CN115432353A - High-temperature-resistant glass fiber feeding device with anti-falling function and feeding method - Google Patents

Abstract

The invention discloses a high-temperature-resistant glass fiber feeding device with an anti-falling function and a feeding method, and relates to the related technical field of glass fiber feeding devices. Through the cooperation use of above each device, can increase glass fiber and break away from the resistance that receives from pay-off platform accident, and then can effectively prevent that glass fiber's accident from breaking away from, realize glass fiber's safe transportation, eliminate the potential safety hazard.

Description

High-temperature-resistant glass fiber feeding device with anti-falling function and feeding method

Technical Field

The invention relates to the technical field of glass fiber feeding devices, in particular to a high-temperature-resistant glass fiber feeding device with an anti-falling function and a feeding method.

Background

High temperature resistant glass fiber is mostly fluffy ball-type structure when the first birth, in the in-process to next processing equipment transportation, receive the influence of air current, and bounce-back each other between the glass fiber, cause glass fiber to break away from inside material feeding unit easily, the glass fiber texture is more fragile, the inside condition of few fibre rupture appears easily in the glass fiber who breaks away from inside material feeding unit, and because the glass fiber of fragmentation floats easily in the air, after getting into the human body, cause irreversible injury to the lung easily, there is certain potential safety hazard, consequently specially provide one kind can effectively prevent the material feeding unit that glass fiber drops, in order to solve above-mentioned problem.

Disclosure of Invention

The invention aims to provide a high-temperature-resistant glass fiber feeding device with an anti-falling function and a feeding method, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high temperature resistant glass fiber material feeding unit and pay-off method with prevent function that falls, including the equipment cabin, the conveyer belt has been cup jointed to the outer wall in equipment cabin, the inside in equipment cabin is provided with the air cavity, the inner wall an organic whole of air cavity is provided with the fixed plate, the bottom side of fixed plate is connected with the fly leaf through the compression union coupling, connect through electric telescopic handle between fixed plate and the fly leaf, the surface in equipment cabin is provided with a plurality of telescopic links, many slides have been seted up on the surface of conveyer belt, the slide matches with the telescopic link, make the conveyer belt can and the telescopic link between take place relative motion.

The telescopic link includes sleeve and inserted bar, the lateral wall in equipment cabin seted up with sleeve assorted activity hole, the inserted bar is pegged graft in telescopic inside, the bottom of inserted bar is link up through the inside of pipeline with the compression pipe, through flexible union coupling between inserted bar and the pipeline, the pipeline is fixed through the inner wall on support and air cavity top side with flexible union coupling department of pipe, with the bottom mounting of flexible pipe, prevent that the inserted bar from sliding towards the inside of air cavity, can make the inserted bar stretch out the sleeve more obviously.

In a further embodiment, the top end of the inserted rod is of a spherical structure with a half or more, so that the resistance between the end of the inserted rod and the glass fiber is reduced, the glass fiber is prevented from being broken, the bottom end of the sleeve is of a T-shaped structure, and the inner wall of the movable hole is matched with the bottom end of the sleeve.

In further embodiment, telescopic lateral wall is hollow structure, and the lateral wall on sleeve top is the arc structure, and the outer wall in equipment compartment is close to the integrative sealing ring that is provided with of activity hole department, and the inner wall and the telescopic outer wall laminating of sealing ring, sealing ring be round platform type structure, can reduce and glass fiber between the frictional force, prevent that the sealing ring from causing the hindrance to glass fiber's transportation.

In a further embodiment, a plurality of telescopic links are arranged at the outer wall equidistance of equipment cabin, and a plurality of telescopic links that are located equipment cabin tip are arranged along the lateral wall annular equidistance of conveyer belt tip, and the activity hole that is located the equipment cabin lateral wall is array distribution in the side of equipment cabin, can eliminate the dead angle between glass fiber and the telescopic link through the quantity of telescopic link.

In a further embodiment, the outer wall of the inserted rod is provided with a limiting ring, and the inner wall of the sleeve is provided with a limiting groove matched with the limiting ring to prevent the inserted rod from being separated from the sleeve.

To achieve the above object, the present invention provides another embodiment: the utility model provides a high temperature resistant glass fiber material feeding unit and pay-off method with anti-falling function, includes the pay-off platform body, and the outer wall of pay-off platform body cup joints the conveyer belt, and the side of conveyer belt is pegged graft and is had a plurality of anticreep poles, and the anticreep pole place direction is perpendicular with the pay-off platform body place direction, and the inside of pay-off platform body is provided with the heel post, and the heel post is quadrangular type structure, through the laminating of anticreep rod end portion and heel post outer wall, can realize that the anticreep pole is flexible at the outer wall of pay-off platform body.

The outer wall that anticreep pole is located the inside one end of pay-off platform body has cup jointed compression spring, compression spring's one end and the inner wall laminating of pay-off platform body, and the one end that anticreep pole is located the inside of pay-off platform body laminates with the outer wall of heel post, makes the anticreep pole carry out flexible process along the heel post outer wall and is smooth and easy more.

In further embodiment, four corners of heel post are the arc structure, make the more smooth and easy of anticreep pole tip position change between the adjacent outer wall of heel post, and a plurality of anticreep poles are array distribution in the side of conveyer belt, and the top of anticreep pole is the circular cone type structure.

In a further embodiment, the end part of the anti-falling rod is provided with a roller through the fixed frame, and the outer wall of the roller is attached to the outer wall of the bearing column, so that the relative sliding between the end part of the anti-falling rod and the bearing column is smoother, and the abrasion between the end part of the anti-falling rod and the bearing column is reduced.

A high-temperature-resistant glass fiber feeding device with an anti-falling function and a feeding method thereof specifically comprise the following steps:

t1, when the length of the electric telescopic rod between the fixed plate and the movable plate changes, the length of the compression pipe changes along with the change of the length of the electric telescopic rod, and then air pressure inside the air cavity and the compression pipe changes;

when the T2, the fixed plate and the movable plate move away from each other, the air pressure in the air cavity rises, the air pressure in the compression tube decreases, the sleeve slides in the direction far away from the air cavity, and the inserted rod slides in the direction close to the air cavity;

t3, utilize the extension of telescopic link to the conveyer belt top surface, make the top of telescopic link insert the inside of the cotton-colored glass fiber of ball-type, eliminate the influence of air current to glass fiber, and then guarantee that glass fiber can prolong the direction of conveyer belt and advance, circulation relative slip between sleeve and the inserted bar can be under the circumstances of guaranteeing that glass fiber does not drop in the conveyer belt top surface, prevent that glass fiber from passing through between telescopic link and the conveyer belt top surface fixedly, lead to appearing the circumstances of the unable and normal separation between the conveyer belt of glass fiber pay-off.

Compared with the prior art, the invention has the beneficial effects that:

according to the high-temperature-resistant glass fiber feeding device with the anti-falling function and the feeding method, the relative movement between the fixed plate and the movable plate can change the air pressure inside the compression pipe and the air cavity, the stretching of the sleeve and the inserted rod can be realized by means of the change of the air pressure, the telescopic sleeve and the inserted rod can be inserted into the spherical glass fiber, and the condition that the glass fiber is separated from a conveying belt under the influence of air flow during movement can be effectively prevented.

The end part of the anti-falling rod extends along the quadrangular prism-shaped structure bearing column to rotate along with the conveying belt, so that the anti-falling rod can extend along the outer wall of the bearing column to do reciprocating motion on the surface of the conveying belt, the end part of the anti-falling rod can penetrate into the glass fiber, and the separation between the glass fiber and the conveying belt can be effectively prevented.

Drawings

FIG. 1 is a front sectional view of an equipment room according to embodiment 1 of the present invention;

FIG. 2 is an enlarged view of the structure of FIG. 1A according to an embodiment of the present invention;

FIG. 3 is an exploded view of example 1 of the present invention;

FIG. 4 is a view showing the structure of a compression pipe according to embodiment 1 of the present invention;

FIG. 5 is a front sectional view of a feeding table body in embodiment 2 of the present invention.

In the figure: 1. an equipment compartment; 11. a movable hole; 12. a seal ring; 2. a conveyor belt; 21. a slideway; 3. an air cavity; 4. a fixing plate; 5. compressing the tube; 6. a movable plate; 7. a telescopic rod; 71. a sleeve; 72. a rod is inserted; 73. a pipeline; 74. a telescopic pipe; 75. a limiting ring; 76. a limiting groove; 8. an anti-drop rod; 81. a fixed mount; 82. a roller; 9. a load-bearing column; 91. a compression spring; 10. a feeding table body; 101. and (7) a conveying belt.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the invention.

Example 1

Referring to fig. 1-4, the embodiment provides a high temperature resistant glass fiber feeding device with a falling prevention function, which includes an equipment compartment 1, a conveyor belt 2 is sleeved on an outer wall of the equipment compartment 1, balls capable of reducing friction between the outer wall of the equipment compartment 1 and the conveyor belt 2 are arranged on the outer wall of the equipment compartment 1, so that the conveyor belt 2 can smoothly transport glass fibers, the conveyor belt 2 is used for transporting glass fibers, and preferably, a certain number of grooves can be arranged on the surface of the conveyor belt 2 to increase friction between the conveyor belt 2 and materials to be transported.

The inside of equipment cabin 1 is provided with air cavity 3, and air cavity 3 can provide the space for the flexible of compression pipe 5 and telescopic link 7, and simultaneously, air cavity 3 is the enclosure space, guarantees the inside gas tightness rather than the outside in equipment cabin 1.

The inner wall of air cavity 3 an organic whole is provided with fixed plate 4, and fixed plate 4 is placed at the inside level of air cavity 3, can make compression pipe 5 extend vertical direction and stretch out and draw back to compression pipe 5 and fly leaf 6 can hang down naturally in air cavity 3's inside under self action of gravity, make the atmospheric pressure variation between air cavity 3 and the compression pipe 5 be enough to satisfy telescopic link 7 at the inside flexible of portable hole 11.

Wherein, when compression pipe 5 droops naturally in the inside of air cavity 3, can make it when carrying out length change, the condition that compression pipe 5 radially produced deformation along it can not appear, and then can make the change of the inside atmospheric pressure of compression pipe 5 more obvious.

The bottom side of the fixed plate 4 is connected with a movable plate 6 through a compression pipe 5, a closed space can be formed among the movable plate 6, the fixed plate 4 and the compression pipe 5, and the fixed plate 4 and the movable plate 6 can provide a force point for the deformation of the compression pipe 5.

Connect through electric telescopic handle between fixed plate 4 and the fly leaf 6, electric telescopic handle is through applying the effort between fixed plate 4 and the fly leaf 6, realizes the flexible of compression pipe 5, electric telescopic handle's both ends simultaneously can respectively with fixed plate 4 and fly leaf 6 between fixed for compression pipe 5 can be strictly along vertical direction carry out length variation.

The surface of equipment cabin 1 is provided with a plurality of telescopic links 7, through a plurality of telescopic links 7 stretching out at 2 top surfaces of conveyer belt, can further increase single globular glass fiber and conveyer belt 2 between the resistance of relative motion, can also avoid simultaneously that glass fiber can't appear by the condition of telescopic link 7 interlude because of size problem, guarantees glass fiber's stability in the transportation.

Wherein, through the interlude of telescopic link 7 at 2 top surfaces of conveyer belt, not only can promote glass fiber and carry out the stability of transporting, stability when can also increasing other flocculent materials and transport, for example, cotton, spinning thread, asbestos etc..

The surface of conveyer belt 2 has seted up many slide 21, and slide 21 can provide the space for the relative motion between telescopic link 7 and the conveyer belt 2, and slide 21 matches with telescopic link 7.

Because the telescopic rod 7 can penetrate through the slide rail 21 and extend to the outer side of the conveyor belt 2, the separation of the conveyor belt 2 from the outer wall of the equipment cabin 1 can be effectively prevented.

The telescopic rod 7 comprises a sleeve 71 and an inserting rod 72, relative sliding can occur between the sleeve 71 and the inserting rod 72, and for the spherical flocculent glass fibers with larger internal density, the sleeve 71 and the inserting rod 72 with different diameters can ensure that one of the sleeves can extend into the glass fibers, so that the separation between the glass fibers and the conveyor belt 2 is prevented.

The lateral wall of the equipment cabin 1 is provided with the movable hole 11 matched with the sleeve 71, so that the telescopic direction of the telescopic rod 8 can be limited, the sleeve 71 can be limited, and the separation between the sleeve 71 and the equipment cabin 1 is prevented.

The inserted rod 72 is inserted into the sleeve 71, the bottom end of the inserted rod 72 is communicated with the inside of the compression pipe 5 through the pipeline 73, the inserted rod 72 is connected with the pipeline 73 through the telescopic pipe 74, and when the air pressure inside the telescopic pipe 74 changes, the air pressure can be balanced between the inserted rod 72 and the outer wall environment through self expansion and contraction, so that the expansion and contraction of the inserted rod 72 inside the sleeve 71 are realized.

The connection between the duct 73 and the telescopic tube 74 is fixed to the inner wall of the top side of the air chamber 3 through a bracket, and the position of the bottom end of the telescopic tube 74 can be fixed, so that one end of the telescopic tube 74, which is far away from the duct 73, can be extended and retracted, and the extension and retraction of the inserted rod 72 in the sleeve 71 are further realized.

The extension tube 74 and the compression tube 5 are both corrugated compensator type tubes capable of length change in the prior art, and when the air pressure inside the compression tube 5 is reduced, the corrugations between the outer walls of the extension tube 74 can be attached to each other, and the top end of the insertion rod 72 can be extended below the top end of the sleeve 71.

The top end of the insertion rod 72 is in a spherical structure of more than one half, so that the resistance between the end part of the insertion rod 72 and the glass fiber can be reduced, meanwhile, the insertion rod 72 can be prevented from jacking up the glass fiber, and the glass fiber is prevented from falling off the top surface of the conveyor belt 2.

The bottom of sleeve 71 is T type structure, and the inner wall of activity hole 11 and the bottom phase-match of sleeve 71 can prevent effectively that sleeve 71 from appearing in the condition that the activity hole 11 is inside to break away from when stretching out and drawing back.

The side wall of the sleeve 71 is of a hollow structure, air in the air cavity 3 can enter the space in the side wall of the sleeve 71, and when the air pressure in the air cavity 3 changes, the air in the space in the side wall of the sleeve 71 can increase the force applied to the sleeve 71 by expansion, wherein the force is far away from the air cavity 3.

The contact area between the sleeve 71 and the air can be increased by the space of the side wall of the sleeve 71, and the sliding of the sleeve 71 inside the movable hole 11 is made smoother.

The side wall at the top end of the sleeve 71 is of an arc-shaped structure, so that the resistance of the sleeve 71 to shuttle between the glass fibers can be reduced, the glass fibers can be separated from the top end of the sleeve 71 more quickly, and the glass fibers are prevented from being broken.

The outer wall of the equipment compartment 1 is integrally provided with a sealing ring 12 close to the movable hole 11, and the sealing ring 12 can prevent powder formed by breaking glass fibers from entering between the movable hole 11 and the sleeve 71 and prevent the glass powder from affecting the air tightness of the air cavity 3 with the sleeve 71 and the movable hole 11.

The inner wall of the sealing ring 12 is attached to the outer wall of the sleeve 71, and the sealing ring 12 is of a circular truncated cone structure, so that the friction force between the glass fiber and the sealing ring 12 can be reduced, and the relative movement between the glass fiber and the sealing ring 12 is smoother.

A plurality of telescopic links 7 are arranged at the outer wall equidistance of equipment cabin 1, can reduce the dead angle between telescopic link 7 and the glass fiber, guarantee that telescopic link 7 can insert globular glass fiber's inside, guarantee that glass fiber can not drop from the top surface of conveyer belt 2.

The plurality of telescopic rods 7 positioned at the end part of the equipment cabin 1 are annularly and equidistantly distributed along the side wall at the end part of the conveyor belt 2, and the movable holes 11 positioned at the side wall of the equipment cabin 1 are distributed in an array form on the side surface of the equipment cabin 1, so that dead angles between the telescopic rods 7 and the spherical glass fibers are further reduced.

The outer wall of the inserted bar 72 is provided with a limiting ring 75, and the inner wall of the sleeve 71 is provided with a limiting groove 76 matched with the limiting ring 75 to prevent the inserted bar 72 and the sleeve 71 from being separated.

Example 2

Referring to fig. 5, the difference from embodiment 1 is: the requirement that has different distances in the production place to glass fiber's transportation, the staff is inconvenient carries out short distance to glass fiber, because glass fiber's rupture appears very easily in handling, can have great potential safety hazard, consequently specially proposes to carry out the short distance and carries to can prevent effectively that glass fiber from in the material feeding unit that the transportation platform accident drops, in order to guarantee, glass fiber can the safe transportation.

The utility model provides a high temperature resistant glass fiber material feeding unit with prevent function that falls, includes pay-off platform body 10, and the outer wall of pay-off platform body 10 has cup jointed conveyer belt 101, and conveyer belt 101 can bear the effect of glass fiber air flue to the top surface of conveyer belt 101 can set up the antiskid groove of certain defeated material, shortens the required time of synchronous motion between glass fiber and the conveyer belt 101.

The side of conveyer belt 101 is pegged graft and is had a plurality of anticreep poles 8, and anticreep pole 8 place direction is perpendicular with pay-off platform body 10 place direction, and anticreep pole 8 can stretch into glass fiber's inside, and then can effectively block the glass fiber implementation that has landing conveyer belt 101 trend.

The inside of pay-off platform body 10 is provided with heel post 9, and heel post 9 is the quadrangular type structure, and the distance between four faces of heel post 9 and the pay-off platform body 10 outer wall is different, through the laminating with 8 tip on the anticreep pole and the heel post 9 side, can realize the periodic flexible of anticreep pole 8 in pay-off body 10 outer wall, can enough accomplish the fixed in conveyer belt 101 outer wall to glass fiber, can also not influence glass fiber in the transportation of target area.

The outer wall that anticreep pole 8 is located the inside one end of pay-off table body 10 has cup jointed compression spring 91, compression spring 91's one end and the inner wall laminating of pay-off table body 10, compression spring 91 can provide one towards the inside gliding power of pay-off table body 1 for anticreep pole 8, and then makes the tip of anticreep pole 8 can laminate with the outer wall of heel post 9 constantly, realizes that the orbit that anticreep pole 8 is extending the outer wall of heel post 9 is flexible at the outer wall of conveyer belt 101.

Anticreep pole 8 is located the laminating of the inside one end of pay-off platform body 10 and the outer wall of heel post 9, and compression spring 91 can make between anticreep pole 8 and the heel post 9 laminating inseparabler.

Four corners of the bearing column 9 are arc-shaped structures, so that the anti-falling rod 8 runs more smoothly on the adjacent side surface of the bearing column 9.

A plurality of anticreep poles 8 are array distribution in the side of conveyer belt 101, and anticreep pole 8's top is the circular cone type structure, reduces the resistance that anticreep pole 8 top was met in the inside interlude of globular glass fiber.

Running roller 82 is installed through mount 81 to the tip of anticreep pole 8, and the outer wall of running roller 82 and the outer wall laminating of heel post 9 reduce the frictional force between anticreep pole 8 and the heel post 9, prevent that wearing and tearing from appearing in the tip of anticreep pole 8, can also reduce the deflection force that anticreep pole 8 received simultaneously, prevent that conveyer belt 101 and anticreep pole 8's junction is damaged, extension equipment life.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a high temperature resistant glass fiber material feeding unit with prevent falling function, includes equipment cabin (1), conveyer belt (2), its characterized in that have been cup jointed to the outer wall in equipment cabin (1): an air cavity (3) is arranged inside the equipment cabin (1), a fixed plate (4) is integrally arranged on the inner wall of the air cavity (3), the bottom side of the fixed plate (4) is connected with a movable plate (6) through a compression pipe (5), the fixed plate (4) and the movable plate (6) are connected through an electric telescopic rod, a plurality of telescopic rods (7) are arranged on the surface of the equipment cabin (1), a plurality of slide ways (21) are arranged on the surface of the conveyor belt (2), and the slide ways (21) are matched with the telescopic rods (7);

the telescopic rod (7) comprises a sleeve (71) and an inserting rod (72), a movable hole (11) matched with the sleeve (71) is formed in the side wall of the equipment cabin (1), the inserting rod (72) is inserted into the sleeve (71), the bottom end of the inserting rod (72) is communicated with the inside of the compression pipe (5) through a pipeline (73), the inserting rod (72) is connected with the pipeline (73) through a telescopic pipe (74), and the joint of the pipeline (73) and the telescopic pipe (74) is fixed with the inner wall of the top side of the air cavity (3) through a support.

2. The high-temperature-resistant glass fiber feeding device with the falling-preventing function as claimed in claim 1, wherein: the top end of the inserted bar (72) is of a spherical structure with one half of the diameter, the bottom end of the sleeve (71) is of a T-shaped structure, and the inner wall of the movable hole (11) is matched with the bottom end of the sleeve (71).

3. The high-temperature-resistant glass fiber feeding device with the falling-preventing function as claimed in claim 2, wherein: the lateral wall of sleeve (71) is hollow structure, the lateral wall on sleeve (71) top is the arc structure, the outer wall of equipment cabin (1) is close to activity hole (11) and locates an organic whole to be provided with sealing ring (12), the inner wall of sealing ring (12) and the outer wall laminating of sleeve (71), sealing ring (12) are round platform type structure.

4. The high-temperature-resistant glass fiber feeding device with the falling-preventing function as claimed in claim 3, wherein: a plurality of the telescopic rods (7) are arranged on the outer wall of the equipment cabin (1) at equal intervals, the telescopic rods (7) at the end part of the equipment cabin (1) are arranged along the side wall of the end part of the conveyor belt (2) at equal intervals in an annular shape, and the movable holes (11) at the side wall of the equipment cabin (1) are distributed in an array mode on the side face of the equipment cabin (1).

5. The high-temperature-resistant glass fiber feeding device with the falling-preventing function as claimed in claim 4, wherein: the outer wall of inserted bar (72) is provided with spacing ring (75), the inner wall of sleeve (71) is seted up with spacing ring (75) assorted spacing groove (76).

6. The utility model provides a high temperature resistant glass fiber material feeding unit with prevent function that falls, includes pay-off platform body (10), the outer wall of pay-off platform body (10) has cup jointed conveyer belt (101), its characterized in that: the side surface of the conveying belt (101) is spliced with a plurality of anti-falling rods (8), the direction of each anti-falling rod (8) is perpendicular to the direction of the feeding table body (10), a bearing column (9) is arranged inside the feeding table body (10), and each bearing column (9) is of a quadrangular structure;

the outer wall that anticreep pole (8) are located the inside one end of pay-off platform body (10) cup joints compression spring (91), the one end of compression spring (91) and the inner wall laminating of pay-off platform body (10), the outer wall laminating of the one end that anticreep pole (8) are located pay-off platform body (10) inside and heel post (9).

7. The high-temperature-resistant glass fiber feeding device with the falling-preventing function as claimed in claim 6, wherein: four corners of heel post (9) are the arc structure, and are a plurality of anticreep pole (8) are array distribution in the side of conveyer belt (101), the top of anticreep pole (8) is the circular cone type structure.

8. The high-temperature-resistant glass fiber feeding device with the falling-preventing function as claimed in claim 6, wherein: running roller (82) are installed through mount (81) to the tip of anticreep pole (8), the outer wall laminating of the outer wall of running roller (82) and heel post (9).

9. The high-temperature-resistant glass fiber feeding device with the anti-falling function and the feeding method adopt the high-temperature-resistant glass fiber feeding device with the anti-falling function of claim 5, and are characterized by comprising the following steps:

t1, when the length of the electric telescopic rod between the fixed plate (4) and the movable plate (6) changes, the length of the compression pipe (5) changes, and further air pressure inside the air cavity (3) and inside the compression pipe (5) changes, when the fixed plate (4) and the movable plate (6) move oppositely, air pressure inside the air cavity (3) is reduced, air pressure inside the compression pipe (5) is increased, the sleeve (71) slides towards the inside of the air cavity (3), and the inserted rod (72) slides towards the direction far away from the air cavity (3);

when the T2, the fixed plate (4) and the movable plate (6) move away from each other, the air pressure in the air cavity (3) is increased, the air pressure in the compression pipe (5) is reduced, the sleeve (71) slides towards the direction far away from the air cavity (3), and the inserted rod (72) slides towards the direction close to the air cavity (3);

t3, utilize extension of telescopic link (7) to conveyer belt (2) top surface, make the top of telescopic link (7) insert the inside of the cotton-like glass fiber of ball-type, eliminate the influence of air current to glass fiber, and then guarantee that glass fiber can be marchd along the direction of conveyer belt (2), circulation relative slip between sleeve (71) and inserted bar (72), can guarantee under the circumstances that glass fiber does not drop in conveyer belt (2) top surface, prevent that glass fiber from passing through between telescopic link (7) and conveyer belt (2) top surface fixed, lead to appearing the circumstances of the unable and normal separation between conveyer belt (2) of glass fiber pay-off.

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