CN206722157U - A kind of full-automatic photovoltaic shutter breathing glass curtain wall - Google Patents

Abstract

The utility model relates to a fully automatic photovoltaic louver breathing glass curtain wall, comprising outer hollow glass, the rear end of the outer hollow glass is integrally installed with an inner single-layer glass, a heat channel is arranged between the outer hollow glass and the inner single-layer glass, and the outer side is hollow. The upper end of the glass is provided with an upper air outlet connected to the hot aisle, and the lower end of the outer insulating glass is provided with a lower air outlet connected with the hot aisle; a row of sunshade louvers is installed vertically in the hot aisle, and the upper end of the inner single-layer glass passes through A motor is fixedly installed by bolts, and the output end of the motor is movably connected with the sunshade louver through a rotating shaft. The fully automatic photovoltaic louver breathing glass curtain wall integrates power generation, sound insulation, heat insulation, heating, ventilation and decoration, and is suitable for various buildings in cold winter and hot summer regions, especially office buildings.

Description

A fully automatic photovoltaic louver breathing glass curtain wall

technical field

The utility model belongs to the technical field of building materials, in particular to a fully automatic photovoltaic shutter breathing glass curtain wall.

Background technique

With the rapid development of our country's economy and the increasing urbanization, our country has become a big energy consumption country. According to the survey, 99% of the existing buildings in our country are high-energy-consuming buildings, and only a small part of the huge number of newly-built buildings are built according to the building energy-saving design standards, and more than 95% are high-energy-consuming buildings. In order to solve the problem of building energy consumption, the technical invention of glass curtain wall has appeared, but its installation and maintenance are very complicated, not only time-consuming and labor-intensive, but also its energy-saving effect is not obvious.

There are two types of existing glass curtain walls that are relatively advanced: "closed internal circulation system breathing curtain wall" and "open external circulation system breathing curtain wall". The outer glass of the "closed internal circulation system breathing curtain wall" is completely closed, and the inner glass can be opened and closed. The ventilation layer is connected with the HVAC system exhaust pipe installed on the ceiling to form a forced air circulation from bottom to top. The flow of air needs to be completed with the help of special equipment, and the maintenance and operation costs are relatively high. "Open external circulation system breathing curtain wall" The outer glass is not completely closed, the air enters the hot aisle space from the lower passage of the outer curtain wall, and then is discharged from the upper air outlet of the outer curtain wall, while the inner curtain wall is completely closed. The inner layer of glass is completely closed, which puts forward great requirements for the maintenance of the curtain wall, and requires long-term high-altitude operations, which are time-consuming and labor-intensive.

Contents of the invention

The utility model solves the high maintenance and operation cost of the "closed internal circulation system breathing curtain wall" in the existing glass curtain wall; the inner glass of the "open external circulation system breathing curtain wall" is completely closed, and the maintenance of the curtain wall It puts forward great requirements, requires long-term high-altitude operations, time-consuming and labor-intensive technical problems, and provides a fully automatic photovoltaic louver breathing glass curtain wall.

The technical scheme that the utility model takes for solving the technical problem existing in the known technology is:

The fully automatic photovoltaic louver breathing glass curtain wall includes outer hollow glass, the rear end of the outer hollow glass is integrally installed with an inner single-layer glass, a heat channel is arranged between the outer hollow glass and the inner single-layer glass, and the upper end of the outer insulating glass is provided with a The upper air outlet connected to the hot aisle, and the lower end of the outer insulating glass is provided with the lower air outlet connected to the hot aisle;

A row of sunshade louvers is vertically installed in the hot aisle, and the upper end of the inner single-layer glass is fixed with a motor by bolts, and the output end of the motor is movably connected with the sunshade louvers through a rotating shaft.

Further, the surface of the sunshade louver is fixed with a power generating device and a heating device by bolts.

Further, the sunshade louvers are fully automatic amorphous silicon photovoltaic sunshade louvers.

The advantages and positive effects of the utility model are: the fully automatic photovoltaic louver breathing glass curtain wall integrates power generation, sound insulation, heat insulation, heating, ventilation and decoration, and is suitable for various buildings in cold winter and hot summer regions, especially office buildings. architecture. It is easy to install, and the inner single-layer glass and sunshade louvers can be installed indoors, reducing high-altitude operations; easy to maintain, and the maintenance of the sunshade louvers is also indoors; the inner single-layer glass can be opened, which is more prominent in terms of comfort and energy saving, providing high-rise super The possibility of natural ventilation in high-rise buildings can meet the physiological and psychological requirements of users to the greatest extent.

Description of drawings

Fig. 1 is a schematic structural view of the fully automatic photovoltaic louver breathing glass curtain wall provided by the embodiment of the present invention;

Fig. 2 is a schematic diagram of the principle of the fully automatic photovoltaic louver breathing glass curtain wall provided by the embodiment of the present invention;

In the figure: 1. Outer hollow glass; 2. Power-assisted ventilation device; 2-1. Upper air outlet; 2-2. Lower air inlet; 3. Inner single-layer glass; 4. Thermal aisle; 5. Sunshade louvers; 6. Motor.

detailed description

In order to further understand the invention content, characteristics and effects of the present utility model, the following examples are given, and detailed descriptions are given below in conjunction with the accompanying drawings.

Below in conjunction with Fig. 1, Fig. 2 the structure of the present utility model is described in detail.

The fully automatic photovoltaic louver breathing glass curtain wall includes an outer hollow glass 1, the rear end of the outer hollow glass 1 is integrally installed with an inner single-layer glass 3, and a heat passage 4 is arranged between the outer hollow glass 1 and the inner single-layer glass 3, and the outer hollow The upper end of the glass 1 is provided with an upper air outlet 2-1 communicating with the hot passage 4, and the lower end of the outer insulating glass 1 is provided with a lower air outlet communicating with the hot passage 4;

A row of sunshade louvers 5 is vertically installed in the hot aisle 4 , and the upper end of the inner single layer glass 3 is fixed with a motor 6 by bolts, and the output end of the motor 6 is movably connected with the sunshade louvers 5 through a rotating shaft.

Further, the surface of the sunshade louver 5 is fixed with a power generating device and a heating device by bolts.

Further, the sunshade louvers 5 are fully automatic amorphous silicon photovoltaic sunshade louvers.

The structure of the utility model is further described below in conjunction with working principle.

The outer hollow glass 1 can better insulate and reduce noise, transmit solar energy, and protect the structure inside; the inner single-layer glass 3 is single-layer glass, and can be opened. When opened, natural wind can be effectively used to achieve indoor ventilation. When closed, it can Ensure the airtightness of the glass curtain wall, and at the same time, it is beneficial to the installation, cleaning and maintenance of the glass curtain wall and amorphous silicon sunshade louvers 5, reducing high-altitude operations; the heat channel 4 is located between the outer insulating glass 1 and the inner single-layer glass 3, It is used for air convection and indoor and outdoor ventilation; the booster ventilation device 2 includes the lower air inlet 2-2 and the upper air outlet 2-1, which is used for outdoor air to enter the hot aisle 4; the sunshade louvers 5 adopt fully automatic amorphous silicon sunshade louvers , can control the opening and closing and louver sunshade angle, the sunshade louver 5 is equipped with amorphous silicon photovoltaic modules, which can convert solar energy into electrical energy, and electrical energy into heat energy for heating in winter.

The fully automatic photovoltaic louver breathing glass curtain wall adopts the principles of "chimney effect" and "greenhouse effect", and solves the energy-saving problem from the function of the curtain wall. At the same time, it integrates functions such as power generation, sound insulation, heat insulation, heating, ventilation, and decoration.

In winter, the upper side air outlet 2-1 and the lower side air inlet 2-2 at both ends of the hot passage 4 are closed, and the temperature of the air in the hot passage 4 rises under the irradiation of sunlight to form a greenhouse, which effectively improves the temperature of the inner side. At the same time, the amorphous silicon photovoltaic module can generate electrical energy and convert it into heat energy under the irradiation of sunlight, heating the air in the hot passage 4, forming a "greenhouse effect" and reducing the heating cost of the building.

In summer, close the circuit of the amorphous silicon photovoltaic module, open the upper air outlet 2-1 and the lower air inlet 2-2 at both ends of the thermal aisle 4, and the temperature of the air in the thermal aisle 4 rises and floats naturally under the sunlight , to form a bottom-up air flow, and at the same time, the auxiliary ventilation device 2 is opened to speed up the air flow. Due to the "chimney effect", the heat in the hot aisle 4 is taken away, the temperature of the inner single-layer glass 3 surface is reduced, and the cooling cost is reduced.

The fully automatic photovoltaic louver breathing glass curtain wall is different from the ordinary "open external circulation system breathing curtain wall" and "closed internal circulation system breathing curtain wall". It can be said that it combines the common advantages of the two curtain walls and uses photovoltaic modules. new glass curtain wall.

The fully automatic photovoltaic louver breathing glass curtain wall is equipped with fully automatic amorphous silicon photovoltaic sunshade louvers 5. There are power generation devices and heating devices on the sunshade louvers 5, which are driven by a motor 6, and the louvers are pulled to adjust the sunshade angle. At the same time, they can directly Put away the shutters. This kind of fully automatic sunshade shutter 5 can be controlled by a remote control device, which is very convenient.

In summer, the heating device is turned off, and the sunshade louvers 5 can adjust the sunshade angle, effectively shading and heat-insulating; the power generation device is turned on, and the generated electric energy is used to assist ventilation.

In winter, the power generation device is turned on, and the generated electric energy is used for heating; the heating device is turned on, to heat the air in the hot passage 4, increase the temperature of the inner single-layer glass 3, and reduce indoor heating costs.

Simultaneously, the sunshade louver 5 can be folded and put down, and its advantages are: 1. heating can be carried out both when being put up and put down, and 2. when the louver is folded up, it can be beneficial to indoor lighting and ventilation, which overcomes the disadvantage of poor lighting of the traditional louvers.

The above descriptions are only preferred embodiments of the present utility model, and are not intended to limit the present utility model in any form. Any simple modifications made to the above embodiments according to the technical essence of the present utility model are equivalent to changes and modifications. All belong to the scope of the technical solution of the utility model.

Claims (3)

1. A fully automatic photovoltaic louver breathing glass curtain wall, characterized in that the fully automatic photovoltaic louver breathing glass curtain wall comprises an outer hollow glass, the rear end of the outer hollow glass is integrally installed with an inner single-layer glass, and the outer hollow glass and the inner single-layer A heat channel is provided between the glass, the upper end of the outer insulating glass is provided with an upper air outlet communicating with the heat channel, and the lower end of the outer insulating glass is provided with a lower air outlet communicating with the heat channel; A row of sunshade louvers is vertically installed in the hot aisle, and the upper end of the inner single-layer glass is fixed with a motor by bolts, and the output end of the motor is movably connected with the sunshade louvers through a rotating shaft. 2. The fully automatic photovoltaic louver breathing glass curtain wall according to claim 1, characterized in that, the surface of the sunshade louver is fixed with a power generating device and a heating device by bolts. 3. The fully automatic photovoltaic louver breathing glass curtain wall according to claim 1, wherein the sunshade louvers are fully automatic amorphous silicon photovoltaic sunshade louvers.