CN216330574U - Composite glass with built-in multilayer aerogel - Google Patents

Abstract

The utility model discloses a built-in multilayer aerogel composite glass, which comprises: 2 glass layers are arranged and are positioned on the upper side and the lower side; the supporting layer is arranged among the 2 glass layers, the glass layers are connected with the supporting layer through an adhesive, the supporting layer is in a rectangular frame shape, and meanwhile, the length of the supporting layer is smaller than that of the glass layers; the aerogel layer, its setting is in the inboard of glass layer, and aerogel layer is provided with a plurality of at the inboard equidistance of glass layer. According to the composite glass with the built-in multilayer aerogel, when heat passes through the device, the heat can pass through the vacuum position between the aerogel layer and the vacuum position in the glass, and when the heat passes through the aerogel layer and the vacuum position, the aerogel layer and the vacuum position can both block the heat from being transmitted, so that the heat insulation performance of the glass is improved, the practicability of the glass is effectively improved, and the glass is convenient to use.

Description

Composite glass with built-in multilayer aerogel

Technical Field

The utility model relates to the field of composite glass, in particular to composite glass with a built-in multilayer aerogel.

Background

Composite glass is common in daily life, and composite glass clearly has reached the emulation effect with stone material texture, is the ideal substitute product of solid wood board and marble panel, because composite glass can be through filling the object in its inside to make composite glass have characteristics such as difficult breakable, easy to clean, but general composite glass still has some shortcomings when using, for example:

firstly, the common composite glass is usually used for isolating indoor and outdoor, and the common composite glass has poor heat insulation function, so that the indoor temperature is easily influenced by the outside, and when the outside temperature is not suitable, the internal temperature can also change along with the outside temperature, and further the indoor temperature is not suitable any more;

secondly, the common composite glass cannot buffer the glass when in use, so that when the composite glass collides with the outside, the glass layer is easy to crack and the like, and the normal use of the composite glass is not facilitated.

Those skilled in the art have therefore endeavored to develop an internally disposed multilayer aerogel composite glass.

SUMMERY OF THE UTILITY MODEL

In view of the above defects of the prior art, the utility model aims to solve the technical problems that the existing device has poor heat insulation and preservation functions and cannot buffer glass.

In order to achieve the above object, the present invention provides a composite glass with a built-in multilayer aerogel, comprising:

2 glass layers are arranged and are positioned on the upper side and the lower side;

the supporting layer is arranged among the 2 glass layers, the glass layers are connected with the supporting layer through an adhesive, the supporting layer is in a rectangular frame shape, and meanwhile, the length of the supporting layer is smaller than that of the glass layers;

the aerogel layer, its setting is in the inboard of glass layer, and aerogel layer is provided with a plurality of at the inboard equidistance of glass layer.

Preferably, the side surface of the supporting layer is provided with a plurality of air holes, and the air holes are positioned between the 2 aerogel layers.

Preferably, a buffer layer for protecting the glass layer is arranged at the joint of the support layer and the glass layer.

Preferably, the inner part of the supporting layer is equidistantly provided with reinforcing columns for increasing stability.

Preferably, a plurality of limiting holes are formed in the upper side and the lower side of the aerogel layer, supporting columns for supporting the aerogel layer are embedded in the limiting holes, and the supporting columns are made of transparent plastics.

Preferably, the upper end and the lower end of the supporting column are sleeved with fixing sleeves for increasing friction force, and the fixing sleeves are made of rubber materials.

Preferably, the outer side of the support layer is provided with a sealant, and the sealant is connected with the opposite sides of the 2 glass layers.

The utility model has the beneficial effects that:

1. when the heat insulation device is used, when heat passes through the device, the heat can pass through the vacuum position between the aerogel layer and the vacuum position in the device, and when the heat passes through the aerogel layer and the vacuum position, the aerogel layer and the vacuum position can both block the heat transfer, so that the heat insulation performance of the heat insulation device is improved, the practicability of the device is effectively improved, and the device is convenient to use;

2. when the glass layer is used, when the glass layer is impacted by the outside, the glass layer can move inwards under the action of the external force, and the buffer layer can buffer the glass layer, so that the problem that the glass layer is broken due to overlarge impact force on the glass layer is solved, the glass layer is effectively protected, and the practicability of the device is improved;

3. when the glass layer fixing device is installed, the supporting layer and the glass layer are fixed by the adhesive, then air between the aerogel layers is pumped out through the air holes, so that vacuum is formed between the aerogel layers, and then the glass layer and the supporting layer are fixed and sealed by the sealant, so that the glass layer fixing device is convenient to use subsequently.

Drawings

FIG. 1 is a schematic overall front cross-sectional structural view of an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a support post according to an embodiment of the present invention;

FIG. 3 is a schematic view of an arrangement of an aerogel layer and a limiting hole according to an embodiment of the present invention;

FIG. 4 is a schematic perspective view of an embodiment of the present invention showing the mounting of a support layer and a cushioning layer;

FIG. 5 is a top cross-sectional view of a support layer and reinforcing columns in accordance with an embodiment of the present invention.

Name of part

1. A glass layer; 2. a support layer; 3. air holes; 4. a buffer layer; 5. an aerogel layer; 6. a limiting hole; 7. A support pillar; 8. fixing a sleeve; 9. sealing glue; 10. and (4) reinforcing the column.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples, wherein the terms "upper", "lower", "left", "right", "inner", "outer", and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings, which is for convenience and simplicity of description, and does not indicate or imply that the referenced devices or components must be in a particular orientation, constructed and operated in a particular manner, and thus should not be construed as limiting the present invention. The terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

2 glass layers 1 are arranged, and the glass layers 1 are positioned at the upper side and the lower side;

the supporting layer 2 is arranged among the 2 glass layers 1, the glass layers 1 are connected with the supporting layer 2 through an adhesive, the supporting layer 2 is in a rectangular frame shape, and meanwhile, the length of the supporting layer 2 is smaller than that of the glass layers 1;

the supporting layer 2 can support the glass layer 1, so that the stability between 2 glass layers 1 is ensured, and meanwhile, when the device is installed, the glass layer 1 and the supporting layer 2 are fixed by using an adhesive, so that the glass layer 1 and the supporting layer 2 are prevented from shaking in use.

The aerogel layers 5 are arranged on the inner side of the glass layer 1, and a plurality of aerogel layers 5 are arranged on the inner side of the glass layer 1 at equal intervals;

aerogel layer 5 has the thermal-insulated effect of heat preservation to when the summer, aerogel layer 5 in the device can completely cut off external heat, thereby avoids the rise of indoor temperature, and simultaneously aerogel layer 5 also can avoid the lower back of indoor temperature, and indoor temperature can transmit the external world, thereby plays heat retaining effect, the loss of reduction energy.

A plurality of air holes 3 are formed in the side surface of the supporting layer 2, and the air holes 3 are positioned among the 2 aerogel layers 5;

after finishing installing between aerogel layer 5 and supporting layer 2, take out the gas between aerogel layer 5 through gas pocket 3 to make and form the vacuum layer between the aerogel layer 5, when the continuous aerogel layer 5 and the vacuum layer of passing of heat, aerogel layer 5 and vacuum layer can be effectual completely cut off the heat, thereby improve the heat preservation and heat insulation performance of device.

A buffer layer 4 for protecting the glass layer 1 is arranged at the joint of the support layer 2 and the glass layer 1;

when glass layer 1 received the striking, because the texture of buffer layer 4 is comparatively soft, so buffer layer 4 can cushion glass layer 1 to protect glass layer 1, avoid glass layer 1 to take place to damage.

Reinforcing columns 10 for increasing stability are equidistantly arranged in the supporting layer 2;

because the inside of supporting layer 2 is provided with a plurality of reinforcement post 10, the stability of supporting layer 2 can be increased to reinforcement post 10, avoids supporting layer 2 to take place cracked scheduling problem.

A plurality of limiting holes 6 are formed in the upper side and the lower side of the aerogel layer 5, supporting columns 7 for supporting the aerogel layer 5 are embedded in the limiting holes 6, and the supporting columns 7 are made of transparent plastics;

by installing the support columns 7 in the interior of the aerogel layer 5 in an embedded manner, the stability of the aerogel layer 5 is increased, and the support columns 7 are made of transparent plastic, so that the mass of the whole apparatus is made lighter, thereby facilitating the transportation of the apparatus.

The upper end and the lower end of the support column 7 are sleeved with fixing sleeves 8 for increasing friction force, and the fixing sleeves 8 are made of rubber materials;

when installing support column 7, establish the top of fixed cover 8 with support column 7 cover, again with support column 7 embedding spacing hole 6 in, fixed cover 8 can increase the frictional force between spacing hole 6 and the support column 7 to avoid support column 7 the phenomenon of slippage to appear.

The outer side of the supporting layer 2 is provided with a sealant 9, and the sealant 9 is connected with the opposite sides of the 2 glass layers 1;

after the glass layer 1 and the supporting layer 2 are installed, the sealing glue 9 is coated on the outer side of the supporting layer 2, so that the glass layer 1 and the supporting layer 2 are sealed, and the connection stability of the glass layer 1 and the supporting layer 2 is ensured.

The working principle is as follows:

sleeving the fixing sleeve 8 on the supporting column 7, installing the supporting column 7 in the aerogel layer 5 in an embedded manner, and connecting the aerogel layer 5 with the supporting layer 2;

then, the supporting layer 2 and the glass layer 1 are connected through an adhesive to fix the two, and then air between the aerogel layers 5 is pumped out through the air holes 3, so that the aerogel layers 5 are in a vacuum state, and the joint of the glass layer 1 and the supporting layer 2 is sealed by using a sealant 9, so that the installation of the device is completed;

when the device is used, aerogel layer 5 and vacuum part are to increasing the holistic heat preservation and heat insulation performance of device, thereby it is isolated to the heat, avoid indoor temperature to receive external influence, and supporting layer 2 can support glass layer 1, and when glass layer 1 appears the striking, buffer layer 4 can cushion glass layer 1, thereby protect glass layer 1, avoid glass layer 1 to take place to damage, and supporting layer 2's inside is provided with and strengthens post 10, can guarantee the stability of supporting layer 2 when using, and then effectually support glass layer 1, the use of the device of being convenient for, holistic practicality has been increased.

The foregoing detailed description of the preferred embodiments of the utility model has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims (7)

1. A built-in multilayer aerogel composite glass, comprising: glass layer (1), characterized by: 2 glass layers (1) are arranged, and the glass layers (1) are positioned on the upper side and the lower side;

the supporting layer (2) is arranged among the 2 glass layers (1), the glass layers (1) are connected with the supporting layer (2) through an adhesive, the supporting layer (2) is in a rectangular frame shape, and meanwhile the length of the supporting layer (2) is smaller than that of the glass layers (1);

the aerogel layer (5) is arranged on the inner side of the glass layer (1), and the aerogel layer (5) is arranged on the inner side of the glass layer (1) at equal intervals.

2. The built-in multilayer aerogel composite glass according to claim 1, wherein: a plurality of air holes (3) are formed in the side face of the supporting layer (2), and the air holes (3) are located between the 2 aerogel layers (5).

3. The built-in multilayer aerogel composite glass according to claim 1, wherein: and a buffer layer (4) for protecting the glass layer (1) is arranged at the joint of the support layer (2) and the glass layer (1).

4. The built-in multilayer aerogel composite glass according to claim 1, wherein: reinforcing columns (10) for increasing stability are equidistantly arranged in the supporting layer (2).

5. The built-in multilayer aerogel composite glass according to claim 1, wherein: a plurality of limiting holes (6) are formed in the upper side and the lower side of the aerogel layer (5), supporting columns (7) supporting the aerogel layer (5) are embedded in the limiting holes (6), and the supporting columns (7) are made of transparent plastics.

6. The built-in multilayer aerogel composite glass according to claim 5, wherein: the upper end and the lower end of the supporting column (7) are sleeved with fixing sleeves (8) for increasing friction force, and the fixing sleeves (8) are made of rubber materials.

7. The built-in multilayer aerogel composite glass according to claim 1, wherein: and a sealant (9) is arranged on the outer side of the support layer (2), and the sealant (9) is connected with the opposite sides of the 2 glass layers (1).

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