CN205369747U - Novel solar energy light and heat integration roof device - Google Patents

Abstract

The utility model relates to a novel solar photothermal integrated roof device, which comprises a water storage tank, a water pump, a water collection tank, a water delivery pipe, a water distribution pipe, a bracket, a solar panel, double-layer tempered glass, and shutters. The solar panels are sealed and installed on the brackets on both sides of the roof, the double-layer tempered glass is sealed and installed on the brackets in the middle of the roof, the shutters are placed under the double-layer tempered glass in the middle of the brackets, and the water distribution pipe is located The water inlet at the upper end of the double-layer tempered glass, the water collection tank is located at the water outlet at the lower end of the double-layer tempered glass, the water storage tank is located at the bottom of the building, the water pump is located at the right side of the bottom of the building, and the water delivery pipe connects the water collection tank, water storage The pool, water pump and water distribution pipe are connected as one. The utility model not only integrates the controllable light transmission function of the roof of a common factory building and the power generation function of a solar cell, but also can alleviate the problem of excessive indoor temperature in hot weather, and realize efficient utilization of indoor and outdoor water circulation. Moreover, the device of the utility model has simple structure, convenient and flexible installation, and can use existing molding products, so the device cost is low and reliable.

Description

A new type of solar thermal integrated roof device

technical field

The utility model relates to a BIPV building roof device, in particular to a novel solar photothermal integrated roof device.

Background technique

With the rapid development of modern industry, the number of factory buildings is gradually increasing, showing a trend of diversification and multi-function. All indicators have higher requirements. At present, other functions of the plant besides the architectural function still need to be further developed.

BIPV building is the product of the close combination of photovoltaic modules and buildings. After 30 years of development, components such as curtain walls and roofs have formed relatively mature design and installation technologies in terms of integration with photovoltaic products, bringing huge economic benefits. and industrial benefits. However, most of the existing BIPV buildings have single functions, such as power generation or cooling. If the problems of ventilation, lighting, and temperature in the building can be solved at the same time, the input cost will be more effectively reduced.

In hot summer, the indoor temperature is high, and air conditioners are usually used to cool down the house. However, the long-term operation of the air conditioner will consume a lot of power, and people who stay in the air-conditioning working environment for a long time may easily cause "air-conditioning disease". Therefore, indoor natural ventilation should be increased as much as possible to improve indoor temperature through natural means.

Utility model content

The utility model aims to solve the above problems, and provides a novel solar photothermal integrated roof device that can achieve good power generation, light transmission and other effects.

In order to achieve the above purpose, the utility model provides a new type of solar photothermal integrated roof device, including a water storage tank, a water pump, a sump, a water delivery pipe, a water distribution pipe, a bracket, a solar panel, double-layer tempered glass, and shutters.

Further, the two ends of the bracket are provided with brackets with solar panels sealed and mounted on both sides of the roof, and double-layer tempered glass with brackets sealed and installed in the middle of the roof. The roof of the factory building.

Furthermore, the louvers are placed under the double-layer tempered glass in the middle of the bracket, and the louvers can be opened and closed remotely to control the light transmittance in the room.

Further, the water distribution pipe is located at the water inlet at the upper end of the double-layer tempered glass, and the water distribution pipe is provided with equally spaced holes at the water inlet for water to flow out.

Furthermore, the water collection tank is located at the water outlet at the lower end of the double-layer tempered glass, and the water storage tank is located at the bottom of the building.

Furthermore, the water pump is located on the right side of the bottom of the building, and the water delivery pipe connects the sump, reservoir, water pump, and water distribution pipe into a circulation system.

The utility model not only integrates the controllable light transmission function of the roof of a common factory building and the power generation function of a solar cell, but also can alleviate the problem of excessive indoor temperature in hot weather, and realize efficient utilization of indoor and outdoor water circulation. Moreover, the device of the utility model has simple structure, convenient and flexible installation, and can use existing molding products, so the device cost is low and reliable.

Description of drawings

Figure 1: A schematic diagram of the facade structure of a new type of solar-thermal integrated roof device of the utility model;

Figure 2: A schematic diagram of the planar structure of solar panels and shutters of a new type of solar thermal integrated roof device of the utility model;

Figure 3: A structural schematic diagram of a new type of solar-thermal integrated roof device bracket and double-layer tempered glass of the utility model;

Figure 4: Schematic diagram of the water distribution pipe structure of a new type of solar-thermal integrated roof device of the utility model;

Symbol Description:

1. Reservoir, 2. Water pump, 3. Water collection tank, 4. Water delivery pipe, 5. Water distribution pipe, 6. Bracket, 7. Solar panel, 8. Double-layer tempered glass, 9. Shutter.

detailed description

Below in conjunction with accompanying drawing and example the utility model is described further:

As shown in Figures 1-4, the utility model is a new type of solar-thermal integrated roof device, including a water storage tank (1), a water pump (2), a water collection tank (3), a water delivery pipe (4), and a water distribution pipe (5), support (6), solar panel (7), double-layer toughened glass (8), blinds (9), described solar panel (7) is installed in the support (6) of roof both sides sealingly, described The double-layer toughened glass (8) is sealed and installed on the bracket (6) in the middle of the roof, and the shutter (9) is arranged under the double-layer toughened glass (8) in the middle of the bracket (6), and the described water distribution pipe (5 ) is located at the water inlet at the upper end of the double-layer tempered glass (8), the water collection tank (3) is located at the water outlet at the lower end of the double-layer tempered glass (8), the water reservoir is at the bottom of the building, and the water pump is at the right side of the bottom of the building , the water delivery pipe connects the water collection tank, the water storage tank, the water pump and the water distribution pipe as a whole.

When the utility model is in use, the solar panel (7) converts solar energy into electric energy to supply the water pump (2) to operate, and the water pump (2) pumps water into the water distribution pipe (5) from the underground reservoir (1), and the water is pumped from the water distribution pipe (5). The hole reserved by the water pipe (5) flows into the double-layer tempered glass (8), the water evaporates and absorbs the heat to take away the indoor heat, and finally the water flows from the sump (3) through the water pipe (4) into the underground reservoir (1) ; If the indoor light is too strong, the closing degree of the blinds can be controlled remotely, thereby controlling the light transmittance in the room. The device of the utility model has the advantages of simple structure, convenient and flexible installation, and existing molded products can be used, so the device cost is low and reliable.

The utility model has been described above by means of examples, but the utility model can have various modifications and changes, and is not limited to the above and specific examples. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present utility model shall be included in the protection scope of the present utility model.

Claims (1)

1. null1. a new type solar energy light-heat integration roof device，It is characterized in that: this device includes cistern、Water pump、Water leg、Water-supply-pipe、Distributive pipe、Support、Solar panels、Double-deck safety glass、Shutter，Described solar panels are sealingly mounted at the support of both sides, roof，Described double-deck tempering glass capsulation is arranged on the support in the middle part of roof，Solar panels、Double-deck safety glass and support form one planar structure，Constitute the roof of Factory Building，Described shutter is placed in below the double-deck safety glass of mid-stent，The remote-controlled switch of shutter，Control room iuuminting degree，Described distributive pipe is positioned at double-deck safety glass upper end water inlet，Distributive pipe is provided with the water supply of equally spaced hole in water inlet and flows out，Described water leg is positioned at double-deck safety glass lower end outlet，Described cistern is positioned at construction bottom，Described water pump is positioned on the right side of construction bottom，Described water-supply-pipe is by water leg、Cistern、Water pump、Distributive pipe is connected as a circulating system.