CN206989464U - A kind of module pneumoelectric alliance hot-water heating system - Google Patents
A kind of module pneumoelectric alliance hot-water heating system Download PDFInfo
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- CN206989464U CN206989464U CN201720700119.9U CN201720700119U CN206989464U CN 206989464 U CN206989464 U CN 206989464U CN 201720700119 U CN201720700119 U CN 201720700119U CN 206989464 U CN206989464 U CN 206989464U
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- heat
- water
- double helix
- exchange system
- thermoreceptor
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Abstract
The utility model provides a kind of module pneumoelectric alliance hot-water heating system, including level Four heat-exchange system, wherein one-level heat-exchange system includes double helix thermoreceptor and normal pressure infrared burner, the normal pressure infrared burner is arranged on the lower section of double helix thermoreceptor, the double helix thermoreceptor is cylindrical shape, axle center outlet pipe is set among the double helix thermoreceptor, double helix thermoreceptor cylinder inner wall is circumferentially with fireplace interlayer, fireplace interlayer is connected with some double helix coil pipes, each double helix coil pipe is included with symmetrical two branch pipes in cylinder axle center and two spiral coils, described branch pipe one end connects fireplace interlayer, the branch pipe other end connects spiral coil, the spiral coil other end is connected with axle center outlet pipe.The utility model is substantially increased the utilization rate of calory burning, is effectively carried out a point fire to thermal source using sped structure, increased by heat rating, improve leaving water temperature, save the energy, heat exchange efficiency is high using four heat exchange.
Description
Technical field
A kind of hot-water supply system is the utility model is related to, particularly a kind of module pneumoelectric alliance hot-water heating system, belongs to burning
Heating field.
Technical background
The heating system that exchanges heat in production and living using extremely widespread, such as chemical industry, metallurgy, machinery, building, food,
The industrial department such as medicine and Aero-Space all occupies critically important status, and for Home Heating, how maximal efficiency improves
Heat utilization rate, ensure heating temperature, increase area of heat-supply service, it is the most important thing to reduce the wasting of resources, therefore exchanges hot systems
Optimization design and raising heat exchange efficiency are necessary for burning central heating industry.
The content of the invention
According to technical need, the utility model provides a kind of heat exchange efficiency high module pneumoelectric alliance hot-water heating system, including
One-level heat-exchange system, secondary heat exchange system, three-level heat-exchange system and level Four heat-exchange system, water circulating pump are connected to four by water pipe
Level heat-exchange system water inlet, level Four heat-exchange system delivery port are connected to three-level heat-exchange system water inlet, three-level heat-exchange system water outlet
Mouth is connected to secondary heat exchange system water inlet, and secondary heat exchange system delivery port is connected to one-level heat-exchange system water inlet, by one-level
Heat-exchange system delivery port water outlet, the one-level heat-exchange system include double helix thermoreceptor and normal pressure infrared burner, the normal pressure
Infrared burner is arranged on the lower section of double helix thermoreceptor, and the double helix thermoreceptor is cylindric, the double helix thermoreceptor
Centre sets axle center outlet pipe, and double helix thermoreceptor cylinder inner wall is circumferentially with fireplace interlayer, fireplace interlayer and some double helixs
Coil pipe connects, and each double helix coil pipe is included with symmetrical two branch pipes in cylinder axle center and two spiral coils, the branch pipe one
End connection fireplace interlayer, branch pipe other end connection spiral coil, the spiral coil other end are connected with axle center outlet pipe.
Further, the secondary heat exchange system is heat exchange of heat pipe, and the heat exchange of heat pipe is interior provided with tank and some
Heat exchanger tube, heat exchanger tube upper submerged in the sink, in heat exchanger tube bottom submergence flue gas, set some water pipes to extend in tank
In double helix thermoreceptor fireplace interlayer.
Further, the three-level heat-exchange system is flue gas heat-exchange unit.
Further, the level Four heat-exchange system includes evaporator, condenser and compressor, and the condenser passes through pipeline
Evaporator is connected to, evaporator connects compressor by pipeline, and compressor connects condenser by pipeline, and the evaporator is set
Condenser water inlet, leaving condenser water are being connected to by water pipe close to the position of hot-water supply system exhanst gas outlet, water circulating pump
Mouth is connected to three-level heat-exchange system.
Further, it is provided with " V " font fence below the evaporator.
Further, some branch pipes are vertically arranged in fireplace interlayer.
Further, it is provided with Iganition control system on the normal pressure infrared burner.
Further, the hot-water supply system top sets chimney, and frequency conversion fan, frequency conversion fan and point are set below chimney
Ignition control system links.
Further, normal pressure infrared burner burning produces heat smoke, and heat smoke is gathered to be carried out in double helix thermoreceptor
Once exchange heat, the flue gas after once exchanging heat enters secondary heat exchange system from double helix thermoreceptor and carries out secondary heat exchange, secondary heat exchange
Flue gas afterwards is exchanged heat three times from secondary heat exchange system into three-level heat-exchange system, and the flue gas after exchanging heat three times exchanges heat from three-level
System enters level Four heat-exchange system and carries out four heat exchange, and the flue gas after four heat exchange is discharged from chimney.
The beneficial effects of the utility model are:Using four heat exchange, the utilization rate of calory burning is substantially increased, uses spiral shell
Rotating structure effectively carries out a point fire to thermal source, increases by heat rating, improves leaving water temperature, saves the energy, and heat exchange efficiency is high.
Brief description of the drawings
Fig. 1 is modularization pneumoelectric alliance hot-water heating system structural representation,
In figure:1st, normal pressure infrared burner, 2, Iganition control system, 3, double helix thermoreceptor, 4, one-level heat-exchange system
Delivery port, 5, heat exchange of heat pipe, 6, compressor, 7, condenser, 8, flue gas heat-exchange unit, 9, evaporator, 10, recirculated water
Pump, 11, chimney, 12, frequency conversion fan, 13, " V " font fence, 14, heat exchanger tube, 15, tank, 16, fireplace interlayer, 17,
Branch pipe, 18, spiral coil, 19, axle center outlet pipe, 20, valve.
Embodiment
The utility model is described in further detail with reference to the accompanying drawings, a kind of high module pneumoelectric alliance hot water system of heat exchange efficiency
System, including one-level heat-exchange system, secondary heat exchange system, three-level heat-exchange system and level Four heat-exchange system, water circulating pump 10 pass through water
Pipe is connected to level Four heat-exchange system water inlet, and level Four heat-exchange system delivery port is connected to three-level heat-exchange system water inlet, and three-level is changed
Hot systems delivery port is connected to secondary heat exchange system water inlet, and secondary heat exchange system delivery port is connected to one-level heat-exchange system and enters water
Mouthful, by the water outlet of one-level heat-exchange system delivery port 4, the one-level heat-exchange system includes double helix thermoreceptor 3 and normal pressure infrared combustion
Device 1, the normal pressure infrared burner 1 are arranged on the lower section of double helix thermoreceptor 3, and the double helix thermoreceptor 3 is cylindric, institute
To state and axle center outlet pipe 19 is set among double helix thermoreceptor 3, the cylinder inner wall of double helix thermoreceptor 3 is circumferentially with fireplace interlayer 16,
Fireplace interlayer 16 is connected with some double helix coil pipes, and each double helix coil pipe is included with symmetrical two branch pipes 17 He in cylinder axle center
Two spiral coils 18, the one end of branch pipe 17 connection fireplace interlayer 16, the other end of branch pipe 17 connection spiral coil 18, helical disk
The other end of pipe 18 is connected with axle center outlet pipe 19, and some branch pipes 17 are vertically arranged in fireplace interlayer 16, each spiral coil it
Between do not interfere with each other.
The normal pressure low nitrogen burning of normal pressure infrared burner 1, it is used as 600 DEG C -800 DEG C of thermal source ignition temperature, it is possible to reduce nitrogen oxygen
Compound(Predominantly nitric oxide, nitrogen dioxide)Generation, normal pressure infrared burner 1 is provided with ignition controller system 2, can
Automatically controlled with igniting, flame-out to stop the supple of gas or steam, adjust automatically air demand as requested, heat caused by burner 1 and flue gas entrance are double
The water in double helix coil pipe is heated in spiral thermoreceptor 3, double helix coil pipe is preferably 1-4 groups, both can effectively divide fire, is expanded
By heat rating, obstruction flare burning, will not cause to stop working because of too crowded in double helix thermoreceptor cylinder again.
Secondary heat exchange system is heat exchange of heat pipe 5, is provided with tank 15 and some heat exchanger tubes 14 in heat exchange of heat pipe 5, changes
The upper submerged of heat pipe 14 is in tank 15, and in the bottom of heat exchanger tube 14 submergence flue gas, the inside of tank 15 sets two water pipes to extend to
In spiral thermoreceptor fireplace interlayer 21, hot cigarette enters heat exchange of heat pipe 5, hot cigarette heating heat exchanger tube 14 bottom by double helix thermoreceptor 3
Portion, make heat is as much as possible to be delivered in the tank 15 at the top of heat pipe 14.
Three-level heat-exchange system is flue gas heat-exchange unit 8, sets water pipe to be connected to the water of heat exchange of heat pipe 5 in flue gas heat-exchange unit 8
In groove 15, hot cigarette is entered in flue gas heat-exchange unit 8 by heat exchange of heat pipe 5, and the water in flue gas heat-exchange unit 8 absorbs the heat in flue gas.
Level Four heat-exchange system includes evaporator 9, condenser 7 and compressor 6, and the condenser 7 is connected to steaming by pipeline
Device 9 is sent out, evaporator 9 connects compressor 6 by pipeline, and compressor 6 connects condenser 7, condenser 2, the and of evaporator 9 by pipeline
Compressor 6 is sequentially connected, and forms a complete loops.Evaporator 9 is positioned close to the position of hot-water supply system exhanst gas outlet, side
Just flue gas is discharged, and water circulating pump 10 is connected to condenser water inlet by water pipe, and leaving condenser water mouth is connected to flue gas heat-exchange unit
8。
Valve 20 is set between water circulating pump 10 and condenser 7, and valve 20 is opened, and cold water is entered by water circulating pump 10 to be condensed
In device 7, refrigerant discharges 9 systemic smoke heat energy of evaporator and refrigerant gasification latent heat heating cold water in condenser 7, carries out
Once heat, the cold water after once heating enters flue gas heat-exchange unit 8 by condenser 7, absorbs the heat energy of flue gas, carries out secondary add
Heat, the water after reheating is entered by flue gas heat-exchange unit 8 in the tank 15 of heat exchange of heat pipe 5, by the bottom of flue gas heat exchanger tube 14
Heated three times in portion and the tank 15 transferred heat at the top of heat exchanger tube 14, the water after heating three times is entered by tank 15
In the fireplace interlayer 16 of double helix thermoreceptor 3, spiral coil 18 is entered by each branch pipe 17 in fireplace interlayer 16, in spiral
Four heating are carried out in coil pipe 18, is then entered by spiral coil 18 in the axle center outlet pipe 19 of double helix thermoreceptor 3 and led to
Cross delivery port 4 to flow out, now water temperature reaches highest.
The burning of normal pressure infrared burner 1 produces hot cigarette, and heat and heat smoke gather the heating coil in double helix thermoreceptor 3
Water in coil pipe 18, is once exchanged heat, and flue gas rises heating heat exchanger tube 14 bottom, and heat exchanger tube 14 transfers heat to heat exchanger tube
In the tank 15 at 14 tops, the water in heating water tank 15 carries out secondary heat exchange, and the flue gas with a small amount of heat enters flue gas heat exchange
In device 8, a small amount of heat that the water in flue gas heat-exchange unit 8 is absorbed in flue gas is exchanged heat three times, carries out the flue gas after exchanging heat three times
Continue to ascend into evaporator 9, heat caused by the heat of the refrigerant absorption flue gas in evaporator 9 and vapor liquefaction, and
Transfer thermal energy to and cold water is heated in condenser, carry out four heat exchange, the flue gas after four heat exchange is discharged from chimney 11, chimney 11
Tube wall below be provided with frequency conversion fan 12, frequency conversion fan 12 links with Iganition control system 2, and Iganition control system 2 is according to burning
Situation adjusts gas quantity, and frequency conversion fan controls smoke evacuation air quantity, flue gas velocity and exhaust gas temperature by gas quantity.Double helix thermoreceptor
3rd, 9 it is sequentially communicated and integrally closed as exhaust gases passes in heat exchange of heat pipe 5, flue gas heat-exchange unit 8 and evaporator, flue gas is only
It can enter from the lower section of double helix thermoreceptor 3, be discharged from chimney 11.
Compressor 6 compresses refrigerant, and refrigerant runs into cold water into condenser 7, and cooling medium liquefaction heat release discharges simultaneously is steaming
The heat cold water absorbed in hair device, liquid refrigerants enter evaporator 9 by pipeline, and refrigerant gasifies in absorption heat-exchange water system
After heat present in heat and flue gas caused by vapor liquefaction, refrigerant becomes high-temperature gas and comes back to compressor 6 to continue
Compression, reenter condenser 7 and discharge heat, so circulation.
Due to refrigerant gasification heat absorption in evaporator 9, evaporator vapor liquefaction nearby condenses into water droplet and is attached to evaporator 9
On outer wall, to prevent water droplet drippage from influenceing heat exchange water system, condensation water collecting device interception water droplet is provided with below evaporator 9,
The condensation water collecting device is " V " font fence 13, has gap between " V " font fence, and flue gas can be made to pass through not shadow
Ring heat transfer process.
The multiple block combiners of hot-water supply system provided by the utility model use, and are heated.
Claims (7)
1. a kind of module pneumoelectric alliance hot-water heating system, including one-level heat-exchange system, secondary heat exchange system, three-level heat-exchange system and four
Level heat-exchange system, water circulating pump are connected to level Four heat-exchange system water inlet by water pipe, and level Four heat-exchange system delivery port is connected to
Three-level heat-exchange system water inlet, three-level heat-exchange system delivery port are connected to secondary heat exchange system water inlet, and secondary heat exchange system goes out
The mouth of a river is connected to one-level heat-exchange system water inlet, by one-level heat-exchange system delivery port water outlet, it is characterised in that:The one-level heat exchange
System includes double helix thermoreceptor and normal pressure infrared burner, and the normal pressure infrared burner is arranged under double helix thermoreceptor
Side, the double helix thermoreceptor are cylindrical shape, and axle center outlet pipe, double helix thermoreceptor circle are set among the double helix thermoreceptor
Cylinder inwall is circumferentially with fireplace interlayer, and fireplace interlayer is connected with some double helix coil pipes, and each double helix coil pipe is included with cylinder
Symmetrical two branch pipes in axle center and two spiral coils, described branch pipe one end connect fireplace interlayer, branch pipe other end connection spiral
Coil pipe, the spiral coil other end are connected with axle center outlet pipe.
A kind of 2. module pneumoelectric alliance hot-water heating system according to claim 1, it is characterised in that:The secondary heat exchange system
For heat exchange of heat pipe, the heat exchange of heat pipe is interior to be provided with tank and some heat exchanger tubes, and heat exchanger tube upper submerged in the sink, exchanges heat
In pipe bottom submergence flue gas, some water pipes are set to extend in double helix thermoreceptor fireplace interlayer in tank.
A kind of 3. module pneumoelectric alliance hot-water heating system according to claim 1, it is characterised in that:The three-level heat-exchange system
For flue gas heat-exchange unit.
A kind of 4. module pneumoelectric alliance hot-water heating system according to claim 1, it is characterised in that:The level Four heat-exchange system
Including evaporator, condenser and compressor, the condenser is connected to evaporator by pipeline, and evaporator is connected by pipeline and pressed
Contracting machine, compressor connect condenser by pipeline, and the evaporator is positioned close to the position of hot-water supply system exhanst gas outlet, followed
Ring water pump is connected to condenser water inlet by water pipe, and leaving condenser water mouth is connected to three-level heat-exchange system.
A kind of 5. module pneumoelectric alliance hot-water heating system according to claim 4, it is characterised in that:Set below the evaporator
There is condensation water collecting device.
A kind of 6. module pneumoelectric alliance hot-water heating system according to claim 1, it is characterised in that:The normal pressure infrared combustion
Iganition control system is provided with device.
A kind of 7. module pneumoelectric alliance hot-water heating system according to claim 6, it is characterised in that:On the hot-water supply system
Portion sets chimney, and frequency conversion fan is set below chimney, and frequency conversion fan links with Iganition control system.
Priority Applications (1)
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CN201720700119.9U CN206989464U (en) | 2017-06-16 | 2017-06-16 | A kind of module pneumoelectric alliance hot-water heating system |
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CN201720700119.9U CN206989464U (en) | 2017-06-16 | 2017-06-16 | A kind of module pneumoelectric alliance hot-water heating system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107120826A (en) * | 2017-06-16 | 2017-09-01 | 大连恒通和科技有限公司 | Module pneumoelectric alliance hot-water heating system |
EP4246052A1 (en) * | 2022-03-15 | 2023-09-20 | Aic Spólka Akcyjna | Cogeneration boiler |
-
2017
- 2017-06-16 CN CN201720700119.9U patent/CN206989464U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107120826A (en) * | 2017-06-16 | 2017-09-01 | 大连恒通和科技有限公司 | Module pneumoelectric alliance hot-water heating system |
EP4246052A1 (en) * | 2022-03-15 | 2023-09-20 | Aic Spólka Akcyjna | Cogeneration boiler |
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