JP3147961U - Solar power generation and heat storage device - Google Patents

Abstract

Provided is a solar power generation and heat storage device that can effectively use solar energy for power generation and heat storage, and has an automatic washing and energy saving effect. The airframe includes a fuselage, a hot water storage tank, and a watering mechanism. The fuselage is a solar panel that switches solar energy to electric power, a heat collecting plate that is coupled to the lower side of the solar panel and absorbs solar thermal energy, and a collector There is a water tank formed below the hot platen, the hot water storage tank is connected to the water tank of the machine body for keeping the water stored, and the watering mechanism is provided on the machine body for washing the machine body. [Selection] Figure 4

Description

  The present invention relates to a photovoltaic power generation and heat storage device, and particularly to a photovoltaic power generation application device that combines power generation, heat collection, and automatic washing functions by a combined design of a fuselage, a hot water tank, and a watering mechanism.

Due to the lack of energy and environmental pollution worldwide, destruction of the ecological environment is in progress. Currently, countries around the world are actively looking for alternative energy.
Among them, solar energy has a concept of environmental conservation, and is known as an alternative energy that cannot be taken out, used up, is clean and does not cause pollution.
Application technologies related to solar energy have been researched and developed one after another, and solar panels and solar collectors have achieved relatively many results.

However, most designs use a single function. For example, there are many home electric water heaters that use the heat of solar energy, a hot water pool, a single heat collecting function that can be cooked with solar energy, or a photoelectric conversion power generation using a solar panel.
Solar collectors or solar panels all use a very large area and require a large occupied area for the entire building. Furthermore, each has only a single heat collecting or power generation function, and does not conform to the current requirement for multi-use, and is almost wasteful.
Generally, solar panels or solar collectors are mounted on the roof or surface of a building, but after a certain period of time, dust, leaves, or bird effluent adheres to the surface, converting solar energy. It adversely affects efficiency or heat collection efficiency.
If it is going to wash | clean a solar panel, there exists a fault that manpower or an operation man-hour takes many, and it accompanies high danger.

  The present invention has been made in view of the above-mentioned drawbacks, and is designed to make effective use of solar energy for power generation and heat storage.

  The main purpose of the present invention is the combination design of the fuselage, hot water storage tank and watering mechanism, the fuselage has a solar panel or a heat collecting plate, the solar panel switches the energy of sunlight to electric power, The heat collecting plate absorbs the thermal energy of sunlight, and the object is to provide a solar power generation and heat storage device that can effectively use the solar power generation and heat storage and improve the practicality of the present invention.

  The next object of the present invention is to form a water tank below the heat collecting plate of the airframe by the combined design of the airframe, hot water storage tank and watering mechanism, and the water tank effectively absorbs the heat amount of the heat collecting plate, An object of the present invention is to provide a solar power generation and heat storage device capable of lowering the temperature of the solar panel surface of the airframe and improving the practicality of the present invention.

  Another object of the present invention is to use a combined design of the fuselage, hot water storage tank and watering mechanism, so that the refracting pipe in the water tank is connected to the hot water storage tank to absorb the heat quantity of the heat collecting plate, and the hot water storage tank is cycled. To provide a photovoltaic power generation and heat storage device that can be connected to the system and allocated and supplied to the use area (bathroom, heating system, kitchen, pool, etc.) planned by the user to improve the practicality of the present invention. is there.

  Still another object of the present invention is to further provide a watering mechanism in the airframe by the combined design of the airframe, the hot water tank and the watering mechanism, and the watering mechanism has at least one watering hole and adheres to the surface of the airframe. Photovoltaic power generation that can wash the dust, leaves, or bird's discharge, improve the photoelectric conversion light efficiency and service life of the solar panel, and improve the convenience and practicality of the present invention And providing a heat storage device.

  In order to achieve the above object, the present invention includes a fuselage, a hot water storage tank and a watering mechanism, and the fuselage has a solar panel, a heat collecting plate and a water tank, and the solar panel powers sunlight energy. The heat collecting plate is coupled to the lower side of the solar panel and absorbs the heat energy of sunlight, a water tank is formed below the heat collecting plate, absorbs the heat energy of the heat collecting plate, The hot water storage tank is connected to the water tank of the airframe for heat storage and heat retention, and the watering mechanism is provided on the airframe to wash the airframe. It has the effects of planned area allocation, automatic machine washing and energy saving.

  Other features and specific embodiments of the present invention may be further understood from the detailed description and illustrations that follow.

  1 to 4, the photovoltaic power generation and heat storage device according to the present invention includes the following configurations.

The airframe 10 includes a solar panel 11, a heat collecting plate 12, and a water tank 13.
The solar panel 11 includes a glass cover 111 and a solar panel 112.
The solar panel 112 is made of a single crystal silicon battery (may be a polycrystalline silicon battery or an amorphous silicon battery).
The solar panel 11 switches sunlight energy to electric power.
The heat collecting plate 12 is coupled below the solar panel 11.
The heat collecting plate 12 is a heat conductive metal.
The heat collecting plate 12 absorbs the heat energy of sunlight, and a water tank 13 is formed below the heat collecting plate 12.
The water tank 13 has a water supply port 131, a drain port 132, and a refracting pipe 133.
The refracting pipe 133 absorbs the heat energy of the heat collecting plate 12, and the drain port 132 is connected to the hot water storage tank 20.

The hot water tank 20 is connected to a drain port 132 of the water tank 13 for heat retention.
The hot water tank 20 is further connected to a heater 40 to assist heating of the hot water tank 20, or is further connected to a cycle system 50 to provide hot water.

The watering mechanism 30 is provided on the airframe 10 to wash the airframe 10 and is provided with at least one watering hole 31.
The water sprinkling mechanism 30 may be further provided with a brush piece (not shown) for assisting and washing the airframe 10 during implementation.

As shown in FIGS. 1 to 3, the photovoltaic power generation and heat storage device according to the present invention includes a body 10, a hot water storage tank 20, and a watering mechanism 30.
The solar panel 11 includes a glass cover 111 and a solar panel 112.
The solar panel 112 can be used by switching solar energy to electric power.
The heat collecting plate 12 is coupled below the solar panel 11.
The heat collecting plate 12 is a heat conductive metal.
The heat collecting plate 12 can absorb heat energy from the solar panel 11.

A water tank 13 is formed below the heat collecting plate 12.
The water supply port 131 of the water tank 13 is connected to an external cooling water source, and the cooling water in the refracting pipe 133 of the water tank 13 absorbs the heat energy of the heat collecting plate 12, and the solar panel 11 The temperature can be effectively lowered, and the cooling water in the refracting pipe 133 is heated.
According to the thermal convection principle, hot water rises, cooling water sinks, and hot water after absorbing heat is discharged from the drain 132 of the water tank 13 and accumulated in the hot water tank 20.

Referring to FIG. 3, the watering mechanism 30 is provided on the airframe 10 and has at least one watering hole 31 for washing dust, leaves, or bird discharges attached to the surface of the airframe 10. Provide.
The water sprinkling mechanism 30 may be further provided with a brush piece (not shown) for assisting and washing the airframe 10 during implementation.

FIG. 4 is a block diagram of the usage state of the present invention.
Referring to the figure, when it becomes cloudy or at night, the heater 40 can keep the hot water tank 20 continuously warm, and can thus heat the hot water tank 20 with assistance.
In use, the hot water storage tank 20 is further connected to the cycle system 50, and hot water can be allocated and supplied to a use area 51 (bathroom, heating system, kitchen, pool, etc.) planned by the user.
Therefore, in the present invention, solar energy can be effectively used, and power generation and heat storage can be simultaneously performed, so that the user can achieve the effects of planned distribution of the use area, automatic washing of the fuselage 10 and energy saving. Practicality can be improved.

  The configuration disclosed above is merely a preferred embodiment of the present invention, and does not limit the characteristics of the present invention. An expert having ordinary knowledge in the field may appropriately perform in the technical field of the present invention. It goes without saying that changes and substitutions should be included in the present invention.

1 is an external perspective view of the present invention. It is an element exploded view of the present invention. It is a figure which shows watering of the watering mechanism of this invention. It is a block diagram of the use condition of this invention.

Explanation of symbols

10. Airframe 11 ... Solar panel 12 ... Heat collector 13 ... Water tank 111 ... Glass cover 112 ... Solar panel 131 ································· 133・ Watering hole 40 ・ ・ ・ ・ ・ ・ Heater 50 ・ ・ ・ ・ ・ ・ Cycle system 51 ・ ・ ・ ・ ・ ・ Use area (living room)
51 ··· Use area (heating system)
51 .... Use area (kitchen)
51 .... Use area (pool)

Claims (10)

A solar panel that switches solar energy to electric power, a heat collecting plate that is coupled below the solar panel and absorbs solar heat energy, and a heat collecting plate that absorbs the heat energy of the heat collecting plate A fuselage having a water tank formed below;
A hot water tank connected to the water tank of the aircraft for storing and keeping warm,
A solar power generation and heat storage device including a watering mechanism provided on the airframe for washing the airframe.   The solar power generation and heat storage device according to claim 1, wherein the solar panel includes a glass cover and a solar panel.   3. The solar power generation and heat storage device according to claim 2, wherein a material of the solar panel is any one of a single crystal silicon battery, a polycrystalline silicon battery, and an amorphous silicon battery.   2. The photovoltaic power generation and heat storage device according to claim 1, wherein a material of the solar panel is any one of a single crystal silicon battery, a polycrystalline silicon battery, and an amorphous silicon battery.   The solar power generation and heat storage device according to claim 1, wherein the heat collecting plate is a heat conductive metal.   The water tank has a water supply port, a drain port, and a refracting pipe, the refracting pipe absorbs heat energy of the heat collecting plate, and the drain port is connected to the hot water storage tank. The solar power generation and heat storage device described.   The solar power generation and heat storage device according to claim 1, wherein the hot water storage tank is further connected to a heater to assist heating of the hot water storage tank.   The solar power generation and heat storage device according to claim 1, wherein the hot water storage tank is further connected to a cycle system to provide hot water.   The solar power generation and heat storage device according to claim 1, wherein the watering mechanism is provided with at least one watering hole for washing the airframe.   The solar power generation and heat storage device according to claim 9, wherein the watering mechanism further includes a brush piece.

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