CN214881108U - Glass bonding device - Google Patents
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- CN214881108U CN214881108U CN202121334368.3U CN202121334368U CN214881108U CN 214881108 U CN214881108 U CN 214881108U CN 202121334368 U CN202121334368 U CN 202121334368U CN 214881108 U CN214881108 U CN 214881108U
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Abstract
A glass bonding device belongs to the technical field of double-layer glass bonding. The method is characterized in that: the heating device is arranged on the upper side and the lower side of the distance adjusting device, the loading device is provided with a loading part surrounding the distance adjusting device, and the side part of the loading part is provided with a hot melting device. The heating device of the glass bonding device heats the upper layer of glass plate and the lower layer of glass plate, the effective stroke of the distance adjusting device is 1-1.5 mm, so that the distance between the two layers of glass plates is 0.5mm, and the heating device continuously heats the double layers of glass plates, so that the glass is prevented from being heated unevenly and cracked; the hot melting device independently heats the edge of the glass plate to the temperature required by bonding of the glass plate, the loading device pushes the edge of the glass plate to move through the loading part, and the edges of the two layers of glass plates are bonded, so that the bonding of the double-layer glass plates is realized, and the bonding of the edges of the double-layer glass plates is reliable.
Description
Technical Field
A glass bonding device belongs to the technical field of double-layer glass bonding.
Background
Double glazing's goods have the heat preservation, thermal-insulated function, and the demand to double glazing's goods is increasing in the existing market, need bond through heating to certain temperature between double glazing's glass and glass's the edge, make double glazing's efficiency reach the biggest. In the bonding process of the double-layer glass, glass powder is usually used for bonding the double-layer glass plate, but the bonding mode has high production cost and high operation difficulty during the bonding of the double-layer glass, the edge of the double-layer glass is difficult to ensure complete bonding when the edge of the double-layer glass is bonded, and the bonding strength of the edge of the glass is very low.
Disclosure of Invention
The to-be-solved technical problem of the utility model is: the glass bonding device overcomes the defects of the prior art, can independently load the edge of glass and has high bonding strength.
The utility model provides a technical scheme that its technical problem adopted is: the glass bonding device is characterized in that: the heating device is arranged on the upper side and the lower side of the distance adjusting device, the loading device is provided with a loading part surrounding the distance adjusting device, and the side part of the loading part is provided with a hot melting device.
Preferably, the interval adjusting device comprises an upper supporting plate, a lower supporting plate, a supporting device and a clamping device, wherein the lower supporting plate is installed on the upper side of the supporting device, the upper supporting plate is arranged on the upper side of the lower supporting plate at intervals, a space for accommodating the glass plate is formed between the upper supporting plate and the lower supporting plate, and the clamping device is arranged on the side portion of the upper supporting plate. Clamping device can press from both sides tightly the upper glass board at the upper bracket board downside, and lower floor's glass board sets up at the bottom suspension fork upside, and the supporting device links to each other with the bottom suspension fork and promotes the bottom suspension fork lift to adjust the interval of upper glass board and lower floor's glass board, it is convenient to adjust.
Preferably, the clamping device comprises a clamping jaw, the top of the clamping jaw is hinged with the side part of the upper supporting plate, and the bottom of the clamping jaw is bent towards the direction close to the middle part of the upper supporting plate. The upper glass plate and the upper supporting plate are clamped tightly through the clamping jaw, so that the upper glass plate is convenient to clamp.
Preferably, the clamping device further comprises a clamping cam and a clamping motor, the clamping motor is connected with the clamping cam and drives the clamping cam to rotate, and the clamping cam is connected with the clamping jaw in a sliding mode and drives the clamping jaw to swing towards a direction close to or far away from the upper supporting plate. The clamping motor pushes the clamping jaw to swing through the clamping cam, so that the clamping jaw automatically compresses the upper glass plate on the upper supporting plate.
Preferably, the loading device comprises a hot melt plate, an elastic buffer device and a driving device, the hot melt plate is arranged around the distance adjusting device, the elastic buffer device is arranged between the driving device and the hot melt plate, and the driving device is connected with the hot melt plate through the elastic buffer device. The driving device loads the hot melting plate through the elastic buffer device and loads the edge of the glass through the hot melting plate, and the edge of the double-layer glass plate is 0.2-0.3N/cm2The constant pressure is maintained, the edge of the double-layer glass is tightly pressed and maintained for 3-5 min by the constant pressure, heating is continuously carried out, the bonding time of the double-layer glass plate is long, the bonding strength is high, and the qualification rate of the double-layer glass is improved.
Preferably, the elastic buffer device comprises a loading plate and a loading elastic element, the loading elastic element is arranged between the melt plate and the loading plate, and the driving device is connected with the loading plate. The loading elastic elements are uniformly distributed between the supporting plate and the loading plate, so that the hot melting plate transmits constant pressure to the double-layer glass plate, and the buffer effect can be achieved.
Preferably, the elastic buffer device further comprises a supporting plate, the supporting plate is arranged between the hot melting plate and the loading plate, the loading elastic element is arranged between the supporting plate and the loading plate, and the loading heat insulation column is arranged between the supporting plate and the hot melting plate. The heating heat insulation column can avoid heat transfer to the supporting plate and the loading plate, can play a role in protecting equipment, and can improve the utilization rate of energy.
Preferably, the spring-loaded element comprises a plurality of spring-loaded springs arranged side by side.
Preferably, the elastic buffer device further comprises a loading limiting block and a supporting rod, the supporting rod is fixedly connected with the loading heat insulation column and the supporting plate, the loading plate is slidably connected with the supporting rod, and the loading limiting block is in threaded connection with the supporting rod on the lower side of the loading plate. The loading limiting block is in threaded connection with the supporting rod, the distance between the loading plate and the supporting plate can be adjusted, and then the elasticity of the loading elastic element is adjusted, so that the loading force on the edge of the glass plate is adjusted, and the adjustment is convenient.
Preferably, the driving device comprises a loading cam and a loading motor, the loading cam is arranged at the lower side of the elastic buffer device, the bottom of the elastic buffer device is slidably supported at the top of the loading cam, and the loading motor is connected with the loading cam. The loading motor drives the elastic buffer device to lift through the loading cam, so that the movement of the elastic buffer device is conveniently and accurately controlled.
Compared with the prior art, the utility model discloses the beneficial effect who has is:
the heating device heats the upper layer of glass plate and the lower layer of glass plate, the effective stroke of the distance adjusting device is 1-1.5 mm, so that the distance between the two layers of glass plates is 0.5mm, and the heating device continuously heats the double layers of glass plates, so that the glass is prevented from being heated unevenly and cracked; the hot melting device heats the edge of the glass plate independently, the temperature required by bonding of the glass plate is heated, the loading device pushes the edge of the glass plate to move through the loading part, and the edges of the two layers of glass plates are bonded, so that the bonding of the edges of the two layers of glass plates is realized, the bonding of the edges of the two layers of glass plates is reliable, and the two layers of glass plates are bonded in vacuum, so that the two layers of glass plates are in vacuum.
Drawings
FIG. 1 is a schematic front sectional view of a glass bonding apparatus according to example 1.
FIG. 2 is a schematic front sectional view of a glass bonding apparatus according to example 2.
FIG. 3 is a schematic front sectional view of a glass bonding apparatus according to example 3.
Wherein: 1. the device comprises an upright post 2, an upper supporting plate 3, a clamping jaw 4, a clamping cam 5, a glass plate 6, a hot melting plate 7, a lower supporting plate 8, a loading heat insulation column 9, a supporting rod 10, a supporting plate 11, a loading spring 12, a loading plate 13, a loading cam 14, a loading limiting block 15, a supporting rod 16, a supporting limiting block 17, a supporting cam 18, an adjusting plate 19, a supporting plate 20, a supporting heat insulation column 21, a heating induction coil 22, a hot melting induction coil 23 and a heat insulation cover.
Detailed Description
Fig. 1 is a preferred embodiment of the present invention, and the present invention will be further explained with reference to fig. 1 to 3.
The utility model provides a glass bonding device, includes interval adjusting device and loading device, and interval adjusting device's upper and lower both sides all are provided with heating device, are provided with the loading portion that encircles interval adjusting device and set up on the loading device, and the lateral part of loading portion is provided with hot melting device. The heating device heats the upper layer of glass plate 5 and the lower layer of glass plate 5, the effective stroke of the distance adjusting device is 1-1.5 mm, so that the distance between the two layers of glass plates is 0.5mm, and the heating device continuously heats the double-layer glass plates 5, so that the glass is prevented from being heated unevenly and cracked; the hot melting device independently heats the edge of the glass plate 5 to the temperature required by bonding of the glass plate 5, the loading device pushes the edge of the glass plate 5 to move through the loading part, and the edges of the two layers of glass plates 5 are bonded, so that the bonding of the two layers of glass plates 5 is realized, the bonding of the edges of the two layers of glass plates 5 is reliable, and the bonding of the two layers of glass plates 5 in vacuum ensures that the space between the two layers of glass plates 5 is vacuum.
The present invention is further described with reference to specific embodiments, however, it will be understood by those skilled in the art that the detailed description given herein with respect to the drawings is for better explanation and that the present invention is necessarily to be construed as limited to those embodiments, and equivalents or common means thereof will not be described in detail but will fall within the scope of the present application.
Example 1
Referring to fig. 1, the glass bonding device further comprises a vacuum box, the vacuum box is connected with a vacuum pump for vacuumizing the vacuum box, the distance adjusting device and the loading device are both arranged in the vacuum box, heating devices are arranged on the upper side and the lower side of the distance adjusting device, a loading portion arranged around the distance adjusting device is arranged on the loading device, and a hot melting device is arranged on the side portion of the loading portion.
The interval adjusting device comprises an upper supporting plate 2, a lower supporting plate 7, a supporting device and a clamping device, wherein the lower supporting plate 7 is horizontally arranged, the lower supporting plate 7 is installed on the upper side of the supporting device, the upper supporting plate 2 is horizontally arranged on the upper side of the lower supporting plate 7 and is arranged at an interval with the upper supporting plate 7, a space for accommodating the glass plate 5 is formed between the upper supporting plate 2 and the lower supporting plate 7, and the clamping device is arranged on the side part of the upper supporting plate 2. Clamping device sets up the lateral part at upper plate 2, and clamping device encircles upper plate 2 interval and is provided with a plurality of. The supporting device is connected with the lower supporting plate 7 and pushes the lower supporting plate 7 to lift.
Clamping device includes clamping jaw 3, presss from both sides tight cam 4 and presss from both sides tight motor, and the top of clamping jaw 3 is articulated with the lateral part of upper plate 2, and 3 bottoms of clamping jaw are buckled to the direction that is close to 2 middle parts of upper plate, and clamping jaw 3 is swung to the direction that is close to 2 middle parts of lower plate, can press from both sides tight downside at upper glass plate 5 at upper strata 2. It installs in the vacuum chamber rotatably to press from both sides tight cam 4, clamping jaw 3 sets up between tight cam 4 of the clamp and the cope match-plate pattern 2 that corresponds, clamping jaw 3 is the convex arc of direction that the middle part is close to tight cam 4, the middle part and the tight cam 4 slidable of clamp of clamping jaw 3 are connected, press from both sides tight motor and install in the vacuum chamber, press from both sides tight motor and press from both sides tight cam 4 and link to each other, and drive its rotation, thereby promote clamping jaw 3 to the direction swing of being close to or keeping away from cope match-plate pattern 2, and then realized the clamp of upper glass board 5 or unclamped.
A connecting rod is further arranged between the clamping jaw 3 and the clamping cam 4, one end of the connecting rod is hinged to the middle of the clamping jaw 3, the other end of the connecting rod is connected with the clamping cam 4 in a sliding mode, and a guide sleeve connected with the connecting rod in a sliding mode is arranged in the vacuum box, so that clamping and loosening of the clamping jaw 3 are achieved.
The upper supporting plate 2 is installed in the vacuum box through a cross beam, the cross beam is fixedly arranged, the upper supporting plate 2 is arranged on the lower side of the cross beam at intervals, the stand column 1 is arranged between the cross beam and the upper supporting plate 2, the upper end of the stand column 1 is fixedly connected with the cross beam, and the lower end of the stand column is fixedly connected with the upper supporting plate 2, so that the fixed installation of the upper supporting plate 2 is realized.
The supporting device comprises an adjusting plate 18, a supporting plate 19, a supporting elastic element and a power device, wherein the supporting plate 19 is horizontally arranged, the adjusting plate 18 is horizontally arranged and arranged at the lower side of the supporting plate 19 at intervals, in the embodiment, the supporting elastic element is a supporting spring, the supporting spring is in a compression state, the supporting spring is vertically arranged between the adjusting plate 18 and the supporting plate 19, two ends of the supporting spring are respectively connected with the adjusting plate 18 and the supporting plate 19, and the supporting spring is arranged side by side and provided with a plurality of roots at intervals. The power device is arranged on the lower side of the adjusting plate 18, is connected with the adjusting plate 18 and pushes the adjusting plate to move up and down, and then the height of the lower supporting plate 7 is adjusted through the supporting spring and the supporting plate 19 so as to adjust the distance between the upper layer glass plate 5 and the lower layer glass plate 5.
The power device comprises a bearing cam 17 and a bearing motor, the bearing cam 17 is rotatably installed in the vacuum box, the bearing cam 17 is arranged on the lower side of the adjusting plate 18, the bearing motor is installed in the vacuum box, and the bearing motor is connected with the bearing cam 17 and drives the bearing motor to rotate. The bottom of the adjusting plate 18 is slidably connected to the support cam 17 and is lifted and lowered synchronously with the rotation of the support cam 17. The bearing cams 17 have two that set up in regulating plate 18 both sides, and two bearing cams 17 can link to each other with same bearing motor, also can be connected with respectively and drive its pivoted bearing motor.
The power device further comprises a bearing rod 15 and a bearing limiting block 16, the bearing rod 15 is vertically arranged, the upper end of the bearing rod 15 is fixedly connected with a bearing plate 19, the lower end of the bearing rod can slide downwards to penetrate through an adjusting plate 18, the bearing limiting block 16 is in threaded connection with the bearing rod 15, the bearing limiting block 16 is arranged on the lower side of the adjusting plate 18, the distance between the adjusting plate 18 and the bearing plate 19 can be adjusted through the bearing limiting block 16, the elasticity of a bearing spring is adjusted, and the adjustment is convenient.
The regulating plate 19 interval sets up the downside at bottom plate 7, is provided with bearing heat insulation post 20 between regulating plate 19 and bottom plate 7, and bearing heat insulation post 20 is the alumina material, and the lower extreme of bearing heat insulation post 20 links to each other with regulating plate 19, and the upper end links to each other with bottom plate 7 to avoid the heat downward transmission of bottom plate 7 to regulating plate 19 on.
The loading device comprises a hot melt plate 6, an elastic buffer device and a driving device, the hot melt plate 6 is arranged around the lower supporting plate 7, the elastic buffer device is arranged between the driving device and the hot melt plate 6, and the driving device is connected with the hot melt plate 6 through the elastic buffer device. The driving means pushes the melt plate 6 up through the elastic buffer means to load the edge of the glass plate 5. The edge of the hot melting plate 6 is opposite to the edge of the upper supporting plate 7.
The elastic buffer device comprises a supporting plate 10, a loading plate 12 and loading elastic elements, wherein the supporting plate 10 is horizontally arranged on the lower side of the hot melt plate 6, the loading plate 12 is horizontally arranged on the lower side of the supporting plate 10 at intervals, in the embodiment, the loading elastic elements are loading springs 11, the loading springs 11 are in a compression state, the loading springs 11 are vertically arranged between the loading plate 12 and the supporting plate 10, the upper end and the lower end of each loading spring 11 are respectively connected with the supporting plate 10 and the loading plate 12, and the loading springs 11 are arranged side by side and are provided with a plurality of loading springs 11 at intervals. The backup pad 10 passes through bracing piece 9 and links to each other with hot melt plate 6, and the vertical setting of bracing piece 9, the upper end of bracing piece 9 are through loading heat insulation post 8 and hot melt plate 6 fixed connection, and loading heat insulation post 8 also is the alumina material, and the lower extreme passes backup pad 10 and loading plate 12 downwards in proper order, bracing piece 9 and backup pad 10 fixed connection, and bracing piece 9 is connected with loading plate 12 slidable. The driving device is arranged at the lower side of the loading plate 12 and pushes the loading plate 12 to lift, thereby realizing the loading of the edge of the glass plate 5.
The driving device comprises a loading cam 13 and a loading motor, the loading cam 13 is rotatably arranged in the vacuum box, the loading cam 13 is arranged at the lower side of the loading plate 12, and the bottom of the loading plate 12 is slidably connected with the loading cam 13. The driving motor is installed in the vacuum box, is connected with the loading cam 13, and drives the loading cam 13 to rotate, so as to push the loading plate 12 to lift.
The loading device further comprises a loading limiting block 14, the loading limiting block 14 is in threaded connection with the lower end of the supporting rod 9, the loading limiting block 14 is arranged on the lower side of the loading plate 12, the distance between the supporting plate 10 and the loading plate 12 can be adjusted through the loading limiting block 14, the elasticity of the loading spring 11 is further adjusted, so that the pressure on the edge of the glass plate 5 is adjusted, and the adjustment is convenient.
The upper supporting plate 2 and the lower supporting plate 7 are both graphite plates, heating devices are arranged on the upper side of the upper supporting plate 2 and the lower side of the lower supporting plate 7, the heating devices are heating induction coils 21, the heating induction coils 21 respectively heat the upper layer glass plate 5 and the lower layer glass plate 5 through the upper supporting plate 2 and the lower supporting plate 7, and the temperature of the middle part of each glass plate 5 is maintained at 360-450 ℃; the hot melting device is the hot melt induction coil 22 that sets up in hot melt 6 downside, and hot melt 6 is the graphite cake also, heats to 830~845 ℃ to hot melt 6.
The working process of the double-layer glass bonding device is as follows: the double-layer glass 5 plates are respectively arranged between the upper supporting plate 2 and the lower supporting plate 7, the switch cam 4 rotates and pushes the clamping jaw 3 to swing, andclamping an upper glass plate 5 on the lower side of an upper supporting plate 2, after a vacuum box is vacuumized, starting heating an induction heating coil 21 and a hot-melt induction coil 22 to 360-450 ℃, adjusting the distance between double-layer glass plates 5, wherein the effective stroke of a distance adjusting device is 1-1.5 mm, and the distance between the double-layer glass plates 5 is 0.5 mm; the heating induction coil 21 keeps heating, the hot melting induction coil 22 heats the edge of the double-layer glass plate 5, the heating temperature of the hot melting induction coil 22 to the glass plate 5 is adjusted according to the difference of the glass plate, in the embodiment, the heating temperature of the hot melting induction coil 22 is 830-845 ℃, the loading cam 13 pushes the loading plate 12 upwards at the moment, and the constant pressure of the edge of the double-layer glass plate 5 is 0.2-0.3N/cm2And maintaining for 3-5 min to realize the bonding of the double-layer glass plate 5.
The edge of the existing double-layer vacuum glass is usually printed with a mixture of glass powder and resin, and when the glass is heated in vacuum, gaps are left in the glass powder due to boiling volatilization of the resin, so that the problem of air leakage is easily caused. In this embodiment, the force applied to the edge of the glass plate 5 is 0.2 to 0.3N/cm2。
The process for bonding the double-layer glass plate by using the glass bonding device comprises the following steps:
step 1) two layers of glass plates 5 are placed on a distance adjusting device.
Placing two layers of glass plates 5 between an upper supporting plate 2 and a lower supporting plate 7 respectively, wherein the upper layer of glass plate 5 is clamped at the lower side of the upper supporting plate 2 through a clamping jaw 3, and the lower layer of glass plate 5 is placed at the upper side of the lower supporting plate 7;
and step 2) placing the distance adjusting device in a vacuum environment, operating the heating device and the hot melting device, heating the glass plate 5 to 360-450 ℃, and adjusting the distance between the double-layer glass plates 5 through the supporting device.
Vacuumizing the vacuum box, starting heating the heating induction coil 21 and the hot-melting induction coil 22 to 360-450 ℃, adjusting the distance between the glass plates 5 on the two sides, wherein the effective stroke of the distance adjusting device is 1-1.5 mm, and the distance between the double-layer glass plates 5 is 0.5 mm;
and 3) continuously heating the edge of the lower glass plate 5 by the hot melting device to enable the edge of the lower glass plate 5 to be in a molten state.
The hot-melting induction coil 22 continues to heat the edge of the lower glass plate 5, the heating temperature is adjusted according to different glass plates, and in the embodiment, the heating temperature of the hot-melting induction coil 22 is 830-845 ℃;
step 4) the loading device applies constant pressure of 0.2-0.3N/cm to the edge of the lower glass plate 5 through the loading part2And maintaining for 3-5 min to realize the bonding of the double-layer glass plate 5.
The edge of the glass plate 5 is pushed upwards and pressed by the hot melting plate, and a constant pressure is maintained, in the embodiment, the constant pressure on the edge of the glass plate 5 is 0.2-0.3N/cm2And maintaining for 3-5 min to realize the bonding of the double-layer glass plate 5. And the lower pressure at the edge of the upper glass sheet 5 may be 0.
Example 2
Referring to fig. 2: difference of example 2 from example 1: the upper supporting plate 2 comprises two semicircular supporting plates, the two semicircular supporting plates are encircled to form a cylindrical upper supporting plate 2, a disc-shaped top plate is coaxially arranged at the top of one semicircular supporting plate, the top of the upper supporting plate 2 is sealed, the upper supporting plate 2 is matched with a glass cup in size, a double-layer glass cup is placed in the upper supporting plate 2, the double-layer glass cup is fixed by means of friction force between the double-layer glass cup and the upper supporting plate 2, a heating induction coil 21 is arranged on the outer side of the upper supporting plate 2, hot melting induction coils 22 on two sides of the lower supporting plate 7 are heated, the loading device is pushed upwards, a constant pressure is applied and heating is maintained, and bonding is achieved.
Example 3
Referring to fig. 3, the difference between embodiment 3 and embodiment 1: the upside of encircleing the upper plate 2 also is provided with loading device, and the hot melt plate 6 of the loading device of the 2 upside of upper plate encircles the setting of upper plate 2, and encircles the hot melt plate 6 of upper plate 2 and just to setting up with the hot melt plate 6 that encircles bottom plate 7, and upper and lower two loading device's bracing piece 9 all links to each other with the hot melt plate 6 that corresponds through heat exchanger 23.
One side of the heat shield 23 facing the corresponding hot melt plate 6 is provided with a groove, the hot melt induction coil 22 is arranged in the corresponding groove of the heat shield 23, and one side of the heat shield 23 far away from the hot melt plate 6 is a cylindrical butt joint part butted with the support rod 9 on the corresponding side.
While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.
Claims (10)
1. A glass bonding apparatus characterized by: the heating device is arranged on the upper side and the lower side of the distance adjusting device, the loading device is provided with a loading part surrounding the distance adjusting device, and the side part of the loading part is provided with a hot melting device.
2. A glass bonding apparatus according to claim 1, wherein: the interval adjusting device comprises an upper supporting plate (2), a lower supporting plate (7), a supporting device and a clamping device, wherein the lower supporting plate (7) is installed on the upper side of the supporting device, the upper supporting plate (2) is arranged on the upper side of the lower supporting plate (7) at intervals, a space for accommodating the glass plate (5) is formed between the upper supporting plate (2) and the lower supporting plate (7), and the clamping device is arranged on the side portion of the upper supporting plate (2).
3. A glass bonding apparatus according to claim 2, wherein: the clamping device comprises a clamping jaw (3), the top of the clamping jaw (3) is hinged with the side part of the upper supporting plate (2), and the bottom of the clamping jaw (3) is bent towards the direction close to the middle part of the upper supporting plate (2).
4. A glass bonding apparatus according to claim 3, wherein: the clamping device further comprises a clamping cam (4) and a clamping motor, the clamping motor is connected with the clamping cam (4) and drives the clamping cam to rotate, the clamping cam (4) is connected with the clamping jaw (3) in a sliding mode, and the clamping jaw (3) is driven to swing towards the direction close to or far away from the upper supporting plate (2).
5. A glass bonding apparatus according to claim 1, wherein: the loading device comprises a hot melt plate (6), an elastic buffer device and a driving device, the hot melt plate (6) surrounds the interval adjusting device, the elastic buffer device is arranged between the driving device and the hot melt plate (6), and the driving device is connected with the hot melt plate (6) through the elastic buffer device.
6. The glass bonding apparatus according to claim 5, wherein: the elastic buffer device comprises a loading plate (12) and an elastic loading element, the elastic loading element is arranged between the hot melt plate (6) and the loading plate (12), and the driving device is connected with the loading plate (12).
7. The glass bonding apparatus according to claim 6, wherein: the elastic buffer device further comprises a supporting plate (10), the supporting plate (10) is arranged between the hot melting plate (6) and the loading plate (12), the loading elastic element is arranged between the supporting plate (10) and the loading plate (12), and a loading heat insulation column (8) is arranged between the supporting plate (10) and the hot melting plate (6).
8. The glass bonding apparatus according to claim 6, wherein: the loading elastic element comprises a plurality of loading springs (11) which are arranged side by side.
9. The glass bonding apparatus according to claim 7, wherein: the elastic buffer device further comprises a loading limiting block (14) and a supporting rod (9), the supporting rod (9) is fixedly connected with the loading heat insulation column (8) and the supporting plate (10), the loading plate (12) is connected with the supporting rod (9) in a sliding mode, and the loading limiting block (14) is in threaded connection with the supporting rod (9) on the lower side of the loading plate (12).
10. The glass bonding apparatus according to claim 5, wherein: the driving device comprises a loading cam (13) and a loading motor, the loading cam (13) is arranged on the lower side of the elastic buffer device, the bottom of the elastic buffer device is slidably supported on the top of the loading cam (13), and the loading motor is connected with the loading cam (13).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121334368.3U CN214881108U (en) | 2021-06-16 | 2021-06-16 | Glass bonding device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202121334368.3U CN214881108U (en) | 2021-06-16 | 2021-06-16 | Glass bonding device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN214881108U true CN214881108U (en) | 2021-11-26 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202121334368.3U Active CN214881108U (en) | 2021-06-16 | 2021-06-16 | Glass bonding device |
Country Status (1)
| Country | Link |
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| CN (1) | CN214881108U (en) |
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2021
- 2021-06-16 CN CN202121334368.3U patent/CN214881108U/en active Active
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