CN207825636U - A kind of anti-self-destruction ultrawhite tempered glass - Google Patents

Abstract

The utility model discloses a kind of anti-self-destruction ultrawhite tempered glass, including glass matrix, the first colloid layer is bonded at the top of glass matrix, the first tempering layer is fitted at the top of first colloid layer, buffer layer is installed at the top of first tempering layer, the inner cavity of buffer layer is provided with rubber layer, and the outside of rubber layer is connected with each other by buffering protrusion and the inner wall of buffer layer, and the second colloid layer is bonded at the top of buffer layer.The anti-self-destruction ultrawhite tempered glass, by the way that tempered glass piece, explosion-proof body, the second non-woven fabrics fiber layer, explosion-proof layer, heat-sink shell, silicon nitride layer, heat dissipating layer, the first filled layer and the second filled layer is arranged, improve the explosion-proof performance of existing tempered glass, it can be timely by the potential energy quick release of own absorption, and possess enough pressure release sections, to make tempered glass have enough expansion sections, to improve itself carry load of tempered glass, to solve the problems, such as that existing tempered glass anti-explosion performance is poor.

Description

A kind of anti-self-destruction ultrawhite tempered glass

Technical field

The utility model is related to tempered glass technical field, specially a kind of anti-self-destruction ultrawhite tempered glass.

Background technology

Tempered glass belongs to safety glass.Tempered glass is a kind of prestressed glass in fact, to improve the intensity of glass, Usually using method chemically or physically, compression is formed in glass surface, glass bears to offset skin stress first when external force, To improve bearing capacity, reinforcing glass itself anti-wind pressure, cold and heat, impact etc..

Existing tempered glass encounters high temperature and pressure, and tempered glass can expand, and inside glass assembles a large amount of gesture Can, once potential energy is more than the limit of tempered glass itself carrying, will explode, the explosion-proof capabilities of existing tempered glass compared with Difference, to damage.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides a kind of anti-self-destruction ultrawhite tempered glass, solves existing The poor problem of tempered glass anti-explosion performance.

(2) technical solution

To achieve the above object, the utility model provides the following technical solutions：A kind of anti-self-destruction ultrawhite tempered glass, including Glass matrix is bonded with the first colloid layer at the top of the glass matrix, the first steel is fitted at the top of first colloid layer Change layer, buffer layer is installed at the top of the first tempering layer, the inner cavity of the buffer layer is provided with rubber layer, the rubber layer Outside be connected with each other with the inner wall of buffer layer by buffering protrusion, be bonded with the second colloid layer, institute at the top of the buffer layer It states and is fitted with the second tempering layer at the top of the second colloid layer, tempered glass piece is installed at the top of the second tempering layer, it is described It is socketed with anti-explosion set body on the outside of glass matrix, the first non-woven fabrics fiber layer, the glass are installed on the inside of the explosion-proof body Second non-woven fabrics fiber layer is installed on the outside of glass matrix, is mounted on buffer body at the top and bottom of the explosion-proof body, institute The inner cavity for stating glass matrix is provided with explosion-proof layer, and the explosion-proof layer includes heat-sink shell, silicon nitride layer and heat dissipating layer, the heat absorption It is provided with the first filled layer between layer and silicon nitride layer, the second filled layer is provided between the silicon nitride layer and heat dissipating layer.

Preferably, the first explosion-proof utricule is installed on the glass matrix inner wall, is equipped on the outside of the explosion-proof layer Two explosion-proof utricules, and it is reserved with gap between the first explosion-proof utricule and the second explosion-proof utricule.

Preferably, cushion pad body is filled between the first non-woven fabrics fiber layer and the second non-woven fabrics fiber layer.

Preferably, the buffer body include the first foamed plastic layer, middle layer and the second foamed plastic layer, described first It is fitted with third colloid layer between foamed plastic layer and middle layer, is fitted between the middle layer and the second foamed plastic layer Four colloid layers.

(3) advantageous effect

The utility model provides a kind of anti-self-destruction ultrawhite tempered glass.Has following advantageous effect：

The anti-self-destruction ultrawhite tempered glass, by the way that tempered glass piece is arranged, explosion-proof body, the second non-woven fabrics fiber layer, prevents Quick-fried layer, heat-sink shell, silicon nitride layer, heat dissipating layer, the first filled layer and the second filled layer, improve the explosion-proof of existing tempered glass Can, it can be timely by the potential energy quick release of own absorption, and possess enough pressure release sections, to make tempered glass have Enough expansion sections, to improve itself carry load of tempered glass, to solve existing tempered glass anti-explosion Can poor problem, by the way that buffer layer, rubber layer and buffering protrusion is arranged, after tempered glass expands, by buffer layer into Row accumulation of energy, then by rubber layer and buffering protrusion release potential energy, by the way that explosion-proof body, the first non-woven fabrics fiber layer and the is arranged Two non-woven fabrics fiber layers, prevent tempered glass from bursting, can be with by the way that buffer body, explosion-proof layer, heat-sink shell and heat dissipating layer is arranged So that tempered glass is quickly absorbed heat, and heat gone out by heat dissipating layer quick release, tempered glass from drastically expanding to preventing and Explosion.

Description of the drawings

Fig. 1 is the utility model structural profile illustration；

Fig. 2 is the utility model buffer body structure sectional view.

In figure：1 glass matrix, 2 first colloid layers, 3 first tempering layers, 4 buffer layers, 5 rubber layers, 6 buffering protrusions, 7 the Two colloid layers, 8 second tempering layers, 9 tempered glass pieces, 10 explosion-proof bodies, 11 second non-woven fabrics fiber layers, 12 first non-woven fabrics are fine Tie up layer, 13 buffer bodies, 131 first foamed plastic layers, 132 middle layers, 133 second foamed plastic layers, 134 third colloid layers, 135 4th colloid layer, 14 explosion-proof layers, 15 heat-sink shells, 16 silicon nitride layers, 17 heat dissipating layers, 18 first filled layers, 19 second filled layers, 20 First explosion-proof utricule, 21 second explosion-proof utricules, 22 cushion pad bodies.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.

As shown in Figs. 1-2, the utility model provides a kind of technical solution：A kind of anti-self-destruction ultrawhite tempered glass, improves The explosion-proof performance of existing tempered glass, can be timely by the potential energy quick release of own absorption, and possesses enough pressure releases Section, to make tempered glass have enough expansion sections, to improve itself carry load of tempered glass, to solve The poor problem of existing tempered glass anti-explosion performance, including glass matrix 1, the top of glass matrix 1 are bonded with the first colloid Layer 2, the top of the first colloid layer 2 is fitted with the first tempering layer 3, and the top of the first tempering layer 3 is equipped with buffer layer 4, buffer layer 4 Inner cavity be provided with rubber layer 5, the outside of rubber layer 5 is connected with each other by buffering protrusion 6 and the inner wall of buffer layer 4, by setting Buffer layer 4, rubber layer 5 and buffering protrusion 6 are set, after tempered glass expands, accumulation of energy is carried out by buffer layer 4, then pass through rubber Glue-line 5 discharges potential energy with buffering protrusion 6, and the top of buffer layer 4 is bonded with the second colloid layer 7, the top fitting of the second colloid layer 7 There are the second tempering layer 8, the top of the second tempering layer 8 that tempered glass piece 9 is installed, the outside of glass matrix 1 is socketed with anti-explosion set The inside of body 10, explosion-proof body 10 is equipped with the first non-woven fabrics fiber layer 12, and the outside of glass matrix 1 is equipped with the second non-woven fabrics Fibrous layer 11 prevents tempering by the way that explosion-proof body 10, the first non-woven fabrics fiber layer 12 and the second non-woven fabrics fiber layer 11 is arranged Glass bursts, and cushion pad body 22 is filled between the first non-woven fabrics fiber layer 12 and the second non-woven fabrics fiber layer 11, explosion-proof The top and bottom of body 10 are mounted on buffer body 13, buffer body 13 include the first foamed plastic layer 131, middle layer 132 with And second foamed plastic layer 133, third colloid layer 134 is fitted between the first foamed plastic layer 131 and middle layer 132, it is intermediate It is fitted with the 4th colloid layer 135 between layer 132 and the second foamed plastic layer 133, the inner cavity of glass matrix 1 is provided with explosion-proof layer 14, the first explosion-proof utricule 20 is installed on 1 inner wall of glass matrix, the outside of explosion-proof layer 14 is equipped with the second explosion-proof utricule 21, and It is reserved with gap between first explosion-proof utricule 20 and the second explosion-proof utricule 21, passes through the first explosion-proof utricule 20 and the second explosion-proof utricule Deformation between 21 carries out absorption potential energy, and gap is filled up, and to improve the energy absorbing efficiency of tempered glass, explosion-proof layer 14 wraps Heat-sink shell 15, silicon nitride layer 16 and heat dissipating layer 17 are included, the first filled layer 18 is provided between heat-sink shell 15 and silicon nitride layer 16, The second filled layer 19 is provided between silicon nitride layer 16 and heat dissipating layer 17, by the way that buffer body 13, explosion-proof layer 14, heat-sink shell 15 is arranged With heat dissipating layer 17, tempered glass can be made quickly to absorb heat, and go out heat by 17 quick release of heat dissipating layer, to prevent steel Change glass drastically to expand and burst.

In use, to solve the problems, such as that existing tempered glass anti-explosion performance is poor, by the way that buffer layer 4, rubber is arranged Layer 5 and buffering protrusion 6 carry out accumulation of energy, then pass through rubber layer 5 and buffering protrusion after tempered glass expands by buffer layer 4 6 release potential energy prevent steel by the way that explosion-proof body 10, the first non-woven fabrics fiber layer 12 and the second non-woven fabrics fiber layer 11 is arranged Change glass to burst, by the way that buffer body 13, explosion-proof layer 14, heat-sink shell 15 and heat dissipating layer 17 is arranged, tempered glass can be made fast Speed absorbs heat, and goes out heat by 17 quick release of heat dissipating layer, bursts to prevent tempered glass from drastically expanding.

It should be noted that the electric elements occurred in this article are electrically connected with extraneous main controller and 220V alternating currents, and And main controller can be the conventionally known equipment that computer etc. plays control, herein, such as first and second or the like pass It is that term is only used to distinguish one entity or operation from another entity or operation, and not necessarily requires or secretly Show that there are any actual relationship or orders between these entities or operation.Moreover, the terms "include", "comprise" or Any other variant thereof is intended to cover non-exclusive inclusion so that including the processes of a series of elements, method, article or Person's equipment includes not only those elements, but also includes other elements that are not explicitly listed, or further includes for this mistake Journey, method, article or the intrinsic element of equipment.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is appreciated that can these embodiments be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (4)

1. a kind of anti-self-destruction ultrawhite tempered glass, including glass matrix (1), it is characterised in that：The top of the glass matrix (1) It is bonded with the first colloid layer (2), the first tempering layer (3), the first tempering layer are fitted at the top of first colloid layer (2) (3) buffer layer (4) is installed at the top of, the inner cavity of the buffer layer (4) is provided with rubber layer (5), the rubber layer (5) it is outer Side is connected with each other by buffering raised (6) and the inner wall of buffer layer (4), and the second colloid is bonded at the top of the buffer layer (4) Layer (7) is fitted with the second tempering layer (8), the top installation of the second tempering layer (8) at the top of second colloid layer (7) Have tempered glass piece (9), be socketed with anti-explosion set body (10) on the outside of the glass matrix (1), the explosion-proof body (10) it is interior Side is equipped with the first non-woven fabrics fiber layer (12), and the second non-woven fabrics fiber layer (11) is equipped on the outside of the glass matrix (1), It is mounted on buffer body (13) at the top and bottom of the explosion-proof body (10), the inner cavity of the glass matrix (1) is provided with anti- Quick-fried layer (14), the explosion-proof layer (14) include heat-sink shell (15), silicon nitride layer (16) and heat dissipating layer (17), the heat-sink shell (15) it is provided with the first filled layer (18) between silicon nitride layer (16), is set between the silicon nitride layer (16) and heat dissipating layer (17) It is equipped with the second filled layer (19).

2. the anti-self-destruction ultrawhite tempered glass of one kind according to claim 1, it is characterised in that：In the glass matrix (1) First explosion-proof utricule (20) is installed on wall, the second explosion-proof utricule (21), and first are installed on the outside of the explosion-proof layer (14) It is reserved with gap between explosion-proof utricule (20) and the second explosion-proof utricule (21).

3. the anti-self-destruction ultrawhite tempered glass of one kind according to claim 1, it is characterised in that：First non-woven fabrics fiber Cushion pad body (22) is filled between layer (12) and the second non-woven fabrics fiber layer (11).

4. the anti-self-destruction ultrawhite tempered glass of one kind according to claim 1, it is characterised in that：The buffer body (13) includes First foamed plastic layer (131), middle layer (132) and the second foamed plastic layer (133), first foamed plastic layer (131) third colloid layer (134), the middle layer (132) and the second foamed plastic layer are fitted between middle layer (132) (133) the 4th colloid layer (135) is fitted between.