阅读说明：本技术 一种风光互补取暖系统 (Wind-solar hybrid heating system ) 是由 水晨玉 于 2021-07-19 设计创作，主要内容包括：本发明公开了一种风光互补取暖系统,包括电力系统、供热系统、补热系统、换热器和采暖系统,所述电力系统与补热系统电连接,所述供热系统与换热器相连接,所述采暖系统与换热器相连接；所述电力系统包括光伏电板、风力发电、蓄电组、电源箱、控制器和控制开关,所述蓄电组设于电源箱内,所述光伏电板和风力发电均与蓄电组电连接,所述控制器设于电源箱内,所述控制开关与控制器电连接。本发明属于节能采暖技术领域,具体是指一种利用太阳能和风能发电、太阳能供暖、智能调控室温、节能减排的风光互补取暖系统。(The invention discloses a wind-solar complementary heating system which comprises an electric power system, a heating system, a heat supplementing system, a heat exchanger and a heating system, wherein the electric power system is electrically connected with the heat supplementing system; the power system comprises a photovoltaic panel, a wind power generation unit, a power storage unit, a power box, a controller and a control switch, wherein the power storage unit is arranged in the power box, the photovoltaic panel and the wind power generation unit are electrically connected with the power storage unit, the controller is arranged in the power box, and the control switch is electrically connected with the controller. The invention belongs to the technical field of energy-saving heating, and particularly relates to a wind-solar hybrid heating system which utilizes solar energy and wind energy to generate electricity, solar energy to heat, intelligently regulate and control room temperature, save energy and reduce emission.)

1. The utility model provides a complementary heating system of scene which characterized in that: the system comprises an electric power system, a heat supply system, a heat supplementing system, a heat exchanger and a heating system, wherein the electric power system is electrically connected with the heat supplementing system, the heat supply system is connected with the heat exchanger, and the heating system is connected with the heat exchanger; the power system comprises a photovoltaic panel, a wind power generation unit, a power storage unit, a power box, a controller and a control switch, wherein the power storage unit is arranged in the power box, the photovoltaic panel and the wind power generation unit are electrically connected with the power storage unit, the controller is arranged in the power box, and the control switch is electrically connected with the controller.

2. The wind-solar hybrid heating system according to claim 1, wherein: the heating system comprises a solar water heater, a water supply pipe I and a water return pipe I, wherein the water supply pipe I and the water return pipe I are both arranged on the solar water heater and are both connected with the heat exchanger.

3. The wind-solar hybrid heating system of claim 2, wherein: the concurrent heating system includes water tank, heater, moisturizing pipe, water pump and wet return two, the heater is located in the water tank, the moisturizing pipe links to each other with the water tank and is connected with feed pipe one, the water pump is located on the moisturizing pipe, water tank and wet return one are connected to wet return two.

4. The wind-solar hybrid heating system according to claim 3, wherein: the heating system comprises a water collecting and distributing device, heating radiators and ground heating pipes, wherein the water collecting and distributing device is connected with a heat exchanger pipeline, and the heating radiators and the ground heating pipes are connected with the water collecting and distributing device.

5. The wind-solar hybrid heating system according to claim 4, wherein: the water replenishing pipe is provided with a one-way valve II, the water return pipe II is provided with a one-way valve I, the one-way valve passes in one direction towards the water tank, and the one-way valve passes in one direction towards the water supply pipe.

6. The wind-solar hybrid heating system according to claim 5, wherein: and circulating pumps are arranged on the first water return pipe and the pipeline between the water collecting and distributing device and the heat exchanger.

7. The wind-solar hybrid heating system according to claim 6, wherein: and the first water return pipe is provided with a temperature controller which is in signal connection with the controller.

Technical Field

The invention belongs to the technical field of energy-saving heating, and particularly relates to a wind-solar hybrid heating system.

Background

In northern remote areas, due to dispersed living, remote places and small electricity consumption, electric power companies cannot guarantee all-weather power supply, meanwhile, residents do not have special heating equipment for heating, heating in winter mainly depends on a raw furnace or coal burning, however, certain potential safety hazards exist in coal burning, people are easily poisoned if ventilation is not smooth, even coma can be caused, life safety is threatened, in addition, waste gas generated by coal burning generates certain harm to human health, the waste gas contains a large amount of harmful substances such as flying dust, sulfur dioxide and carbon monoxide, environment pollution is also easily caused, and the concept of using clean energy is not met by the nation.

Disclosure of Invention

In order to solve the problems, the invention provides a wind-solar hybrid heating system which utilizes solar energy and wind energy to generate power, solar energy to supply heat, intelligently regulate and control room temperature, save energy and reduce emission.

In order to realize the functions, the technical scheme adopted by the invention is as follows: a wind-solar complementary heating system comprises an electric power system, a heat supply system, a heat supplementing system, a heat exchanger and a heating system, wherein the electric power system is electrically connected with the heat supplementing system, the heat supply system is connected with the heat exchanger, and the heating system is connected with the heat exchanger; the power system comprises a photovoltaic panel, a wind power generation unit, a power storage unit, a power box, a controller and a control switch, wherein the power storage unit is arranged in the power box, the photovoltaic panel and the wind power generation unit are electrically connected with the power storage unit, the controller is arranged in the power box, and the control switch is electrically connected with the controller.

Furthermore, the heat supply system comprises a solar water heater, a water supply pipe I and a water return pipe I, wherein the water supply pipe I and the water return pipe I are both arranged on the solar water heater and are both connected with the heat exchanger.

Further, the concurrent heating system includes water tank, heater, moisturizing pipe, water pump and wet return two, the heater is located in the water tank, the moisturizing pipe links to each other with the water tank and is connected with water supply pipe one, the water pump is located on the moisturizing pipe, water tank and wet return one are connected to wet return two.

Furthermore, the heating system comprises a water collecting and distributing device, heating radiators and ground heating pipes, wherein the water collecting and distributing device is connected with a heat exchanger pipeline, and the heating radiators and the ground heating pipes are connected with the water collecting and distributing device.

Furthermore, a check valve II is arranged on the water replenishing pipe, a check valve I is arranged on the water return pipe II, the check valve passes in one direction towards the water tank, and the check valve passes in one direction towards the water supply pipe.

Furthermore, circulating pumps are arranged on the first water return pipe and the pipeline between the water collecting and distributing device and the heat exchanger.

Furthermore, a temperature controller is arranged on the first water return pipe and is in signal connection with the controller.

The invention adopts the structure to obtain the following beneficial effects: according to the wind-solar hybrid heating system, the power system is arranged, electricity can be generated and stored through wind energy or solar energy, energy is saved, the heating system provides circulating hot water to the heating system through heat exchange of the heat exchanger, the heat supplementing system is used for preventing the electric power storage group from heating the heater when the heating system is insufficient in heat supply, and the heat supply stability of the heating system is guaranteed.

Drawings

Fig. 1 is a schematic overall structure diagram of a wind-solar hybrid heating system according to the invention.

The solar energy water heater comprises a power system 1, a power system 2, a heat supply system 3, a heat exchanger 4, a heat supplementing system 5, a heating system 6, a photovoltaic panel 7, wind power generation 8, a power supply box 9, an electricity storage group 10, a controller 11, a control switch 12, a solar water heater 13, a water supply pipe I, a water return pipe I, a water tank 15, a water tank 16, a heater 17, a water supplementing pipe 18, a water pump 19, a water return pipe II, a water distributing device 20, a water distributing device 21, a radiator 22, a ground heating pipe 23, a check valve I, a check valve II, a check valve 25, a circulating pump 26 and a temperature controller.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the wind-solar hybrid heating system of the present invention includes an electric power system 1, a heating system 2, a heat supplementing system 4, a heat exchanger 3 and a heating system 5, wherein the electric power system 1 is electrically connected to the heat supplementing system 4, the heating system 2 is connected to the heat exchanger 3, and the heating system 5 is connected to the heat exchanger 3; the power system 1 comprises a photovoltaic panel 6, a wind power generation 7, a power storage group 9, a power box 8, a controller 10 and a control switch 11, the power storage group 9 is arranged in the power box 8, the photovoltaic panel 6 and the wind power generation 7 are electrically connected with the power storage group 9, the controller 10 is arranged in the power box 8, and the control switch 11 is electrically connected with the controller 10.

The heating system 2 comprises a solar water heater 12, a water supply pipe I13 and a water return pipe I14, wherein the water supply pipe I13 and the water return pipe I14 are both arranged on the solar water heater 12 and are both connected with the heat exchanger 3.

The heat supplementing system 4 comprises a water tank 15, a heater 16, a water supplementing pipe 17, a water pump 18 and a water return pipe II 19, wherein the heater 16 is arranged in the water tank 15, the water supplementing pipe 17 is connected with the water tank 15 and is connected with a water supply pipe I13, the water pump 18 is arranged on the water supplementing pipe 17, and the water return pipe II 19 is connected with the water tank 15 and a water return pipe I14.

The heating system 5 comprises a water collecting and distributing device 20, heating radiators 21 and ground heating pipes 22, wherein the water collecting and distributing device 20 is connected with the heat exchanger 3 through pipelines, and the heating radiators 21 and the ground heating pipes 22 are connected with the water collecting and distributing device 20.

The water replenishing pipe 17 is provided with a one-way valve II 24, the water return pipe II 19 is provided with a one-way valve I23, the one-way valve I23 passes towards the water tank 15 in a one-way mode, and the one-way valve II 24 passes towards the water supply pipe I13 in a one-way mode.

And circulating pumps 25 are arranged on the water return pipe I14 and on pipelines between the water collecting and distributing device 20 and the heat exchanger 3.

A temperature controller 26 is arranged on the first water return pipe 14, and the temperature controller 26 is in signal connection with the controller 10.

When the solar water heater is used specifically, electric energy generated by the wind power generation 7 and the photovoltaic panel 6 is stored in the electricity storage group 9 for standby, hot water generated by the solar water heater 12 is supplied to the heat exchanger 3 through the circulating pump 25, the heating system 5 is subjected to heat exchange through the heat exchanger 3 through internal circulation of the circulating pump 25 to achieve the purpose of heating the ground heating pipe 22 or the heating radiator 21, the temperature controller 26 on the water return pipe I14 monitors the temperature of the returned water in the heat exchanger 3 in real time, when the temperature is lower than a set value, the heat supply of the solar water heater 12 is insufficient at the moment, the controller 10 can turn on the control switch 11 at the moment, the heater 16 heats water in the water tank 15, the water is conveyed to the water supply pipe I13 through the water pump 18 to participate in circulating heat supply, and redundant water in the solar water flows back to the water tank 15 through the water return pipe II 19.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.