CN112919191A - Smooth winding device for glass fiber gridding cloth - Google Patents

Abstract

The invention relates to a winding device, in particular to a glass fiber mesh fabric flattening winding device. The invention provides a glass fiber mesh fabric flattening and winding device which is high in mesh fabric flattening and winding efficiency and convenient in material returning. A glass fiber gridding cloth flattening and winding device comprises: the supporting platform is arranged on the base; the rotating mechanism is arranged on the supporting table and matched with the base; the base of the extrusion mechanism is provided with the extrusion mechanism, and the extrusion mechanism is matched with the rotating mechanism. According to the invention, through the cooperation of the rotating mechanism, the extruding mechanism and the pressing mechanism, the effect of quickly and flatly winding the gridding cloth is achieved, the extruding mechanism conveys the gridding cloth rightwards, the pressing mechanism presses the gridding cloth flatly, and then the rotating mechanism winds the gridding cloth on the roll core, so that the efficiency of winding the gridding cloth is improved, and through the cooperation of the clamping mechanism and the blanking mechanism, the effect of fixing the roll core is achieved.

Description

Smooth winding device for glass fiber gridding cloth

Technical Field

The invention relates to a winding device, in particular to a glass fiber mesh fabric flattening winding device.

Background

At present, some small-sized private enterprises still use manual winding of the mesh cloth, so that the winding speed of the mesh cloth is low, the mesh cloth is easy to wrinkle in the winding process, and the rolled mesh cloth roll is not too close, so that the overall working efficiency is low.

Publication number is CN208378007U, discloses a no tension glass fiber net check cloth winding and unwinding mechanism, includes: the device comprises a first unwinding mechanism, a second unwinding mechanism, a transition support mechanism, a first winding mechanism and a second winding mechanism, wherein the first unwinding mechanism is provided with a first unwinding air expansion mandrel, release paper is wound on the first unwinding air expansion mandrel, the second unwinding mechanism is provided with a second unwinding air expansion mandrel and a driving unwinding motor, glass fiber mesh cloth is wound on the second unwinding air expansion mandrel, the transition support mechanism is provided with at least two guide support rollers, and the release paper is pressed on the roller surfaces of the guide support rollers; first winding mechanism is provided with first rolling physiosis dabber and first gear motor, and second winding mechanism is provided with second rolling physiosis dabber and second gear motor, and this receipts unwinding mechanism has realized the automatic operation that glass fiber net check cloth tension-free was received and is unreeled, and the guarantee glass fiber net check cloth longitude and latitude is complete, is showing to improve and receives and unreels efficiency, satisfies the industrialization production needs, and nevertheless this equipment material returned operation is comparatively complicated.

Therefore, there is a need to research and develop a glass fiber mesh fabric flattening and winding device which can improve flattening and winding efficiency and has simple material return.

Disclosure of Invention

In order to overcome the defects of lower smooth winding efficiency and more inconvenient material return of the mesh cloth, the invention has the technical problems that: the glass fiber mesh fabric flattening and winding device is high in mesh fabric flattening and winding efficiency and convenient in material returning.

The technical implementation scheme of the invention is as follows: a glass fiber gridding cloth flattening and winding device comprises:

the supporting table is arranged on the base;

the rotating mechanism is arranged on the supporting table and matched with the base;

the base of the extrusion mechanism is provided with the extrusion mechanism, and the extrusion mechanism is matched with the rotating mechanism.

Optionally, the rotation mechanism comprises:

the motor is arranged on the supporting platform;

the base is rotatably provided with a first transmission shaft, and the first transmission shaft is connected with an output shaft of the motor;

the first transmission shaft is provided with a turntable.

Optionally, the pressing mechanism comprises:

the base is provided with a first bracket;

the first support is rotatably provided with two first transmission shafts;

the belt is wound between the second transmission shaft and the first transmission shaft on one side;

the second transmission shaft is provided with a roller;

the second transmission shaft is provided with a full gear, and the two full gears are meshed;

and two cams are arranged on the second transmission shaft on one side of the cam.

Optionally, the method further includes:

the first support is provided with a pressing mechanism, and the pressing mechanism is matched with the cam;

the mechanism pushes down including:

the first bracket is provided with two second brackets;

the two second supports are connected with lower pressure rods in a sliding mode, and the lower pressure rods are matched with the cam;

the lower pressure rod is wound with two first compression springs which are connected with the first bracket and the lower pressure rod;

the first support is provided with two telescopic rods;

the two telescopic rods are connected with the lower pressing plate, and the lower pressing plate is matched with the lower pressing rod;

the first clamping block is arranged on the second bracket in a sliding mode and matched with the lower pressing rod;

and the second compression spring is wound on the first clamping block and connected with the second bracket and the first clamping block.

Optionally, the method further includes:

the clamping mechanism is arranged on the rotating mechanism;

the chucking mechanism includes:

the first transmission shaft is provided with a first transmission block, and the first transmission block is connected with the first transmission shaft in a sliding mode;

the third compression springs are wound on the moving block and are connected with the rotary table and the moving block;

the first transmission shaft is provided with a first transmission block;

the sliding rod is provided with a second clamping block in a sliding mode, and the second clamping block is matched with the first transmission shaft;

and a fourth compression spring is connected between the second clamping block and the sliding rod.

Optionally, the method further includes:

the blanking mechanism is arranged on the base and matched with the clamping mechanism;

unloading mechanism including:

the base is provided with a third bracket;

the third fixture block is arranged on the third bracket in a sliding mode and matched with the moving block;

and a fifth compression spring is wound on the third clamping block and connected with the third support and the third clamping block.

Optionally, the method further includes:

the material returning mechanism is arranged on the base and matched with the blanking mechanism, the extruding mechanism and the pressing mechanism.

Optionally, the material returning mechanism comprises:

the first bracket is provided with two first brackets;

the base is provided with two fifth brackets;

the rotating rods are rotatably connected to the two fifth brackets and are matched with the third clamping blocks;

the torsion spring is wound on the rotating rod and connected with the rotating rod and the fifth bracket;

the pull rod is connected with the two fourth supports in a sliding mode, the pull rod is connected with the rotating rod in a sliding mode, and the pull rod is matched with the first clamping block.

The invention has the following advantages:

1. according to the invention, the effect of quickly and flatly winding the grid cloth is achieved through the matching of the rotating mechanism, the extruding mechanism and the pressing mechanism, the extruding mechanism conveys the grid cloth to the right, the pressing mechanism presses the grid cloth flatly, and then the rotating mechanism winds the grid cloth on the winding core, so that the efficiency of winding the grid cloth is improved.

2. According to the invention, the effect of fixing the winding core is achieved through the matching of the clamping mechanism and the blanking mechanism, the position of the winding core is easy to move when the winding core rotates at a high speed for a long time, and the clamping mechanism prevents the winding core from falling off the rotating mechanism in the rotating process.

3. According to the automatic material returning device, the automatic material returning effect is achieved through the material returning mechanism, when the grid cloth is rolled to a certain degree, the material returning mechanism can automatically trigger the material discharging mechanism and the pressing mechanism, so that the pressing mechanism does not press the grid cloth any more, the clamping mechanism does not fix the roll core any more, the step of manually operating material returning is omitted, and the operation of the device is simpler.

Drawings

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

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

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

Fig. 4 is a schematic perspective view of a first part of the pressing mechanism of the present invention.

Fig. 5 is a partially enlarged perspective view of fig. a of the present invention.

Fig. 6 is a schematic perspective view of a second part of the pressing mechanism of the present invention.

Fig. 7 is a perspective view of a first part of the chucking mechanism of the present invention.

Fig. 8 is a perspective view of a second part of the chucking mechanism of the present invention.

Fig. 9 is a partially enlarged perspective view of the present invention shown in fig. B.

Fig. 10 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 11 is a schematic perspective view of the material returning mechanism of the present invention.

Number designation in the figures: 1-a base, 2-a support table, 3-a rotating mechanism, 31-a motor, 32-a first transmission shaft, 33-a rotating disc, 4-an extruding mechanism, 41-a first bracket, 42-a second transmission shaft, 43-a belt, 44-a roller, 45-a full gear, 46-a cam, 5-a pressing mechanism, 51-a second bracket, 52-a pressing plate, 53-a pressing rod, 54-a first compression spring, 55-a telescopic rod, 56-a first clamping block, 57-a second compression spring, 6-a clamping mechanism, 61-a moving block, 62-a third compression spring, 63-a sliding rod, 64-a second clamping block, 65-a fourth compression spring, 7-a blanking mechanism, 71-a third bracket, 72-a third clamping block, 73-a fifth compression spring, 8-a material returning mechanism, 81-a fourth support, 82-a fifth support, 83-a rotating rod, 84-a torsion spring and 85-a pull rod.

Detailed Description

The following further describes the technical solution with reference to specific embodiments, and it should be noted that: the words upper, lower, left, right, and the like used herein to indicate orientation are merely for the location of the illustrated structure in the corresponding figures. The serial numbers of the parts are themselves numbered herein, for example: first, second, etc. are used solely to distinguish one from another as to objects described herein, and do not have any sequential or technical meaning. The application states that: the connection and coupling, unless otherwise indicated, include both direct and indirect connections (couplings).

Example 1

The utility model provides a smooth take-up device of glass fiber net check cloth, as shown in figure 1, including base 1, a supporting bench 2, rotary mechanism 3 and extrusion mechanism 4, 1 upper portion rear sides of base are equipped with a supporting bench 2, and a supporting bench 2 top side is equipped with rotary mechanism 3, and rotary mechanism 3 cooperates with base 1, and 1 left sides of base are equipped with extrusion mechanism 4, and extrusion mechanism 4 cooperates with rotary mechanism 3.

When people manually wind the glass fiber gridding cloth, the working efficiency is low, the invention helps people improve the efficiency of winding the gridding cloth, firstly, a winding core is arranged on a rotating mechanism 3, the gridding cloth passes through an extrusion mechanism 4, after one end of the gridding cloth is fixed on the winding core, the rotating mechanism 3 is started, the rotating mechanism 3 drives the extrusion mechanism 4 to operate, the extrusion mechanism 4 extrudes the gridding cloth and transports the gridding cloth to the right, then the rotary mechanism 3 winds the gridding cloth on the winding core, after the winding is finished, the rotating mechanism 3 is closed, after the extrusion mechanism 4 stops operating, the winding core is taken down, the wound gridding cloth can be obtained, and when the equipment is used again, the steps are repeated.

Example 2

Based on embodiment 1, as shown in fig. 2 and 3, the rotating mechanism 3 includes a motor 31, a first transmission shaft 32 and a turntable 33, the motor 31 is installed on the top of the supporting table 2, the first transmission shaft 32 is rotatably installed on the upper portion of the base 1, the first transmission shaft 32 is connected with an output shaft of the motor 31, and the turntable 33 is installed on the rear portion of the first transmission shaft 32.

At first with roll up the core and install to first transmission shaft 32 on with the cooperation of carousel 33, people fix the one end of net cloth back on rolling up the core, open motor 31, motor 31 output shaft drives first transmission shaft 32 and rotates, first transmission shaft 32 drives carousel 33 and rotates to roll up the core and rotate, pivoted roll up core winding net cloth, net cloth is convoluteed and is accomplished the back, close motor 31, make roll up core stall back, from first transmission shaft 32 take off roll up the core can, when using this equipment again, repeat above-mentioned step.

The extruding mechanism 4 comprises a first support 41, a second transmission shaft 42, a belt 43, rollers 44, a full gear 45 and cams 46, the first support 41 is arranged on the left side of the base 1, the two second transmission shafts 42 are rotatably arranged on the top of the first support 41, the belt 43 is wound between the second transmission shaft 42 on the upper side and the first transmission shaft 32, the rollers 44 are arranged in the middle of the second transmission shaft 42, the full gear 45 is arranged on the rear portion of the second transmission shaft 42, the two full gears 45 are meshed, and the cams 46 are arranged on the front side and the rear side of the second transmission shaft 42 on the lower side.

People first pass the net cloth between two gyro wheels 44 from left to right, after opening motor 31, first transmission shaft 32 drives belt 43 and rotates, belt 43 makes the second transmission shaft 42 of upside rotate, the second transmission shaft 42 of upside drives the full gear 45 of upside and rotates, because two full gears 45 mesh, thereby the full gear 45 of downside rotates, full gear 45 of downside drives the second transmission shaft 42 of downside and rotates, second transmission shaft 42 of downside drives cam 46 and rotates, second transmission shaft 42 drives gyro wheel 44 and rotates, because two full gears 45 rotate opposite direction, finally make two gyro wheels 44 relative rotation, because of frictional force reason, two gyro wheels 44 transport the net cloth right, the effect of automatic net cloth that transports has been realized, after closing motor 31, make gyro wheel 44 stall, when using this equipment once more, repeat the above-mentioned step.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 4, 5, 6, 7, 8, 9, 10 and 11, the pressing device 5 is further included, the pressing device 5 is disposed on the upper portion of the first bracket 41, the pressing device 5 is engaged with the cam 46, the pressing device 5 includes a second bracket 51, a pressing plate 52, a pressing rod 53, a first compression spring 54, an expansion link 55, a first latch 56 and a second compression spring 57, the second bracket 51 is disposed on both front and rear sides of the upper portion of the first bracket 41, the pressing rod 53 is slidably connected to the right portion of the two second brackets 51, the pressing rod 53 is engaged with the cam 46, the upper portion of the pressing rod 53 is wound with the two first compression springs 54, the first compression spring 54 is connected to the first bracket 41 and the pressing rod 53, the upper right portion of the first bracket 41 is provided with the two expansion links 55, the top portions of the two expansion links 55 are connected to the pressing plate 52, the pressing plate 52 is engaged with the pressing rod 53, a first latch 56 is slidably disposed at the right portion of the second bracket 51, the first latch 56 is engaged with the lower pressing rod 53, a second compression spring 57 is wound around the front portion of the first latch 56, and the second compression spring 57 is connected with the second bracket 51 and the first latch 56.

When the mesh cloth is placed, so that the mesh cloth is positioned below the lower pressing plate 52, the cam 46 rotates, and when the convex surface of the cam 46 is matched with the lower pressing rod 53, the cam 46 pushes the lower pressing rod 53 to move downwards, the first compression spring 54 compresses, when the lower pressing rod 53 is matched with the lower pressing plate 52, the lower pressing rod 53 pushes the lower pressing plate 52 to move downwards, the telescopic rod 55 compresses, so that the lower pressing plate 52 is matched with the mesh cloth, meanwhile, because the lower pressing rod 53 is matched with the first clamping block 56, the convex surface of the lower pressing rod 53 pushes the first clamping block 56 to move inwards, the second compression spring 57 compresses, when the convex surface of the lower pressing rod 53 is not matched with the first clamping block 56, the lower pressing rod 53 stops pushing the first clamping block 56, the second compression spring 57 restores the initial state, the second compression spring 57 drives the first clamping block 56 to move outwards, because the supporting force of the second compression spring 57 is greater than the supporting force of the first compression spring 54, so that the, the lower pressing plate 52 is always matched with the mesh cloth, the mesh cloth is pressed by the lower pressing plate 52, after the mesh cloth is wound, a person manually moves the first clamping block 56 inwards, the second compression spring 57 compresses, when the first clamping block 56 does not clamp the lower pressing rod 53, the first compression spring 54 restores to the initial state, the first compression spring 54 drives the lower pressing rod 53 to move upwards, when the lower pressing rod 53 is not matched with the lower pressing plate 52, the expansion rod 55 restores to the initial length, the lower pressing plate 52 moves upwards to the initial position, then the person loosens the first clamping block 56, the second compression spring 57 restores to the initial state, the second compression spring 57 drives the first clamping block 56 to move outwards to be matched with the lower pressing rod 53 again, the effect of pressing the mesh cloth flatly can be achieved, and when the device is used again, the steps are repeated.

The clamping mechanism 6 is arranged on the rotating mechanism 3, the clamping mechanism 6 comprises a moving block 61, a third compression spring 62, a sliding rod 63, a second clamping block 64 and a fourth compression spring 65, the moving block 61 is arranged at the rear part of the first transmission shaft 32 in a sliding mode, the moving block 61 is connected with the rotating disc 33 in a sliding mode, the three third compression springs 62 are wound on the moving block 61, the third compression springs 62 are connected with the rotating disc 33 and the moving block 61, the sliding rod 63 is arranged in the first transmission shaft 32 in a sliding mode, the sliding rod 63 is connected with the moving block 61, the second clamping block 64 is arranged at the front part of the sliding rod 63 in a sliding mode, the second clamping block 64 is matched with the first transmission shaft 32, and the fourth compression spring 65 is connected between the second clamping block 64 and the.

In the initial state, the second fixture block 64 is located in the first transmission shaft 32, the first transmission shaft 32 abuts against the second fixture block 64, the fourth compression spring 65 is in a compression state, when the winding core is installed, the winding core pushes the moving block 61 to move towards the rear side, the third compression spring 62 compresses, the moving block 61 drives the sliding rod 63 to move backwards, the sliding rod 63 drives the second fixture block 64 to move backwards, when the second fixture block 64 is matched with the through hole in the first transmission shaft 32, the first transmission shaft 32 does not abut against the second fixture block 64 any more, the fourth compression spring 65 restores to the initial state, the fourth compression spring 65 drives the second fixture block 64 to move upwards, the winding core is located behind the second fixture block 64, the winding core stops being pushed, the moving block 61 is manually fixed, the second fixture block 64 clamps the winding core, when the first transmission shaft 32 rotates, the winding core and the moving block 61 both rotate, the second fixture block 64 prevents the winding core from falling off from the first transmission shaft 32 in, when first transmission shaft 32 stopped rotating, roll up core and movable block 61 all stopped rotating, no longer fixed movable block 61 this moment, third compression spring 62 resumes initial state, third compression spring 62 drives movable block 61 and moves forward, movable block 61 drives slide bar 63 and rolls up the core and moves forward, slide bar 63 drives second fixture block 64 and moves forward simultaneously, first transmission shaft 32 extrudes second fixture block 64 and moves down, fourth compression spring 65 compresses, make second fixture block 64 lie in first transmission shaft 32 again, second fixture block 64 no longer blocks and rolls up the core, it can to roll up core and take off first transmission shaft 32 this moment, when reusing this equipment, repeat above-mentioned step.

The blanking mechanism 7 is arranged on the upper portion of the base 1, the blanking mechanism 7 is matched with the clamping mechanism 6, the blanking mechanism 7 comprises a third support 71, a third clamping block 72 and a fifth compression spring 73, the third support 71 is arranged on the upper portion of the base 1, the third clamping block 72 is arranged on the front portion of the third support 71 in a sliding mode, the third clamping block 72 is matched with the moving block 61, the fifth compression spring 73 is wound on the right portion of the third clamping block 72, and the fifth compression spring 73 is connected with the third support 71 and the third clamping block 72.

When the moving block 61 moves backwards to be matched with the third clamping block 72, the moving block 61 pushes the third clamping block 72 to move rightwards, the fifth compression spring 73 is compressed, when the moving block 61 moves to be not matched with the third clamping block 72, the fifth compression spring 73 restores the initial state, the fifth compression spring 73 drives the third clamping block 72 to move leftwards to the initial position, at the moment, the third clamping block 72 clamps the moving block 61, the third clamping block 72 enables the moving block 61 not to move forwards, the effect of automatically fixing the moving block 61 is achieved, when a winding core needs to be taken down, the third clamping block 72 is moved rightwards manually, the fifth compression spring 73 is compressed, when the third clamping block 72 does not clamp the moving block 61, the moving block 61 moves forwards rapidly, at the moment, the third clamping block 72 is released, the fifth compression spring 73 restores the initial state, the fifth compression spring 73 drives the third clamping block 72 to move leftwards to the initial position, and when the device is used again, and repeating the steps.

The material returning mechanism comprises a material returning mechanism 8, the material returning mechanism 8 is arranged at the right part of the base 1, the material returning mechanism 8 is matched with the material discharging mechanism 7, the extruding mechanism 4 is matched with the pressing mechanism 5, the material returning mechanism 8 comprises a fourth support 81, a fifth support 82, a rotating rod 83, a torsion spring 84 and a pull rod 85, two fourth supports 81 are arranged at the bottom in the first support 41, two fifth supports 82 are arranged at the right part of the base 1, the rotating rod 83 is rotatably connected to the inner sides of the upper parts of the two fifth supports 82, the rotating rod 83 is matched with the third clamping block 72, the torsion spring 84 is wound at the lower part of the rotating rod 83, the torsion spring 84 is connected with the rotating rod 83 and the fifth support 82, the pull rod 85 is slidably connected to the upper parts of the two fourth supports 81, the pull rod 85 is slidably connected with the rotating rod 83, and the pull rod clamping block.

When the winding core winds the gridding cloth, the rotating rod 83 plays a role of smoothing the gridding cloth and helping the gridding cloth to be wound on the winding core better, when more gridding cloth is wound on the winding core, the gridding cloth is gradually enlarged, the gridding cloth gradually pushes the rotating rod 83 to rotate towards the right side, the torsion spring 84 is gradually deformed, when the rotating rod 83 rotates towards the right side, the rotating rod 83 slides on the pulling rod 85, the rotating rod 83 pulls the pulling rod 85 to move towards the right side, when the rotating rod 83 moves to be matched with the third clamping block 72, the rotating rod 83 pushes the third clamping block 72 to move towards the right side, meanwhile, the pulling rod 85 is matched with the first clamping block 56, the pulling rod 85 pushes the first clamping block 56 to move towards the inner side, so that the moving block 61 moves forwards, the lower pressing plate 52 moves upwards, after people take off the gridding cloth, because of the gridding cloth is not blocked, the torsion spring 84 rapidly restores to the initial state, the torsion spring 84 drives the rotating rod 83 to rotate backwards, the, meanwhile, the rotating rod 83 drives the pull rod 85 to move leftwards to the initial position, so that the effect of automatic material returning can be achieved, and the steps are repeated when the equipment is used again.

It should be understood that the above description is for exemplary purposes only and is not meant to limit the present invention. Those skilled in the art will appreciate that variations of the present invention are intended to be included within the scope of the claims herein.

Claims (8)

1. The utility model provides a smooth take-up device of glass fiber check cloth, characterized by, including:

the supporting platform (2) is arranged on the base (1);

the rotary mechanism (3) is arranged on the supporting table (2), and the rotary mechanism (3) is matched with the base (1);

the extrusion mechanism (4) is arranged on the base (1), and the extrusion mechanism (4) is matched with the rotating mechanism (3).

2. A glass web plait winding device according to claim 1, characterized in that the rotating mechanism (3) comprises:

the motor (31) is arranged on the support table (2);

the base (1) is rotatably provided with a first transmission shaft (32), and the first transmission shaft (32) is connected with an output shaft of the motor (31);

the first transmission shaft (32) is provided with a turntable (33).

3. A glass web grid flat winding device according to claim 2, characterized in that the pressing means (4) comprises:

the base (1) is provided with a first bracket (41);

the second transmission shafts (42) are rotatably arranged on the first bracket (41);

a belt (43), wherein the belt (43) is wound between the second transmission shaft (42) and the first transmission shaft (32) on one side;

the roller (44) is arranged on the second transmission shaft (42);

the second transmission shaft (42) is provided with a full gear (45), and the two full gears (45) are meshed;

two cams (46) are arranged on the second transmission shaft (42) on one side of the cam (46).

4. A glass web scrim flat winding apparatus as claimed in claim 3, further comprising: the pressing mechanism (5) is arranged on the first support (41), and the pressing mechanism (5) is matched with the cam (46);

the pressing mechanism (5) comprises:

the first bracket (41) is provided with two second brackets (51);

the two second brackets (51) are connected with the lower pressing rods (53) in a sliding mode, and the lower pressing rods (53) are matched with the cam (46);

two first compression springs (54) are wound on the lower pressing rod (53), and the first compression springs (54) are connected with the first bracket (41) and the lower pressing rod (53);

the first support (41) is provided with two telescopic rods (55);

the lower pressing plates (52) are connected to the two telescopic rods (55), and the lower pressing plates (52) are matched with the lower pressing rods (53);

the first clamping block (56) is arranged on the second bracket (51) in a sliding mode, and the first clamping block (56) is matched with the lower pressing rod (53);

the second compression spring (57) is wound on the first clamping block (56), and the second compression spring (57) is connected with the second bracket (51) and the first clamping block (56).

5. The flat winding apparatus for a glass fiber mesh fabric as claimed in claim 4, further comprising: the clamping mechanism (6) is arranged on the rotating mechanism (3);

the chucking mechanism (6) includes:

the first transmission shaft (32) is provided with a moving block (61) in a sliding manner, and the moving block (61) is connected with the rotating disc (33) in a sliding manner;

the third compression spring (62) is wound on the moving block (61), and the third compression spring (62) is connected with the rotating disc (33) and the moving block (61);

the sliding rod (63), the first transmission shaft (32) is provided with the sliding rod (63) in a sliding mode, and the sliding rod (63) is connected with the moving block (61);

the sliding rod (63) is provided with a second clamping block (64) in a sliding mode, and the second clamping block (64) is matched with the first transmission shaft (32);

and a fourth compression spring (65) is connected between the second clamping block (64) and the sliding rod (63).

6. The flat winding apparatus for a glass fiber mesh fabric as claimed in claim 5, further comprising: the blanking mechanism (7), the base (1) is provided with the blanking mechanism (7), and the blanking mechanism (7) is matched with the clamping mechanism (6);

unloading mechanism (7) including:

a third bracket (71), wherein the base (1) is provided with the third bracket (71);

the third fixture block (72) is arranged on the third bracket (71) in a sliding mode, and the third fixture block (72) is matched with the moving block (61);

a fifth compression spring (73), the third clamping block (72) is wound with the fifth compression spring (73), and the fifth compression spring (73) is connected with the third bracket (71) and the third clamping block (72).

7. The flat winding apparatus for a glass fiber mesh fabric as claimed in claim 6, further comprising: the material returning mechanism (8) is arranged on the base (1), and the material returning mechanism (8) is matched with the blanking mechanism (7), the extruding mechanism (4) and the pressing mechanism (5).

8. A flat winder for glass fiber webs as claimed in claim 6, characterized in that the unwinding device (8) comprises:

the first bracket (41) is provided with two fourth brackets (81);

the base (1) is provided with two fifth brackets (82);

the rotating rods (83) are rotatably connected to the two fifth brackets (82), and the rotating rods (83) are matched with the third clamping blocks (72);

the torsion spring (84) is wound on the rotating rod (83), and the torsion spring (84) is connected with the rotating rod (83) and the fifth bracket (82);

the pull rod (85) is connected with the two fourth brackets (81) in a sliding mode, the pull rod (85) is connected with the rotating rod (83) in a sliding mode, and the pull rod (85) is matched with the first clamping block (56).

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