CN115287808A

CN115287808A - Slitter edge conveyor is used in loom production

Info

Publication number: CN115287808A
Application number: CN202211010728.3A
Authority: CN
Inventors: 沈水华; 钱建平
Original assignee: Wujiang Xiaoxiang Textile Co ltd
Current assignee: Wujiang Xiaoxiang Textile Co ltd
Priority date: 2022-08-23
Filing date: 2022-08-23
Publication date: 2022-11-04

Abstract

The invention discloses a slitter edge conveying device for loom production, which comprises a rack and two groups of slitter edge collecting boxes on the outer wall of the rack, wherein a portal frame is fixed on a Y-axis central line at the top end of the rack, a slitter edge separating roller for separating a finished product belt material and slitter edges is rotatably installed at one end inside the portal frame, a main bracket and an auxiliary bracket are respectively fixed at the top ends of the racks on two sides of the portal frame, a first rotating shaft is rotatably installed inside the main bracket, one end of the first rotating shaft extends to the outside of the main bracket, a first material distributing roller is fixed on the surface of the first rotating shaft, and a second material distributing roller is rotatably installed inside the auxiliary bracket. The invention realizes the conveying function of the slitter edge and the finished product belt material and the synchronous cutting and shearing function of the slitter edge, the trimmed slitter edge with the same width is discharged from the slitter edge collecting box, thereby facilitating the later collection and the secondary use of workers and providing convenience for the slitter edge treatment of the workers.

Description

Slitter edge conveyor is used in loom production

Technical Field

The invention relates to the technical field of textile machinery, in particular to a slitter edge conveying device for loom production.

Background

There are various kinds of looms, and the textile fiber classification can be classified into a cotton loom, a wool loom, a jute bag loom, a silk loom, and the like. For example, the weaving method can be classified into two categories, namely a shuttle loom and a shuttleless loom, wherein the shuttle loom adopts a traditional shuttle (wood shuttle or plastic shuttle) to carry out weft insertion, a large amount of burrs are arranged on the edges of cloth during weaving, the part of waste burrs need to be conveyed and collected by a conveying device after being cut off, however, most of the existing waste edge conveying devices convey and collect waste edges, namely, only the central finished cloth end and the waste edges are separated and stripped, and the waste edges are difficult to be secondarily cut off so as to be convenient to recycle.

Disclosure of Invention

The invention aims to provide a slitter edge conveying device for loom production, which solves the problem that collected slitter edges are difficult to cut in the slitter edge conveying device in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a slitter edge conveyor is used in loom production, two sets of slitter edge collecting boxes on frame and the frame outer wall, be fixed with the portal frame on the Y axis central line on frame top, the inside one end of portal frame is rotated and is installed the slitter edge separation roller that is used for separating finished product area material and slitter edge, the frame top of portal frame both sides is fixed with main support and assistant support respectively, the inside of main support is rotated and is installed first pivot, and the one end of first pivot extends to the outside of main support, the fixed surface of first pivot has first cloth bearing roller, the inside of assistant support is rotated and is installed second cloth bearing roller, install two-way power shell on the outer wall of portal frame one side, gear motor is installed to the central point department on two-way power shell surface, gear motor's output makes first cloth bearing roller, second cloth bearing roller together rotate through two-way awl tooth drive structure, the inside of slitter edge collecting box is provided with the slitter edge and decides the subassembly, the top of subassembly and first pivot is decided to the slitter edge is passed through first band pulley drive structure interconnect.

Preferably, the two sides of the top end of the rack and the outer walls of the two sides of the portal frame are both provided with tensioning structures for limiting the waste edges.

Preferably, the tensioning structure is tensioning roller and bearing frame, the tensioning roller is installed on the top of frame and the outer wall of portal frame, and the Y epaxial adjacent two sets of rotate between the tensioning roller and install the bearing frame.

Preferably, the subassembly is decided to slitter edge is including installing the backplate on slitter edge collecting box inner wall and installing the rotary drive structure on the backplate, the minor axis is installed in one side rotation on backplate surface, the top of minor axis is fixed with the cam, the backplate surface rotation of cam one side installs the swing arm, the top installation cutter of swing arm, the spring is installed to one side on backplate surface, the top of spring and the outer wall fixed connection of swing arm.

Preferably, the assembly is decided to slitter edge still includes the backing plate of fixing on slitter edge collecting box one side inner wall, the backing plate is relative with the cutter.

Preferably, the rotary driving structure comprises long shafts rotatably mounted in the two waste edge collecting boxes, one ends of the long shafts are connected with the first rotating shaft through a first belt wheel transmission structure, a driving wheel is fixed on one side of the surface of each long shaft, a driven wheel is fixed on one side of the surface of each short shaft, and a crawler belt is wound between the driving wheel and the driven wheel.

Preferably, the bidirectional bevel gear transmission structure comprises a main shaft mounted at the top end of an output end shaft of the speed reduction motor, a first bevel gear is fixed on the surface of the main shaft, and driven driving units for driving the first rotating shaft and the second distribution carrier roller to rotate are arranged in bidirectional power shells on two sides of the first bevel gear.

Preferably, the driven driving unit comprises a bevel gear disc on one side of the surface of the first rotating shaft and a transmission shaft rotatably mounted on the inner wall of the bidirectional power shell through a bearing seat, a second bevel gear and a third bevel gear are mounted at two ends of the transmission shaft respectively and are meshed with each other, and the third bevel gear is meshed with the bevel gear disc.

Preferably, the bottom end of the waste edge collecting box is provided with a discharge opening.

Preferably, the first pulley transmission structure comprises a first pulley fixed at the top end of the long shaft and a second pulley fixed at the top end of the first rotating shaft, and a belt is wound between the first pulley and the second pulley.

Compared with the prior art, the invention has the beneficial effects that: this slitter edge conveyor is used in loom production is through being provided with structures that cooperate each other such as slitter edge separation roller and second cloth bearing roller, the strap of cutting out the slitter edge passes from the lower surface of second cloth bearing roller, by slitter edge separation roller separation slitter edge area material and finished product area material, slitter edge area material passes through the bearing frame and enters into the slitter edge collecting box, gear motor makes the second cloth bearing roller, first cloth bearing roller rotates through two-way taper tooth transmission structure in the two-way power shell, and then second cloth bearing roller, the continuous strap of carrying of first cloth bearing roller and slitter edge, the subassembly is decided to the inside slitter edge of slitter edge collecting box and decides the waste material, this in-process slitter edge is carried on one side, be decided on one side, the width of deciding of slitter edge is the inverse ratio with gear motor's rotational speed, make the device realize to the slitter edge, the transport function of finished product area material, and the function of deciding in step to the slitter edge, the equal width slitter edge after cutting off is discharged from the slitter edge collecting box, be convenient for staff's collection and secondary use, the slitter edge processing of staff provides convenient later stage.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic cross-sectional front view of the scrap box of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic side view of the present invention;

FIG. 5 is a schematic sectional view of the bidirectional power housing of the present invention;

FIG. 6 is a perspective view of the tension roller of the present invention;

in the figure: 1. a frame; 2. a gantry; 3. a slitter edge separation roller; 4. a bi-directional power housing; 401. a main shaft; 402. a first bevel gear; 403. a second bevel gear; 404. a drive shaft; 405. a third bevel gear; 406. an inclined fluted disc; 5. a main support; 6. a first rotating shaft; 7. a first distributing carrier roller; 8. a sub-mount; 9. a second distribution carrier roller; 10. a bearing seat; 11. a tension roller; 12. a reduction motor; 13. a scrap edge collecting box; 1301. a back plate; 1302. a spring; 1303. a base plate; 14. a first pulley transmission structure; 15. a long axis; 16. a driving wheel; 1601. a crawler belt; 17. a minor axis; 18. a cam; 19. a driven wheel; 20. swinging arms; 21. and (4) a cutter.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-6, an embodiment of the present invention is shown: a slitter edge conveying device for loom production comprises a rack 1 and two groups of slitter edge collecting boxes 13 on the outer wall of the rack 1, wherein a portal frame 2 is fixed on a Y-axis central line at the top end of the rack 1, one end inside the portal frame 2 is rotatably provided with a slitter edge separating roller 3 for separating finished product belt materials and slitter edges, main brackets 5 and auxiliary brackets 8 are respectively fixed at the top ends of the racks 1 at two sides of the portal frame 2, a first rotating shaft 6 is rotatably arranged inside the main brackets 5, one end of the first rotating shaft 6 extends to the outside of the main brackets 5, a first distributing carrier roller 7 is fixed on the surface of the first rotating shaft 6, and a second distributing carrier roller 9 is rotatably arranged inside the auxiliary brackets 8;

the worker penetrates the cloth belt cut with the waste edge from the lower surface of the second cloth carrier roller 9, and the finished cloth belt penetrates from the upper surface of the waste edge separation roller 3 and is placed on the upper surface of the first cloth carrier roller 7;

the two sides of the top end of the rack 1 and the outer walls of the two sides of the portal frame 2 are both provided with tensioning structures for limiting waste edges, the tensioning structures are tensioning rollers 11 and bearing blocks 10, the tensioning rollers 11 are installed on the top end of the rack 1 and the outer wall of the portal frame 2, and the bearing blocks 10 are rotatably installed between two adjacent groups of tensioning rollers 11 on the Y axis;

the waste edges on the two sides of the cloth belt penetrate through the lower surface of the waste edge separation roller 3 and are placed on the lower surface of the first cloth carrier roller 7, and at the moment, the tensioning roller 11 and the bearing seat 10 support the waste edges until the two groups of waste edge belt materials enter the two groups of waste edge collection boxes 13;

the outer wall of one side of the portal frame 2 is provided with a bidirectional power shell 4, the central position of the surface of the bidirectional power shell 4 is provided with a speed reducing motor 12, the output end of the speed reducing motor 12 enables a first material distribution carrier roller 7 and a second material distribution carrier roller 9 to rotate together through a bidirectional bevel gear transmission structure, a worker starts the speed reducing motor 12 to work, the speed reducing motor 12 enables the second material distribution carrier roller 9 and the first material distribution carrier roller 7 to rotate through the bidirectional bevel gear transmission structure in the bidirectional power shell 4, and the second material distribution carrier roller 9 and the first material distribution carrier roller 7 continuously convey a cloth belt and waste edges;

a slitter edge cutting assembly is arranged inside the slitter edge collecting box 13, and a discharging opening is arranged at the bottom end of the slitter edge collecting box 13;

the slitter edge cutting assembly comprises a back plate 1301 arranged on the inner wall of the slitter edge collecting box 13 and a rotary driving structure arranged on the back plate 1301, wherein a short shaft 17 is rotatably arranged on one side of the surface of the back plate 1301, a cam 18 is fixed at the top end of the short shaft 17, a swing arm 20 is rotatably arranged on the surface of the back plate 1301 on one side of the cam 18, a cutter 21 is arranged at the top end of the swing arm 20, a spring 1302 is arranged on one side of the surface of the back plate 1301, and the top end of the spring 1302 is fixedly connected with the outer wall of the swing arm 20;

the slitter edge cutting assembly further comprises a base plate 1303 fixed on the inner wall of one side of the slitter edge collecting box 13, and the base plate 1303 is opposite to the cutter 21;

the rotary driving structure comprises long shafts 15 which are rotatably arranged in the two waste edge collecting boxes 13, one ends of the long shafts 15 are connected with the first rotating shafts 6 through first belt wheel transmission structures 14, driving wheels 16 are fixed on one sides of the surfaces of the long shafts 15, driven wheels 19 are fixed on one sides of the surfaces of the short shafts 17, crawler belts 1601 are wound between the driving wheels 16 and the driven wheels 19, after waste edges enter the waste edge collecting boxes 13, the first rotating shafts 6 and the first belt wheel transmission structures 14 drive the long shafts 15 to rotate as the first rotating shafts 6 are connected with the long shafts 15 through the first belt wheel transmission structures 14, and then the long shafts 15 drive the short shafts 17 and the cams 18 to rotate through the driving wheels 16, the crawler belts 1601 and the driven wheels 19;

the slitter edge cutting assembly is connected with the top end of the first rotating shaft 6 through a first belt wheel transmission structure 14, the first belt wheel transmission structure 14 comprises a first belt wheel fixed at the top end of the long shaft 15 and a second belt wheel fixed at the top end of the first rotating shaft 6, a belt is wound between the first belt wheel and the second belt wheel, when the end part of the cam 18 is in contact with the swing arm 20, the cam 18 pushes the swing arm 20 to swing anticlockwise, so that the cutter 21 at the top end of the swing arm 20 cuts the slitter edge, and when the end part of the cam 18 is separated from the swing arm 20, the spring 1302 enables the swing arm 20 to reset, and the base plate 1303 supports one side surface of the slitter edge;

the slitter edge is conveyed and cut at the same time, the cutting width of the slitter edge is in inverse proportion to the rotating speed of the speed reducing motor 12, so that the device realizes the conveying function of the slitter edge and finished product belt materials and the synchronous cutting function of the slitter edge, and the slitter edge with the same width after being cut is discharged from the slitter edge collecting box 13, thereby facilitating the later collection and secondary use of workers and providing convenience for the slitter edge treatment of the workers;

the bidirectional bevel gear transmission structure comprises a main shaft 401 arranged at the top end of an output end shaft of the speed reducing motor 12, a first bevel gear 402 is fixed on the surface of the main shaft 401, and driven driving units for driving the first rotating shaft 6 and the second distributing carrier roller 9 to rotate are arranged inside bidirectional power shells 4 on two sides of the first bevel gear 402;

the driven driving unit comprises a bevel gear plate 406 on one side of the surface of the first rotating shaft 6 and a transmission shaft 404 rotatably mounted on the inner wall of the bidirectional power shell 4 through a bearing seat, two ends of the transmission shaft 404 are respectively provided with a bevel gear II 403 and a bevel gear III 405, when the second distribution carrier roller 9 and the first distribution carrier roller 7 rotate, the speed reduction motor 12 drives the main shaft 401 and the bevel gear I402 to rotate first, and then the bevel gear II 403 drives the two groups of bevel gear II 403 to rotate reversely;

a second bevel gear 403 is meshed with the first bevel gear 402, and a third bevel gear 405 is meshed with the helical toothed disc 406;

taking the right bevel gear two 403 as an example, the bevel gear two 403 drives the transmission shaft 404 and the bevel gear three 405 to rotate, and because the bevel gear three 405 and the bevel gear 406 are meshed with each other, the bevel gear 406 drives the first rotating shaft 6, the first cloth carrier roller 7 and the first belt wheel transmission structure 14 to work, in the process, the conveying function of the slitter edge and the finished product belt material and the function of synchronously cutting the slitter edge are realized by a single motor, and the bevel gear three-drive mechanism has the advantages of simple structure, stable and reliable work and lower use cost.

When the device is used, firstly, a worker penetrates a cloth belt with cut waste edges from the lower surface of the second cloth carrier roller 9, then a finished product cloth belt penetrates from the upper surface of the waste edge separation roller 3 and is placed on the upper surface of the first cloth carrier roller 7, waste edges on two sides of the cloth belt penetrate from the lower surface of the waste edge separation roller 3 and is placed on the lower surface of the first cloth carrier roller 7, then the tension roller 11 and the bearing seat 10 support the waste edges until the two groups of waste edge belt materials enter the two groups of waste edge collecting boxes 13, then the worker starts the speed reducing motor 12 to work, so that the speed reducing motor 12 enables the second cloth carrier roller 9 and the first cloth carrier roller 7 to rotate through the bidirectional bevel gear transmission structure in the bidirectional power shell 4, then the second cloth carrier roller 9 and the first cloth carrier roller 7 continuously convey the cloth belt and the waste edges, and then the waste edges enter the waste edge collecting boxes 13, because the first rotating shaft 6 is connected with the long shaft 15 through the first belt wheel transmission structure 14, the first rotating shaft 6 and the first belt wheel transmission structure 14 drive the long shaft 15 to rotate, and then the long shaft 15 drives the short shaft 17 and the cam 18 to rotate through the driving wheel 16, the crawler 1601 and the driven wheel 19, when the end part of the cam 18 is contacted with the swing arm 20, the cam 18 pushes the swing arm 20 to swing anticlockwise, so that the cutter 21 at the top end of the swing arm 20 cuts off the slitter edges, when the end part of the cam 18 is separated from the swing arm 20, the spring 1302 resets the swing arm 20, and the cushion plate 1303 supports one side surface of the slitter edges, in the process, the slitter edges are conveyed and cut off, the cutting width of the slitter edges is inversely proportional to the rotating speed of the reducing motor 12, so that the device realizes the conveying function of the slitter edges and finished belt materials and the synchronous cutting off of the slitter edges, and the slitter edges with equal width after being cut off are discharged from the slitter edge collecting box 13, the staff later stage of being convenient for is collected and secondary operation, and it is convenient to handle for staff's slitter edge.

Claims

1. The utility model provides a slitter edge conveyor is used in loom production which characterized in that: including two sets of slitter edge collecting box (13) on frame (1) and frame (1) outer wall, be fixed with portal frame (2) on the Y axle central line on frame (1) top, portal frame (2) inside one end is rotated and is installed slitter edge separation roller (3) that are used for separating finished product area material and slitter edge, frame (1) top of portal frame (2) both sides is fixed with main support (5) and auxiliary support (8) respectively, first pivot (6) are installed in the inside rotation of main support (5), and the one end of first pivot (6) extends to the outside of main support (5), the fixed surface of first pivot (6) has first cloth bearing roller (7), second cloth bearing roller (9) are installed in the inside rotation of auxiliary support (8), install two-way power shell (4) on the outer wall of portal frame (2) one side, gear motor (12) are installed to the central point on two-way power shell (4) surface, the output of motor (12) makes first cloth (7), second cloth bearing roller (9), the slitter edge collection box (13) rotate the subassembly through two-way taper tooth transmission structure each other cutting subassembly (14).

2. The slitter edge conveying device for loom production according to claim 1, wherein: and tensioning structures for limiting waste edges are arranged on the two sides of the top end of the rack (1) and the outer walls of the two sides of the portal frame (2).

3. The slitter edge conveying device for loom production according to claim 2, wherein: tensioning texture is tensioning roller (11) and bearing frame (10), tensioning roller (11) are installed on the top of frame (1) and the outer wall of portal frame (2), and Y epaxial adjacent two sets of rotate between tensioning roller (11) and install bearing frame (10).

4. The slitter edge conveying device for loom production according to claim 1, wherein: the subassembly is decided to slitter edge is including installing backplate (1301) on slitter edge collecting box (13) inner wall and installing the rotary drive structure on backplate (1301), one side rotation on backplate (1301) surface installs minor axis (17), the top of minor axis (17) is fixed with cam (18), backplate (1301) surface rotation of cam (18) one side installs swing arm (20), cutter (21) are installed on the top of swing arm (20), spring (1302) are installed to one side on backplate (1301) surface, the top of spring (1302) and the outer wall fixed connection of swing arm (20).

5. The slitter edge conveying device for loom production according to claim 4, wherein: the slitter edge cutting assembly further comprises a base plate (1303) fixed on the inner wall of one side of the slitter edge collecting box (13), and the base plate (1303) is opposite to the cutter (21).

6. The slitter edge conveying device for loom production according to claim 4, wherein: the rotary driving structure comprises long shafts (15) rotatably mounted inside the two waste edge collecting boxes (13), one ends of the long shafts (15) are connected with the first rotating shaft (6) through first belt wheel transmission structures (14), a driving wheel (16) is fixed on one side of the surface of each long shaft (15), a driven wheel (19) is fixed on one side of the surface of each short shaft (17), and a crawler belt (1601) is wound between each driving wheel (16) and each driven wheel (19).

7. The slitter edge conveying device for loom production according to claim 1, wherein: the bidirectional bevel gear transmission structure comprises a main shaft (401) arranged at the top end of an output end shaft of a speed reducing motor (12), a first bevel gear (402) is fixed on the surface of the main shaft (401), and driven driving units for driving a first rotating shaft (6) and a second distributing carrier roller (9) to rotate are arranged inside bidirectional power shells (4) on two sides of the first bevel gear (402).

8. The slitter edge conveying device for loom production according to claim 7, wherein: the driven driving unit comprises an inclined toothed disc (406) on one side of the surface of the first rotating shaft (6) and a transmission shaft (404) rotatably mounted on the inner wall of the bidirectional power shell (4) through a bearing seat, wherein two ends of the transmission shaft (404) are respectively provided with a bevel gear II (403) and a bevel gear III (405), the bevel gear II (403) is meshed with the bevel gear I (402), and the bevel gear III (405) is meshed with the inclined toothed disc (406).

9. The slitter edge conveying device for loom production according to claim 1, wherein: the bottom end of the waste edge collecting box (13) is provided with a discharging opening.

10. The slitter edge conveying device for loom production according to claim 6, wherein: the first belt wheel transmission structure (14) comprises a first belt wheel fixed at the top end of the long shaft (15) and a second belt wheel fixed at the top end of the first rotating shaft (6), and a belt is wound between the first belt wheel and the second belt wheel.