CN204725849U - Ring shaped fabric belt splicing apparatus - Google Patents

Abstract

The utility model provides a kind of ring shaped fabric belt splicing apparatus, it comprises: main control system, be connected to the feeding mechanism of described main control system, clamping and positioning assembly, supersonic welding connected components, ultrasonic wave cutter assembly and splicing tape transfer assembly, described splicing tape transfer assembly is used for two-layer splicing tape towards supersonic welding connected components and the transmission of ultrasonic wave cutter assembly, described clamping and positioning assembly is used for the clamping of the webbing of preset length and circumference is rotated, the free end of described webbing is made to be positioned between two-layer splicing tape, described supersonic welding connected components is used for the free end of webbing and splicing tape to carry out ultrasonic bonding, described ultrasonic wave cutter assembly obtains endless fabric for the webbing after welding is carried out shearing.The utility model ensure that the accurate of multiple webbing stitching position and uniformity, simplifies manufacturing procedure, reduces production cost, improves the operating efficiency of webbing splicing, ensure that the precision that webbing splices and quality.

Description

Ring shaped fabric belt splicing apparatus

Technical field

The utility model relates to the technical field of automation processing, particularly a kind of ring shaped fabric belt splicing apparatus.

Background technology

Splicing tissue machine is a kind of fabric splicing equipment, for processing elastic cord on ordinary movement trousers, slacks, and upper waist, decorative braid etc.Manufacturing of endless fabric, common manufacturing process is using the webbing of bundled or rolling as raw material, segmentation clip, make or weld lopping, in this production process, usual employing unit that is manual or multiple difference in functionality has operated respectively, its labour intensity is large, inefficiency, is also difficult to the precision and the quality that ensure webbing splicing.

Utility model content

The utility model proposes a kind of ring shaped fabric belt splicing apparatus, it can reduce production cost, promotes the efficiency of webbing splicing, ensures precision and the quality of webbing splicing.

For realizing above-mentioned utility model object, the utility model provides a kind of ring shaped fabric belt splicing apparatus, it comprises: main control system, be connected to the feeding mechanism of described main control system, clamping and positioning assembly, supersonic welding connected components, ultrasonic wave cutter assembly and splicing tape transfer assembly, by described feeding mechanism, webbing to be processed is delivered in clamping and positioning assembly, by described splicing tape transfer assembly by two-layer splicing tape towards supersonic welding connected components and the transmission of ultrasonic wave cutter assembly, by described clamping and positioning assembly by the webbing of preset length clamping also circumference rotation, the free end of described webbing is made to be positioned between two-layer splicing tape, by described supersonic welding connected components, the free end of webbing and splicing tape are carried out ultrasonic bonding, by described ultrasonic wave cutter assembly, the webbing after welding is carried out shearing and obtain endless fabric.

Further, in above-mentioned ring shaped fabric belt splicing apparatus, described feeding mechanism comprises: the multiple feed wells, the initiative roll shaft being located at the outlet of described feed well, the first driven roll shaft and the second driven roll shaft that are set up in parallel along X-axis, described first driven roll shaft and the second driven roll shaft are socketed on described initiative roll shaft by Timing Belt, the 3rd driven roll shaft is relatively provided with above described first driven roll shaft, described initiative roll shaft is connected with for driving its rotary drive in relative rotation, and described rotary drive is connected to main control system.

Further, in above-mentioned ring shaped fabric belt splicing apparatus, described clamping and positioning assembly comprises: be located at two and be oppositely arranged and the first pinch group that can relatively clamp or unclamp, second pinch group, described first pinch group is connected with the first cursor, described second pinch group is connected with the second cursor, described first cursor, the rotary drive that second cursor is all connected with, described first cursor, second cursor rotates respectively under the effect of rotary drive, to drive described first cursor, second cursor and the first pinch group, second pinch group is carried out circumference and is rotated.

Further, in above-mentioned ring shaped fabric belt splicing apparatus, described clamping and positioning assembly also comprises the 3rd pinch group being located at described first pinch group, the second pinch group side, described 3rd pinch group is connected with the second actuator, and described 3rd pinch group can move back and forth in X direction under the second actuator effect.

Further, in above-mentioned ring shaped fabric belt splicing apparatus, described clamping and positioning assembly also comprises the rotary drive supporting arm and support arm described in being connected to, described in support arm by rotating under the effect of rotary drive, support arm described in making and compress residence and state the second driven roll shaft.

Further, in above-mentioned ring shaped fabric belt splicing apparatus, one end of described first pinch group, the second pinch group is connected with the 3rd actuator, and described first pinch group, the second pinch group move along Y direction under the 3rd actuator effect.

Further, in above-mentioned ring shaped fabric belt splicing apparatus, described splicing tape transfer assembly comprises a processing storehouse arranged along Y direction, is located at the two-layer splicing tape in described processing storehouse and the connecting gear for transmitting this two-layer splicing tape along Y direction.

Further, in above-mentioned ring shaped fabric belt splicing apparatus, described connecting gear comprises the roller and pinch roller of being located at supersonic welding connected components place, described roller and pinch roller are held in the upper and lower surface of two-layer splicing tape respectively, by the frictional force between roller and pinch roller, two-layer splicing tape are moved along Y direction.

Further, in above-mentioned ring shaped fabric belt splicing apparatus, described supersonic welding connected components comprises supersonic generator, be communicated in described supersonic generator ultrasonic bonding head and for driving this ultrasonic bonding head along the fourth drive member of Z-direction movement; Described ultrasonic bonding head end is provided with LOGO pattern.

Further, in above-mentioned ring shaped fabric belt splicing apparatus, described ultrasonic wave cutter assembly comprises to be located at ultrasonic head above splicing tape, to be attached at bottom splicing tape and the cutting knife just arranged ultrasonic head and for driving this ultrasonic head along the 5th actuator of Z-direction movement.

The utility model ring shaped fabric belt splicing apparatus is by accurately locating multiple webbing, ensure that the accurate of multiple webbing stitching position and uniformity, and by ultrasonic wave, multiple webbing is welded with splicing tape, and shear successively, simplify manufacturing procedure, reduce production cost, improve the operating efficiency of webbing splicing, ensure that the precision that webbing splices and quality.

Accompanying drawing explanation

Fig. 1 is the front view of the utility model ring shaped fabric belt splicing apparatus original state;

Fig. 2 is the stereogram of feeding mechanism in Fig. 1;

Fig. 3 is the stereogram of another angle of feeding mechanism in Fig. 1;

Fig. 4 is that in Fig. 1, the 3rd pinch group moves the front view near feeding mechanism;

Fig. 5 is the front view that in Fig. 1, the 3rd pinch group moves away from feeding mechanism;

Fig. 6 supports the front view that arm compresses the second driven roll shaft in Fig. 1;

Fig. 7 is the front view of the first pinch group and the second pinch group clamping webbing in Fig. 1;

Fig. 8 be in Fig. 1 the first pinch group and the second pinch group rotate after front view;

Fig. 9 is the side view of the utility model ring shaped fabric belt splicing apparatus;

Figure 10 is the inner structural representation operationally in the utility model processing storehouse.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

Refer to Fig. 1 to Figure 10, the utility model ring shaped fabric belt splicing apparatus comprises main control system (not shown), be connected to the feeding mechanism 1 of described main control system, clamping and positioning assembly 2, supersonic welding connected components 3, ultrasonic wave cutter assembly 4 and splicing tape transfer assembly 5, by described feeding mechanism 1, webbing 100 to be processed is delivered in clamping and positioning assembly 2, by described splicing tape transfer assembly 5, two-layer splicing tape 200 is transmitted towards supersonic welding connected components 3 and ultrasonic wave cutter assembly 4, by described clamping and positioning assembly 2, the webbing 100 of preset length is clamped and circumference rotation, the free end of described webbing 100 is made to be positioned between two-layer splicing tape 200, by described supersonic welding connected components 3, the free end of webbing 100 and splicing tape 200 are carried out ultrasonic bonding, by described ultrasonic wave cutter assembly 4, the webbing 100 after welding is carried out shearing and obtain endless fabric.

Wherein, in the utility model, webbing 100 comprises elastic band, elastic cord, decorative braid etc., and described splicing tape 200 is non-woven fabrics.

Described ring shaped fabric belt splicing apparatus also comprises workbench 300, and described feeding mechanism 1, clamping and positioning assembly 2, supersonic welding connected components 3, ultrasonic wave cutter assembly 4 are all located on described workbench 300.

Described feeding mechanism 1 comprises the multiple feed wells 10 be set up in parallel along X-axis, be located at the initiative roll shaft 12 of described feed well 10 outlet, first driven roll shaft 14 and the second driven roll shaft 16, described first driven roll shaft 14 and the second driven roll shaft 16 are socketed on described initiative roll shaft 12 by Timing Belt (figure does not mark), the 3rd driven roll shaft 18 is relatively provided with above described first driven roll shaft 14, described initiative roll shaft 12 is connected with for driving its rotary drive (not shown) in relative rotation, described rotary drive is connected to main control system, it can rotate under main control system controls.Webbing 100 to be processed is exported by feed well 10 and enters between described first driven roll shaft 14 and the 3rd driven roll shaft 18 along X-direction, described initiative roll shaft 12 is driven to rotate by described drive motors, the first driven roll shaft 14 and the second driven roll shaft 16 is driven to rotate, and the first driven roll shaft 14 makes described 3rd driven roll shaft 18 rotate by frictional force when rotating, and then webbing 100 is delivered to the second driven roll shaft 16 along X-direction, and described webbing 100 is driven to be delivered in clamping and positioning assembly 2 eventually through the rotation of the second driven roll shaft 16.In the present embodiment, described rotary drive is motor or hydraulic motor, and described feed well 10 is three, and namely the utility model can process three webbings simultaneously.

Described feeding mechanism 1 also comprises the chopper 11 be located between described first driven roll shaft 14 and the second driven roll shaft 16, is cut off by webbing 100 when described chopper 11 reaches preset length for the length stretching into clamping and positioning assembly 2 when webbing 100.

Described feeding mechanism 1 also comprises the mount pad 13 sliding and be located on described workbench 300, described feed well 10, the driven roll shaft 14 of initiative roll shaft 12, first and the second driven roll shaft 16 are all fixed on described mount pad 13, described mount pad 13 is also provided with the first actuator 15 and sliding tray 17 that arrange in X direction, described workbench 300 is fixed with the locating dowel 301 wearing described sliding tray 17, one end of described first actuator 15 is connected in described locating dowel 301.Like this, described mount pad 13 can slide in X direction by relative workbench 300 under the first actuator 15 acts on, thus webbing 100 can be navigated to the default machining position of clamping and positioning assembly 2.

Described clamping and positioning assembly 2 comprises is located at two the first pinch group 21, the second pinch groups 22 be oppositely arranged, and described first pinch group 21, second pinch group 22 and the 3rd pinch group 23 are all driven by cylinder (not shown) can relatively be clamped or unclamp.Described first pinch group 21 is connected with the first cursor 212, described second pinch group 22 is connected with the second cursor 222, the rotary drive (not shown) that described first cursor 212, second cursor 222 is all connected with, described first cursor 212, second cursor 222 rotates respectively under the effect of rotary drive, thus drives described first cursor 212, second cursor 222 and the first pinch group 21, second pinch group 22 to carry out circumference rotation.In the present embodiment, described rotary drive is motor or hydraulic motor.

Described clamping and positioning assembly 2 also comprises the 3rd pinch group 23 being located at described first pinch group 21, second pinch group 22 side, described 3rd pinch group 23 is connected with the second actuator 232, and described 3rd pinch group 23 can move back and forth in X direction under the second actuator 232 acts on.It should be noted that, the height of described first pinch group 21, second pinch group 22 and the 3rd pinch group 23 is all identical, like this, moved back and forth in X direction by described 3rd pinch group 23, can the head of webbing 100 sent of gripping feeding mechanism 1, and pull webbing 100 to enter in the first pinch group 21, second pinch group 22.

Described clamping and positioning assembly 2 also comprises the rotary drive (figure does not mark) supporting arm 24 and support arm 24 described in being connected to, the described arm 24 that supports is by rotating under the effect of rotary drive, thus support arm 24 described in making and compress residence and state the second driven roll shaft 16, thus the convenient rotation by the second driven roll shaft 16, control webbing 100 is entered clamping and positioning assembly 2 length by feeding mechanism 1, described length can be preset, thus ensures the consistent of webbing processing length.In the present embodiment, described rotary drive is motor or hydraulic motor.

One end of described first pinch group 21, second pinch group 22 is connected with the 3rd actuator 25, described first pinch group 21, second pinch group 22 can move along Y direction under the 3rd actuator 25 acts on, thus the position of webbing 100 in adjustment the first pinch group 21, second pinch group 22 relatively supersonic welding connected components 3, ultrasonic wave cutter assembly 4.

Refer to Figure 10, described splicing tape transfer assembly 5 comprises a processing storehouse 51 arranged along Y direction, is located at the two-layer splicing tape 200 in described processing storehouse 51 and the connecting gear for transmitting this two-layer splicing tape 200 along Y direction, space is left between the two-layer splicing tape 200 near supersonic welding connected components 3 place, so that the free end of described webbing 100 is positioned between two-layer splicing tape 200 after clamping and positioning assembly 2 rotates, namely described webbing 100 is sheathed on lower floor's splicing tape 200; Described two-layer splicing tape 200 moves along Y direction under the effect of connecting gear, described connecting gear can be traction pinch, namely pull described two-layer splicing tape 200 from one end, or described connecting gear can be screw rod transmission, namely drive described two-layer splicing tape 200 to move along Y direction by screw mandrel.In the present embodiment, described connecting gear comprises the roller 52 and pinch roller 53 of being located at supersonic welding connected components 3 place, described roller 52 and pinch roller 53 are held in the upper and lower surface of two-layer splicing tape 200 respectively, for compressing described two-layer splicing tape 200, and by the frictional force between roller 52 and pinch roller 53, two-layer splicing tape 200 is moved along Y direction.

When described first pinch group 21, second pinch group 22 clamp described webbing 100 and carry out circumference rotate after, the free end of described webbing 100 falls on the splicing tape 200 of lower floor just, described first pinch group 21, second pinch group 22 can move along Y direction under the 3rd actuator 25 acts on, make the first pinch group 21, the webbing 100 that second pinch group 22 clamps navigates to immediately below supersonic welding connected components 3, by supersonic welding connected components 3, the free end of webbing 100 and splicing tape 200 are welded and fixed, then, described first pinch group 21, second pinch group 22 unclamps the webbing 100 after welding, and return reset under being acted on by the 3rd actuator 25, with next webbing 100 of gripping.In the present embodiment, described splicing tape 200 is non-woven fabrics.

Described supersonic welding connected components 3, ultrasonic wave cutter assembly 4 are located at the top in processing storehouse 25 relatively along Z-direction, described supersonic welding connected components 3 comprises supersonic generator (not shown), be communicated in described supersonic generator ultrasonic bonding head 32 and for driving this ultrasonic bonding head 32 along the fourth drive member (not shown) of Z-direction movement; When on the splicing tape 200 that the free end of described webbing 100 falls into lower floor and when moving to the Working position of ultrasonic bonding head 32, dither ripple is produced to webbing 100 and splicing tape 200 Working position surface by ultrasonic bonding head 32, when pressurizeing, make phase mutual friction between bilevel splicing tape 200 machined surface and formed between molecular layer to fuse, thus by splicing tape 200, the free end of webbing 100 is carried out ultrasonic bonding.

It should be noted that, described ultrasonic bonding head 32 end can be provided with LOGO pattern, by directly impressing LOGO pattern while ultrasonic bonding head 32 pairs of webbings 100 on webbing 100.

Described ultrasonic wave cutter assembly 4 comprises the ultrasonic head 41 be located at above splicing tape 200, to be attached at bottom splicing tape 200 and the cutting knife 42 just ultrasonic head 41 arranged and for driving this ultrasonic head 41 along the 5th actuator (not shown) of Z-direction movement, after webbing 100 welds, the webbing 100 after welding is made to move to below ultrasonic head 41 along Y direction by the effect of roller 26 and pinch roller 27, webbing 100 upper surface is moved to by driving described ultrasonic head 41, dither ripple is produced by described ultrasonic head 41, when pressurizeing, cutting knife 42 pairs of webbing 100 Working position surface applied thrusts, to cut off the splicing tape 200 at webbing two ends, thus obtain endless fabric.During shearing, between two continuous print webbings 100, need shearing twice, two endless fabrics can be obtained.After endless fabric machines, manually can take off discharging, also can carry out blanking by the tilt port in processing storehouse 25, thus complete automatic discharging.

It should be noted that, the first actuator described in the utility model, the second actuator, the 3rd actuator, fourth drive member and the 5th actuator can be the linear movement mechanism such as cylinder, screw mandrel.

The ring shaped fabric belt splicing apparatus course of work of the present utility model is as follows:

First, after having initialized, relatively rotating by controlling described initiative roll shaft 12, driving the first driven roll shaft 16 of driven roll shaft 14, second and described webbing 100 to move towards clamping and positioning assembly 2 along X-axis; Wherein, initialize to comprise and a upper webbing material unnecessary taken the lead removing by chopper 11, to carry out the charging length arranging follow-up webbing to be processed; Then, by driving the head of described 3rd pinch group 23 gripping webbing 100 and moving in the X-axis direction, described webbing 100 is made to stretch in the first pinch group 21 and the second pinch group 22; Then, webbing 100 is compressed residence state the second driven roll shaft 16 by supporting arm 24 described in driving, controlled the charging length of webbing 100 by the rotation of the second driven roll shaft 16, and by chopper 11, one end of webbing 100 is cut off; Wherein, after initialization completes, at described webbing 100 along X-axis towards in clamping and positioning assembly 2 motion process, the charging length of webbing is controlled by the rotation number of turns of the driven roll shaft 16 of initiative roll shaft 12, second, after webbing reaches preset length, by chopper 11, one end of webbing is cut off.

Then, by the two ends driving the first pinch group 21, second pinch group 22 to clamp webbing 100, and drive described first pinch group 21, second pinch group 22 to carry out circumference rotation, the free end of described webbing 100 is made to be positioned between two-layer splicing tape 200, and, described first pinch group 21, second pinch group 22 moves along Y direction under the 3rd actuator 25 acts on, and makes the webbing 100 of the first pinch group 21, second pinch group 22 clamping navigate to immediately below supersonic welding connected components 3; Then, by driving described ultrasonic bonding head 32 to move to free end and splicing tape 200 finished surface of webbing 100 along Z-direction, ultrasonic bonding is carried out by the finished surface of ultrasonic bonding head 32 pairs of webbings 100 and splicing tape 200; Finally, move along Y direction by driving described splicing tape 200, make the webbing 100 after welding move to below ultrasonic wave cutter assembly 4, to move towards webbing 100 by driving described ultrasonic wave cutter assembly 4 and webbing 100 is sheared, thus obtaining endless fabric.

Compared to prior art, the utility model ring shaped fabric belt splicing apparatus is by accurately locating multiple webbing, ensure that the accurate of multiple webbing stitching position and uniformity, and by ultrasonic wave, multiple webbing is welded with splicing tape, and shear successively, simplify manufacturing procedure, reduce production cost, improve the operating efficiency of webbing splicing, ensure that the precision that webbing splices and quality.

Here description of the present utility model and application is illustrative, not wants by scope restriction of the present utility model in the above-described embodiments.Distortion and the change of embodiment disclosed are here possible, are known for the replacement of embodiment those those of ordinary skill in the art and the various parts of equivalence.Those skilled in the art are noted that when not departing from spirit of the present utility model or substantive characteristics, the utility model can in other forms, structure, layout, ratio, and to realize with other assembly, material and parts.When not departing from the utility model scope and spirit, can other distortion be carried out here to disclosed embodiment and change.

Claims (10)

1. a ring shaped fabric belt splicing apparatus, it is characterized in that, it comprises: main control system, be connected to the feeding mechanism of described main control system, clamping and positioning assembly, supersonic welding connected components, ultrasonic wave cutter assembly and splicing tape transfer assembly, by described feeding mechanism, webbing to be processed is delivered in clamping and positioning assembly, by described splicing tape transfer assembly by two-layer splicing tape towards supersonic welding connected components and the transmission of ultrasonic wave cutter assembly, by described clamping and positioning assembly by the webbing of preset length clamping also circumference rotation, the free end of described webbing is made to be positioned between two-layer splicing tape, by described supersonic welding connected components, the free end of webbing and splicing tape are carried out ultrasonic bonding, by described ultrasonic wave cutter assembly, the webbing after welding is carried out shearing and obtain endless fabric.

2. ring shaped fabric belt splicing apparatus according to claim 1, it is characterized in that, described feeding mechanism comprises: the multiple feed wells, the initiative roll shaft being located at the outlet of described feed well, the first driven roll shaft and the second driven roll shaft that are set up in parallel along X-axis, described first driven roll shaft and the second driven roll shaft are socketed on described initiative roll shaft by Timing Belt, the 3rd driven roll shaft is relatively provided with above described first driven roll shaft, described initiative roll shaft is connected with for driving its rotary drive in relative rotation, and described rotary drive is connected to main control system.

3. ring shaped fabric belt splicing apparatus according to claim 2, it is characterized in that, described clamping and positioning assembly comprises: be located at two and be oppositely arranged and the first pinch group that can relatively clamp or unclamp, second pinch group, described first pinch group is connected with the first cursor, described second pinch group is connected with the second cursor, described first cursor, the rotary drive that second cursor is all connected with, described first cursor, second cursor rotates respectively under the effect of rotary drive, to drive described first cursor, second cursor and the first pinch group, second pinch group is carried out circumference and is rotated.

4. ring shaped fabric belt splicing apparatus according to claim 3, it is characterized in that, described clamping and positioning assembly also comprises the 3rd pinch group being located at described first pinch group, the second pinch group side, described 3rd pinch group is connected with the second actuator, and described 3rd pinch group can move back and forth in X direction under the second actuator effect.

5. ring shaped fabric belt splicing apparatus according to claim 4, it is characterized in that, described clamping and positioning assembly also comprises the rotary drive supporting arm and support arm described in being connected to, the described arm that supports, by rotating under the effect of rotary drive, supports arm and compresses residence and state the second driven roll shaft described in making.

6. ring shaped fabric belt splicing apparatus according to claim 4, is characterized in that, one end of described first pinch group, the second pinch group is connected with the 3rd actuator, and described first pinch group, the second pinch group move along Y direction under the 3rd actuator effect.

7. ring shaped fabric belt splicing apparatus according to claim 6, it is characterized in that, described splicing tape transfer assembly comprises a processing storehouse arranged along Y direction, is located at the two-layer splicing tape in described processing storehouse and the connecting gear for transmitting this two-layer splicing tape along Y direction.

8. ring shaped fabric belt splicing apparatus according to claim 7, it is characterized in that, described connecting gear comprises the roller and pinch roller of being located at supersonic welding connected components place, described roller and pinch roller are held in the upper and lower surface of two-layer splicing tape respectively, by the frictional force between roller and pinch roller, two-layer splicing tape are moved along Y direction.

9. ring shaped fabric belt splicing apparatus according to claim 8, it is characterized in that, described supersonic welding connected components comprises supersonic generator, be communicated in described supersonic generator ultrasonic bonding head and for driving this ultrasonic bonding head along the fourth drive member of Z-direction movement; Described ultrasonic bonding head end is provided with LOGO pattern.

10. ring shaped fabric belt splicing apparatus according to claim 9, it is characterized in that, described ultrasonic wave cutter assembly comprises to be located at ultrasonic head above splicing tape, to be attached at bottom splicing tape and the cutting knife just arranged ultrasonic head and for driving this ultrasonic head along the 5th actuator of Z-direction movement.