CN215478824U - Leading coiling machine of high-speed braider - Google Patents

Abstract

The utility model relates to a leading coiling machine of high-speed braider, include the frame and be located the support in the frame, be provided with the wire structure on the support, be provided with the drive structure that wire winding structure reaches and be connected with the transmission of wire winding structure in the frame, wire winding structure has the multiunit, and every group wire winding structure includes mount pad and wire winding seat, the wire winding seat rotates and is connected with wire winding pole and this wire winding pole and passes the wire winding seat and be connected with the drive structure transmission, is provided with the traveller in the mount pad, the traveller rotates and is connected with the locking axle, the locking axle is used for respectively pegging graft with spool both ends opening with wire winding pole, the traveller is connected with and is used for fixing the spool at the locking mechanical system between wire winding pole and locking axle. This application can realize a plurality of bobbins of coiling simultaneously, improves work efficiency.

Description

Leading coiling machine of high-speed braider

Technical Field

The application relates to the field of high-speed knitting machines, in particular to a front winding machine of a high-speed knitting machine.

Background

At present, various textile machines, such as high-speed knitting machines, need to wind yarns on bobbins before being used. Therefore, it is necessary to regularly wind the yarn around a bobbin having a predetermined size by means of a winding machine, and then to place the bobbin on a high-speed knitting machine for use.

Chinese utility model with application number CN201711185704.0 discloses a manual formula winding device of weaving yarn, the on-line screen storage device comprises a base, be equipped with a winding seat on the base, be equipped with the roller bearing in the winding seat, the one end of roller bearing is equipped with the handle. When the winding device is used, the bobbin is sleeved on the rolling shaft, and the yarn on the bobbin can be wound by rotating the handle.

In view of the above-mentioned related art, the inventor thinks that the existing winding device can only wind one bobbin, and depends on manpower, resulting in low working efficiency.

SUMMERY OF THE UTILITY MODEL

In order to realize the simultaneous winding of a plurality of bobbins, the working efficiency is improved.

The application provides a leading coiling machine of high-speed braider adopts following technical scheme:

the utility model provides a leading coiling machine of high-speed braider, includes the frame and is located the support in the frame, be provided with the wire structure on the support, be provided with the drive structure that wire winding structure and winding structure transmission are connected in the frame, wire winding structure has the multiunit, and every group wire winding structure includes mount pad and wire winding seat, the wire winding seat rotates and is connected with wire winding pole and this wire winding pole and passes the wire winding seat and be connected with drive structure transmission, is provided with the traveller in the mount pad, the moving direction of traveller is the axial of wire winding pole, the traveller rotates and is connected with the locking axle, the locking axle is used for respectively pegging graft with spool both ends opening with wire winding pole, the traveller is connected with and is used for fixing the spool at the locking structure between wire winding pole and locking axle.

Through adopting above-mentioned technical scheme, before the coiling machine function, the user with a plurality of spool suits between a plurality of wire winding poles and locking axle to with the fixed spool of locking structure, then drive the rotation of wire winding pole with the drive structure, realize automatic wire winding, and realize that a power supply realizes the wire winding work to a plurality of spools simultaneously, thereby reduce the waste of manpower, and then improve work efficiency, reduce the manufacturing cost of product.

Preferably, the rack is further provided with a support rod positioned between the support and the winding seat and a yarn guide device connected with the support rod and used for guiding yarns, the support rod is connected with the rack in a sliding manner, and the support rod is connected with a driving piece used for driving the support rod to slide along the axial direction of the winding rod.

Through adopting above-mentioned technical scheme, the thread guide guides the yarn to the spool on, and the user opens the driving piece and makes branch reciprocating motion, makes yarn evenly twine on the spool.

Preferably, the driving part comprises a reciprocating lead screw and a sliding block, the reciprocating lead screw is located between the support and the winding seat, the driving structure is in transmission connection with a screw of the reciprocating lead screw, the sliding block is connected with a nut of the reciprocating lead screw, the sliding block is connected with the supporting rod through a connecting piece, and the sliding direction of the sliding block is consistent with the axial direction of the winding rod.

By adopting the technical scheme, the driving structure drives the reciprocating lead screw to operate, so that the supporting rod can move in a reciprocating manner in the direction parallel to the axial direction of the bobbin, and the yarn guider guides the yarn to be wound on the bobbin, so that the yarn is uniformly wound on the bobbin.

Preferably, the thread guide comprises a first thread guide rod, the first thread guide rod is detachably connected with the support rod, and a thread guide hole for a thread to pass through is formed in the first thread guide rod.

Through adopting above-mentioned technical scheme, avoid the yarn intertwine or twine other structures in the transportation each other, lead to influencing follow-up production.

Preferably, be connected with a plurality of risers in the frame, every the riser is kept away from the one end of frame and is connected with the axle sleeve, branch slides with the axle sleeve and is connected.

Through adopting above-mentioned technical scheme, inject the slip direction of branch through the axle sleeve, stability when improving branch and sliding.

Preferably, the connecting piece includes the fixed plate, the fixed plate is connected with the slider, branch and fixed plate keep away from the one end detachable connection of slider.

Through adopting above-mentioned technical scheme, make branch and slider can dismantle and be connected, the change of the branch of being convenient for.

Preferably, the drive structure includes that driving motor, a plurality of belts, pivot, first rotation wheel and fixed cover locate a plurality of seconds in the pivot and rotate the wheel, the pivot is rotated with the frame and is connected, first rotation wheel is fixed with the screw rod circumference of reciprocating screw, the second is rotated and is connected through belt drive between wheel and the wire winding pole, be connected through belt drive between first rotation wheel and the pivot, driving motor passes through belt drive with the pivot and is connected.

By adopting the technical scheme, the driving motor drives the plurality of winding rods and the reciprocating screw rod simultaneously, so that the winding work of one power source on a plurality of bobbins is realized.

Preferably, the locking structure includes handle, spring and with slider fixed connection's locating pin, the spout has been seted up on the mount pad, the traveller slides with the spout and is connected, the handle is articulated with the mount pad, the bar hole has been seted up on the handle, set up the slide opening with the spout intercommunication on the mount pad, the locating pin slides with the slide opening and rotates and be connected, the locating pin passes the slide opening and slides with the bar hole and rotates and be connected, spring one end is connected and the spring other end is connected with the locating pin with the frame is close to one side of wire winding seat.

By adopting the technical scheme, when the winding machine runs, a user drives the positioning pin by pulling the handle, and the positioning pin drives the sliding column to move, so that the locking shaft is separated from the bobbin, the bobbin can be replaced, the bobbin can be assembled and disassembled at any time, and the production efficiency is improved.

Preferably, the locking shaft is in a circular truncated cone shape, and one end of the locking shaft with a smaller diameter of the circular surface is used for being abutted and matched with the circular opening at the end part of the bobbin.

By adopting the technical scheme, the matching of the locking shaft and the inner wall of the yarn barrel reduces the natural vibration of the yarn barrel in the winding process, and the locking shaft can be smoothly inserted into the yarn barrel to be matched so as to avoid interference.

Preferably, the wire structure comprises a plurality of second wire rods arranged at the top end of the support and a cross rod arranged in the middle of the support, wire holes are formed in the plurality of second wire rods and the cross rod, and yarns penetrate through the plurality of wire holes to the bobbins arranged on the wire winding rods.

Through adopting above-mentioned technical scheme, pass each wire guide with the yarn after around establishing on the spool, twine and knot each other when avoiding the yarn transportation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. before the winding machine operates, a user sleeves a plurality of bobbins between a plurality of winding rods and a locking shaft, fixes the bobbins by using a locking structure, then drives the winding rods to rotate by using a driving structure, realizes automatic winding, and realizes the winding work of the bobbins by using one power source at the same time, thereby reducing the waste of manpower, further improving the working efficiency and reducing the production cost of products;

2. the driving structure drives the reciprocating screw rod to operate, so that the support rod moves in a reciprocating mode in the direction parallel to the axial direction of the bobbin, and the yarn guide device guides the yarn to be wound on the bobbin, so that the yarn is uniformly wound on the bobbin;

3. the matching of the locking shaft and the inner wall of the yarn barrel reduces the natural vibration of the yarn barrel in the winding process, and the locking shaft can be smoothly inserted into the yarn barrel to be matched so as to avoid interference.

Drawings

Fig. 1 is a schematic overall structure diagram of a front winding machine according to an embodiment of the present application.

Fig. 2 is an exploded schematic view of a front winding machine according to an embodiment of the present application.

Fig. 3 is a front view of a front winding machine according to an embodiment of the present application.

Fig. 4 is a partially enlarged schematic view at a in fig. 3.

Description of reference numerals: 1. a support;

2. a frame; 21. a vertical plate; 22. a shaft sleeve;

3. a wire structure; 31. a second wire guide rod; 32. a cross bar;

4. a winding structure; 41. a winding seat; 42. a wire winding rod; 43. a mounting seat;

5. a drive structure; 51. a drive motor; 52. a belt; 53. a rotating shaft; 54. a first rotating wheel; 55. a second rotating wheel; 56. a third rotating wheel; 57. a fourth transmission wheel;

6. a locking structure; 61. a traveler; 62. a handle; 63. a locking shaft; 64. positioning pins; 65. a strip-shaped hole; 66. a chute; 67. a spring;

7. a yarn moving structure; 71. a reciprocating screw; 72. a slider; 73. a strut; 74. a wire guide; 75. and (7) fixing the plate.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses a preposed winding machine of a high-speed braiding machine. Referring to fig. 1 and 2, a leading coiling machine of high-speed braider includes support 1 and frame 2 that is located support 1 one side, frame 2 and support 1 bolted connection, be provided with wire structure 3 on the support 1, be provided with winding structure 4 on the frame 2, drive structure 5 and yarn removal structure 7 with winding structure 4 transmission is connected, lead the yarn to winding structure 4 through wire structure 3 of support 1, drive structure 5 is used for driving winding structure 4 and yarn removal structure 7 and operates, winding structure 4 winds the yarn, and yarn removal structure 7 is used for adjusting the orbit of yarn transmission, make the yarn evenly wind on the spool.

Wire structure 3 is including setting up in a plurality of second guide wire poles 31 on 1 top of support and setting up in the horizontal pole 32 in 1 middle part of support, and is a plurality of the guide wire pole has all seted up the wire guide with horizontal pole 32, and the yarn leads to wire winding structure 4 through the wire guide on second guide wire pole 31 and the horizontal pole 32, avoids the yarn to twine each other in the transportation and leads to influencing subsequent production.

Frame 2 is including the extension board of installation wire winding structure 4 and yarn removal structure 7, wire winding structure 4 has two, every wire winding structure 4 includes mount pad 43 and wire winding seat 41, wire winding seat 41 rotates and is connected with wire winding rod 42 and this wire winding rod 42 passes wire winding seat 41 and is connected with the transmission of drive structure 5, be provided with traveller 61 in the mount pad 43, it is connected with locking axle 63 to rotate on the traveller 61, cylindric spout 66 has been seted up along wire winding rod 42 axial to mount pad 41, traveller 61 slides along wire winding rod 42 axial with spout 66 and is connected, locking axle 63 is the circular platform form and is used for with the cooperation of cylindric structure butt on the inner wall of yarn section of thick bamboo, locking axle 63 and relative and rotation axis coincidence between them of wire winding rod 42, locking axle 63 is used for respectively pegging graft with spool both ends opening with wire winding rod 42 to this fixed spool. And the slide post 61 is connected with a locking structure 6 for fixing the bobbin between the winding rod 42 and the locking shaft 63, and the yarn is wound on the bobbin.

Because the spool is long tube-shape, for making yarn evenly distributed on the spool, need adjust the transport orbit of yarn, with the yarn evenly coiling on the spool periphery wall. Therefore, two risers 21 are bolted on the support plate, a circular tube-shaped shaft sleeve 22 is integrally arranged at one end of each riser 21 far away from the machine frame 2, and the yarn moving structure 7 comprises a support rod 73, a yarn guide 74 connected with the support rod 73 and a driving piece in transmission connection with the support rod, wherein the support rod 73 penetrates through the shaft sleeve 22 and is connected with the shaft sleeve 22 in a sliding manner along the axial direction of the winding rod 42. The wire guide 74 includes a first wire guide rod with a wire guide hole, the first wire guide rod is connected to the support rod 73 by a bolt and is perpendicular to the support rod 73, and the wire guide hole is located at the upper oblique side of the wire winding rod 42.

The driving piece comprises a reciprocating lead screw 71 and a sliding block 72, the reciprocating lead screw 71 is positioned between the bracket 1 and the winding structure 4, a screw rod of the reciprocating lead screw 71 is rotatably connected with the support plate, the screw rod of the reciprocating lead screw 71 is in transmission connection with the driving structure 5, a nut of the reciprocating lead screw 71 is in bolt connection with the sliding block 72, and the sliding block 72 is fixed with the support rod 73 through a connecting piece. The connecting piece comprises a fixing plate 75, one end of the fixing plate is connected with the top of the sliding block 72 through a bolt, and the horn-shaped end of the fixing plate is connected with the supporting rod 73 through a bolt, so that the sliding block 72 and the supporting rod 73 are fixed.

The driving structure 5 comprises a driving motor 51, a belt 52, a rotating shaft 53, a first rotating wheel 54, two second rotating wheels 55 and a fourth rotating wheel 57 which are sleeved on the rotating shaft 53, a shell of the driving motor 51 is fixed with the rack 1 through a bolt, an output shaft of the driving motor is coaxially fixed with a third rotating wheel 56, the third rotating wheel 56 is in transmission connection with the fourth driving wheel 57 through the belt 52, the rotating shaft 53 is located below the supporting plate and is in transmission connection with the rack 2, the first rotating wheel 54 is circumferentially fixed with a screw of the reciprocating screw rod 71, the first rotating wheel 54 is in transmission connection with the rotating shaft 53 through the belt 52, the number of the belts 52 is three, and the rotating wheels are in transmission connection with the winding rod 42 through the belt 52.

Referring to fig. 2, 3, and 4, the locking structure 6 includes a handle 62, a spring 67, and a positioning pin 64 bolted to the slider 72, a sliding hole communicated with the sliding groove 66 is formed in the winding seat 41, the positioning pin 64 passes through the sliding hole and is connected to the sliding hole in a sliding and rotating manner, a sliding direction of the positioning pin 64 is the same as a sliding direction of the sliding post 61, the handle 62 is hinged to the mounting seat 43, a bar-shaped hole 65 is formed in a rod portion of the handle 62, the positioning pin 64 is connected to the bar-shaped hole 65 in a sliding and rotating manner, one end of the spring 67 is fixed to one side of the frame 2 close to the winding seat 41 by a bolt, and the other end of the spring 67 is fixed to the positioning pin 64.

The implementation principle of the preposed winding machine of the high-speed braiding machine in the embodiment of the application is as follows: when the bobbin is installed, the handle 62 is pulled to drive the positioning pin 64, the positioning pin 64 drives the sliding column 61 to move, the opening at one end of the bobbin is connected with the winding rod 42 in an inserting mode, the locking shaft 63 is connected with the opening at the other end of the bobbin in an inserting mode, then the handle 62 is released, and the spring drives the handle 62 to reset to enable the locking shaft 63 to be connected with the opening at the other end of the bobbin in an inserting mode.

Before the winding machine operates, a user sleeves a plurality of bobbins on a plurality of winding rods 42 and winds yarns on the bobbins from one side of the bracket 1 through the wire holes.

When the winding machine operates, a user opens the driving motor 51 to drive the reciprocating screw 71 and the winding rod 42 to operate, so that yarns are uniformly wound on bobbins, the positioning pin 64 can be driven by pulling the handle 62 in the process, the positioning pin 64 drives the sliding column 61 to move, the locking shaft 63 is separated from the bobbins, the bobbins are replaced, automatic winding is realized, winding work of a plurality of bobbins is realized by one power source, manpower waste is reduced, the working efficiency is improved, and the production cost of products is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a leading coiling machine of high-speed braider which characterized in that: including frame (2) and be located support (1) on frame (2), be provided with wire structure (3) on support (1), be provided with winding structure (4) on frame (2) and drive structure (5) be connected with winding structure (4) transmission, winding structure (4) have the multiunit, and every group winding structure (4) is including mount pad (43) and wire winding seat (41), wire winding seat (41) rotate be connected with wire winding pole (42) and this wire winding pole (42) pass wire winding seat (41) and be connected with drive structure (5) transmission, be provided with traveller (61) in mount pad (43), the moving direction of traveller (61) is the axial of wire winding pole (42), traveller (61) rotate be connected with locking axle (63), locking axle (63) and wire winding pole (42) are used for pegging graft with spool both ends opening respectively, traveller (61) are connected with and are used for fixing the spool between wire winding pole (42) and locking axle (63) A locking structure (6).

2. The forward winding machine of the high-speed knitting machine as claimed in claim 1, characterized in that: the yarn guiding device is characterized in that a support rod (73) located between the support (1) and the winding seat (41) and a yarn guiding device (74) connected with the support rod (73) and used for guiding yarns are further arranged on the rack (2), the support rod (73) is connected with the rack (2) in a sliding mode, and the support rod (73) is connected with a driving piece used for driving the support rod (73) to slide along the axial direction of the winding rod (42).

3. The forward winding machine of the high-speed knitting machine as claimed in claim 2, characterized in that: the driving piece comprises a reciprocating lead screw (71) and a sliding block (72), the reciprocating lead screw (71) is located between the support (1) and the winding seat (41), the driving structure (5) is in transmission connection with a screw of the reciprocating lead screw (71), the sliding block (72) is connected with a nut of the reciprocating lead screw (71), the sliding block (72) is connected with a support rod (73) through a connecting piece, and the sliding direction of the sliding block (72) is consistent with the axial direction of the winding rod (42).

4. The forward winding machine of the high-speed knitting machine as claimed in claim 3, characterized in that: the yarn guide device (74) comprises a first yarn guide rod, the first yarn guide rod is detachably connected with the support rod (73), and a yarn guide hole for yarn to pass through is formed in the first yarn guide rod.

5. The forward winding machine of the high-speed knitting machine as claimed in claim 4, characterized in that: be connected with a plurality of risers (21) on frame (2), every the one end that frame (2) were kept away from in riser (21) is connected with axle sleeve (22), branch (73) slide with axle sleeve (22) and are connected.

6. The forward winding machine of the high-speed knitting machine as claimed in claim 3, characterized in that: the connecting piece includes fixed plate (75), the fixed plate is connected with slider (72), branch (73) can be dismantled with the one end that the slider (72) was kept away from to the fixed plate and be connected.

7. The forward winding machine of the high-speed knitting machine as claimed in claim 3, characterized in that: drive structure (5) include driving motor (51), a plurality of belts (52), pivot (53), first rotation wheel (54) and fixed cover locate a plurality of second on pivot (53) and rotate wheel (55), pivot (53) are rotated with frame (2) and are connected, first rotation wheel (54) is fixed with the screw rod circumference of reciprocal lead screw (71), the second is rotated and is taken turns (55) and is connected through belt (52) transmission between wire winding pole (42), be connected through belt (52) transmission between first rotation wheel (54) and the pivot (53), driving motor (51) are connected through belt (52) transmission with pivot (53).

8. The forward winding machine of the high-speed knitting machine as claimed in claim 1, characterized in that: locking structure (6) include handle (62), spring (67) and with slider (72) fixed connection's locating pin (64), spout (66) have been seted up on mount pad (43), traveller (61) slide with spout (66) and are connected, handle (62) are articulated with mount pad (43), bar hole (65) have been seted up on handle (62), set up the slide opening with spout (66) intercommunication on mount pad (43), locating pin (64) slide with the slide opening and rotate and be connected, locating pin (64) pass the slide opening and slide bar hole (65) and rotate and be connected, spring (67) one end is connected and spring (67) other end is connected with locating pin (64) with frame (2) are close to one side of wire winding seat (41).

9. The forward winding machine of the high-speed knitting machine as claimed in claim 8, characterized in that: the locking shaft (63) is in a circular truncated cone shape, and one end with a smaller diameter of the circular surface of the locking shaft is used for being abutted and matched with the circular opening at the end part of the bobbin.

10. The forward winding machine of the high-speed knitting machine as claimed in claim 1, characterized in that: wire structure (3) are including setting up in a plurality of second guide wire poles (31) on support (1) top and setting up in horizontal pole (32) at support (1) middle part, and are a plurality of the wire guide has all been seted up with horizontal pole (32) to the guide wire pole, and the yarn passes a plurality of wire guide holes to installing spool on wire winding pole (42).

Images