CN113336003B - Rotary type polyamide fibre filament rolling equipment - Google Patents

Abstract

The invention discloses a rotary nylon filament winding device. The technical problem of the present invention is to provide a convenient way to clamp and fix the rotation of the spool, automatically drive the spool to rotate to complete the winding, automatically stabilize and quantitatively unlock the spool, automatically clamp the seat to stop the rotation, and automatically move the nylon length up and down. The yarn is kept evenly collected, and the rotary nylon filament winding equipment automatically cuts the nylon filament. Technical scheme: a rotary nylon filament winding equipment, including a casing, a box is connected to the lower part of the casing; a baffle, a baffle is symmetrically rotated on one side of the box; a hinge, the outer side of the baffle is connected to the box. The hinges are symmetrically connected from top to bottom. The rotary nylon filament winding device disclosed in the invention has the functions of automatically stabilizing and quantitatively loosening the bobbin, a stable placement seat, preventing the bobbin from being thrown out under the action of inertia, and automatically assisting the nylon filament to be uniformly wound and wound up. The advantage of automatically cutting nylon filament after rolling.

Description

Rotary type polyamide fibre filament rolling equipment

Technical Field

The invention relates to a winding device, in particular to a rotary type nylon filament winding device.

Background

The nylon filament is a filament made of nylon, is a synthetic fiber and is also an important raw material of textiles, and in the using process, the nylon filament is possibly disordered due to loosening, so that the subsequent use is influenced greatly, and the nylon filament needs to be wound.

Current nylon filament rolling technique, generally be with the bobbin fixed back, the automatic drive bobbin rotates, thereby get up the rolling of nylon filament, however, so operation, at first need people to manually maintain the state of pressing from both sides the fastening and fixing the bobbin, troublesome poeration is hard, secondly place the seat of placing of bobbin probably because the pipeline effect continues to rotate after the rolling is accomplished, make the bobbin thrown away, and at rolling nylon filament in-process, because nylon filament position keeps motionless, will make the not even of nylon filament rolling, the back is accomplished in last rolling, need artifical manual cutting nylon filament, inefficiency.

Therefore, it is necessary to design a rotary type nylon filament winding device which is convenient to clamp and fix a bobbin to rotate, automatically drives the bobbin to rotate to complete winding, automatically stabilizes and quantitatively unlocks the bobbin, automatically clamps and places a seat to stop rotating, automatically moves nylon filaments up and down to keep uniform collection, and automatically cuts the nylon filaments.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the rotary type nylon filament winding equipment which is convenient to clamp and fix a bobbin to rotate, automatically drives the bobbin to rotate to complete winding, automatically stabilizes and quantitatively unlocks the bobbin, automatically clamps a placing seat to stop rotating, automatically moves nylon filaments up and down to keep uniform collection, and automatically cuts the nylon filaments.

The purpose of the invention can be achieved by adopting the following technical scheme:

first aspect, a rotary type polyamide fibre filament rolling equipment, including: the lower part of the shell is connected with a box body; the baffle is symmetrically and rotatably connected to one side of the box body; the hinges are symmetrically connected between the outer sides of the baffle plates and the box body from top to bottom; the motor is arranged in the middle of the upper part of the shell; the middle of one side of the upper part of the box body is rotatably connected with the placing seat; the lower side of the output shaft of the motor is provided with a rotating component; the clamping component is arranged between the upper part of the shell and the rotating component.

Further, the rotating assembly comprises: the lower side of the motor output shaft is connected with a guide sleeve; the inner side of the guide sleeve is connected with a loop bar in a sliding way; the lower side of the loop bar is connected with a connecting block; the outer side of the connecting block is rotatably connected with the fixed disc.

Further, the clamping assembly includes: one side of the upper part of the shell is connected with the mounting seat; the middle part of the mounting seat is connected with a first supporting rod in a sliding way, and the upper side of the first supporting rod is connected with a connecting block; the first spring is connected between the connecting block and the mounting seat and sleeved on the first supporting rod; the lower part of the first supporting rod is evenly connected with four guide rods at intervals; the outer sides of the guide rods are connected with the clamping blocks in a sliding manner; the inner sides of the guide rods are connected with clamping blocks in a sliding manner; the clamping blocks on the same side are connected with the clamping blocks through the clamping blocks; and a third spring is connected between the fixture block and the first support rod, and the second spring and the third spring are sleeved on the guide rod.

Further, still including the chucking subassembly, the chucking subassembly includes: one side of the upper part of the shell is symmetrically and slidably connected with a first guide rod; the first connecting rod is connected between one sides of the first guide rods; a second support rod is connected between one sides of the first guide rods; the fourth spring is symmetrically connected between the second supporting rod and the shell and sleeved on the first guide rod; the wedge blocks are connected to two sides of the second supporting rod in a sliding mode, and the wedge blocks are matched with the fixed disk; and a fifth spring is connected between the wedge block and the second support rod.

Further, still including quantitative subassembly, quantitative subassembly includes: one side of the lower part of the shell is connected with the push plate in a sliding way; the sixth spring is symmetrically connected between the push plate and the shell up and down; one side of the push plate is connected with a second connecting rod, and the second connecting rod is matched with the first connecting rod.

Further, still including the braking subassembly, the braking subassembly includes: the two sides of the first connecting rod are connected with the third connecting rod; one side of the middle part in the shell is symmetrically and slidably connected with a fourth connecting rod, and the fourth connecting rod is matched with the third connecting rod; seventh springs are connected between the fourth connecting rod and the shell, and the seventh springs are sleeved on the fourth connecting rod; the two sides of the lower part of the shell are both connected with a fifth connecting rod in a sliding way, and the fifth connecting rod is matched with the fourth connecting rod; eighth springs are connected between the fifth connecting rod and the shell and sleeved on the fifth connecting rod; the brake block, the fifth connecting rod lower part inboard all is connected with the brake block, and the brake block is mutually supported with placing the seat.

Further, still including even subassembly, even subassembly is including: one side of the shell is connected with a fixing frame; one side of the fixing frame is rotatably connected with the grooved drum; the lower sides of the grooved drum transmission shaft and the placing seat transmission shaft are connected with belt pulleys; the transmission belt is connected between the belt pulleys; one side of the fixing frame is connected with a second guide rod; the second guide rod is connected with a sliding block in a sliding manner, and the sliding block is matched with the grooved drum; the stop block is rotatably connected to one side of the lower part of the sliding block; and a first torsion spring is symmetrically connected between the stop dog and the sliding block.

Further, still including deciding the subassembly, decide the subassembly including: one side of the lower part of the fifth connecting rod at one side is connected with a sixth connecting rod; one side of the fixing frame is connected with a push rod in a sliding manner, and the push rod is matched with the sixth connecting rod; ninth springs are symmetrically connected between the push rod and the fixed frame from top to bottom; one side of the sliding block is connected with the supporting block; the pushing block is connected to one side of the supporting block in a sliding mode and matched with the push rod; a tenth spring is connected between the supporting block and the pushing block; the seventh connecting rod is connected with the inner side of the push block in a vertically symmetrical and rotating manner; the scissors are rotatably connected to one side of the seventh connecting rod, and the middle parts of the scissors are rotatably connected with the supporting blocks; and a second torsion spring is connected between the scissors and wound on the supporting block.

The invention has the advantages that: (1) according to the invention, the fixed disc moves downwards and is matched with the wedge-shaped block to stabilize the bobbin, after the nylon filaments wound by the bobbin reach a certain degree, the push plate and the second connecting rod are pushed to move backwards, the first connecting rod and the wedge-shaped block are pushed to move backwards to be far away from the fixed disc, and finally the bobbin is loosened, so that the effects of automatically stabilizing and quantitatively loosening the bobbin are achieved; (2) according to the invention, the first connecting rod drives the third connecting rod to move backwards, the fourth connecting rod is pushed to move downwards, the fifth connecting rod and the brake block are pushed to move inwards, the placing block is clamped and fixed, the effect of stabilizing the placing seat is achieved, and the wire barrel is prevented from being thrown out under the inertia effect; (3) according to the invention, the nylon filament is placed on the inner side of the sliding block by pushing the stop block to rotate anticlockwise, the placing seat rotates to drive the grooved drum to rotate, so that the sliding block and the nylon filament are driven to move up and down, and the effect of automatically assisting the nylon filament to be uniformly wound is achieved; (4) according to the invention, the fifth connecting rod drives the sixth connecting rod to move rightwards, the push rod and the push block are pushed to move rightwards, the connecting rod is driven to rotate outwards, so that the right side of the scissors is driven to rotate inwards, the nylon filament is cut off, and the effect of automatically cutting the nylon filament after winding is achieved.

Drawings

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

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is a schematic view of the installation of the rotating assembly of the present invention.

FIG. 4 is a schematic view of the installation of the clamping assembly of the present invention.

Fig. 5 is an enlarged schematic view of the structure at a of the present invention.

FIG. 6 is a schematic view of the installation of the clamping assembly of the present invention.

Fig. 7 is an enlarged schematic view of the present invention at B.

Figure 8 is a schematic view of the installation of the dosing assembly according to the invention.

Fig. 9 is a schematic view of the installation of the brake assembly of the present invention.

Fig. 10 is an enlarged schematic view of the present invention at C.

FIG. 11 is a schematic view of the installation of the uniformity assembly of the present invention.

FIG. 12 is a schematic view of a portion of a uniform assembly according to the present invention.

Figure 13 is a schematic view of the installation of the severing assembly of the present invention.

Figure 14 is a schematic view of a first partial structure of the cutting assembly of the present invention.

Figure 15 is a schematic view of a second partial structure of the cutting assembly of the present invention.

The parts are labeled as follows: 1. a housing, 11, a box body, 12, a hinge, 13, a baffle, 2, a motor, 3, a placing seat, 4, a rotating component, 41, a guide sleeve, 42, a sleeve rod, 43, a connecting block, 44, a fixed disk, 5, a clamping component, 51, a mounting seat, 52, a first supporting rod, 53, a first spring, 54, a clamping block, 55, a clamping block, 56, a second spring, 57, a third spring, 58, a guide rod, 6, a clamping component, 61, a first guide rod, 62, a first connecting rod, 63, a second supporting rod, 64, a fourth spring, 65, a wedge block, 66, a fifth spring, 7, a quantitative component, 71, a push plate, 72, a second connecting rod, 73, a sixth spring, 8, a brake component, 81, a third connecting rod, 82, a fourth connecting rod, 83, a seventh spring, 84, a fifth connecting rod, 85, a brake block, 86, an eighth spring, 9, a uniform component, 91, a grooved drum, 92, a belt pulley, 93. the cutting device comprises a transmission belt 94, a second guide rod 95, a sliding block 96, a stop block 97, a first torsion spring 98, a fixing frame 10, a cutting component 101, a sixth connecting rod 102, a push rod 103, a ninth spring 104, a supporting block 105, a scissors 106, a second torsion spring 107, a seventh connecting rod 108, a pushing block 109 and a tenth spring.

Detailed Description

Although the present invention may be described with respect to particular applications or industries, those skilled in the art will recognize the broader applicability of the invention. Those of ordinary skill in the art will recognize other factors such as: terms such as above, below, upward, downward, and the like are used to describe the accompanying drawings and are not meant to limit the scope of the invention, which is defined by the appended claims. Such as: any numerical designation of first or second, and the like, is merely exemplary and is not intended to limit the scope of the invention in any way.

Example 1

As shown in fig. 1 to 5, the present embodiment discloses including shell 1, box 11, hinge 12, baffle 13, motor 2, place seat 3, rotating assembly 4 and clip subassembly 5, shell 1 sub-unit connection has box 11, box 11 front side bilateral symmetry rotary type is connected with baffle 13, equal upper and lower symmetry connection hinge 12 between the baffle 13 outside and the box 11, motor 2 is installed in the middle of shell 1 upper portion, box 11 upper portion front side middle rotary type is connected with places seat 3, motor 2 output shaft downside is equipped with rotating assembly 4, be equipped with between shell 1 upper portion and the rotating assembly 4 and clip subassembly 5.

The rotating assembly 4 comprises a guide sleeve 41, a loop bar 42, a connecting block 43 and a fixed disc 44, the lower side of an output shaft of the motor 2 is connected with the guide sleeve 41, the inner side of the guide sleeve 41 is connected with the loop bar 42 in a sliding manner, the lower side of the loop bar 42 is connected with the connecting block 43, and the outer side of the connecting block 43 is connected with the fixed disc 44 in a rotating manner.

The clamping component 5 comprises an installation base 51, a first supporting rod 52, a first spring 53, a clamping block 54, a clamping block 55, a second spring 56, a third spring 57 and guide rods 58, the installation base 51 is connected to the front side of the upper portion of the shell 1, the first supporting rod 52 is connected to the middle of the installation base 51 in a sliding mode, the upper side of the first supporting rod 52 is connected with the connecting block 43, the first spring 53 is connected between the connecting block 43 and the installation base 51, the first spring 53 is sleeved on the first supporting rod 52, four guide rods 58 are evenly connected to the lower portion of the first supporting rod 52 at intervals, the clamping block 54 is connected to the outer side of each guide rod 58 in a sliding mode, the clamping block 55 is connected to the inner side of each guide rod 58 in a sliding mode, the second spring 56 is connected between the clamping block 54 and the clamping block 55 on the same side, the third spring 57 is connected between the clamping block 55 and the first supporting rod 52, and the second spring 56 and the third spring 57 are sleeved on the guide rods 58.

When a user needs to wind the nylon filament, firstly, a bobbin needed for winding the nylon filament is placed on the placing seat 3, after one end of the nylon filament is tied on the bobbin, the fixing disc 44 is pushed to move downwards to drive the connecting block 43, the loop bar 42, the first supporting rod 52, the clamping block 54 and the clamping block 55 to move downwards, the first spring 53 is compressed, the clamping block 54 moves to the outer side of the bobbin, the clamping block 55 moves to contact with the inner ring of the bobbin and then is pushed to move inwards, the third spring 57 is compressed, the second spring 56 is stretched to enable the clamping block 54 and the clamping block 55 to clamp and fix the bobbin, at the moment, the motor 2 is started to drive the guide sleeve 41, the loop bar 42 and the connecting block 43 to rotate, so as to drive the first supporting rod 52, the clamping block 54 and the clamping block 55 to rotate, further drive the bobbin to rotate, the nylon filament is wound up, after the winding of the filament is finished, the motor 2 is closed, the guide sleeve 41, the loop bar 42, the connecting block 43, the first supporting rod 52, the clamping block 54 and the clamping block 55 stop rotating, so that the thread cylinder stops rotating, the fixing disc 44 is loosened, the connecting block 43 is driven under the action of the first spring 53, the loop bar 42 and the first supporting rod 52 move upwards, the clamping block 54 and the clamping block 55 are driven to move upwards to be away from the thread cylinder, the clamping block 55 is pushed to move outwards under the action of the second spring 56 and the third spring 57 to recover to an original state, the last nylon filament can be cut off, the thread cylinder is taken down to be collected, the reciprocating is achieved, the effect of winding the nylon filament is achieved easily, and people can store some related articles in the box body 11 by opening the baffle 13.

Example 2

As shown in fig. 1, 2, and 6 to 15, in some embodiments, the clamping assembly 6 further includes a clamping assembly 6, the clamping assembly 6 includes a first guide rod 61, a first connecting rod 62, a second supporting rod 63, a fourth spring 64, a wedge 65, and a fifth spring 66, the first guide rod 61 is connected to the front side of the upper portion of the housing 1 in a bilateral symmetry sliding manner, the first connecting rod 62 is connected between the rear sides of the first guide rod 61, the second supporting rod 63 is connected between the front sides of the first guide rod 61, the fourth spring 64 is connected between the second supporting rod 63 and the housing 1 in a bilateral symmetry sliding manner, the fourth spring 64 is sleeved on the first guide rod 61, the wedge 65 is connected to both sides of the second supporting rod 63 in a sliding manner, the wedge 65 is matched with the fixed disk 44, and the fifth spring 66 is connected between the wedge 65 and the second supporting rod 63.

The quantitative assembly 7 comprises a push plate 71, a second connecting rod 72 and a sixth spring 73, the lower portion of the shell 1 is connected with the push plate 71 in a sliding mode on the front side, the sixth spring 73 is symmetrically connected between the push plate 71 and the shell 1 in an up-down mode, the second connecting rod 72 is connected on the rear side of the push plate 71, and the second connecting rod 72 is matched with the first connecting rod 62.

After the fixed disc 44 moves downwards to contact with the wedge-shaped block 65, the wedge-shaped block 65 is pushed to move outwards, the fifth spring 66 is compressed, after the fixed disc 44 moves through the wedge-shaped block 65, the wedge-shaped block 65 is pushed to move inwards under the action of the fifth spring 66, the fixed disc 44 is blocked, so that the connecting block 43, the first supporting rod 52, the clamping block 54 and the clamping block 55 are stabilized, finally the bobbin is stabilized, the periphery of the wound nylon filament is thicker and thicker along with the rotation of the bobbin, when the periphery of the nylon filament is thicker and contacts with the push plate 71 during the rotation, the push plate 71 is pushed to move backwards, the sixth spring 73 is compressed, the second connecting rod 72 is driven to move backwards, so that the first connecting rod 62 is pushed to move backwards, the first guiding rod 61, the second supporting rod 63 and the wedge-shaped block 65 are driven to move backwards, the fourth spring 64 is compressed, the wedge-shaped block 65 is far away from the fixed disc 44, and the fixed disc 44 is reset upwards, finally, the first supporting rod 52, the clamping block 54 and the clamping block 55 are driven to move upwards to loosen the bobbin, after the bobbin is taken down, under the action of a sixth spring 73, the push plate 71 and the second connecting rod 72 move forwards, the second connecting rod 72 is far away from the first connecting rod 62, and under the action of a fourth spring 64, the first guide rod 61, the second supporting rod 63 and the wedge-shaped block 65 are pushed to move forwards to drive the first connecting rod 62 to move forwards and restore to the original state, and the reciprocating motion is carried out, so that the effects of automatically stabilizing and quantitatively loosening the bobbin are achieved.

Still including brake subassembly 8, brake subassembly 8 is including third connecting rod 81, fourth connecting rod 82, seventh spring 83, fifth connecting rod 84, brake block 85 and eighth spring 86, first connecting rod 62 left and right sides all is connected with third connecting rod 81, middle part front side bilateral symmetry sliding type is connected with fourth connecting rod 82 in the shell 1, fourth connecting rod 82 and third connecting rod 81 are mutually supported, all be connected with seventh spring 83 between fourth connecting rod 82 and the shell 1, seventh spring 83 overlaps on fourth connecting rod 82, shell 1 lower part left and right sides all sliding type is connected with fifth connecting rod 84, fifth connecting rod 84 and fourth connecting rod 82 are mutually supported, all be connected with eighth spring 86 between fifth connecting rod 84 and the shell 1, eighth spring 86 overlaps on fifth connecting rod 84, fifth connecting rod 84 lower part inboard all is connected with brake block 85, brake block 85 and place seat 3 and mutually support.

When the first link 62 moves backward, the third link 81 is moved backward, the fourth link 82 is pushed to move downward, the seventh spring 83 is compressed, thereby pushing the fifth link 84 to move inward, the eighth spring 86 is compressed, and the brake block 85 is driven to move inward, clamping and fixing the placing base 3, so that the placing seat 3 can stop rotating in the same time to ensure that the loosened bobbin cannot be thrown out, then the first connecting rod 62 moves forward to drive the third connecting rod 81 to move forward to be far away from the fourth connecting rod 82, under the action of the seventh spring 83, the fourth link 82 is pushed to move upwards, the fifth link 84 is not pushed any more, under the action of the eighth spring 86, the fifth link 84 and the brake block 85 are pushed to move outwards, the placing seat 3 is loosened, the original state is restored, reciprocating like this, reach the effect of firm seat 3 of placing, avoid the bobbin to be thrown away under the inertia effect.

Still including even subassembly 9, even subassembly 9 is including grooved drum 91, belt pulley 92, driving belt 93, second guide bar 94, slider 95, dog 96, first torsion spring 97 and mount 98, shell 1 front portion left side is connected with mount 98, mount 98 left side rotary type is connected with grooved drum 91, grooved drum 91 transmission shaft and the 3 transmission shaft downside of placing the seat all are connected with belt pulley 92, be connected with driving belt 93 between the belt pulley 92, mount 98 right side is connected with second guide bar 94, the gliding style of sliding connection has slider 95 on second guide bar 94, slider 95 and grooved drum 91 are mutually supported, slider 95 lower part right side rotary type is connected with dog 96, symmetrical connection has first torsion spring 97 around between dog 96 and the slider 95.

Promote dog 96 anticlockwise rotation, deformation takes place for first torsion spring 97, can be inboard with loose polyamide fibre filament pulling to slider 95, loosen dog 96, under first spring 53's effect, promote dog 96 clockwise rotation, block polyamide fibre filament, when the bobbin rotates, will drive belt pulley 92 and driving belt 93 and rotate, thereby drive groove section of thick bamboo 91 and rotate, it reciprocates to drive slider 95, and then drive polyamide fibre filament and reciprocate, make polyamide fibre filament roll up on the bobbin uniformly, so reciprocal, the effect of automatic supplementary polyamide fibre filament by the rolling uniformly.

The cutting component 10 comprises a sixth connecting rod 101, a push rod 102, a ninth spring 103, a supporting block 104, a scissors 105, a second torsion spring 106, a seventh connecting rod 107, a push block 108 and a tenth spring 109, the left side of the lower part of the left fifth connecting rod 84 is connected with the sixth connecting rod 101, the left rear side of the fixing frame 98 is movably connected with the push rod 102, the push rod 102 is matched with the sixth connecting rod 101, the ninth spring 103 is vertically and symmetrically connected between the push rod 102 and the fixing frame 98, the rear side of the sliding block 95 is connected with the supporting block 104, the push block 108 is slidably connected with the left side of the supporting block 104, the push block 108 is matched with the push rod 102, the tenth spring 109 is connected between the supporting block 104 and the push block 108, the seventh connecting rod 107 is vertically and symmetrically and rotatably connected on the inner side of the push block 108, the scissors 105 is rotatably connected on the right side of the seventh connecting rod 107, the middle part of the scissors 105 is rotatably connected with the supporting block 104, a second torsion spring 106 is connected between the scissors 105, and the second torsion spring 106 is wound on the supporting block 104.

When the slide block 95 moves up and down, the support block 104, the push block 108 and the scissors 105 are driven to move up and down, after the nylon filament is wound, the fifth connecting rod 84 moves inwards to drive the sixth connecting rod 101 to move rightwards, the push rod 102 is driven to move rightwards, the ninth spring 103 is stretched, the push block 108 is driven to move rightwards, the tenth spring 109 is compressed, the seventh connecting rod 107 rotates outwards, the seventh connecting rod 107 drives the right sides of the scissors 105 on two sides to rotate inwards, the second torsion spring 106 deforms, the scissors 105 cuts the nylon filament, then the fifth connecting rod 84 moves outwards to drive the sixth connecting rod 101 to move leftwards and away from the push rod 102, under the action of the ninth spring 103, the push rod 102 is driven to move leftwards and away from the push block 108, under the action of the tenth spring 109, the push block 108 is driven to move leftwards, the seventh connecting rod 107 is driven to rotate inwards, the right side of the scissors 105 is driven to rotate outwards, and the second torsion spring 106 restores to the original state, reciprocating like this, reach the effect of automatic cutting polyamide fibre filament after the rolling finishes.

The above examples are only intended to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (4)

1. A rotary nylon filament winding device, characterized in that it comprises: a casing (1), a casing (11) is connected to the lower part of the casing (1); a baffle plate (13), a casing (11) one A baffle (13) is connected in a side-symmetrical rotation; the hinge (12), the outer side of the baffle (13) and the box body (11) are connected with the hinge (12) symmetrically up and down; the motor (2), the shell (1) ) There is a motor (2) installed in the middle of the upper part; the placing seat (3) is rotatably connected with the placing seat (3) in the middle of the upper side of the box (11); the rotating assembly (4), the lower side of the motor (2) output shaft is provided There is a rotating assembly (4); the clamping assembly (5) is provided with a clamping assembly (5) between the upper part of the casing (1) and the rotating assembly (4); The rotating assembly (4) includes: a guide sleeve (41), a guide sleeve (41) is connected to the lower side of the output shaft of the motor (2); a sleeve rod (42), and a sleeve rod (42) is slidably connected to the inner side of the guide sleeve (41). ); connecting block (43), a connecting block (43) is connected to the lower side of the sleeve rod (42); a fixed plate (44), a fixed plate (44) is rotatably connected to the outside of the connecting block (43); The clamping assembly (5) includes: an installation seat (51), the upper side of the casing (1) is connected with the installation seat (51); the first support rod (52), the middle part of the installation seat (51) is slidably connected with the first support rod (51) A support rod (52), the upper side of the first support rod (52) is connected with the connecting block (43); the first spring (53), a first spring (53) is connected between the connecting block (43) and the mounting seat (51). 53), the first spring (53) is sleeved on the first support rod (52); the guide rod (58), the lower part of the first support rod (52) is evenly connected with four guide rods (58) at intervals; the clamping block (54) ), the outer side of the guide rod (58) is slidably connected with the clamping block (54); the clamping block (55), the inner side of the guide rod (58) is slidably connected with the clamping block (55); the second spring (56), set A second spring (56) is connected between the clamping block (54) and the clamping block (55) on the same guide rod (58); the third spring (57), the clamping block (55) and the first support rod ( 52) A third spring (57) is connected between them, and the second spring (56) and the third spring (57) are sleeved on the guide rod (58); Also includes a clamping assembly (6), the clamping assembly (6) includes: a first guide rod (61), a first guide rod (61) is symmetrically slidably connected to one side of the upper part of the casing (1); A rod (62), a first link (62) is connected between one side of the first guide rod (61); a second support rod (63), a second support is connected between one side of the first guide rod (61) rod (63); fourth spring (64), a fourth spring (64) is symmetrically connected between the second support rod (63) and the housing (1), and the fourth spring (64) is sleeved on the first guide rod (61) ); the wedge-shaped block (65), the wedge-shaped block (65) is slidably connected on both sides of the second support rod (63), and the wedge-shaped block (65) cooperates with the fixed plate (44); the fifth spring (66), A fifth spring (66) is connected between the wedge block (65) and the second support rod (63); Also includes a quantitative component (7), the quantitative component (7) includes: a push plate (71), and a push plate (71) is slidably connected to the lower side of the casing (1); a sixth spring (73), a push plate ( 71) A sixth spring (73) is symmetrically connected up and down with the casing (1); the second connecting rod (72) is connected with a second connecting rod (72) on one side of the push plate (71), and the second connecting rod ( 72) cooperate with the first connecting rod (62). 2. A rotary nylon filament winding device according to claim 1, characterized in that it further comprises a brake assembly (8), and the brake assembly (8) comprises: a third connecting rod (81) , a third connecting rod (81) is connected to both sides of the first connecting rod (62); The fourth connecting rod (82) and the third connecting rod (81) cooperate with each other; the seventh spring (83), the seventh spring (83) is connected between the fourth connecting rod (82) and the casing (1), The seven springs (83) are sleeved on the fourth connecting rod (82); the fifth connecting rod (84), the lower part of the casing (1) is slidably connected with the fifth connecting rod (84), and the fifth connecting rod (84) ) and the fourth connecting rod (82) cooperate with each other; the eighth spring (86), the fifth connecting rod (84) and the casing (1) are connected with an eighth spring (86), and the eighth spring (86) is sleeved On the fifth connecting rod (84); the braking block (85), the inner side of the lower part of the fifth connecting rod (84) is connected with a braking block (85), and the braking block (85) and the placing seat (3) cooperate with each other . 3. A rotary nylon filament winding device according to claim 2, characterized in that it further comprises a uniform assembly (9), and the uniform assembly (9) comprises: a fixing frame (98), a casing (1 ) is connected with a fixed frame (98) on one side; the grooved cylinder (91), one side of the fixed frame (98) is rotatably connected with a grooved cylinder (91); 3) A pulley (92) is connected to the lower side of the drive shaft; a drive belt (93) is connected with a drive belt (93) between the pulleys (92); the second guide rod (94) is connected to one side of the fixing frame (98) There is a second guide rod (94); a slider (95), a slider (95) is slidably connected to the second guide rod (94), and the slider (95) cooperates with the groove cylinder (91); the stopper ( 96), the lower side of the slider (95) is rotatably connected with a stopper (96); the first torsion spring (97), a first torsion spring (97) is symmetrically connected between the stopper (96) and the slider (95). 97). 4. A rotary nylon filament winding device according to claim 3, characterized in that it further comprises a cutting assembly (10), and the cutting assembly (10) comprises: a sixth connecting rod (101), a A sixth connecting rod (101) is connected to the lower side of the side fifth connecting rod (84); The sixth link (101) cooperates with each other; the ninth spring (103), the ninth spring (103) is symmetrically connected up and down between the push rod (102) and the fixing frame (98); the support block (104), the slider ( 95) A support block (104) is connected on one side; a push block (108) is slidably connected with a push block (108) on one side of the support block (104), and the push block (108) and the push rod (102) cooperate with each other; Ten springs (109), a tenth spring (109) is connected between the support block (104) and the push block (108); a seventh connecting rod (107), the inner side of the push block (108) is symmetrically connected with a seventh Connecting rod (107); scissors (105), scissors (105) are rotatably connected to one side of the seventh connecting rod (107), and the middle of the scissors (105) is rotatably connected to the support block (104); the second torsion spring (106), a second torsion spring (106) is connected between the scissors (105), and the second torsion spring (106) is wound around the support block (104).

Images