CN219789276U - Glass laminating machine - Google Patents

Abstract

The utility model relates to the technical field of film laminating machines, and discloses a glass film laminating machine. The glass laminating machine comprises a conveying table, a conveying roller, a laminating mechanism and a deviation correcting component; the conveying roller is arranged on the conveying table; the film covering mechanism is arranged in the middle of the upper part of the conveying table; the deviation correcting component comprises two symmetrically arranged pushing plates and a driving piece; the two pushing plates are respectively and slidably arranged at two sides of the conveying table; the driving piece is arranged below the conveying table; when the driving piece operates, the two pushing plates are pulled to reciprocally deflect along opposite directions so as to push the glass to be coated to be placed in the middle of the conveying table. According to the utility model, through the matched use of the device, the two pushing plates are reciprocated to deflect in opposite directions, so that the glass on the conveying roller can be gathered and limited, namely, the inclined glass is gathered to the middle part of the conveying table, and the outer wall of the glass is parallel to the conveying direction, so that the subsequent film covering mechanism can be contacted with the surface of the whole glass, and the aim of good film covering effect is fulfilled.

Description

Glass laminating machine

Technical Field

The embodiments of the utility model belong to the technical field of film laminating machines, and particularly relate to a glass film laminating machine.

Background

After the glass is produced, processed and formed, a layer of protective film is coated on the upper surface and the lower surface of the glass so as to prevent the surface of the glass from being scratched in the processes of transportation, packaging, installation and the like. In the past, the mode of glass coating adopts the manual work tectorial membrane, and manual work tectorial membrane inefficiency later adopts the glass laminator gradually to carry out the tectorial membrane, and the glass laminator adopts automatic tectorial membrane mode, very big improvement the efficiency of glass tectorial membrane. And (3) a step of coating the glass by the glass coating machine, wherein the glass coating machine sequentially passes through a glass conveying mechanism, a glass coating mechanism, a film cutting mechanism and a glass conveying mechanism, and finally, the glass coating is completed.

However, the existing part conveying device needs to manually align the glass to the middle part of the conveying table before conveying the glass, so that the whole surface of the glass can be contacted with the film covering mechanism, and the film covering effect of the glass is ensured, however, the glass can still incline under the condition of interference of external factors such as the rotating speed of the conveying mechanism or foreign matter interception and other factors in the conveying process, and the film covering mechanism can only be contacted with part of the glass, so that the condition of poor film covering effect of the glass is caused.

Therefore, the utility model provides a glass film laminating machine to solve the problems.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a glass laminating machine, which is used for ensuring that glass can be stably positioned in the middle of a conveying table before contacting a laminating mechanism so as to ensure the subsequent laminating effect.

In order to solve the technical problems, the technical scheme of the glass laminating machine provided by the embodiment of the utility model is as follows:

a glass laminating machine comprises a conveying table, a conveying roller, a laminating mechanism and a deviation correcting component;

the conveying roller is arranged on the conveying table;

the film covering mechanism is arranged in the middle of the upper part of the conveying table;

the deviation correcting component comprises two symmetrically arranged pushing plates and a driving piece;

the two pushing plates are respectively and slidably arranged at two sides of the conveying table;

the driving piece is arranged below the conveying table;

when the driving piece operates, the two pushing plates are pulled to reciprocate in opposite directions so as to push the glass to be coated to be placed in the middle of the conveying table.

In a preferred embodiment of any of the foregoing aspects, the driving member includes a lifting plate and a hinge rod;

the lifting plate is slidably arranged below the conveying table;

one end of the hinging rod is hinged with the pushing plate, the other end of the hinging rod is hinged with the lifting plate, and the hinging rod is obliquely arranged.

In a preferred embodiment of any of the foregoing aspects, the driving member further includes a driving motor, a turntable, and a support rod;

the output end of the driving motor is connected with the rotary table, and the rotary table is positioned right below the lifting plate;

one end of the supporting rod is hinged with the edge of the turntable, and the other end of the supporting rod is hinged with the lower surface of the lifting plate.

In a preferred embodiment of any of the foregoing solutions, the pushing plate is configured as a circular arc structure, and both ends are rotatably connected with a rotating roller.

In a preferred embodiment of any of the foregoing aspects, a hollow plate is fixedly mounted on one side of the pushing plate;

one end of the hollow plate extends to the outside of the conveying table, and the lower surface of the hollow plate is hinged with the hinge rod.

In a preferred embodiment of any of the foregoing aspects, a blowing hole communicating with the hollow plate is provided inside the pushing plate;

the hollow plate is far away from one end of the pushing plate and is in a cylindrical structure, and a blower is connected with the hollow plate through a pipeline.

Compared with the prior art, the glass laminating machine provided by the embodiment of the utility model has the following technical effects:

through setting up push plate and driving piece, make two push plates follow reciprocating type deflections of opposite direction, and then can put together spacing to the glass on the conveying roller, make the glass that inclines put together to the middle part of carrying the platform, and make glass's outer wall parallel with the direction of delivery to this guarantees that follow-up tectorial membrane mechanism can contact with whole glass's surface, reaches the effectual purpose of tectorial membrane.

Further, through setting up cavity board and blowhole for the impeller plate still can carry out the operation of blowing when putting together to glass is spacing, in order to clear away the dust on glass surface, promotes the tectorial membrane effect, prevents to have the dust to appear the condition emergence of bubble because of glass surface remains.

Further, through setting the push plate to the arc for when the slope glass slope, its turning position is difficult for directly contacting with the arc, reserves certain safety gap promptly, avoids glass turning position and arc direct contact and takes place to damage.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and without limitation to the utility model. Some specific embodiments of the utility model will be described in detail hereinafter by way of example and not by way of limitation with reference to the accompanying drawings. The same reference numbers in the drawings identify the same or similar components or component parts, and it should be understood by those skilled in the art that the drawings are not necessarily drawn to scale, in which:

FIG. 1 is a schematic view of the overall structure of a glass laminator of the utility model;

FIG. 2 is a cross-sectional view of a glass laminator of the utility model.

Reference numerals:

1. a conveying table; 2. a conveying roller; 3. a film covering mechanism; 4. a deviation rectifying component; 41. a pushing plate; 411. a rotating roller; 412. a blowing hole; 42. a driving member; 421. a lifting plate; 422. a hinge rod; 423. a driving motor; 424. a turntable; 425. a support rod; 5. a hollow plate.

Detailed Description

In order to enable those skilled in the art to better understand the present utility model, the following description will make clear and complete descriptions of the technical solutions according to the embodiments of the present utility model with reference to the accompanying drawings. It is to be understood that the described embodiments are merely embodiments of a part of the utility model, not an entire part. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

Examples

As shown in fig. 1 and 2, an embodiment of the present utility model provides a glass laminating machine, which includes a conveying table 1, a conveying roller 2, a laminating mechanism 3, and a deviation rectifying member 4.

The conveying rollers 2 are mounted on the conveying table 1 for conveying glass.

The film coating mechanism 3 is disposed in the middle above the conveying table 1, and performs film coating treatment, which is the prior art, and will not be described in detail herein.

The deviation rectifying component 4 comprises two symmetrically arranged pushing plates 41 and a driving piece 42; two pushing plates 41 are slidably mounted on both sides of the conveying table 1, respectively; the driving member 42 is disposed below the conveying table 1.

When the driving member 42 is operated, the pushing plates 41 are pulled to reciprocally deflect in opposite directions to push the glass to be coated to be placed in the middle of the conveying table 1.

In summary, in the present embodiment, by controlling the operation of the driving member 42, the two pushing plates 41 reciprocate along opposite directions, that is, reciprocate to close and limit the glass to the middle of the conveying table 1, so as to ensure that the film covering mechanism 3 can completely cover the upper surface of the glass in the subsequent film covering process, so as to avoid the occurrence of the situation that the glass is inclined and the film covering effect is improved.

Wherein the driving member 42 includes a lifting plate 421 and a hinge rod 422; the lifting plate 421 is slidably installed below the conveying table 1; one end of the hinge rod 422 is hinged to the pushing plate 41, the other end of the hinge rod 422 is hinged to the lifting plate 421, and the hinge rod 422 is obliquely arranged, namely, the hinge rod 422 is pulled to deflect by reciprocating movement of the lifting plate 421 along the vertical direction, so that the pushing plate 41 is driven to reciprocate along the direction perpendicular to the conveying direction of the conveying roller 2.

Specifically, the driving member 42 further includes a driving motor 423, a turntable 424, and a supporting rod 425, where an output end of the driving motor 423 is connected to the turntable 424, and the turntable 424 is located right below the lifting plate 421; one end of the supporting rod 425 is hinged to the edge of the turntable 424, and the other end is hinged to the lower surface of the lifting plate 421.

In summary, by arranging the turntable 424 and the supporting rod 425, the supporting rod 425 is hinged to the edge of the turntable 424, and a crank block mechanism is formed among the supporting rod 425, the turntable 424 and the lifting plate 421, so that the lifting plate 421 can reciprocate along the vertical direction when the turntable 424 rotates.

In a further embodiment, to reduce the chance of the pusher plate 41 coming into contact with the glass corner locations, wear of the glass corners is avoided.

The push plate 41 is arranged to be in a circular arc structure, the two ends of the push plate 41 are both rotationally connected with the rotating rollers 411, so that the push plate 41 forms a notch, when glass is obliquely conveyed, the corner positions of the push plate 41 can be directly extruded and reset by the rotating rollers 411 at the two ends of the push plate 41 when being positioned in the notch, namely, when the push plate 41 is contacted with the glass, a motion compensation perpendicular to the conveying direction of the conveying roller 2 is provided, the contact probability of the push plate 41 and the corner positions of the glass is effectively reduced, and the protection effect on glass conveying is improved.

In other embodiments, the pusher plate 41 is conveniently limited. A hollow plate 5 is fixedly arranged on one side of the pushing plate 41; one end of the hollow plate 5 extends to the outside of the transfer table 1, and the lower surface is hinged with the hinge rod 422.

In addition, the pushing plate 41 is internally provided with a blowing hole 412 communicating with the hollow plate 5; the hollow plate 5 is far away from the one end of the pushing plate 41 and is provided with a blower through a pipeline connection, namely, the blower, the hollow plate 5 and the blowing hole 412 are matched for use, so that the pushing plate 41 can also perform blowing operation when resetting glass, dust on the surface of the glass is cleaned, and the subsequent film covering effect is improved.

Preferably, the blowing hole 412 has a filter screen built therein to filter the air blown by the blower.

Wherein, the blower can adopt the fan in the prior art.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features can be replaced equivalently; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (6)

1. The glass laminating machine is characterized by comprising a conveying table (1), a conveying roller (2), a laminating mechanism (3) and a deviation correcting component (4);

the conveying roller (2) is arranged on the conveying table (1);

the film covering mechanism (3) is arranged in the middle of the upper part of the conveying table (1);

the deviation correcting component (4) comprises two symmetrically arranged pushing plates (41) and a driving piece (42);

the two pushing plates (41) are respectively and slidably arranged at two sides of the conveying table (1);

the driving piece (42) is arranged below the conveying table (1);

when the driving piece (42) operates, the two pushing plates (41) are pulled to reciprocally deflect in opposite directions so as to push the glass to be coated to be placed in the middle of the conveying table (1).

2. The glass laminator of claim 1, wherein: the driving piece (42) comprises a lifting plate (421) and a hinging rod (422);

the lifting plate (421) is slidably arranged below the conveying table (1);

one end of the hinging rod (422) is hinged with the pushing plate (41), the other end of the hinging rod is hinged with the lifting plate (421), and the hinging rod (422) is obliquely arranged.

3. The glass laminator of claim 2, wherein: the driving piece (42) further comprises a driving motor (423), a turntable (424) and a supporting rod (425);

the output end of the driving motor (423) is connected with the rotary table (424), and the rotary table (424) is positioned right below the lifting plate (421);

one end of the supporting rod (425) is hinged with the edge position of the rotary table (424), and the other end of the supporting rod is hinged with the lower surface of the lifting plate (421).

4. The glass laminator of claim 1, wherein: the pushing plate (41) is of a circular arc structure, and two ends of the pushing plate are rotatably connected with rotating rollers (411).

5. The glass laminator of claim 2, wherein: a hollow plate (5) is fixedly arranged on one side of the pushing plate (41);

one end of the hollow plate (5) extends to the outside of the conveying table (1), and the lower surface is hinged with the hinge rod (422).

6. The glass laminator of claim 5, wherein: a blowing hole (412) communicated with the hollow plate (5) is formed in the pushing plate (41);

one end of the hollow plate (5) far away from the pushing plate (41) is of a cylindrical structure, and is connected with a blower through a pipeline.