CN107651865B - Vacuum glass - Google Patents

Abstract

The invention discloses vacuum glass, which comprises two main glass plates which are oppositely arranged, wherein a side glass plate is connected between each side edge of the two main glass plates, the main glass plates and the side glass plates jointly enclose a glass inner cavity, and a control valve for vacuumizing the glass inner cavity is arranged on the main glass plate or the side glass plates; and a support body for isolating heat conduction and connected between the two main glass plates is arranged in the glass inner cavity. The vacuum glass has the advantages of high strength of the supporting structure, strong pressure resistance and good heat insulation effect.

Description

Vacuum glass

Technical Field

The invention relates to the technical field of glass, in particular to vacuum glass.

Background

At present, vacuum glass is double glazing, cavity evacuation between the double glazing, with reinforcing double glazing's thermal-insulated effect, because the cavity pressure-bearing between the double glazing is very big after the evacuation, at the evacuation in-process, double glazing bursts very easily, in order to solve this problem, interval connection glass supporting layer between double glazing, in order to improve the cavity bearing capacity between the double glazing, but there is the contact surface between the both ends of glass supporting layer and the double glazing, this kind of structure, when the sun shines strong, it is inside very hot, the heat can be through contact surface and glass supporting layer heat conduction to double glazing's inboard, make the whole thermal-insulated effect of vacuum glass not good. With the development of science and technology and the increasing living standard of people, the existing double-layer vacuum glass with the structure is difficult to meet the requirements.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the vacuum glass with high strength of the supporting structure and good heat insulation effect is provided.

The vacuum glass comprises two main glass plates which are oppositely arranged, a side glass plate is connected between each side edge of the two main glass plates, the main glass plates and the side glass plates jointly enclose a glass inner cavity, and a control valve for vacuumizing the glass inner cavity is arranged on the main glass plate or the side glass plates;

and a support body for isolating heat conduction and connected between the two main glass plates is arranged in the glass inner cavity.

Preferably, the support body is a plurality of layers of hollow sleeves, two opposite outer side edges of one layer of the hollow sleeve on the outermost side are respectively in contact connection with the two main glass plates, and two ends of the hollow sleeve are closed or not closed.

Preferably, each of the plurality of layers of hollow sleeves is an integral hollow sleeve or at least two discontinuously arranged hollow sleeve sections, and two ends of each of the hollow sleeve sections are closed or not closed.

Preferably, the hollow sleeve is made of silica gel, rubber or plastic.

Preferably, the support body comprises a support plate which is arranged in the glass inner cavity and is connected between the two main glass plates in parallel at intervals;

and a heat conduction isolation pad is arranged between the two ends or one end of the supporting plate and the contact surface of the main glass plate.

Preferably, the thermally conductive insulating mat is a one-piece thermally insulating structure having a length corresponding to the length of the support plate.

Preferably, the heat conduction isolation pads respectively comprise a plurality of heat conduction isolation cushion blocks arranged at intervals to form a bridge-cut-off heat insulation structure.

Preferably, the thermally conductive insulating mat or the thermally conductive insulating mat block includes a plurality of layers of hollow sleeves, respectively.

Preferably, the outer side wall of the hollow sleeve on the outermost side is provided with a groove along the axial direction, and the groove is used for connecting the side edge part of the support plate.

Preferably, the material of the heat conduction isolation pad is silica gel, rubber or plastic.

After the technical scheme is adopted, the invention has the beneficial effects that:

according to the vacuum glass, the support body for isolating heat conduction is arranged between the two main glass plates in the glass inner cavity, so that heat conduction of the outer side of the vacuum glass and heat conduction of the inner side of the glass inner cavity can be isolated, and the heat insulation effect of the vacuum glass is improved.

Drawings

FIG. 1 is a schematic longitudinal sectional view of a vacuum glass according to a first embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a vacuum glass according to a first embodiment of the present invention;

FIG. 3 is a schematic structural view of a second embodiment of the vacuum glass of the present invention;

FIG. 4 is a schematic view of a construction of the thermally conductive insulating mat of FIG. 3;

FIG. 5 is a schematic structural view of a third embodiment of the vacuum glass of the present invention;

FIG. 6 is a schematic view showing a connection structure of the support plate and the thermally conductive insulating mat of FIG. 4;

in the figure: 1. a main glass plate; 2. a side glass plate; 3. a glass inner cavity; 4. a support body; 41. a support plate; 5. a hollow sleeve; 51. a groove; 6. a hollow casing section; 7. a thermally conductive insulating pad; 8. a heat conduction isolation cushion block; 9. and (4) controlling the valve.

Detailed Description

The invention is further illustrated with reference to the following figures and examples.

Example one

Referring to fig. 1 and 2, the vacuum glass of the present embodiment includes two main glass plates 1 disposed oppositely, a side glass plate 2 is connected between each side edge of the two main glass plates 1, the main glass plate 1 and the side glass plate 2 together enclose a glass cavity 3, and a control valve 9 for vacuumizing the glass cavity 3 is disposed on the main glass plate 1 or on the side glass plate 2; the glass inner cavity 3 is internally provided with a support body 4 which is connected between the two main glass plates 1 and is used for isolating heat conduction, and the support body 4 can improve the pressure resistance of the glass inner cavity.

In this embodiment, the support 4 has the following structure: the support body 4 comprises a plurality of layers of hollow sleeves 5, two opposite outer side edges of one layer of the hollow sleeve 5 on the outermost side are respectively in contact connection with the two main glass plates 1, two ends of the hollow sleeve 5 can be unsealed or can be made to be sealed, and the sealed structure has stronger pressure resistance.

Each multi-layer hollow sleeve 5 is an integral hollow sleeve or at least two hollow sleeve sections 6 which are arranged discontinuously, two ends of each hollow sleeve section 6 can be unsealed or can be made to be sealed, and the pressure resistance of the sealed structure is stronger.

The hollow sleeve 5 is made of silica gel, rubber or plastics and the like with low thermal conductivity, the multiple layers of hollow sleeves 5 are sleeved together to form a support body 4, and the support body 4 with the structure can isolate the heat conduction between the glass inner cavity 3 and the main glass plate 1 on the inner side of the vacuum glass, so that the heat insulation effect of the vacuum glass is greatly improved.

Example two

Referring to fig. 3 and 4, the vacuum glass of the present embodiment includes two main glass plates 1 disposed oppositely, a side glass plate 2 is connected between each side edge of the two main glass plates 1, the main glass plate 1 and the side glass plate 2 together enclose a glass cavity 3, and a control valve (not shown in the figure) for vacuumizing the glass cavity 3 is disposed on the main glass plate 1 or on the side glass plate 2; the glass inner cavity 3 is internally provided with a support body 4 which is connected between the two main glass plates 1 and is used for isolating heat conduction, and the support body 4 can improve the pressure resistance of the glass inner cavity.

In this embodiment, the support 4 has the following structure: the support body 4 comprises support plates 41 arranged in parallel and at intervals in the glass cavity 3, and the support plates 41 are connected between the two main glass plates 1.

Fig. 3 shows a case where a thermal conduction insulating pad 7 is provided between one end of the supporting plate 4 and the contact surface of the main glass plate 1, and of course, the thermal conduction insulating pads 7 may be provided at both ends of the supporting plate 4, respectively, to perform a better function of insulating thermal conduction.

The thermally conductive insulating mat 7 is a one-piece insulating mat having a length identical to that of the supporting plate 41, forming a one-piece heat insulating structure.

The heat conduction isolation pad 7 comprises a plurality of layers of hollow sleeves 5, a groove 51 is axially formed in the outer side wall of the outermost hollow sleeve 5, the groove 51 is used for connecting the side edge part of the support plate 41, two ends of each hollow sleeve 5 can be unsealed or closed, and the closed structure is stronger in pressure resistance.

The material of the heat conduction isolation pad 7 is made of silica gel, rubber or plastic with low heat conductivity, so that a direct contact surface does not exist between the support plate 41 and the main glass plate 1 any more, heat conduction generated by the contact surface between the support plate 41 and the main glass plate 1 is avoided, and the heat insulation effect of the vacuum glass is improved.

EXAMPLE III

Referring to fig. 5 and 6, the vacuum glass of the present embodiment includes two main glass plates 1 disposed oppositely, a side glass plate 2 is connected between each side edge of the two main glass plates 1, the main glass plate 1 and the side glass plate 2 together enclose a glass cavity 3, and a control valve (not shown in the figure) for vacuumizing the glass cavity 3 is disposed on the main glass plate 1 or on the side glass plate 2; the glass inner cavity 3 is internally provided with a support body 4 which is connected between the two main glass plates 1 and is used for isolating heat conduction, and the support body 4 can improve the pressure resistance of the glass inner cavity.

In this embodiment, the support 4 has the following structure: the support body 4 comprises support plates 41 arranged in parallel and at intervals in the glass cavity 3, and the support plates 41 are connected between the two main glass plates 1.

Be provided with the isolated pad of heat-conduction between the contact surface of the both ends of backup pad 41 or one end and main glass board 1, the isolated pad of heat-conduction includes the isolated cushion 8 of the heat-conduction of polylith that the interval set up respectively, forms the bridge cut-off heat-proof structure.

The heat conduction isolation cushion block 8 comprises a plurality of layers of hollow sleeves 5, two ends of each hollow sleeve 5 can be unsealed or made to be sealed, and the sealed structure is higher in pressure resistance.

The outer side wall of the outermost hollow sleeve 5 is axially provided with a groove 51, and the groove 51 is used for connecting the side edge part of the support plate 41.

The heat conduction isolation cushion block 8 is made of silica gel, rubber or plastics and the like with low heat conductivity, so that a direct contact surface does not exist between the support plate 41 and the main glass plate 1 any longer, heat conduction generated by the support plate 41 and the main glass plate 1 through the contact surface is avoided, and the heat insulation effect of the vacuum glass is improved.

The foregoing is illustrative of the best mode of the invention and details not described herein are within the common general knowledge of a person of ordinary skill in the art. The scope of the present invention is defined by the appended claims, and any equivalent modifications based on the technical teaching of the present invention are also within the scope of the present invention.

Claims (3)

1. A vacuum glass comprises two main glass plates which are oppositely arranged, wherein a side glass plate is connected between each side edge of the two main glass plates, the main glass plates and the side glass plates jointly enclose a glass inner cavity, and a control valve for vacuumizing the glass inner cavity is arranged on the main glass plate or the side glass plates; the method is characterized in that: a support body for isolating heat conduction connected between the two main glass plates is arranged in the glass inner cavity;

the support body comprises a support plate which is arranged in the glass inner cavity and is connected between the two main glass plates in parallel at intervals;

a heat conduction isolation pad is arranged between the contact surface of the main glass plate and the two ends or one end of the support plate;

the heat conduction isolation pad is a whole heat insulation structure with the length consistent with that of the support plate; or the heat conduction isolation pads respectively comprise a plurality of heat conduction isolation cushion blocks arranged at intervals to form a bridge-cut-off heat insulation structure;

the heat conduction isolation pad or the heat conduction isolation cushion block respectively comprises a plurality of layers of hollow sleeves.

2. The vacuum glass of claim 1, wherein: the outer side wall of the hollow sleeve on the outermost side is provided with a groove along the axial direction, and the groove is used for connecting the side edge part of the supporting plate.

3. The vacuum glass of claim 1, wherein: the material of the heat conduction isolation pad is silica gel, rubber or plastics.

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