CN110699864A - Automatic non-ironing pocket patching machine of high accuracy - Google Patents

Abstract

The invention discloses a high-precision automatic non-ironing bag patching machine which comprises a working table top, a bag sheet auxiliary mechanism, a turnover mechanism, a feeding unit, a sewing machine head, a display screen and a frame body, wherein the working table top is welded on the top surface of the frame body, the bag sheet auxiliary mechanism and the turnover mechanism are arranged on one side inside the frame body in a penetrating mode through the working table top, and the feeding unit is arranged on the upper surface of the working table top through a welding piece. According to the sewing machine, a bag piece to be sewn is placed on a bag piece fixing plate, a bag folding assembly arranged on a turnover frame is driven to turn over 90 degrees through a turnover cylinder and a falling cylinder, a material pressing frame and a bag pressing plate respectively correspond to the material piece and the bag piece, the bag piece fixing plate is attracted through an electromagnet on the bag pressing plate, the bag piece is fixed, and two sides and two corners of the root of the bag piece are folded by pushing the bag folding plate through a bag folding cylinder on the material pressing frame; the arranged turnover mechanism can automatically flatten and fold the bag piece to be sewn, so that the bag piece is not required to be scalded and shaped manually, the labor intensity is reduced, and the working efficiency is improved.

Description

Automatic non-ironing pocket patching machine of high accuracy

Technical Field

The invention relates to the technical field of shirt processing equipment, in particular to a high-precision automatic non-ironing pocket patching machine.

Background

The patch pocket refers to a pocket made by directly stitching or hand sewing pocket cloth on the surface of clothes. The sticking bag features that the fabric is not broken, and it can be sewed at any position, and the bag shape can be changed and the surface of the bag can be decorated.

The pocket is one of indispensable processes in modern clothing processing, the traditional operation mode is that after the pocket cut-parts are ironed and shaped firstly usually, skilled operators stick the pocket on the cut-parts with well-drawn points, and sew the pocket, each assembly line needs two skilled workers under normal conditions, the production efficiency is low, and the labor cost is high.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a high-precision automatic non-ironing pocket patching machine.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an automatic non-ironing pocket patching machine of high accuracy, including table surface, bag piece complementary unit, tilting mechanism, the pay-off unit, sewing machine head, a display screen, the support body, table surface welds at the support body top surface, and support body inside one side runs through table surface and installs bag piece complementary unit and tilting mechanism, the pay-off unit is installed through welding to the table surface upper surface, and the pay-off unit includes that the X axle removes the subassembly, the Y axle removes the subassembly and presses the material subassembly, it is equipped with sewing machine head to press material subassembly one side to be located the table surface upper surface.

As a further description of the above technical solution:

the turnover mechanism comprises a turnover frame, a driving arm, a bearing with a seat, a turnover cylinder, a falling cylinder, a square bearing seat, a turnover shaft and a bag folding assembly;

one end of the overturning frame is positioned in the frame body and is rotationally connected with the overturning shaft through a bearing with a seat, two ends of the overturning shaft are fixed on the inner wall of the frame body through square bearing seats, one side of the bearing with the seat is provided with a driving wall, one end of the driving arm is fixedly welded with the overturning frame, the other end of the driving arm is connected with a driving rod of an overturning cylinder through a connecting piece, the bottom of the overturning cylinder is fixedly connected with the top of a falling cylinder, the driving rod of the falling cylinder is connected with the seat body welded in the frame body through a connecting piece, and the;

roll over a bag subassembly including pressing the material frame, roll over a bag cylinder, roll over a bag board, electro-magnet, pressure bag board, press the inside intermediate position of material frame to be equipped with and press a bag board, and press the inside intermediate position of bag board to be equipped with the electro-magnet, press to be equipped with a plurality of bags cylinders of rolling over on the material frame, and install on a plurality of actuating levers that roll over a bag cylinder and roll over a bag board, just roll over a bag board and be located and press the material frame and press between the bag board.

As a further description of the above technical solution:

the X-axis moving assembly comprises an X-axis servo motor, an X-axis coupler, an X-axis nut, an X-axis moving seat, an X-axis lead screw, an X-axis fixed bearing seat, an X-axis guide rail assembly, an X-axis protective shell and a connecting plate;

the cross section of the X-axis protective shell is of a U-shaped structure, an X-axis servo motor is installed at one end of the X-axis protective shell, an output shaft of the X-axis servo motor extends into the X-axis protective shell and is connected with an X-axis lead screw through an X-axis coupler, two ends of the X-axis lead screw are arranged in the X-axis protective shell through an X-axis fixed bearing seat, X-axis guide rail assemblies are arranged on two sides of the X-axis lead screw, an X-axis moving seat is connected to the X-axis guide rail assemblies in a sliding mode, an X-axis nut is embedded into one end of the X-axis moving seat and rotates the X-axis lead screw, and the upper portion of the X-axis moving seat is vertically connected with a;

the Y-axis feeding assembly comprises a Y-axis servo motor, a Y-axis coupler, a Y-axis nut, a Y-axis moving seat, a Y-axis lead screw, a Y-axis fixed bearing seat, a Y-axis guide rail assembly, a Y-axis protective shell, an end plate and a rib plate;

the Y-axis feeding assembly has the same working principle as the X-axis moving assembly, one end of the Y-axis moving seat is provided with an end plate, and one side of the end plate is provided with a rib plate.

As a further description of the above technical solution:

the material pressing assembly is mounted at one end of the Y-axis feeding assembly through an end plate and comprises a first guide rail assembly, a first lifting cylinder, a first connecting plate, a first connecting angle piece, a material sheet pressing plate, a second guide rail assembly, a second lifting cylinder, a second connecting plate, a second connecting angle piece and a feeding pressing plate;

end plate anterior segment surface is vertical respectively to install first guide rail set spare and second guide rail set spare, and first guide rail set spare is equipped with two altogether, and two first guide rail set spares about second guide rail set spare symmetric distribution, first guide rail set spare, it has first connecting plate to correspond sliding connection on the second guide rail set spare, the second connecting plate, first connecting plate lower extreme is connected with the tablet clamp plate is perpendicular through first connecting angle spare, and first connecting plate upper end is connected with the end plate through first lift cylinder, second connecting plate lower extreme is connected with the pay-off clamp plate is perpendicular through second connecting angle spare, and second connecting plate upper end is connected with the end plate through second lift cylinder.

As a further description of the above technical solution:

sewing gaps are uniformly arranged between the inner contour of the feeding pressing plate and the side contour of the material sheet pressing plate.

As a further description of the above technical solution:

the bag sheet auxiliary mechanism comprises an air cylinder mounting frame, an air cylinder fixing plate, a rodless air cylinder, a connecting arm, a bag sheet fixing plate, a guide flange, a guide rod and a jacking air cylinder;

the cylinder fixed plate is welded inside the support body, two jacking cylinders are installed at the bottom of the cylinder fixed plate, each jacking cylinder driving rod is connected with a cylinder mounting frame, a guide flange is arranged on the surface of the cylinder mounting frame in an embedded mode, the guide rod is connected with the guide flange in a sliding mode, the top of the guide rod is connected with the cylinder mounting frame, a rodless cylinder is installed inside the cylinder mounting frame, the top of the rodless cylinder is connected with one end of a connecting arm, and the other end of the connecting arm is provided with a bag piece fixed.

As a further description of the above technical solution:

the worktable is arranged in an inclined state, an air suction opening is formed in one side of the top surface of the worktable, and the lower side of the air suction opening is connected with an exhaust fan.

As a further description of the above technical solution:

the X-axis guide rail assembly, the Y-axis guide rail assembly, the first guide rail assembly and the second guide rail assembly are all composed of linear guide rails and matched sliding blocks.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the arranged turnover mechanism can automatically flatten and fold the bag piece to be sewn, manual ironing and shaping are not needed, the labor intensity is reduced, the working efficiency is improved, the bag piece to be sewn is placed on the bag piece fixing plate, the bag folding assembly arranged on the turnover frame is driven to turn over 90 degrees through the turnover cylinder and the falling cylinder, so that the material pressing frame and the bag pressing plate respectively correspond to the material piece and the bag piece, at the moment, the electromagnet on the bag pressing plate generates suction to the bag piece fixing plate to fix the bag piece on the bag piece fixing plate, the bag folding cylinder on the material pressing frame pushes the bag folding plate to fold two sides and two corners of the root of the bag piece, at the moment, the material pressing frame and the bag pressing plate fall under the action of the falling cylinder, the folded bag is pressed on the working table, the bag folding cylinder drives the bag folding plate to reset, the turnover cylinder and the falling cylinder drive the turnover frame and the bag folding assembly to reset, the material pressing assembly moves to the bag piece fixing plate, and presses the folded bag piece, the bag piece fixing plate 205 is withdrawn, and the folded bag is finished and conveyed to sewing processing.

2. According to the invention, the arranged feeding unit comprises an X-axis moving assembly, a Y-axis moving assembly and a pressing assembly, the feeding unit is enabled to realize three-axis linkage of an X axis, a Y axis and a Z axis through the matching use of the assemblies, so that the stable and accurate production and processing of a pocket pasted by a sewing machine head are assisted, the sewing quality of a pocket piece is improved, the X-axis moving assembly drives an X-axis lead screw and an X-axis nut to rotate relatively through an X-axis servo motor, an X-axis moving seat fixedly connected with the X-axis nut reciprocates along an X-axis guide rail assembly, so that the stable movement of the pressing assembly in the X-axis direction is realized, the working principle of the Y-axis moving assembly is the same as that of the X-axis moving assembly, the Y-axis moving assembly is different from the moving stroke and the moving direction, the movement of the pressing assembly in the Y-axis direction can be realized through the Y-axis moving assembly, and a pressing, The second lift cylinder realizes the lifting movement of Z axle direction, and the pay-off unit of this triaxial linkage has not only solved the drawback of traditional cylinder drive pay-off, can also ensure the security that the pocket machine used.

3. According to the bag piece fixing device, the arranged bag piece auxiliary mechanism has a lifting adjusting function, an operator can adjust the distance between the bag piece fixing plate and the workbench surface by controlling the jacking cylinder, so that a material piece on the workbench surface can be conveniently moved and corrected, the bag piece fixing plate is controlled to move along the Y-axis direction by the rodless cylinder, the moving stability of the bag piece fixing plate is improved, and the bag piece fixing device can be well matched with a material pressing assembly for use.

Drawings

Fig. 1 is a schematic structural view of a high-precision automatic non-ironing pocket patching machine provided by the invention;

fig. 2 is a schematic structural view of a bag sheet auxiliary mechanism of the high-precision automatic non-ironing bag patching machine provided by the invention;

fig. 3 is a schematic structural view of a pressing state of a turnover mechanism of the high-precision automatic non-ironing pocket patching machine provided by the invention;

fig. 4 is a schematic view of a part of the structure of the high-precision automatic non-ironing pocket patching machine in the direction a;

fig. 5 is a schematic structural view of an opening state of a turnover mechanism of the high-precision automatic non-ironing pocket patching machine provided by the invention;

fig. 6 is a schematic structural view of a bag folding assembly of the high-precision automatic non-ironing bag patching machine provided by the invention;

fig. 7 is a schematic structural view of an X-axis moving assembly of the high-precision automatic non-ironing pocket patching machine provided by the invention;

fig. 8 is a schematic structural view of a Y-axis moving assembly of the high-precision automatic non-ironing pocket patching machine provided by the invention;

fig. 9 is a schematic structural view of an X-axis moving assembly and a Y-axis moving assembly of the high-precision automatic non-ironing pocket patching machine provided by the invention;

fig. 10 is a schematic structural view of a pressing assembly of the high-precision automatic non-ironing bag patching machine provided by the invention.

Illustration of the drawings:

10. a work table;

20. a bag sheet assist mechanism; 201. a cylinder mounting frame; 202. a cylinder fixing plate; 203. a rodless cylinder; 204. a connecting arm; 205. a bag sheet fixing plate; 206. a guide flange; 207. a guide bar; 208. jacking a cylinder;

30. a turnover mechanism; 301. a roll-over stand; 302. a drive arm; 303. a pedestal bearing; 304. turning over the air cylinder; 305. a drop cylinder; 306. a square bearing seat; 307. a turning shaft;

31. a bag folding assembly; 31.1, a material pressing frame; 31.2, a bag folding cylinder; 31.3, folding a bag plate; 31.4, an electromagnet; 31.5, pressing a bag plate;

40. a feeding unit;

41. an X-axis moving assembly; 41.1, an X-axis servo motor; 41.2, an X-axis coupler; 41.3, X-axis screw; 41.4, an X-axis moving seat; 41.5, an X-axis lead screw; 41.6, fixing a bearing seat on an X axis; 41.7, an X-axis guide rail assembly; 41.8, an X-axis protective shell; 41.9, connecting plates;

42. a Y-axis feeding assembly; 42.1, a Y-axis servo motor; 42.2, Y-axis coupler; 42.3, Y-axis screw; 42.4, a Y-axis moving seat; 42.5, Y-axis lead screw; 42.6, fixing a bearing seat on a Y axis; 42.7, a Y-axis guide rail assembly; 42.8, Y-axis protective shell; 42.9, end plates; 42.10, rib plates;

43. a material pressing component; 43.1, a first guide rail assembly; 43.2, a first lifting cylinder; 43.3, a first connecting plate; 43.4, a first connecting corner piece; 43.5, material sheet pressing plate; 43.6, a second guide rail assembly; 43.7, a second lifting cylinder; 43.8, a second connecting plate; 43.9, a second connection corner piece; 43.10, feeding and pressing plates;

50. a sewing machine head;

60. a display screen;

70. an air suction opening;

80. a shelf body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In a first embodiment, referring to fig. 1, 3, 4, 5 and 6, a high-precision automatic non-ironing bag patching machine includes a table top 10, a bag auxiliary mechanism 20, a turnover mechanism 30, a feeding unit 40, a sewing machine head 50, a display screen 60 and a frame body 80, wherein the table top 10 is welded on the top surface of the frame body 80, the bag auxiliary mechanism 20 and the turnover mechanism 30 are installed on one side inside the frame body 80 through the table top 10, the feeding unit 40 is installed on the upper surface of the table top 10 through a welding part, the feeding unit 40 includes an X-axis moving assembly 41, a Y-axis moving assembly 42 and a material pressing assembly 43, the sewing machine head 50 is arranged on one side of the material pressing assembly 43 on the upper surface of the table top 10, and the turnover mechanism 30 includes a turnover frame 301, a driving arm 302, a bearing 303 with a seat, a turnover cylinder 304, a falling cylinder 305, a square bearing seat 306;

one end of the turning frame 301 is positioned in the frame body 80 and is rotationally connected with the turning shaft 307 through a bearing with a seat 303, two ends of the turning shaft 307 are fixed on the inner wall of the frame body 80 through square bearing seats 306, one side of the bearing with a seat 303 is provided with a driving arm 302, one end of the driving arm 302 is fixedly welded with the turning frame 301, the other end of the driving arm 302 is connected with a driving rod of a turning cylinder 304 through a connecting piece, the bottom of the turning cylinder 304 is fixedly connected with the top of a falling cylinder 305, the driving rod of the falling cylinder 305 is connected with a seat body welded in the frame body 80 through a connecting piece, and the;

the bag folding assembly 31 comprises a material pressing frame 31.1, bag folding cylinders 31.2, a bag folding plate 31.3, an electromagnet 31.4 and a bag pressing plate 31.5, the bag pressing plate 31.5 is arranged in the middle of the inside of the material pressing frame 31.1, the electromagnet 31.4 is arranged in the middle of the inside of the bag pressing plate 31.5, a plurality of bag folding cylinders 31.2 are arranged on the material pressing frame 31.1, the bag folding plates 31.3 are arranged on driving rods of the bag folding cylinders 31.2, and the bag folding plates 31.3 are positioned between the material pressing frame 31.1 and the bag pressing plate 31.5;

the bag piece to be sewn is placed on a bag piece fixing plate 205, a bag folding assembly 31 arranged on a turnover frame 301 is driven to turn over 90 degrees through a turning cylinder 304 and a falling cylinder 305, a pressing frame 31.1 and a bag pressing plate 31.1 are respectively corresponding to the material piece and the bag piece, an electromagnet 31.4 on the bag pressing plate 31.5 generates suction to the bag piece fixing plate 205 at the moment, the bag piece on the bag piece fixing plate 205 is fixed, the bag folding plate 31.3 is pushed by a bag folding cylinder 31.2 on the pressing frame 31.1 to fold two sides and two corners of the root of the bag piece, the pressing frame 31.1 and the bag pressing plate 31.5 fall under the action of the falling cylinder 305 at the moment, the folded bag is pressed on a working table 10, the bag folding cylinder 31.2 drives the bag folding plate 31.3 to reset, the turning cylinder 304 and the falling cylinder 305 drive the turnover frame 301 and the bag folding assembly 31 to reset, the bag pressing assembly 43 moves to the upper part of the bag piece fixing plate 205 and presses the folded bag piece, the bag piece fixing plate 205 exits, the automatic flattening and folding of the bag sheet are realized, manual ironing and shaping are not needed, the labor intensity is reduced, and the working efficiency is improved.

In the second embodiment, referring to fig. 1-2, the bag sheet auxiliary mechanism 20 includes a cylinder mounting frame 201, a cylinder fixing plate 202, a rodless cylinder 203, a connecting arm 204, a bag sheet fixing plate 205, a guide flange 206, a guide rod 207, and a jacking cylinder 208, the cylinder fixing plate 202 is welded inside the frame body 80, two jacking cylinders 208 are installed at the bottom of the cylinder fixing plate 202, and each jacking cylinder 208 has a driving rod connected to the cylinder mounting frame 201, the guide flange 206 is embedded on the surface of the cylinder mounting frame 201, the guide rod 207 is slidably connected to the guide flange 206, the top of the guide rod 207 is connected to the cylinder mounting frame 201, the rodless cylinder 203 is installed inside the cylinder mounting frame 201, the upper portion of the rodless cylinder 203 is connected to one end of the connecting arm 204, the bag sheet fixing plate 205 is installed at the other end of the connecting arm 204, the working table 10 is disposed in, the lower part of the air suction opening 70 is connected with an exhaust fan, so that the material sheet is smoothly attached to the working table top 10;

an operator can adjust the distance between the bag piece fixing plate 205 and the workbench surface 10 by controlling the jacking cylinder 208, so that the movement of material pieces on the workbench surface 10 is convenient to correct, the bag piece fixing plate 205 is controlled by the rodless cylinder 203 to move along the Y-axis direction, the moving stability of the bag piece fixing plate 205 is improved, and the use of a material pressing assembly can be well matched.

In the third embodiment, referring to fig. 7-10, the X-axis moving assembly 41 includes an X-axis servo motor 41.1, an X-axis coupler 41.2, an X-axis nut 41.3, an X-axis moving seat 41.4, an X-axis lead screw 41.5, an X-axis fixed bearing 41.6, an X-axis guide rail assembly 41.7, an X-axis protective shell 41.8, and a connecting plate 41.9, wherein the cross-section of the X-axis protective shell 41.8 is a "U" shaped structure, and one end of the X-axis protective shell 41.8 is provided with the X-axis servo motor 41.1, an output shaft of the X-axis servo motor 41.1 extends into the X-axis protective shell 41.8 and is connected to the X-axis lead screw 41.5 through the X-axis coupler 41.2, and two ends of the X-axis lead screw 41.5 are erected inside the X-axis protective shell 41.8 through the X-axis bearing 41.6, two sides of the X-axis lead screw 41.5 are provided with the X-axis guide rail assembly 41.7, and the X-axis moving seat 41.4 is connected to the X-axis moving seat 41.7, and one end of the X-axis female screw is provided with the X-axis coupler 41, the upper part of the X-axis moving seat 41.4 is vertically connected with a Y-axis feeding component 42 through a connecting plate 41.9;

the Y-axis feeding assembly 42 comprises a Y-axis servo motor 42.1, a Y-axis coupler 42.2, a Y-axis nut 42.3, a Y-axis moving seat 42.4, a Y-axis lead screw 42.5, a Y-axis fixed bearing seat 42.6, a Y-axis guide rail assembly 42.7, a Y-axis protective shell 42.8, an end plate 42.9 and a rib plate 42.10, the working principle of the Y-axis feeding assembly 42 is the same as that of the X-axis moving assembly 41, one end of the Y-axis moving seat 42.4 is provided with the end plate 42.9, and one side of the end plate 42.9 is provided with the rib plate 42.10;

the material pressing assembly 43 is mounted at one end of the Y-axis feeding assembly 42 through an end plate 42.9, the material pressing assembly 43 comprises a first guide rail assembly 43.1, a first lifting cylinder 43.2, a first connecting plate 43.3, a first connecting corner piece 43.4, a material sheet pressing plate 43.5, a second guide rail assembly 43.6, a second lifting cylinder 43.7, a second connecting plate 43.8, a second connecting corner piece 43.9 and a feeding pressing plate 43.10, the first guide rail assembly 43.1 and the second guide rail assembly 43.6 are respectively vertically mounted on the front section surface of the end plate 42.9, the number of the first guide rail assembly 43.1 is two, the two first guide rail assemblies 43.1 are symmetrically distributed relative to the second guide rail assembly 43.6, the first guide rail assembly 43.1 and the second guide rail assembly 43.6 are correspondingly and slidably connected with the first connecting plate 43.3 and the second connecting plate 43.8, the lower end of the first connecting plate 43.3 is vertically connected with the pressing plate 43.5 through the first connecting corner piece 43.4, and the upper end of the first connecting plate 43.3 is connected with the lifting cylinder 42.9, the lower end of the second connecting plate 43.8 is vertically connected with the feeding pressure plate 43.10 through a second connecting angle piece 43.9, and the upper end of the second connecting plate 43.8 is connected with the end plate 42.9 through a second lifting cylinder 43.7.

The X-axis guide rail assembly 41.7, the Y-axis guide rail assembly 42.7, the first guide rail assembly 43.1 and the second guide rail assembly 43.6 are all composed of linear guide rails and matched slide blocks, and sewing gaps are uniformly arranged between the inner contour of the feeding pressing plate 43.10 and the side contour of the material sheet pressing plate 43.5;

the X-axis moving assembly 41, the Y-axis moving assembly 42 and the pressing assembly 43 in the feeding unit 40 are matched for use, a material sheet and a bag sheet are pressed on the worktable 10 and are stably conveyed to the sewing machine head 50, the sewing machine head 50 processes and sews, the X-axis moving assembly 41 drives the X-axis lead screw 41.5 and the X-axis lead screw 41.3 to relatively rotate through the X-axis servo motor 41.1, so that the X-axis moving seat 41.4 fixedly connected with the X-axis lead screw 41.3 reciprocates along the X-axis guide rail assembly 41.7, thereby realizing the stable movement of the pressing assembly 43 in the X-axis direction, the Y-axis moving assembly 42 has the same working principle as the X-axis moving assembly 41, is different from the moving stroke and moving direction, the pressing assembly 43 can move in the Y-axis direction through the Y-axis moving assembly 42, the material sheet pressing plate 43.5 and the feeding pressing plate 43.10 in the pressing assembly 43 can respectively realize the lifting movement in the Z-axis direction through the first lifting cylinder 43.2 and the second lifting cylinder 43.7, the X-axis moving assembly 41, the Y-axis moving assembly 42 and the pressing assembly 43 are matched for use, so that the feeding unit 40 can stably and accurately convey material sheets and bag sheets, and the sewing quality of the bag sheets is improved.

The working principle is as follows: the bag pasting machine is placed in a reasonable area, a power supply and an air source are connected, and the bag pasting machine is debugged to be normally used, when in use, an operator flatly lays a material sheet at an air suction opening 70 of a worktable 10, controls a bag sheet fixing plate 205 to move right above the material sheet along the Y-axis direction through a rodless cylinder 203, places the bag sheet to be sewn on the bag sheet fixing plate 205, adjusts the pressing or loosening of the bag sheet fixing plate 205 on the worktable 10 through controlling a jacking cylinder 208, is convenient to move and correct the material sheet on the worktable 10, drives a bag folding assembly 31 arranged on a turnover frame 301 to turn over 90 degrees through a turning cylinder 304 and a falling cylinder 305, enables a pressing frame 31.1 and a bag pressing plate 31.1 to respectively correspond to the material sheet and the bag sheet, at the moment, an electromagnet 31.4 on the bag pressing plate 31.5 generates suction to the bag sheet fixing plate 205 to fix the bag sheet on the bag sheet fixing plate 205, pushes the bag pressing plate 31.3 to fold two sides of the bag sheet and two corners of a root part through a bag folding cylinder 31.2 on the, at this time, the pressing frame 31.1 and the bag pressing plate 31.5 fall under the action of the falling cylinder 305, the folded bag is pressed on the working table 10, the bag folding cylinder 31.2 drives the bag folding plate 31.3 to reset, the overturning cylinder 304 and the falling cylinder 305 drive the overturning frame 301 and the bag folding component 31 to reset, the pressing component 43 waits for moving to the upper part of the bag fixing plate 205 and pressing the folded bag, the bag fixing plate 205 withdraws, and after the bag folding is completed, the material sheet and the bag sheet are pressed on the working table 10 by matching the X-axis moving component 41, the Y-axis moving component 42 and the pressing component 43 in the feeding unit 40, and are stably conveyed to the sewing machine head 50 for processing and sewing by the sewing machine head 50.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The utility model provides an automatic non-ironing pocket patching machine of high accuracy, includes table surface (10), bag piece complementary unit (20), tilting mechanism (30), feeding unit (40), sewing machine head (50), display screen (60), support body (80), its characterized in that, table surface (10) welding is at support body (80) top surface, and support body (80) inside one side runs through table surface (10) and installs bag piece complementary unit (20) and tilting mechanism (30), table surface (10) upper surface is installed feeding unit (40) through the welding piece, and feeding unit (40) include X axle removal subassembly (41), Y axle removal subassembly (42) and press material subassembly (43), it is equipped with sewing machine head (50) to lie in table surface (10) upper surface on one side to press material subassembly (43).

2. The high-precision automatic non-ironing bag patching machine as claimed in claim 1, wherein the turnover mechanism (30) comprises a turnover frame (301), a driving arm (302), a bearing with a seat (303), a turnover cylinder (304), a falling cylinder (305), a square bearing seat (306), a turnover shaft (307) and a bag folding assembly (31);

one end of the turning frame (301) is positioned in the frame body (80) and is rotationally connected with the turning shaft (307) through a bearing with a seat (303), two ends of the turning shaft (307) are fixed on the inner wall of the frame body (80) through square bearing seats (306), one side of the bearing with a seat (303) is provided with a driving arm (302), one end of the driving arm (302) is fixedly welded with the turning frame (301), the other end of the driving arm (302) is connected with a driving rod of a turning cylinder (304) through a connecting piece, the bottom of the turning cylinder (304) is fixedly connected with the top of a falling cylinder (305), the driving rod of the falling cylinder (305) is connected with a base body welded in the frame body (80) through a connecting piece, and the other end of the turning frame (301) is provided;

roll over bag subassembly (31) including pressing material frame (31.1), roll over a bag cylinder (31.2), roll over a bag board (31.3), electro-magnet (31.4), press a bag board (31.5), press material frame (31.1) inside intermediate position to be equipped with and press a bag board (31.5), and press bag board (31.5) inside intermediate position to be equipped with electro-magnet (31.4), be equipped with a plurality of bag cylinders (31.2) of rolling over on pressing material frame (31.1), and install on the actuating lever of a plurality of bag cylinders (31.2) and roll over a bag board (31.3), just roll over a bag board (31.3) and be located and press between material frame (31.1) and the bag board (31.5).

3. The high-precision automatic non-ironing bag patching machine as claimed in claim 1, wherein the X-axis moving assembly (41) comprises an X-axis servo motor (41.1), an X-axis coupler (41.2), an X-axis nut (41.3), an X-axis moving seat (41.4), an X-axis lead screw (41.5), an X-axis fixed bearing seat (41.6), an X-axis guide rail assembly (41.7), an X-axis protective shell (41.8) and a connecting plate (41.9);

the cross section of the X-axis protective shell (41.8) is of a U-shaped structure, one end of the X-axis protective shell (41.8) is provided with an X-axis servo motor (41.1), an output shaft of the X-axis servo motor (41.1) extends into the X-axis protective shell (41.8) and is connected with an X-axis lead screw (41.5) through an X-axis coupler (41.2), two ends of the X-axis lead screw (41.5) are erected inside the X-axis protective shell (41.8) through an X-axis fixed bearing seat (41.6), X-axis guide rail assemblies (41.7) are arranged on two sides of the X-axis lead screw (41.5), an X-axis moving seat (41.4) is connected with the X-axis moving seat (41.4) in a sliding mode, one end of the X-axis moving seat (41.4) is embedded with an X-axis screw (41.3), the X-axis screw (41.3) is connected with a rotating X-axis lead screw (41.5), and a feeding assembly (42) is vertically connected above the X-axis moving seat (41.4) through a connecting plate;

the Y-axis feeding assembly (42) comprises a Y-axis servo motor (42.1), a Y-axis coupler (42.2), a Y-axis nut (42.3), a Y-axis moving seat (42.4), a Y-axis lead screw (42.5), a Y-axis fixed bearing seat (42.6), a Y-axis guide rail assembly (42.7), a Y-axis protective shell (42.8), an end plate (42.9) and a rib plate (42.10);

the Y-axis feeding assembly (42) has the same working principle as the X-axis moving assembly (41), one end of the Y-axis moving seat (42.4) is provided with an end plate (42.9), and one side of the end plate (42.9) is provided with a rib plate (42.10).

4. A high-precision automatic non-ironing bag patching machine as claimed in claim 1 or 3, wherein the pressing assembly (43) is mounted at one end of the Y-axis feeding assembly (42) through an end plate (42.9), and the pressing assembly (43) comprises a first guide rail assembly (43.1), a first lifting cylinder (43.2), a first connecting plate (43.3), a first connecting corner piece (43.4), a material sheet pressing plate (43.5), a second guide rail assembly (43.6), a second lifting cylinder (43.7), a second connecting plate (43.8), a second connecting corner piece (43.9) and a feeding pressing plate (43.10);

the front section surface of the end plate (42.9) is respectively vertically provided with a first guide rail assembly (43.1) and a second guide rail assembly (43.6), and the number of the first guide rail assemblies (43.1) is two, and the two first guide rail assemblies (43.1) are symmetrically distributed about the second guide rail assembly (43.6), the first guide rail assembly (43.1) and the second guide rail assembly (43.6) are correspondingly connected with a first connecting plate (43.3) and a second connecting plate (43.8) in a sliding way, the lower end of the first connecting plate (43.3) is vertically connected with a material sheet pressing plate (43.5) through a first connecting corner piece (43.4), and the upper end of the first connecting plate (43.3) is connected with an end plate (42.9) through a first lifting cylinder (43.2), the lower end of the second connecting plate (43.8) is vertically connected with the feeding pressure plate (43.10) through a second connecting angle piece (43.9), and the upper end of the second connecting plate (43.8) is connected with the end plate (42.9) through a second lifting cylinder (43.7).

5. A high precision automatic non-ironing pocket patching machine as claimed in claim 1 or 3 or 4, characterized in that the feeding pressure plate (43.10) inner contour and the material sheet pressure plate (43.5) side contour are provided with sewing gaps uniformly.

6. The high-precision automatic non-ironing bag patching machine of claim 1, wherein the bag sheet auxiliary mechanism (20) comprises a cylinder mounting frame (201), a cylinder fixing plate (202), a rodless cylinder (203), a connecting arm (204), a bag sheet fixing plate (205), a guide flange (206), a guide rod (207) and a jacking cylinder (208);

cylinder fixed plate (202) welding is inside support body (80), and cylinder fixed plate (202) bottom installs two jacking cylinders (208) to every jacking cylinder (208) actuating lever is connected with cylinder mounting bracket (201), cylinder mounting bracket (201) surface inlays to be established and is equipped with guide flange (206), and guide bar (207) and guide flange (206) sliding connection, guide bar (207) top is connected with cylinder mounting bracket (201), and cylinder mounting bracket (201) internally mounted has rodless cylinder (203), rodless cylinder (203) top is connected with linking arm (204) one end, and the linking arm (204) other end is equipped with bag piece fixed plate (205).

7. The high-precision automatic non-ironing pocket patching machine as claimed in claim 1, wherein the worktable (10) is arranged in an inclined state, an air suction opening (70) is formed in one side of the top surface of the worktable (10), and an exhaust fan is connected below the air suction opening (70).

8. A high-precision automatic non-ironing pocket patching machine as claimed in claim 1, 3 or 4, characterized in that the X-axis guide rail assembly (41.7), the Y-axis guide rail assembly (42.7), the first guide rail assembly (43.1) and the second guide rail assembly (43.6) are all composed of linear guide rails and matched slide blocks.

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