CN203701374U - Energy-saving glass curtain wall - Google Patents

Abstract

The utility model relates to an energy-saving glass curtain wall, which belongs to the construction field and the application field of solar energy. The utility model comprises: a unit frame inlaid with light-permeable solar cell panels is arranged on the overall frame, an air flow channel is arranged between the overall frame and the heat collecting wall, the top and the bottom of the overall frame are respectively hinged with baffles on the glass curtain wall and glass The lower baffle of the curtain wall, the air inlet and the lower air outlet on the heat collecting wall, the upper air inlet and the lower air outlet are respectively installed with the upper air vent baffle and the lower air outlet baffle, and the overall frame is formed by the transparent solar panel Glass curtain wall. The utility model adopts light-transmitting solar panels for heat collection or cooling, and has the characteristics of high utilization rate of solar panels, simple structure, convenient installation and use, light weight and safety, novel structure, low cost, reduced environmental pollution, and easy popularization and use. It can effectively improve the comprehensive utilization efficiency of building energy consumption, and has a certain guiding significance for the realization of "low energy consumption buildings" and "green buildings".

Description

An energy-saving glass curtain wall

technical field

The utility model relates to an energy-saving glass curtain wall, which belongs to the construction field and the application field of solar energy.

Background technique

As traditional petrochemical energy tends to be in short supply, the application of solar energy in the world has received more and more attention. At present, making full use of solar energy is an important strategy for energy conservation and environmental protection in the world. The solar power supply system does not need traditional oil and gas fuels when it works, as long as there is enough light, it can generate electricity, providing a clean, pollution-free renewable energy for human life.

In the prior art, solar glass curtain walls are generally integrated with the curtain wall. In this way, solar panels can easily block indoor light, affect indoor ventilation and lighting, and the utilization rate of solar energy is low. In view of the above-mentioned problems in the prior art, it is necessary to research and design a new type of energy-saving glass curtain wall to overcome the problems in the prior art. Therefore, the defective that prior art exists needs to improve.

Contents of the invention

The purpose of the utility model is to provide an energy-saving glass curtain wall with simple structure, convenient installation and use, light weight and safety, novel structure, low cost, high utilization rate of solar energy and reduced environmental pollution.

technical solution

The utility model comprises: an overall frame, a light-transmitting solar battery panel, a control circuit board, and a storage battery. The overall frame is provided with a unit frame inlaid with a light-transmitting solar battery panel, and an air flow channel is arranged between the overall frame and the heat collecting wall. , the top and bottom of the overall frame are respectively hinged with a baffle on the glass curtain wall and a lower baffle on the glass curtain wall, an upper air inlet is arranged on the upper part of the heat collecting wall, and a lower air outlet is arranged on the bottom, and an upper air vent baffle is installed on the upper air inlet, A lower vent baffle is installed at the lower air outlet, and the overall frame and light-transmitting solar panels form a glass curtain wall.

The light-permeable solar cell panel is connected with the storage battery through the control circuit board.

The control circuit board is connected with an external power supply.

A fan is installed at the air inlet, and the fan is connected with the control circuit board through the inverter.

The control circuit board is also connected with the refrigerator and the temperature controller.

The outer surface of the heat collecting wall is provided with a roller blind, and the power supply on the roller blind is connected with the indoor power supply.

A sealing strip is provided between the solar battery panel and the unit frame.

The advantages of the utility model are: the utility model can collect heat or cool the solar panel through the light, the utilization rate of the solar panel is high, the structure is simple, the installation is convenient, the light weight is safe, the structure is novel, the cost is low, and the environmental pollution is reduced. It is easy to promote and use, it can effectively improve the comprehensive utilization efficiency of building energy consumption, and has certain guiding significance for the realization of "low energy consumption buildings" and "green buildings".

Description of drawings

Fig. 1 is a structural representation of the utility model;

Fig. 2 is the circuit system diagram of the utility model.

Detailed ways

Example 1

The utility model includes an overall frame 1, a light-transmitting solar panel 2, an upper vent 3, a lower vent 4, a glass curtain wall baffle 5, a glass curtain wall lower baffle 6, a heat collecting wall 7, an air flow channel 8, Roller shutter 9, storage battery 10, blower fan 11, inverter 12, control circuit board 13, display panel 14, refrigerator 15, upper air vent damper 16, lower air vent damper 17, temperature controller 18. The overall frame 1 is provided with a unit frame embedded with a light-transmitting solar panel 2, a sealing strip is provided between the light-transmitting solar panel 2 and the unit frame, and an air flow channel is provided between the overall frame 1 and the heat collecting wall 7 8. The top and bottom of the overall frame 1 are respectively hinged with the baffle plate 5 on the glass curtain wall and the lower baffle plate 6 of the glass curtain wall. The upper part of the heat collecting wall 7 is provided with an upper vent 3, the bottom is provided with a lower vent 4, and the upper vent 3 is upper. An upper air vent baffle 16 is installed, a lower air vent baffle 17 is installed on the lower air vent 4, a roller shutter 9 is arranged on the outer surface of the heat collecting wall 7, the power supply on the roller shutter 9 is connected with the indoor power supply, and the overall frame 1 is connected to the indoor power supply. The light-permeable solar panel 2 forms a glass curtain wall.

Further: the transparent solar panel is connected to the control circuit board, and the control circuit board is respectively connected to the refrigerator, the temperature controller, the storage battery or an external power supply. When the power of the battery is insufficient, the external power supply is used to supply power.

Further: In order to speed up the flow rate of hot air in the air passage into the room and improve the indoor thermal efficiency, a fan is installed at the air inlet, and the fan 11 is connected to the battery 10 or an external power supply through an inverter.

The control circuit board 13 is respectively connected with the rolling shutter 9, the upper air vent baffle plate 16, the lower air vent baffle plate 17, the glass curtain wall baffle plate 5, and the glass curtain wall lower baffle plate 6 through wires. relay.

On the control circuit board 13, a display 14 is also connected, which shows the working state of the battery power supply.

The working process of heating: in winter, the sunlight shines on the light-transmitting solar panel 2, a part of the light is converted into electric energy and stored in the battery 10, and the other part of the light is converted into heat energy on the heat collecting wall 7. When the indoor temperature is lower than At 18°C, the temperature controller 18 transmits the information to the control circuit board 13, and the control circuit board 13 sends a signal to automatically open the roller shutter 9, the baffle 5 on the glass curtain wall and the lower baffle 6 of the glass curtain wall are automatically closed, and the upper air vent is blocked. The plate 16 and the lower vent baffle 17 are automatically opened, and the fan 11 is automatically opened (the battery 10 power supply is preferred, and when the battery 10 power supply cannot meet the requirements, the indoor power supply is automatically switched), the air in the air flow channel 8 is heated, and the heated Air enters the room from the upper vent 3, and the indoor temperature begins to rise; when the indoor temperature is higher than 22°C, the temperature controller 18 transmits information to the control circuit board 13, and the control circuit board 13 sends a signal to automatically close the roller shutter 9, The upper vent baffle 16 and the lower vent baffle 17 are automatically closed, the fan 11 is automatically closed, the glass curtain wall baffle 5 and the glass curtain wall lower baffle 6 are automatically opened, the air in the air flow channel 8 is naturally discharged to the outside, and the air supply is stopped. Indoor heating air.

The working process of refrigeration: In summer, when the sun shines on the light-transmitting solar panel 2, a part of the light is converted into electrical energy and stored in the battery 10, and the other part of the light is converted into heat energy on the heat collecting wall 7. When the indoor temperature is higher than 22 ℃, the temperature controller 18 transmits the information to the control circuit board 13, and the control circuit board 13 sends a signal to automatically close the roller shutter 9, the upper air vent baffle 16 and the lower air vent baffle 17 are automatically closed, and the fan 11 is automatically closed. The baffle 5 on the glass curtain wall and the lower baffle 6 on the glass curtain wall are automatically opened, and the air in the air flow channel 8 is naturally discharged to the outside; when the indoor temperature is higher than 28°C, the refrigerator is started, and the cooling can be automatically distributed through the control circuit board 13 The power supply of the machine 15 (the battery 10 power supply is preferred, and when the battery 10 power supply cannot meet the requirements, the indoor power supply will be automatically switched),

When the indoor temperature is lower than 18°C, the temperature controller 18 transmits information to the control circuit board 13, and the control circuit board 13 sends a signal to automatically open the roller shutter 9, and the baffle 5 on the glass curtain wall and the lower baffle 6 on the glass curtain wall are automatically closed , the upper vent baffle 16 and the lower vent baffle 17 are automatically opened, the fan 11 is automatically opened, the air in the air flow passage 8 is heated, and the heated air enters the room from the upper vent 3, and the indoor temperature begins to rise.

Claims (7)

1. an energy-efficient glass curtain wall, comprise: general frame, light-permeable solar panel, control circuit board, battery, it is characterized in that, general frame is provided with the unit framework of inlaying light-permeable solar panel, between general frame and thermal-arrest wall, be provided with air flow passage, general frame top and bottom are hinged with respectively curtain wall overhead gage and curtain wall lower baffle plate, thermal-arrest wall top is provided with air inlet port, bottom is provided with gas outlet, enterprising gas port is installed ventilation opening baffle plate, lower gas outlet place is provided with lower ventilation opening baffle plate, general frame and light-permeable solar panel form curtain wall.

2. a kind of energy-efficient glass curtain wall according to claim 1, is characterized in that, light-permeable solar panel is connected with battery by control circuit board.

3. a kind of energy-efficient glass curtain wall according to claim 1, is characterized in that, control circuit board is connected with external power supply.

4. according to a kind of energy-efficient glass curtain wall described in claim 1 or 3, it is characterized in that, air inlet port place is provided with blower fan, and blower fan is connected with control circuit board by inverter.

5. according to a kind of energy-efficient glass curtain wall described in claim 1 or 4, it is characterized in that, described control circuit board is also connected with refrigeration machine, temperature controller.

6. a kind of energy-efficient glass curtain wall according to claim 1, is characterized in that, thermal-arrest wall external surface is provided with electric rolling, and the power supply on electric rolling is connected with indoor power supply.

7. a kind of energy-efficient glass curtain wall according to claim 1, is characterized in that, between solar panel and unit framework, is provided with weather strip.