CN218520614U - Glass laminating tool - Google Patents

Abstract

A glass attaching jig comprises a support frame (30), a cylinder (20), a pressing structure (10) and a jig die (40) for supporting first curved glass (500); the pressing structure comprises a positioning block (110), a connecting block (120), a first cavity block (160), a second cavity block (161), a first spring (150), a second spring (151) and a silica gel cavity die (190) for mounting second curved glass (510); the silica gel cavity die can be detachably acted on the jig die under the action of the air cylinder and is used for attaching the second curved glass and the first curved glass together. The glass fitting jig of the utility model splits the profiling jig into three parts, and when the combined cavity jig descends, the left and right cavity blocks can drive the glass to open; due to the improvement of the profile modeling jig technology of the variable cavity, the attachment of two pieces of large-inclination curved glass or inverted curved glass can be realized at low cost.

Description

Glass laminating tool

Technical Field

The utility model relates to a production facility field especially relates to a glass laminating tool.

Background

The existing glass laminating jig adopts an upper jig profiling mold to adsorb a piece of glass, adopts a lower jig profiling mold to support and set up another piece of glass, adopts a cylinder to drive the upper jig profiling mold to press down the adsorbed glass to be attached to another piece of glass supported by the lower jig profiling mold, and realizes the laminating of the two pieces of glass.

In above-mentioned prior art, it is the rigidity stable structure to go up the tool profiling mould, leads to current glass laminating tool only to be applicable to the laminating of plane laminating or the curved surface glass of taking less camber, when being used for the laminating of two big inclination big side camber glass, causes the laminating harmfully easily, glass is cracked even.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned technical problem, provide a glass laminating tool.

The technical proposal of the utility model for solving the technical problem is that:

the utility model provides a glass laminating jig, which comprises a support frame, a cylinder, a pressing structure and a jig die for supporting first curved glass;

the pressing structure comprises a positioning block, a connecting block, a first cavity block, a second cavity block, a first spring, a second spring and a silica gel cavity die for mounting second curved glass;

the positioning block is in an inverted U shape, a first through hole is formed in the top of the positioning block, and the connecting block penetrates through the first through hole; the cylinder body of the cylinder is fixedly arranged on the support frame, and the piston rod of the cylinder is fixedly connected with the top of the connecting block; the first cavity block and the second cavity block are respectively and rotatably arranged on the positioning block; the first spring is arranged between the first cavity block and the positioning block in a compression manner; the second spring is arranged between the second cavity block and the positioning block in a compression manner; the silica gel cavity die is connected with the bottom of the connecting block and clamped between the first cavity block and the second cavity block;

the silica gel cavity mold can be separately acted on the jig mold under the action of the air cylinder and is used for attaching the second curved glass and the first curved glass together.

In the above glass fitting jig of the present invention, the pressing structure further comprises rotating shafts respectively fixed to two side portions of the inverted U-shaped positioning block; two rotating shafts are provided;

the first cavity block is rotatably sleeved on one rotating shaft, and the second cavity block is rotatably sleeved on the other rotating shaft.

In the above glass fitting jig of the present invention, the support frame includes a bottom plate, a support plate and a plurality of columns; the supporting plates are positioned above the bottom plate and are respectively arranged on the bottom plate through a plurality of upright posts;

the supporting plate is provided with a second through hole; the cylinder body of the cylinder is fixedly arranged on the supporting plate, and the piston rod of the cylinder is movably arranged in the second through hole in a penetrating manner;

the top surface of the bottom plate is provided with a positioning groove for positioning the jig die.

In the above glass fitting jig of the present invention, the silica gel cavity mold comprises an inverted U-shaped main body and a connecting portion formed at the top of the inverted U-shaped main body in a protruding manner;

the bottom of the connecting block is fixedly connected with the connecting part.

The utility model discloses among the foretell glass laminating tool, connecting portion are the T type, and corresponding T type groove is seted up to the connecting block bottom, and connecting portion inlay and establish in the T type groove of connecting block bottom.

In the glass attaching jig of the utility model, a plurality of vacuum adsorption holes are uniformly arranged on the inverted U-shaped main body;

cavities are formed in the first cavity block and the second cavity block, and the first cavity block and the second cavity block are provided with fit curved surfaces corresponding to the inverted U-shaped main body;

the cavity of the first cavity block is provided with a first opening on the fit curved surface of the first cavity block;

the cavity of the second cavity block is provided with a second opening on the fitting curved surface of the second cavity block;

the inverted U-shaped main body is respectively attached to the attaching curved surface of the first cavity block and the attaching curved surface of the second cavity block; one part of the vacuum adsorption holes on the inverted U-shaped main body is communicated with the cavity of the first cavity block through the first opening, and the other part of the vacuum adsorption holes is communicated with the cavity of the second cavity block through the second opening;

and vacuumizing holes communicated with the cavities inside the first cavity block and the second cavity block are respectively formed in the outer side of the first cavity block and the outer side of the second cavity block.

The utility model discloses in foretell glass laminating tool, the structure of pushing down still includes the detachable sealing screw who installs in the evacuation hole.

The utility model discloses in foretell glass laminating tool, push down the structure and still include the fixed screw and the cover that link together the piston rod of connecting block and cylinder and establish the aluminium post on the fixed screw and by the clamp between fixed screw head and connecting block.

The glass laminating jig of the utility model splits the profiling jig into three parts on the basis of the existing fixed cavity profiling jig, and when the combined cavity jig descends, the left and right cavity blocks can drive the glass to open; the opening size and the opening time are controllable; due to the improvement of the profiling jig technology of the variable cavity, the two pieces of large-inclination curved glass or reversed curved glass can be attached at low cost.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 shows a schematic structural view of a glass fitting jig according to a preferred embodiment of the present invention;

FIG. 2 is a schematic structural view of the glass bonding jig shown in FIG. 1 in another direction;

fig. 3 is an exploded view of the glass attaching jig shown in fig. 1.

Detailed Description

In order to make the technical purpose, technical solution and technical effects of the present invention more clear so as to facilitate those skilled in the art to understand and implement the present invention, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 3, fig. 1 is a schematic structural view of a glass attaching jig according to a preferred embodiment of the present invention; FIG. 2 is a schematic structural view of the glass bonding jig shown in FIG. 1 in another direction;

fig. 3 is an exploded view of the glass attachment jig shown in fig. 1.

The glass attaching jig comprises a support frame 30, a cylinder 20, a pressing structure 10 and a jig die 40 for supporting the first curved glass 500;

the pressing structure 10 comprises a positioning block 110, a connecting block 120, a first cavity block 160, a second cavity block 161, a first spring 150, a second spring 151 and a silica gel cavity mold 190 for mounting the second curved glass 510;

the positioning block 110 is in an inverted U shape, a first through hole is formed in the top of the positioning block 110, and the connecting block 120 penetrates through the first through hole; the cylinder body of the cylinder 20 is fixedly arranged on the support frame 30, and the piston rod of the cylinder 20 is fixedly connected with the top of the connecting block 120; the first cavity block 160 and the second cavity block 161 are respectively and rotatably mounted on the positioning block 110; the first spring 150 is compressively disposed between the first cavity block 160 and the positioning block 110; the second spring 151 is compressively disposed between the second cavity block 161 and the positioning block 110; the silica gel cavity die 190 is connected with the bottom of the connecting block 120 and is clamped between the first cavity block 160 and the second cavity block 161;

the silicone cavity mold 190 is detachably acted on the jig mold 40 by the cylinder 20 for attaching the second curved glass 510 and the first curved glass 500 together.

The above technical solution is a basic solution, the cylinder 20 receives an instruction, the piston rod of the driving cylinder 20 is pressed downwards, the connecting block 120 drives the first cavity block 160, the second cavity block 161 and the positioning block 110 to descend, the first cavity block 160 opens under the elastic action of the first spring 150, the second cavity block 161 opens under the elastic action of the second spring 151, thereby causing the mouth of the silica gel cavity mold 190 to open, causing the mouth of the second curved glass 510 installed on the silica gel cavity mold 190 to open, and satisfying the space requirement that the second curved glass 510 fits the first curved glass 500.

When the second curved glass 510 contacts the first curved glass 500, the second curved glass 510 will receive the reaction force of the first curved glass 500, and the reaction force will be transmitted to the first spring 150 and the second spring 151; the first cavity block 160 and the second cavity block 161 are recycled, and the first cavity block 160 and the second cavity block 161 are matched with the silica gel cavity mold 190 to apply force to the second curved glass 510 at the same time, so that the second curved glass 510 is completely attached to the first curved glass 500, and the second curved glass 510 and the first curved glass 500 are bonded more firmly.

When the cylinder 20 receives an instruction, the piston rod of the cylinder 20 is driven to lift upwards, the connecting block 120 drives the first cavity block 160, the second cavity block 161 and the positioning block 110 to lift upwards, the first cavity block 160 opens again under the elastic force of the first spring 150, and the second cavity block 161 opens again under the elastic force of the second spring 151, so that the mouth of the silica gel cavity mold 190 opens accordingly, and the silica gel cavity mold 190 smoothly leaves the second curved glass 510 and the first curved glass 500 which are already attached together; one working cycle is completed when the piston rod of the cylinder 20. It can be understood that, in the above technical solution, due to the sizes of the silicone cavity die 190, the first cavity block 160 and the second cavity block 161, the connecting block 120 cannot be separated from the first through hole of the positioning block 110 during the up-and-down movement of the piston rod of the cylinder 20.

Further, the pressing structure 10 further includes a rotating shaft 180 respectively fixed to two side portions of the positioning block 110; two rotating shafts 180 are provided;

the first cavity block 160 is rotatably sleeved on one of the rotating shafts 180, and the second cavity block 161 is rotatably sleeved on the other rotating shaft 180.

Further, in the present embodiment, the supporting frame 30 includes a bottom plate 310, a supporting plate 320, and a plurality of columns 330; the support plates 320 are positioned above the base plate 310, and the support plates 320 are respectively installed on the base plate 310 by a plurality of pillars 330;

the supporting plate 320 is provided with a second through hole; the cylinder body of the cylinder 20 is fixedly arranged on the support plate 320, and the piston rod of the cylinder 20 is movably arranged in the second through hole in a penetrating manner;

the top surface of the bottom plate 310 is provided with a positioning slot 311 for positioning the jig die 40.

Through the cooperation of second through-hole and constant head tank 311, under the drive of cylinder, second curved surface glass 510 can realize fixing a position comparatively minutely with first curved surface glass 500, can more firmly paste together.

Further, in the present embodiment, the silicone cavity mold 190 includes an inverted U-shaped body 191 and a connecting portion 192 formed protruding from the top of the inverted U-shaped body 191;

the bottom of the connecting block 120 is fixedly connected with the connecting part 192.

Furthermore, the connecting portion 192 is T-shaped, the bottom of the connecting block 120 is provided with a corresponding T-shaped groove 121, and the connecting portion 192 is embedded in the T-shaped groove 121 at the bottom of the connecting block 120, so that the bottom of the connecting block 120 and the connecting portion 192 are fixed.

Further, a plurality of vacuum adsorption holes are uniformly formed in the inverted U-shaped main body 191;

the first cavity block 160 and the second cavity block 161 are both internally provided with cavities and are both provided with a fitting curved surface corresponding to the inverted U-shaped main body 191;

the cavity of the first cavity block 160 has a first opening (not shown) on the conforming curved surface of the first cavity block 160;

the cavity of the second cavity block 161 has a second opening 163 on the conforming curved surface of the second cavity block 161;

the inverted U-shaped main body 191 is respectively attached to the attaching curved surface of the first cavity block 160 and the attaching curved surface of the second cavity block 161; a plurality of vacuum suction holes formed in the inverted U-shaped body 191, a portion of which communicates with the cavity of the first cavity block 160 through the first opening, and another portion of which communicates with the cavity of the second cavity block 161 through the second opening 163;

the outer sides of the first cavity block 160 and the second cavity block 161 are respectively provided with a vacuum hole 162 communicated with the inner cavities. The evacuation hole 162 is used to communicate with a vacuum pump (not shown) for the vacuum pump to evacuate the cavities inside the first cavity block 160 and the second cavity block 161, so that the second curved glass 510 is vacuum-absorbed on the inverted U-shaped body 191. The second curved glass 510 and the first curved glass 500 can be better attached by controlling the vacuum pump and cooperating with the action of the air cylinder.

Further, the push-down structure 10 further includes a sealing screw 170 detachably installed in the vacuuming hole 162.

Further, the pressing structure 10 further includes a fixing screw 140 connecting the connecting block 120 and the piston rod of the cylinder 20, and an aluminum column 130 sleeved on the fixing screw 140 and clamped between the head of the fixing screw 140 and the connecting block 120.

The utility model also provides an operating method of above-mentioned glass laminating tool, include:

step 1, starting a vacuum pump, and adsorbing the second curved glass 510 in the silica gel cavity mold 190; the first curved glass 500 is placed on the jig die 40.

And 2, starting the air cylinder 20 to enable the piston rod of the air cylinder to descend, wherein the first cavity block 160, the second cavity block 161 and the silica gel cavity die 190 drive the mouth of the second curved glass 510 to open under the action of the first spring 150 and the second spring 151.

And 3, after a piston rod of the air cylinder 20 descends to enable the second curved glass 510 to contact the first curved glass 500, continuously pressing downwards to fold the opening of the second curved glass 510, so that the large-inclination first curved glass 500 is pressurized, and the process lasts for 3-5 seconds to ensure the attaching quality.

And 4, after the piston rod of the air cylinder 20 starts to ascend, opening the mouth of the silica gel cavity mold 190 under the action of elasticity, and separating the jointed glass assembly consisting of the second curved glass 510 and the first curved glass 500.

And 5, after the piston rod of the air cylinder 20 continues to rise and reset, finishing the whole glass fitting process and preparing to enter the next cycle.

It will be understood that modifications and variations are possible to those skilled in the art in light of the above teachings and that all such modifications and variations are considered to be within the purview of the invention as set forth in the appended claims.

Claims (8)

1. The glass attaching jig is characterized by comprising a support frame (30), a cylinder (20), a pressing structure (10) and a jig die (40) for supporting first curved glass (500);

the pressing structure (10) comprises a positioning block (110), a connecting block (120), a first cavity block (160), a second cavity block (161), a first spring (150), a second spring (151) and a silica gel cavity die (190) for mounting second curved glass (510);

the positioning block (110) is in an inverted U shape, a first through hole is formed in the top of the positioning block (110), and the connecting block (120) penetrates through the first through hole; the cylinder body of the cylinder (20) is fixedly arranged on the support frame (30), and the piston rod of the cylinder (20) is fixedly connected with the top of the connecting block (120); the first cavity block (160) and the second cavity block (161) are respectively and rotatably arranged on the positioning block (110); the first spring (150) is arranged between the first cavity block (160) and the positioning block (110) in a compression mode; the second spring (151) is arranged between the second cavity block (161) and the positioning block (110) in a compression mode; the silica gel cavity die (190) is connected with the bottom of the connecting block (120) and is clamped between the first cavity block (160) and the second cavity block (161);

the silica gel cavity die (190) can separately act on the jig die (40) under the action of the air cylinder (20) and is used for attaching the second curved glass (510) and the first curved glass (500) together.

2. The glass fitting jig according to claim 1, wherein the pressing structure (10) further comprises rotating shafts (180) respectively fixedly arranged on two side portions of the inverted U-shaped positioning block (110) in a penetrating manner; two rotating shafts (180) are provided;

the first cavity block (160) is rotatably sleeved on one of the rotating shafts (180), and the second cavity block (161) is rotatably sleeved on the other rotating shaft (180).

3. The glass fitting jig according to claim 1, wherein the supporting frame (30) comprises a bottom plate (310), a supporting plate (320) and a plurality of columns (330); the supporting plate (320) is positioned above the bottom plate (310), and the supporting plate (320) is respectively installed on the bottom plate (310) through a plurality of upright posts (330);

the support plate (320) is provided with a second through hole; the cylinder body of the air cylinder (20) is fixedly arranged on the supporting plate (320), and the piston rod of the air cylinder (20) is movably arranged in the second through hole in a penetrating way;

the top surface of the bottom plate (310) is provided with a positioning groove (311) for positioning the jig die (40).

4. The glass fitting jig according to claim 1, wherein the silicone cavity mold (190) comprises an inverted U-shaped main body (191) and a connecting part (192) formed on the top of the inverted U-shaped main body (191) in a protruding manner;

the bottom of the connecting block (120) is fixedly connected with the connecting part (192).

5. The glass fitting jig according to claim 4, wherein the connecting portion (192) is T-shaped, a corresponding T-shaped groove (121) is formed in the bottom of the connecting block (120), and the connecting portion (192) is embedded in the T-shaped groove (121) in the bottom of the connecting block (120).

6. The glass attaching jig according to claim 4, wherein a plurality of vacuum suction holes are uniformly formed in the inverted U-shaped main body (191);

cavities are formed in the first cavity block (160) and the second cavity block (161) and are provided with fitting curved surfaces corresponding to the inverted U-shaped main body (191);

the cavity of the first cavity block (160) is provided with a first opening on the fit curved surface of the first cavity block (160);

the cavity of the second cavity block (161) is provided with a second opening (163) on the fit curved surface of the second cavity block (161);

the inverted U-shaped main body (191) is respectively attached to the attaching curved surface of the first cavity block (160) and the attaching curved surface of the second cavity block (161); a plurality of vacuum adsorption holes are formed in the inverted U-shaped main body (191), one part of the vacuum adsorption holes is communicated with the cavity of the first cavity block (160) through the first opening, and the other part of the vacuum adsorption holes is communicated with the cavity of the second cavity block (161) through the second opening (163);

the outer side of the first cavity block (160) and the outer side of the second cavity block (161) are respectively provided with a vacuum hole (162) communicated with the inner cavities of the first cavity block and the second cavity block.

7. The glass bonding jig according to claim 6, wherein the pressing structure (10) further comprises a sealing screw (170) detachably mounted in the vacuuming hole (162).

8. The glass attaching jig according to claim 6, wherein the pressing structure (10) further comprises a fixing screw (140) for connecting the connecting block (120) and the piston rod of the cylinder (20) together, and an aluminum column (130) which is sleeved on the fixing screw (140) and is clamped between the head of the fixing screw (140) and the connecting block (120).

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