CN115093132B - Equipment for soaking and eliminating surface sizing agent of waste glass fiber - Google Patents

Abstract

The invention relates to soaking elimination equipment, in particular to waste glass fiber surface layer impregnating compound soaking elimination equipment. The invention provides a waste glass fiber surface impregnating compound soaking and eliminating device with good eliminating effect. The utility model provides a useless glass fiber top layer impregnating compound soaks elimination equipment, including chassis, charging basket, shell, outlet pipe, rotary mechanism and climbing mechanism, the chassis top is connected with the charging basket that is used for being equipped with organic solvent, and charging basket upper portion left and right sides all is connected with the shell, and charging basket bottom right side is connected with the outlet pipe, is equipped with the rotary mechanism that is used for fully soaking useless glass fiber between chassis and the charging basket, is equipped with the climbing mechanism that is used for taking out useless glass fiber between shell and the rotary mechanism. The invention has good elimination effect, and the waste glass fiber is fully mixed with the organic solvent for soaking by hanging the waste glass fiber on the object hanging frame, and the object hanging frame rotates to drive the waste glass fiber to rotate.

Description

Equipment for soaking and eliminating surface sizing agent of waste glass fiber

Technical Field

The invention relates to soaking elimination equipment, in particular to waste glass fiber surface layer impregnating compound soaking elimination equipment.

Background

In the present stage, in order to meet the requirements of glass fiber drawing technology and later weaving, a sizing agent must be used in the glass fiber drawing process to improve the cohesion and lubrication performance of the glass fiber drawing technology, but the interlayer interface binding force of a membrane structure material taking glass fiber fabric as a base material can be seriously influenced, so that the bonding strength of a composite material is poor, the service life of the material is influenced, and therefore, the sizing agent needs to be eliminated first. At present, the method for removing the impregnating compound is a washing method, and the washing method adopts alkali liquor, soap, organic solvent and the like to wash out the impregnating compound according to the composition of the impregnating compound. In the prior art, waste glass fibers are generally soaked in an organic solvent, but the waste glass fibers are stacked together, so that the waste glass fibers are insufficiently soaked, and the effect of eliminating a wetting agent is poor.

How to design a waste glass fiber surface impregnating compound soaking and eliminating device with good eliminating effect is a technical problem to be solved by the patent.

Disclosure of Invention

In order to overcome the defects that waste glass fibers are stacked together for soaking, so that the waste glass fibers are insufficiently soaked, and the effect of eliminating the wetting agent is poor, the technical problem to be solved is as follows: provides a waste glass fiber surface impregnating compound soaking and eliminating device with good eliminating effect.

The technical scheme of the invention is as follows: the utility model provides a useless glass fiber top layer impregnating compound soaks elimination equipment, including chassis, charging basket, shell, outlet pipe, rotary mechanism and climbing mechanism, the chassis top is connected with the charging basket that is used for being equipped with organic solvent, and charging basket upper portion left and right sides all is connected with the shell, and charging basket bottom right side is connected with the outlet pipe, is equipped with the rotary mechanism that is used for fully soaking useless glass fiber between chassis and the charging basket, is equipped with the climbing mechanism that is used for taking out useless glass fiber between shell and the rotary mechanism.

As a preferable technical scheme of the invention, the rotating mechanism comprises a motor, a first rotating shaft and a hanging rack, wherein the motor is arranged in the middle of the top of the chassis, the first rotating shaft is rotatably connected in the middle of the bottom of the charging bucket, the lower end of the first rotating shaft is connected with an output shaft of the motor through a coupling, the hanging rack for hanging waste glass fibers is connected to the lower side of the first rotating shaft, and the hanging rack is positioned in the charging bucket.

As a preferable technical scheme of the invention, the lifting mechanism comprises a sliding rail, a storage plate, a pull rope, a reel, a second rotating shaft, a driving belt and a third rotating shaft, wherein the sliding rail is connected to the inner side of the charging barrel in a sliding manner, the storage plate for taking out waste glass fibers is connected to the inner side of the sliding rail in a rotating manner, the storage plate is connected with the first rotating shaft and a hanging frame in a sliding manner, the second rotating shafts are respectively connected to the upper parts in the two shells in a rotating manner, the reels are respectively connected with the pull rope between the reels and the sliding rail, the third rotating shafts are respectively connected to the upper parts in the two shells in a rotating manner, the driving belt is wound on the rear end of the third rotating shaft on the left side and the rear end of the second rotating shaft on the left side through the driving wheel, and the driving belt is wound on the rear end of the third rotating shaft on the right side and the rear end of the second rotating shaft on the right side through the driving wheel.

As a preferred technical scheme of the invention, the device further comprises a scattering mechanism for scattering waste glass fibers, the scattering mechanism comprises a first fixing rod, a first spring, scattering brushes and wedge-shaped blocks, the front side and the rear side of the top of the sliding rail are respectively connected with the first fixing rod, the first fixing rods are respectively connected with the scattering brushes for scattering the waste glass fibers in a sliding mode, the first springs are connected between the bottom of the scattering brushes on the front side and the first fixing rods on the front side, the first springs are connected between the bottom of the scattering brushes on the rear side and the first fixing rods on the rear side, the first springs are sleeved on the first fixing rods, the bottom of the scattering brushes are respectively connected with the wedge-shaped blocks, and the wedge-shaped blocks are respectively contacted with the object placing plate.

As a preferred technical scheme of the invention, the automatic feeding device further comprises a positioning and fixing mechanism for limiting the sliding rail, wherein the positioning and fixing mechanism comprises a limiting ring, second fixing rods, fixing blocks, a first torsion spring and a first pressing plate, the limiting ring is connected to the lower side of the inside of the feeding barrel, the limiting ring is in contact with the sliding rail, four second fixing rods are uniformly and alternately connected to the top of the sliding rail, four fixing blocks are uniformly and alternately connected to the top of the feeding barrel, first pressing plates which are matched with the limiting ring to limit the sliding rail and the second fixing rods are rotatably connected to the fixing blocks, the first pressing plate is in contact with the second fixing rods, the first torsion spring is sleeved on the fixing blocks, and two ends of the first torsion spring are respectively connected with the fixing blocks and the first pressing plate.

As a preferable technical scheme of the invention, the automatic water discharging device further comprises a valve opening mechanism, wherein the valve opening mechanism comprises a third fixed rod, a closing plate and a second torsion spring, the right side of the bottom of the charging barrel is connected with the third fixed rod, the closing plate for blocking the water outlet pipe is rotationally connected to the third fixed rod, the closing plate is contacted with the bottom of the water outlet pipe, the second torsion spring is connected between the closing plate and the third fixed rod, and the second torsion spring is sleeved on the third fixed rod.

As a preferable technical scheme of the invention, the device also comprises a locking mechanism for limiting the waste glass fibers, the locking mechanism comprises a second pressing plate, a second spring and locking rings, the second pressing plate for limiting the waste glass fibers is connected to the upper part of the first rotating shaft in a sliding manner, the second spring is connected between the second pressing plate and the first rotating shaft, four locking rings are uniformly connected to the top of the second pressing plate at intervals, and the locking rings are in contact with the hanging rack.

As a preferable technical scheme of the invention, the invention further comprises a handle, and the front ends of the third rotating shafts are connected with the handle.

The invention has the advantages that:

1. the invention has good elimination effect, and the waste glass fiber is fully mixed with the organic solvent for soaking by hanging the waste glass fiber on the object hanging frame, and the object hanging frame rotates to drive the waste glass fiber to rotate;

2. according to the invention, the object placing plate is repeatedly contacted and separated with the wedge-shaped block, so that the dispersing brush repeatedly moves up and down to disperse the waste glass fibers, the waste glass fibers are prevented from being piled up, and the part of the positions are insufficiently soaked;

3. according to the invention, the first pressing plate is matched with the limit ring to limit the second fixing rod and the slide rail, so that the slide rail is prevented from easily sliding up and down to drive the waste glass fiber to be separated from the hanging rack during soaking;

4. the water outlet pipe is closed by the closing plate, so that people do not need to block the water outlet pipe by means of tools;

5. according to the invention, the second pressing plate is used for limiting the waste glass fibers on the object hanging frame, so that the waste glass fibers are prevented from being thrown out when the object hanging frame rotates.

Drawings

Fig. 1 is a schematic perspective view of a first view of the present invention.

Fig. 2 is a schematic view of a second perspective structure of the present invention.

Fig. 3 is a schematic perspective view of a third perspective view of the present invention.

Fig. 4 is a schematic perspective view of a rotary mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a rotary mechanism of the present invention in cross-section.

Fig. 6 is a schematic perspective view of the lifting mechanism of the present invention.

Fig. 7 is a schematic cross-sectional perspective view of the lifting mechanism of the present invention.

Fig. 8 is a schematic perspective view of the breaking mechanism according to the present invention.

FIG. 9 is a schematic cross-sectional perspective view of the breaking mechanism of the present invention.

Fig. 10 is a schematic perspective view of the positioning and fixing mechanism of the present invention.

Fig. 11 is a schematic view of a part of a perspective structure of a positioning and fixing mechanism of the present invention.

Fig. 12 is a schematic cross-sectional perspective view of the positioning and fixing mechanism of the present invention.

Fig. 13 is a schematic view showing a first perspective structure of the valve opening mechanism of the present invention.

Fig. 14 is a schematic view showing a second perspective structure of the valve opening mechanism of the present invention.

Fig. 15 is a schematic view showing a first perspective structure of the locking mechanism of the present invention.

Fig. 16 is a schematic view of a second perspective of the locking mechanism of the present invention.

Marked in the figure as: 1-chassis, 2-charging barrel, 3-shell, 31-water outlet pipe, 4-rotating mechanism, 41-motor, 42-first rotating shaft, 43-rack, 5-lifting mechanism, 51-slide rail, 52-placing plate, 53-stay rope, 54-reel, 55-second rotating shaft, 56-driving belt, 57-third rotating shaft, 58-handle, 6-scattering mechanism, 61-first fixed rod, 62-first spring, 63-dispersing brush, 64-wedge block, 7-positioning fixed mechanism, 71-limit ring, 72-second fixed rod, 73-fixed block, 74-first torsion spring, 75-first pressing plate, 8-valve opening mechanism, 81-third fixed rod, 82-closing plate, 83-second torsion spring, 9-locking mechanism, 91-second pressing plate, 92-second spring, 93-locking ring.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but does not limit the scope of protection and the application of the invention.

Example 1

The utility model provides a useless glass fiber top layer impregnating compound soaks elimination equipment, refer to fig. 1-7, including chassis 1, charging basket 2, shell 3, outlet pipe 31, rotary mechanism 4 and climbing mechanism 5, chassis 1 top is connected with charging basket 2, charging basket 2 is used for being equipped with the organic solvent, charging basket 2 upper portion left and right sides all is connected with shell 3, charging basket 2 bottom right side is connected with outlet pipe 31, be equipped with rotary mechanism 4 between chassis 1 and the charging basket 2, rotary mechanism 4 is used for fully soaking useless glass fiber, be equipped with climbing mechanism 5 between shell 3 and the rotary mechanism 4, climbing mechanism 5 is used for taking out useless glass fiber.

Referring to fig. 4-5, the rotating mechanism 4 comprises a motor 41, a first rotating shaft 42 and a hanging rack 43, the motor 41 is installed in the middle of the top of the chassis 1, the first rotating shaft 42 is rotatably connected in the middle of the bottom of the charging bucket 2, the lower end of the first rotating shaft 42 is connected with an output shaft of the motor 41 through a coupling, the hanging rack 43 is connected to the lower side of the first rotating shaft 42, the hanging rack 43 is used for hanging waste glass fibers, and the hanging rack 43 is located inside the charging bucket 2.

Referring to fig. 6-7, the lifting mechanism 5 includes a slide rail 51, a storage plate 52, a pull rope 53, a reel 54, a second rotating shaft 55, a driving belt 56, a third rotating shaft 57 and a handle 58, the slide rail 51 is slidingly connected to the inner side of the charging barrel 2, the storage plate 52 is rotatably connected to the inner side of the slide rail 51, the storage plate 52 is used for taking out waste glass fibers, the storage plate 52 is slidingly connected to the first rotating shaft 42 and the hanging frame 43, the upper parts in the two housings 3 are respectively rotatably connected to the second rotating shaft 55, the reels 54 are respectively connected to the second rotating shaft 55, the pull rope 53 is respectively connected between the reels 54 and the slide rail 51, the upper parts in the two housings 3 are respectively rotatably connected to the third rotating shaft 57, the rear ends of the third rotating shaft 57 on the left side and the rear ends of the second rotating shaft 55 on the left side are respectively wound with the driving belt 56 through driving wheels, the rear ends of the third rotating shaft 57 on the right side and the rear ends of the second rotating shaft 55 on the right side are respectively connected to the handle 58 through driving wheels.

When the device is used, firstly, people block the water outlet pipe 31, hang waste glass fibers on the object hanging frame 43 and are positioned on the object placing plate 52, then a proper amount of organic solvent is added into the charging barrel 2, the motor 41 is started, the output shaft of the motor 41 drives the first rotating shaft 42 to rotate, the object hanging frame 43 is driven to rotate, the object hanging frame 43 drives the object placing plate 52 and the waste glass fibers to rotate, the waste glass fibers are fully mixed with the organic solvent to be soaked, so that impregnating compound on the surface layer of the waste glass fibers is removed, after soaking, the motor 41 is closed, the third rotating shaft 57 is manually rotated through the handle 58, the second rotating shaft 55 is driven to rotate through the driving wheel and the driving belt 56, the second rotating shaft 54 is driven to rotate, the sliding rail 51 is driven to move upwards through the pulling rope 53, the object placing plate 52 is driven to move upwards, the soaked waste glass fibers are driven to move upwards, after the soaked waste glass fibers are conveniently taken out, the third rotating shaft 57 is manually rotated through the handle 58, the second rotating shaft 55 is driven through the driving wheel and the driving belt 56, the second rotating shaft 54 is reversely, the sliding rail 53 is driven to rotate through the driving wheel and the sliding rail 52 is not to be reset, and the water outlet pipe 31 is not discharged through the sliding rail 2.

Example 2

On the basis of embodiment 1, referring to fig. 1, 2, 8 and 9, the device further comprises a breaking mechanism 6, the breaking mechanism 6 comprises a first fixing rod 61, a first spring 62, a dispersing brush 63 and a wedge block 64, the front side and the rear side of the top of the sliding rail 51 are respectively connected with the first fixing rod 61, the dispersing brush 63 is respectively connected with the first fixing rod 61 in a sliding manner, the dispersing brush 63 is used for dispersing waste glass fibers, the first spring 62 is connected between the bottom of the dispersing brush 63 on the front side and the first fixing rod 61 on the front side, the first spring 62 is connected between the bottom of the dispersing brush 63 on the rear side and the first fixing rod 61 on the rear side, the first spring 62 is sleeved on the first fixing rod 61, the bottom of the dispersing brush 63 is respectively connected with the wedge block 64, and the wedge block 64 is respectively contacted with the object placing plate 52.

When the object placing plate 52 rotates, the object placing plate 52 contacts with the wedge block 64, the wedge block 64 is further extruded upwards, the wedge block 64 drives the dispersing brush 63 to move upwards, the first spring 62 is stretched, when the object placing plate 52 is separated from the wedge block 64, the wedge block 64 and the dispersing brush 63 are further driven to move downwards to reset under the reset action of the first spring 62, and therefore the object placing plate 52 and the wedge block 64 are repeatedly contacted and separated, the dispersing brush 63 is repeatedly moved up and down to disperse waste glass fibers, waste glass fibers are prevented from being accumulated together, and the position of a part is not fully soaked.

Referring to fig. 1, fig. 2, fig. 10, fig. 11 and fig. 12, the automatic feeding device further comprises a positioning and fixing mechanism 7, the positioning and fixing mechanism 7 comprises a limit ring 71, a second fixing rod 72, a fixing block 73, a first torsion spring 74 and a first pressing plate 75, the lower side of the inside of the feeding barrel 2 is connected with the limit ring 71, the limit ring 71 is contacted with the sliding rail 51, four second fixing rods 72 are uniformly and alternately connected to the top of the sliding rail 51, four fixing blocks 73 are uniformly and alternately connected to the top of the feeding barrel 2, first pressing plates 75 are rotatably connected to the fixing blocks 73, the first pressing plates 75 are matched with the limit ring 71 to limit the sliding rail 51 and the second fixing rods 72, the first pressing plates 75 are contacted with the second fixing rods 72, the first torsion spring 74 is sleeved on the fixing blocks 73, and two ends of the first torsion spring 74 are respectively connected with the fixing blocks 73 and the first pressing plates 75.

When the sliding rail 51 moves upwards, the second fixing rod 72 is driven to move upwards, the second fixing rod 72 pushes the first pressing plate 75 open, the first torsion spring 74 deforms, when the sliding rail 51 moves downwards to reset, the first pressing plate 75 is driven to reset under the reset action of the first torsion spring 74, the first pressing plate 75 is matched with the limit ring 71 to limit the second fixing rod 72 and the sliding rail 51, and the sliding rail 51 is prevented from easily sliding up and down to drive waste glass fibers to be separated from the hanger 43 during soaking.

Referring to fig. 1, fig. 2, fig. 3, fig. 13 and fig. 14, the device further comprises a valve opening mechanism 8, the valve opening mechanism 8 comprises a third fixing rod 81, a closing plate 82 and a second torsion spring 83, the right side of the bottom of the charging barrel 2 is connected with the third fixing rod 81, the closing plate 82 is rotatably connected to the third fixing rod 81, the closing plate 82 is used for blocking the water outlet pipe 31, the closing plate 82 is in contact with the bottom of the water outlet pipe 31, the second torsion spring 83 is connected between the closing plate 82 and the third fixing rod 81, and the second torsion spring 83 is sleeved on the third fixing rod 81.

The closing plate 82 is manually rotated, the second torsion spring 83 deforms, so that the closing plate 82 does not block the water outlet pipe 31 any more, the organic solvent in the charging barrel 2 is discharged through the water outlet pipe 31, then the closing plate 82 is loosened, and the closing plate 82 is driven to reversely reset to close the water outlet pipe 31 under the reset action of the second torsion spring 83, so that people do not need to block the water outlet pipe 31 by means of tools.

Referring to fig. 1, 2, 15 and 16, the device further comprises a locking mechanism 9, the locking mechanism 9 comprises a second pressing plate 91, a second spring 92 and locking rings 93, the second pressing plate 91 is slidably connected to the upper portion of the first rotating shaft 42, the second pressing plate 91 is used for limiting waste glass fibers, the second spring 92 is connected between the second pressing plate 91 and the first rotating shaft 42, four locking rings 93 are uniformly connected to the top of the second pressing plate 91 at intervals, and the locking rings 93 are in contact with the hanging rack 43.

People manually move the second pressing plate 91 upwards, the second spring 92 is compressed, the second pressing plate 91 drives the locking ring 93 to move upwards, so that the locking ring 93 is separated from the hanging frame 43, people can hang waste glass fibers on the hanging frame 43, then the second pressing plate 91 is sent out, and further the second pressing plate 91 and the locking ring 93 are driven to move downwards to reset under the reset action of the second spring 92, the second pressing plate 91 limits the waste glass fibers on the hanging frame 43, the waste glass fibers are thrown out when the hanging frame 43 is prevented from rotating, and the waste glass fibers can be taken out by repeating the operation.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (5)

1. The utility model provides a useless glass fiber top layer sizing agent soaks elimination equipment, includes chassis (1), charging basket (2) and outlet pipe (31), and chassis (1) top is connected with charging basket (2) that are used for being equipped with organic solvent, and charging basket (2) bottom right side is connected with outlet pipe (31), its characterized in that: the device also comprises a shell (3), a rotating mechanism (4) and a lifting mechanism (5), wherein the left side and the right side of the upper part of the charging barrel (2) are connected with the shell (3), the rotating mechanism (4) for fully soaking the waste glass fibers is arranged between the chassis (1) and the charging barrel (2), and the lifting mechanism (5) for taking out the waste glass fibers is arranged between the shell (3) and the rotating mechanism (4);

the rotating mechanism (4) comprises a motor (41), a first rotating shaft (42) and a hanging rack (43), the motor (41) is arranged in the middle of the top of the chassis (1), the first rotating shaft (42) is rotatably connected in the middle of the bottom of the charging basket (2), the lower end of the first rotating shaft (42) is connected with an output shaft of the motor (41) through a coupling, the hanging rack (43) for hanging waste glass fibers is connected to the lower side of the first rotating shaft (42), and the hanging rack (43) is positioned in the charging basket (2);

the lifting mechanism (5) comprises a sliding rail (51), a storage plate (52), a pull rope (53), a winding wheel (54), a second rotating shaft (55), a transmission belt (56) and a third rotating shaft (57), wherein the sliding rail (51) is connected to the inner side of the charging barrel (2) in a sliding manner, the storage plate (52) for taking out waste glass fibers is connected to the inner side of the sliding rail (51) in a rotating manner, the storage plate (52) is connected with the first rotating shaft (42) and the hanging frame (43) in a sliding manner, the upper parts in the two shells (3) are respectively connected with the second rotating shaft (55) in a rotating manner, the winding wheels (54) are respectively connected to the winding wheels (54) and the sliding rail (51), the third rotating shaft (57) is respectively connected to the upper parts in the two shells (3) in a rotating manner, the rear end of the left third rotating shaft (57) and the rear end of the left second rotating shaft (55) are respectively wound with the transmission belt (56) through the transmission wheels, and the rear end of the right third rotating shaft (57) and the right second rotating shaft (55) are respectively wound with the transmission belt (56) through the transmission wheels;

the dispersing mechanism (6) is used for dispersing waste glass fibers, the dispersing mechanism (6) comprises a first fixing rod (61), a first spring (62), a dispersing brush (63) and wedge blocks (64), the first fixing rod (61) is connected to the front side and the rear side of the top of the sliding rail (51), the dispersing brushes (63) used for dispersing the waste glass fibers are connected to the first fixing rod (61) in a sliding mode, the first spring (62) is connected between the bottoms of the dispersing brushes (63) on the front side and the first fixing rod (61) on the front side, the first spring (62) is connected between the bottoms of the dispersing brushes (63) on the rear side and the first fixing rod (61), the wedge blocks (64) are connected to the bottoms of the dispersing brushes (63), and the wedge blocks (64) are in contact with the storage plate (52).

2. The apparatus for impregnating compound elimination of surface layer of waste glass fiber as defined in claim 1, wherein: the automatic feeding device is characterized by further comprising a positioning fixing mechanism (7) for limiting the sliding rail (51), wherein the positioning fixing mechanism (7) comprises a limiting ring (71), a second fixing rod (72), a fixing block (73), a first torsion spring (74) and a first pressing plate (75), the limiting ring (71) is connected to the lower side of the inside of the feeding barrel (2), the limiting ring (71) is in contact with the sliding rail (51), four second fixing rods (72) are uniformly and at intervals connected to the top of the sliding rail (51), four fixing blocks (73) are uniformly and at intervals connected to the top of the feeding barrel (2), first pressing plates (75) for limiting the sliding rail (51) and the second fixing rods (72) are rotatably connected to the fixing blocks (73), the first pressing plates (75) are in contact with the second fixing rods (72), the first torsion spring (74) is sleeved on the fixing blocks (73), and two ends of the first torsion spring (74) are respectively connected with the fixing blocks (73) and the first pressing plates (75).

3. The apparatus for impregnating compound elimination of surface layer of waste glass fiber as defined in claim 2, wherein: still including valve opening mechanism (8), valve opening mechanism (8) are including third dead lever (81), closure plate (82) and second torsional spring (83), and charging basket (2) bottom right side is connected with third dead lever (81), and the last rotation of third dead lever (81) is connected with closure plate (82) that are used for plugging up outlet pipe (31), closure plate (82) and outlet pipe (31) bottom contact, are connected with second torsional spring (83) between closure plate (82) and third dead lever (81), and second torsional spring (83) cover is on third dead lever (81).

4. A waste glass fiber surface impregnating compound soaking and eliminating device as defined in claim 3, wherein: the novel glass fiber hanger is characterized by further comprising a locking mechanism (9) for limiting the waste glass fiber, wherein the locking mechanism (9) comprises a second pressing plate (91), a second spring (92) and a locking ring (93), the second pressing plate (91) for limiting the waste glass fiber is connected to the upper portion of the first rotating shaft (42) in a sliding mode, the second spring (92) is connected between the second pressing plate (91) and the first rotating shaft (42), four locking rings (93) are connected to the top of the second pressing plate (91) at equal intervals, and the locking rings (93) are in contact with the hanger frame (43).

5. The apparatus for impregnating compound elimination of surface layer of waste glass fiber as defined in claim 4, wherein: the novel rotary table also comprises a handle (58), and the front ends of the third rotary shafts (57) are connected with the handle (58).

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