CN215095770U - Forming device for glass fiber reinforced plastic tile - Google Patents

Abstract

The utility model discloses a forming device of glass steel tile, including the insulation can, the forming die subassembly, radiation heater and hot air heater, set up input channel and the output channel who remains the processing section bar on the both ends inner wall of insulation can, install the forming die subassembly between input channel and the output channel, the forming die subassembly communicates with vacuum negative pressure machine, the forming die subassembly be the individual layer and with the structure looks adaptation of waiting to process the section bar, radiation heater installs at the inboard top of insulation can and corresponding with the position of forming die subassembly, hot air heater installs at the inboard bottom of insulation can and corresponding with the position of forming die subassembly. The utility model discloses think about ingenious, compact structure is reasonable, guarantees the shaping qualification rate, can realize quick shaping simultaneously, greatly improves production efficiency.

Description

Forming device for glass fiber reinforced plastic tile

Technical Field

The utility model relates to a section bar continuous forming equipment technical field especially relates to a forming device of glass steel tile.

Background

The mould forming area of the existing glass fiber reinforced plastic tile (section bar) equipment adopts the matching of an upper mould and a lower mould to limit the shape, and a resin fiber prepreg tape clamped by an upper layer film and a lower layer film slides through a reserved gap between the upper mould and the lower mould and is solidified and formed. The surface of the glass fiber reinforced plastic tile (section bar) is easily scratched and damaged by a mould. And the placing position of the upper die and the reserved gap between the upper die and the lower die need to be adjusted frequently in the production process, and the operation is not easy.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a forming device of glass steel tile, it is high to solve the breakage rate among the section bar forming process, and the mould adjustment leads to the problem that production efficiency is low.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model relates to a forming device of glass steel tile, including insulation can, forming die subassembly, radiant heater and hot air heater, set up input channel and the output channel who remains the processing section bar on the both ends inner wall of insulation can, input channel with install between the output channel the forming die subassembly, forming die subassembly and vacuum negative pressure machine intercommunication, the forming die subassembly be the individual layer and with the structure looks adaptation of waiting to process the section bar, radiant heater installs the inboard top of insulation can and with the position of forming die subassembly is corresponding, hot air heater installs the inboard bottom of insulation can and with the position of forming die subassembly is corresponding.

Furthermore, the forming die assembly comprises a die longitudinal beam and a plurality of die bodies, the die longitudinal beam is arranged on two side walls in the heat insulation box, and the die bodies are arranged on the die longitudinal beam at equal intervals.

Furthermore, be provided with a plurality of tile type archs on the mould body, the bellied structure of tile type with treat processing section bar structure looks adaptation.

Furthermore, the number of the tile-shaped protrusions is 10-30, and the distance between any two adjacent tile-shaped protrusions is 20-50 cm.

Still further, the upper surface equipartition of mould body has a plurality of absorption holes, the inside of mould body is provided with the negative pressure pipeline with running through, the absorption hole all with the negative pressure pipeline intercommunication, the negative pressure pipeline communicates with vacuum negative pressure machine.

Compared with the prior art, the utility model discloses a beneficial technological effect:

the utility model conveys the section bar through the input channel and the output channel, and is solidified and formed on the forming die assembly, the conveying speed is fast, the production efficiency is high, the surface damage of the section bar when the section bar slides and passes through the die clearance and is solidified and formed is avoided, the section bar is suitable for the section bars with various sizes, the die does not need to be adjusted, and the labor force is reduced;

the utility model discloses when processing the section bar of isostructure, change different mould bodies can, need not to adjust the mould clearance, need not to change whole mold processing, practiced thrift the cost of production greatly, convenient to use realizes quick replacement, greatly improves production efficiency;

the utility model is a detachable mounting structure, the mould can be customized according to the shape of the section bar, and the production of special-shaped section bars is realized;

the utility model discloses a radiant heater and hot air heater heat from top to bottom, effectively reduce the heat time, avoid the temperature on shaping surface inhomogeneous simultaneously.

The utility model discloses think about ingenious, compact structure is reasonable, guarantees the shaping qualification rate, can realize quick shaping simultaneously, greatly improves production efficiency.

Drawings

The present invention will be further explained with reference to the following description of the drawings.

FIG. 1 is a schematic structural view of a forming device for glass fiber reinforced plastic tiles of the present invention;

FIG. 2 is a schematic structural view of the molding die assembly of the present invention;

fig. 3 is a schematic structural view of the die body of the present invention;

description of reference numerals: 1. a heat preservation box; 101. an input channel; 102. an output channel; 2. forming a mold assembly; 201. the die is arranged along the beam; 202. a mold body; 2021. a tile-shaped bulge; 2022. an adsorption hole; 2023. A negative pressure pipeline; 3. a radiant heater; 4. a hot air heater.

Detailed Description

As shown in fig. 1, a forming device for a glass fiber reinforced plastic tile includes an insulation can 1, a forming mold assembly 2, a radiation heater 3 and a hot air heater 4, wherein an input channel 101 and an output channel 102 of a section to be processed are formed on inner walls of two ends of the insulation can 1, the forming mold assembly 2 is installed between the input channel 101 and the output channel 102, the forming mold assembly 2 is communicated with a vacuum negative pressure machine, the forming mold assembly 2 is a single layer and is adapted to a structure of the section to be processed, the radiation heater 3 is installed at the top of the inner side of the insulation can 1 and corresponds to the position of the forming mold assembly 2, and the hot air heater 4 is installed at the bottom of the inner side of the insulation can 1 and corresponds to the position of the forming mold assembly 2.

In the embodiment, the sectional material is conveyed through the input channel 101 and the output channel 102, and is solidified and molded on the molding die assembly 2, so that the conveying speed is high, the production efficiency is high, the surface of the sectional material is prevented from being damaged when the sectional material slides through a die gap and is solidified and molded, the sectional material is suitable for the sectional materials with various sizes, the die does not need to be adjusted, and the labor force is reduced; by heating the radiant heater 3 and the hot air heater 4 up and down, the heating time is effectively reduced, and meanwhile, the temperature unevenness of the molding surface is avoided.

Specifically, as shown in fig. 2, the forming mold assembly 2 includes a mold stringer 201 and a plurality of mold bodies 202, the mold stringer 201 is installed on two sidewalls in the heat insulation box 1, and the mold bodies 202 are arranged on the mold stringer 201 at equal intervals.

As shown in fig. 3, the die body 202 is provided with a plurality of tile-shaped protrusions 2021, and the structure of the tile-shaped protrusions 2021 is adapted to the structure of the profile to be processed. The number of the tile-shaped protrusions 2021 is 10-30, and the distance between any two adjacent tile-shaped protrusions 2021 is 20cm-50 cm.

The whole body of the embodiment is a detachable mounting structure, and a die can be customized according to the shape of the profile, so that the production of special-shaped special profiles is realized; when the section bars with different structures need to be processed, different die bodies can be replaced without adjusting die gaps or replacing the whole processing die, so that the production cost is greatly saved, the use is convenient, the quick replacement is realized, and the production efficiency is greatly improved. Through practical production verification, the number of the tile-shaped bulges on the die bodies with different structures is kept between 10 and 30, and the distance between the tile-shaped bulges and the die bodies is 20cm to 50cm, so that the passing rate of conveying can be greatly ensured, and the qualified rate of profile forming is also ensured.

Specifically, as shown in fig. 3, a plurality of adsorption holes 2022 are uniformly distributed on the upper surface of the die body 202, a negative pressure pipeline 2023 is penetratingly arranged inside the die body 202, the adsorption holes 2022 are all communicated with the negative pressure pipeline 2023, and the negative pressure pipeline 2023 is communicated with a vacuum negative pressure machine.

This embodiment uses through the cooperation of vacuum negative pressure and mould body, and more accurate and firm location makes the material steadily carry to material output area. In the negative pressure conveying process, the section bar does not need to pass through a reserved gap between the upper die and the lower die, the surface of the section bar is prevented from being damaged by the dies, and the section bar can be completely conveyed to a destination.

The action process of the utility model is as follows:

first, the resin fiber prepreg tape sandwiched between the upper and lower films enters the heat insulating case 1 through the inlet passage 101 and slides over the molding die assembly 2. The suction holes 2022 which are vacuum-sucked in the sliding passing process are continuously sucked on the tile-shaped protrusions 2021 and are continuously heated by the radiation heater 3 and the hot air heater 4. Finally, after solidification and forming, the mixture is continuously output through the output channel 102.

The above-mentioned embodiments are only intended to describe the preferred embodiments of the present invention, but not to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims (5)

1. The utility model provides a forming device of glass steel tile which characterized in that: including insulation can (1), forming die subassembly (2), radiant heater (3) and hot air heater (4), set up input channel (101) and output channel (102) that wait to process the section bar on the both ends inner wall of insulation can (1), input channel (101) with install between output channel (102) forming die subassembly (2), forming die subassembly (2) and vacuum negative pressure machine intercommunication, forming die subassembly (2) be the individual layer and with wait to process the structure looks adaptation of section bar, radiant heater (3) are installed the inboard top of insulation can (1) and with the position of forming die subassembly (2) is corresponding, hot air heater (4) are installed the inboard bottom of insulation can (1) and with the position of forming die subassembly (2) is corresponding.

2. The apparatus for forming a glass fiber reinforced plastic tile according to claim 1, wherein: the forming die assembly (2) comprises a die longitudinal beam (201) and a plurality of die bodies (202), the die longitudinal beam (201) is installed on two side walls in the heat preservation box (1), and the die bodies (202) are arranged on the die longitudinal beam (201) at equal intervals.

3. The apparatus for forming a glass fiber reinforced plastic tile according to claim 2, wherein: the die body (202) is provided with a plurality of tile-shaped protrusions (2021), and the structure of the tile-shaped protrusions (2021) is matched with the structure of the section to be processed.

4. The apparatus for forming a glass fiber reinforced plastic tile according to claim 3, wherein: the number of the tile-shaped protrusions (2021) is 10-30, and the distance between any two adjacent tile-shaped protrusions (2021) is 20cm-50 cm.

5. The apparatus for forming a glass fiber reinforced plastic tile according to claim 2, wherein: the upper surface of the die body (202) is uniformly provided with a plurality of adsorption holes (2022), a negative pressure pipeline (2023) is arranged in the die body (202) in a penetrating manner, the adsorption holes (2022) are communicated with the negative pressure pipeline (2023), and the negative pressure pipeline (2023) is communicated with a vacuum negative pressure machine.

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