CN218196951U - Energy-saving glass film laminating machine - Google Patents

Abstract

The utility model discloses an energy-conserving glass laminating machine, including the base and remove the subassembly, both sides all are provided with the strut around the upper end of base, and the upper end of strut is provided with the diaphragm, the right-hand member of diaphragm is provided with the motor, and the rotation end of motor is connected with the pivot, it sets up in the outside of pivot to remove the subassembly, and removes the subassembly and include slider, stopper and telescopic link one, the lower extreme of slider is provided with the stopper, and the lower extreme of stopper is provided with telescopic link one, the inside of diaphragm is provided with the spout. This energy-conserving glass laminating machine, the device be convenient for the adjustment height make the glass tectorial membrane of different thickness of equipment adaptation, be favorable to promoting a small amount of bubbles that produce in the discharge tectorial membrane, be convenient for improve the tectorial membrane quality, the device can avoid taking place to slide promoting the in-process, avoid crowded pushing away incompletely, the device is favorable to the glass that adapts to different thickness, be convenient for improve the degree of automation of tectorial membrane, directional tectorial membrane reduces a large amount of bubbles because of artifical pad pasting leads to the fact.

Description

Energy-saving glass film laminating machine

Technical Field

The utility model relates to the technical field of glass production, in particular to an energy-saving glass film laminating machine.

Background

Glass is an amorphous inorganic non-metallic material, and is generally prepared by taking various inorganic minerals as main raw materials and adding a small amount of auxiliary raw materials, the film coating process is a surface processing process, the film coating machine is equipment capable of coating a functional film on the surface of an object to enhance the performance of the object or protect the integrity of the object, and the film coating machine for coating the film on the surface of the glass is called a glass film coating machine.

The prior publication No. CN208841832U, named as a glass film laminating machine, is lack of a device for extruding and pushing bubbles generated in a film during use, is not beneficial to discharging a small amount of gas entering between the film and the glass in the film laminating process, and the bubbles between the film and the glass cannot be discharged after being stored, so that the bubbles in a film laminating finished product are easy to generate, the product quality is poor, and the quality of the finished product produced by the equipment is not beneficial to improving.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving glass laminating machine to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: energy-conserving glass laminating machine, including base and removal subassembly, both sides all are provided with the strut around the upper end of base, and the upper end of strut is provided with the diaphragm, the right-hand member of diaphragm is provided with the motor, and the rotation end of motor is connected with the pivot, it sets up in the outside of pivot to remove the subassembly, and removes the subassembly and include slider, stopper and telescopic link one, the lower extreme of slider is provided with the stopper, and the lower extreme of stopper is provided with telescopic link one, the inside of diaphragm is provided with the spout.

Furthermore, the lower extreme of telescopic link one is provided with the sloping block, and the lower extreme of sloping block is provided with the pressure head.

Furthermore, the outside of pressure head is provided with the abrasion pad, and the lower extreme of abrasion pad is provided with the slipmat.

Further, the inside of base is provided with the conveyer belt, and both ends all are provided with the runner about the inside of conveyer belt.

Furthermore, a mounting seat is arranged on the left side of the upper end of the base, and a mounting assembly is arranged at the upper end of the mounting seat.

Furthermore, the mounting assembly comprises a second telescopic rod and a connecting block, and the connecting block is arranged at the upper end of the second telescopic rod.

Furthermore, the front wall and the rear wall of the connecting block are connected with connecting shafts, and pressing rods are arranged outside the connecting shafts.

The utility model provides an energy-conserving glass laminating machine possesses following beneficial effect: the device is convenient for adjusting the height to enable the equipment to adapt to glass film covering with different thicknesses, is beneficial to pushing and discharging a small amount of bubbles generated in the film covering, is convenient to improve the film covering quality, can avoid sliding in the pushing process, avoids incomplete pushing and pushing, improves the bubble removing capability of the equipment, is beneficial to adapting to the glass with different thicknesses, is convenient to improve the automation degree of the film covering, realizes directional film covering, and reduces a large amount of bubbles caused by manual film covering;

1. the utility model discloses a setting of base, strut, diaphragm, motor, pivot, slider, stopper, telescopic link and spout, operating personnel is after accomplishing the glass tectorial membrane, control telescopic link extension make the slipmat hug closely the tectorial membrane surface, then open the motor and drive the pivot rotation, make the slider drive stopper and telescopic link in the spout and move right, the device is convenient for adjust the height and make equipment adapt to the glass tectorial membrane of different thickness, be favorable to promoting the a small amount of bubbles that produce in the discharge tectorial membrane, be convenient for improve the tectorial membrane quality;

2. the utility model discloses a setting of telescopic link one, sloping block, pressure head, wear pad and slipmat, operating personnel connects the sloping block at the lower extreme of telescopic link one, then set up the pressure head that the outside wrapped up the wear pad at the sloping block lower extreme, set up the slipmat at the lower extreme of wear pad, the slipmat closely contacts with the upper surface of tectorial membrane when extending telescopic link one, then the pressure head pushes up the slipmat and moves right when promoting the sloping block, fully extrude and promote the bubble in the tectorial membrane, the device can avoid sliding in the promotion process, avoid extruding and push incompletely, improve the ability that the equipment got rid of the bubble;

3. the utility model discloses a runner, the conveyer belt, the mount pad, telescopic link two, the connecting block, the setting of connecting axle and depression bar, operating personnel passes through the connecting axle with the depression bar and is connected with the connecting block, then install the connecting block in the top of telescopic link two, place glass in the upper end left side of conveyer belt, then correspond at glass's right-hand member and place the membrane, the length of adjustment telescopic link two makes the position of depression bar take place to reciprocate, the adjustment is to the upper surface of the tight laminating in the tectorial membrane of depression bar, then open the runner and drive the conveyer belt operation, convey glass right and cover the membrane in the glass top simultaneously, the device is favorable to the glass that adapts to different thickness, be convenient for improve the degree of automation of tectorial membrane, directional tectorial membrane, reduce a large amount of bubbles because of artifical tectorial membrane causes.

Drawings

FIG. 1 is a schematic view of the front view cross-section structure of the energy-saving glass film laminating machine of the present invention;

FIG. 2 is an enlarged schematic structural view of the energy-saving glass film laminating machine of the present invention at the position A in FIG. 1;

fig. 3 is a schematic view of the three-dimensional structure of the mounting assembly of the energy-saving glass film laminating machine of the present invention.

In the figure: 1. a base; 2. a support frame; 3. a transverse plate; 4. a motor; 5. a rotating shaft; 6. a moving assembly; 601. a slider; 602. a limiting block; 603. a first telescopic rod; 7. a chute; 8. a sloping block; 9. a pressure head; 10. a wear pad; 11. a non-slip mat; 12. a rotating wheel; 13. a conveyor belt; 14. a mounting seat; 15. mounting the component; 1501. a second telescopic rod; 1502. connecting blocks; 16. a connecting shaft; 17. a pressure lever.

Detailed Description

As shown in fig. 1 and fig. 2, the energy-saving glass film laminating machine comprises a base 1 and a moving assembly 6, wherein a support frame 2 is arranged on the front side and the rear side of the upper end of the base 1, a transverse plate 3 is arranged on the upper end of the support frame 2, a motor 4 is arranged on the right end of the transverse plate 3, a rotating end of the motor 4 is connected with a rotating shaft 5, the moving assembly 6 is arranged outside the rotating shaft 5, the moving assembly 6 comprises a sliding block 601, a limiting block 602 and a first telescopic rod 603, the lower end of the sliding block 601 is provided with the limiting block 602, the lower end of the limiting block 602 is provided with the first telescopic rod 603, a sliding chute 7 is arranged inside the transverse plate 3, after an operator finishes glass film laminating, the first telescopic rod 603 is controlled to extend to enable a non-slip mat 11 to be tightly attached to the surface of a film, then the motor 4 is opened to drive the rotating shaft 5 to rotate, the sliding block 601 drives the limiting block 602 and the first telescopic rod 603 to move rightwards in the sliding chute 7, the device is convenient for adjusting the height to enable the device to adapt to glass film laminating with different thicknesses, the lower end of a first telescopic rod 603 is provided with an inclined block 8, the lower end of the inclined block 8 is provided with a pressure head 9, the outer part of the pressure head 9 is provided with a wear-resistant pad 10, the lower end of the wear-resistant pad 10 is provided with a non-slip pad 11, the inner part of a base 1 is provided with a conveyor belt 13, the left end and the right end of the inner part of the conveyor belt 13 are provided with rotating wheels 12, an operator is connected with the inclined block 8 at the lower end of the first telescopic rod 603, the lower end of the inclined block 8 is provided with the pressure head 9 wrapped with the wear-resistant pad 10, the lower end of the wear-resistant pad 10 is provided with the non-slip pad 11, the non-slip pad 11 is in close contact with the upper surface of the coating film when the first telescopic rod 603 is extended, then the pressure head 9 pushes the non-slip pad 11 to move rightwards when the inclined block 8 is pushed, bubbles in the coating film are fully extruded and pushed, and the device can avoid sliding in the pushing process, avoid the extrusion incomplete, improve the ability of equipment to get rid of the bubble.

As shown in fig. 1 and 3, a mounting seat 14 is arranged on the left side of the upper end of a base 1, a mounting assembly 15 is arranged on the upper end of the mounting seat 14, the mounting assembly 15 comprises a second telescopic rod 1501 and a connecting block 1502, the upper end of the second telescopic rod 1501 is provided with the connecting block 1502, a connecting shaft 16 is connected to the front wall and the rear wall of the connecting block 1502, a pressure lever 17 is arranged outside the connecting shaft 16, the pressure lever 17 is connected with the connecting block 1502 through the connecting shaft 16 by an operator, then the connecting block 1502 is mounted above the second telescopic rod 1501, glass is placed on the left side of the upper end of a conveyor belt 13, then the right end of the glass is correspondingly provided with a film, the length of the second telescopic rod 1501 is adjusted to enable the position of the pressure lever 17 to move up and down, the pressure lever 17 is adjusted to be tightly attached to the upper surface of a film, then a rotating wheel 12 is opened to drive the conveyor belt 13 to move, the glass is conveyed to the right and the film is coated above the glass, the device is beneficial to being suitable for glass with different thicknesses, the improvement of automation degree of film coating is convenient, directional coating, and a large amount of bubbles caused by manual film coating is reduced.

In conclusion, when the energy-saving glass film laminating machine is used, firstly, an operator sleeves the sliding block 601 on the rotating shaft 5 and puts the sliding block 601 into the sliding groove 7, then the motor 4 is arranged on the right side of the transverse plate 3, the rotating end of the motor 4 is connected with the right end of the rotating shaft 5, the limiting block 602 is arranged below the sliding block 601, then the first telescopic rod 603 is arranged below the limiting block 602, the operator connects the inclined block 8 with the lower end of the first telescopic rod 603, then the pressing head 9 externally wrapped with the wear-resistant pad 10 is arranged at the lower end of the inclined block 8, the non-slip pad 11 is arranged at the lower end of the wear-resistant pad 10, the support frame 2 is arranged on the front side and the rear side of the upper end of the base 1, then the transverse plate 3 is arranged above the support frame 2, the conveyor belt 13 is connected with the base 1 through the rotating wheel 12, then the pressing rod 17 is connected with the connecting block 1502 through the connecting shaft 16, then the connecting block 1502 is arranged above the second telescopic rod 1501, placing glass on the left side of the upper end of a conveyor belt 13, then contacting and aligning the end of a membrane with the end of the right side of the upper end of the glass at a corresponding position on the right side of the upper end of the glass, adjusting the length of a telescopic rod II 1501 to enable the position of a pressure rod 17 to move up and down, adjusting the pressure rod 17 to be tightly attached to the upper surface of a coated membrane, then opening a rotating wheel 12 to drive the conveyor belt 13 to move, conveying the glass to the right, slowly and directionally covering the membrane above the glass, after an operator finishes coating the membrane on the glass, controlling a telescopic rod I603 to extend to enable a non-slip mat 11 to be tightly attached to the surface of the coated membrane, then opening a motor 4 to drive a rotating shaft 5 to rotate, enabling a sliding block 601 to move rightwards with a limiting block 602 and a telescopic rod I603 in a sliding chute 7, then pushing a pressure head 9 to push the non-slip mat 11 to move rightwards when an inclined block 8 is pushed, and the friction force between the mat 11 and the coated membrane is larger, the air bubbles in the film covering are fully extruded and pushed, and the air bubbles entering in the film covering process are fully pushed out to one side, so that the working principle of the energy-saving glass film covering machine is realized.

Claims (7)

1. Energy-conserving glass laminating machine, including base (1) and removal subassembly (6), its characterized in that, both sides all are provided with strut (2) around the upper end of base (1), and the upper end of strut (2) is provided with diaphragm (3), the right-hand member of diaphragm (3) is provided with motor (4), and the rotation end of motor (4) is connected with pivot (5), remove subassembly (6) and set up in the outside of pivot (5), and remove subassembly (6) and include slider (601), stopper (602) and telescopic link (603), the lower extreme of slider (601) is provided with stopper (602), and the lower extreme of stopper (602) is provided with telescopic link (603), the inside of diaphragm (3) is provided with spout (7).

2. An energy-saving glass film laminating machine according to claim 1, characterized in that the lower end of the first telescopic rod (603) is provided with a sloping block (8), and the lower end of the sloping block (8) is provided with a pressure head (9).

3. An energy-saving glass laminator according to claim 2, wherein the outside of the ram (9) is provided with a wear pad (10) and the lower end of the wear pad (10) is provided with a non-slip pad (11).

4. The energy-saving glass film laminating machine according to claim 1, characterized in that a conveyor belt (13) is arranged inside the base (1), and rotating wheels (12) are arranged at the left and right ends inside the conveyor belt (13).

5. An energy-saving glass film laminating machine according to claim 1, characterized in that the left side of the upper end of the base (1) is provided with a mounting seat (14), and the upper end of the mounting seat (14) is provided with a mounting component (15).

6. The energy-saving glass laminating machine according to claim 5, characterized in that the mounting assembly (15) comprises a second telescopic rod (1501) and a connecting block (1502), and the upper end of the second telescopic rod (1501) is provided with the connecting block (1502).

7. The energy-saving glass laminating machine according to claim 6, characterized in that the front and back walls of the connecting block (1502) are connected with connecting shafts (16), and a pressure lever (17) is arranged outside the connecting shafts (16).

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