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A luminous hollow glass door

A glass door and hollow technology, applied in the field of luminous hollow glass doors, can solve the problems of a large amount of heat and energy consumption of lamp beads, affecting the heat preservation performance of refrigerators, and a single light-emitting pattern, so as to achieve low energy consumption and heat generation, ensure heat preservation effect, and connect solid effect

Active Publication Date: 2018-08-24
ZHEJIANG SANXING NEW MATERIALS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, there are mainly two ways to realize luminescent glass: first, a large number of lamp beads are arranged on the back of the glass, and the lamps are arranged in various patterns, thereby forming luminescent glass with various graphics, for example, CN204695280U discloses The existing problem of luminescent glass is that the lamp beads generate a lot of heat and energy consumption, especially for the refrigerator door, which will seriously affect the thermal insulation performance of the refrigerator, and the economy is poor
The second is to set a luminous layer on the back of the glass, absorb light energy during the day, and let the glass panel emit light by itself at night or in a dark environment. Attenuation period, its brightness will decrease with the increase of time, and for the glass door of the refrigerator glass door, which is often in a weak light environment, the light energy absorbed by the luminous layer is often not enough to make it obtain a good luminous effect
In addition, the above two solutions can only display a single luminous pattern, and the decorative effect is poor

Method used

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  • A luminous hollow glass door
  • A luminous hollow glass door
  • A luminous hollow glass door

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0042] according to Figure 1 to Figure 11 As shown, a luminous hollow glass door includes: an outer glass 11, an inner glass 12 and a luminous body 13, the outer glass 11 and the inner glass 12 are parallel to each other, and the outer glass 11 and the inner glass 12 are arranged There is an air-filled layer 16, which is filled with argon gas, and the luminous body 13 is fixed in the sealant 161. The two sides of the inner glass 12 are respectively provided with a number of refraction units 14 and a control unit 15. The refraction unit 14 and the control unit 15 There is a one-to-one correspondence between them, and the refraction unit 14 is located in the air-filled layer 16 , the edge of the air-filled layer 16 is provided with a sealant 161 , the illuminant 13 is arranged in the sealant 161 , and the illuminant 3 adopts LED lamp beads.

[0043]The refraction unit 14 includes a hinge 141, a refraction plate 142 and a magnetic block 143. The hinge 141 and the magnetic block ...

Embodiment 2

[0048] The difference from the above-mentioned embodiment 1 is that, according to Figure 8 As shown, the control unit 15 includes a bracket 151', a rotating body 152' and a control magnetic block 153', the bracket 151' is fixed on the surface of the inner glass 12, the rotating body 152' is rotationally connected with the bracket 151', and the control magnetic block 153' fixed in the rotating body 152'. The surface of the rotating body 152' is provided with concavo-convex lines, which can increase surface friction, thereby facilitating the movement of the rotating body 152'.

[0049] Through the rotation of the rotating body 152', the polarity of the opposite magnetic block 143 side of the control magnet block 153' can be controlled, and the rotation angle of the refraction plate 142 can be controlled, thereby forming two states of refraction or non-refraction. Different patterns can be formed by controlling the state.

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PUM

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Abstract

The invention relates to the field of insulating glass, in particular to a light-emitting hollow glass door. The light-emitting hollow glass door comprises hollow glass, a control panel and a door frame profile; the hollow glass comprises outer layer glass, inner layer glass and a light-emitting body, the outer layer glass and the inner layer glass are parallel, and an air inflation layer is arranged between the outer layer glass and the inner layer glass; the light-emitting body is arranged on the edge of the air inflation layer, a plurality of refraction units are arranged on one side of the inner layer glass, and a plurality of control units are arranged on the other side of the inner layer glass; the refraction units are in one-to-one correspondence to the control units, the refraction units are located in the air inflation layer, and the control units are fixed to a control panel; the door frame profile comprises a door frame strip, an inner positioning strip and an outer positioning strip; and the inner positioning strip and the outer positioning strip are located at the bottom of the door frame strip, and the outer positioning strip is fixed to the door frame strip through the inner positioning strip.

Description

technical field [0001] The invention relates to the field of thermal insulation glass, in particular to a luminous hollow glass door. Background technique [0002] At present, there are mainly two ways to realize luminescent glass: first, a large number of lamp beads are arranged on the back of the glass, and the lamps are arranged in various patterns, thereby forming luminescent glass with various graphics, for example, CN204695280U discloses The existing problem of luminescent glass is that the lamp beads generate a lot of heat and energy consumption, especially for the refrigerator door, which will seriously affect the thermal insulation performance of the refrigerator, and the economy is poor. The second is to set a luminous layer on the back of the glass, absorb light energy during the day, and let the glass panel emit light by itself at night or in a dark environment. Attenuation period, its brightness will decrease with the increase of time, and for the glass door of...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F25D23/02F21V33/00F21V23/00F21V5/00F21Y115/10
CPCF21V5/00F21V23/003F21V33/0044F25D23/028F25D2323/02
Inventor 杨敏张金珠沈飞华刘杰杨玉敏沈国强高娟红
Owner ZHEJIANG SANXING NEW MATERIALS