CN216585527U - Pressing system of pattern machine - Google Patents

Abstract

The utility model discloses a pattern sewing machine pressing system arranged in a pattern sewing machine, which comprises a frame body, a first driver, a second driver and a pressing structure. The first driver is arranged on the frame body, the second driver is arranged at the output end of the first driver, and the first driver drives the second driver to move relative to the frame body along a first direction; the pressing structure is arranged at the output end of the second driver, the second driver drives the pressing structure to move relative to the frame body along a second direction intersecting with the first direction, and the pressing structure moves to a position corresponding to the material under the cooperation of the first driver and the second driver and then presses the material. The pattern machine pressing system replaces the prior art that an acrylic plate is used for fixing materials to be sewn on a pattern machine, so that the manual operation procedures are reduced, and the scrappage of the materials caused by the deflection of the materials when the materials are fixed manually is reduced.

Description

Pressing system of pattern machine

Technical Field

The utility model relates to a pattern sewing machine, in particular to a stitching system of a pattern sewing machine.

Background

As is well known, a computer pattern sewing machine is used for sewing patterns on fabrics, so that the shapes of the fabrics are more diversified, and various requirements of people are met.

In the pattern sewing machine, the clamping plate can not be detached, and the fabric is pressed and fixed by the clamping plate, so that the sewing reliability of the fabric is ensured.

At present, the splint generally comprise two acrylic plates, and the process of pressing and fixing the fabric is as follows: the fabric is placed on the lower acrylic plate, then the upper acrylic plate and the lower acrylic plate are pressed together from the upper side to fix the fabric, then the acrylic plate and the fabric are placed on a pattern sewing machine by workers, and the fabric pressed and fixed by the acrylic plates is sewn by the pattern sewing machine.

However, workers are easy to generate deviation when fixing the fabric, so that the fabric is scrapped; meanwhile, the processes of the fabric pressing and fixing process are multiple, and the production time is long.

Therefore, there is a need for a press system for a pattern machine that overcomes the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a stitching system of a pattern machine, which replaces the prior art that an acrylic plate is used for fixing materials to be stitched on the pattern machine, reduces the procedures of manual operation, reduces the scrappage of the materials caused by the deflection of the materials when the materials are fixed manually, and reduces the production time.

In order to achieve the purpose, the pattern sewing machine pressing system is arranged in a pattern sewing machine and comprises a frame body, a first driver, a second driver and a pressing structure. The first driver is arranged on the frame body, the second driver is arranged at the output end of the first driver, and the first driver drives the second driver to move relative to the frame body along a first direction; the pressing structure is arranged at the output end of the second driver, the second driver drives the pressing structure to move relative to the frame body along a second direction intersecting with the first direction, and the pressing structure moves to a position corresponding to the material to recompress the material under the cooperation of the first driver and the second driver.

Preferably, the pressing structure slides to a position corresponding to the material under the cooperation of the first driver and the second driver, and then presses the material from the side edge of the material.

Preferably, the first driver is arranged vertically on the frame body, the second driver is arranged horizontally, the output end of the first driver slides in a reciprocating manner along the first direction, and the output end of the second driver slides in a reciprocating manner along the second direction.

Preferably, the pattern machine pressing system further comprises a sliding frame, the sliding frame is connected with the output end of the first driver in an assembling mode, and the second driver is installed on the sliding frame, so that the second driver is installed at the output end of the first driver through the sliding frame.

Preferably, the number of the first drivers is at least two, the output end of one first driver is assembled and connected with one end of the sliding frame, and the output end of the other first driver is assembled and connected with the other end, opposite to the sliding frame.

Preferably, the output of the first driver is arranged facing downwards.

Preferably, the number of the second drivers is two, the output ends of the two second drivers are arranged in a manner of facing or back to back, and the output end of each second driver is provided with a press fit structure.

Preferably, the output terminals of the two second drivers are aligned with each other along the second direction.

Preferably, the first actuator is a two-axis cylinder or a two-axis hydraulic cylinder and the second actuator is a single-axis cylinder or a single-axis hydraulic cylinder.

Preferably, the first driver is arranged on the frame in a lying manner, the second driver is arranged in a standing manner, the output end of the first driver slides in a reciprocating manner along the first direction, and the output end of the second driver slides in a reciprocating manner along the second direction.

Preferably, the number of the first drivers is two, the output ends of the two first drivers are arranged on the frame body in a manner of facing or back to back, the output end of each first driver is provided with one second driver, and the output end of each second driver is provided with one abutting structure.

Preferably, one of the pressing structures is a straight rod structure, and the other pressing structure is a trapezoid frame with a part of straight rod.

Preferably, the first actuator is a single-shaft air cylinder or a single-shaft hydraulic cylinder, and the second actuator is a double-shaft air cylinder or a double-shaft hydraulic cylinder.

Compared with the prior art, when the fabric in the sewing position in the pattern sewing machine is pressed and fixed, the pressing structure moves to the position corresponding to the fabric in the sewing position under the cooperation of the first driver and the second driver and presses the fabric in the sewing position, the operation flow that the fabric is pressed and fixed by the acrylic plate and then the acrylic plate and the fabric fixed by the acrylic plate are placed on the pattern sewing machine together for sewing in the past is replaced, the manual operation procedure is reduced, the scrappage of the material caused by the deflection of the material when the material is fixed manually is reduced, and the production time is reduced.

Drawings

Fig. 1 is a perspective view of a patterning machine pressing system of a first embodiment of the present invention, which is provided in a patterning machine and is in a relative positional relationship with a table of the patterning machine, and shows a state in which a fabric placed on the table is pressed and fixed by the patterning machine pressing system of the embodiment.

Fig. 2 is a plan view of fig. 1 in a top view.

Fig. 3 is a perspective view of the embossing press system shown in fig. 1.

Fig. 4 is a plan view of fig. 3 in a top view.

Fig. 5 is a schematic structural view of a patterning machine press system according to a second embodiment of the present invention.

Detailed Description

Embodiments of the present invention will now be described with reference to the drawings, wherein like element numerals represent like elements.

Referring to fig. 1 to 2, the embossing machine pressing system 100 of the first embodiment is disposed in the embossing machine, such that the working platform 210 of the embossing machine is located below the embossing machine pressing system 100 of the first embodiment, as shown in fig. 1 and 2, of course, according to actual needs, the relative relationship between the working platform 210 of the embossing machine and the embossing machine pressing system 100 of the first embodiment may be other, and thus the disclosure is not limited to that shown in fig. 1 and 2. The embossing machine pressing system 100 of the first embodiment includes a frame 10, a first driver 20, a second driver 30, and a pressing structure 40. The first driver 20 is mounted on the frame 10, and the frame 10 provides a supporting function and an assembling place for the first driver 20, the second driver 30 is mounted on the output end 21 of the first driver 20, and the first driver 20 drives the second driver 30 to slide along a first direction (indicated by a double-headed arrow a) relative to the frame 10; the pressing structure 40 is mounted on the output end 31 of the second actuator 30, the second actuator 30 drives the pressing structure 40 to slide relative to the frame body 10 along a second direction (indicated by a double-headed arrow B) intersecting the first direction, the pressing structure 40 slides to a position corresponding to the fabric 220 under the cooperation of the first actuator 20 and the second actuator 30, and then the fabric 220 is pressed, as shown in fig. 1 to fig. 3. Specifically, in fig. 1 to 3, the pressing structure 40 presses the fabric 220 from the side of the fabric 220 to provide an avoiding space for the middle position of the fabric 220, so as to ensure the sewing reliability of the fabric 220 placed on the workbench 210 and located at the sewing position. More specifically, the following:

as shown in fig. 1 and 3, the first driver 20 is vertically arranged on the frame 10, the second driver 30 is horizontally arranged, the output end 21 of the first driver 20 slides back and forth along a first direction, and the output end 31 of the second driver 30 slides back and forth along a second direction; the design is such that the first driver 20 drives the second driver 30 and the pressing structure 40 to slide up and down relative to the frame body 10, and the second driver 30 drives the pressing structure 40 to slide horizontally relative to the frame body 10; therefore, the pressing structure 40 slides to the upper side aligned with the fabric 220 on the worktable 210 and at the sewing position through the cooperation of the up-down sliding and the horizontal sliding, and then presses the fabric 220 downwards. Specifically, in fig. 1 to 4, the embossing machine pressing system 100 of the first embodiment further includes a sliding frame 50, the sliding frame 50 is assembled and connected with the output end 21 of the first driver 20, preferably, the output end 21 of the first driver 20 is arranged downward, so as to simplify the assembly and connection between the output end 21 of the first driver 20 and the sliding frame 50, of course, the output end 21 of the first driver 20 may also be arranged upward according to actual needs, so that the utility model is not limited thereto; the second driver 30 is mounted to the sliding frame 50 such that the second driver 30 is mounted to the output end 21 of the first driver 20 through the sliding frame 50 to facilitate the assembly connection between the second driver 30 and the first driver 20 by means of the sliding frame 50. More specifically, in fig. 1 to 4, there are two first drivers 20, the output end 21 of one first driver 20 is assembled and connected to one end of the sliding frame 50, and the output end 21 of the other first driver 20 is assembled and connected to the other end opposite to the sliding frame 50, so as to distribute the assembly and connection positions of the first driver 20 and the sliding frame 50 at the two opposite ends (for example, the left end and the right end) of the sliding frame 50, on one hand, increase the reliability of the sliding frame 50 driven by the first driver 20 to slide up and down, and on the other hand, avoid occupying the upper space corresponding to the middle part of the sliding frame 50 when the assembly and connection position of the first driver 20 and the sliding frame 50 is located at the middle part of the sliding frame 50, thereby affecting the arrangement and operation of other components in the pattern machine. For example, in fig. 1 to 4, the first actuator 20 is a dual-axis cylinder or a dual-axis hydraulic cylinder, so that the first actuator 20 has the characteristics of bending resistance and torque resistance, and can correct the linear sliding of the pressing structure 40, thereby ensuring the fixed stroke of the pressing structure 40 during the pressing process; the second actuator 30 is a single-shaft cylinder or a single-shaft hydraulic cylinder, such as a mini cylinder or a mini hydraulic cylinder, which can compensate for the space limitation and is convenient to install, but is not limited to the above examples. It will be appreciated that the number of first actuators 20 may also be one or three, depending on the actual requirements.

As shown in fig. 1 to 4, the frame body 10 has an inverted-n shape such that one first driver 20 is vertically installed at one vertical sidewall 10a of the frame body 10 and the other first driver 20 is vertically installed at the opposite vertical sidewall 10a of the frame body 10, thereby making the arrangement of the two first drivers 20 on the frame body 10 more reasonable and compact and providing a sufficient escape space for the position of the frame body 10 between the vertical sidewalls 10 a. Specifically, in fig. 1 to 4, the two vertical side walls 10a are respectively fixed with an upper slide rail 11 and a lower slide rail 11, correspondingly, the two opposite ends of the sliding frame 50 are respectively installed with an upper slide block 52 and a lower slide block 52, and the upper slide block 52 and the lower slide block 52 are slid on the upper slide rail 11 and the lower slide rail 11, so as to ensure the smoothness and the stability of the sliding frame 50 relative to the frame body 10. In addition, the sliding frame 50 and the frame body 10 are both arranged to extend along the second direction, and the two upright sidewalls 10a of the frame body 10 respectively protrude out of the sliding frame 50 along the second direction, so that the space between the sliding frame 50 and the frame body 10 is more compact.

As shown in fig. 1 to 4, there are two second drivers 30, and the output ends of the two second drivers 30 are arranged back to each other, so as to better adapt to the occasions with limited space; the output end 31 of each second driver 30 is assembled with one stitching structure 40, and each second driver 30 controls the sliding movement of the corresponding stitching structure 40 in the second direction, so that the two stitching structures 40 slide from the two opposite side directions of the fabric 220 to the position aligned with the fabric 220, and the application range of the pattern sewing machine stitching system 100 of the first embodiment is expanded. In particular, in fig. 1 to 4, the output ends 31 of the two second drivers 30 are aligned with each other in the second direction to make the two stitching structures 40 better flush. More specifically, in fig. 1 to 4, the sliding frame 50 is mounted with a horizontal sliding rail 51 extending along the second direction, and each stitching structure 40 is mounted with a horizontal sliding block 41 sliding on the horizontal sliding rail 51 to ensure the smoothness and smoothness of the horizontal sliding of each stitching structure 40. For example, one of the pressing structures 40 is a straight rod structure, and the other pressing structure 40 is a trapezoid frame with a part of straight rod, but not limited thereto. It is understood that the output ends 31 of the two second drivers 30 can be arranged facing back to back according to practical requirements, and therefore, the present invention is not limited to the embodiments shown in fig. 1 to 4.

The operation principle of the embossing machine press system of the first embodiment will be described with reference to fig. 1 to 2: firstly, the second driver 30 drives the stitching structure 40 to slide to a position right above the fabric 220 placed on the worktable 210 and located at the sewing position, then the first driver 20 drives the sliding frame 50 to slide downwards together with the second driver 30 and the stitching structure 40, and the stitching structure 40 sliding downwards presses and fixes the fabric 220 on the worktable 210 from above, thereby completing the purpose of pressing. When the stitching system 100 of the pattern sewing machine of the first embodiment is to be reset, the first actuator 20 drives the sliding frame 50 to slide upwards together with the second actuator 30 and the stitching structure 40, so as to release the pressing effect on the fabric 220 on the worktable 210; then, the second actuator 30 drives the stitching structure 40 to move away from the position right above the fabric 220 for resetting.

Referring to fig. 5, the stitching system 100' of the second embodiment is substantially the same as the stitching system 100 of the first embodiment, except that:

(1) in the second embodiment, the first driver 20 ' is laid down on the frame 10 ', the second driver 30 ' is erected, the output end 21 ' of the first driver 20 ' slides back and forth along the first direction, and the output end 31 ' of the second driver 30 ' slides back and forth along the second direction, that is, the output end 21 ' of the first driver 20 ' slides back and forth along the horizontal direction, and the output end 31 ' of the second driver 30 ' slides back and forth along the up and down direction of the frame 10 ', so that the first direction is the horizontal direction and the second direction is the up and down direction of the frame 10 '; in the first embodiment, the output end 21 of the first driver 20 slides back and forth along the vertical direction of the frame 10, and the output end 31 of the second driver 30 slides back and forth along the horizontal direction.

(2) In the second embodiment, since the first driver 20 ' is disposed on the frame body 10 ' in a lying manner, the frame body 10 ' in the second embodiment may not have two upright sidewalls 10a relative to the frame body 10 in the first embodiment.

(3) In the second embodiment, the output ends 21 ' of the two first drivers 20 ' are arranged back to back on the frame body 10 ', but may be arranged to face each other according to actual requirements; the output end 21 ' of each first driver 20 ' is provided with a second driver 30 ', and the output end 31 ' of each second driver 30 ' is provided with a press-fit structure 40; in the first embodiment, the output terminals 21 of the two first drivers 20 are arranged downward.

(4) Since the first driver 20 ' of the second embodiment is disposed in a flat manner on the frame body 10 ' and the second driver 30 ' is disposed in a vertical manner, the sliding frame 50 ' is horizontally slidably disposed on the frame body 10 '; in the first embodiment, since the first driver 20 is vertically arranged on the frame body 10 and the second driver 30 is horizontally arranged, the sliding frame 50 is slidably arranged on the frame body 10 along the up-down direction of the frame body 10; therefore, the sliding frame 50' in the second embodiment is designed to be shorter than the sliding frame 50 in the first embodiment; correspondingly, a horizontal slide rail and a horizontal slider may be provided between the slide rack 50 ' and the rack 10 ' to replace the upper and lower slide rails 11 and the upper and lower sliders 52 between the rack 10 and the slide rack 50 in the first embodiment, and an upper and lower slide rail and an upper and lower slider may be provided between the slide rack 50 ' and the press-fit structure 40 to replace the horizontal slide rail 51 and the horizontal slider 41 between the slide rack 50 and the press-fit structure 40 in the first embodiment.

Except for the above differences, the other parts are the same as those of the first embodiment, and thus are not described herein again.

Referring to fig. 5, the operation principle of the embossing machine pressing system of the second embodiment will be explained: firstly, the first driver 20 ' drives the second driver 30 ' to slide together with the pressing structure 40 to a position directly above the fabric 220 placed on the worktable 210 and located at the sewing position, and then the second driver 30 ' drives the pressing structure 40 to slide downwards, and the pressing structure 40 sliding downwards presses and fixes the fabric 220 on the worktable 210 from above, thereby completing the purpose of pressing. When the embossing machine pressing system 100 'of the second embodiment is to be reset, the second driver 30' drives the pressing structure 40 to slide upwards to release the pressing effect on the fabric 220 on the workbench 210; then, the first driver 20 'drives the second driver 30' to move away from the top of the face material 220 together with the stitching structure 40 for resetting.

Compared with the prior art, when the fabric 220 in the sewing position in the pattern sewing machine is pressed and fixed, the pressing structure 40 moves to the position corresponding to the fabric 220 in the sewing position under the cooperation of the first driver 20(20 ') and the second driver 30 (30') and then presses the fabric 220 in the sewing position tightly, the operation flow that the fabric is pressed and fixed by the acrylic plate firstly and then the acrylic plate and the fabric pressed and fixed by the acrylic plate are placed on the pattern sewing machine for sewing in the past is replaced, the manual operation procedure is reduced, the scrappage of the material caused by the deflection of the material when the material is fixed manually is reduced, and the production time is shortened.

It should be noted that, although the drawings show that the first driver 20(20 ') drives the second driver 30 (30') to slide relative to the frame 10(10 '), and the second driver 30 (30') drives the pressing structure 40 to slide relative to the frame 10(10 '), according to actual needs, the first driver 20 (20') can be designed to drive the second driver 30(30 ') to turn over relative to the frame 10 (10'), and then cooperate with the second driver 30(30 ') to drive the pressing structure 40 to slide relative to the frame 10 (10'); alternatively, the second driver 30(30 ') may be designed to drive the pressing structure 40 to turn relative to the frame body 10(10 '), and then cooperate with the first driver 20(20 ') to drive the second driver 30(30 ') to slide relative to the frame body 10(10 '), which is not limited to the above description. In addition, although the embodiment is described with the fabric 220 as one of the materials, of course, the materials may be other than the fabric 220.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, therefore, the present invention is not limited by the appended claims.

Claims (13)

1. A pattern sewing machine pressing system is arranged in a pattern sewing machine and is characterized by comprising a frame body, a first driver, a second driver and a pressing structure, wherein the first driver is installed on the frame body, the second driver is installed at the output end of the first driver, the first driver drives the second driver to move relative to the frame body along a first direction, the pressing structure is installed at the output end of the second driver, the second driver drives the pressing structure to move relative to the frame body along a second direction intersecting with the first direction, and the pressing structure moves to a position corresponding to a material under the matching of the first driver and the second driver and then presses the material.

2. A pattern sewing machine stitching system according to claim 1, wherein the stitching structure is first slid to a position corresponding to the material under cooperation of the first and second drivers and then presses the material from a side edge thereof.

3. A pattern sewing machine stitching system according to claim 1, wherein the first actuator is arranged vertically on the frame, the second actuator is arranged lying, the output end of the first actuator slides reciprocally in the first direction, and the output end of the second actuator slides reciprocally in the second direction.

4. The patterning machine pressing system of claim 3, further comprising a sliding frame, wherein the sliding frame is connected with the output end of the first driver in an assembling manner, and the second driver is mounted on the sliding frame, so that the second driver is mounted on the output end of the first driver through the sliding frame.

5. The embossing machine pressing system according to claim 4, wherein the number of the first drivers is at least two, and the output end of one of the first drivers is connected to one end of the sliding frame, and the output end of the other of the first drivers is connected to the other end of the sliding frame.

6. The embosser laminating system of claim 4 wherein the output of said first driver is disposed downwardly.

7. The embossing system of claim 4, wherein there are two of said second drivers, the output ends of said two second drivers being in a facing or back-to-back arrangement with each output end of said second drivers being fitted with one of said embossing structures.

8. The embosser laminating system of claim 7 wherein the outputs of said second drivers are aligned with one another in said second direction.

9. The embossing machine pressing system of claim 3, wherein the first actuator is a dual-axis cylinder or a dual-axis hydraulic cylinder and the second actuator is a single-axis cylinder or a single-axis hydraulic cylinder.

10. A pattern sewing machine stitching system according to claim 1, wherein the first actuator is arranged lying on the frame, the second actuator is arranged standing, the output end of the first actuator slides reciprocally in the first direction, and the output end of the second actuator slides reciprocally in the second direction.

11. A pattern sewing machine stitching system according to claim 10 wherein there are two first actuators, the output ends of the two first actuators being arranged to face or oppose each other on the frame, the output end of each first actuator being provided with one of the second actuators, and the output end of each second actuator being provided with one of the abutment structures.

12. A pattern stitching system according to claim 7 or claim 11 wherein one stitching structure is a straight bar structure and the other stitching structure is a part of a trapezoidal frame with straight bars.

13. A pattern sewing machine stitching system according to claim 10 wherein the first actuator is a single-shaft air cylinder or a single-shaft hydraulic cylinder and the second actuator is a double-shaft air cylinder or a double-shaft hydraulic cylinder.

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