阅读说明：本技术 一种玻璃纤维网格布自动化生产系统 (Automatic production system for glass fiber mesh cloth ) 是由 田显兵 于 2019-10-28 设计创作，主要内容包括：本发明涉及一种玻璃纤维网格布自动化生产系统,包括放卷辊、张力调节辊组、底胶池、烘干机构、面胶池、收卷辊和匀胶机构,该匀胶机构包括送风装置、送风总管、若干排均匀布置的L型送风管和若干个自上而下均匀布置在L型送风管上的送风支管,送风装置设置在烘箱外侧的底座上；送风总管通过支撑座布置在烘箱外侧的底座上,且送风总管与送风装置连通设置；各L型送风管设置在靠近第一上换向辊的烘箱内壁上,且各L型送风管伸出烘箱的端部均与送风总管连通设置；各送风支管与L型送风管呈倾斜设置,使沿烘箱内壁向下倾斜30～45°有风吹出。本发明的优点在于：通过本发明装置,能够保证玻璃纤维网格布具有很好的服帖性,进而大大提高产品的质量。(The invention relates to an automatic production system of glass fiber mesh cloth, which comprises an unwinding roller, a tension adjusting roller set, a primer pool, a drying mechanism, a surface glue pool, a winding roller and a glue homogenizing mechanism, wherein the glue homogenizing mechanism comprises an air supply device, an air supply main pipe, a plurality of rows of L-shaped air supply pipes which are uniformly arranged and a plurality of air supply branch pipes which are uniformly arranged on the L-shaped air supply pipes from top to bottom, and the air supply device is arranged on a base outside an oven; the air supply main pipe is arranged on the base outside the oven through the supporting seat and communicated with the air supply device; each L-shaped air supply pipe is arranged on the inner wall of the oven close to the first upper reversing roller, and the end part of each L-shaped air supply pipe extending out of the oven is communicated with the air supply main pipe; each air supply branch pipe and the L-shaped air supply pipe are obliquely arranged, so that air is blown out along the inner wall of the oven in a way of inclining downwards by 30-45 degrees. The invention has the advantages that: the device can ensure that the glass fiber mesh cloth has good conformability, thereby greatly improving the quality of products.)

1. An automatic production system for glass fiber mesh cloth comprises an unwinding roller, a tension adjusting roller set, a primer pool, a drying mechanism, a face glue pool and a winding roller which are sequentially arranged, wherein the unwinding roller is arranged on a supporting base through a bearing seat, the unwinding roller is provided with glass fiber mesh cloth, and the tension adjusting roller set is wound with a plurality of glass fiber mesh cloth unwound from the unwinding roller; the bottom glue pool is internally provided with bottom glue, and a compression roller with a part immersed in the bottom glue pool is arranged on the bottom glue pool; the drying mechanism comprises an oven with a base, and a first upper reversing roller, a second upper reversing roller, a first lower reversing roller set and a second lower reversing roller which are arranged in the oven, wherein the first lower reversing roller set is positioned below the first upper reversing roller and arranged on the same side wall of the oven, and the second lower reversing roller is positioned below the second upper reversing roller and arranged on the other side wall of the oven; the dough glue pond is internally provided with dough glue, a brush roll with a part immersed in the dough glue pond is arranged on the dough glue pond, and the wind-up roll is arranged at the output end of the dough glue pond; the method is characterized in that: also comprises a glue homogenizing mechanism which comprises

The air supply device is arranged on the base outside the oven;

the air supply main pipe is arranged on the base outside the oven through the supporting seat and is communicated with the air supply device;

the L-shaped air supply pipes are uniformly arranged in rows, each L-shaped air supply pipe is arranged on the inner wall of the oven close to the first upper reversing roller, and the end part of each L-shaped air supply pipe extending out of the oven is communicated with the air supply main pipe;

a plurality of air supply branch pipes are evenly arranged on the L-shaped air supply pipe from top to bottom, and each air supply branch pipe and the L-shaped air supply pipe are obliquely arranged, so that air is blown out along the inner wall of the oven in an inclined manner of 30-45 degrees.

2. The automatic production system of glass fiber mesh cloth according to claim 1, characterized in that: the air supply branch pipes are branch pipes with openings at two ends, each air supply branch pipe is arranged by inclining the L-shaped air supply pipe downwards by 30-45 degrees, and each air supply branch pipe is provided with a stop valve.

3. The automatic production system of glass fiber mesh cloth according to claim 1, characterized in that: the air supply branch pipes are branch pipes with one closed end, each air supply branch pipe is arranged by an L-shaped air supply pipe in an upward inclined manner by 45-60 degrees, a plurality of air blowing holes are uniformly distributed in the lower side wall of each air supply branch pipe, and a stop valve is arranged on each air supply branch pipe.

4. An automated production system for fiberglass mesh cloth according to claim 1, 2 or 3, wherein: and each L-shaped air supply pipe is arranged on the inner wall of the oven close to the first upper reversing roller through a movable connecting structure.

5. The automatic production system of glass fiber mesh cloth according to claim 4, characterized in that: the movable connecting structure comprises a plurality of clamping grooves which are uniformly welded on the inner wall of the oven, and the side wall of each L-shaped air supply pipe is provided with a buckle matched with the clamping grooves.

6. The automatic production system of glass fiber mesh cloth according to claim 4, characterized in that: the movable connecting structure comprises a plurality of connecting blocks which are uniformly welded on the inner wall of the oven, a connecting hole is formed in the middle of each connecting block, and an embedded block matched with the connecting hole of each connecting block is arranged on the side wall of each L-shaped air supply pipe.

Technical Field

The invention belongs to the technical field of glass fiber mesh cloth, and particularly relates to an automatic production system of glass fiber mesh cloth.

Background

The glass fiber mesh cloth has the characteristics of high tensile and flexural strength, good evacuation stress, good positioning property, convenient use and the like, is widely applied to the aspects of wall reinforcement, external wall heat preservation, roof waterproofing, ground reinforcement, light building board reinforcement and the like at present, and is an ideal inorganic non-metal engineering material in the building industry.

At present, glass fiber net check cloth loops through unreeling roller, tension adjusting roller set, the primer pond, drying mechanism, face glues pond and wind-up roll production and forms, wherein, glass fiber net check cloth passes through primer pond submergence primer, then send to and dry in the drying mechanism, this in-process, the primer volume on the glass fiber net check cloth through the primer pond is sufficient after the glass fiber net check cloth ratio in primer pond earlier, make the primer volume on the glass fiber net check cloth inconsistent, the cloth cover is unsmooth, thickness is uneven, and then make the compliance of glass fiber net check cloth poor, product quality is not good.

Therefore, it is necessary to develop an automatic production system for fiberglass mesh cloth, which can improve the conformability and product quality of fiberglass mesh cloth.

Disclosure of Invention

The invention aims to provide an automatic production system for glass fiber mesh cloth, which can improve the conformability and the product quality of the glass fiber mesh cloth.

In order to solve the technical problems, the technical scheme of the invention is as follows: an automatic production system for glass fiber mesh cloth comprises an unwinding roller, a tension adjusting roller set, a primer pool, a drying mechanism, a face glue pool and a winding roller which are sequentially arranged, wherein the unwinding roller is arranged on a supporting base through a bearing seat, the unwinding roller is provided with glass fiber mesh cloth, and the tension adjusting roller set is wound with a plurality of glass fiber mesh cloth unwound from the unwinding roller; the bottom glue pool is internally provided with bottom glue, and a compression roller with a part immersed in the bottom glue pool is arranged on the bottom glue pool; the drying mechanism comprises an oven with a base, and a first upper reversing roller, a second upper reversing roller, a first lower reversing roller set and a second lower reversing roller which are arranged in the oven, wherein the first lower reversing roller set is positioned below the first upper reversing roller and arranged on the same side wall of the oven, and the second lower reversing roller is positioned below the second upper reversing roller and arranged on the other side wall of the oven; the dough glue pond is internally provided with dough glue, a brush roll with a part immersed in the dough glue pond is arranged on the dough glue pond, and the wind-up roll is arranged at the output end of the dough glue pond; the innovation points are as follows: also comprises a glue homogenizing mechanism which comprises

The air supply device is arranged on the base outside the oven;

the air supply main pipe is arranged on the base outside the oven through the supporting seat and is communicated with the air supply device;

the L-shaped air supply pipes are uniformly arranged in rows, each L-shaped air supply pipe is arranged on the inner wall of the oven close to the first upper reversing roller, and the end part of each L-shaped air supply pipe extending out of the oven is communicated with the air supply main pipe;

a plurality of air supply branch pipes are evenly arranged on the L-shaped air supply pipe from top to bottom, and each air supply branch pipe and the L-shaped air supply pipe are obliquely arranged, so that air is blown out along the inner wall of the oven in an inclined manner of 30-45 degrees.

Furthermore, the air supply branch pipes are branch pipes with openings at two ends, each air supply branch pipe is arranged by inclining the L-shaped air supply pipe downwards by 30-45 degrees, and each air supply branch pipe is provided with a stop valve.

Furthermore, the air supply branch pipes are branch pipes with one closed end, each air supply branch pipe is arranged by an L-shaped air supply pipe in an upward inclined manner by 45-60 degrees, a plurality of air blowing holes are uniformly distributed on the lower side wall of each air supply branch pipe, and a stop valve is arranged on each air supply branch pipe. Furthermore, each L-shaped air supply pipe is arranged on the inner wall of the oven close to the first upper reversing roller through a movable connecting structure.

Furthermore, the movable connection structure comprises a plurality of clamping grooves which are uniformly welded on the inner wall of the oven, and the side wall of each L-shaped air supply pipe is provided with a buckle matched with the clamping grooves.

Furthermore, the movable connecting structure comprises a plurality of connecting blocks which are uniformly welded on the inner wall of the oven, a connecting hole is formed in the middle of each connecting block, and an embedding block matched with the connecting hole of each connecting block is arranged on the side wall of each L-shaped air supply pipe.

The invention has the advantages that:

(1) compared with the existing production device, the automatic production system for the glass fiber mesh cloth is additionally provided with the glue homogenizing mechanism on the drying mechanism, and the glue is blown downwards to the bottom glue in a semi-solidified state on the glass fiber mesh cloth in the drying oven through the air supply branch pipes in the glue homogenizing mechanism in a downward inclined manner by 30-45 degrees, so that the thickness of the bottom glue on the front glass fiber mesh cloth and the back glass fiber mesh cloth is uniform, the unevenness of the cloth cover is avoided, the glass fiber mesh cloth is ensured to have good fitness, and the quality of a product is greatly improved;

(2) according to the automatic production system of the glass fiber mesh cloth, the air supply branch pipe can be arranged on the L-shaped air supply pipe in an upward inclined mode, the air blowing holes are formed in the lower side wall of the air supply branch pipe, the air supply branch pipe can also be arranged on the L-shaped air supply pipe in a downward inclined mode, and as long as air is blown out along the inner wall of the oven in an inclined mode of 30-45 degrees, the structure is diversified; in addition, each air supply branch pipe is provided with a stop valve, and the stop valves on the air supply branch pipes from top to bottom are adjusted to adjust the corresponding air speed according to the conveying speed of the glass fiber mesh cloth;

(3) according to the automatic production system of the glass fiber mesh cloth, the L-shaped air supply pipe is movably connected with the inner wall of the oven, such as clamping connection or embedded connection, and the L-shaped air supply pipe is conveniently detached and the inner wall of the oven is conveniently cleaned.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of an automated production system for glass fiber mesh cloth according to the present invention.

Fig. 2 is a schematic view of another connection structure of the L-shaped blast pipe and the branch blast pipe in fig. 1.

FIG. 3 is a schematic structural diagram of the connection between the L-shaped air supply pipe and the oven in the embodiment.

FIG. 4 is another schematic diagram of the connection between the L-shaped air supply pipe and the oven in the embodiment.

Detailed Description

The following examples are presented to enable one of ordinary skill in the art to more fully understand the present invention and are not intended to limit the scope of the embodiments described herein.