CN211733271U - Film blowing machine and binding system for superfine high-strength glass fiber curled product - Google Patents

Abstract

The utility model relates to a film blowing machine for superfine high-strength glass fiber curled products, which comprises a rotary barrel, a negative pressure suction pipe and an air outlet pipe; one end of the negative pressure air suction pipe is positioned in the rotary barrel and is rotationally connected with the rotary barrel, and the other end of the negative pressure air suction pipe is positioned outside the rotary barrel; the wall of the rotary barrel is provided with a plurality of first air holes, and the first air holes are circumferentially arranged on the wall of the rotary barrel by taking the axis of the rotary barrel as a center; a first partition plate and a second partition plate are arranged between the negative pressure air suction pipe and the rotary barrel, the space between the negative pressure air suction pipe and the rotary barrel is separated into a first cavity and a second cavity by the first partition plate and the second partition plate, an air inlet hole is formed in the negative pressure air suction pipe, and the air inlet hole is positioned in the second cavity; the air outlet pipe is positioned in the negative pressure air suction pipe, a first air outlet is arranged on the pipe wall of the air outlet pipe, a second air outlet is arranged on the pipe wall of the negative pressure air suction pipe, the second air outlet is positioned in the second cavity, and the first air outlet is communicated with the second air outlet. This inflation film manufacturing machine has improved production efficiency.

Description

Film blowing machine and binding system for superfine high-strength glass fiber curled product

Technical Field

The utility model belongs to the technical field of superfine glass fiber goods production technique and specifically relates to a film blowing machine of superfine high strength glass fiber curling goods and bind system.

Background

The superfine high-strength glass fiber felt has the advantages of heat preservation, heat insulation, sound absorption, noise reduction and the like, so the superfine high-strength glass fiber felt is wide in application range, after the superfine high-strength glass fiber felt is produced, film covering is carried out, rolling and binding are carried out to form a superfine high-strength glass fiber felt roll, manual operation is needed for film covering and rolling and binding, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a film blowing machine of superfine high strength glass fiber curly goods and bind system to solve foretell at least one technical problem.

One technical scheme of the application is as follows: a film blowing machine for superfine high-strength glass fiber curled products comprises a rotary barrel, a negative pressure air suction pipe and an air outlet pipe; one end of the negative pressure air suction pipe is positioned in the rotary barrel and is rotationally connected with the rotary barrel, so that the rotary barrel can rotate by taking the air suction pipe as an axis, and the other end of the negative pressure air suction pipe is positioned outside the rotary barrel; a plurality of first air holes are formed in the wall of the rotary barrel, and are circumferentially arranged on the wall of the rotary barrel by taking the axis of the rotary barrel as a center; a first partition plate and a second partition plate are arranged between the negative pressure air suction pipe and the rotary barrel, the space between the negative pressure air suction pipe and the rotary barrel is separated into a first cavity and a second cavity by the first partition plate and the second partition plate, an air inlet hole is formed in the negative pressure air suction pipe, and the air inlet hole is located in the second cavity; the air outlet pipe is located in the negative pressure air suction pipe, a first air outlet is formed in the pipe wall of the air outlet pipe, a second air outlet is formed in the pipe wall of the negative pressure air suction pipe, the second air outlet is located in the second cavity, and the first air outlet is communicated with the second air outlet.

Preferably, the air conditioner further comprises an air nozzle, one end of the air nozzle covers the second air outlet and is connected with the negative pressure suction pipe, the other end of the air nozzle is close to the inner wall of the rotary barrel, or the air nozzle is connected with one end of the first air outlet, and the other end of the air nozzle penetrates through the negative pressure suction pipe and is close to the inner wall of the rotary barrel.

Preferably, the inlet port is a plurality of, circumference set up in form the inlet port group on the negative pressure aspiration channel, the second air outlet is located one side of inlet port group.

Preferably, the first partition plate and the second partition plate are fixed on the negative pressure air suction pipe.

Preferably, the air inlet of the air outlet pipe is exposed out of the negative pressure air suction pipe and is positioned outside the rotary barrel.

Preferably, the plurality of first air holes are uniformly formed in the wall of the rotary tub.

The utility model provides a film blowing machine for superfine high-strength glass fiber curled products, when in use, a negative pressure suction pipe is connected with a negative pressure generating device, an air outlet pipe is connected with a blowing device, a rotary barrel is connected with a driving device for driving the rotary barrel to rotate, see figure 3, a film 21 is wound on a winding film bracket 14 and then reaches the film blowing machine through a reversing wheel 13, the negative pressure generating device, the blowing device and the film blowing machine are opened, the front end of the film is firstly absorbed on the rotary barrel under the suction effect of the negative pressure suction pipe, because of the existence of a first clapboard and a second clapboard, the suction force of the negative pressure suction pipe can only reach the barrel wall part of the rotary barrel corresponding to a second cavity, along with the rotation of the rotary barrel, the front end of the film reaches the position of a second air outlet, under the blowing effect of the air outlet pipe, the film is separated from the rotary barrel, and falls down towards a superfine high-strength glass fiber felt, after falling onto the superfine high-strength glass fiber felt, the glass fiber felt is adsorbed on the superfine high-strength glass fiber felt under the action of self-absorption force of the membrane and moves along with the superfine high-strength glass fiber felt under the transmission of the belt transmission device 15, and the membrane covering operation is completed. The film blowing machine realizes the function of automatic film coating and improves the production efficiency.

Another technical scheme of the application is as follows: the utility model provides a binding system of superfine high strength glass fiber curly goods, includes foretell inflation film manufacturing machine, reversing wheel, winding membrane support, conveyer and rolls up cotton device, the winding membrane support is located the top of reversing wheel, the reversing wheel is located the top of inflation film manufacturing machine, inflation film manufacturing machine is located conveyer's top, it is located to roll up cotton device conveyer's unloading end, the slope of inflation film manufacturing machine's second air outlet sets up downwards, the incline direction with conveyer's direction of transfer is the same.

Preferably, a guide pipe is arranged between the conveying device and the film blowing machine, the guide pipe is obliquely arranged, one end of the guide pipe is close to the position of the rotary barrel corresponding to the second air outlet, the other end of the guide pipe is close to the conveying device, and a bypass pipe is arranged at the top of the guide pipe.

Preferably, the conveyor is a belt conveyor.

Preferably, an electric heating cutter is arranged at a position close to the cotton rolling device, and the electric heating cutter is connected with an air cylinder.

The utility model provides a system of superfine high strength glass fiber product of curling, the principle of automatic tectorial membrane is the same with the principle of above-mentioned inflation film manufacturing machine during the use, the difference lies in still having the automatic function of binding, it is specific, beat the book through rolling up cotton device after superfine high strength glass fiber felt tectorial membrane front end motion to rolling up cotton device 16, beat and roll up the completion back, the membrane is along with rolling up cotton device continuation rotation and attaching tightly with the membrane of inlayer under the effect of self-priming power, use the hot knife to cut off the membrane and accomplish whole operation this moment, form like this and bind the automation of superfine high strength glass fiber felt, the production efficiency is improved.

Drawings

FIG. 1 is a schematic view of a transverse cross-sectional structure of a film blowing machine for a superfine high-strength glass fiber curled product provided by the present invention;

FIG. 2 is a schematic longitudinal sectional view of a film blowing machine for a superfine high-strength glass fiber curled product according to the present invention, wherein the hollow arrow schematically indicates the flow direction of the air flow;

FIG. 3 is a schematic structural view of a binding system for a glass fiber product having ultra-fine high strength crimped, wherein arrows schematically indicate the flow direction of air flow, and the air flow is indicated by hollow arrows to distinguish between a negative pressure air flow and an air flow;

FIG. 4 is a schematic structural view of another binding system for an ultra-fine, high strength glass fiber crimped product according to the present invention;

in the figure: the device comprises a rotary barrel 1, a negative pressure suction pipe 2, an air outlet pipe 3, a first air hole 4, a first partition plate 5, a second partition plate 6, a first cavity 7, a second cavity 8, an air inlet hole 9, a first air outlet 10, a second air outlet 11, an air nozzle 12, a reversing wheel 13, a winding film support 14, a belt conveying device 15, a cotton rolling device 16, a guide pipe 17, a bypass pipe 18, an electric heating cutter 19, an air cylinder 20, a film 21 and an ultrafine high-strength glass fiber felt 22.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Embodiment 1, the utility model provides a film blowing machine for superfine high-strength glass fiber curled products, which is shown in fig. 1 and fig. 2 and comprises a rotary barrel 1, a negative pressure suction pipe 2 and an air outlet pipe 3; one end of the negative pressure air suction pipe is positioned in the rotary barrel and is rotationally connected with the rotary barrel, so that the rotary barrel can rotate by taking the air suction pipe as an axis, and the other end of the negative pressure air suction pipe is positioned outside the rotary barrel and is used for being connected with a negative pressure generating device, such as a vacuum pump; the wall of the rotary barrel is provided with a plurality of first air holes 4, the first air holes are circumferentially arranged on the wall of the rotary barrel by taking the axis of the rotary barrel as a center, and are preferably uniformly arranged on the wall of the rotary barrel, wherein the first air holes can be arranged along the axis of the rotary barrel in a strip-shaped hole mode to ensure the width of the adsorption force, and are preferably uniformly arranged on the wall of the rotary barrel in a small hole or micro hole mode, so that the negative adsorption effect is better; a first partition plate 5 and a second partition plate 6 are arranged between the negative pressure air suction pipe and the rotary barrel, the space between the negative pressure air suction pipe and the rotary barrel is separated into a first cavity 7 and a second cavity 8 by the first partition plate and the second partition plate, the first partition plate and the second partition plate are generally fixed on the negative pressure air suction pipe, an air inlet hole 9 is arranged on the negative pressure air suction pipe, and the air inlet hole is positioned in the second cavity; the air outlet pipe is located in the negative pressure air suction pipe, a first air outlet 10 is arranged on the pipe wall of the air outlet pipe, a second air outlet 11 is arranged on the pipe wall of the negative pressure air suction pipe, the second air outlet is located in the second cavity, and the first air outlet is communicated with the second air outlet.

In order to facilitate connection of the air inlet device, the air inlet of the air outlet pipe is exposed out of the negative pressure air suction pipe and is positioned outside the rotary barrel. During manufacturing, one end of the air outlet pipe, which is not provided with the air outlet, can be directly penetrated out of the pipe wall of the negative pressure air suction pipe, the penetrating position of the end of the air outlet pipe is in sealing connection with the negative pressure air suction pipe, the pipe wall of the negative pressure air suction pipe can be provided with the air inlet to be directly connected with the air outlet pipe, one end of the air outlet pipe, which is not provided with the air outlet, can be directly penetrated out of one end of the negative pressure air suction pipe, which is positioned outside the rotary barrel, and therefore specific limitation is not needed from the position.

The utility model provides a film blowing machine of superfine high strength glass fiber curly goods, when using, negative pressure aspiration channel connection negative pressure produces the device, go out tuber pipe and connect blast apparatus, its rotatory drive arrangement of drive is connected to rotatory bucket, see fig. 3, with membrane 21 winding on winding membrane support 14 on the back reachs on the film blowing machine behind reversing wheel 13, open negative pressure and produce the device, blast apparatus and film blowing machine, the front end of membrane is at first adsorbed on rotatory bucket under the suction effect of negative pressure aspiration channel, because the existence of first baffle and second baffle, make the suction of negative pressure aspiration channel can only be in the bucket wall part of the rotatory bucket that the second cavity corresponds, along with the rotation of rotatory bucket, the position of second air outlet is reachd to the front end of membrane, under the effect of tuber pipe blowing, the membrane breaks away from rotatory bucket, through the slope whereabouts to superfine high strength glass fiber felt 22 to guide pipe 17, fall on the superfine high strength glass fiber felt after falling down and adsorbing under the effect of self-absorption of membrane The glass fiber felt moves along with the superfine high-strength glass fiber felt under the transmission of the belt transmission device 15, and the film covering operation is completed. The film blowing machine realizes the function of automatic film coating and improves the production efficiency.

As an optimal scheme, this inflation film manufacturing machine still includes tuyere 12, tuyere one end covers the second air outlet and with the negative pressure aspiration channel is connected, and the other end is close to the inner wall of rotatory bucket makes the wind of tuber pipe concentrate on the membrane and breaks away from the position of rotatory bucket like this, is difficult to receive the negative pressure influence of negative pressure aspiration channel for the membrane breaks away from rotatory bucket more easily, as a deformation, see fig. 4, the tuyere can also with one end first air outlet is connected, and the other end passes the negative pressure aspiration channel is close to the inner wall of rotatory bucket.

In this application, generally, the inlet port is a plurality of, circumference set up in form the inlet opening group on the negative pressure aspiration channel, preferably will the second air outlet set up in one side of inlet opening group, during the use with this side installation become the position in the picture 3 can, the left side of second air outlet does not have the inlet port like this to be difficult to go out at the second air intake and produce the negative pressure and influence the membrane and break away from rotatory bucket.

Embodiment 2, the utility model provides a system of binding of superfine high strength glass fiber curly goods, see fig. 3 and fig. 4, including embodiment 1's inflation film manufacturing machine, reverse wheel 13, winding membrane support 14, conveyer and book cotton device 16, conveyer is belt conveyer 15 in this embodiment, the winding membrane support is located the top of reverse wheel, the reverse wheel is located the top of inflation film manufacturing machine, inflation film manufacturing machine is located conveyer's top, it is located to roll up cotton device the unloading end of conveyer, the slope of inflation film manufacturing machine's second air outlet sets up downwards, the incline direction with conveyer's direction of transfer is the same.

In order to ensure that the position of the falling film is accurate and prevent the lower end of the falling film from being stretched unevenly due to the reduction of the wind force of the wind outlet pipe to cause wrinkles in the falling process of the film, a guide pipe 17 is arranged between the conveying device and the film blowing machine, the guide pipe is obliquely arranged, the inclination angle is preferably 30-60 degrees, one end of the guide pipe is close to the position, corresponding to the second wind outlet, of the rotary barrel, the other end of the guide pipe is close to the conveying device, a bypass pipe 18 is arranged at the top of the guide pipe, and the bypass pipe supplies wind to the guide pipe to prevent the wrinkles of the film. In order to facilitate the cutting of the film, an electric heating cutter 19 is arranged at a position close to the cotton rolling device, the electric heating cutter is connected with an air cylinder 20, and the air cylinder controls the heat cutter to be close to and far from the film to control whether the film is cut or not.

The principle of automatic tectorial membrane is the same with embodiment 1's principle when this system uses, the difference lies in still having the automatic function of binding, specifically, after superfine high strength glass fiber mat tectorial membrane rear end moves to roll up cotton device 16 after, beat the book by the roll cotton device, beat and roll up after accomplishing, the membrane is along with roll cotton device continues to rotate and is pasted tightly with the membrane of inlayer under the effect of self-priming power, use the hot knife to cut off the membrane and accomplish whole operation this moment, form like this and bind the automation of superfine high strength glass fiber mat, improved production efficiency.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the present invention, and the words first, second, etc. are used only for the distinction of names and not for the limitation of technical terms, and it is obvious to those skilled in the art that the present invention can be variously modified and changed. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A film blowing machine for superfine high-strength glass fiber curled products is characterized by comprising a rotary barrel (1), a negative pressure air suction pipe (2) and an air outlet pipe (3);

one end of the negative pressure air suction pipe is positioned in the rotary barrel and is rotationally connected with the rotary barrel, so that the rotary barrel can rotate by taking the air suction pipe as an axis, and the other end of the negative pressure air suction pipe is positioned outside the rotary barrel;

a plurality of first air holes (4) are formed in the wall of the rotary barrel, and are circumferentially formed in the wall of the rotary barrel by taking the axis of the rotary barrel as a center;

a first partition plate (5) and a second partition plate (6) are arranged between the negative pressure air suction pipe and the rotary barrel, the first partition plate and the second partition plate separate the space between the negative pressure air suction pipe and the rotary barrel into a first cavity (7) and a second cavity (8), an air inlet hole (9) is formed in the negative pressure air suction pipe, and the air inlet hole is positioned in the second cavity;

the air outlet pipe is located in the negative pressure air suction pipe, a first air outlet (10) is arranged on the pipe wall of the air outlet pipe, a second air outlet (11) is arranged on the pipe wall of the negative pressure air suction pipe, the second air outlet is located in the second cavity, and the first air outlet is communicated with the second air outlet.

2. The film blowing machine for the superfine high-strength glass fiber curled products according to claim 1, further comprising a tuyere (12);

one end of the air nozzle covers the second air outlet and is connected with the negative pressure air suction pipe, and the other end of the air nozzle is close to the inner wall of the rotary barrel, or

The air nozzle is connected with the first air outlet at one end, and the other end of the air nozzle penetrates through the negative pressure air suction pipe to be close to the inner wall of the rotary barrel.

3. The film blowing machine for superfine high-strength glass fiber curled products according to claim 1, wherein the number of the air inlets is plural, the air inlets are circumferentially arranged on the negative pressure suction pipe to form an air inlet hole group, and the second air outlet is located at one side of the air inlet hole group.

4. The film blowing machine for ultrafine high strength glass fiber curled products according to claim 1, wherein the first and second partition plates are fixed on the negative pressure suction pipe.

5. The film blowing machine for ultrafine high-strength glass fiber curled products according to claim 1, wherein the air inlet of the air outlet pipe is exposed out of the negative pressure air suction pipe and is positioned outside the rotary barrel.

6. The film blowing machine for ultrafine high strength glass fiber curled products according to claim 1, wherein a plurality of the first air holes are uniformly arranged on the barrel wall of the rotary barrel.

7. A binding system of superfine high strength glass fiber curled products, characterized by comprising the inflation film manufacturing machine of any one of claims 1-6, a reversing wheel (13), a film winding support (14), a conveying device and a cotton winding device (16), wherein the film winding support is positioned above the reversing wheel, the reversing wheel is positioned above the inflation film manufacturing machine, the inflation film manufacturing machine is positioned above the conveying device, the cotton winding device is positioned at the blanking end of the conveying device, a second air outlet of the inflation film manufacturing machine is obliquely arranged downwards, and the oblique direction is the same as the conveying direction of the conveying device.

8. The binding system of ultra-fine high strength glass fiber crimped product according to claim 7, wherein a guide tube (17) is disposed between the conveying device and the film blowing machine, the guide tube is disposed obliquely, one end of the guide tube is close to the position of the rotary barrel corresponding to the second air outlet, the other end of the guide tube is close to the conveying device, and a bypass tube (18) is disposed at the top of the guide tube.

9. The binding system for the ultra fine high strength glass fiber crimped product according to claim 7 or 8, characterized in that the conveyor is a belt conveyor (15).

10. The binding system of ultra-fine high strength glass fiber crimped product according to claim 9, characterized in that an electrically heated cutter (19) is disposed near the cotton rolling device, and an air cylinder (20) is connected to the electrically heated cutter.

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