CN221086186U - Two-sided rubber coating equipment - Google Patents

Abstract

The utility model relates to the technical field of gluing, in particular to two-sided gluing equipment. A two-sided gluing device comprising: a frame; the surface material sleeve is arranged below the frame and used for loading the surface material to be glued; the first gluing part is positioned at one side of the surface material sleeve roll, and is used for rolling the surface material on the first gluing part and carrying out gluing treatment on one side of the surface material; and the first drying part is arranged at the top of the frame, and one surface of the surface material coated with the adhesive is rolled into the left side of the first drying part and used for drying one surface of the surface material coated with the adhesive. The beneficial effects of the utility model are as follows: the device can finish the two-sided gluing and the simultaneous drying treatment of the surface material continuously, thereby accelerating the gluing speed and improving the efficiency of the whole working procedure.

Description

Two-sided rubber coating equipment

Technical Field

The utility model relates to the technical field of gluing, in particular to two-sided gluing equipment.

Background

In the existing gluing process of the surface material, the surface material is generally required to be glued and then dried, and then the surface material is turned over to glue and dry the other surface, so that the method has low efficiency, and additional turning over and another set of gluing and drying equipment are required, thereby increasing the production cost and complexity.

Disclosure of utility model

Aiming at the technical problems in the prior art, the utility model provides a double-sided gluing device for solving the problems of low gluing efficiency and higher production cost and complexity.

The technical scheme for solving the technical problems is as follows: a two-sided gluing device comprising:

A frame;

The surface material sleeve is arranged below the frame and used for loading the surface material to be glued;

The first gluing part is positioned at one side of the surface material sleeve roll, and is used for rolling the surface material on the first gluing part and carrying out gluing treatment on one side of the surface material;

The first drying part is arranged at the top of the frame, and is used for rolling one surface of the surface material coated with the adhesive into the left side of the first drying part and drying one surface of the surface material coated with the adhesive;

The second gluing part is arranged on the other side of the surface material sleeve roll, so that the surface material wound into the first drying part passes through the second gluing part and is used for gluing the other side of the second gluing part;

And the second drying part is arranged above the first drying part, so that the surface material passing through the second gluing part is wound into the right side of the second drying part and is used for drying the other surface material glued by the surface material.

The beneficial effects of the utility model are as follows:

1) The device rolls up the plane material on the plane material sleeve roll to the first gluing part, carries out gluing treatment on one surface of the plane material, rolls up one surface of the plane material gluing into the first left side of the drying part after the gluing treatment, carries out drying treatment on one surface of the plane material gluing, then makes the plane material rolled into the first drying part pass through the second gluing part, carries out gluing treatment on the other surface of the plane material, and then makes the plane material rolled into the second right side of the drying part through the second gluing part, carries out drying treatment on the other surface of the plane material gluing, can continuously complete two-surface gluing and simultaneous drying treatment on the plane material, further accelerates the gluing speed and improves the efficiency of the whole procedure.

On the basis of the technical scheme, the utility model can be improved as follows.

Further, glue spreading portion one and glue spreading portion two all including two wallboard, magazine, backing roll, material loading roller, the stock refining roller that store glue, two wallboard each other set up in the support below for mirror symmetry, the magazine is fixed between the wallboard, the material loading roller rotates through the pivot to be connected between the wallboard, and submerges in glue in the magazine, the backing roll is located the top of material loading roller and rotates through the pivot to be connected between the wallboard.

The glue spreading device has the beneficial effects that when the feeding roller is soaked in the material box, the glue in the material box is adhered to the feeding roller, and when the surface material is positioned between the feeding roller and the supporting roller, the glue on the feeding roller is adhered to the surface material, so that the glue spreading work is completed.

Further, the two ends of the material homogenizing roller are rotatably connected between the wall plates through the rotating shafts, and the outer sides of the material homogenizing roller are abutted against the material feeding roller.

The glue in the material box is adhered to the feeding roller, and the glue adhered to the feeding roller is rolled and scraped by the leveling roller which is arranged on one side of the feeding roller and is adhered to the feeding roller, so that the glue is adhered to the feeding roller more uniformly, and the gluing of the surface material is more uniform.

Further, the first drying part and the second drying part comprise a plurality of drying bins and heating pipes, the plurality of drying bins are fixed at the top of the frame, and the heating pipes are fixed at the top of the drying bins.

The technical scheme has the beneficial effects that the heating pipe emits heat, and the heat emitted by the heating pipe is transferred to the glue coated on the surface material by heat transfer, so that the glue is quickly solidified.

Further, a transition part is arranged between the surface material sleeve roll and the first gluing part.

Further, the transition part comprises a corona roller and a tension roller, the corona roller and the tension roller are respectively arranged on the frame, and the corona roller and the tension roller are bypassed in the process of unwinding the surface material to the first gluing part.

The beneficial effect of adopting above-mentioned further scheme is that the tension of increase plane materiel makes the adhesion of adhesion on the bearing roller of plane materiel bigger.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

Fig. 2 is a side view of the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

100. The device comprises a frame 200, a surface material sleeve roll 300, a first gluing part 300', a second gluing part 301, a wall plate 302, a material box 303, a supporting roller 304, a feeding roller 305, a material homogenizing roller 400, a first drying part 400', a second drying part 401, a drying bin 402, a heating pipe 500, a tension roller 600 and a corona roller.

Detailed Description

The principles and features of the present utility model are described below with reference to the drawings, the examples are illustrated for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

In the existing gluing process of the surface material, the surface material is generally required to be glued and then dried, and then the surface material is turned over, so that the gluing and drying process of the other surface material is performed, the method is low in efficiency, and additional turning over and another set of gluing and drying equipment are required, so that the production cost and complexity are increased, and the inventor proposes a double-surface gluing equipment to solve the problems.

The present utility model provides the following preferred embodiments

As shown in fig. 1 and 2, a two-sided gluing device comprises:

a frame 100;

A facestock roll 200, wherein the facestock roll 200 is arranged below the frame 100 and is used for loading facestocks to be glued;

a first gluing part 300, wherein the first gluing part 300 is positioned at one side of the surface material sleeve roll 200, and the surface material is rolled up to the first gluing part 300 for gluing one surface of the surface material;

A first drying part 400, wherein the first drying part 400 is arranged at the top of the frame 100, and one surface coated with the surface material is rolled into the left side of the first drying part 400 and is used for drying one surface coated with the surface material;

A second gluing portion 300', which is disposed at the other side of the facestock roll 200, and is used for gluing the other side of the facestock rolled into the first drying portion 400 through the second gluing portion 300';

And a second drying part 400', wherein the second drying part 400' is arranged above the first drying part 400, the surface material passing through the second gluing part 300' is wound into the right side of the second drying part 400', the other surface material used for gluing the surface material is dried, the surface material on the surface material sleeve winding 200 is wound up on the first gluing part 300, one surface material is glued, after the gluing, one surface material gluing surface is wound into the left side of the first drying part 400, the surface material gluing surface is dried, then the surface material wound into the first drying part 400 is subjected to the gluing process through the second gluing part 300', the other surface material is wound into the right side of the second drying part 400', and the other surface material gluing surface is subjected to the drying process through the second gluing part 300', so that the two surface gluing and the simultaneous drying process can be continuously completed, the gluing speed is increased, and the efficiency of the whole process is improved.

In this embodiment, as shown in fig. 1 and fig. 2, the first glue coating portion 300 and the second glue coating portion 300' each include two wall plates 301 storing glue, a material box 302, a supporting roller 303, a feeding roller 304, and a leveling roller 305, the two wall plates 301 are disposed under the support in a mirror symmetry, the material box 302 is fixed between the wall plates 301, the feeding roller 304 is rotatably connected between the wall plates 301 through a rotation shaft and immersed in the glue in the material box 302, the supporting roller 303 is disposed above the feeding roller 304 and rotatably connected between the wall plates 301 through the rotation shaft, when the feeding roller 304 is immersed in the material box 302, the glue in the material box 302 is adhered to the feeding roller 304, and when the surface material is disposed between the feeding roller 304 and the supporting roller 303, the glue on the feeding roller 304 is adhered to the surface material, thereby completing the gluing operation.

In this embodiment, as shown in fig. 1 and fig. 2, two ends of the material homogenizing roller 305 are rotatably connected between the wall plates 301 through a rotating shaft, and the outer sides of the material homogenizing roller are abutted against the material feeding roller 304, glue in the material box 302 is attached to the material feeding roller 304, and glue attached to the material feeding roller 304 is rolled and scraped by the material homogenizing roller 305 abutted against one side of the material feeding roller 304, so that the glue is more uniformly attached to the material feeding roller 304, and the gluing of the surface material is more uniform.

In this embodiment, as shown in fig. 1 and fig. 2, the first drying part 400 and the second drying part 400' each include a plurality of drying bins 401 and heating pipes 402, a plurality of drying bins 401 are fixed on the top of the frame 100, the heating pipes 402 are fixed on the top of the drying bins 401, and heat is emitted through the heating pipes 402, so that the heat emitted by the heating pipes 402 is transferred to the glue coated on the surface material by heat transfer, and is quickly solidified.

In this embodiment, as shown in fig. 1 and fig. 2, a transition portion is further provided between the facestock roll 200 and the first glue coating portion 300, the transition portion includes a corona roller 600 and a tension roller 500, the corona roller 600 and the tension roller 500 are respectively disposed on the frame 100, and the facestock is wound around the corona roller 600 and the tension roller 500 in the process of unwinding the facestock to the first glue coating portion 300, so that the tension of the facestock is increased, and the adhesive force of the facestock attached to the carrier roller is greater.

The specific working process of the utility model is as follows:

(1) Preparation before gluing

First, the facestock is unwound from the facestock roll 200, wound around the tension roller 500 and corona roller 600 in sequence, and around the backing roller 303 of the glue section one 300, and in between the feed roller 304 and backing roller 303.

(2) First gluing

Glue in the material box 302 is adhered to the feeding roller 304, and glue adhered to the feeding roller 304 is rolled and rubbed by a material homogenizing roller 305 which is arranged on one side of the feeding roller 304 and adhered to the feeding roller 304 of the glue coating part 300, so that the glue is more uniformly adhered to the feeding roller 304 of the glue coating part 300, and the glue adhered to the feeding roller 304 is adhered to one surface of the surface material which is wound on the supporting roller 303 and contacted with the feeding roller 304, so that glue coating treatment of one surface of the surface material is finished.

(3) First drying

The surface material which is coated by the supporting roller 303 on the first coating part 300 is wound into the left side of the drying bin 401 of the first drying part 400, heat is emitted by the heating pipe 402, and the heat emitted by the heating pipe 402 is transferred to the surface material coated glue by heat transfer, so that the surface material is quickly solidified.

(4) Second gluing

The surface material after the first drying comes out from the right side of the drying bin 401 of the drying part I400, bypasses the supporting roller 303 of the second gluing part 300', is positioned in the feeding roller 304 and the supporting roller 303, and is rolled and rubbed by the glue adhered to the feeding roller 304 of the first gluing part 300 through the arrangement of the material homogenizing roller 305 which is abutted against the feeding roller 304 at one side of the feeding roller 304, so that the surface material is more uniformly adhered to the feeding roller 304 of the first gluing part, and winds the supporting roller 303 of the second gluing part 300' and contacts one surface of the surface material on the feeding roller 304, and the glue adhered to the feeding roller 304 is adhered to the other surface material gluing treatment is completed.

(5) Secondary drying

The surface material which is wound around the supporting roller 303 of the second gluing part 300 'and is glued is wound into the right side of the drying bin 401 of the second drying part 400', heat is emitted through the heating pipe 402, and the heat emitted by the heating pipe 402 is transferred to the glue coated on the surface material by heat transfer, so that the glue is quickly solidified.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (6)

1. A two-sided gluing device, comprising:

A frame;

The surface material sleeve is arranged below the frame and used for loading the surface material to be glued;

The first gluing part is positioned at one side of the surface material sleeve roll, and is used for rolling the surface material on the first gluing part and carrying out gluing treatment on one side of the surface material;

The first drying part is arranged at the top of the frame, and is used for rolling one surface of the surface material coated with the adhesive into the left side of the first drying part and drying one surface of the surface material coated with the adhesive;

The second gluing part is arranged on the other side of the surface material sleeve roll, so that the surface material wound into the first drying part passes through the second gluing part and is used for gluing the other side of the second gluing part;

And the second drying part is arranged above the first drying part, so that the surface material passing through the second gluing part is wound into the right side of the second drying part and is used for drying the other surface material glued by the surface material.

2. The two-sided gluing device according to claim 1, wherein the first gluing part and the second gluing part each comprise two wall plates storing glue, a material box, a supporting roller, a feeding roller and a material homogenizing roller, the two wall plates are arranged below the bracket in a mirror symmetry mode, the material box is fixed between the wall plates, the feeding roller is rotationally connected between the wall plates through a rotating shaft and is immersed in the glue in the material box, and the supporting roller is positioned above the feeding roller and is rotationally connected between the wall plates through the rotating shaft.

3. A two-sided gumming device as set forth in claim 2, wherein the two ends of said leveling roll are rotatably connected between the wall plates by means of shafts, and are outwardly held against the upper roll.

4. A two-sided gluing device according to claim 3, wherein the first and second drying sections each comprise a plurality of drying chambers and heating pipes, the plurality of drying chambers being fixed on the top of the frame, and the heating pipes being fixed on the top of the drying chambers.

5. A two-sided adhesive applicator apparatus as set forth in claim 1 wherein a transition is further provided between the roll of facestock and the first adhesive applicator portion.

6. A two-sided adhesive applicator apparatus as set forth in claim 5 wherein the transition portion includes corona and tension rollers disposed on the frame, respectively, and wherein the facestock is wound around the corona and tension rollers during unwinding to the first adhesive applicator portion.