CN106839466B

CN106839466B - A kind of wind, is thermally integrated comprehensive heat supply system at light

Info

Publication number: CN106839466B
Application number: CN201710034407.XA
Authority: CN
Inventors: 刘枭华
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-01-17
Filing date: 2017-01-17
Publication date: 2019-02-19
Anticipated expiration: 2037-01-17
Also published as: CN106839466A

Abstract

The invention discloses a kind of wind, light, it is thermally integrated comprehensive heat supply system, comprising: photovoltaic generating system (1), wind power generation system (2), intelligent recharge and discharge control system (3), Central Control Center (4), solar energy heat distribution system (5), domestic heating system (6) and utility grid device (7).Present invention has the advantages that can effectively solve vast northern country heating in winter problem, to China's sustainable development, control atmosphere pollution and saving non-renewable energy resources generate extremely advantageous great function.

Description

A kind of wind, is thermally integrated comprehensive heat supply system at light

Technical field

The present invention relates to a kind of heating systems, and in particular to Yi Zhongfeng, light, is thermally integrated comprehensive heat supply system.

Background technique

Most of the northern region of China will warm oneself in different ways in winter, and town dweller is generally used concentration The mode of heating, i.e. heating provide thermal energy by burning coal or natural gas, despite the use of preferable environmentally friendly mode, but still It is a part of northern winter pollution；China is that a people in the countryside account for most of country, northerly rural area man simultaneously The even many families of samll cities and towns in front yard are still warmed oneself using coal-fired mode, this be one it is inefficient and extremely pollution environment the fact (because It is huge for user).

Summary of the invention

For the comprehensively solve above problem, especially protection environment, saves non-renewable energy resources and improve heating effect, this hair It is bright provide a kind of wind, light, be thermally integrated comprehensive heat supply system being capable of the comprehensively solve above problem.

To achieve the above object, the present invention uses following technological means:

A kind of wind, is thermally integrated comprehensive heat supply system at light, comprising: photovoltaic generating system, wind power generation system, intelligent charge and discharge Electric control system, Central Control Center, solar energy heat distribution system, domestic heating system and utility grid device；

The photovoltaic generating system includes: photovoltaic electrification component and photovoltaic controller, the photovoltaic electrification component and photovoltaic Controller electrical connection；

The wind power generation system includes: impeller unit, generator and wind power generation controller, the impeller unit setting It is connect above generator with generator drive gear, the generator is electrically connected with electricity generating controller；

The intelligent recharge and discharge control system includes: battery group, intelligent controller and AC inverter, the battery Group is electrically connected with intelligent controller, and the intelligent controller is electrically connected with AC inverter；

The Central Control Center includes: central controller and switchgear house, and the central controller is electrically connected with switchgear house；

The solar energy heat distribution system includes: solar water heater, hot water evacuation valve, hot water thermal insulating tank, temperature control electricity Heater, automatic sensing small pump, solar energy intelligent control center, hot water circulating pump, water temperature sensor circuit conversion lock, heat dissipation Pipe, cold water circulation pump and circulating chilled water switching valve, hot water evacuation valve one end are connect with solar water heater, and the hot water is taken out The empty valve other end is connect with hot water thermal insulating tank, and the temperature control electric heater is set to hot water thermal insulating tank inner bottom and hot water Heat insulation tank connection, the automatic sensing small pump are connect by pipeline with hot water thermal insulating tank, described hot water circulating pump one end and heat The connection of water heat insulation tank, the hot water circulating pump other end are connect with heat-dissipating pipe, and the water temperature sensor circuit conversion lock is set to scattered Heat pipe external bottom end is connect with heat-dissipating pipe, and described cold water circulation pump one end is connect with heat-dissipating pipe, the cold water circulation pump other end It is connect with circulating chilled water switching valve, the circulating chilled water switching valve is connect by pipeline with solar water heater, and the cold water follows Ring switching valve is connect by pipeline with hot water thermal insulating tank, and the hot water evacuation valve, temperature control electric heater, automatic sensing moisturizing Pump, hot water circulating pump, water temperature sensor circuit conversion lock, cold water circulation pump and circulating chilled water switching valve are intelligently controlled with solar energy respectively Center electrical connection processed；

The domestic heating system includes: electrical appliances intelligent control center and household electrical appliance, the electrical appliances intelligent control center It is electrically connected with household electrical appliance；

The photovoltaic controller is electrically connected with battery group, and the wind power generation controller is electrically connected with battery group；Institute Intelligent controller is stated to be electrically connected with central controller, the AC inverter is electrically connected with switchgear house, the central controller with The electrical connection of solar energy intelligent control center, the central controller is electrically connected with electrical appliances intelligent control center, the switchgear house and The electrical connection of utility grid device.

Preferably, the photovoltaic electrification component is using the external photovoltaic electrification component for being equipped with low iron glass layer.

Preferably, the photovoltaic controller is by DC/DC converter, driving coil, transmitting coil, receiving coil, load line Circle, rectification module composition and charging system composition, the DC/DC converter, driving coil, transmitting coil, receiving coil, load Coil, rectification module composition and charging system are sequentially connected electrically.

Preferably, the wind power generation controller is made of kinetic energy converting system, wind energy booster system and charging system, institute Kinetic energy converting system, wind energy booster system and charging system is stated to be sequentially connected electrically.

Preferably, the hot water thermal insulating tank is made of liner, first class of protection layer, second class protection layer and shell, the level-one Protective layer is set to outside liner and connect with liner, and the second class protection layer is set to outside first class of protection layer and first class of protection layer Connection, the shell are set to outside second class protection layer and connect with second class protection layer.

Present invention has the advantages that can effectively solve vast northern country heating in winter problem, to China's sustainable development, Control atmosphere pollution and saving non-renewable energy resources generate extremely advantageous great function.

Detailed description of the invention

Fig. 1 is overall structure diagram of the invention.

Fig. 2 is total system schematic diagram of the invention.

Fig. 3 is photovoltaic generating system schematic diagram of the invention.

Fig. 4 is wind power generation system schematic diagram of the invention.

Fig. 5 is intelligent recharge and discharge control system schematic diagram of the invention.

Fig. 6 is Central Control Center schematic diagram of the invention.

Fig. 7 is solar energy heat distribution system schematic diagram of the invention.

Fig. 8 is domestic heating system schematic diagram of the invention.

Fig. 9 is photovoltaic controller structure connection diagram of the invention.

Figure 10 is wind power generation controller structure connection diagram of the invention.

Figure 11 is hot water thermal insulating jar structure schematic diagram of the invention.

In figure: 1- photovoltaic generating system, 1-1- photovoltaic electrification component, 1-2- and photovoltaic controller, 1-21-DC/DC transformation Device, 1-22- driving coil, 1-23- transmitting coil, 1-24- receiving coil, 1-25- loading coil, 1-26- rectification module composition, 1-27- charging system, 2- wind power generation system, 2-1- impeller unit, 2-2- generator, 2-3- wind power generation controller, 2-31- Kinetic energy converting system, 2-32- wind energy booster system, 2-33- charging system, 3- intelligent recharge and discharge control system, 3-1- battery Group, 3-2- intelligent controller, 3-3- AC inverter, 4- Central Control Center, 4-1- central controller, 4-2- switchgear house, 5- Solar energy heat distribution system, 5-1- solar water heater, 5-2- hot water evacuation valve, 5-3- hot water thermal insulating tank, 5-31- liner, 5-32- First class of protection layer, 5-33- second class protection layer, 5-34- shell, 5-4- temperature control electric heater, 5-5- automatic sensing small pump, 5-6- solar energy intelligent control center, 5-7- hot water circulating pump, 5-8- water temperature sensor circuit convert lock, 5-9- heat-dissipating pipe, 5-10- Cold water circulation pump, 5-11- circulating chilled water switching valve, 6- domestic heating system, 6-1- electrical appliances intelligent control center, 6-2- household electric Device, utility grid device 7.

Specific embodiment

The present invention will be further described with reference to the accompanying drawing.

As shown in Figure 1 to 11, the present invention includes: photovoltaic generating system 1, wind power generation system 2, intelligent recharge and discharge control System 3, Central Control Center 4, solar energy heat distribution system 5, domestic heating system 6 and utility grid device 7；

The photovoltaic generating system 1 includes: photovoltaic electrification component 1-1 and photovoltaic controller 1-2, the photovoltaic electrification component 1-1 is electrically connected with photovoltaic controller 1-2；

The wind power generation system 2 includes: impeller unit 2-1, generator 2-2 and wind power generation controller 2-3, the leaf Wheel apparatus 2-1 is set to above generator 2-2 and is sequentially connected with generator 2-2, the generator 2-2 and electricity generating controller 2-3 Electrical connection；

The intelligent recharge and discharge control system 3 includes: battery group 3-1, intelligent controller 3-2 and AC inverter 3-3, The battery group 3-1 is electrically connected with intelligent controller 3-2, and the intelligent controller 3-2 is electrically connected with AC inverter 3-3；

The Central Control Center 4 includes: central controller 4-1 and switchgear house 4-2, the central controller 4-1 and match Electric room 4-2 electrical connection；

The solar energy heat distribution system 5 include: solar water heater 5-1, hot water evacuation valve 5-2, hot water thermal insulating tank 5-3, Temperature controls electric heater 5-4, automatic sensing small pump 5-5, solar energy intelligent control center 5-6, hot water circulating pump 5-7, water Warming answers circuit conversion lock 5-8, heat-dissipating pipe 5-9, cold water circulation pump 5-10 and circulating chilled water switching valve 5-11, the hot water to evacuate The one end valve 5-2 is connect with solar water heater 5-1, and the hot water evacuation valve 5-2 other end is connect with hot water thermal insulating tank 5-3, institute Temperature control electric heater 5-4 is stated to be set to hot water thermal insulating tank 5-3 inner bottom and connect with hot water thermal insulating tank 5-3, it is described automatically Induction small pump 5-5 is connect by pipeline with hot water thermal insulating tank 5-3, the one end the hot water circulating pump 5-7 and hot water thermal insulating tank 5-3 Connection, the hot water circulating pump 5-7 other end are connect with heat-dissipating pipe 5-9, and the water temperature sensor circuit conversion lock 5-8 is set to scattered Heat pipe 5-9 external bottom end is connect with heat-dissipating pipe 5-9, and the one end the cold water circulation pump 5-10 is connect with heat-dissipating pipe 5-9, the cold water The circulating pump 5-10 other end is connect with circulating chilled water switching valve 5-11, and the circulating chilled water switching valve 5-11 passes through pipeline and the sun Energy water heater 5-1 connection, the circulating chilled water switching valve 5-11 are connect by pipeline with hot water thermal insulating tank 5-3, and the hot water is taken out Empty valve 5-2, temperature control electric heater 5-4, automatic sensing small pump 5-5, hot water circulating pump 5-7, the conversion of water temperature sensor circuit Lock 5-8, cold water circulation pump 5-10 and circulating chilled water switching valve 5-11 are electrically connected with solar energy intelligent control center 5-6 respectively；

The domestic heating system 6 includes: electrical appliances intelligent control center 6-1 and household electrical appliance 6-2, and the household electrical appliances are intelligently controlled Center 6-1 processed is electrically connected with household electrical appliance 6-2；

The photovoltaic controller 1-2 is electrically connected with battery group 3-1, the wind power generation controller 2-3 and battery group 3-1 electrical connection；The intelligent controller 3-2 is electrically connected with central controller 4-1, the AC inverter 3-3 and switchgear house 4-2 Electrical connection, the central controller 4-1 are electrically connected with solar energy intelligent control center 5-6, the central controller 4-1 and household electrical appliances Intelligent control center 6-1 electrical connection, the switchgear house 4-2 are electrically connected with utility grid device 7.

The photovoltaic electrification component 1-1 is using the external photovoltaic electrification component for being equipped with low iron glass layer, using low iron glass Glass is covered on solar battery on piece, and more light can be made to penetrate, generate more electric energy.

The photovoltaic controller 1-2 is by DC/DC converter 1-21, driving coil 1-22, transmitting coil 1-23, receiving coil 1-24, loading coil 1-25, rectification module composition 1-26 and charging system 1-27 composition, the DC/DC converter 1-21, driving Coil 1-22, transmitting coil 1-23, receiving coil 1-24, loading coil 1-25, rectification module form 1-26 and charging system 1- 27 are sequentially connected electrically, and what the photovoltaic controller 1-2 being made of above structure was capable of safety and stability is transformed into electric energy luminous energy.

The wind power generation controller 2-3 is by kinetic energy converting system 2-31, wind energy booster system 2-32 and charging system 2- 33 compositions, the kinetic energy converting system 2-31, wind energy booster system 2-32 and charging system 2-33 are sequentially connected electrically, by above-mentioned knot What the wind power generation controller 2-3 of structure composition was capable of safety and stability is transformed into electric energy wind energy.

The hot water thermal insulating tank 5-3 is by liner 5-31, first class of protection layer 5-32, second class protection layer 5-33 and shell 5-34 group At the first class of protection layer 5-32 is set to outside liner 5-31 and connect with liner 5-31, the second class protection layer 5-33 setting It is connect outside first class of protection layer 5-32 with first class of protection layer 5-32, the shell 5-34 is set to outside second class protection layer 5-33 Connect with second class protection layer 5-33, the hot water thermal insulating tank 5-3 is set to open air, the water temperature in tank by external environment influenced compared with Greatly, first class of protection layer 5-32 and second class protection layer 5-33 is effective to ensure that the heat in tank is not outer and dissipates, the shell 5-34 Hot water thermal insulating tank 5-3 can be protected not by the destruction of extraneous physics, moreover it is possible to guarantee that the heat in tank is not outer progressively and dissipate.

Daytime, solar energy heat distribution system 5 collect energy heats water temperature, are sent out with photovoltaic generating system 1 and wind power generation system 2 Electric drive water pump warms oneself to heating indoor by hot water circuit.A large amount of photovoltaic, wind energy electric power are stored simultaneously.

Night recycles the hot water that daytime heats in heat supply pipeline, warms oneself to heating indoor, insufficient in the temperature of hot water When to provide heat using daytime storage electric power heating pipe in water temperature continue heat supply (or directly using storage Electric power is by air-conditioning or warm-air drier heat supply).

Cloudy day, wind and snow weather, when this when, often wind was very powerful, wind power generation system 2 directly provides electric power, It is warmed oneself by the water in air-conditioning, air-heater, heating pipe to heating indoor.

When encountering extreme weather, electric power is directly provided by utility grid device 7, passes through air-conditioning, air-heater, heating pipe Interior water warms oneself to heating indoor.

Above-mentioned specific embodiment be only to clearly illustrate example of the present invention, and not to embodiment It limits.For those of ordinary skill in the art, other different forms can also be made on the basis of the above description Variation or variation, there is no necessity and possibility to exhaust all the enbodiments, and thus amplifies out apparent Variation or change still in protection scope of the present invention.

Claims

1. a kind of wind, is thermally integrated comprehensive heat supply system at light characterized by comprising photovoltaic generating system (1), wind power generation system System (2), intelligent recharge and discharge control system (3), Central Control Center (4), solar energy heat distribution system (5), domestic heating system (6) With utility grid device (7)；

The photovoltaic generating system (1) includes: photovoltaic electrification component (1-1) and photovoltaic controller (1-2), the photovoltaic power generation group Part (1-1) is electrically connected with photovoltaic controller (1-2)；

The wind power generation system (2) includes: impeller unit (2-1), generator (2-2) and wind power generation controller (2-3), institute Impeller unit (2-1) is stated to be set to above generator (2-2) and generator (2-2) transmission connection, the generator (2-2) and wind Power electricity generating controller (2-3) electrical connection；

The intelligent recharge and discharge control system (3) includes: battery group (3-1), intelligent controller (3-2) and AC inverter (3-3), the battery group (3-1) are electrically connected with intelligent controller (3-2), the intelligent controller (3-2) and ac converter Device (3-3) electrical connection；

The Central Control Center (4) includes: central controller (4-1) and switchgear house (4-2), the central controller (4-1) It is electrically connected with switchgear house (4-2)；

The solar energy heat distribution system (5) includes: solar water heater (5-1), hot water evacuation valve (5-2), hot water thermal insulating tank (5- 3), temperature controls electric heater (5-4), automatic sensing small pump (5-5), solar energy intelligent control center (5-6), hot water circuit Pump (5-7), water temperature sensor circuit conversion lock (5-8), heat-dissipating pipe (5-9), cold water circulation pump (5-10) and circulating chilled water switching valve (5-11), described hot water evacuation valve one end (5-2) are connect with solar water heater (5-1), and the hot water evacuation valve (5-2) is another End is connect with hot water thermal insulating tank (5-3), and temperature control electric heater (5-4) is set to hot water thermal insulating tank (5-3) inner bottom End is connect with hot water thermal insulating tank (5-3), and the automatic sensing small pump (5-5) is connect by pipeline with hot water thermal insulating tank (5-3), Described hot water circulating pump one end (5-7) is connect with hot water thermal insulating tank (5-3), hot water circulating pump (5-7) other end and heat dissipation (5-9) connection is managed, water temperature sensor circuit conversion lock (5-8) is set to heat-dissipating pipe (5-9) external bottom end and heat-dissipating pipe (5-9) Connection, described cold water circulation pump one end (5-10) connect with heat-dissipating pipe (5-9), cold water circulation pump (5-10) other end with it is cold Water recycles switching valve (5-11) connection, and the circulating chilled water switching valve (5-11) is connected by pipeline and solar water heater (5-1) It connecing, the circulating chilled water switching valve (5-11) is connect by pipeline with hot water thermal insulating tank (5-3), the hot water evacuation valve (5-2), Temperature controls electric heater (5-4), automatic sensing small pump (5-5), hot water circulating pump (5-7), water temperature sensor circuit conversion lock (5-8), cold water circulation pump (5-10) and circulating chilled water switching valve (5-11) are electrically connected with solar energy intelligent control center (5-6) respectively It connects；

The domestic heating system (6) includes: electrical appliances intelligent control center (6-1) and household electrical appliance (6-2), the household electrical appliances intelligence Control centre (6-1) is electrically connected with household electrical appliance (6-2)；

The photovoltaic controller (1-2) is electrically connected with battery group (3-1), the wind power generation controller (2-3) and battery Group (3-1) electrical connection；The intelligent controller (3-2) is electrically connected with central controller (4-1), the AC inverter (3-3) Be electrically connected with switchgear house (4-2), the central controller (4-1) is electrically connected with solar energy intelligent control center (5-6), it is described in Centre controller (4-1) is electrically connected with electrical appliances intelligent control center (6-1), and the switchgear house (4-2) is electrically connected with utility grid device (7) It connects.

2. a kind of wind as described in claim 1, is thermally integrated comprehensive heat supply system at light, which is characterized in that the photovoltaic power generation group Part (1-1) is using the external photovoltaic electrification component for being equipped with low iron glass layer.

3. a kind of wind as described in claim 1, is thermally integrated comprehensive heat supply system at light, which is characterized in that the photovoltaic controller (1-2) is by DC/DC converter (1-21), driving coil (1-22), transmitting coil (1-23), receiving coil (1-24), load line Enclose (1-25), rectification module composition (1-26) and charging system (1-27) composition, the DC/DC converter (1-21), driving line Circle (1-22), transmitting coil (1-23), receiving coil (1-24), loading coil (1-25), rectification module form (1-26) and fill Electric system (1-27) is sequentially connected electrically.

4. a kind of wind as described in claim 1, is thermally integrated comprehensive heat supply system at light, which is characterized in that the wind-power electricity generation control Device (2-3) processed is made of kinetic energy converting system (2-31), wind energy booster system (2-32) and charging system (2-33), the kinetic energy Converting system (2-31), wind energy booster system (2-32) and charging system (2-33) are sequentially connected electrically.

5. a kind of wind as described in claim 1, is thermally integrated comprehensive heat supply system at light, which is characterized in that the hot water thermal insulating tank (5-3) is made of liner (5-31), first class of protection layer (5-32), second class protection layer (5-33) and shell (5-34), the level-one Protective layer (5-32) is set to outside liner (5-31) and connect with liner (5-31), and the second class protection layer (5-33) is set to one It is connect outside grade protective layer (5-32) with first class of protection layer (5-32), the shell (5-34) is set to second class protection layer (5-33) Outside is connect with second class protection layer (5-33).