When the air temperature is lower than the air energy starting condition, the fully premixed gas module furnace can independently run, so that heating is not interrupted.
5. When sunlight irradiates, the solar vacuum tube can absorb heat to heat cold air entering the air energy heat pump for heat exchange.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the description below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is a schematic structural view of the double-heat-source heating equipment combining the air-source heat pump and the gas furnace of the present invention;
FIG. 2 is a front view of the dual heat source heating apparatus of the present invention combining an air energy heat pump and a gas furnace;
fig. 3 is a left side view of the dual heat source heating apparatus of the air energy heat pump and gas furnace combination of the present invention;
fig. 4 is a top view of the dual heat source heating device of the air energy heat pump and gas furnace combination of the present invention;
fig. 5 is a schematic view of the internal connection structure of the fully premixed gas modular furnace of the present invention.
In the figure: 1-an air-source heat pump; 2-full premix gas module furnace; 3-a water return pipe of the module furnace; 4-water supply pipe of module furnace; 5-air energy heat pump water supply pipe; 6-air energy heat pump return pipe; 7-a first connection pipe; 8-a second connecting tube; 9-a third connecting tube; 10-smoke tube; 11-smoke distributing pipe; 12-a shunt smoke tube; 13-solar vacuum tube; 14-an air inlet tank; 15-an air heat exchanger; 16-communicating tube; 17-an electric ball valve; 18-a first inner nipple; 19-a fully premixed burner; 20-a second inner nipple; 21-water sealing; 22-a water seal pipe; 23-an exhaust fan; 24-vacuum tube mounting bracket; 25-a connecting flange; 26-heat exchange fins; 27-full premix fan.
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.
As shown in fig. 1 to 5, the utility model discloses a double heat source heating equipment of air energy heat pump and gas furnace combination, including the air energy heat pump 1 and the full premix gas module stove 2 that set up about, the left side of full premix gas module stove 2 is equipped with module stove wet return 3 and module stove delivery pipe 4 respectively, the right side of air energy heat pump 1 is equipped with air energy heat pump delivery pipe 5 and air energy heat pump wet return 6, air energy heat pump delivery pipe 5 is connected with a tee junction pipe, tee junction pipe is equipped with first connecting pipe 7 and second connecting pipe 8 that communicate each other, the lateral part of second connecting pipe 8 is connected with third connecting pipe 9, the one end of first connecting pipe 7 is connected with air energy heat pump delivery pipe 5, the other end of first connecting pipe 7 is connected with module stove wet return 3, third connecting pipe 9 is connected with module stove delivery pipe 4, the top of full premix gas module stove 2 is equipped with horizontal smoke pipe 10, both sides all are connected with longitudinal branch tobacco pipe 11 around the smoke pipe 10, the left side of branch tobacco pipe 11 is connected with longitudinal branch stream 12, branch stream tobacco pipe is connected with a plurality of horizontal solar energy tobacco pipe 13, the solar energy tobacco pipe 13 forms a plurality of air vacuum tubes 13 between the heat pump heat pipe and corresponds the inboard heat exchanger 14 of air intake duct 14 that corresponds with air energy heat pump groove 14. Through setting up air energy heat pump 1 and the heating of the combination of full premix gas module stove 2, the one end of first connecting pipe 7 is connected with air energy heat pump delivery pipe 5, the other end of first connecting pipe 7 is connected with module stove wet return 3, third connecting pipe 9 is connected with module stove delivery pipe 4, the top of full premix gas module stove 2 is equipped with horizontal tobacco pipe 10, both sides are connected with fore-and-aft branch tobacco pipe 11 around the tobacco pipe 10, the left side of branch tobacco pipe 11 is connected with fore-and-aft branch tobacco pipe 12, branch tobacco pipe 12 is connected with a plurality of horizontal solar vacuum tubes 13, form a plurality of inlet ducts 14 between the solar vacuum tubes 13, the inboard of air energy heat pump 1 is equipped with the air heat exchanger 15 that corresponds with inlet duct 14, make the waste heat of the flue gas that full premix gas module stove 2 produced can be recycled by air energy heat pump 1, can not heat or the heating because of external conditions such as air restriction or low temperature are crossed, and the flue gas that the gas produced can carry out the secondary heat exchange can be than the independent equipment, it can all to carry out the beneficial factors such as the heat pump 2 and carry out the heat energy heat distribution in the heat distribution, the mode of the full premix gas heat pump 2 is the most reasonable to carry out the series connection of the following, the beneficial effect of the outdoor heat pump, the beneficial energy heat distribution, the beneficial effect of the outdoor heat pump is carried out at that the heat distribution is carried out at that the time, etc. 2, etc. is the heat distribution is the following modes such as the heat pump is:
1. the combination of multiple energy sources is utilized, and the heat energy is reasonably utilized.
2. And the waste heat of the flue gas is utilized for secondary heat exchange.
3. When the air energy is low in efficiency due to low temperature, the flue gas generated by starting the fully premixed gas module furnace 2 can pass through the solar vacuum tube 13, the solar vacuum tube 13 assists in heating the air, so that the air temperature reaches the optimal heating temperature of the air energy heat pump 1, and efficient heat exchange is performed.
4. When the air temperature is lower than the air energy starting condition, the fully premixed gas module furnace 2 can independently run, so that the heating is not interrupted.
5. When sunlight irradiates, the solar vacuum tube 13 absorbs heat to heat cold air entering the air energy heat pump 1 for heat exchange.
A communicating pipe 16 is connected between the module furnace water return pipe 3 and the module furnace water supply pipe 4, the communicating pipe 16 is provided with an electric ball valve 17, the full-premixing gas module furnace 2 is started, the electric ball valve 17 is opened, small circulation is carried out inside, the generated flue gas passes through the flue pipe 10, the smoke distributing pipe 11, the smoke distributing pipe 12 and the solar vacuum pipe 13, the heat of the flue gas is absorbed by the inner wall of the solar vacuum pipe 13 and is then dissipated to the outer wall of the solar vacuum pipe 13, and the outer wall of the solar vacuum pipe 13 heats the air entering the air heat pump 1 for heat exchange.
The module furnace return pipe 3 is connected with a full premix burner 19 through a first inner connecting pipe 15, the full premix burner 19 is connected with a module furnace water supply pipe 4 through a second inner connecting pipe 20, the full premix burner 2 can efficiently heat heating water, water supply and water return are simple, the use is convenient, a full premix fan 27 is arranged at the top of the full premix burner 19, smoke generated by the full premix gas module furnace 2 is discharged, and the smoke generated by the full premix gas module furnace 2 is fully utilized in heat exchange.
The shunting smoke pipe 12 is gradually reduced from right to left, so that the smoke is gradually transmitted to the solar vacuum pipe 13, the smoke is prevented from being rapidly dissipated, and the smoke waste heat can be effectively utilized.
The end of the shunt smoke tube 12 is provided with a water seal 21, and the water seal 21 is connected with a water seal pipe 22 for discharging condensed water in the smoke.
The top of air energy heat pump 1 is equipped with air exhauster 23, and the air is through air heat exchanger 15 because of the suction of air exhauster 23, absorbs the heat in the air through contact fin 26 and carries out the heat transfer, improves air energy heat pump 1's heat exchange efficiency.
The air heat exchanger 15 is gradually reduced from top to bottom, so that hot air entering the air-source heat pump 1 can be fully contacted with the air heat exchanger 15, and the heat exchange efficiency is improved.
The air-source heat pump 1 is provided with the vacuum tube mounting bracket 24 for mounting the solar vacuum tube 13, so that the vacuum tube mounting bracket 24 is more stably mounted, and the air is more stably heated.
The end parts of the module furnace water return pipe 3, the module furnace water supply pipe 4, the air energy heat pump water supply pipe 5, the air energy heat pump water return pipe 6, the first connecting pipe 7, the second connecting pipe 8 and the third connecting pipe 9 are all provided with connecting flanges 25, so that stable connection between pipelines is facilitated.
A plurality of heat exchange fins 26 are arranged on the front side and the rear side of the air heat exchanger 15, and heat exchange efficiency of the air heat exchanger 15 is improved.
The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. A double-heat-source heating equipment combining an air-source heat pump and a gas furnace is characterized in that: the air energy heat pump and the full premix gas module furnace are arranged on the left side and the right side, a module furnace return pipe and a module furnace water supply pipe are arranged on the left side of the full premix gas module furnace respectively, an air energy heat pump water supply pipe and an air energy heat pump return pipe are arranged on the right side of the air energy heat pump, a three-way connecting pipe is connected to the air energy heat pump water supply pipe, a first connecting pipe and a second connecting pipe which are mutually communicated are arranged on the three-way connecting pipe, a third connecting pipe is connected to the side portion of the second connecting pipe, one end of the first connecting pipe is connected to the air energy heat pump water supply pipe, the other end of the first connecting pipe is connected to the module furnace return pipe, the third connecting pipe is connected to the module furnace water supply pipe, a transverse smoke pipe is arranged at the top of the full premix gas module furnace, longitudinal smoke pipe is connected to the front side and the rear side of the smoke pipe, a longitudinal smoke pipe is connected to the left side of the smoke pipe, the smoke pipe is connected to a plurality of transverse solar energy heat pipes, a plurality of solar energy air inlet grooves are formed among the solar energy heat pump air inlet grooves, and an air heat exchanger corresponding to the vacuum pipe grooves is arranged on the inner side of the air energy heat pump.
2. A dual heat source heating apparatus in combination with an air-source heat pump and a gas furnace according to claim 1, wherein: and a communicating pipe is connected between the module furnace water return pipe and the module furnace water supply pipe, and the communicating pipe is provided with an electric ball valve.
3. The dual heat source heating apparatus of claim 1, wherein the air-source heat pump combined with a gas furnace comprises: the module furnace return pipe is connected with a full premix burner through a first inner connecting pipe, the full premix burner is connected with the module furnace water supply pipe through a second inner connecting pipe, and the top of the full premix burner is provided with a full premix fan.
4. A dual heat source heating apparatus in combination with an air-source heat pump and a gas furnace according to claim 1, wherein: the shunt smoke pipe becomes smaller from right to left.
5. The dual heat source heating apparatus of claim 1, wherein the air-source heat pump combined with a gas furnace comprises: the tip of reposition of redundant personnel tobacco pipe is equipped with the water seal, the water seal is connected with the water seal pipe.
6. A dual heat source heating apparatus in combination with an air-source heat pump and a gas furnace according to claim 1, wherein: and an exhaust fan is arranged at the top of the air energy heat pump.
7. A dual heat source heating apparatus in combination with an air-source heat pump and a gas furnace according to claim 1, wherein: the air heat exchanger is gradually reduced from top to bottom.
8. The dual heat source heating apparatus of claim 1, wherein the air-source heat pump combined with a gas furnace comprises: the air-source heat pump is provided with a vacuum tube mounting bracket for mounting the solar vacuum tube.
9. A dual heat source heating apparatus in combination with an air-source heat pump and a gas furnace according to claim 1, wherein: and the end parts of the module furnace water return pipe, the module furnace water supply pipe, the air energy heat pump water return pipe, the first connecting pipe, the second connecting pipe and the third connecting pipe are respectively provided with a connecting flange.
10. The dual heat source heating apparatus of claim 1, wherein the air-source heat pump combined with a gas furnace comprises: a plurality of heat exchange fins are arranged on the front side and the rear side of the air heat exchanger.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202221448839.8U CN217816971U (en) | 2022-06-11 | 2022-06-11 | Double-heat-source heating equipment combining air-source heat pump and gas furnace |
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CN202221448839.8U CN217816971U (en) | 2022-06-11 | 2022-06-11 | Double-heat-source heating equipment combining air-source heat pump and gas furnace |
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CN217816971U true CN217816971U (en) | 2022-11-15 |
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CN202221448839.8U Active CN217816971U (en) | 2022-06-11 | 2022-06-11 | Double-heat-source heating equipment combining air-source heat pump and gas furnace |
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- 2022-06-11 CN CN202221448839.8U patent/CN217816971U/en active Active
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