CN112941768A - PTFE auxiliary impregnation device for manufacturing glass fiber composite felt - Google Patents

Abstract

The invention relates to a dipping device, in particular to a PTFE auxiliary dipping device for manufacturing a glass fiber composite felt. The invention provides the PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt, which is convenient to operate, even in impregnation and convenient to cut and collect. The invention provides a PTFE auxiliary impregnation device for manufacturing a glass fiber composite felt, which comprises the following components: the device comprises bottom plates, wherein a dipping box is arranged between the two bottom plates; the placing mechanism is arranged between the upper parts of the two bottom plates; the side walls of the middle parts of the two bottom plates back to one side are provided with dipping mechanisms. The placing mechanism on one side is clamped through downward movement of the clamping mechanism, the downward movement of the clamping mechanism drives the dipping mechanism to move downward, the dipping mechanism moves downward to drive the glass fiber composite felt to be dipped in the dipping box, the glass fiber composite felt is driven to rotate through rotation of the placing mechanism, and then the glass fiber composite felt roll after dipping is collected on the placing mechanism.

Description

PTFE auxiliary impregnation device for manufacturing glass fiber composite felt

Technical Field

The invention relates to a dipping device, in particular to a PTFE auxiliary dipping device for manufacturing a glass fiber composite felt.

Background

The glass fiber composite felt is made by arranging glass fiber twistless roving in a one-way parallel manner, compounding and chopping the outermost layer into glass fiber yarns or chopped felt with certain length, and sewing the glass fiber yarns or chopped felt with organic fibers. The method is mainly used for the processes of glass fiber reinforced plastic pultrusion, RTM forming, hand lay-up forming and the like, and the terminal products mainly comprise glass fiber reinforced plastic boat bodies, automobile shells, plates, profiles and the like. After the production of the glass fiber composite felt is finished, the glass fiber composite felt needs to be impregnated with resin paste to increase the corrosion resistance of the glass fiber composite felt.

However, the impregnation of the glass fiber composite mat is performed by manually brushing the resin paste on the surface of the glass fiber composite mat, which is time-consuming and labor-consuming, and causes the resin paste on the glass fiber composite mat to be uneven.

Therefore, it is urgently needed to design a PTFE auxiliary impregnation device for manufacturing a glass fiber composite felt, which is convenient to operate, even in impregnation and convenient to cut and collect, so as to solve the problems.

Disclosure of Invention

In order to overcome the problem that the resin paste is manually brushed on the surface of the glass fiber composite felt by manpower, the method is time-consuming and labor-consuming, and the resin paste on the glass fiber composite felt is not uniform. The technical problem of the invention is as follows: the PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt is convenient to operate, even in impregnation and capable of cutting and collecting conveniently.

The technical scheme is as follows: the utility model provides a fine compound felt preparation of glass is with supplementary saturating device of PTFE, includes: the device comprises bottom plates, wherein a dipping box is arranged between the two bottom plates; the placing mechanism is arranged between the upper parts of the two bottom plates; the side walls of the middle parts of the two bottom plates, which are back to one side, are provided with the dipping mechanisms; the side walls of the two bottom plates, which face away from one side, are provided with clamping mechanisms, the clamping mechanisms are matched with the dipping mechanisms, and the clamping mechanisms are matched with the placing mechanism on one side.

In a preferred embodiment of the present invention, the placement mechanism comprises: the side walls of one sides of the two bottom plates are respectively provided with a first bearing seat; the straight rotating shaft is rotatably arranged between the two first bearing seats; the first roller is arranged on the straight rotating shaft; the servo motor is arranged on one side of the dipping box; the belt transmission device is arranged between an output shaft of the servo motor and the straight rotating shaft and consists of two belt pulleys and a flat belt, one belt pulley is arranged on the output shaft of the servo motor, the other belt pulley is arranged on one side of the straight rotating shaft, and the flat belt is arranged between the two belt pulleys; and the guide rollers are symmetrically and rotatably arranged between the upper parts of the two bottom plates through the supporting rods.

In a preferred embodiment of the present invention, the dipping mechanism comprises: the side walls of the two bottom plates back to one side are provided with first guide rods; the two first guide rods are both provided with a first sliding block in a sliding manner; the second bearing seats are arranged on the two first sliding blocks; the second roller is rotatably arranged between the two second bearing blocks through a support rod; first elastic pieces are arranged between two sides of the two first sliding blocks and two sides of the two first guide rods.

In a preferred embodiment of the present invention, the chucking mechanism includes: the side walls of the two bottom plates, which face away from one side, are provided with air cylinders, and telescopic rods are arranged in the two air cylinders in a sliding manner; the first fixing rods are arranged on the back sides of the two first sliding blocks; the end parts of the telescopic rods of the two cylinders are provided with fixed blocks; the first special-shaped rods are arranged on one sides of the two fixed blocks; the upper parts of the two first special-shaped rods are both provided with a second sliding block in a sliding manner; one end of each of the two second sliding blocks is provided with a clamping block; and a second elastic piece is arranged between one side of each of the two first special-shaped rods and one side of each of the two second sliding blocks.

In a preferred embodiment of the present invention, the method further comprises: the side walls of the two bottom plates at one side back to the side are both provided with a third sliding block in a sliding way; the wedge blocks are arranged on one sides of the two third sliding blocks; a third elastic part is arranged between one side of each of the two third sliding blocks and the side wall of the back side of each of the two bottom plates; the two bottom plates are provided with second guide rods; the rotating shaft sleeves are arranged on two sides of the straight rotating shaft; the two second guide rods are provided with a first sliding block in a sliding manner, and the two first sliding blocks are connected with the two rotating shaft sleeves; the bottoms of the two fourth sliding blocks are provided with second special-shaped rods; the bottoms of the two third sliding blocks are respectively provided with a second fixed rod, and the two second fixed rods are matched with the two second special-shaped rods; fourth elastic pieces are arranged between one side of each of the two fourth sliding blocks and one side of each of the two first bearing seats; and the connecting rod assembly is rotatably arranged between the two rotating shaft sleeves.

In a preferred embodiment of the present invention, the method further comprises: the bottom plates are provided with the sliding groove plates; the fifth sliding blocks are arranged in the two sliding groove plates in a sliding manner; the bottom plate is rotatably provided with the screw rods; the nuts are arranged on the two screw rods, and the bottoms of the nuts on the same side are connected with the top of the fifth sliding block; the pressing rollers are rotatably arranged between the tops of the two nuts through supporting rods; the first handle, two lead screw one end all are provided with first handle.

In a preferred embodiment of the present invention, the method further comprises: a third guide rod is arranged between one sides of the two bottom plates; the sixth sliding blocks are arranged on two sides of the third guide rod in a sliding manner; a cutting knife is arranged between the two sixth sliding blocks; a second handle is arranged between the upper parts of the two sixth sliding blocks; and fifth elastic pieces are arranged between one sides of the two sixth sliding blocks and the two sides of the third guide rod.

In a preferred embodiment of the present invention, the first handle is provided with a groove.

Compared with the prior art, the invention has the following advantages: 1. the placing mechanism on one side is clamped through downward movement of the clamping mechanism, the downward movement of the clamping mechanism drives the dipping mechanism to move downward, the dipping mechanism moves downward to drive the glass fiber composite felt to be dipped in the dipping box, the glass fiber composite felt is driven to rotate through rotation of the placing mechanism, and then the glass fiber composite felt roll after dipping is collected on the placing mechanism.

2. The connecting rod assembly can clamp the glass fiber composite felt collected on the first roller towards the inner rotation, and scattering in the collecting process is prevented.

3. The position of the pressing roller can be adjusted by rotating the first handle according to the thickness of the glass fiber composite felt, and redundant resin paste on the glass fiber composite felt can be pressed out through the pressing roller.

4. The cutting knife can cut the glass fiber composite felt, and more convenient workers collect the glass fiber composite felt.

Drawings

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

Fig. 2 is a schematic perspective view of the placement mechanism of the present invention.

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

Fig. 4 is a schematic perspective view of the chucking mechanism of the present invention.

Fig. 5 is a schematic perspective view of a first embodiment of the present invention.

Fig. 6 is a schematic perspective view of a second embodiment of the present invention.

Fig. 7 is a perspective view of a third embodiment of the present invention.

Wherein the figures include the following reference numerals: 1. a base plate, 2, a dipping box, 3, a placing mechanism, 31, a first bearing seat, 32, a straight rotating shaft, 33, a first roller, 34, a servo motor, 35, a belt conveyer, 36, a guide roller, 4, a dipping mechanism, 41, a first guide rod, 42, a first slide block, 43, a second bearing seat, 44, a second roller, 45, a first elastic part, 5, a clamping mechanism, 51, a cylinder, 52, a first fixing rod, 53, a fixing block, 54, a first special-shaped rod, 55, a second slide block, 56, a clamping block, 57, a second elastic part, 6, a third slide block, 7, a wedge block, 8, a third elastic part, 9, a second guide rod, 10, a rotating shaft sleeve, 11, a fourth slide block, 12, a second special-shaped rod, 13, a second fixing rod, 14, a fourth elastic part, 15, a connecting rod assembly, 16, a chute plate, 17, a fifth slide block, 18, a lead screw, 19, a nut, 20, a lead screw, a screw, the device comprises a pressing roller 21, a first handle 22, a third guide rod 23, a sixth sliding block 24, a cutting knife 25, a second handle 26 and a fifth elastic piece.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

As shown in figure 1, the PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt comprises base plates 1, an impregnating tank 2, a placing mechanism 3, an impregnating mechanism 4 and a clamping mechanism 5, wherein the impregnating tank 2 is arranged between the two base plates 1, the placing mechanism 3 is arranged between the upper parts of the two base plates 1, the impregnating mechanism 4 is arranged on the side wall of one side of the middle parts of the two base plates 1 facing away from each other, the clamping mechanism 5 is arranged on the side wall of one side of the two base plates 1 facing away from each other, the clamping mechanism 5 is matched with the impregnating mechanism 4, and the clamping mechanism 5 is matched with the placing mechanism 3 on one side.

When the glass fiber composite felt needs to be impregnated, a worker takes down the placing mechanism 3 on one side, winds the glass fiber composite felt to be impregnated around the placing mechanism 3, puts the placing mechanism 3 back after winding, pulls one end of the glass fiber composite felt out of the impregnating mechanism 4 and winds the placing mechanism 3 on the other side, adds a certain amount of resin paste into the impregnating box 2 after winding, then controls the clamping mechanism 5 to move downwards, the clamping mechanism 5 moves downwards to clamp the placing mechanism 3 on one side, the clamping mechanism 5 moves downwards to drive the impregnating mechanism 4 to move downwards, the impregnating mechanism 4 moves downwards to drive the glass fiber composite felt to be impregnated in the impregnating box 2, at the moment, the worker starts the placing mechanism 3, the placing mechanism 3 rotates to drive the glass fiber composite felt to rotate, and then the impregnated glass fiber composite felt is wound on the placing mechanism 3 to be collected, treat that the fine compound felt of glass soaks the completion back, the staff closes and places mechanism 3 stall, and the staff controls chucking mechanism 5 rebound again afterwards, and chucking mechanism 5 rebound is loosened the placing mechanism 3 of one side, and at this moment the staff takes off placing mechanism 3, will need the fine compound felt winding of glass that soaks next time on placing mechanism 3, and chucking mechanism 5 rebound drives dipping mechanism 4 rebound and resets, this device simple structure, the operation of being convenient for.

Example 2

As shown in fig. 2, fig. 3 and fig. 4, on the basis of embodiment 1, the placing mechanism 3 comprises a first bearing seat 31 and a straight rotating shaft 32, first cylinder 33, servo motor 34, belt conveyer 35 and guide roll 36, all be provided with first bearing frame 31 on the left lateral wall of two bottom plates 1, the rotary type is provided with straight pivot 32 between two first bearing frames 31, be provided with first cylinder 33 on the straight pivot 32, be provided with servo motor 34 on the anterior left lateral wall of flooding case 2, be provided with belt conveyer 35 between servo motor 34 output shaft and the straight pivot 32, belt conveyer 35 comprises two belt pulleys and a flat belt, servo motor 34 output shaft is provided with a belt pulley, straight pivot 32 front side is provided with another belt pulley, be provided with the flat belt between two belt pulleys, be provided with guide roll 36 through the branch symmetry rotary type between two bottom plate 1 upper portions.

When the glass fiber composite felt needs to be impregnated, a worker takes down the right guide roller 36, winds the glass fiber composite felt to be impregnated on the right guide roller 36, puts back the right guide roller 36 after winding, pulls out one end of the glass fiber composite felt by the worker to wind the impregnation mechanism 4 and wind the same on the first roller 33, adds a certain amount of resin paste into the impregnation box 2 after winding, then controls the clamping mechanism 5 to move downwards, controls the clamping mechanism 5 to move downwards to clamp the right guide roller 36, drives the impregnation mechanism 4 to move downwards by the clamping mechanism 5 moving downwards, drives the glass fiber composite felt to be impregnated in the impregnation box 2 by the impregnation mechanism 4 moving downwards, starts the servo motor 34 at the moment, drives the straight rotating shaft 32 to rotate by the servo motor 34 through the belt conveyer 35, the straight rotating shaft 32 rotates to drive the first roller 33 to rotate, the first roller 33 rotates to drive the glass fiber composite felt to rotate, the glass fiber composite felt moves leftwards to drive the left guide roller 36 to rotate, the first roller 33 rotates to collect the glass fiber composite felt after impregnation is completed, a worker closes the servo motor 34 after the impregnation of the glass fiber composite felt is completed, the servo motor 34 stops rotating to drive the straight rotating shaft 32 to stop rotating through the belt conveying device 35, the straight rotating shaft 32 stops rotating to drive the first roller 33 to stop rotating, then the worker controls the clamping mechanism 5 to move upwards, the clamping mechanism 5 moves upwards to loosen the right guide roller 36, the worker takes down the guide roller 36 at the moment, the next glass fiber composite felt to be impregnated is wound on the guide roller 36, and the clamping mechanism 5 moves upwards to drive the impregnation mechanism 4 to move upwards to reset. This device simple structure can collect the fine compound felt of glass of completion of flooding.

The dipping mechanism 4 comprises a first guide rod 41, first sliding blocks 42, second bearing seats 43, a second roller 44 and first elastic pieces 45, wherein the side walls of the two bottom plates 1, which are back to one side, are respectively provided with the first guide rod 41, the two first guide rods 41 are respectively provided with the first sliding blocks 42 in a sliding manner, the two first sliding blocks 42 are respectively provided with the second bearing seats 43, the second roller 44 is respectively arranged between the two second bearing seats 43 in a rotating manner through a supporting rod, and the first elastic pieces 45 are respectively arranged between the left side and the right side of the two first sliding blocks 42 and the left side and the right side of the two first guide rods 41.

After a certain amount of resin paste is added into the impregnation tank 2 by an operator, the operator controls the clamping mechanism 5 to move downwards, the clamping mechanism 5 moves downwards to drive the first sliding block 42 to slide downwards on the first guide rod 41, the first elastic part 45 is compressed, the first sliding block 42 slides downwards to drive the second roller 44 to move downwards through the second bearing seat 43, the second roller 44 moves downwards to enable the glass fiber composite felt to be soaked in the impregnation tank 2 for impregnation, then the operator starts the servo motor 34 to enable the first roller 33 to rotate to collect the impregnated glass fiber composite felt, after the impregnation of the glass fiber composite felt is completed, the operator closes the servo motor 34 to stop rotating, the first roller 33 stops rotating along with the first roller 33, then the operator controls the clamping mechanism 5 to move upwards, the clamping mechanism 5 moves upwards to drive the first sliding block 42 to slide upwards on the first guide rod 41 for resetting, the first elastic element 45 is reset, and the first sliding block 42 slides upwards to drive the second roller 44 to move upwards through the second bearing seat 43. This device simple structure can soak in the impregnation box 2 to the compound felt of glass fibre and carry out the flooding.

Chucking mechanism 5 is including cylinder 51, first dead lever 52, fixed block 53, first dysmorphism pole 54, second slider 55, fixture block 56 and second elastic component 57, all be provided with cylinder 51 on the lateral wall of two bottom plate 1 right parts dorsad one side, all be provided with the telescopic link in two cylinders 51, two first sliders 42 dorsad one side all are provided with first dead lever 52, two cylinder 51's telescopic link tip all is provided with fixed block 53, two fixed block 53 left sides all are provided with first dysmorphism pole 54, two first dysmorphism pole 54 upper portions all slidingtype are provided with second slider 55, two second slider 55 right-hand members all are provided with fixture block 56, all be provided with second elastic component 57 between two first dysmorphism pole 54 one sides and two second slider 55 one sides.

After a certain amount of resin paste is added into the impregnation tank 2 by an operator, the operator then controls the air cylinder 51, the telescopic rod of the air cylinder 51 is shortened to drive the first special-shaped rod 54 to move downwards by driving the fixing block 53, the first special-shaped rod 54 moves downwards to drive the second sliding block 55 to move downwards to be in contact with the front side and the rear side of the right-side guide roller 36, at this time, the first special-shaped rod 54 moves downwards on the second sliding block 55, the second elastic part 57 is compressed to limit the right-side guide roller 36, the first special-shaped rod 54 moves downwards to drive the first sliding block 42 to slide downwards on the first guide rod 41 through the first fixing rod 52, the second roller 44 moves downwards to soak the glass fiber composite felt in the impregnation tank 2, after the impregnation of the glass fiber composite felt is completed, the operator closes the servo motor 34 to stop rotating, and the first roller 33 stops rotating therewith, then the worker controls the air cylinder 51 again, the telescopic rod of the air cylinder 51 extends to drive the first special-shaped rod 54 to move upwards by driving the fixing block 53, the first special-shaped rod 54 moves upwards to drive the second sliding block 55 to move upwards to be separated from the front side and the rear side of the right guide roller 36, the second elastic part 57 is driven to reset, and the second sliding block 55 slides on the first special-shaped rod 54 and drives the first sliding block 42 to slide upwards on the first guide rod 41 to reset through the first fixing rod 52. This device simple structure can carry on spacingly to the guide roll 36 on right side.

Example 3

As shown in fig. 5, fig. 6 and fig. 7, further comprises a third slider 6, a wedge 7, a third elastic member 8, a second guide rod 9, a rotation shaft sleeve 10, a fourth slider 11, a second special-shaped rod 12, a second fixing rod 13, a fourth elastic member 14 and a connecting rod assembly 15, wherein the third slider 6 is slidably arranged on the side wall of one side of each of the two base plates 1 facing away from the side wall, the wedge 7 is arranged on the right side of each of the two third sliders 6, the third elastic member 8 is arranged between the side wall of one side of each of the two third sliders 6 and the side wall of one side of each of the two base plates 1 facing away from the side wall, the second guide rod 9 is arranged on the left side of each of the two base plates 1, the rotation shaft sleeves 10 are arranged on the front and back sides of the straight rotation shaft 32, the fourth sliders 11 are slidably arranged on each of the two second guide rods 9, the two fourth sliders 11 are connected with the two rotation shaft sleeves 10, the second, two second fixed rods 13 are matched with two second special-shaped rods 12, fourth elastic parts 14 are arranged between one sides of two fourth sliding blocks 11 and one sides of two first bearing seats 31, and a connecting rod assembly 15 is rotatably arranged between the two rotating shaft sleeves 10.

The first sliding block 42 slides downwards to press the wedge block 7 to move leftwards, the wedge block 7 moves leftwards to drive the third sliding block 6 to slide leftwards on the side wall of the bottom plate 1, the third elastic element 8 is compressed, the third sliding block 6 slides leftwards to drive the second fixed rod 13 to press the second special-shaped rod 12 to move backwards, the second special-shaped rod 12 moves backwards to drive the fourth sliding block 11 to slide backwards on the second guide rod 9, the fourth elastic element 14 is compressed, the fourth sliding block 11 slides backwards to drive the rotating shaft sleeve 10 to move backwards, the rotating shaft sleeve 10 moves backwards to drive the connecting rod assembly 15 to rotate inwards to clamp the glass fiber composite felt collected on the first roller 33, when the first sliding block 42 slides upwards to no longer press the wedge block 7, the third elastic element 8 resets to drive the third sliding block 6 to slide rightwards to reset on the side wall of the bottom plate 1, the third sliding block 6 slides rightwards to drive the wedge block 7 to reset, the third sliding block 6 slides rightwards to slide the second fixed rod 13 to no, the fourth elastic element 14 resets to drive the fourth sliding block 11 to slide oppositely on the second guide rod 9, the fourth sliding block 11 slides oppositely to drive the rotating shaft sleeve 10 to move oppositely, the rotating shaft sleeve 10 moves oppositely to drive the connecting rod assembly 15 to rotate outwards to loosen the glass fiber composite felt collected on the first roller 33, and the fourth sliding block 11 slides oppositely to drive the second special-shaped rod 12 to move oppositely to reset. This device simple structure can press from both sides tight the fine compound felt of glass of collecting on first cylinder 33, prevents to scatter at the in-process of collecting.

Still including the spout board 16, the fifth slider 17, the lead screw 18, the nut 19, compression roller 20 and first handle 21, 1 left side of bottom plate all is provided with the spout board 16, equal slidingtype is provided with the fifth slider 17 in two spout boards 16, 1 left side of bottom plate equal rotary type is provided with lead screw 18, all be provided with nut 19 on two lead screws 18, 19 bottoms of nut with one side are connected with 17 tops of fifth slider, be provided with compression roller 20 through the branch rotary type between 19 tops of two nuts, 18 left ends of two lead screws all are provided with first handle 21.

The first roller 33 rotates in the process of collecting the glass fiber composite felt, a worker rotates the first handle 21, the first handle 21 rotates to drive the screw rod 18 to rotate, the screw rod 18 rotates to drive the nut 19 to move rightwards, the nut 19 moves rightwards to drive the fifth sliding block 17 to slide rightwards in the sliding chute plate 16, the nut 19 moves rightwards to drive the pressing roller 20 to move rightwards, the first roller 33 rotates to drive the glass fiber composite felt to move, and the glass fiber composite felt moves to press out redundant resin paste through the pressing roller 20. This device simple structure can fine compound felt thickness of glass adjust the position of pinch roller 20, and pinch roller 20 can be pasted the extrusion with the unnecessary resin on the fine compound felt of glass.

The cutting device is characterized by further comprising a third guide rod 22, a sixth sliding block 23, a cutting knife 24, a second handle 25 and a fifth elastic piece 26, wherein the third guide rod 22 is arranged between the left sides of the two bottom plates 1, the sixth sliding blocks 23 are arranged on the front side and the rear side of the third guide rod 22 in a sliding mode, the cutting knife 24 is arranged between the two sixth sliding blocks 23, the second handle 25 is arranged between the upper portions of the two sixth sliding blocks 23, and the fifth elastic piece 26 is arranged between one side of each of the two sixth sliding blocks 23 and the two sides of the third guide rod 22.

After collecting a certain amount of the impregnated glass fiber composite felt on the first roller 33, the worker closes the servo motor 34 to stop rotating, the first roller 33 stops rotating along with the first roller, at this time, the worker presses the second handle 25 to move downwards, the second handle 25 moves downwards to drive the sixth sliding block 23 to slide downwards on the third guide rod 22, the fifth elastic part 26 is compressed, the sixth sliding block 23 slides downwards to drive the cutting knife 24 to move downwards to cut the glass fiber composite felt, after the cutting is completed, the worker loosens the second handle 25, the fifth elastic part 26 resets to drive the sixth sliding block 23 to slide upwards on the third guide rod 22, the sixth sliding block 23 slides upwards to drive the cutting knife 24 to move upwards to reset, and then the worker collects the glass fiber composite felt on the first roller 33. This device simple structure can cut the fine compound felt of glass, makes things convenient for the staff to collect more.

Be provided with the recess on the first handle 21, can play the antiskid effect, make things convenient for the staff to rotate first handle 21 more.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (8)

1. The utility model provides a fine compound felt preparation of glass is with supplementary saturating device of PTFE, characterized by includes:

the device comprises bottom plates (1), wherein a dipping box (2) is arranged between the two bottom plates (1);

the placing mechanism (3) is arranged between the upper parts of the two bottom plates (1);

the side walls of the middle parts of the two bottom plates (1) back to one side are provided with the dipping mechanisms (4);

the side walls of the two bottom plates (1) back to one side are provided with clamping mechanisms (5), the clamping mechanisms (5) are matched with the dipping mechanisms (4), and the clamping mechanisms (5) are matched with the placing mechanism (3) on one side.

2. The PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt according to claim 1, wherein the placing mechanism (3) comprises:

the side walls of one side of each of the two bottom plates (1) are provided with a first bearing seat (31);

a straight rotating shaft (32), wherein the straight rotating shaft (32) is rotatably arranged between the two first bearing seats (31);

the first roller (33) is arranged on the straight rotating shaft (32);

a servo motor (34), wherein the servo motor (34) is arranged on one side of the dipping box (2);

the belt transmission device (35) is arranged between an output shaft of the servo motor (34) and the straight rotating shaft (32), the belt transmission device (35) is composed of two belt pulleys and a flat belt, the output shaft of the servo motor (34) is provided with one belt pulley, one side of the straight rotating shaft (32) is provided with the other belt pulley, and the flat belt is arranged between the two belt pulleys;

the guide rollers (36) are symmetrically and rotatably arranged between the upper parts of the two bottom plates (1) through supporting rods.

3. The PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt according to claim 2, wherein the impregnating mechanism (4) comprises:

the side walls of the two bottom plates (1) back to one side are provided with first guide rods (41);

the first sliding blocks (42) are arranged on the two first guide rods (41) in a sliding manner;

the second bearing seats (43) are arranged on the two first sliding blocks (42);

the second roller (44) is rotatably arranged between the two second bearing blocks (43) through a support rod;

first elastic pieces (45) are arranged between two sides of the two first sliding blocks (42) and two sides of the two first guide rods (41).

4. The PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt according to claim 3, wherein the clamping mechanism (5) comprises:

the side walls of the two bottom plates (1) back to one side are respectively provided with an air cylinder (51), and telescopic rods are arranged in the two air cylinders (51) in a sliding manner;

the first fixing rods (52) are arranged on one sides of the two first sliding blocks (42) back to each other;

the end parts of the telescopic rods of the two cylinders (51) are provided with fixed blocks (53);

the first special-shaped rod (54) is arranged on one side of each of the two fixing blocks (53);

the upper parts of the two first special-shaped rods (54) are both provided with a second sliding block (55) in a sliding way;

the fixture blocks (56) are arranged at one ends of the two second sliding blocks (55);

and second elastic pieces (57) are arranged between one sides of the two first special-shaped rods (54) and one sides of the two second sliding blocks (55).

5. The PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt according to claim 4, which is characterized by further comprising:

the third sliding blocks (6) are arranged on the side walls of the two base plates (1) on the back side in a sliding manner;

the wedge-shaped blocks (7) are arranged on one sides of the two third sliding blocks (6);

a third elastic part (8), wherein the third elastic part (8) is arranged between one side of the two third sliding blocks (6) and the side wall of one side of the two bottom plates (1) back to each other;

the two bottom plates (1) are provided with second guide rods (9);

the rotating shaft sleeve (10) is arranged on each of two sides of the straight rotating shaft (32);

the fourth sliding blocks (11) are arranged on the two second guide rods (9) in a sliding mode, and the two fourth sliding blocks (11) are connected with the two rotating shaft sleeves (10);

the bottoms of the two fourth sliding blocks (11) are respectively provided with a second special-shaped rod (12);

the bottoms of the two third sliding blocks (6) are respectively provided with a second fixed rod (13), and the two second fixed rods (13) are matched with the two second special-shaped rods (12);

fourth elastic pieces (14), wherein the fourth elastic pieces (14) are arranged between one side of each of the two fourth sliding blocks (11) and one side of each of the two first bearing seats (31);

the connecting rod assembly (15) is rotatably arranged between the two rotating shaft sleeves (10).

6. The PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt according to claim 5, which is characterized by further comprising:

the bottom plate (1) is provided with a sliding groove plate (16);

the fifth sliding blocks (17) are arranged in the two sliding groove plates (16) in a sliding manner;

the screw rods (18) are rotatably arranged on the base plate (1);

the nuts (19) are arranged on the two screw rods (18), and the bottoms of the nuts (19) on the same side are connected with the top of the fifth sliding block (17);

the pressing rollers (20) are rotatably arranged between the tops of the two nuts (19) through supporting rods;

the first handle (21) and one end of each of the two screw rods (18) are provided with the first handle (21).

7. The PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt according to claim 6, which is characterized by further comprising:

a third guide rod (22), wherein the third guide rod (22) is arranged between one sides of the two bottom plates (1);

the sixth sliding block (23) is arranged on each of two sides of the third guide rod (22) in a sliding manner;

a cutting knife (24) is arranged between the two sixth sliding blocks (23);

a second handle (25), wherein the second handle (25) is arranged between the upper parts of the two sixth sliding blocks (23);

and fifth elastic pieces (26) are arranged between one sides of the two sixth sliding blocks (23) and the two sides of the third guide rod (22).

8. The PTFE auxiliary impregnating device for manufacturing the glass fiber composite felt according to claim 6, wherein the first handle (21) is provided with a groove.

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