CN203596785U

CN203596785U - Wind-solar hybrid power supply and heating apparatus

Info

Publication number: CN203596785U
Application number: CN201320818484.1U
Authority: CN
Inventors: 贾永兴; 张平; 于芳; 房亚军; 谢天磊
Original assignee: Shanghai Dianji University
Current assignee: Shanghai Dianji University
Priority date: 2013-12-13
Filing date: 2013-12-13
Publication date: 2014-05-14
Anticipated expiration: 2023-12-13

Abstract

The utility model discloses a wind-solar hybrid power supply and heating apparatus which comprises a solar cell panel, a wind driven generator and a control box. The solar cell panel is disposed on the roof, and is used for converting collected light energy into electric energy and transmitting the electric energy to a storage battery in the control box. The wind driven generator is disposed outside a house, and is used for converting collected wind energy into electric energy and transmitting the electric energy to the storage battery. The control box further includes a controller. The controller is electrically connected with the solar cell panel, the wind driven generator, the storage battery and the heating equipment. The heating equipment includes a heating unit. A temperature sensor, a PVC vacuum envelop and an electrothermal film disposed in the PVC vacuum envelop are disposed in the heating unit. The temperature sensor is electrically connected with the controller, and I used for detecting the indoor temperature and generating a temperature signal which is transmitted to the controller. The controller, after receiving the temperature signal, compares the temperature signal with a first temperature threshold, and if the temperature signal is lower than the first temperature threshold, the controller controls the electrothermal film to be heated for heating.

Description

A kind of power supply heating installation of wind light mutual complementing

Technical field

The utility model relates to technical field of new energies, specifically, is a kind of power supply heating installation of wind light mutual complementing.

Background technology

In remote districts, the north, some resident families are because it is sparsely populated, remote, power consumption is little, and therefore Utilities Electric Co. cannot guarantee round-the-clock power supply.Those resident families do not have again special heater unit to warm oneself simultaneously.The heating in winter is mainly to rely on light stove or burn coal, but has certain potential safety hazard but burn coal, does not freely easily make people poisoning if ventilate, and even may cause stupor threat to life safety.In addition the coal-fired waste gas producing produces certain harm to health, contains the harmful substances such as a large amount of floating dusts, sulfur dioxide and carbon monoxide, also easily to environment in described waste gas.

Utility model content

The purpose of this utility model is, a kind of power supply heating installation of wind light mutual complementing is provided, and it can be converted into electric energy by wind energy and solar energy, and utilizes its power supply heating, accomplishes to utilize substantially new forms of energy.

For achieving the above object, the utility model by the following technical solutions.

A power supply heating installation for wind light mutual complementing, comprises solar panel, wind-driven generator and control cabinet; Described solar panel is arranged on roof, in order to being electric energy by the light energy conversion of collection, and is sent in the storage battery in described control cabinet; Described wind-driven generator setting without, in order to being electric energy by the wind energy transformation of collection, and is sent in described storage battery; Described control cabinet also comprises controller; Described controller is electrically connected with described solar panel, wind-driven generator, storage battery and heating equipment respectively; Described heating equipment comprises heating unit; In described heating unit, be provided with temperature sensor, PVC vacuum envelope and be arranged on the Electric radiant Heating Film in described PVC vacuum envelope, described temperature sensor is electrically connected with described controller, in order to detect temperature within doors, and produce a temperature signal to described controller, described controller is receiving after described temperature signal and one first temperature threshold comparison, if described temperature signal is during lower than described the first temperature threshold, heated by electrothermal film described in described controller control, to heat.

Further, described wind-driven generator adopts vertical-axis generators.

Further, described solar panel is monocrystaline silicon solar cell.

Further, described heating equipment also comprises supplying hot water unit, and described supplying hot water unit comprises attemperater, heating rod, temperature sensor and float switch; Described heating rod, temperature sensor and float switch are arranged in described attemperater, when described float switch is opened, and the temperature that temperature sensor detects described attemperater is during lower than second temperature threshold, described temperature sensor produces a temperature signal and is sent to described controller, heating rod heating described in described controller control.

Further, described heating rod and temperature sensor are arranged on the bottom of described attemperater; Described float switch is arranged on the position at described attemperater 2/5ths places from bottom to top.

Further, the power supply heating installation of described wind light mutual complementing also comprises a voltage stabilizing rectification module, described voltage stabilizing rectification module is arranged in described control cabinet, and one end of described voltage stabilizing rectification module is electrically connected with described controller, the other end respectively with described solar panel and wind power generation mechatronics.

Further, the power supply heating installation of described wind light mutual complementing also comprises an inversion module, and described inversion module is arranged in described control cabinet, and one end of described inversion module is electrically connected with described controller, the other end is electrically connected with outside electric equipment, to supply power to outside electric equipment.

The advantage of the power supply heating installation of a kind of wind light mutual complementing of the utility model is,

(1), by the design of wind-driven generator and solar panel, can be electric energy by wind energy and light energy conversion, to heat to resident family's power supply.

(2) adopt electric heat membrane heating, the coal ash producing can avoid fire coal time and flue dust, and prevent the generation of carbon monoxide poisoning event; Described Electric radiant Heating Film can be laid on floor, wall and wall top is upper within doors, thereby arrives the effect of comprehensive heating.

Accompanying drawing explanation

Fig. 1 is the configuration diagram of the power supply heating installation of a kind of wind light mutual complementing described in the utility model.

Label in figure represents respectively:

1, solar panel; 2, wind-driven generator;

3, storage battery; 4, controller;

5, voltage stabilizing rectification module; 6, inversion module;

7, heating equipment; 8, outside electric equipment.

Embodiment

The embodiment of the power supply heating installation of a kind of wind light mutual complementing the utility model being provided below in conjunction with accompanying drawing elaborates.

Shown in Figure 1, a kind of power supply heating installation of wind light mutual complementing, comprises solar panel 1, wind-driven generator 2 and control cabinet (not shown).Described solar panel 1 is arranged on roof, in order to being electric energy by the light energy conversion of collection, and is sent in the storage battery 3 in described control cabinet.In the present embodiment, described solar panel 1 is monocrystaline silicon solar cell.Described wind-driven generator 2 arranges without, in order to being electric energy by the wind energy transformation of collection, and is sent in described storage battery 3.In the present embodiment, described wind-driven generator 2 adopts vertical-axis generators.

Described control cabinet also comprises controller 4.Described controller 4 can be the single-chip microcomputer of MSC-518031 model, can be also single-chip microcomputer or central processing unit or the microcontroller of other models.Described controller 4 is electrically connected with described solar panel 1, wind-driven generator 2, storage battery 3 and heating equipment 7 respectively.In the present embodiment, the power supply heating installation of described wind light mutual complementing also comprises a voltage stabilizing rectification module 5, and described voltage stabilizing rectification module 5 is also arranged in described control cabinet.One end of described voltage stabilizing rectification module 5 is electrically connected with described controller 4, the other end is electrically connected with described solar panel 1 and wind-driven generator 2 respectively, thereby the electric energy that described solar panel 1 and wind-driven generator 2 produce is carried out to voltage stabilizing rectification (for example rectification is to the direct current of 60V), through the control of described controller 4, to be stored to described storage battery 3.Described controller 4 judges the electric weight of storage battery 3 in real time, if electric weight deficiency is charged; Otherwise do not fill.

In the present embodiment, the power supply heating installation of described wind light mutual complementing also comprises an inversion module 6, and described inversion module 6 is arranged in described control cabinet, and one end of described inversion module 6 is electrically connected with described controller 4, the other end is electrically connected with outside electric equipment 8, to supply power to outside electric equipment 8.The electric energy that storage battery 3 stores, through the control of controller 4, is sent to inversion module 6, the direct current of 60V is converted to the alternating current of 220V, for for example household appliances of outside electric equipment 8(or heating equipment).

Described heating equipment 7 comprises heating unit (not shown).In described heating unit, be provided with temperature sensor (not shown), PVC vacuum envelope (not shown) and be arranged on the Electric radiant Heating Film (not shown) in described PVC vacuum envelope.Described temperature sensor is electrically connected with described controller 4, in order to detect temperature within doors, and produces a temperature signal to described controller 4.Described controller 4 is receiving after described temperature signal and one first temperature threshold comparison, if described temperature signal during lower than described the first temperature threshold, described controller 4 is controlled described heated by electrothermal film, to heat.In the time that produced temperature signal is equal to or greater than described the first temperature threshold, described controller 4 stops the heating of described Electric radiant Heating Film.Wherein, described Electric radiant Heating Film can be laid on floor, wall and wall top is upper within doors, thereby arrives the effect of comprehensive heating.

Further, described heating equipment also comprises supplying hot water unit (not shown), and described supplying hot water unit comprises attemperater, heating rod, temperature sensor and float switch (not shown).Described heating rod, temperature sensor and float switch are arranged in described attemperater.In the present embodiment, described heating rod and temperature sensor are arranged on the bottom of described attemperater.Described float switch is arranged on the position at described attemperater 2/5ths places from bottom to top, so described heating rod and described temperature sensor can play better effect.When described float switch is opened, and the temperature that temperature sensor detects described attemperater is during lower than second temperature threshold, described temperature sensor produces a temperature signal and is sent to described controller 4, described controller 4 is controlled described heating rod heating, until described temperature signal equals described the second temperature threshold.

The resident that power supply heating installation is particularly useful for the north and plateau is sparsely populated, remote, power consumption is little of described wind light mutual complementing uses.

The above is only preferred implementation 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 also should be considered as protection range of the present utility model.

Claims

1. a power supply heating installation for wind light mutual complementing, is characterized in that, comprises solar panel, wind-driven generator and control cabinet; Described solar panel is arranged on roof, in order to being electric energy by the light energy conversion of collection, and is sent in the storage battery in described control cabinet; Described wind-driven generator setting without, in order to being electric energy by the wind energy transformation of collection, and is sent in described storage battery; Described control cabinet also comprises controller; Described controller is electrically connected with described solar panel, wind-driven generator, storage battery and heating equipment respectively; Described heating equipment comprises heating unit; In described heating unit, be provided with temperature sensor, PVC vacuum envelope and be arranged on the Electric radiant Heating Film in described PVC vacuum envelope, described temperature sensor is electrically connected with described controller, in order to detect temperature within doors, and produce a temperature signal to described controller, described controller is receiving after described temperature signal and one first temperature threshold comparison, if described temperature signal is during lower than described the first temperature threshold, heated by electrothermal film described in described controller control, to heat.

2. the power supply heating installation of wind light mutual complementing according to claim 1, is characterized in that, described wind-driven generator adopts vertical-axis generators.

3. the power supply heating installation of wind light mutual complementing according to claim 1, is characterized in that, described solar panel is monocrystaline silicon solar cell.

4. the power supply heating installation of wind light mutual complementing according to claim 1, is characterized in that, described heating equipment also comprises supplying hot water unit, and described supplying hot water unit comprises attemperater, heating rod, temperature sensor and float switch; Described heating rod, temperature sensor and float switch are arranged in described attemperater, when described float switch is opened, and the temperature that temperature sensor detects described attemperater is during lower than second temperature threshold, described temperature sensor produces a temperature signal and is sent to described controller, heating rod heating described in described controller control.

5. the power supply heating installation of wind light mutual complementing according to claim 4, is characterized in that, described heating rod and temperature sensor are arranged on the bottom of described attemperater; Described float switch is arranged on the position at described attemperater 2/5ths places from bottom to top.

6. the power supply heating installation of wind light mutual complementing according to claim 1, it is characterized in that, also comprise a voltage stabilizing rectification module, described voltage stabilizing rectification module is arranged in described control cabinet, one end of described voltage stabilizing rectification module is electrically connected with described controller, the other end respectively with described solar panel and wind power generation mechatronics.

7. the power supply heating installation of wind light mutual complementing according to claim 1, it is characterized in that, also comprise an inversion module, described inversion module is arranged in described control cabinet, one end of described inversion module is electrically connected with described controller, the other end is electrically connected with outside electric equipment, to supply power to outside electric equipment.