CN216838478U

CN216838478U - Stable material moving mechanism of sewing equipment

Info

Publication number: CN216838478U
Application number: CN202122921432.4U
Authority: CN
Inventors: 夏坤松
Original assignee: Guizhou Huaxia Intelligent Equipment Technology Co ltd
Current assignee: Guizhou Huaxia Intelligent Equipment Technology Co ltd
Priority date: 2021-11-25
Filing date: 2021-11-25
Publication date: 2022-06-28
Anticipated expiration: 2031-11-25

Abstract

The utility model discloses a stable material moving mechanism of sewing equipment, which comprises a feeding base, an X-axis base plate, a Y-axis base plate, an X-axis driving source, a Y-axis driving source and a material carrying plate, wherein the feeding base is arranged below an external sewing machine head, the feeding base is provided with an X-axis guide rail, the Y-axis base plate is provided with a Y-axis guide rail, the Y-axis base plate is arranged on the X-axis guide rail of the feeding base in a sliding manner, the material carrying plate is arranged on the Y-axis guide rail of the Y-axis base plate in a sliding manner, the material carrying plate is arranged on the X-axis base plate in a sliding manner, the X-axis base plate is arranged on the Y-axis base plate in a sliding manner, the Y-axis driving source drives the material carrying plate to slide along the Y-axis guide rail of the Y-axis base plate through the X-axis base plate, and the X-axis driving source is used for driving the Y-axis base plate to slide along the feeding base plate. According to the utility model, the X-axis substrate and the Y-axis substrate are matched for use, so that full-automatic material moving and feeding are realized, the traditional manual material moving mode is replaced, the sewing efficiency is greatly improved, the manual production cost is reduced, and the condition that workers are accidentally injured is avoided.

Description

Stable material moving mechanism of sewing equipment

Technical Field

The utility model relates to the technical field of sewing machines, in particular to a stable material moving mechanism of sewing equipment.

Background

The traditional sewing equipment is generally only provided with a sewing machine head, and workers are required to manually feed clothes to the sewing machine head and manually move the clothes, so that the traditional manual sewing equipment is low in efficiency and cannot meet the requirements of modern full-automatic production, and therefore improvement is needed.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model aims to provide a stable material moving mechanism of sewing equipment, which realizes full-automatic material moving and feeding, and the structural design replaces the traditional manual material moving mode, so that the sewing efficiency is greatly improved, the manual production cost is reduced, and the condition of accidentally injuring workers is avoided.

In order to achieve the purpose, the utility model adopts the technical scheme that: the utility model provides a sewing equipment's material mechanism that moves steadily, its includes material loading base, X axle base plate, Y axle base plate, X axle driving source, Y axle driving source and year flitch, and the material loading base sets up in external sewing machine head below, and the material loading base is equipped with the X axle guide rail, and the Y axle base plate is equipped with the Y axle guide rail, Y axle base plate slidable mounting is in the X axle guide rail of material loading base, carries flitch slidable mounting in the Y axle guide rail of Y axle base plate, and carries flitch slidable mounting in X axle base plate, and X axle base plate slidable mounting is in Y axle base plate, Y axle driving source slides along the Y axle guide rail of Y axle base plate via the drive year flitch of X axle base plate, and the X axle driving source is used for driving Y axle base plate and slides along the X axle guide rail of material loading base.

Specifically, the material loading plate comprises an X-axis sliding plate and an X-axis transmission plate, the X-axis sliding plate is slidably mounted on the X-axis base plate, the X-axis transmission plate is fixedly mounted on the X-axis sliding plate, and the X-axis transmission plate is slidably mounted on a Y-axis guide rail of the Y-axis base plate.

Specifically, the number of the X-axis guide rails is three, the three X-axis guide rails are arranged in parallel, and the middle of the Y-axis base plate and the two ends of the Y-axis base plate are arranged on the three X-axis guide rails in a sliding mode respectively.

Specifically, the distance between the middle X-axis guide rail and the X-axis guide rail on one side is smaller than the distance between the middle X-axis guide rail and the X-axis guide rail on the other side.

Specifically, the distance between the middle X-axis guide rail and the X-axis guide rail on one side is 50-200 cm.

Specifically, the number of the Y-axis guide rails is three, the three Y-axis guide rails are arranged in parallel and at equal intervals, and the distance between the middle Y-axis guide rail and the Y-axis guide rail on one side is 10-50 cm.

Specifically, at least one Y-axis guide seat is installed respectively to the left and right sides of material loading base, and Y-axis guide hole has been seted up to each Y-axis guide seat, at least one Y-axis guide rod is installed respectively to the left and right sides of X-axis base plate, and a Y-axis guide rod slides and wears to locate a Y-axis guide hole.

Specifically, two Y-axis guide rods are also mounted in the middle of the X-axis substrate, and the Y-axis drive source is used for driving the two Y-axis guide rods in the middle of the X-axis substrate to extend or retract.

Specifically, the distance between the Y-axis guide rods on the left side and the right side of the X-axis substrate is 30-150 cm.

Specifically, the distance between the two Y-axis guide rods in the middle of the X-axis substrate is 5-30 cm.

After adopting the structure, compared with the prior art, the utility model has the advantages that:

according to the utility model, the X-axis substrate and the Y-axis substrate are matched for use, so that full-automatic material moving and feeding are realized, the traditional manual material moving mode is replaced by the structural design, the sewing efficiency is greatly improved, the manual production cost is reduced, and the condition that workers are accidentally injured is avoided. Secondly, such structural design has realized that the material loading plate can carry out simultaneously in two directions of X axle and Y axle operation, and such material moving speed is fast, and such material moving mode commonality is stronger.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the present invention with the loading base hidden.

Detailed Description

The following are merely preferred embodiments of the present invention, and do not limit the scope of the present invention.

As shown in fig. 1 to 2, in order to achieve the above object, the present invention adopts the following technical solutions: the utility model provides a sewing equipment's material mechanism that moves steadily, its includes material loading base 1, X axle base plate 2, Y axle base plate 3, X axle driving source, Y axle driving source and year flitch, material loading base 1 sets up in external sewing machine head below, and material loading base 1 is equipped with X axle guide rail 10, and Y axle base plate 3 is equipped with Y axle guide rail 30, Y axle base plate 3 slidable mounting is in X axle guide rail 10 of material loading base 1, carries material board slidable mounting in Y axle guide rail 30 of Y axle base plate 3, and carries material board slidable mounting in X axle base plate 2, and X axle base plate 2 slidable mounting is in Y axle base plate 3, Y axle driving source is carried the material board via X axle base plate 2 drive and is slided along Y axle guide rail 30 of Y axle base plate 3, and X axle driving source is used for driving Y axle base plate 3 and slides along X axle guide rail 10 of material loading base plate 1. Such structural design has replaced the tradition and has moved the mode of material through the manual work, has improved sewing efficiency greatly, has reduced artifical manufacturing cost and has avoided appearing the condition of accidental injury workman. And such structural design has realized that the material loading plate can carry out simultaneously in two directions of X axle and Y axle operation, and such material moving speed is fast, and such material moving mode commonality is stronger.

Specifically, the material loading plate comprises an X-axis sliding plate 21 slidably mounted on the X-axis substrate 2 and an X-axis transmission plate 22 fixedly mounted on the X-axis sliding plate 21, and the X-axis transmission plate 22 is slidably mounted on a Y-axis guide rail 30 of the Y-axis substrate 3.

Specifically, the number of the X-axis guide rails 10 is three, the three X-axis guide rails 10 are arranged in parallel, and the middle portion of the Y-axis substrate 3 and the two ends of the Y-axis substrate 3 are respectively arranged on the three X-axis guide rails 10 in a sliding manner.

The number of the Y-axis guide rails 30 is three, the three Y-axis guide rails 30 are arranged in parallel and at equal intervals, and the distance between the middle Y-axis guide rail 30 and the Y-axis guide rail 30 on one side is 10-50 cm.

Through the structural design of the X-axis guide rails 10 and the Y-axis guide rails 30, the frequency and amplitude of vibration of the material carrying plate caused by simultaneous movement of the two shafts can be greatly reduced, so that the clothes can be kept flat and free from wrinkles all the time in the sewing process to the maximum extent.

More specifically, the distance between the middle X-axis guide rail 10 and the one-side X-axis guide rail 10 is smaller than the distance between the middle X-axis guide rail 10 and the other-side X-axis guide rail 10.

More specifically, the distance between the middle X-axis guide rail 10 and the one-side X-axis guide rail 10 is 50-200 cm.

More specifically, at least one Y-axis guide seat 11 is installed respectively to the left and right sides of material loading base 1, and Y-axis guide hole has been seted up to each Y-axis guide seat 11, at least one Y-axis guide rod 12 is installed respectively to the left and right sides of X-axis base plate 2, and a Y-axis guide rod 12 slides and wears to locate a Y-axis guide hole.

More specifically, two Y-axis guide rods 12 are also mounted in the middle of the X-axis substrate 2, and a Y-axis drive source is used to drive the two Y-axis guide rods 12 in the middle of the X-axis substrate 2 to extend or retract.

More specifically, the distance between the Y-axis guide bars 12 on the left and right sides of the X-axis substrate 2 is 30 to 150 cm.

More specifically, the distance between the two Y-axis guide bars 12 in the middle of the X-axis substrate 2 is 5 to 30 cm.

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 of the present invention, which should be interpreted as a limitation.

Claims

1. The utility model provides a sewing machine's stability moves material mechanism which characterized in that: comprises a feeding base (1), an X-axis base plate (2), a Y-axis base plate (3), an X-axis driving source, a Y-axis driving source and a material carrying plate, wherein the feeding base (1) is arranged below an external sewing machine head, an X-axis guide rail (10) is arranged on the feeding base (1), a Y-axis guide rail (30) is arranged on the Y-axis base plate (3), the Y-axis base plate (3) is slidably arranged on an X-axis guide rail (10) of the feeding base (1), the material loading plate is slidably arranged on a Y-axis guide rail (30) of the Y-axis base plate (3), the material loading plate is arranged on the X-axis base plate (2) in a sliding way, the X-axis base plate (2) is arranged on the Y-axis base plate (3) in a sliding way, the Y-axis driving source drives the material carrying plate to slide along a Y-axis guide rail (30) of the Y-axis base plate (3) through the X-axis base plate (2), and the X-axis driving source is used for driving the Y-axis base plate (3) to slide along an X-axis guide rail (10) of the feeding base (1).

2. The stable material moving mechanism of the sewing equipment according to claim 1, characterized in that: the material loading plate comprises an X-axis sliding plate (21) which is slidably mounted on the X-axis base plate (2) and an X-axis transmission plate (22) which is fixedly mounted on the X-axis sliding plate (21), and the X-axis transmission plate (22) is slidably mounted on a Y-axis guide rail (30) of the Y-axis base plate (3).

3. The stable material moving mechanism of the sewing equipment according to claim 1, characterized in that: the number of the X-axis guide rails (10) is three, the three X-axis guide rails (10) are arranged in parallel, and the middle of the Y-axis base plate (3) and the two ends of the Y-axis base plate (3) are arranged on the three X-axis guide rails (10) in a sliding mode respectively.

4. The stable material moving mechanism of the sewing equipment according to claim 3, characterized in that: the distance between the middle X-axis guide rail (10) and the X-axis guide rail (10) on one side is smaller than the distance between the middle X-axis guide rail (10) and the X-axis guide rail (10) on the other side.

5. The stable material moving mechanism of the sewing equipment according to claim 3, characterized in that: the distance between the middle X-axis guide rail (10) and the X-axis guide rail (10) at one side is 50-200 cm.

6. The stable material moving mechanism of the sewing equipment according to claim 1, characterized in that: the number of the Y-axis guide rails (30) is three, the three Y-axis guide rails (30) are arranged in parallel at equal intervals, and the distance between the middle Y-axis guide rail (30) and the Y-axis guide rail (30) on one side is 10-50 cm.

7. The stable material moving mechanism of the sewing equipment according to claim 1, characterized in that: at least one Y axle guide holder (11) is installed respectively to the left and right sides of material loading base (1), and Y axle guiding hole has been seted up in each Y axle guide holder (11), at least one Y axle guide bar (12) is installed respectively to the left and right sides of X axle base plate (2), and a Y axle guide bar (12) slide to wear to locate a Y axle guiding hole.

8. The stable material moving mechanism of the sewing equipment according to claim 7, characterized in that: two Y-axis guide rods (12) are also installed in the middle of the X-axis substrate (2), and a Y-axis driving source is used for driving the two Y-axis guide rods (12) in the middle of the X-axis substrate (2) to extend out or retract.

9. The stable material moving mechanism of the sewing equipment according to claim 7, characterized in that: the distance between the Y-axis guide rods (12) on the left side and the right side of the X-axis base plate (2) is 30-150 cm.

10. The stable material moving mechanism of the sewing equipment according to claim 7, characterized in that: the distance between the two Y-axis guide rods (12) in the middle of the X-axis substrate (2) is 5-30 cm.