CN210948298U - Energy-conserving fire prevention cavity glass of can adjusting luminance - Google Patents

Abstract

The utility model discloses an energy-conserving fire prevention cavity glass of can adjusting luminance, including indoor fire prevention glass and outdoor electric glass, be provided with the space bar between indoor fire prevention glass and the outdoor electric glass and form cavity bilayer structure, outdoor electric glass is connected with the power, still be provided with hand switch between outdoor electric glass and the power, the power still is connected with the photovoltaic charging panel, still be provided with the USB interface on the power, the power sets up in the mounting box, the mounting box is fixed to be set up on cavity bilayer structure one side, the photovoltaic charging panel is fixed to be set up on the surface that the mounting box is located outdoor electric glass one side, hand switch and USB interface are all fixed to be set up on the surface that the mounting box is located indoor fire prevention glass one side. The utility model discloses carry out the sunshade according to the demand in the time of can transparent illumination.

Description

Energy-conserving fire prevention cavity glass of can adjusting luminance

Technical Field

The utility model relates to a casement glass field, concretely relates to energy-conserving fire prevention cavity glass of can adjusting luminance.

Background

Glass is an amorphous inorganic non-metallic material, is generally prepared by using various inorganic minerals (such as quartz sand, borax, boric acid, barite, barium carbonate, limestone, feldspar, soda ash and the like) as main raw materials and adding a small amount of auxiliary raw materials, is widely applied to buildings and is used for wind insulation and light transmission.

Present residential district house all needs to seal the balcony, and in order to guarantee sufficient daylighting, whole balcony all adopts glass and section bar frame cooperation, forms sufficient big light transmission area, though the printing opacity is effectual, but articles such as washing machine, wood system furniture can appear the problem that the life-span descends after insolate for a long time, generally adopt the (window) curtain to shield, but need punch during the installation and destroy, be unfavorable for the use.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide an energy-conserving fire prevention cavity glass of can adjusting luminance carries out the sunshade according to the demand in the time of can transparent illumination.

In order to solve the technical problem, the utility model provides a light-adjustable energy-saving fireproof hollow glass, which comprises an indoor fireproof glass and an outdoor electroluminescent glass, wherein a spacing strip is arranged between the indoor fireproof glass and the outdoor electroluminescent glass to form a hollow double-layer structure, the outdoor electroluminescent glass is connected with a power supply, a manual switch is also arranged between the outdoor electroluminescent glass and the power supply, the power supply is also connected with a photovoltaic charging plate, and the power supply is also provided with a USB interface;

the power sets up in the mounting box, the mounting box is fixed to be set up on cavity bilayer structure one side, the fixed setting of photovoltaic charging panel is located outdoor electrogenerated glass one side at the mounting box on the surface, manual switch and USB interface all fix the setting and are located indoor fire prevention glass one side at the mounting box on the surface.

Further, a buffer adhesive is arranged between the mounting box and the hollow double-layer structure, and the buffer adhesive is used for bonding the mounting box and the hollow double-layer structure.

Furthermore, the mounting box is provided with a mounting rack on the surface of one side of the photovoltaic charging panel, the mounting rack is provided with a slot, and the photovoltaic charging panel is installed in the slot.

Further, a fan is arranged on the mounting frame and used for air circulation between the photovoltaic charging panel and the mounting box.

Further, the back of the photovoltaic charging panel is provided with a radiating fin.

Furthermore, the mounting box periphery is provided with the screens with section bar frame complex.

Furthermore, the outer periphery of the hollow double-layer structure is provided with a heat insulation edge covering.

The utility model has the advantages that:

the color of the outdoor electrogenerated glass can be changed, so that a sun-shading effect is achieved during exposure.

The power can charge through the photovoltaic charging panel, consequently need not external power supply, provides convenience to the installation and use.

The USB interface is arranged to transfer redundant electric quantity in the power supply to the charger baby or the mobile phone and other devices, so that clean energy is fully utilized, and the USB interface is greatly convenient to use.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a front view structure diagram of the present invention.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Referring to fig. 1 and 2, an embodiment of the dimmable energy-saving fireproof hollow glass of the present invention includes an indoor fireproof glass 1 and an outdoor electroluminescent glass 2, a spacer 3 is disposed between the indoor fireproof glass and the outdoor electroluminescent glass to form a hollow double-layer structure, the outdoor electroluminescent glass is connected to a power supply 4, a manual switch 5 is further disposed between the outdoor electroluminescent glass and the power supply, the power supply is further connected to a photovoltaic charging plate 6, and the power supply is further provided with a USB interface 7;

the photovoltaic charging panel generates electric energy through sunlight irradiation and feeds the electric energy back to the power supply for charging, the power supply stores the electric energy, and provides outdoor electric glass for power supply and external equipment through a USB interface, wherein the outdoor electric glass is transparent under the condition of power failure, and after being powered on, a fuzzy effect is formed to prevent sunlight from covering the outdoor electric glass and entering a room; when the solar energy water heater is used, when outdoor sunlight is dazzling or the indoor temperature is high, the manual switch is triggered manually, and the outdoor electric glass is atomized in a fuzzy manner after being electrified, so that the sun shading effect is achieved;

because still be provided with the USB interface on the power, the user can charge to equipment such as treasured or cell-phone that charges, make full use of power electric energy, and the power electric energy can be regenerated through photovoltaic charging panel, and is clean safe.

Specifically, set up the power in mounting box 8, the mounting box is fixed to be set up on cavity bilayer structure one side, and the fixed setting of photovoltaic charging panel is located outdoor electric glass one side at the mounting box on the surface, improves reliable illumination effect, and hand switch and USB interface all fix the setting and are located indoor fire prevention glass one side at the mounting box on the surface, convenient operation. And be provided with between mounting box and the cavity bilayer structure and cushion glue 9, cushion glue bonding mounting box and cavity bilayer structure have the effect of buffering in transportation and installation, connect reliable and stable.

The mounting box is provided with a mounting frame 10 on the surface of one side of the photovoltaic charging panel, a slot 11 is formed in the mounting frame, the photovoltaic charging panel is mounted in the slot, the slot can adopt an interference fit mode to fix the photovoltaic charging panel, and two side plates of the slot can be connected through screws and fastened to clamp the photovoltaic charging panel.

Because photovoltaic charging panel produces the heat in the work, be provided with fan 12 on the mounting bracket, the fan is used for the circulation of air between photovoltaic charging panel and the mounting box, realizes the cooling effect, and the fan power consumption also passes through the power supply. And be provided with radiating fin at the photovoltaic charging panel back, radiating fin sets up along the fan direction of blowing, avoids reducing the circulation effect, and radiating fin improves the cooling effect.

In one embodiment, the periphery of the mounting box is provided with a clamping position matched with the frame of the section bar, so that the glass has an attractive and close effect after being mounted.

In an embodiment, the outer periphery of the hollow double-layer structure is provided with the heat insulation covering edge, so that heat conduction from the hollow glass hollow layer to the outside is avoided, the vacuum degree of the hollow cavity can be ensured for a long time, heat loss is reduced, and the heat insulation effect of the hollow glass is improved.

The above embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (7)

1. The dimmable energy-saving fireproof hollow glass is characterized by comprising indoor fireproof glass and outdoor electroluminescent glass, wherein a spacing strip is arranged between the indoor fireproof glass and the outdoor electroluminescent glass to form a hollow double-layer structure, the outdoor electroluminescent glass is connected with a power supply, a manual switch is further arranged between the outdoor electroluminescent glass and the power supply, the power supply is further connected with a photovoltaic charging panel, and a USB interface is further arranged on the power supply;

the power sets up in the mounting box, the mounting box is fixed to be set up on cavity bilayer structure one side, the fixed setting of photovoltaic charging panel is located outdoor electrogenerated glass one side at the mounting box on the surface, manual switch and USB interface all fix the setting and are located indoor fire prevention glass one side at the mounting box on the surface.

2. The dimmable energy-saving fireproof hollow glass of claim 1, wherein a buffer adhesive is arranged between the mounting box and the hollow double-layer structure, and the buffer adhesive is used for bonding the mounting box and the hollow double-layer structure.

3. The dimmable energy-saving fireproof hollow glass according to claim 1, wherein a mounting frame is arranged on the surface of the mounting box on one side of the photovoltaic charging panel, a slot is arranged on the mounting frame, and the photovoltaic charging panel is mounted in the slot.

4. The dimmable energy-saving fireproof hollow glass according to claim 3, wherein a fan is arranged on the mounting frame, and the fan is used for air circulation between the photovoltaic charging panel and the mounting box.

5. The dimmable energy-saving fireproof hollow glass according to claim 4, wherein a heat dissipation fin is arranged on the back surface of the photovoltaic charging plate.

6. The dimmable energy-saving fireproof hollow glass according to claim 1, wherein a clip matched with the profile frame is arranged on the periphery of the mounting box.

7. The dimmable energy-saving fireproof hollow glass according to claim 1, wherein a heat insulating covering is arranged on the outer periphery of the hollow double-layer structure.

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