CN205638182U - Automatically cleaning solar energy double glazing shutter - Google Patents

Abstract

A self-cleaning solar double-glazed louver, characterized in that the double-glazed louver is composed of inner glass (1) and outer glass (2) and a solar panel louver (3) in the middle, and the solar energy is converted into electric energy and stored in the conversion box ( In 6), the electric energy is transmitted to the transmission box (7) and the drive box (9) through the wire (8) laid on the transmission link (5), the transmission box (7) is connected to the transmission link (5), and the drive box (9) Connect the wiper (10), set the filter screen (12) in the rainwater storage tank (11), the filtered rainwater enters the rainwater outlet (13) and pours on the outer glass (2), and cooperates with the wiper (10) to complete Cleaning of the outer glass (2).

Description

A self-cleaning solar powered double glazed shutter

technical field

The utility model relates to a self-cleaning double-glazed window with integrated solar energy, which belongs to the invention and creation in the field of building energy saving and emission reduction.

Background technique

With the rapid development of social economy, more and more high-rise buildings are rising in cities, and urban pollution is also increasing. Existing high-rise building shading generally has problems such as low efficiency, large waste, and difficulty in cleaning the outer surface of building glass. However, as the main device used to control indoor lighting in high-rise buildings, shutters only have the function of adjusting lighting and shading. The sunlight on the leaves is not used effectively. At the same time, energy is the primary issue of economic development and an important material basis for the development of industry, agriculture, national defense, science and technology and the improvement of people's living standards. With the development of the world economy and the improvement of people's living standards, the demand for energy will continue to increase. my country has few fresh water resources available per capita, and is listed by the United Nations as one of the 13 water-poor countries in the world. The contradiction between supply and demand of water resources has become an important factor restricting my country's future development. Today's energy shortage has become the status quo that we have to face. How to make good use of energy and improve the status quo of energy shortage is a problem that each of us should think about.

With the rapid development of my country's national economy and the continuous deepening of reform and opening up, the construction industry has achieved considerable development in both depth and breadth. Especially in the past two years, various foreign architectural ideas and architectural concepts have had a great impact on domestic architectural design departments and real estate developers. basic principles. With the development of high-rise buildings in recent years, its sunshade problem has also been paid close attention to by people. Due to the limitations of safety and its own height, it is difficult to install relatively energy-saving large aluminum alloy sunshades in high-rise buildings. Nowadays, small plastic shutters and sunshade cloth are still commonly used. Although the shading effects of the two can generally meet people's requirements, because they will block the incident light during use, it will inevitably cause a lot of waste of energy consumption for electric lights, and there is no way to generate energy supplies, wasting a lot of resources.

At the same time, the hollow glass with built-in adjustable blinds has been promoted and used in foreign developed countries for more than 20 years. Although it has many advantages, the scope of use is not too large. According to foreign relevant information, the analysis estimates the following reasons: 1. The existing commercialized insulating glass with built-in adjustable curtains basically simply put the existing curtains into the insulating glass, resulting in the average internal spacing of the insulating glass. They must be larger than 22 mm. If two pieces of 5 mm insulating glass are added, the installation thickness will be at least 32 mm. Due to the large thickness, the installation and use are subject to certain restrictions. 2. The quantity, design, color and variety of the curtains installed inside are relatively small. At the same time, there are some problems in the control method of the curtains inside the insulating glass, and some of them are expensive. 3. In the design and actual use, there is no development to improve the energy-saving performance of insulating glass.

In terms of rainwater collection and utilization, the urban development history of foreign countries, especially developed countries, has accumulated rich experience for the urban construction of our country. Europe, the United States, Australia, Japan and other countries have carried out long-term research and formed rich results. Rainwater Harvesting System (RHS) is a rainwater resource utilization system that has been widely used in western developed countries in recent years. Through the combination of storage utilization and infiltration and replenishment, the rainwater runoff from building roofs, roads, green spaces, squares, etc. is collected and utilized, and the comprehensive utilization of rainwater resources is realized through the procedures of collection, water delivery, water purification, and storage. Rainwater harvesting systems can increase retention, reduce runoff, and effectively reduce the impact of stormwater on the urban environment. Foreign countries have carried out extensive research on the levels of regions, cities, communities, and buildings. Through mathematical models, computer simulations, simulation designs, and optimization models, they have studied the utilization potential, economic feasibility, cost efficiency, risk assessment, and Efficiency optimization, etc.

Nowadays, solar energy, as a kind of green high-quality energy, is inexhaustible and inexhaustible. If the solar energy irradiated on the shutter leaves can be effectively collected and used, the light energy can be converted into electrical energy, and at the same time, the fixed suspension box of the shutter can be used to collect and filter Outdoor rainwater, combined with the driving and control of the cleaning wiper by the micro-motor, combined with the filtered rainwater to clean the glass surface outside the building while shading, not only can realize the utilization of energy to a certain extent, but also make the buildings in the building People have a wider vision and a more comfortable mood, achieving the effect of environmental protection and energy saving.

Contents of the invention

The utility model relates to a self-cleaning double-glazed window with integrated solar energy, which belongs to the invention and creation in the field of building energy saving and emission reduction. Its purpose is to solve the problems of difficult cleaning and low shading rate of the outer glass of existing high-rise buildings.

The basic idea of the utility model is: combined with the solar blinds used in the sunshade, the solar energy is collected and converted into electric energy, and the electric energy drives the rotation of the shutter direction, and at the same time, the electric energy is transmitted to the drive and control box of the wiper to drive the wiper of the outer window, and at the same time The rainwater storage device accumulates rainwater, and after filtering, it pours on the outer glass, and cooperates with the wiper to complete the cleaning of the outer window. The rainwater harvesting device can play the role of external sunshade to a certain extent. It not only effectively collects and utilizes solar energy and rainwater, but also protects the environment and achieves the effect of green energy saving.

The technical scheme adopted by the utility model is: a self-cleaning solar double-layer glass shutter, which is characterized in that the double-layer glass shutter is composed of inner glass, outer glass and solar panel shutters in the middle, and the solar energy is converted into electric energy and stored in the conversion box , the electric energy is transmitted to the transmission box and the drive box through the wires laid on the transmission connecting rod, the transmission box is connected to the transmission connecting rod, the drive box is connected to the wiper, and a filter is set in the rainwater storage tank, and the filtered rainwater enters the rainwater outlet and drench On the outside glass, cooperate with the wiper to complete the cleaning of the outside glass.

The utility model has the advantages that: the self-cleaning solar double-layer glass shutter can solve the problems of low shading rate outside the high-rise building and difficulty in cleaning the outside glass, fully utilizes rainwater and solar energy, and completes self-cleaning without external energy input. clean. It has a wide range of applications, and can be used in chemical, heat transfer, medical and other buildings, with practicality and promotion.

Description of drawings

Figure 1 is a schematic diagram of a self-cleaning solar double glazed shutter. In the figure: 1. Inner glass, 2. Outer glass, 3. Solar panel louvers, 4. Fixed connecting rod, 5. Transmission connecting rod, 6. Conversion box, 7. Transmission box, 8. Electric wire, 9. Drive box, 10, wiper, 11, rainwater storage tank, 12, filter screen, 13, rainwater outlet.

detailed description

Below in conjunction with accompanying drawing, the utility model is described further. As shown in the figure, a self-cleaning solar double-glazed louver is characterized in that the double-glazed louver is composed of an inner glass 1, an outer glass 2 and a solar panel louver 3 in the middle, and the solar energy is converted into electric energy and stored in a conversion box 6 The electric energy is transmitted to the transmission box 7 and the drive box 9 through the electric wire 8 laid on the transmission link 5, the transmission box 7 is connected to the transmission link 5, the drive box 9 is connected to the wiper 10, and the rainwater storage tank 11 is provided with a filter screen 12 , the filtered rainwater enters the rainwater outlet 13 and showers on the outer glass 2, and cooperates with the wiper 10 to complete the cleaning of the outer glass 2.

Rainwater pours on the outer glass, and after cleaning the outer glass, it turns into sewage. The sewage can be laid on the outer wall with special pipes, or it can be discharged into the rainwater pipe, or it can be shared with the condensate pipe of the air conditioner.

A further measure is to set up a backup water source to bring tap water into the rainwater cistern to make up for the problem of cleaning glass during periods of rainwater shortage.

Claims (1)

1. A self-cleaning solar double-glazed louver, characterized in that the double-glazed louver is composed of inner glass (1) and outer glass (2) and a solar panel louver (3) in the middle, and the solar energy is converted into electrical energy and stored in the conversion In the box (6), the electric energy is transmitted to the transmission box (7) and the drive box (9) through the wire (8) laid on the transmission link (5), and the transmission box (7) is connected to the transmission link (5), The drive box (9) is connected to the wiper (10), and the filter screen (12) is set in the rainwater storage tank (11), and the filtered rainwater enters the rainwater outlet (13) and is sprayed on the outer glass (2), and the wiper (10) Cooperate to complete the cleaning of the outer glass (2).