CN207539985U - A kind of wind-force heating device - Google Patents
A kind of wind-force heating device Download PDFInfo
- Publication number
- CN207539985U CN207539985U CN201721628033.6U CN201721628033U CN207539985U CN 207539985 U CN207539985 U CN 207539985U CN 201721628033 U CN201721628033 U CN 201721628033U CN 207539985 U CN207539985 U CN 207539985U
- Authority
- CN
- China
- Prior art keywords
- water
- pump
- taps
- wind
- heat exchanger
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
Landscapes
- Wind Motors (AREA)
Abstract
The utility model discloses a kind of wind-force heating devices.Wind turbine is connected with quantitative hydraulic pump, quantitative hydraulic pump both ends are connected by the both ends of hydraulic pipeline and throttle valve, slippage pump and quantitative hydraulic parallel connection of pumps, inlet port connects filter and fuel tank, oil outlet connects overflow valve and is then connected to fuel tank all the way, heat exchanger is on the hydraulic pipeline after throttle valve, the both ends of heat exchanger are respectively inlet and outlet, water inlet pipeline is connect with the first taps, water outlet is first connect with the second taps by water pipe and is then attached to water receiver, one water outlet of water receiver makes water return to cyclic water heating at heat exchanger inlets by water circulating pump;Another water outlet passes through third taps for users to use.Then the utility model is reconverted into thermal energy without first converting wind energy into electric energy, but wind energy directly is switched to thermal energy, reduces energy loss;Reduce the input of cost, reduce the cost of heating.
Description
Technical field
The utility model is related to a kind of power supply device, more particularly, to a kind of wind-force heating device.
Background technology
Northern Part of China duration in winter length and very cold, it is therefore necessary to heat.That heats at present is main
Mode is to burn coal, and the burning of coal produces air serious pollution, and the life security of people receives serious threat.
At the same time, for coal as a kind of non-renewable energy resources, continuing use will be exhausted.With people to the protection of environment increasingly
Attention and the shortage of conventional fossil fuel, develop clean regenerative resource and have become a kind of inexorable trend.
Wind energy is inexhaustible as a kind of clean regenerative resource.Although the wind resource in China enriches,
But utilization rate is but very low.The northern area of China is scarcely populated due to natural conditions etc., and be highly advantageous to development wind energy.Profit
Carry out heating with wind energy and do not need to consumption resource, free from environmental pollution not only, at the same can reduce people's heating into
This.Traditional wind-force heating is first to convert wind energy into electric energy, recycles and is converted into thermal energy using electric energy.This method needs
Generator, cost of stepping up its investment is configured in wind turbine.And when wind speed is more than rated wind speed, generator is in order to maintain specified work(
Rate, wind turbine need to carry out the energy that captures from wind of variable pitch control reduction, therefore cause this part wind energy and cannot be utilized.
Utility model content
In order to solve the problems, such as that background technology exists, the utility model provides a kind of wind-force heating device, can
Replace the mode of coal heating, avoid causing environmental pollution, and the cost of people's heating can be reduced.
The technical solution adopted in the utility model is:
The utility model includes wind-force heat generating parts and water heating part, and wind-force heat generating parts are mainly by wind turbine, quantitative liquid
Press pump, the first check valve, slippage pump, overflow valve, the second check valve, filter, fuel tank and throttle valve composition, water heating part master
It to be made of heat exchanger, the first taps, the second taps, water receiver, water circulating pump and third taps;The output of wind turbine
End connect with a shaft end of quantitative hydraulic pump, another shaft end of quantitative hydraulic pump is connect with slippage pump, slippage pump it is fuel-displaced
Mouth is connected to fuel tank through overflow valve, and the inlet port of slippage pump is connected to fuel tank by filter, and the oil outlet of slippage pump is single through second
It is connected to the inlet port of valve and quantitative hydraulic pump, the oil outlet of quantitative hydraulic pump is successively through the first check valve, throttle valve, heat exchange
It is connected to the inlet port of quantitative hydraulic pump inside device after pipeline all the way;The second water of one end of another pipeline of internal heat exchanger is opened
Connection is connected to the entrance of water receiver, and an outlet of water receiver is connected to the another of another pipeline of internal heat exchanger through water circulating pump
End, and the other end of another pipeline of internal heat exchanger through the first taps connect outside cold water source, water receiver it is another go out
Mouth exports hot water through third taps.
A kind of embodiment, the water heating part further include water pump and steam heating pipe, and third taps output terminal is through water
Pump is connect with one end of steam heating pipe, and the steam heating pipe other end is connected to the other end of another pipeline of internal heat exchanger.
Another embodiment, the water heating part further include water mixing valve and tap, third taps output terminal
It is connect with an arrival end of water mixing valve, another arrival end input outside cold water source of water mixing valve, the output terminal of water mixing valve connects
Connected with water faucet.
The utility model passes through the opening of throttle valve by the mechanical energy of wind turbine through the hydraulic energy that quantitative hydraulic pump is converted to
Effect generates thermal energy, then transfers heat to outside through heat exchanger, realizes heating.
The beneficial effects of the utility model are:
Then the utility model is reconverted into thermal energy without first converting wind energy into electric energy, but wind energy directly is switched to heat
Can, reduce energy loss.
The utility model does not need to configuration generator, reduces the input of cost, further reduced heating into
This.And during more than rated wind speed, without carrying out variable pitch control, it can more capture wind energy and carry out heating.
The utility model makes full use of wind resource, reduces the burning of coal, avoids environmental pollution.
Description of the drawings
Fig. 1 is wind-force heating schematic diagram.
Fig. 2 is a kind of Application Example of the utility model.
Fig. 3 is another Application Example of the utility model.
In figure:1st, wind turbine, 2, quantitative hydraulic pump, the 3, first check valve, 4, slippage pump, 5, overflow valve, the 6, second check valve,
7th, filter, 8, fuel tank, 9, throttle valve, 10, heat exchanger, the 11, first taps, the 12, second taps, 13, water receiver,
14th, water circulating pump, 15, third taps, 16, water pump, 17, steam heating pipe, 18, water mixing valve, 19, tap.
Specific embodiment
Below in conjunction with the accompanying drawings and specific embodiment is described in further detail the utility model.
As shown in Figure 1, the utility model specific implementation includes wind-force heat generating parts and water heating part, wind-force heat generating parts
Mainly by wind turbine 1, quantitative hydraulic pump 2, the first check valve 3, slippage pump 4, overflow valve 5, the second check valve 6, filter 7, fuel tank 8
Formed with throttle valve 9, water heating part mainly by heat exchanger 10, the first taps 11, the second taps 12, water receiver 13,
Water circulating pump 14 and third taps 15 form;The output terminal of wind turbine 1 is connect with a shaft end of quantitative hydraulic pump 2, quantitative liquid
Another shaft end of press pump 2 is connect with slippage pump 4, and slippage pump and quantitative hydraulic parallel connection of pumps, the oil outlet of slippage pump 4 is through overflow valve
5 are connected to fuel tank 8, and the inlet port of slippage pump 4 is connected to fuel tank 8 by filter 7, and the oil outlet of slippage pump 4 is through the second check valve 6
It is connect with the inlet port of quantitative hydraulic pump 2, the oil outlet of quantitative hydraulic pump 2 is successively through the first check valve 3, throttle valve 9, heat exchange
It is connected to the inlet port of quantitative hydraulic pump 2 inside device 10 after pipeline all the way;One end of another pipeline in the inside of heat exchanger 10 the
Two taps 12 are connected to the entrance of water receiver 13, and water receiver sets that there are two water outlets, and an outlet of water receiver 13 is through recirculated water
Pump 14 is connected to the other end of the 10 another pipeline in inside of heat exchanger, and the other end warp of the 10 another pipeline in inside of heat exchanger
First taps 11 connect outside cold water source, and another outlet of water receiver 13 exports hot water through third taps 15.Quantitative hydraulic
The fluid of pump 2 is communicated to inside heat exchanger 10 wherein all the way in pipeline, and it is another that water heating part is communicated to 10 inside of heat exchanger
All the way in pipeline.
The mechanical energy that wind turbine 1 obtains passes to quantitative hydraulic pump 2 and is converted into hydraulic energy, and energy passes through the hydraulic oil in pipeline
It transmits, for hydraulic oil by having energy loss during throttle valve 9, the loss of this portion of energy, which will be converted to heat, makes the temperature of hydraulic oil
Degree raising, the size that the loss size of energy can be open by adjusting throttle valve 9 control.The opening of throttle valve 9 is adjusted to most
Small, then energy loss is maximum, and fever is also maximum, and the opening of throttle valve 9 is adjusted to maximum, then energy loss is also minimum, fever
It is minimum.
Heat exchanger 10 is located on the hydraulic pipeline after throttle valve 9, and heat can be made to be transmitted to from hot fluid (hydraulic oil)
Cold fluid (water) reaches the function of heating water.When the first taps 11 are opened, cold water, which enters in heat exchanger 10, to be heated,
Hot water is stored by the second taps 12 in water receiver 13 after heating.When third taps 15 are closed, cycle
Water pump 14 works, and the hot water in water receiver 13 is discharged into circulating-heating in heat exchanger 10, water receiver should be equipped with temperature sensor
User is facilitated to observe temperature.
Water receiver 13 prevents the dilutional hyponatremia or very few in water receiver with water level sensor simultaneously.Water in water receiver 13
Position less than 90% and third taps 15 be closed when, the first taps 11 be constantly in opening state supplement cold water into
Enter system;When the water level in water receiver 13 is higher than 90%, the first taps 11 are automatically closed.When user is used
When, third taps 15 are opened, hot water, which flows into, carries out heating.When needing to stop heating, the opening of throttle valve 9 is adjusted to most
Greatly, the second taps 12 are closed, water circulating pump 14 is stopped at this time, and the closing of the first taps 11 is forbidden adding in cold water.
System should reduce scattering and disappearing, therefore waterpipe, water receiver 13 should select thermal insulation material for heat to the greatest extent.It is oily in order to prevent
Liquid is flow backwards, and the first check valve 3, the second check valve 6 are equipped in system.
In view of revealing the influence to hydraulic system, in systems equipped with recharging oil device.Slippage pump 4 and quantitative hydraulic pump 2
Parallel connection drives slippage pump 4 to rotate when quantitative hydraulic pump 2 rotates.When not needing to repairing, hydraulic oil from fuel tank 8 by filter 7,
Slippage pump 4, overflow valve 5 flow back to fuel tank again;When needing repairing, hydraulic oil enters after the discharge of slippage pump 4 through the second check valve 6
System.
Shown in Fig. 2 is the schematic diagram that the utility model realizes heating.When wind turbine 1 rotates, hydraulic oil flows through throttle valve 9
Temperature increases afterwards.Cold water is through in the heating storage to water receiver 13 of over-heat-exchanger 10.When needing heating, third taps 15 are beaten
It opens, hot water is squeezed into steam heating pipe 17 and realizes heating by water pump 16.Water after steam heating pipe 17 is recycled into hot friendship through piping again
Heating in parallel operation 10 (output temperature relative to heat exchanger 10 is lower, and opposite is cold water).When not needing to heating, by third
Taps 15 are closed.At this point, 14 working water circulating-heating of water circulating pump.Meanwhile if when the water level of water receiver 13 is not up to 90%,
First taps 11, which are opened, adds in cold water.When not needing to heat hot water, the second water valve switch 12 is closed, throttle valve 9 is opened
Mouth is opened to maximum, and water circulating pump 14 is stopped.
Shown in Fig. 3 is the schematic diagram that the utility model realizes heat supply.When needing heat supply, third taps 15 are opened,
Hot water enters in water mixing valve 18, and the other end of water mixing valve is passed through cold water, and by immixture, output warm water is for users to use.When
It does not need in use, third taps 15, water mixing valve 18 are closed, the first taps 11 are opened until reaching preset water level, following
14 working water circulating-heating of ring water pump.When not needing to heating, the second water valve switch 12 is closed, and throttle valve 9 is opened to maximum.
Above-mentioned specific embodiment is used for illustrating the utility model rather than limiting the utility model,
In the spirit and scope of the claims of the utility model, to any modifications and changes that the utility model is made, all belong to
In the scope of protection of the utility model.
Claims (3)
1. a kind of wind-force heating device, it is characterised in that:Including wind-force heat generating parts and water heating part, wind-force heat unit
Divide mainly by wind turbine (1), quantitative hydraulic pump (2), the first check valve (3), slippage pump (4), overflow valve (5), the second check valve
(6), filter (7), fuel tank (8) and throttle valve (9) composition, water heating part is mainly by heat exchanger (10), the first taps
(11), the second taps (12), water receiver (13), water circulating pump (14) and third taps (15) composition;The output of wind turbine (1)
End is connect with a shaft end of quantitative hydraulic pump (2), another shaft end of quantitative hydraulic pump (2) is connect with slippage pump (4), repairing
The oil outlet of pump (4) is connected to fuel tank (8) through overflow valve (5), and the inlet port of slippage pump (4) is connected to fuel tank by filter (7)
(8), the oil outlet of slippage pump (4) is connect through the second check valve (6) with the inlet port of quantitative hydraulic pump (2), quantitative hydraulic pump (2)
Oil outlet be connected to quantitative liquid after the first check valve (3), throttle valve (9), the internal pipeline all the way of heat exchanger (10) successively
The inlet port of press pump (2);The second taps of one end (12) of the internal another pipeline of heat exchanger (10) are connected to water receiver
(13) entrance, an outlet of water receiver (13) are connected to the another of the internal another pipeline of heat exchanger (10) through water circulating pump (14)
One end, and the other end of the internal another pipeline of heat exchanger (10) connects outside cold water source, water storage through the first taps (11)
Another outlet of device (13) exports hot water through third taps (15).
2. a kind of wind-force heating device according to claim 1, it is characterised in that:The water heating part also wraps
Water pump (16) and steam heating pipe (17) are included, third taps (15) output terminal is connect through water pump (16) with one end of steam heating pipe (17),
Steam heating pipe (17) other end is connected to the other end of the internal another pipeline of heat exchanger (10).
3. a kind of wind-force heating device according to claim 1, it is characterised in that:The water heating part also wraps
Water mixing valve (18) and tap (19) are included, third taps (15) output terminal is connect with an arrival end of water mixing valve (18), is mixed
Another arrival end input outside cold water source of water valve (18), the output terminal connection tap (19) of water mixing valve (18).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721628033.6U CN207539985U (en) | 2017-11-29 | 2017-11-29 | A kind of wind-force heating device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721628033.6U CN207539985U (en) | 2017-11-29 | 2017-11-29 | A kind of wind-force heating device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207539985U true CN207539985U (en) | 2018-06-26 |
Family
ID=62615785
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721628033.6U Active CN207539985U (en) | 2017-11-29 | 2017-11-29 | A kind of wind-force heating device |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207539985U (en) |
-
2017
- 2017-11-29 CN CN201721628033.6U patent/CN207539985U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN106196697B (en) | Thermoelectricity unit and its peak regulating method associated with steam drive heat pump and regenerative apparatus | |
CN104266250B (en) | Hydraulic damping type wind heating system | |
CN108005741B (en) | Cogeneration system for improving heat supply safety of back condensation and back extraction and adjustment method | |
CN202813788U (en) | Gas water heater | |
CN106287902A (en) | Cogeneration units and peak regulating method thereof associated with electric heat pump and regenerative apparatus | |
CN211008973U (en) | Geothermal energy cascade utilization system | |
CN106247442A (en) | A kind of system utilizing low valley power storage heat supply to heat | |
CN104729178B (en) | Power plant's seawater direct-current cooling system | |
CN210033549U (en) | Zero-output coupled water heat storage peak regulation heat supply system of low-pressure cylinder | |
CN204555381U (en) | A kind of energy and water saving type solar water heater | |
CN108167912A (en) | Wind energy and solar energy composite heating device | |
CN207539985U (en) | A kind of wind-force heating device | |
CN104089407A (en) | Distributed multi-generation device and method based on solar auxiliary gas turbine | |
CN207279766U (en) | A kind of electricity auxiliary solar energy heating combined heating system | |
CN207674551U (en) | A kind of cooling tower antifreezing system for the solidifying pumping back of the body heat supply of steam turbine | |
CN108167913A (en) | Wind-force heating device | |
CN110829470A (en) | Fused salt heat storage-based power grid peak regulation system | |
CN202692429U (en) | Waterway system of direct thermal circulation type heat pump water heater | |
CN207539984U (en) | A kind of wind energy and solar energy composite heating device | |
CN206194384U (en) | Heat supplying system | |
CN212618577U (en) | Gas trigeminy supplies with aquifer energy storage system coupling energy supply system | |
CN105972676B (en) | A kind of recycling condenser waste heat is used for the heat pump system and method for heat supply network moisturizing | |
CN211695122U (en) | Air source heat pump heating system | |
CN205079325U (en) | Hot water supply system of first kind and coupling of second class absorption heat pump | |
CN210068374U (en) | Wind energy and solar energy efficient utilization device |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |