CN112223893A

CN112223893A - Insole transfer machine

Info

Publication number: CN112223893A
Application number: CN202011024118.XA
Authority: CN
Inventors: 黄志洪
Original assignee: Heshan Xin'yi High Heeled Shoe Industry Co ltd
Current assignee: Heshan Xin'yi High Heeled Shoe Industry Co ltd
Priority date: 2020-09-25
Filing date: 2020-09-25
Publication date: 2021-01-15

Abstract

The invention discloses an insole transfer machine, which comprises a frame, a transfer component and a workbench, wherein the transfer component is arranged on the frame; the transfer printing component is arranged on the workbench through the rack; the transfer printing component comprises a transfer printing head, a first driving device for driving the transfer printing head to move in the vertical direction, and a positioning component positioned below the transfer printing head; the positioning assembly comprises a positioning head, a second driving device and a photoelectric sensor, wherein the second driving device drives the positioning head to move in the horizontal direction; a discharging scroll is arranged on one side of the rack, a driving wheel and a tensioning wheel which are mutually attached are arranged on the other side of the rack, and the driving wheel is connected with a third driving device; the workbench is provided with a transfer printing platform opposite to the position of the transfer printing head. Through setting up the rendition subassembly, the shoe-pad rendition function detects the position of pattern on the rendition glued membrane to drive the pattern through the drive wheel and accurately convey the rendition bench, realize the accurate location of shoe-pad rendition in-process, improve the yields of shoe-pad production.

Description

Insole transfer machine

Technical Field

The invention relates to the technical field of garment processing machinery, in particular to an insole transfer printing machine.

Background

In the processing process of the insole, the insole is usually required to be printed with marks, so that the insole has bright marks after being manufactured. The insole transfer machine is widely applied to the insole printing production process, the work flow of the insole transfer machine is to transfer the patterns on the transfer glue film to the insole through the thermal transfer head, and the mode can effectively improve the insole printing efficiency and reduce the insole production cost. However, the pitch of the patterns on the transfer printing film is not consistent, so that the insole transfer printing machine cannot accurately transfer the patterns to the insole. And partial manufacturers adopt a manual mode to correct the positions of the insole transfer printing machines, so that the labor cost is increased, and the yield of insole production is influenced.

Disclosure of Invention

In order to solve the problems, the invention aims to provide an insole transfer printing machine which is used for realizing accurate positioning in an insole transfer printing process and improving the yield of insole production.

The technical scheme adopted by the invention for solving the problems is as follows:

an insole transfer printing machine comprises a frame, a transfer printing assembly and a workbench; the transfer printing component is arranged on the workbench through the rack; the transfer printing component comprises a transfer printing head, a first driving device for driving the transfer printing head to move in the vertical direction, and a positioning component positioned below the transfer printing head; the positioning assembly comprises a positioning head, a second driving device and a photoelectric sensor, wherein the second driving device drives the positioning head to move in the horizontal direction, and the photoelectric sensor is fixedly arranged on the positioning head; a discharging scroll is arranged on one side of the rack, a driving wheel and a tensioning wheel which are mutually attached are arranged on the other side of the rack, and the driving wheel is connected with a third driving device; a transfer printing table opposite to the position of the transfer printing head is arranged on the workbench; the rack is also provided with a controller, and the first driving device, the second driving device, the third driving device and the photoelectric sensor are all electrically connected with the controller.

The transfer machine for insoles at least has the following beneficial effects: through setting up the rendition subassembly, the shoe-pad rendition function detects the position of pattern on the rendition glued membrane to drive the pattern through the drive wheel and accurately convey the rendition bench, realize the accurate location of shoe-pad rendition in-process, improve the yields of shoe-pad production.

Furthermore, the positioning head is provided with a groove, and the photoelectric sensor is fixed at the upper end of the positioning head and extends into the groove. Through setting up the recess, the rendition glued membrane can pass the recess and steadily convey the rendition bench, and the pattern on the rendition glued membrane can trigger photoelectric sensor more accurately, improves shoe-pad transfer machine's the accurate nature in location.

Further, a sliding groove is formed in the machine frame, two ends of the tensioning wheel are movably connected with fixing blocks, and the fixing blocks are inserted into the sliding groove and are movably connected with the machine frame. Through setting up spout and fixed block, make take-up pulley and frame swing joint to adjust the distance of take-up pulley and drive wheel according to the thickness of rendition glued membrane, improve shoe-pad transfer machine's convenience of use.

Further, a spring is arranged on one side, close to the driving wheel, of the sliding groove; and one side of the sliding groove, which is far away from the driving wheel, is provided with a fixing bolt, and the fixing bolt penetrates through the rack to press the fixing block to the spring, so that the fixing block is fixed in the sliding groove. Through setting up spring and fixing bolt, guarantee take-up pulley and drive wheel laminating, make the rendition glued membrane pass the back between take-up pulley and drive wheel, the drive wheel can stably drive the rendition glued membrane and transport forward, guarantees the operation stationarity of shoe-pad transfer machine.

Furthermore, guide wheels are arranged between the discharging reel and the transfer platform and between the transfer platform and the driving wheels, and the guide wheels are movably connected with the rack through connecting rods. Through setting up the leading wheel, make the rendition glued membrane can convey steadily between blowing spool and drive wheel, avoid the rendition glued membrane to take place to deflect and the displacement, lead to the shoe-pad transfer machine the location not accurate.

Furthermore, both sides of leading wheel all are provided with the spacing collar. Through setting up the spacing collar, the position of rendition glued membrane is injectd between two spacing collars, further improves the stationarity that the rendition glued membrane conveyed.

Furthermore, a positioning part matched with the insole in shape is arranged on the transfer pad. Through setting up location portion, make the shoe-pad can place on the rendition platform accurately with the position just right of rendition head position, guarantee to rendition on the glued membrane pattern accurately and rendition the shoe-pad, improve the yields of shoe-pad production.

Further, a touch screen is further arranged on the rack and electrically connected with the controller. Through setting up the touch-sensitive screen, the production workman can master and control the current running situation of shoe-pad transfer machine through observing and operating the touch-sensitive screen, improves the convenience in use of shoe-pad transfer machine.

Further, the first driving device and the second driving device are both air cylinders. The cylinder has simple structure, fixes a position accurate advantage, has further guaranteed the accurate nature in location of transfer printing head and location head, has also improved the maintenance convenience of shoe-pad transfer printing machine.

Further, the third driving device is a motor. The motor has the advantage that the operation is steady, response speed is fast, and third drive arrangement is the motor, guarantees that the drive wheel can steadily drive the rendition glued membrane conveying to can adjust the rotational speed according to the position of the pattern on the rendition glued membrane, improve the accuracy nature of shoe-pad rendition machine location.

The insole transfer machine has the beneficial effects that: by arranging the transfer printing assembly, the insole transfer printing machine can detect the position of the pattern on the transfer printing adhesive film and drive the pattern to be accurately transmitted to the transfer printing table through the driving wheel, so that the accurate positioning in the insole transfer printing process is realized, and the yield of insole production is improved; by arranging the groove, the transfer printing adhesive film can pass through the groove and be stably conveyed onto the transfer printing table, and the pattern on the transfer printing adhesive film can more accurately trigger the photoelectric sensor, so that the positioning accuracy of the insole transfer printing machine is improved; through setting up the leading wheel, make the rendition glued membrane can convey steadily between blowing spool and drive wheel, avoid the rendition glued membrane to take place to deflect and the displacement, lead to shoe-pad transfer machine's location inaccurate.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a view showing a construction of a transfer machine for insole according to an embodiment of the present invention;

FIG. 2 is a sectional view taken along line A-A of a transfer machine for shoe pads according to an embodiment of the present invention;

FIG. 3 is a sectional view taken along line A-A of a transfer printing machine for shoe insoles according to an embodiment of the invention;

fig. 4 is a block diagram of the frame, drive wheel and tensioner of fig. 1.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

Referring to fig. 1 to 4, an embodiment of the present invention provides an insole transfer printing machine, including a frame 100, a transfer printing assembly 200, and a work table 300; the transfer assembly 200 is disposed on the work stage 300 through the frame 100; the transfer assembly 200 includes a transfer head 210, a first driving device 220 driving the transfer head 210 to move in a vertical direction, a positioning assembly 240 located below the transfer head 210; the positioning assembly 240 includes a positioning head 241, a second driving device 242 for driving the positioning head 241 to move in the horizontal direction, and a photoelectric sensor 243, wherein the photoelectric sensor 243 is fixedly arranged on the positioning head 241; a discharging reel 110 is arranged on one side of the machine frame 100, a driving wheel 120 and a tensioning wheel 130 which are attached to each other are arranged on the other side of the machine frame 100, and the driving wheel 120 is connected with a third driving device (not shown in the figure); the work table 300 is provided with a transfer table 310 which is opposite to the position of the transfer head 210; the rack 100 is further provided with a controller 140, and the first driving device 220, the second driving device 242, the third driving device and the photoelectric sensor 243 are all electrically connected to the controller 140.

Through setting up transfer printing subassembly 200, the shoe-pad rendition machine can detect the position of pattern on the rendition glued membrane to drive the pattern through drive wheel 120 and accurately convey the rendition platform 310 on, realize the accurate location of shoe-pad rendition in-process, improve the yields of shoe-pad production.

In another embodiment, the alignment head 241 is provided with a recess 244, and the photoelectric sensor 243 is fixed at the upper end of the alignment head 241 and extends into the recess 244. By arranging the groove 244, the transfer printing adhesive film can pass through the groove 244 and be stably conveyed onto the transfer printing table 310, and patterns on the transfer printing adhesive film can trigger the photoelectric sensor 243 more accurately, so that the positioning accuracy of the insole transfer printing machine is improved.

Referring to fig. 1 and 4, in another embodiment, a sliding groove 150 is disposed on the frame 100, fixing blocks 131 are movably connected to both ends of the tension wheel 130, and the fixing blocks 131 are inserted into the sliding groove 150 and movably connected to the frame 100. The sliding groove 150 and the fixing block 131 are arranged, so that the tension wheel 130 is movably connected with the frame 100, the distance between the tension wheel 130 and the driving wheel 120 is adjusted according to the thickness of the transfer printing adhesive film, and the use convenience of the insole transfer printing machine is improved.

In another embodiment, a spring 151 is disposed on one side of the sliding groove 150 close to the driving wheel 120; a fixing bolt 152 is disposed on a side of the sliding groove 150 away from the driving wheel 120, and the fixing bolt 152 penetrates through the frame 100 to press the fixing block 131 to the spring 151, so as to fix the fixing block 131 in the sliding groove 150. Through setting up spring 151 and fixing bolt 152, guarantee take-up pulley 130 and drive wheel 120 laminating, make the rendition glued membrane pass the back between take-up pulley 130 and drive wheel 120, drive wheel 120 can stably drive the rendition glued membrane and transport forward, guarantee the operation stationarity of shoe-pad transfer machine.

In another embodiment, guide wheels 234 are disposed between the discharging reel 231 and the transfer table 310 and between the transfer table 310 and the driving wheel 232, and the guide wheels 234 are movably connected to the frame 100 through a connecting rod 250. Through setting up leading wheel 234, make the rendition glued membrane can convey steadily between blowing spool 231 and drive wheel 232, avoid the rendition glued membrane to take place to deflect and the displacement, lead to the shoe-pad transfer machine the location inaccurate. In the present embodiment, the height of the guide wheels 234 is the same as the height of the grooves 244, ensuring that the transfer adhesive film between the two guide wheels 234 can be smoothly transported backward through the grooves 244.

In another embodiment, the guide wheel 234 is provided with stop collars 235 on both sides. Through setting up spacing collar 235, the position of rendition glued membrane is injectd between two spacing collars 235, further improves the stationarity that the rendition glued membrane conveys.

In another embodiment, the transfer pad 310 is provided with a positioning part 311 which is matched with the insole in shape. Through setting up location portion 311, make the shoe-pad can accurately place on the rendition platform 310 with the position of rendition head 210 just right position, guarantee to transfer to the shoe-pad on the glued membrane pattern of rendition accurately, improve the yields of shoe-pad production.

In another embodiment, a touch screen 170 is further disposed on the rack 100, and the touch screen 170 is electrically connected to the controller 140. By arranging the touch screen 170, a production worker can grasp and control the current running state of the insole transfer printing machine by observing and operating the touch screen 170, and the use convenience of the insole transfer printing machine is improved.

In another embodiment, the first driving device 220 and the second driving device 242 are both air cylinders. The cylinder has simple structure, fixes a position accurate advantage, has further guaranteed the location accuracy nature of transfer printing head 210 and location head 241, has also improved the maintenance convenience of shoe-pad transfer printing machine.

In another embodiment, the third driving device is a motor. The motor has the advantage of smooth operation, response speed is fast, and third drive arrangement is the motor, guarantees that drive wheel 120 can drive the rendition glued membrane conveying steadily to can adjust the rotational speed according to the position of the pattern on the rendition glued membrane, improve the accurate nature of heelpiece transfer machine location.

The working principle of the present invention is further explained below.

In the production process, firstly, a transfer adhesive film roll is placed on the discharging reel 110, and the transfer adhesive film sequentially bypasses the guide wheel 234 below the discharging reel 110, passes through the groove 244, bypasses the guide wheel 234 below the driving wheel 120, is arranged between the two spacing rings 235, and finally passes through the space between the driving wheel 120 and the tension wheel 130. The positions of the tension wheel 130 and the driving wheel 120 are adjusted through the fixing bolt 152, and the tension wheel 130 is ensured to be attached to the driving wheel 120. A production worker places the insole to be transferred on the transfer table 310 and makes the insole fit the positioning part 311, then the third driving device is started through the touch screen 170, and the driving wheel 120 starts to operate and drives the transfer adhesive film to be conveyed forwards; the second driving device 242 drives the positioning head 241 to move to the lower side of the transfer head 210, the photoelectric sensor 243 starts to detect the pattern on the transfer adhesive film, and at this time, the insole transfer machine is in a positioning state. When the pattern on the transfer adhesive film triggers the photoelectric sensor 243, the controller 140 sequentially sends corresponding operation instructions to the second driving device 242, the third driving device and the first driving device 220, the second driving device 242 drives the positioning head 241 to be far away from the transfer table 310, the third driving device drives the pattern on the transfer adhesive film to be conveyed to the position right below the transfer head 210 through the driving wheel 120 and then stops operating, the first driving device 220 drives the transfer head 210 to move downwards, the transfer head 210 accurately transfers the pattern on the transfer adhesive film to the insole on the transfer table 310, and at the moment, the insole transfer machine is in a transfer state. Then, the first driving device 220 drives the transfer head 210 to move upwards, the second driving device 242 drives the positioning head 241 to approach the transfer table 310, the photoelectric sensor 243 is ready to detect the next pattern, the third driving device starts to operate and drives the transfer adhesive film to be conveyed forwards, and the production worker takes out the insole which is subjected to transfer printing and places the next insole to be transferred, so that the process of transferring the insole at one time is completed. The drive wheel 120, the transfer printing head 210 and the photoelectric sensor 243 work cooperatively, so that the patterns on the transfer printing adhesive film can be accurately transferred to the insole, the transfer printing adhesive film operates efficiently in the whole process, and the transfer printing efficiency of the insole is ensured.

As can be seen from the above description, the insole transfer printing machine of the present invention, by providing the transfer printing assembly 200, the insole transfer printing machine can detect the position of the pattern on the transfer printing adhesive film, and drive the pattern to be accurately transmitted to the transfer printing table 310 through the driving wheel 120, so as to realize accurate positioning during the insole transfer printing process, and improve the yield of insole production; by arranging the groove 244, the transfer adhesive film can pass through the groove 244 and be stably conveyed onto the transfer table 310, and the pattern on the transfer adhesive film can more accurately trigger the light-emitting sensor 243, so that the positioning accuracy of the insole transfer machine is improved; through setting up leading wheel 234, make the rendition glued membrane can convey steadily between blowing spool 231 and drive wheel 232, avoid the rendition glued membrane to take place to deflect and the displacement, lead to the shoe-pad transfer machine the location inaccurate.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims

1. An insole transfer machine is characterized by comprising a frame, a transfer printing assembly and a workbench; the transfer printing component is arranged on the workbench through the rack; the transfer printing component comprises a transfer printing head, a first driving device for driving the transfer printing head to move in the vertical direction, and a positioning component positioned below the transfer printing head; the positioning assembly comprises a positioning head, a second driving device and a photoelectric sensor, wherein the second driving device drives the positioning head to move in the horizontal direction, and the photoelectric sensor is fixedly arranged on the positioning head; a discharging scroll is arranged on one side of the rack, a driving wheel and a tensioning wheel which are mutually attached are arranged on the other side of the rack, and the driving wheel is connected with a third driving device; a transfer printing table opposite to the position of the transfer printing head is arranged on the workbench; the rack is also provided with a controller, and the first driving device, the second driving device, the third driving device and the photoelectric sensor are all electrically connected with the controller.

2. The transfer printing machine for shoe pads according to claim 1, wherein said positioning head is provided with a recess, and said photo sensor is fixed to an upper end of said positioning head and extends into said recess.

3. The transfer printing machine for shoe pads according to claim 1, wherein a sliding slot is provided on said frame, fixing blocks are movably connected to both ends of said tension wheel, and said fixing blocks are inserted into said sliding slot and movably connected to said frame.

4. The transfer machine for insole according to claim 3, wherein a spring is provided on a side of said chute adjacent to said driving wheel; and one side of the sliding groove, which is far away from the driving wheel, is provided with a fixing bolt, and the fixing bolt penetrates through the rack to press the fixing block to the spring, so that the fixing block is fixed in the sliding groove.

5. The transfer machine for shoe pads according to claim 1, wherein guide wheels are arranged between the feeding reel and the transfer table and between the transfer table and the driving wheel, and the guide wheels are movably connected with the machine frame through connecting rods.

6. The transfer printing machine for shoe pads according to claim 5, wherein a stop collar is provided on both sides of the guide wheel.

7. The transfer machine for insole according to claim 1, wherein the transfer table is provided with a positioning part which is matched with the insole in shape.

8. The transfer machine for insole according to claim 1, wherein a touch screen is further disposed on said frame, said touch screen being electrically connected to said controller.

9. The transfer machine for insole according to claim 1, wherein said first driving means and said second driving means are both air cylinders.

10. The transfer machine for insole according to claim 1, wherein said third driving means is a motor.