CN210368199U - Sewing structure - Google Patents

Abstract

The utility model discloses a sewing structure aims at providing a simple structure, uses nimble, operation stable, the low sewing structure of fault rate. The utility model comprises an X-axis motion mechanism, a Y-axis motion mechanism, a Z-axis motion mechanism and a pressing plate, wherein the pressing plate is provided with a sewing strip-shaped hole, the X-axis motion mechanism comprises a track mounting seat, two X-direction guide rails and an X-axis mounting plate, the two X-direction guide rails are parallel to each other, a plurality of X-axis sliders are arranged on the two X-direction guide rails in a sliding way, the plurality of X-axis sliders are all arranged on the track mounting seat, and the two X-direction guide rails are all arranged at the bottom of the X-axis mounting plate; an X-axis stepping motor is arranged on the X-axis mounting plate, an output shaft of the X-axis stepping motor vertically penetrates through the X-axis mounting plate, a gear is arranged on the output shaft of the X-axis stepping motor, a rack matched with the gear is arranged on the track mounting seat, and the rack is parallel to the X-direction guide rail; the Y-axis movement mechanism is arranged on the X-axis mounting plate. The utility model discloses be applied to the technical field of sewing structure.

Description

Sewing structure

Technical Field

The utility model relates to a sewing structure.

Background

The sewing structure is an important structure on an automatic sewing machine, and can move cloth according to a set sewing track when sewing, but the current sewing structure is unstable in movement and poor in flexibility, sometimes causes a sewing needle to collide with a pressing frame due to reasons such as shaking and unstable in movement, further causes machine faults such as needle breakage, and also causes poor sewing quality and other bad phenomena.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide a simple structure, use nimble, the operation is stable, the low sewing structure of fault rate.

The utility model adopts the technical proposal that: the utility model discloses an X axle motion, set up Y axle motion on the X axle motion, set up Z axle motion on the Y axle motion and set up the clamp plate on the Z axle motion, be equipped with sewing bar hole on the clamp plate, X axle motion includes track mount pad, two X to guide rail, X axle mounting panel, two X to the guide rail is parallel to each other, two X to the guide rail on all sliding and being provided with a plurality of X axle slider, a plurality of X axle slider all sets up the track mount pad, two X to the guide rail all set up X axle mounting panel bottom; an X-axis stepping motor is arranged on the X-axis mounting plate, an output shaft of the X-axis stepping motor vertically penetrates through the X-axis mounting plate, a gear is arranged on the output shaft of the X-axis stepping motor, a rack matched with the gear is arranged on the track mounting seat, and the rack is parallel to the X-direction guide rail; the Y-axis movement mechanism is arranged on the X-axis mounting plate.

Further, Y axle motion is including setting up Y axle mount pad, setting on the X axle mounting plate are in Y axle step motor on the Y axle mount pad, with belt pulley, the setting that Y axle step motor transmission is connected are in belt on the belt pulley, still be provided with Y to the guide rail on the Y axle mount pad, slide on the Y to the guide rail be provided with the Y axle slider that the belt is connected, be provided with Z axle motion mount pad on the Y axle slider, Z axle motion sets up on the Z axle motion mount pad.

Furthermore, a plurality of adjusting threaded holes are formed in the mounting seat of the Z-axis moving mechanism, and the Z-axis moving mechanism is connected with the adjusting threaded holes through screws and fixed on the mounting seat of the Z-axis moving mechanism.

Furthermore, the Z-axis movement mechanism is an air cylinder with a guide rail, the pressing plate is arranged at the output end of the air cylinder with the guide rail, and the output direction of the air cylinder with the guide rail is vertical downward.

Further, the bottom of the rail mounting seat is provided with a fixing plate.

The utility model has the advantages that: the utility model discloses a design that double guide rail combines rack and pinion drive, including X axle motion, set up Y axle motion on the X axle motion, set up Z axle motion on the Y axle motion and set up the clamp plate on the Z axle motion, be equipped with sewing bar hole on the clamp plate, X axle motion includes track mount pad, two X to guide rail, X axle mounting panel, two X to guide rail are parallel to each other, and two X to guide rail are all slided and are provided with a plurality of X axle slider, a plurality of X axle slider all set up in the track mount pad, two X to guide rail all set up in X axle mounting panel bottom; an X-axis stepping motor is arranged on the X-axis mounting plate, an output shaft of the X-axis stepping motor vertically penetrates through the X-axis mounting plate, a gear is arranged on the output shaft of the X-axis stepping motor, a rack matched with the gear is arranged on the track mounting seat, and the rack is parallel to the X-direction guide rail; y axle motion sets up on the X axle mounting panel, so, the utility model discloses simple structure, use nimble, the operation is stable, the fault rate is low.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of another view angle of the present invention.

Detailed Description

As shown in fig. 1 and fig. 2, in this embodiment, the present invention includes an X-axis moving mechanism 1, a Y-axis moving mechanism 2 disposed on the X-axis moving mechanism 1, a Z-axis moving mechanism 3 disposed on the Y-axis moving mechanism 2, and a pressing plate 4 disposed on the Z-axis moving mechanism 3, wherein the pressing plate 4 is provided with a sewing strip hole 5, the X-axis moving mechanism 1 includes a track mounting seat 6, two X-axis guide rails 7 and an X-axis mounting plate 8, the two X-axis guide rails 7 are parallel to each other, a plurality of X-axis sliders 9 are slidably disposed on the two X-axis guide rails 7, the plurality of X-axis sliders 9 are disposed on the track mounting seat 6, and the two X-axis guide rails 7 are disposed at the bottom of the X-axis mounting plate 8; an X-axis stepping motor 10 is arranged on the X-axis mounting plate 8, an output shaft of the X-axis stepping motor 10 vertically penetrates through the X-axis mounting plate 8, a gear 11 is arranged on the output shaft of the X-axis stepping motor 10, a rack 12 matched with the gear 11 is arranged on the track mounting seat 6, and the rack 12 is parallel to the X-direction guide rail 7; the Y-axis movement mechanism 2 is arranged on the X-axis mounting plate 8.

In this embodiment, Y axle motion 2 is including setting up Y axle mount pad 13, setting on the X axle mounting panel 8 are in Y axle step motor 14 on the Y axle mount pad 13, with belt pulley 15, the setting that Y axle step motor 14 transmission is connected are in belt 16 on the belt pulley 15, still be provided with Y to guide rail 17 on the Y axle mount pad 13, slide on the Y to guide rail 17 be provided with the Y axle slider 18 that belt 16 is connected, be provided with Z axle motion mount pad 19 on the Y axle slider 18, Z axle motion 3 sets up on Z axle motion mount pad 19. In the embodiment, the combination of the belt drive and the guide rail can make the operation of the Y-axis movement mechanism 2 more stable and can effectively reduce the failure rate.

In this embodiment, a plurality of adjusting threaded holes 20 are formed in the Z-axis moving mechanism mounting seat 19, and the Z-axis moving mechanism 3 is fixed on the Z-axis moving mechanism mounting seat 19 through connection between screws and the adjusting threaded holes 20. The design of the pitch threaded hole 20 can greatly improve the flexibility of the installation of the Z-axis motion mechanism 3.

In this embodiment, the Z-axis moving mechanism 3 is a cylinder 21 with a guide rail, the pressing plate 4 is disposed at an output end of the cylinder 21 with a guide rail, and an output direction of the cylinder 21 with a guide rail is vertical downward.

In this embodiment, the bottom of the rail mounting seat 6 is provided with a fixing plate 22, and the fixing plate 22 is used for integrally mounting the utility model on the sewing equipment.

The utility model discloses be applied to the technical field of sewing structure.

While the embodiments of the present invention have been described in terms of practical embodiments, they are not intended to limit the scope of the invention, and modifications of the embodiments and combinations with other embodiments will be apparent to those skilled in the art in light of the present description.

Claims (5)

1. Sewing structure is in including X axle motion (1), setting Y axle motion (2), setting on the X axle motion (1) are in Z axle motion (3) and setting on the Y axle motion (2) are in clamp plate (4) on the Z axle motion (3), be equipped with sewing bar hole (5), its characterized in that on clamp plate (4): the X-axis movement mechanism (1) comprises a track mounting seat (6), two X-direction guide rails (7) and an X-axis mounting plate (8), the two X-direction guide rails (7) are parallel to each other, a plurality of X-axis sliding blocks (9) are arranged on the two X-direction guide rails (7) in a sliding mode, the X-axis sliding blocks (9) are arranged on the track mounting seat (6), and the two X-direction guide rails (7) are arranged at the bottom of the X-axis mounting plate (8); an X-axis stepping motor (10) is arranged on the X-axis mounting plate (8), an output shaft of the X-axis stepping motor (10) vertically penetrates through the X-axis mounting plate (8), a gear (11) is arranged on the output shaft of the X-axis stepping motor (10), a rack (12) matched with the gear (11) is arranged on the track mounting seat (6), and the rack (12) is parallel to the X-direction guide rail (7); the Y-axis movement mechanism (2) is arranged on the X-axis mounting plate (8).

2. The sewing structure of claim 1, wherein: y axle motion (2) is including setting up Y axle mount pad (13), setting on X axle mounting panel (8) are in Y axle step motor (14) on Y axle mount pad (13), with belt pulley (15), the setting that Y axle step motor (14) transmission is connected are in belt (16) on belt pulley (15), still be provided with Y on Y axle mount pad (13) to guide rail (17), Y slide on to guide rail (17) be provided with Y axle slider (18) that belt (16) are connected, be provided with Z axle motion mount pad (19) on Y axle slider (18), Z axle motion (3) set up on Z axle motion mount pad (19).

3. The sewing structure of claim 2, wherein: the Z-axis movement mechanism mounting seat (19) is provided with a plurality of adjusting threaded holes (20), and the Z-axis movement mechanism (3) is connected with the adjusting threaded holes (20) through screws and fixed on the Z-axis movement mechanism mounting seat (19).

4. The sewing structure according to claim 2 or 3, wherein: the Z-axis movement mechanism (3) is provided with a guide rail cylinder (21), the pressing plate (4) is arranged at the output end of the guide rail cylinder (21), and the output direction of the guide rail cylinder (21) is vertical downward.

5. The sewing structure of claim 1, wherein: and a fixing plate (22) is arranged at the bottom of the rail mounting seat (6).

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