CN111691073A

CN111691073A - Quilting machine capable of feeding and discharging in translation mode

Info

Publication number: CN111691073A
Application number: CN202010459135.XA
Authority: CN
Inventors: 周世荣
Original assignee: Wuhan Zhida Textile Technology Co ltd
Current assignee: DONGYANG JINKE CLOTHING Co.,Ltd.
Priority date: 2020-05-27
Filing date: 2020-05-27
Publication date: 2020-09-22
Anticipated expiration: 2040-05-27
Also published as: CN111691073B

Abstract

The invention discloses a quilter capable of feeding and discharging in a translation mode, wherein a front support group and a rear support group comprise a left fixed column, a right fixed column, a left moving column and a right moving column; the left moving column of the same front and rear support group is positioned at the rear side of the left fixed column; the right moving column of the same rear support group is positioned at the rear side of the right fixed column; the left fixing column is fixed on the right end surface of the left supporting column; the right fixing column is fixed on the left end surface of the right supporting column; a fixed connecting support rod is formed on the left end surface of the right fixed column; the fixed connecting support rod is arranged on the left fixing column in a left-right telescopic manner; the left moving column is arranged on the right end surface of the left supporting column in a back-and-forth movement mode; the right moving column is arranged on the left end surface of the right supporting column in a back-and-forth movement mode; a movable connecting support rod is formed on the left end face of the right movable column; the movable connecting support rod is arranged on the left movable column in a left-right telescopic manner; the material rack body moves back and forth and is arranged on the upper end surface of the upper supporting frame.

Description

Quilting machine capable of feeding and discharging in translation mode

Technical Field

The invention relates to the technical field of quilting machines, in particular to a quilting machine capable of horizontally feeding and discharging materials.

Background

The quilting machine is a textile machine for applying linear patterns on mattresses, bedspreads, quilts, quilt covers and the like. The quilter can move in a three-dimensional space, and particularly after the computer quilter appears, the quilter has wider application range and higher production efficiency.

The existing quilting machines all rely on the movement of a machine head to realize work. For example, when processing the down quilt, the down in the down quilt needs to be uniformly distributed in the quilt cover, otherwise, the comfort is affected. Therefore, it is necessary to sew a center seam on the duvet. The existing sewing method is to send the quilted material to a quilting machine for sewing through a feeding mechanism. Specifically, the quilting material is loaded alternately through a pair of stretching frames for clamping quilted materials; when the quilting machine is operated continuously, much time is wasted in the material changing process and the placing process, and the efficiency is low. Meanwhile, the stretching frame is of a fixed structure and can only be used for one sewing object, and the function is single.

Disclosure of Invention

The invention aims to solve the technical problem that the production efficiency is low due to the fact that time is wasted in material changing and placing of an existing quilting machine, and provides a quilting machine capable of feeding and discharging in a translation mode.

The technical scheme for solving the technical problems is as follows: a quilting machine capable of feeding and discharging materials in a translation mode comprises a support, a quilting unit and a movable material rack; the bracket comprises an upper supporting frame in a rectangular frame shape; rectangular plate-shaped supporting foot plates are formed on the lower end surfaces of the pair of transverse parts of the upper supporting frame; the quilting unit comprises a quilting bracket with a downward opening and in a shape like a Chinese character 'ji'; the quilting bracket stretches across the bracket from left to right and is arranged on the upper supporting frame in a front-back sliding manner; a quilting machine head is arranged on the lower end surface of the horizontal part of the quilting bracket in a left-right moving manner; the movable rack comprises a rack body; the material rack body comprises a left supporting column on the left side, a right supporting column on the right side and two front and rear supporting groups which are distributed in a front-and-rear mode; the left support column and the right support column are arranged in an adjustable mode at a left-right interval; the front and rear support groups comprise a left fixed column, a right fixed column, a left moving column and a right moving column; the left moving column of the same front and rear support group is positioned at the rear side of the left fixed column; the right moving column of the same rear support group is positioned at the rear side of the right fixed column; the left fixing column is fixed on the right end surface of the left supporting column; the right fixing column is fixed on the left end surface of the right supporting column; a fixed connecting support rod is formed on the left end surface of the right fixed column; the fixed connecting support rod is arranged on the left fixing column in a left-right telescopic manner; the left moving column is arranged on the right end surface of the left supporting column in a back-and-forth movement mode; the right moving column is arranged on the left end surface of the right supporting column in a back-and-forth movement mode; a movable connecting support rod is formed on the left end face of the right movable column; the movable connecting support rod is arranged on the left movable column in a left-right telescopic manner; a pair of left moving columns and a pair of right moving columns of the two front and rear support groups move back and forth synchronously; the material rack body is arranged on the upper end surface of the upper supporting frame in a back-and-forth movement mode; a plurality of evenly distributed clamps are respectively fixed on the upper end surfaces of the left supporting column, the right supporting column, the left fixing column, the right fixing column, the left moving column and the right moving column; the two groups of front and rear supporting groups are alternately positioned right above the upper supporting frame.

Preferably, the upper end surfaces of the pair of transverse parts of the upper supporting frame are respectively provided with a left guide groove and a right guide groove; a pair of left and right moving blocks are arranged in the left and right guide grooves in a left and right moving mode; the pair of left and right moving blocks are synchronously far away or close to each other; the upper parts of the left and right moving blocks are shaped into a T shape; a left front and rear guide groove matched with the upper part of the left and right moving blocks on the left side is formed on the lower end surface of the left supporting column; and a right front and rear guide groove matched with the upper parts of the left and right moving blocks on the right side is formed on the lower end surface of the right supporting column.

Preferably, a left driving threaded rod and a right driving threaded rod are pivoted between the left side wall and the right side wall of the left guide groove and the right guide groove; the left part and the right part of the left and right driving threaded rod are respectively provided with external threads with opposite rotation directions; a pair of left and right driving motors which are symmetrically arranged front and back are fixed on the left end surface of the upper supporting frame; the left end of the left and right driving threaded rod is fixedly connected with the output shaft of the left and right driving motor on the corresponding side; the lower parts of the left and right moving blocks move left and right and are arranged in the left and right guide grooves and are respectively screwed on different thread parts of the left and right driving threaded rods.

Preferably, a pair of moving guide grooves which are symmetrically arranged front and back are respectively formed on the left end surface of the left supporting column and the left end surface of the right supporting column; the left end surface of the left moving column and the right end surface of the right moving column are respectively provided with a moving guide block; the movable guide block is arranged in the movable guide groove on the corresponding side in a front-and-back movement manner; a front driving threaded rod and a rear driving threaded rod are respectively pivoted in the left supporting column and the right supporting column; the front and back driving threaded rod passes through the pair of moving guide grooves on the corresponding side in the front and back direction; the movable guide block is in threaded connection with the front and rear driving threaded rods on the corresponding side; front and rear driving motors are respectively fixed on the rear end surfaces of the left supporting column and the right supporting column; the rear end of the front and rear driving threaded rod is fixedly connected with the output shaft of the front and rear driving motor on the corresponding side.

Preferably, the front end and the rear end of the right end surface of the left support column are respectively provided with a left auxiliary column; the front end and the rear end of the left end surface of the right supporting column are respectively provided with a right auxiliary column; an auxiliary connecting rod is formed on the left end face of the right auxiliary column; the auxiliary connecting rod is telescopically arranged on the left auxiliary column on the corresponding side in the left-right direction; forming an auxiliary bottom plate on the lower end surfaces of the left auxiliary column and the right auxiliary column; the lower part of the auxiliary bottom plate passes through the front and back direction and is telescopically provided with an auxiliary limiting rod; a pair of electromagnets which are arranged in bilateral symmetry are respectively arranged on the end surfaces of the pair of supporting foot plates which are far away from each other; and a metal limiting block matched with the electromagnet is formed at one end of the auxiliary limiting rod, which is close to the bracket.

Preferably, the front end face and the rear end face of the auxiliary bottom plate are respectively fixed with a limiting nut; the auxiliary limiting rod is formed with external threads; the auxiliary limiting rod penetrates through and is screwed on the pair of limiting nuts on the corresponding side.

Preferably, the auxiliary bottom plate has a pair of inner universal wheels on a bottom surface thereof.

Preferably, a lower connecting plate is arranged between the pair of vertical parts of the quilting bracket; the lower connecting plate is positioned at the lower side of the upper supporting frame.

Preferably, the quilting frame is provided with a pair of vertical parts at the bottom with external universal wheels.

The invention has the beneficial effects that: quilting is carried out continuously, and the production efficiency is high.

Drawings

FIG. 1 is a front view of the present invention;

fig. 2 is a schematic top view of the present invention.

In the figure, 10, the stent; 11. an upper support frame; 110. a left guide groove and a right guide groove; 12. a support leg plate; 20. a quilting unit; 21. a quilting support; 22. a quilting machine head; 23. a lower connecting plate; 24. an outer universal wheel; 30. moving the material rack; 31. a left and right driving motor; 32. driving the threaded rod left and right; 33. a left moving block and a right moving block; 34. a rack body; 341. a left support column; 3410. a left front and rear guide groove; 3411. a left auxiliary column; 3413. a left shift column; 3415. a left fixed column; 342. a right support column; 3420. a right front rear guide groove; 3421. a right auxiliary column; 3422. an auxiliary connecting rod; 3423. a right moving column; 3424. the support rod is movably connected; 3425. a right fixed column; 3426. the supporting rod is fixedly connected; 35. a front and rear driving motor; 36. an auxiliary limit rod; 361. a metal stopper; 37. an electromagnet; 38. an auxiliary base plate; 381. a limit nut; 382. an inner universal wheel.

Detailed Description

As shown in fig. 1 and 2, a quilting machine with translational loading and unloading includes a support 10, a quilting unit 20 and a moving stack 30; the holder 10 includes an upper support frame 11 in a rectangular frame shape; rectangular plate-shaped supporting foot plates 12 are formed on the lower end surfaces of the pair of transverse parts of the upper supporting frame 11; the quilting unit 20 includes a "d" -shaped quilting support 21 having an opening disposed downward; the quilting bracket 21 crosses the bracket 10 from left to right and is arranged on the upper supporting frame 11 in a sliding way from front to back; a quilting machine head 22 is arranged on the lower end surface of the horizontal part of the quilting bracket 21 and moves left and right; the moving rack 30 includes a rack body 34; the rack body 34 comprises a left supporting column 341 on the left side, a right supporting column 342 on the right side, and two front and rear supporting groups which are distributed front and rear; the left support column 341 and the right support column 342 are arranged in an adjustable manner; the front and rear support groups comprise a left fixed column 3415, a right fixed column 3425, a left moving column 3413 and a right moving column 3423; the left moving post 3413 of the same front and rear support group is located on the rear side of the left fixed post 3415; the right moving post 3423 of the same rear support group is located on the rear side of the right fixed post 3425; the left fixing post 3415 is fixed on the right end surface of the left supporting column 341; a right fixing column 3425 is fixed on the left end face of the right supporting column 342; a fixed connection supporting rod 3426 is formed on the left end surface of the right fixed column 3425; the fixed connecting support rod 3426 is arranged on the left fixing column 3415 in a left-right telescopic manner; a left moving column 3413 is provided on the right end surface of the left support column 341 to move back and forth; the right moving column 3423 is arranged on the left end surface of the right supporting column 342 in a back-and-forth movement manner; a movable connecting support bar 3424 is formed on the left end surface of the right movable column 3423; the movable connecting support rod 3424 is arranged on the left movable post 3413 in a left-right telescopic manner; a pair of left moving posts 3413 and a pair of right moving posts 3423 of the two front and rear support groups move back and forth synchronously; the rack body 34 is arranged on the upper end surface of the upper supporting frame 11 in a back-and-forth movement manner; a plurality of evenly distributed clamps are respectively fixed on the upper end surfaces of the left supporting column 341, the right supporting column 342, the left fixed column 3415, the right fixed column 3425, the left moving column 3413 and the right moving column 3423; the two front and rear support groups are alternately positioned right above the upper support frame 11.

As shown in fig. 1 and 2, left and right guide grooves 110 are respectively formed on the upper end surfaces of the pair of lateral portions of the upper support frame 11; a pair of left and right moving blocks 33 are arranged in the left and right guide grooves 110 in a left-right moving manner; the pair of left and right moving blocks 33 are synchronously arranged far away or close to each other; the upper part of the left and right moving blocks 33 is shaped like a T; a left front and rear guide groove 3410 matched with the upper part of the left and right moving block 33 on the left side is formed on the lower end surface of the left supporting column 341; a right front and rear guide groove 3420 is formed on the lower end surface of the right support column 342 to be engaged with the upper portion of the right left and right moving blocks 33.

As shown in fig. 1 and 2, a left and a right driving screw rods 32 are pivoted between left and right sidewalls of the left and right guide grooves 110; the left part and the right part of the left-right driving threaded rod 32 are respectively provided with external threads with opposite rotation directions; a pair of left and right driving motors 31 which are symmetrically arranged front and back are fixed on the left end surface of the upper supporting frame 11; the left end of the left and right driving threaded rod 32 is fixedly connected with the output shaft of the left and right driving motor 31 on the corresponding side; the lower portions of the pair of left and right moving blocks 33 are disposed in the left and right guide grooves 110 to be moved left and right and are screwed to different screw portions of the left and right driving screw rods 32, respectively.

As shown in fig. 1 and 2, a pair of moving guide grooves symmetrically arranged in front and back are respectively formed on the left end surface of the left supporting column 341 and the left end surface of the right supporting column 342; a left end surface of the left moving column 3413 and a right end surface of the right moving column 3423 are respectively provided with a moving guide block; the movable guide block is arranged in the movable guide groove on the corresponding side in a front-and-back movement manner; the left supporting column 341 and the right supporting column 342 are respectively pivoted with a front-back driving threaded rod; the front and back driving threaded rod passes through the pair of moving guide grooves on the corresponding side in the front and back direction; the movable guide block is in threaded connection with the front and rear driving threaded rods on the corresponding side; the front and rear driving motors 35 are respectively fixed on the rear end surfaces of the left supporting column 341 and the right supporting column 342; the rear end of the front and rear driving threaded rod is fixedly connected with the output shaft of the front and rear driving motor 35 on the corresponding side.

As shown in fig. 1 and 2, left auxiliary posts 3411 are respectively formed at the front and rear ends of the right end surface of the left support post 341; a right auxiliary column 3421 is respectively formed at the front end and the rear end of the left end face of the right supporting column 342; an auxiliary connecting rod 3422 is formed on the left end surface of the right auxiliary column 3421; the auxiliary connecting rod 3422 is telescopically arranged on the left auxiliary post 3411 on the corresponding side in the left-right direction; auxiliary bottom plates 38 are formed on the lower end surfaces of the left auxiliary post 3411 and the right auxiliary post 3421; the lower part of the auxiliary bottom plate 38 passes through in the front-back direction and is provided with an auxiliary limit rod 36 in a telescopic way; a pair of electromagnets 37 which are arranged in bilateral symmetry are respectively arranged on the end surfaces of the pair of supporting foot plates 12 which are far away from each other; a metal limit block 361 matched with the electromagnet 37 is formed at one end of the auxiliary limit rod 36 close to the bracket 10.

As shown in fig. 1 and 2, the front and rear end surfaces of the auxiliary bottom plate 38 are respectively fixed with a limit nut 381; the auxiliary limit rod 36 is formed with external threads; the auxiliary stopper rod 36 passes through and is screwed to a pair of stopper nuts 381 on the respective sides.

As shown in fig. 1, a pair of inner universal wheels 382 is provided on the bottom surface of the auxiliary bottom plate 38.

As shown in fig. 1, a lower connecting plate 23 is provided between a pair of vertical portions of the quilting bracket 21; the lower connection plate 23 is located at the lower side of the upper support frame 11.

As shown in fig. 1, a pair of vertical portion bottoms of the quilting support frame 21 are provided with outer casters 24.

The working principle of the quilter with the feeding and discharging functions in a translation mode;

in operation, as shown in fig. 1 and 2, the quilting unit 20 quilts the quilted material held by the clips of a front and rear support group, a left support column 341 and a right support column 342 located right above the upper support frame 11; the worker clamps a new quilted material by operating the clamps on the pair of front and rear support groups, the left support column 341 and the right support column 342 on the outer side of the upper support frame 11, and after the quilting of the quilted material right above the upper support frame 11 is completed, the quilted material completed by quilting is moved to the outer side of the upper support frame 11 and the new quilted material is moved right above the upper support frame 11 by moving the material rest 30 back and forth, so that the quilted material completed by quilting is taken down and the new quilted material is loaded to facilitate the subsequent quilting, and the quilting work is continuously performed, and the work efficiency is high; the electromagnet 37 and the metal limit block 361 enable the limit of the movable material rack 30 to be accurate and stable, and high-quality completion of subsequent quilting work is facilitated;

the space between the left supporting column 341 and the right supporting column 342 and the space between the left fixed column 3415 and the left movable column 3413 of the two front and rear supporting groups (the space between the right fixed column 3425 and the right movable column 3423) can be adjusted to adapt to different quilting sizes, so that the application range is wider.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

Claims

1. The utility model provides a quilter of unloading in translation which characterized in that: comprises a bracket (10), a quilting unit (20) and a movable material rack (30); the support (10) comprises an upper support frame (11) in a rectangular frame shape; a rectangular plate-shaped supporting foot plate (12) is formed on the lower end surfaces of the pair of transverse parts of the upper supporting frame (11); the quilting unit (20) comprises a quilting bracket (21) with a downward opening and in a shape of a Chinese character 'ji'; the quilting support (21) transversely crosses the support (10) and is arranged on the upper support frame (11) in a sliding manner in the front and back direction; a quilting machine head (22) is arranged on the lower end surface of the horizontal part of the quilting bracket (21) in a left-right moving manner; the movable rack (30) comprises a rack body (34); the material rack body (34) comprises a left supporting column (341) on the left side, a right supporting column (342) on the right side and two front and rear supporting groups which are distributed in the front and rear direction; the left support column (341) and the right support column (342) are arranged in an adjustable manner; the front and rear support groups comprise a left fixed column (3415), a right fixed column (3425), a left moving column (3413) and a right moving column (3423); the left moving column (3413) of the same front and rear support group is positioned at the rear side of the left fixed column (3415); the right moving column (3423) of the same rear support group is positioned at the rear side of the right fixed column (3425); a left fixed column (3415) is fixed on the right end surface of the left supporting column (341); a right fixing column (3425) is fixed on the left end face of the right supporting column (342); a fixed connection supporting rod (3426) is formed on the left end surface of the right fixed column (3425); the fixed connecting support rod (3426) is arranged on the left fixing column (3415) in a left-right telescopic manner; the left moving column (3413) is arranged on the right end surface of the left supporting column (341) in a front-back movement mode; the right moving column (3423) is arranged on the left end face of the right supporting column (342) in a back-and-forth movement mode; a movable connecting support rod (3424) is formed on the left end surface of the right movable column (3423); the movable connecting support rod (3424) is arranged on the left movable column (3413) in a left-right telescopic manner; a pair of left moving columns (3413) and a pair of right moving columns (3423) of the two front and rear support groups move back and forth synchronously; the material rack body (34) is arranged on the upper end surface of the upper supporting frame (11) in a back-and-forth movement manner; a plurality of evenly distributed clamps are respectively fixed on the upper end surfaces of the left supporting column (341), the right supporting column (342), the left fixing column (3415), the right fixing column (3425), the left moving column (3413) and the right moving column (3423); the two front and rear support groups are alternately positioned right above the upper support frame (11).

2. The quilting machine with translational loading and unloading function as claimed in claim 1, wherein: a left guide groove and a right guide groove (110) are respectively formed on the upper end surfaces of the pair of transverse parts of the upper support frame (11); a pair of left and right moving blocks (33) are arranged in the left and right guide grooves (110) in a left-right moving mode; the pair of left and right moving blocks (33) are synchronously arranged far away or close to each other; the upper parts of the left and right moving blocks (33) are formed into a T shape; a left front and rear guide groove (3410) matched with the upper part of the left and right moving block (33) is formed on the lower end surface of the left supporting column (341); the lower end surface of the right supporting column (342) is provided with a right front and rear guide groove (3420) which is matched with the upper part of the right left and right moving block (33).

3. The quilting machine with translational loading and unloading function as claimed in claim 2, wherein: a left driving threaded rod (32) and a right driving threaded rod (32) are pivoted between the left side wall and the right side wall of the left guide groove and the right guide groove (110); the left part and the right part of the left and right driving threaded rod (32) are respectively formed with external threads with opposite rotation directions; a pair of left and right driving motors (31) which are symmetrically arranged in front and back are fixed on the left end surface of the upper supporting frame (11); the left end of the left and right driving threaded rod (32) is fixedly connected with the output shaft of the left and right driving motor (31) on the corresponding side; the lower parts of the pair of left and right moving blocks (33) are arranged in the left and right guide grooves (110) in a left and right moving mode and are respectively screwed on different thread parts of the left and right driving threaded rods (32).

4. The quilting machine with translational loading and unloading function as claimed in claim 1, wherein: a pair of moving guide grooves which are symmetrically arranged front and back are respectively formed on the left end surface of the left supporting column (341) and the left end surface of the right supporting column (342); the left end surface of the left moving column (3413) and the right end surface of the right moving column (3423) are respectively provided with a moving guide block; the movable guide block is arranged in the movable guide groove on the corresponding side in a front-and-back movement manner; a front driving threaded rod and a rear driving threaded rod are respectively pivoted in the left supporting column (341) and the right supporting column (342); the front and back driving threaded rod passes through the pair of moving guide grooves on the corresponding side in the front and back direction; the movable guide block is in threaded connection with the front and rear driving threaded rods on the corresponding side; front and rear driving motors (35) are respectively fixed on the rear end surfaces of the left supporting column (341) and the right supporting column (342); the rear end of the front and rear driving threaded rod is fixedly connected with an output shaft of a front and rear driving motor (35) on the corresponding side.

5. The quilting machine with translational loading and unloading function as claimed in claim 1, wherein: left auxiliary columns (3411) are respectively formed at the front end and the rear end of the right end face of the left supporting column (341); the front end and the rear end of the left end surface of the right supporting column (342) are respectively provided with a right auxiliary column (3421); an auxiliary connecting rod (3422) is formed on the left end face of the right auxiliary column (3421); the auxiliary connecting rod (3422) is arranged on the left auxiliary column (3411) on the corresponding side in a left-right telescopic mode; an auxiliary bottom plate (38) is formed on the lower end surfaces of the left auxiliary post (3411) and the right auxiliary post (3421); the lower part of the auxiliary bottom plate (38) passes through the front-back direction and is provided with an auxiliary limiting rod (36) in a telescopic way; a pair of electromagnets (37) which are arranged symmetrically left and right are respectively arranged on the end surfaces of the pair of supporting foot plates (12) which are far away from each other; one end of the auxiliary limiting rod (36) close to the bracket (10) is formed with a metal limiting block (361) matched with the electromagnet (37).

6. The quilting machine with translational loading and unloading function as claimed in claim 5, wherein: limiting nuts (381) are respectively fixed on the front end face and the rear end face of the auxiliary bottom plate (38); the auxiliary limiting rod (36) is formed with external threads; the auxiliary limit rod (36) passes through and is screwed on a pair of limit nuts (381) on the corresponding side.

7. The quilting machine with translational loading and unloading function as claimed in claim 5, wherein: a pair of inner universal wheels (382) are provided on the bottom surface of the auxiliary bottom plate (38).

8. The quilting machine with translational loading and unloading function as claimed in claim 1, wherein: a lower connecting plate (23) is arranged between a pair of vertical parts of the quilting bracket (21); the lower connecting plate (23) is positioned at the lower side of the upper supporting frame (11).

9. The quilting machine with translational loading and unloading function as claimed in claim 1, wherein: the bottoms of a pair of vertical parts of the quilting bracket (21) are provided with outer universal wheels (24).