CN218637753U - Hollow glass production line capable of automatically gluing - Google Patents

Abstract

The utility model relates to a glass rubber coating technical field just discloses a but automatic rubber coated cavity glass production line, the power distribution box comprises a box body, the inside diapire swing joint of box has the drive shaft, the surperficial swing joint of drive shaft has the meshing pole, the upper end fixedly connected with connecting rod of meshing pole, the one end that the meshing pole was kept away from to the connecting rod is provided with places the piece, the surface of drive shaft and the one side that is located the meshing pole are provided with first screw rod, the surperficial swing joint of screw rod has the buffering frame, the surperficial swing joint of buffering frame has first rubber coating axle. First screw rod removes and drives first rubber coating axle promptly and is close to the glass board surface, and meanwhile the rotatory second screw rod that also can mesh and drive of drive shaft rotates, and the second screw rod rotates and drives the second rubber coating axle through the turbine rotatory, and the rotatory cooperation of second rubber coating axle is close to the first rubber coating axle of glass board this moment, and the glass board at the revolving force of drive shaft this moment in addition, so reached automatic turned angle rubber coated effect.

Description

Hollow glass production line capable of automatically gluing

Technical Field

The utility model relates to a glass rubber coating technical field specifically is a but automatic rubber coated cavity glass production line.

Background

The hollow glass is a glass product formed by uniformly separating two or more pieces of glass by effective support and bonding and sealing the periphery of the glass to form a dry gas space between glass layers; the main materials of the air-conditioning glass are glass, warm edge spacing strips, corner bolts, butyl rubber, polysulfide glue and drying agents, and the air-conditioning glass is popular with consumers in the market due to the excellent performance.

Present cavity glass need carry out the rubber coating in order to fix two glass when the preparation, and present rubber coating technology is mostly artifical handheld support frame, makes the glass edge and the contact of rubber coating mechanism of one side, treats to rotate after the coating is accomplished, coating opposite side glass edge, and because glass belongs to fragile article, the area that covers when artifical rotates is great, and this action just can increase glass and other article and contact the risk of damaging, so can be proposed to this cavity glass production line of automatic rubber coating.

Disclosure of Invention

For realize above-mentioned automatic turned angle rubber coating, with the purpose of the inhomogeneous phenomenon of rubber coating of avoiding appearing of fast rotation, the utility model provides a following technical scheme: the utility model provides a but automatic rubber coated cavity glass production line, includes the box, the inside diapire swing joint of box has the drive shaft, the surperficial swing joint of drive shaft has the meshing pole, the upper end fixedly connected with connecting rod of meshing pole, the one end that the meshing pole was kept away from to the connecting rod is provided with places the piece, the surface of drive shaft and the one side that is located the meshing pole are provided with first screw rod, the surperficial swing joint of screw rod has the buffering frame, the surperficial swing joint of buffering frame has first rubber coating axle.

The utility model has the advantages that:

1. put placing the piece surface through the glass board with gumming, and make the center of glass board align with the center of placing the piece, after start external drive power supply and make the drive shaft rotatory, the rotatory meshing pole and the connecting rod removal of driving shaft, the first screw rod of back connecting band pulling under the effect of connecting rod rotation force moves along the slide rail under the restriction of slide, first screw rod removes and drives first rubber coating axle promptly and is close to the glass board surface, meanwhile the drive shaft is rotatory also can mesh and drive the second screw rod and rotate, the second screw rod rotates and drives the rotation of second rubber coating axle through the turbine, the first rubber coating axle that second rubber coating axle normal running fit this moment is close to the glass board, glass board at the revolving force of drive shaft this moment in addition, so the rubber coated effect of automatic turned angle has been reached.

2. The first screw rod of pulling under the effect of connecting rod rotation power through the connecting band moves along the slide rail under the restriction of slide, and first screw rod removes and drives first rubber coating axle promptly and is close to the glass board surface, and back second rubber coating axle is rotatory by the drive shaft drive again, and first rubber coating axle is responsible for being close to all the time and hugs closely the glass board surface, and the rotation rate and the rubber coating speed looks adaptation of glass board are guaranteed to second rubber coating axle cooperation drive shaft, so reached with the effect that the inhomogeneous phenomenon of rubber coating appears in the rotation of speed.

Preferably, a sliding seat is arranged at the joint of the first screw and the driving shaft, and a sliding rail is arranged at the bottom of the sliding seat and on the surface of the driving shaft.

Preferably, one side of the meshing rod, which is far away from the first screw rod, is provided with a second screw rod, and the bottom of the second screw rod is movably connected with the driving shaft.

Preferably, the upper end of the second screw is movably connected with a turbine, and a second glue coating shaft is arranged on the surface of the turbine.

Preferably, the surface of the first screw rod is movably connected with a connecting band, and one end of the connecting band, which is far away from the first screw rod, is movably connected with the connecting rod.

Preferably, the surface of the first gluing shaft is provided with a glue outlet, the back of the first gluing shaft is provided with a glue inlet pipe, and when the first gluing shaft is in contact with the glass plate, the gluing suction machine is started to enable the glue to flow from the glue inlet pipe to the glue outlet hole to flow out.

Preferably, the surface of the placing block is provided with a glass plate, and damping cloth is arranged between the rest glass plates of the placing block to prevent the glass plate from being pushed down.

Preferably, a bearing is arranged between the first screw and the buffer frame, namely, the first screw rotates but the buffer frame does not rotate.

Preferably, the first glue coating shaft and the second glue coating wheel are the same part, and the glue outlet hole on the surface is the same as the glue inlet pipe, and the difference between the first glue coating shaft and the second glue coating shaft is that the first glue coating shaft cannot actively rotate, and the second glue coating shaft is driven by the driving shaft to actively rotate.

Drawings

FIG. 1 is a schematic structural view of the case of the present invention;

FIG. 2 is a schematic view of a first screw structure of the present invention;

FIG. 3 is a schematic view of a second screw structure of the present invention;

fig. 4 is a top view of the first glue axis structure of the present invention.

In the figure: 1. a box body; 2. a drive shaft; 3. an engagement lever; 4. a connecting rod; 5. placing the blocks; 6. a first screw; 7. a buffer frame; 8. a first glue axis; 9. a slide base; 10. a slide rail; 11. a second screw; 12. a turbine; 13. a second glue axis; 14. a connecting belt; 15. a glue outlet hole; 16. feeding a rubber tube; 17. a glass plate;

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, a hollow glass production line capable of automatically coating glue comprises a box body 1, wherein the bottom wall inside the box body 1 is movably connected with a driving shaft 2, the surface of the driving shaft 2 is movably connected with a meshing rod 3, the upper end of the meshing rod 3 is fixedly connected with a connecting rod 4, one end, far away from the meshing rod 3, of the connecting rod 4 is provided with a placing block 5, the surface of the placing block 5 is provided with a glass plate 17, damping cloth is arranged among the rest glass plates 17 of the placing block 5, and the glass plate 17 is prevented from being pushed down; a first screw 6 is arranged on the surface of the driving shaft 2 and on one side of the meshing rod 3, a connecting belt 14 is movably connected to the surface of the first screw 6, and one end, far away from the first screw 3, of the connecting belt 14 is movably connected with the connecting rod 4; through putting the rubberized glass board 17 on placing 5 surfaces, and make the center of glass board 17 align with the center of placing 5, after start external drive power makes drive shaft 2 rotatory, drive shaft 2 is rotatory to drive meshing pole 3 and connecting rod 4 and removes, back connecting band 14 stimulates first screw rod 6 under the effect of connecting rod 4 rotating force and removes along slide rail 10 under the restriction of slide 9, first screw rod 6 removes and drives first rubber coating axle 8 promptly and is close to glass board 17 surface, meanwhile drive shaft 2 is rotatory also can mesh and drive second screw rod 11 and rotate, second screw rod 11 rotates and drives second rubber coating axle 13 through turbine 13 and rotate, second rubber coating axle 13 normal running fit is close to first rubber coating axle 8 of glass board 17 this moment, glass board 17 at this moment in addition rotates under the revolving force of drive shaft 2, so reached automatic turned angle rubberizing effect.

A second screw 11 is arranged on one side of the meshing rod 3 far away from the first screw 6, and the bottom of the second screw 11 is movably connected with the driving shaft 2; the upper end of the second screw rod 11 is movably connected with a turbine 12, and a second glue coating shaft 13 is arranged on the surface of the turbine 12; a sliding seat 9 is arranged at the joint of the first screw 6 and the driving shaft 2, and a sliding rail 10 is arranged at the bottom of the sliding seat 9 and on the surface of the driving shaft 2; through connecting band 14 pulling first screw rod 6 under the effect of connecting rod 4 rotation force and remove along slide rail 10 under the restriction of slide 9, first screw rod 6 removes and drives first rubber coating axle 8 promptly and is close to glass board 17 surface, back second rubber coating axle 13 is rotatory by drive shaft 2 drive again, first rubber coating axle 8 is responsible for being close to all the time and hugging closely glass board 17 surface, second rubber coating axle 13 cooperates drive shaft 2 to guarantee the rotational speed and the rubber coating speed looks adaptation of glass board 17, so reached with the effect of the inhomogeneous phenomenon of rubber coating of avoiding appearing in fast rotating.

The surface of the screw 6 is movably connected with a buffer frame 7, and a bearing is arranged between the first screw 6 and the buffer frame 7, namely the first screw 6 rotates and the buffer frame 7 cannot rotate; the surface of the buffer frame 7 is movably connected with a first gluing shaft 8, the surface of the first gluing shaft 8 is provided with a glue outlet 15, the back of the first gluing shaft 8 is provided with a glue inlet pipe 16, and when the first gluing shaft 8 is contacted with a glass plate 17, a gluing suction machine is started to enable the glue to flow from the glue inlet pipe to the glue outlet 15; the first glue spreading shaft 8 and the second glue spreading wheel 13 are the same part, and the glue outlet 15 and the glue inlet 16 on the surface are the same, and the difference between the first glue spreading shaft 8 and the second glue spreading shaft 13 is that the first glue spreading shaft 8 cannot actively rotate, and the second glue spreading shaft 13 is driven by the driving shaft 2 to actively rotate.

When the automatic gluing device is used, a glued glass plate 17 is placed on the surface of a placement block 5, the center of the glass plate 17 is aligned with the center of the placement block 5, an external driving power supply is started afterwards to enable a driving shaft 2 to rotate, the driving shaft 2 rotates to drive a meshing rod 3 and a connecting rod 4 to move, a first screw 6 is pulled by a rear connecting band 14 under the rotating force of the connecting rod 4 to move along a sliding rail 10 under the limitation of a sliding seat 9, the first screw 6 moves to drive a first gluing shaft 8 to be close to the surface of the glass plate 17, meanwhile, the driving shaft 2 rotates to also mesh to drive a second screw 11 to rotate, the second screw 11 rotates to drive a second gluing shaft 13 to rotate through a turbine 13, the second gluing shaft 13 is in rotating fit with the first gluing shaft 8 close to the glass plate 17 at the moment, and the glass plate 17 rotates under the rotating force of the driving shaft 2 at the moment, and therefore the automatic rotating angle gluing effect is achieved.

Through connecting band 14 pulling first screw rod 6 under the effect of connecting rod 4 rotation force and remove along slide rail 10 under the restriction of slide 9, first screw rod 6 removes and drives first rubber coating axle 8 promptly and is close to glass board 17 surface, back second rubber coating axle 13 is rotatory by drive shaft 2 drive again, first rubber coating axle 8 is responsible for being close to all the time and hugging closely glass board 17 surface, second rubber coating axle 13 cooperates drive shaft 2 to guarantee the rotational speed and the rubber coating speed looks adaptation of glass board 17, so reached with the effect of the inhomogeneous phenomenon of rubber coating of avoiding appearing in fast rotating.

The above embodiments are only preferred embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims (7)

1. The utility model provides a but automatic rubber coated cavity glass production line, includes box (1), its characterized in that: the inside diapire swing joint of box (1) has drive shaft (2), the surperficial swing joint of drive shaft (2) has meshing pole (3), the upper end fixedly connected with connecting rod (4) of meshing pole (3), the one end that meshing pole (3) were kept away from in connecting rod (4) is provided with places piece (5), the surface of drive shaft (2) and the one side that is located meshing pole (3) are provided with first screw rod (6), the surperficial swing joint of screw rod (6) has buffer bracket (7), the surperficial swing joint of buffer bracket (7) has first rubber coating axle (8).

2. The automatic gluing hollow glass production line according to claim 1, characterized in that: the connection of first screw rod (6) and drive shaft (2) is provided with slide (9), the bottom of slide (9) just is located the surface of drive shaft (2) and is provided with slide rail (10).

3. The automatic gluing hollow glass production line according to claim 1, characterized in that: one side of the meshing rod (3) far away from the first screw (6) is provided with a second screw (11), and the bottom of the second screw (11) is movably connected with the driving shaft (2).

4. The automatic gluing hollow glass production line according to claim 3, characterized in that: the upper end of the second screw rod (11) is movably connected with a turbine (12), and a second glue coating shaft (13) is arranged on the surface of the turbine (12).

5. The automatic gluing hollow glass production line as claimed in claim 1, wherein: the surface of the first screw rod (6) is movably connected with a connecting belt (14), and one end, far away from the first screw rod (6), of the connecting belt (14) is movably connected with the connecting rod (4).

6. The automatic gluing hollow glass production line as claimed in claim 1, wherein: glue outlet holes (15) are formed in the surface of the first glue coating shaft (8), and a glue inlet pipe (16) is arranged at the back of the first glue coating shaft (8).

7. The automatic gluing hollow glass production line according to claim 1, characterized in that: the surface of the placing block (5) is provided with a glass plate (17).

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