CN110547536A - Cut-parts and lining cloth bonding processingequipment - Google Patents

Abstract

The invention discloses a cutting piece and lining cloth bonding processing device. The cut piece and lining cloth bonding processing device comprises a machine table, and a first material moving mechanism, a second material moving mechanism, a feeding mechanism, a first image acquiring mechanism and a pressing mechanism which are arranged on the machine table; a first placing station and a second placing station are arranged on the machine table; first material moving mechanism is used for from acquireing the cut-parts and transferring to first station department of putting, the second material moving mechanism is used for acquireing the lining cloth and transfers to second station department of putting, first image acquisition mechanism is used for acquireing cut-parts image, second image acquisition mechanism is used for acquireing the lining cloth image, the second material moving mechanism is counterpointed formation and is overlapped the cut-parts according to the skew information between cut-parts image and the lining cloth image with the lining cloth removal on the cut-parts, feeding mechanism is used for carrying and overlaps cut-parts to press scalds mechanism department, press and scald the mechanism and be used for pressing and scald overlapping the cut-parts. This cut-parts and lining cloth bonding processingequipment machining efficiency is high.

Description

Cut-parts and lining cloth bonding processingequipment

Technical Field

The invention relates to the field of textiles, in particular to a cutting piece and lining cloth bonding processing device.

Background

In the textile field, the processing of the common collar/cuff part needs a lining cloth to be adhered to the surface of a cut piece through heating, and the lining cloth plays a role in strengthening the inner layer of the collar/cuff. In the conventional clothes-making process, workers need to take up the lining cloth by hands to lay the lining cloth on the cut pieces (collar/cuff), send the lining cloth into a hot-pressing device, and adhere and relatively fix the lining cloth by certain time and pressure. The operation is simple, related skill requirements do not exist, time and labor are consumed, the generated added value is low, the temperature of the working environment is high, and workers can greatly influence bodies when working in a high-temperature environment for a long time.

Disclosure of Invention

Based on this, it is necessary to provide a cut-piece and lining cloth bonding processing device which reduces the labor intensity of workers, greatly saves labor resources, and saves time to improve the production efficiency.

A cut piece and lining cloth bonding processing device comprises a machine table, and a first material moving mechanism, a second material moving mechanism, a feeding mechanism, a first image acquiring mechanism, a second image acquiring mechanism, a pressing mechanism and a control mechanism which are arranged on the machine table; a first placing station and a second placing station are arranged on the machine table; first material moving mechanism is used for from acquireing the cut-parts and transferring to first putting station department, the second moves material mechanism and is used for acquireing the lining cloth and transfers to second putting station department, first image acquisition mechanism is used for acquireing the cut-parts image of first putting station department, second image acquisition mechanism is used for acquireing the lining cloth image of second putting station department, the second moves material mechanism basis cut-parts image reaches skew information between the lining cloth image will the lining cloth remove to counterpoint on the cut-parts and form and overlap the cut-parts, feeding mechanism is used for carrying overlap the cut-parts extremely press boiling hot mechanism department, press boiling hot mechanism is used for pressing and scalds overlap the cut-parts.

In one embodiment, a first discharging platform and a second discharging platform are arranged on the machine table, the first material moving mechanism is used for acquiring cut pieces from the first discharging platform and moving the cut pieces to the first placing station, and the second material moving mechanism is used for acquiring lining cloth from the second discharging platform and moving the lining cloth to the second placing station.

In one embodiment, the first placing station is arranged on the feeding mechanism.

In one embodiment, the feeding mechanism comprises a feeding conveyor belt and a feeding driving part, the feeding conveyor belt is installed on the machine table, the feeding conveyor belt extends towards the pressing mechanism, the feeding driving part is connected to the feeding conveyor belt and is used for driving the feeding conveyor belt to move, and when the feeding conveyor belt stops moving, the position of the feeding conveyor belt, which is opposite to the first image acquiring mechanism, forms the first placing station.

In one embodiment, the feeding mechanism further comprises a driving shaft and a driven shaft, the driving shaft and the driven shaft are rotatably connected to the machine table, and the feeding conveyor belt is annular and sleeved on the driving shaft and the driven shaft.

In one embodiment, the two end parts of the driving shaft and the two end parts of the driven shaft are respectively protruded with a boss, the bosses are in a conical surface structure, and an included angle of 30-60 degrees is formed between the conical surface of each boss and the axial direction of the driving shaft or the driven shaft.

In one of them embodiment, feeding mechanism still includes the subassembly of rectifying, the subassembly of rectifying is including rectifying axle, two fixing bases, bearing frame and fastener, two the fixing base sets up relatively on the board, two all be connected with on the fixing base the bearing frame, the bearing frame for the position of fixing base is adjustable, the both ends of rectifying the axle are rotatable coupling respectively in two the bearing frame, rectify the axle and supply the pay-off conveyer belt cover is established, the fastener is used for fixing the bearing frame.

In one embodiment, the number of the deviation rectifying assemblies is at least two.

In one embodiment, the first material moving mechanism includes a material moving support, a first electrostatic plate, and a material moving driving component, the material moving support is disposed on the machine platform, the first electrostatic plate is movably connected to the material moving support, and the material moving driving component is configured to drive the first electrostatic plate to move.

In one embodiment, the material moving driving component includes a guide rail, a material moving seat, a transverse driving motor and a longitudinal driving motor, the guide rail is transversely installed on the material moving bracket and extends from the first discharging platform to the feeding mechanism, the material moving seat is slidably connected to the guide rail, the transverse driving motor is used for driving the material moving seat to move along the horizontal direction, the longitudinal driving motor is installed on the material moving seat and is connected to the first electrostatic plate, and the longitudinal driving motor is used for driving the first electrostatic plate to move along the vertical direction.

In one embodiment, the second material moving mechanism comprises a robot and a second electrostatic plate connected to the robot.

In one embodiment, the pressing mechanism comprises a press and a pressing conveying component which are arranged on the machine table, and the pressing conveying component is butted with the feeding mechanism to receive the overlapped cut pieces.

In one embodiment, the pressing conveying component comprises a pressing conveying belt and a transmission driving motor, the pressing conveying belt is connected with the feeding mechanism end to end, and the transmission driving motor is used for driving the pressing conveying belt to operate.

The cutting piece and lining cloth bonding processing device can reduce the labor intensity of workers, greatly save labor resources and save time so as to improve the production efficiency. During production, a worker only needs to place the cut pieces and the lining cloth at preset positions without adjusting the placing directions of the cut pieces and the lining cloth, the first material moving mechanism obtains the cut pieces and transfers the cut pieces to a first placing station, the second material moving mechanism obtains the lining cloth and transfers the lining cloth to a second placing station, the first material moving mechanism and the second material moving mechanism can work simultaneously to save time and improve efficiency, then the first image obtaining mechanism obtains the cut piece images at the first placing station, the second image obtaining mechanism obtains the lining cloth images at the second placing station, offset information between the cut piece images and the lining cloth images is compared, the second material moving mechanism moves the lining cloth to the cut pieces according to the offset information to be overlapped and aligned to form overlapped cut pieces, the feeding mechanism is used for conveying the overlapped cut pieces to the pressing mechanism, the overlapped cut pieces are pressed and pressed by the pressing mechanism, and the adhesion of the cut pieces and the lining cloth is realized, the manual intervention is reduced, the manual work in the traditional method is not needed to participate in the pressing process, the damage to the body of a worker caused by high temperature of the working environment is avoided, in addition, the material moving of the cut pieces and the lining cloth is carried out simultaneously, the processing time can be saved, after the cut pieces and the lining cloth are transferred, the laying of the next cut piece and the lining cloth can be carried out, and the production efficiency is improved.

According to the cutting piece and lining cloth bonding processing device, the bosses which are arranged at the two end parts of the driving shaft and the two end parts of the driven shaft and are in the conical surface structures can effectively prevent the deviation of the feeding conveyor belt. When the feeding conveyor belt shifts towards one side during operation, the side of the feeding conveyor belt can gradually climb to the conical surface structure of the driving shaft or the driven shaft, the contact area of the feeding conveyor belt and the conical surface structure is increased, the received pulling force is increased, and the feeding conveyor belt is not completely tensioned, so that the feeding conveyor belt slightly slips relative to the driving shaft and the driven shaft, and the part of the feeding conveyor belt climbing the conical surface structure of the driving shaft or the driven shaft slides down to correct the shift.

Drawings

fig. 1 is a schematic view of a device for bonding and processing cut pieces and a lining cloth according to an embodiment of the present invention;

FIG. 2 is another schematic view of the apparatus for processing cut pieces and liner shown in FIG. 1;

FIG. 3 is a schematic side view of the cut segment and backing adhesion processing device shown in FIG. 1;

FIG. 4 is a schematic view of a feeding mechanism of the cut piece and lining cloth bonding processing device shown in FIG. 1;

FIG. 5 is a schematic view of the feeding mechanism shown in FIG. 4 in an installed state;

Fig. 6 is a side schematic view of the feed mechanism shown in fig. 4.

Description of the reference numerals

10: the cut pieces and the lining cloth are adhered to the processing device; 100: a machine platform; 110: a first placing station; 120: a second placing station; 130: a first discharging platform; 140: a second discharging platform; 200: a first material moving mechanism; 210: a material moving bracket; 220: a first electrostatic plate; 230: a guide rail; 240: a material moving seat; 250: a transverse driving motor; 260: a longitudinal driving motor; 300: a second material moving mechanism; 310: a second electrostatic plate; 320: a robot; 400: a feeding mechanism; 410: a feeding conveyor belt; 420: a feeding drive component; 430: a drive shaft; 440: a driven shaft; 450: a deviation rectifying component; 451: an axis of rectification; 452: a fixed seat; 453: a bearing seat; 454: a fastener; 500: a first image acquisition mechanism; 600: a second image acquisition mechanism; 700: a pressing mechanism; 710: a press; 720: pressing and ironing the conveying belt; 800: a control mechanism; 21: cutting the pieces; 22: lining cloth; 23: overlapping the cut pieces.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When an element is referred to as being "mounted on" another element, it can be directly mounted on the other element or intervening elements may also be present. When an element is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, an embodiment of the present invention provides an automatic bonding processing apparatus 10 for cut pieces 21 and lining 22, which includes a machine table 100, and a first material moving mechanism 200, a second material moving mechanism 300, a feeding mechanism 400, a first image acquiring mechanism 500, a second image acquiring mechanism 600, a pressing mechanism 700, and a control mechanism 800 which are disposed on the machine table 100.

The machine 100 is provided with a first placing station 110 and a second placing station 120.

The first material moving mechanism 200 is used for obtaining the cut pieces 21 and moving the cut pieces to the first placing station 110. The second material transferring mechanism 300 is used for acquiring the lining cloth 22 and transferring the lining cloth to the second placing station 120. The first material moving mechanism 200 and the second material moving mechanism 300 are electrically connected to the control mechanism 800.

referring to fig. 1, the first image acquiring mechanism 500 is used for acquiring an image of the cut segment 21 at the first placing station 110. Referring to fig. 3, the second image obtaining mechanism 600 is used for obtaining an image of the lining cloth 22 at the second placing station 120. The first image capturing mechanism 500 and the second image capturing mechanism 600 are electrically connected to the control mechanism 800.

Further, the first image acquisition mechanism 500 may be an industrial camera and the second image acquisition mechanism 600 may be an industrial camera.

The control means 800 compares the offset information between the cut piece 21 image and the lining cloth 22 image. The second material moving mechanism 300 moves the lining cloth 22 to the cut pieces 21 to be overlapped and aligned according to the offset information to form overlapped cut pieces 23.

The feeding mechanism 400 is electrically connected to the control mechanism 800. The feeding mechanism 400 is used for conveying the overlapped cut pieces 23 to the pressing mechanism 700. The control means 800 may be a PLC, a PID, or the like.

The pressing mechanism 700 is electrically connected to the feeding mechanism 400 and the control mechanism 800. The pressing mechanism 700 is used for pressing the overlapped cut pieces 23.

Further, referring to fig. 1, a first material placing platform 130 and a second material placing platform 140 are disposed on the machine 100. The first material moving mechanism 200 is used for obtaining the cut pieces 21 from the first emptying platform 130 and moving the cut pieces to the first placing station 110. Referring to fig. 2, the second material moving mechanism 300 is used for taking the lining cloth 22 from the second discharging platform 140 and moving the lining cloth to the second placing station 120.

Further, the first placing station 110 is disposed on the feeding mechanism 400.

Specifically, the feeding mechanism 400 includes a feeding belt 410 and a feeding driving part 420 installed on the machine table 100. The feeding driving part 420 is electrically connected to the control mechanism 800. The feeding conveyor 410 extends toward the pressing mechanism 700, and the feeding driving part 420 is connected to the feeding conveyor 410 for driving the feeding conveyor 410 to move. When the feeding conveyor 410 stops moving, the position of the feeding conveyor 410 opposite to the first image acquisition mechanism 500 forms the first placing station 110.

Further, the feeding mechanism 400 further includes a driving shaft 430 and a driven shaft 440. The driving shaft 430 and the driven shaft 440 are rotatably connected to the machine 100, and the feeding belt 410 is annular and is sleeved on the driving shaft 430 and the driven shaft 440.

Further, as shown in fig. 6, both end portions of the driving shaft 430 and both end portions of the driven shaft 440 protrude with bosses. The boss is in a conical surface structure, and an included angle of 30-60 degrees is formed between the conical surface of the boss and the axial direction of the driving shaft 430 or the driven shaft 440. The automatic bonding processing device 10 for the cut pieces 21 and the lining cloth 22 can effectively prevent the deviation of the feeding conveyor belt 410 by arranging the bosses with the conical surface structures at the two end parts of the driving shaft 430 and the driven shaft 440. When the feeding and conveying belt 410 deviates to one side during operation, the side of the feeding and conveying belt 410 gradually climbs to the conical surface structure of the driving shaft 430 or the driven shaft 440, at this time, the contact area of the feeding and conveying belt 410 and the conical surface structure is increased, the received pulling force is increased, and the feeding and conveying belt 410 is not completely tensioned, so that the feeding and conveying belt 410 slightly slips relative to the driving shaft 430 and the driven shaft 440, and the feeding and conveying belt 410 climbs to the conical surface structure of the driving shaft 430 or the driven shaft 440 and slides down to correct the deviation.

Further, referring to fig. 4 and 5, the feeding mechanism 400 further includes a deviation correcting assembly 450. The deviation rectifying assembly 450 includes a deviation rectifying shaft 451, two fixing seats 452, a bearing seat 453 and a fastener 454. The two fixing bases 452 are oppositely disposed on the machine 100. Bearing seats 453 are connected to both the fixing seats 452. The position of the bearing seat 453 relative to the fixing seat 452 is adjustable. The two ends of the deviation rectifying shaft 451 are respectively and rotatably connected with the two bearing seats 453, the deviation rectifying shaft 451 is sleeved with the feeding conveyor belt 410, and the fastening piece 454 is used for fixing the bearing seats 453.

preferably, the number of the deviation rectification assemblies 450 is at least two. Referring to fig. 4 and 5, the number of the deviation rectifying assemblies 450 is two.

Referring to fig. 1, the first material moving mechanism 200 includes a material moving bracket 210, a first electrostatic plate 220, and a material moving driving part. The material moving bracket 210 is disposed on the machine 100, the first electrostatic plate 220 is movably connected to the material moving bracket 210, and the material moving driving component is used for driving the first electrostatic plate 220 to move. The material moving driving part is electrically connected with the control mechanism 800.

Further, as shown in fig. 1 and 2, the material moving driving part includes a guide rail 230, a material moving base 240, a transverse driving motor 250, and a longitudinal driving motor 260. The transverse driving motor 250 and the longitudinal driving motor 260 are electrically connected to the control mechanism 800. The guide rail 230 is transversely installed on the material moving bracket 210 and extends from the first discharging platform 130 to the feeding mechanism 400, the material moving base 240 is slidably connected to the guide rail 230, the transverse driving motor 250 is used for driving the material moving base 240 to move along the horizontal direction, the longitudinal driving motor 260 is installed on the material moving base 240 and connected to the first electrostatic plate 220, and the longitudinal driving motor 260 is used for driving the first electrostatic plate 220 to move along the vertical direction.

Referring to fig. 1 and 2, the second material moving mechanism 300 includes a robot 320 and a second electrostatic plate 310 connected to the robot 320. The robot 320 is electrically connected to the controller. The robot 320 is capable of multi-directional movement.

Referring to fig. 1, the pressing mechanism 700 includes a press 710 and a pressing conveying member disposed on the machine 100. The ironing transfer member interfaces with the feed mechanism 400 for receiving the overlapped cut pieces 23. The press 710 and the pressing conveying component are electrically connected to the control mechanism 800.

Further, the pressing and conveying component includes a pressing and conveying belt 720 and a conveying driving motor electrically connected to the control mechanism 800. The pressing transmission belt 720 is connected with the feeding mechanism 400 end to end, and the transmission driving motor is used for driving the pressing transmission belt 720 to operate. The conveyor drive motor is not shown in any of figures 1-5.

The automatic bonding processing device 10 for the cut pieces 21 and the lining cloth 22 can reduce the labor intensity of workers, greatly save labor resources and save time so as to improve the production efficiency. During production, a worker only needs to place the cut piece 21 and the lining cloth 22 at a preset position without adjusting the placing direction of the cut piece 21 and the lining cloth 22, the first material moving mechanism 200 obtains the cut piece 21 and transfers the cut piece 21 to the first placing station 110, the second material moving mechanism 300 obtains the lining cloth 22 and transfers the lining cloth 22 to the second placing station 120, the first material moving mechanism 200 and the second material moving mechanism 300 can work simultaneously to save time and improve efficiency, then the first image obtaining mechanism 500 obtains the image of the cut piece 21 at the first placing station 110, the second image obtaining mechanism 600 obtains the image of the lining cloth 22 at the second placing station 120, offset information between the image of the cut piece 21 and the image of the lining cloth 22 is compared, the second material moving mechanism 300 moves the lining cloth 22 to the cut piece 21 according to the offset information to perform overlapping and aligning to form an overlapping cut piece 23, and the overlapping cut piece 23 is conveyed to the pressing mechanism 700 through the feeding mechanism 400, press through pressing and scald 700 of mechanism and scald overlapping cut-parts 23, realize cut-parts 21 and lining cloth 22's adhesion, reduce manual intervention, artifical participation pressfitting process in need not traditional method, avoid the high injury that produces workman's health of operational environment temperature, in addition, cut-parts 21 and lining cloth 22 move the material and go on simultaneously, can practice thrift process time, after cut-parts 21 and lining cloth 22 are transferred, can carry out laying of next cut-parts 21 and lining cloth 22, production efficiency can improve.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (13)

1. A cut-parts and lining cloth bonding processingequipment, wherein include the board and set up first moving material mechanism, second moving material mechanism, feeding mechanism, first image acquisition mechanism, second image acquisition mechanism, pressing and scalding the mechanism on the said board; a first placing station and a second placing station are arranged on the machine table; first material moving mechanism is used for from acquireing the cut-parts and transferring to first putting station department, the second moves material mechanism and is used for acquireing the lining cloth and transfers to second putting station department, first image acquisition mechanism is used for acquireing the cut-parts image of first putting station department, second image acquisition mechanism is used for acquireing the lining cloth image of second putting station department, the second moves material mechanism basis cut-parts image reaches skew information between the lining cloth image will the lining cloth remove to counterpoint on the cut-parts and form and overlap the cut-parts, feeding mechanism is used for carrying overlap the cut-parts extremely press boiling hot mechanism department, press boiling hot mechanism is used for pressing and scalds overlap the cut-parts.

2. The cutting piece and lining cloth bonding processing device according to claim 1, wherein a first placing platform and a second placing platform are arranged on the machine table, the first material moving mechanism is used for obtaining the cutting piece from the first placing platform and moving the cutting piece to the first placing station, and the second material moving mechanism is used for obtaining the lining cloth from the second placing platform and moving the lining cloth to the second placing station.

3. The device for bonding and processing the cut pieces and the lining cloth according to claim 1, wherein the first placing station is arranged on the feeding mechanism.

4. The cut-parts and lining cloth bonding processingequipment according to claim 3, characterized in that, feeding mechanism is including installing pay-off conveyer belt and pay-off drive component on the board, the pay-off conveyer belt orientation press scalding the extension of mechanism, pay-off drive component connect in the pay-off conveyer belt is in order to be used for the drive pay-off conveyer belt motion, when the pay-off conveyer belt stop motion, the pay-off conveyer belt with the relative position of first image acquisition mechanism forms first putting station.

5. The cut-parts and lining cloth bonding processingequipment according to claim 4, characterized in that, feeding mechanism still includes driving shaft and driven shaft, the driving shaft with driven shaft rotatable coupling is in on the board, the pay-off conveyer belt is cyclic annular and overlaps and establish on driving shaft and the driven shaft.

6. The cutting piece and lining cloth bonding processing device as claimed in claim 5, wherein the two ends of the driving shaft and the two ends of the driven shaft are both protruded with bosses, the bosses are in a conical surface structure, and an included angle of 30-60 degrees is formed between the conical surface of the boss and the axial direction of the driving shaft or the driven shaft.

7. The cut-parts and lining cloth bonding processingequipment according to any one of claims 3-6, characterized in that, feeding mechanism still includes the subassembly of rectifying, the subassembly of rectifying includes axle, two fixing bases, bearing frame and fastener of rectifying, two the fixing base sets up relatively on the board, two all be connected with on the fixing base the bearing frame, the bearing frame for the position of fixing base is adjustable, the both ends of rectifying the axle rotatable coupling respectively in two the bearing frame, rectify the axle confession the pay-off conveyer belt cover is established, the fastener is used for fixing the bearing frame.

8. The device for bonding and processing the cut pieces and the lining cloth according to claim 7, wherein the number of the deviation rectifying components is at least two.

9. The cut piece and lining cloth bonding processing device according to any one of claims 2 to 6, wherein the first material moving mechanism comprises a material moving support, a first electrostatic plate and a material moving driving part, the material moving support is arranged on the machine table, the first electrostatic plate is movably connected to the material moving support, and the material moving driving part is used for driving the first electrostatic plate to move.

10. The cut-parts and lining cloth bonding processingequipment according to claim 9, characterized in that move the material drive component and include the guide rail, move the material seat, horizontal driving motor and longitudinal driving motor, the guide rail transversely install move on the material support and by first blowing platform extends to feeding mechanism, move the material seat sliding connection in on the guide rail, horizontal driving motor is used for driving move the material seat along the horizontal direction, longitudinal driving motor install move on the material seat and connect in first static board, longitudinal driving motor is used for driving first static board along the vertical direction motion.

11. The device for bonding and processing the cut pieces and the lining cloth according to any one of claims 1 to 6, wherein the second material moving mechanism comprises a robot and a second electrostatic plate connected to the robot.

12. the cut piece and lining cloth bonding processing device according to any one of claims 1 to 6, wherein the pressing mechanism comprises a press and a pressing conveying component arranged on the machine table, and the pressing conveying component is butted with the feeding mechanism to receive the overlapped cut pieces.

13. The cut-parts and lining cloth bonding processingequipment according to claim 12, characterized in that, press boiling hot transport component includes press boiling hot transmission band and transmission driving motor, press boiling hot transmission band with feeding mechanism links up end to end, transmission driving motor is used for driving press boiling hot transmission band operation.