CN203824128U - Solar water heater provided with wind power generation assembly - Google Patents

Abstract

The utility model discloses a solar water heater provided with a wind power generation assembly. The solar water heater comprises a support, a water tank, a solar assembly, the wind power generation assembly and an electricity storage device, wherein the water tank comprises an electric heater; the solar assembly is electrically connected with the electric heater; the electricity storage device is electrically connected with the solar assembly, the wind power generation assembly and the electric heater, and comprises a battery, a control circuit, an input interface and an output interface; the wind power generation assembly is electrically connected with the battery through the input interface; the battery is electrically connected with the electric heater through the output interface; and the control circuit is electrically connected with the battery, the input interface and the output interface and used for controlling charging and discharging of the battery. According to the water heater, wind power is converted into the electric energy by the wind power generation assembly, and the electric energy is stored in the battery, so that the electric heater is powered at night or in the rainy day, hot water is continuously provided for users, accordingly, not only is great convenience provided for the users, but also the purposes of environment protection and energy conservation can be further achieved.

Description

Solar water heater with wind-power electricity generation assembly

Technical field

The utility model relates to field of water heaters, relates in particular to a kind of solar water heater with wind-power electricity generation assembly.

Background technology

Along with the development of heliotechnics, solar water heater has entered huge numbers of families, and has feature pollution-free and that save the energy, for people's life has brought convenience.But overcast and rainy, there is no the irradiation of sunlight, the solar components in solar water heater can not produce electric energy, water cannot be burnt to heat, for people's use has brought inconvenience, how can avoid above-mentioned situation and be needing in a hurry at present the problem solving.

Utility model content

The purpose of this utility model is to solve in prior art and can not produces electric energy at night and overcast and rainy solar components, water cannot be burnt to heat, has brought inconvenient problem to user's use.

For addressing the above problem, the utility model provides following technical scheme.

A kind of solar water heater with wind-power electricity generation assembly is provided, it comprises support, water tank, solar components, at least one wind-power electricity generation assembly and electrical storage device, described water tank is installed on the top of described support and comprises electric heater, described solar components is installed on the sidewall of described support and is electrically connected with described electric heater, described wind-power electricity generation assembly is installed on the end of a described top of the trellis and is electrically connected with described electrical storage device, described electrical storage device respectively with described solar components, described wind-power electricity generation assembly and described electric heater are electrically connected, described electrical storage device comprises battery, control circuit, input interface and output interface, described wind-power electricity generation assembly is electrically connected by described input interface and described battery, described battery is electrically connected by described output interface and described electric heater, described control circuit and described battery, described input interface and described output interface are electrically connected, for controlling the charge and discharge of described battery.

Preferably, described control circuit comprises charging circuit and discharge circuit, and described charging circuit and described battery and described input interface are electrically connected, for controlling the charging of described battery, described discharge circuit and described battery and described output interface are electrically connected, for controlling the electric discharge of described battery.

Preferably, described solar components is electrically connected by described input interface and described battery, for by unnecessary electrical power storage in described battery.

Preferably, described wind-power electricity generation assembly comprises head, empennage and blade, and one end of described head is connected with described blade, and the other end of described head is connected with described empennage.

Preferably, described head is comprised of rotor and stator, and described rotor is installed in described stator.

The solar water heater with wind-power electricity generation assembly that the utility model provides, by the end of a top of the trellis, described wind-power electricity generation assembly being installed, is converted to electrical power storage in battery by wind energy.At night or overcast and rainy, powered battery to electric heater with the water in heating water tank, thereby to user, continue to provide hot water, this has brought great convenience at night or overcast and rainy use hot water not only to user, but also can reach the object of environmental protection and energy saving.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical solution of the utility model, to the accompanying drawing of required use in embodiment be briefly described below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain from these accompanying drawings other accompanying drawing.

Figure l is the schematic diagram of the solar water heater with wind-power electricity generation assembly that provides of the utility model.

Fig. 2 is the schematic diagram of the wind-power electricity generation assembly in Fig. 1.

Fig. 3 is the module diagram of electrical storage device.

The specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described.

Please with reference to Fig. 1 to Fig. 3, the solar water heater 100 with wind-power electricity generation assembly that the utility model provides comprises support 10, water tank 20, solar components 30, at least one wind-power electricity generation assembly 40 and electrical storage device 50.

As shown in Figure 1, the cross section of described support 10 is reverse V-shaped, and described water tank 20 is loaded on the top of described support 10, and described wind-power electricity generation assembly 40 is installed on the end at described support 10 tops and is electrically connected with described electrical storage device 50.

A kind of preferred embodiment in, described wind-power electricity generation assembly 40 is installed on the end at described support 10 tops by bracing frame 12.In other words, with the solar water heater 100 of wind-power electricity generation assembly, also comprise bracing frame 12, support frame as described above 12 is installed on the end at described support 10 tops.In other embodiments, described wind-power electricity generation assembly 40 also can directly be installed on the end at described support 10 tops.

In other embodiments, the described solar water heater 100 with wind-power electricity generation assembly comprises a pair of described wind-power electricity generation assembly 40, and described in each, wind-power electricity generation assembly 40 is installed on two ends at described support 10 tops.

Described water tank 20 is for water storage and comprise electric heater 22, and described electric heater 22 is for heating the water of water tank 20 to be user-friendly to.

Described solar components 30 is installed on the sidewall of described support 10 and is electrically connected with described electric heater 22.As long as there is solar irradiation to be mapped to described solar panel assembly 30, described solar panel assembly 30 can be just electric energy by transform light energy, and is transferred to described electric heater 22, thereby by the water heating in water tank 20.And described solar panel assembly 30 is also electrically connected with described electrical storage device 50, when the water in water tank 20 reaches certain temperature, as 80 degree, described solar panel assembly 30 can also be by unnecessary electrical power storage in electrical storage device 50.

Please also refer to Fig. 1 and Fig. 3, described wind-power electricity generation assembly 40 is for being converted to wind energy electric energy and being stored in described electrical storage device 50, no matter be fine day, overcast and rainy or night, described wind-power electricity generation assembly 40 all can be converted to wind energy electric energy and be stored in described electrical storage device 50.Described electrical storage device 50 is electrically connected with described solar components 30, described wind-power electricity generation assembly 40 and described electric heater 22 respectively.Described electrical storage device 50 comprises battery 51, control circuit 52, input interface 53 and output interface 54, described wind-power electricity generation assembly 40 is electrically connected by described input interface 53 and described battery 51, described battery 51 is electrically connected by described output interface 54 and described electric heater 22, described control circuit 52 is electrically connected with described battery 51, described input interface 53 and described output interface 54, for controlling the charge and discharge of described battery 51.At night or overcast and rainy, the electric energy that battery 51 is stored in described wind-power electricity generation assembly 40 and described solar panel assembly 30 is wherein supplied with described electric heater 22, and described electric heater 22, by the water heating of water tank 20, uses for user.In other words, even without solar energy impinges to described solar panel assembly 30, the hot water that still can provide of water heater 100 of the present utility model is used to user.

As can be seen here, the solar water heater 100 with wind-power electricity generation assembly that the utility model provides, by the end at a top of the trellis, increase described wind-power electricity generation assembly 40, no matter at fine day, overcast and rainy or night, described wind-power electricity generation assembly 40 can be converted to electric energy by the wind energy of the Nature and be stored in battery 51, and power to described electric heater 22 with the water in heating water tank 20, thereby can provide hot water to user, greatly improved the convenience that user uses, and then solved in prior art because not causing user without the problem of hot water use water heating without solar energy impinges.

As further improvement of the utility model, described control circuit 52 comprises charging circuit and discharge circuit, described charging circuit and described battery 51 and described input interface 53 are electrically connected, for controlling the charging of described battery 51, described discharge circuit and described battery 51 and described output interface are electrically connected, for controlling the electric discharge of described battery 51.

As further improvement of the utility model, described solar components 30 is electrically connected by described input interface 53 and described battery 51, for by unnecessary electrical power storage in described battery 51.

Because described solar components 30 can be by unnecessary electrical power storage in battery 51, and power supply to described electric heater 22 with the water in heating water tank 20, thereby solar water heater 100 with wind-power electricity generation assembly of the present utility model has further ensured that user is in night and the overcast and rainy demand to hot water.

Please also refer to Fig. 1 and Fig. 2, as further improvement of the utility model, described wind-power electricity generation assembly 40 comprises head 41, empennage 42 and blade 43, and one end of described head 41 is connected with described blade 43, and the other end of described head 41 is connected with described empennage 42.

Further, described head 41 is comprised of rotor 410 and stator 412, and described rotor 410 is installed in described stator 412.

During use, at fine day, when solar energy abundance, the solar water heater 100 with wind-power electricity generation assembly of the present utility model is electric energy by described solar panel assembly 30 by transform light energy, and power supply to described electric heater 22 with the water in heating water tank 20, thereby to user, provide hot water.Meanwhile, described solar panel assembly 30 again can be by unnecessary electrical power storage in battery 51.At fine day, overcast and rainy or night, as long as there is wind, the solar water heater 100 with wind-power electricity generation assembly of the present utility model is converted to electric energy by wind energy and is stored in battery 51 by described wind-power electricity generation assembly 40.At night or overcast and rainy, when there is no solar energy, battery 51 by power supply to described electric heater 22 with the water in heating water tank 20, thereby to user, provide hot water.

The solar water heater 100 with wind-power electricity generation assembly that the utility model provides, by described wind-power electricity generation assembly 40 being installed in the end at support 10 tops, is converted to electrical power storage in battery 51 by wind energy.Meanwhile, described solar panel assembly 30 can be by unnecessary electrical power storage in battery 51.In the situation that there is no solar energy, as night or overcast and rainy, battery 51 will be powered to described electric heater 22 with the water in heating water tank 20, thereby continue to provide hot water to user, this has brought great convenience at night or overcast and rainy use hot water not only to user, but also can reach the object of environmental protection and energy saving.

The above is preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, do not departing under the prerequisite of the utility model principle; can also make some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.

Claims (5)

1. the solar water heater with wind-power electricity generation assembly, it is characterized in that, described water heater comprises support, water tank, solar components, at least one wind-power electricity generation assembly and electrical storage device, described water tank is installed on the top of described support and comprises electric heater, described solar components is installed on the sidewall of described support and is electrically connected with described electric heater, described wind-power electricity generation assembly is installed on the end of a described top of the trellis and is electrically connected with described electrical storage device, described electrical storage device respectively with described solar components, described wind-power electricity generation assembly and described electric heater are electrically connected, described electrical storage device comprises battery, control circuit, input interface and output interface, described wind-power electricity generation assembly is electrically connected by described input interface and described battery, described battery is electrically connected by described output interface and described electric heater, described control circuit and described battery, described input interface and described output interface are electrically connected, for controlling the charge and discharge of described battery.

2. the solar water heater with wind-power electricity generation assembly as claimed in claim 1, it is characterized in that, described control circuit comprises charging circuit and discharge circuit, described charging circuit and described battery and described input interface are electrically connected, for controlling the charging of described battery, described discharge circuit and described battery and described output interface are electrically connected, for controlling the electric discharge of described battery.

3. the solar water heater with wind-power electricity generation assembly as claimed in claim 1, is characterized in that, described solar components is electrically connected by described input interface and described battery, for by unnecessary electrical power storage in described battery.

4. the solar water heater with wind-power electricity generation assembly as claimed in claim 1, is characterized in that, described wind-power electricity generation assembly comprises head, empennage and blade, and one end of described head is connected with described blade, and the other end of described head is connected with described empennage.

5. the solar water heater with wind-power electricity generation assembly as claimed in claim 4, is characterized in that, described head is comprised of rotor and stator, and described rotor is installed in described stator.