CN219600644U

CN219600644U - Double-sided composite equipment for glass fiber grating

Info

Publication number: CN219600644U
Application number: CN202320411100.8U
Authority: CN
Inventors: 徐进旗; 徐瑜兵; 陈欢欢
Original assignee: JIANGSU SAIDE MACHINERY CO LTD
Current assignee: JIANGSU SAIDE MACHINERY CO LTD
Priority date: 2023-03-07
Filing date: 2023-03-07
Publication date: 2023-08-29
Anticipated expiration: 2033-03-07

Abstract

The utility model relates to the technical field of grid production, in particular to glass fiber grid double-sided composite equipment which comprises a glass fiber grid unreeling mechanism, a gluing mechanism, a heating oven, an extrusion composite mechanism and a finished product reeling mechanism, wherein the gluing mechanism comprises a first glue groove, a second glue groove and a first glue applying roller, glue is stored in the first glue groove and the second glue groove, the first glue applying roller and the second glue applying roller are in indirect contact with the first glue groove and the second glue groove through a first lower glue roller and a second lower glue roller, and the first glue applying roller and the second glue applying roller clamp the glass fiber grid from two sides.

Description

Double-sided composite equipment for glass fiber grating

Technical Field

The utility model relates to the technical field of grid production, in particular to glass fiber grid double-sided composite equipment.

Background

The glass fiber grille is an excellent geosynthetic material for reinforcing road surfaces, old roads, roadbeds and soft soil bases. When the common glass fiber grating compounding machine is used for processing, the glass fiber grating generally adopts immersion type rubberizing, namely the glass fiber grating passes through the lower part of the glue liquid level of the glue groove, and then the glass fiber grating is automatically glued when the glue groove is formed, but the glue dripping is easy to occur in the rubberizing mode, the glue consumption is large, the environment is not protected enough, in addition, a single-sided sequential compounding process is generally adopted in the prior art, and the compounding efficiency is lower.

Disclosure of Invention

The utility model solves the problems that: in the prior art, the glass fiber grating double-sided compounding equipment has the advantages of high glue consumption during double-sided compounding of the glass fiber grating, low compounding efficiency and less glue consumption and high compounding efficiency.

The utility model is realized by the following technical scheme that the glass fiber grating double-sided composite equipment comprises a glass fiber grating unreeling mechanism, a gluing mechanism, a heating oven, an extrusion composite mechanism and a finished product reeling mechanism, wherein the gluing mechanism comprises a first glue groove, a second glue groove, a first glue applying roller and a second glue applying roller, glue is stored in the first glue groove and the second glue groove, the first glue applying roller, the second glue applying roller and the glue in the glue groove are in non-contact and are clung to an indirect glue roller, and the indirect glue roller is partially immersed in the glue to be in indirect contact with the first glue groove and the second glue groove, and the first glue applying roller and the second glue applying roller clamp the glass fiber grating from two sides.

Further, the indirect rubber roll comprises a first lower rubber roll and a second lower rubber roll, wherein the first rubber groove and the second rubber groove are arranged in equal-height symmetry, the first lower rubber roll is partially immersed in the glue, and the second lower rubber roll, the second upper rubber roll, the first upper rubber roll and the first lower rubber roll are symmetrically arranged.

Further, the extrusion compounding mechanism comprises a first non-woven fabric unreeling mechanism, a second non-woven fabric unreeling mechanism, a first extrusion compounding roller and a second extrusion compounding roller, the glass fiber grating penetrates through the first extrusion compounding roller and the second extrusion compounding roller, the non-woven fabric of the first non-woven fabric unreeling mechanism bypasses one side of the first extrusion compounding roller and the glass fiber grating to be compounded, the non-woven fabric of the second non-woven fabric unreeling mechanism bypasses the second extrusion compounding roller to be compounded with the other side of the glass fiber grating, and a finished product roll after being compounded is wound around the guide roller and then is wound by the finished product winding mechanism.

Further, the heating oven is a vertical heating oven, two parallel rows of heating elements are arranged in the heating oven, and the glass fiber grid passes through the middle of the two rows of heating elements.

Further, the extrusion compounding mechanism is further provided with a first cloth spreading roller and a second cloth spreading roller, the first cloth spreading roller is arranged between the first non-woven fabric unreeling mechanism and the first extrusion compounding roller, and the second cloth spreading roller is arranged between the second non-woven fabric unreeling mechanism and the second extrusion compounding roller.

Further, in order to facilitate the unfolding of the non-woven fabric, wrinkles are reduced, spiral bulges are symmetrically arranged on the first unfolding roller along the middle left and right, and the second unfolding roller structure is consistent with the first unfolding roller.

The beneficial effects of the utility model are as follows:

1. the glue spreading mechanism is provided with the first glue groove, the second glue groove, the first upper glue roller, the first lower glue roller and the second lower glue roller, glue is brought out of the glue groove by the rotation of the first lower glue roller and the second lower glue roller and then is indirectly transferred to the first upper glue roller and the second upper glue roller, and redundant glue drops back to the glue groove when the glue roller pieces are transferred, so that the first upper glue roller and the second upper glue roller only spread proper glue on two sides of the glass fiber grating, and no glue waste is caused.

2. In the utility model, the two-sided non-woven fabrics are simultaneously compounded on the two sides of the glass fiber grating by the first extrusion compounding roller and the second extrusion compounding roller during compounding, so that the compounding efficiency is high.

Drawings

FIG. 1 is a schematic diagram of a double-sided glass fiber grating composite device according to the present utility model;

fig. 2 is a schematic structural view of a first spreader roll according to the present utility model.

In the figure:

1, a glass fiber grille unreeling mechanism;

2, a gluing mechanism; 201 a first glue groove; 202 a second glue groove; 203 a first glue roller; 204 a first lower glue roller; 205 a second glue roller; 206 a second lower glue roll;

3, heating the oven;

4, extruding the compound mechanism; 401 a first nonwoven fabric unreeling mechanism; 402 a second nonwoven unreeling mechanism; 403 a first extrusion compounding roll; 404 a second extrusion compounding roll; 405 a first spreader roll; 406 a second spreader roll;

5 a finished product winding mechanism;

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some of the embodiments of the present utility model, i.e. Shi Li, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1, the double-sided glass fiber grating compounding device comprises a glass fiber grating unreeling mechanism 1, a gluing mechanism 2, a heating oven 3, an extrusion compounding mechanism 4 and a finished product reeling mechanism 5, wherein the gluing mechanism 2 comprises a first glue groove 201, a second glue groove 202, a first glue applying roller 203 and a second glue applying roller 205, glue is stored in the first glue groove 201 and the second glue groove 202, the first glue applying roller 203 and the second glue applying roller 205 are in non-contact with the glue in the glue grooves, the glue is tightly attached to an indirect glue roller, the indirect glue roller is partially immersed in the glue, and is indirectly contacted with the first glue groove 201 and the second glue groove 202, and the first glue applying roller 203 and the second glue applying roller 205 clamp the glass fiber grating from two sides.

In this scheme, glue in first gluey groove 201, the second gluey groove 202 is taken out by indirect rubber roll, then transmits to first rubberizing roller and second rubberizing roller, and first gluey groove 201, second gluey groove 202 press from both sides tight glass fiber grid from both sides, and when glass fiber grid passed through, the first gluey groove 201 of rolling, second gluey groove 202 smear glue on the both sides of glass fiber grid, because glue is indirect transmission, unnecessary glue falls back in the gluey groove when the transmission down, has reduced the waste of glue.

In practical application, the indirect rubber roll includes first lower rubber roll 204, second lower rubber roll 206, the equal altitude symmetrical arrangement of first rubber groove 201, second rubber groove 202, first lower rubber roll 204 has the partial submergence in glue, second lower rubber roll 206, second rubberizing roller 205 and first rubberizing roller 203, first lower rubber roll 204 symmetry set up, and indirect rubber roll can be provided with a set of, still can set up into the multiunit, carries out nimble setting according to actual glue volume.

In practical application, the extrusion compounding mechanism 4 includes a first nonwoven fabric unreeling mechanism 401, a second nonwoven fabric unreeling mechanism 402, a first extrusion compounding roller 403, and a second extrusion compounding roller 404, the glass fiber grating passes through between the first extrusion compounding roller 403 and the second extrusion compounding roller 404, the nonwoven fabric of the first nonwoven fabric unreeling mechanism 401 bypasses the first extrusion compounding roller 403 and is compounded with one side of the glass fiber grating, the nonwoven fabric of the second nonwoven fabric unreeling mechanism 402 bypasses the second extrusion compounding roller 404 and is compounded with the other side of the glass fiber grating, and the finished product reel after compounding bypasses the guide roller is coiled by the finished product coiling mechanism 5.

In practical application, the heating oven 3 is a vertical heating oven 3, two parallel rows of heating elements are arranged in the heating oven 3, and the glass fiber grid passes through the middle of the two rows of heating elements.

In practical application, the extrusion compounding mechanism 4 is further provided with a first spreader roller 405 and a second spreader roller 406, the first spreader roller 405 is disposed between the first nonwoven fabric unreeling mechanism 401 and the first extrusion compounding roller 403, and the second spreader roller 406 is disposed between the second nonwoven fabric unreeling mechanism 402 and the second extrusion compounding roller 404.

As shown in fig. 2, in practical application, in order to facilitate the spreading of the nonwoven fabric and reduce wrinkles, spiral protrusions are symmetrically arranged on the first spreader roll 405 along the middle, and the second spreader roll 406 has a structure identical to that of the first spreader roll 405.

The working principle of the utility model is as follows:

when the glass fiber grille is in operation, the glass fiber grille is discharged by the glass fiber grille unreeling mechanism 1, passes through the guide roller, passes through the space between the first upper rubber roller 203 and the second upper rubber roller 205, is rotated by the first lower rubber roller 204 and the second lower rubber roller 206 to be taken out of the rubber groove, and is indirectly transferred to the first upper rubber roller 203 and the second upper rubber roller 205, and the redundant glue drops back to the rubber groove when the rubber roller is transferred, so that the first upper rubber roller 203 and the second upper rubber roller 205 only smear proper amount of glue on two sides of the glass fiber grille, no glue is wasted, the double-sided glued glass fiber grille passes through the heating oven, is heated by two rows of heating elements, and is compounded on two sides of the glass fiber grille by the first extrusion compounding roller 403 and the second extrusion compounding roller 404, and is finally rolled into a finished product rolling roller, and double-sided compounding of the glass fiber grille and non-woven fabric is completed.

In summary, the glass fiber grating double-sided composite equipment has the advantages of less glue consumption and high composite efficiency.

The foregoing has outlined and described the basic principles, features, and advantages of the present utility model. It should be understood by those skilled in the art that the foregoing embodiments are merely illustrative of the technical concept and features of the present utility model, and the present utility model can be implemented by those skilled in the art without limiting the scope of the utility model, therefore, all equivalent changes or modifications that are made according to the spirit of the present utility model should be included in the scope of the present utility model.

Claims

1. The utility model provides a two-sided compound equipment of fine grid of glass, its characterized in that: including fine grid unreeling mechanism of glass (1), rubber coating mechanism (2), heating oven (3), extrusion composite mechanism (4), finished product winding mechanism (5), rubber coating mechanism (2) are including first rubber groove (201), second rubber groove (202), first rubberizing roller (203), second rubberizing roller (205), glue has been deposited in first rubber groove (201) and second rubber groove (202), glue in first rubberizing roller (203), second rubberizing roller (205) and the rubber groove is contactless to hug closely with indirect rubber roller, indirect rubber roller part submerges in glue, forms and first rubber groove (201), second rubber groove (202) indirect contact, first rubberizing roller (203), second rubberizing roller (205) clamp glass fine grid from both sides.

2. The glass fiber grid double-sided composite apparatus of claim 1, wherein: the indirect rubber roll comprises a first lower rubber roll (204) and a second lower rubber roll (206), wherein the first rubber groove (201) and the second rubber groove (202) are arranged in equal-height symmetry, the first lower rubber roll (204) is partially immersed in glue, and the second lower rubber roll (206), the second upper rubber roll (205), the first upper rubber roll (203) and the first lower rubber roll (204) are symmetrically arranged.

3. The glass fiber grid double-sided composite apparatus of claim 1, wherein: the extrusion compounding mechanism (4) comprises a first non-woven fabric unreeling mechanism (401), a second non-woven fabric unreeling mechanism (402), a first extrusion compounding roller (403) and a second extrusion compounding roller (404), the glass fiber grating penetrates through the first extrusion compounding roller (403) and the second extrusion compounding roller (404), the non-woven fabric of the first non-woven fabric unreeling mechanism (401) bypasses one side of the first extrusion compounding roller (403) and the glass fiber grating to be compounded, the non-woven fabric of the second non-woven fabric unreeling mechanism (402) bypasses the second extrusion compounding roller (404) to be compounded with the other side of the glass fiber grating, and a finished product roll after compounding is wound around the guide roller and is wound by the finished product winding mechanism (5).

4. The glass fiber grid double-sided composite apparatus of claim 1, wherein: the heating oven (3) is a vertical heating oven (3), two rows of parallel heating elements are arranged in the heating oven (3), and the glass fiber grid passes through the middle of the two rows of heating elements.

5. The glass fiber grid double-sided composite apparatus of claim 1, wherein: the extrusion compounding mechanism (4) is further provided with a first cloth spreading roller (405) and a second cloth spreading roller (406), the first cloth spreading roller (405) is arranged between the first non-woven fabric unreeling mechanism (401) and the first extrusion compounding roller (403), and the second cloth spreading roller (406) is arranged between the second non-woven fabric unreeling mechanism (402) and the second extrusion compounding roller (404).

6. The glass fiber grid double-sided composite apparatus of claim 5, wherein: spiral bulges are symmetrically arranged on the first spreading roller (405) along the middle left and right, and the structure of the second spreading roller (406) is consistent with that of the first spreading roller (405).