CN212581187U - Structure is collected to air jet loom's slitter edge - Google Patents

Abstract

The utility model relates to a structure is collected to air jet loom's slitter edge, including setting up the collection mechanism on the air jet loom organism, collect the mechanism including installation axle, collection spool, drive assembly, fixing device, installation axle rotates and sets up on the air jet loom organism, collects the spool cover and establishes on the installation axle, drive assembly set up on the air jet loom organism and with installation hub connection, fixing device sets up on the installation axle and is used for fixing a position the collection spool. This application starts to drive through drive assembly and collects the spool and rotates and collect the slitter edge, collects spool and goes up the slitter edge and convolute full back, opens fixing device, changes new collection spool, closes fixing device and fixes collecting the spool to this accomplishes the collection to the slitter edge, has reduced the probability that the staff frequently got to clear up the slitter edge, has reduced staff's work burden.

Description

Structure is collected to air jet loom's slitter edge

Technical Field

The application relates to the technical field of air jet looms, in particular to a slitter edge collecting structure of an air jet loom.

Background

The air jet loom is a shuttleless loom which adopts jet airflow to pull weft yarns to pass through a shed, and the woven cloth has burrs, so for the quality of the cloth, the equipment is generally provided with a burr cutting device correspondingly, the burrs of the cloth are cut off, and then the waste edges are generated.

In the prior art, reference may be made to chinese invention patent with application publication No. CN110306280A, which discloses an air jet loom including a body plate, and a warp let-off mechanism, a shedding mechanism, a beating-up mechanism and a winding mechanism sequentially disposed on the body plate, wherein a humidifying structure is disposed between the warp let-off mechanism and the shedding mechanism. When the air jet loom works, the warp sending mechanism starts to send warp to the shedding mechanism, the warp passes above the humidifying mechanism in the process of being sent to the shedding mechanism so as to be humidified, and after shedding, the weft is inserted and beaten by the beating-up mechanism, so that cloth is woven.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the existing air jet loom generally adopts waste selvage yarns in the weaving process, the air flow weft insertion is unilateral weft insertion, the special waste selvage warp yarns of the weft yarns at the tail end of each weft yarn are woven into waste selvages, the weft catching side shears obtain neat selvages after the waste selvages are sheared, but a structure for collecting the waste selvages is not arranged, so that workers need to frequently clean the waste selvages, and the workload of the workers is increased.

SUMMERY OF THE UTILITY MODEL

In order to reduce staff's work burden, this application provides a structure is collected to air jet loom's slitter edge.

The application provides a pair of air jet loom's slitter edge collects structure adopts following technical scheme:

the utility model provides a structure is collected to air jet loom's slitter edge, is including setting up the collection mechanism on the air jet loom organism, collection mechanism is including installing the axle, collecting the spool, drive assembly, fixing device, installation axle rotates and sets up on the air jet loom organism, collect the spool cover and establish on the axle, drive assembly sets up on the air jet loom organism and is connected with the installation axle, fixing device sets up and fixes a position just being used for collecting the spool at the installation epaxial.

Through adopting above-mentioned technical scheme, on coiling the collection spool with the slitter edge, drive assembly starts to drive and collects the spool and rotates and to coil the slitter edge on collecting the spool, collect spool last slitter edge and coil full back, open fixing device, will collect the spool and dismantle, establish the installation epaxial with new collection spool cover, close fixing device and fix the collection spool to this accomplishes the collection to the slitter edge, reduced the probability that the staff frequently got to clear up the slitter edge, staff's work burden has been reduced.

Preferably, fixing device includes positioning disk, reference column, spacing dish, locating plate, fixed spring, fixed plate, the positioning disk sets up at installation epaxial, the reference column sets up and is served at the installation epaxial drive assembly of keeping away from of axle, spacing dish sets up and keeps away from the one of installation axle at the reference column and serve, the locating plate slides and sets up on the reference column, fixed spring cover establishes on the reference column and both ends are connected with spacing dish and locating plate respectively, the fixed plate joint sets up on the reference column and can slide on the reference column, the locating plate supports tightly on the fixed plate under fixed spring's effect, fixed plate and positioning disk support tightly respectively on the both ends of collecting the spool, collecting spool accessible fixed plate, locating plate and fixed spring cover are established and are installed epaxially.

Through adopting above-mentioned technical scheme, dismantle the fixed plate from the reference column, consequently can dismantle the collection spool from the installation epaxial dismantlement, pass the fixed plate with new collection spool, the installation epaxial is established to locating plate and fixed spring cover, make the collection spool support to lean on the positioning disk, then stir the locating plate and keep away from the installation axle, then install the reference column with the fixed plate joint, loosen the locating plate, fixed spring promotes the locating plate and drives on the fixed plate supports tightly the collection spool, with this will collect spool fixed mounting to install epaxial, with this purpose that reaches the change collection spool.

Preferably, the side wall of the positioning disc, which is close to the collecting scroll, is provided with a limiting column which is spliced on the collecting scroll, and the two ends of the collecting scroll are both provided with splicing grooves which are spliced and matched with the limiting column.

Through adopting above-mentioned technical scheme, spacing post is pegged graft and is set up on the inserting groove, has reduced and has collected spool and the installation axle and take place relative pivoted probability to this reduces the installation axle and has driven the loss of energy when collecting the spool and rotate.

Preferably, a guide structure is arranged on the air jet loom body and comprises a guide screw rod, a guide block, a rotating part and a control assembly, the guide screw rod is rotatably arranged on the air jet loom body, the axis of the guide screw rod is parallel to the axis of the collecting scroll, the guide block is in threaded connection with the guide screw rod and is provided with a guide ring for guiding the waste edge, the rotating part is arranged on the air jet loom body and is connected with the guide screw rod, and the control assembly is arranged on the air jet loom body and is electrically connected with the rotating part.

The waste edges are not guided when being wound on the collecting scroll, so that the waste edges are easy to be disordered in the winding process, and the collecting effect of the collecting scroll on the waste edges is reduced;

through adopting above-mentioned technical scheme, the slitter edge passes through the guide ring and moves on collecting the spool, it starts to drive lead screw to rotate the piece, lead screw rotates and drives guide block and guide ring and move together, the guide ring removes and drives the slitter edge and removes, the slitter edge removes after collecting the one end of spool, control assembly starts to drive and rotates a reversal, it drives the slitter edge and moves back to rotate a reversal, drive the slitter edge even coiling to collect the spool with this, thereby the collection effect of collection spool to the slitter edge has been improved.

Preferably, the control assembly includes mounting panel, response post, travel switch, the mounting panel sets up on the air jet loom organism and length direction is parallel with the guide screw rod axis, the response post sets up on the guide block, travel switch sets up on the mounting panel and along mounting panel length direction interval be provided with two and lie in the both sides of response post, travel switch is connected with the rotation electricity.

Through adopting above-mentioned technical scheme, the guide block removes and drives the response post removal, and when the slitter edge removed and reaches the both ends of collecting the spool, the response post contacted with travel switch, and travel switch control rotates the piece reversal and drives the guide block and move back to this drives slitter edge round trip movement, thereby reaches the purpose that drives slitter edge round trip movement.

Preferably, be provided with the tensioning subassembly that carries out the tensioning to the cloth on the guide block, the tensioning subassembly includes deciding pinch roller, tensioning rod, moving pinch roller, fixed disk, tensioning spring, decide the pinch roller and rotate the setting on the guide block, the tensioning rod slides and sets up on the guide block, it rotates to set up to be close to one of deciding the pinch roller at the tensioning rod and serves, the fixed disk sets up on the tensioning rod, the tensioning spring housing is established on the tensioning rod and both ends are connected with fixed disk and guide block respectively, it compresses tightly the slitter edge with the cooperation of deciding pinch roller under the effect of tensioning spring to move the pinch roller.

The tension forces of the slitter edges are different, and when the conveying speed of the slitter edges is different from the winding speed of the collecting scroll, the slitter edges wound on the collecting scroll are looser, so that the amount of the slitter edges wound on the collecting scroll is less, and the collecting effect of the collecting scroll on the slitter edges is reduced;

through adopting above-mentioned technical scheme, pulling tensioning rod drives the dynamic pressure wheel and keeps away from the fixed pinch roller, then can pass between fixed pinch roller and the dynamic pressure wheel with the slitter edge, not hard up tensioning rod, the dynamic pressure wheel presss from both sides tight slitter edge with the cooperation of fixed pinch roller under the effect of tensioning spring for be in the tensioning state when the slitter edge is collected, increased the quantity of collecting the epaxial slitter edge of spool with this, improved the collection effect of collecting the spool to the slitter edge.

Preferably, the fixed pressing wheel and the movable pressing wheel are both provided with annular positioning grooves.

Through adopting above-mentioned technical scheme, the slitter edge is spacing on the constant head tank, has reduced the slitter edge from deciding pinch roller and dynamic pressure wheel landing probability, has improved the tensioning effect of deciding pinch roller and dynamic pressure wheel to the cloth.

Preferably, a collecting trolley is arranged on the ground below the collecting reel, rollers and universal wheels which roll on the ground are arranged on the collecting trolley, and brakes are arranged on the universal wheels.

By adopting the technical scheme, the collecting reel is detached and placed in the collecting trolley, and after the collecting trolley is filled, the collecting trolley is pushed to place the slitter edges at the designated position, so that the working efficiency of workers in the process of transporting the collecting reel is improved; meanwhile, the universal wheels change the direction of the collecting trolley, and the collecting trolley can be stopped by closing the brake when the collecting trolley needs to be stopped, so that the convenience in using the collecting trolley is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the driving assembly is started to drive the collecting scroll to rotate to collect the slitter edges, after the slitter edges on the collecting scroll are fully wound, the fixing device is opened, a new collecting scroll is replaced, and the fixing device is closed to fix the collecting scroll, so that the slitter edges are collected, the probability that workers frequently clean the slitter edges is reduced, and the workload of the workers is reduced;

2. the probability of relative rotation between the collecting scroll and the mounting shaft is reduced through the limiting columns, so that the energy loss when the mounting shaft drives the collecting scroll to rotate is reduced;

3. the waste edge is driven to move by rotating the piece, after the waste edge moves to one end of the collecting scroll, the induction column is in contact with the travel switch, the contactor controls the rotating piece to rotate reversely, the rotating piece rotates reversely to drive the waste edge to move back, and therefore the waste edge is driven to be uniformly wound on the collecting scroll, and the collecting effect of the collecting scroll on the waste edge is improved.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a partial exploded view of the present application, showing primarily the collection mechanism;

FIG. 3 is a schematic view of the structure of the guide structure and tensioning assembly of the present application;

reference numerals: 1. a jet loom body; 11. a mounting seat; 12. a horizontal plate; 13. an inclined plate; 14. collecting a trolley; 15. a roller; 16. a universal wheel; 2. a collection mechanism; 21. installing a shaft; 22. collecting the reel; 221. mounting holes; 222. collecting tank; 223. inserting grooves; 23. a drive assembly; 3. a fixing device; 31. positioning a plate; 311. a limiting column; 32. a positioning column; 33. a limiting disc; 34. positioning a plate; 35. fixing the spring; 36. a fixing plate; 4. a guide structure; 41. a lead screw; 411. a limiting shaft; 42. a guide block; 421. mounting blocks; 422. a guide ring; 43. a rotating member; 44. a control component; 45. mounting a plate; 46. an induction column; 47. a travel switch; 48. a fixed seat; 5. a tension assembly; 51. fixing the pressing wheel; 52. a tension rod; 53. a movable pressing wheel; 54. fixing the disc; 55. tensioning the spring; 56. a support plate; 57. and (6) positioning a groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-3

The model of the travel switch 47 in the embodiment is YBLXW-5-11G 2.

The embodiment of the application discloses air jet loom's slitter edge collection structure.

Referring to fig. 1 and 2, including mount pad 11 of fixed mounting air jet loom organism 1, mount pad 11 is the L shape, and mount pad 11 includes horizontal plate 12, hang plate 13, and horizontal plate 12 fixed mounting is on air jet loom organism 1 and is the horizontal state, and hang plate 13 fixed mounting is in one of horizontal plate 12 keeping away from air jet loom organism 1 and serves, and hang plate 13 salient outside horizontal plate 12 upper surface, and hang plate 13 is the slope state and the distance of top and air jet loom organism 1 is great.

The inclined plate 13 is provided with a collecting mechanism 2 for collecting the waste selvedge, the collecting mechanism 2 comprises a mounting shaft 21, a collecting scroll 22, a driving assembly 23 and a fixing device 3, the mounting shaft 21 is rotatably mounted on the side wall of the inclined plate 13 far away from the air jet loom body 1, and the axis of the mounting shaft 21 is vertical to the plane connected with the mounting shaft 21 and the inclined plate 13; the collecting reel 22 is sleeved on the mounting shaft 21, the collecting reel 22 is provided with a mounting hole 221 for the mounting shaft 21 to pass through, and the collecting tank 222 for winding the waste edge is arranged on the collecting reel 22.

The driving assembly 23 is a driving motor, the driving motor is fixedly installed on the side wall of the inclined plate 13 close to one side of the air jet loom body 1, and an output shaft of the driving motor is connected with one end of the installation shaft 21 close to the air jet loom body 1; fixing device 3 sets up on installation axle 21 and is used for fixing a position collection spool 22, and fixing device 3 includes positioning disk 31, reference column 32, spacing dish 33, locating plate 34, fixed spring 35, fixed plate 36, and positioning disk 31 fixed mounting is on installation axle 21, and positioning disk 31 and driving motor are located the both sides of hang plate 13 respectively.

The positioning column 32 is fixedly installed on one end of the installation shaft 21 far away from the driving motor, the section of the positioning column 32 is square, and the center line of the positioning column 32 is superposed with the center line of the installation shaft 21; the limiting disc 33 is fixedly installed on one end of the positioning column 32 far away from the installation shaft 21, the positioning plate 34 is slidably sleeved on the positioning column 32, the positioning plate 34 is located between the installation shaft 21 and the limiting disc 33, the fixing spring 35 is sleeved on the positioning column 32, and two ends of the fixing spring 35 are respectively fixedly connected with the positioning plate 34 and the side wall of one side of the limiting disc 33 opposite to the positioning plate.

Fixed spring 35, locating plate 34 and spacing dish 33 are located the mounting hole 221 on collecting spool 22 along the projection of installation axle 21 axis direction, it can pass fixed spring 35 to collect spool 22, locating plate 34 and spacing dish 33 cover are established on installation axle 21, and collect spool 22 and support and lean on the lateral wall that deviates from hang plate 13 one side to locating plate 31, fixed mounting has spacing post 311 on the lateral wall of locating plate 31 and the contact of collection spool 22, and spacing post 311 equipartition is provided with a plurality ofly, spacing post 311 grafting is installed on the lateral wall of collecting spool 22, collect spool 22 and all offer on the both ends with spacing post 311 grafting complex inserting groove 223.

The fixing plate 36 is clamped on the positioning column 32, the cross section of the fixing plate 36 is C-shaped, the fixing plate 36 can slide on the positioning column 32 along the direction parallel to the center line of the positioning column 32, the fixing plate 36 is located between the mounting shaft 21 and the positioning plate 34, the positioning plate 34 is pressed against the fixing plate 36 under the action of the fixing spring 35, and therefore the fixing plate 36 is pressed against the side wall of the collecting scroll 22 under the action of the positioning plate 34.

The slitter edge is wound on the collecting scroll 22, the driving motor is started to drive the collecting scroll 22 to rotate so as to wind the slitter edge on the collecting scroll 22, after the slitter edge on the collecting scroll 22 is fully wound, the fixing plate 36 is pulled to detach the fixing plate 36 from the positioning column 32, so that the collecting scroll 22 can be detached from the mounting shaft 21, a new collecting scroll 22 passes through the fixing plate 36, the positioning plate 34 and the fixing spring 35 are sleeved on the mounting shaft 21, the collecting scroll 22 abuts against the positioning disc 31, the positioning plate 34 is shifted to be away from the mounting shaft 21, then the fixing plate 36 is clamped and mounted on the positioning column 32, the positioning plate 34 is loosened, the fixing spring 35 pushes the positioning plate 34 to drive the fixing plate 36 to abut against the collecting scroll 22, the collecting scroll 22 is fixedly mounted on the mounting shaft 21, and the purpose of collecting the slitter edge is achieved.

The collecting trolley 14 is placed on the ground below the mounting shaft 21, the bottom of the collecting trolley 14 is provided with a roller 15 and a universal wheel 16 which roll on the ground, and the universal wheel 16 is provided with a brake. The collecting reel 22 is removed and placed in the collecting trolley 14, and after the collecting trolley 14 is full, the collecting trolley 14 is pushed to convey the collecting reel 22.

Referring to fig. 1 and 3, a guide structure 4 is arranged on the top end of the inclined plate 13, the guide structure 4 comprises a guide screw 41, a guide block 42, a rotating member 43 and a control assembly 44, a fixed seat 48 is fixedly mounted on the top end of the inclined plate 13, the guide screw 41 is rotatably mounted on the side wall of the fixed seat 48 far away from the air jet loom body 1, the axis of the guide screw 41 is parallel to the axis of the collection scroll 22, a limit shaft 411 is fixedly mounted on the side wall of the fixed seat 48 on which the guide screw 41 is mounted, and the axis of the limit shaft 411 is parallel to the axis of the guide; the guide block 42 is in threaded connection with the guide screw rod 41, the limiting shaft 411 is slidably arranged on the guide block 42 in a penetrating manner, the top end of the guide block 42 is fixedly provided with an installation block 421, and the side wall of the installation block 421 is fixedly provided with a guide ring 422 for guiding the waste edge; the rotating part 43 is a rotating motor which is fixedly arranged on the side wall of the mounting plate 45 close to one side of the air jet loom body 1, and the output shaft of the rotating motor is connected with the guide screw 41.

The control assembly 44 is arranged on the fixed seat 48, the control assembly 44 comprises an installation plate 45, an induction column 46 and a travel switch 47, the installation plate 45 is fixedly installed on the side wall of the fixed seat 48, the installation plate 45 is long, and the length direction of the installation plate 45 is parallel to the axis of the guide screw 41; induction column 46 fixed mounting is on the lateral wall that mounting block 421 is close to mounting panel 45 one side, travel switch 47 fixed mounting is on the lateral wall that mounting panel 45 is close to induction column 46 one side, travel switch 47 along mounting panel 45 length direction interval set up with two, and induction column 46 is located between two travel switch 47, two travel switch 47 all are connected with the rotation motor electricity simultaneously, when guide block 42 removed the drive slitter edge and removed the both ends of collecting spool 22, induction column 46 can contact with two travel switch 47.

The slitter edge penetrates through the guide ring 422, the rotating motor is started to drive the guide screw rod 41 to rotate, the guide screw rod 41 rotates to drive the guide block 42 and the guide ring 422 to move together, the guide ring 422 moves to drive the slitter edge to move, after the slitter edge moves to one end of the collecting scroll 22, the induction column 46 is in contact with one travel switch 47, the travel switch 47 controls the rotating motor to rotate reversely, and the rotating motor rotates reversely to drive the slitter edge to move back so as to drive the slitter edge to be uniformly wound on the collecting scroll 22.

A tensioning assembly 5 for tensioning the waste edges is arranged at the top end of the mounting block 421, the tensioning assembly 5 comprises a fixed pressure wheel 51, a tensioning rod 52, a dynamic pressure wheel 53, a fixed disc 54 and a tensioning spring 55, a supporting plate 56 is fixedly mounted on the side wall of the mounting block 421, and the projection of the supporting plate 56 in the direction perpendicular to the top end of the mounting plate 45 is in an L shape; the fixed pressing wheel 51 is rotatably installed on the installation block 421, the tension rod 52 is slidably arranged on the support plate 56, the tension rod 52 is in a horizontal state, and the axis of the tension rod 52 is vertical to the axis of the guide screw 41; the dynamic pressure wheel 53 is rotatably arranged at one end of the tension rod 52 close to the fixed pressure wheel 51, and the rotating direction axes of the dynamic pressure wheel 53 and the fixed pressure wheel 51 are parallel to the axis of the guide screw 41; the movable pressing wheel 53 and the fixed pressing wheel 51 are both provided with annular positioning grooves 57.

The fixed disc 54 is fixedly arranged on the tension rod 52, and the fixed disc 54 is positioned at one side close to the movable pressing wheel 53; the tension spring 55 is sleeved on the tension rod 52, two ends of the tension spring 55 are respectively arranged on the side walls of the opposite sides of the fixed disc 54 and the supporting plate 56, and the dynamic pressure wheel 53 is matched with the constant pressure wheel 51 under the action of the tension spring 55 to clamp the waste edge.

The tensioning rod 52 is pulled to drive the movable pressing wheel 53 to be far away from the fixed pressing wheel 51, then the slitter edges can penetrate between the fixed pressing wheel 51 and the movable pressing wheel 53, the tensioning rod 52 is loosened, and the movable pressing wheel 53 is matched with the fixed pressing wheel 51 under the action of the tensioning spring 55 to clamp the slitter edges, so that the slitter edges are in a tensioning state when being collected.

The working principle of the embodiment of the application is as follows:

pulling tensioning lever 52 and driving dynamic pressure wheel 53 and keeping away from fixed pressure wheel 51, then passing the slitter edge between fixed pressure wheel 51 and the dynamic pressure wheel 53, loosening tensioning lever 52, dynamic pressure wheel 53 and the cooperation of fixed pressure wheel 51 press from both sides tight slitter edge, pass the slitter edge on guide ring 422 convolutes collection spool 22 at last, so the slitter edge is in the tensioning state when collecting, has increased the slitter edge quantity of coiling on the collection spool 22, has improved the collection effect of collection spool 22 to the slitter edge.

The driving motor starts to drive the collection reel 22 and rotates to collect the slitter edge, collect reel 22 and go up the slitter edge and coil full back, dismantle fixed plate 36 from reference column 32, dismantle the collection reel 22 from installation axle 21 and place in collecting trolley 14, establish new collection reel 22 cover on installation axle 21, make collection reel 22 support and lean on positioning disk 31, and spacing post 311 pegs graft and installs on inserting groove 223, stir locating plate 34 and keep away from installation axle 21, install fixed plate 36 joint to reference column 32, loosen locating plate 34, fixed plate 36 supports tightly on collecting reel 22, with this with on collecting reel 22 fixed mounting to installation axle 21, thereby reach the purpose of collecting the slitter edge, the probability that the staff frequently went to clear up the slitter edge has been reduced, staff's work burden has been reduced.

When the driving motor drives the collection reel 22 to collect the slitter edge, the rotating motor starts to drive the slitter edge to move, after the slitter edge moves to one end of the collection reel 22, the induction column 46 contacts one of the travel switches 47, the travel switches 47 control the rotating motor to rotate reversely, and the rotating motor rotates to drive the slitter edge to move back, so that the purpose of uniformly winding the slitter edge on the collection reel 22 is achieved, and the collection effect of the collection reel 22 on the slitter edge is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a structure is collected to air jet loom's slitter edge which characterized in that: including setting up collection mechanism (2) on air jet loom organism (1), collection mechanism (2) is including installation axle (21), collection spool (22), drive assembly (23), fixing device (3), installation axle (21) rotates and sets up on air jet loom organism (1), it establishes on installation axle (21) to collect spool (22) cover, drive assembly (23) set up on air jet loom organism (1) and are connected with installation axle (21), fixing device (3) set up on installation axle (21) and are used for fixing a position collection spool (22).

2. The slitter edge collecting structure of an air jet loom according to claim 1, wherein: the fixing device (3) comprises a positioning disc (31), a positioning column (32), a limiting disc (33), a positioning plate (34), a fixing spring (35) and a fixing plate (36), wherein the positioning disc (31) is arranged on an installation shaft (21), the positioning column (32) is arranged at one end of the installation shaft (21) far away from the driving component (23), the limiting disc (33) is arranged at one end of the positioning column (32) far away from the installation shaft (21), the positioning plate (34) is arranged on the positioning column (32) in a sliding manner, the fixing spring (35) is sleeved on the positioning column (32) and two ends of the fixing spring are respectively connected with the limiting disc (33) and the positioning plate (34), the fixing plate (36) is clamped on the positioning column (32) and can slide on the positioning column (32), the positioning plate (34) is abutted against the fixing plate (36) under the action of the fixing spring (35), the fixed plate (36) and the positioning plate (31) are respectively abutted against two ends of the collecting scroll (22), and the collecting scroll (22) can be sleeved on the mounting shaft (21) through the fixed plate (36), the positioning plate (34) and the fixing spring (35).

3. The slitter edge collecting structure of an air jet loom according to claim 2, wherein: the positioning disc (31) is provided with a limiting column (311) which is arranged on the collecting scroll (22) in an inserting mode and is close to the side wall of the collecting scroll (22), and inserting grooves (223) which are matched with the limiting column (311) in an inserting mode are formed in the two ends of the collecting scroll (22).

4. The slitter edge collecting structure of an air jet loom according to claim 1, wherein: be provided with guide structure (4) on air jet loom organism (1), guide structure (4) include lead screw (41), guide block (42), rotate piece (43), control assembly (44), lead screw (41) rotate set up on air jet loom organism (1) and the axis is parallel with collection spool (22) axis, guide block (42) threaded connection just is provided with guide ring (422) that leads to the slitter edge on lead screw (41), it sets up on air jet loom organism (1) and is connected with guide screw (41) to rotate piece (43), control assembly (44) set up on air jet loom organism (1) and are connected with rotation piece (43) electricity.

5. The slitter edge collecting structure of an air jet loom according to claim 4, wherein: control module (44) are including mounting panel (45), response post (46), travel switch (47), mounting panel (45) set up on air jet loom organism (1) and length direction is parallel with lead screw (41) axis, response post (46) set up on guide block (42), travel switch (47) set up on mounting panel (45) and along mounting panel (45) length direction interval be provided with two and lie in the both sides of response post (46), travel switch (47) are connected with rotation piece (43) electricity.

6. The slitter edge collecting structure of an air jet loom according to claim 4, wherein: be provided with on guide block (42) and carry out tensioning subassembly (5) of tensioning to the cloth, tensioning subassembly (5) are including deciding pinch roller (51), tensioning rod (52), move pinch roller (53), fixed disk (54), tensioning spring (55), decide pinch roller (51) and rotate and set up on guide block (42), tensioning rod (52) slide and set up on guide block (42), it rotates to set up to be close to one of deciding pinch roller (51) at tensioning rod (52) and serves, fixed disk (54) set up on tensioning rod (52), tensioning spring (55) cover is established on tensioning rod (52) and both ends are connected with fixed disk (54) and guide block (42) respectively, it compresses tightly the slitter edge with the cooperation of deciding pinch roller (51) under the effect of tensioning spring (55) to move pinch roller (53).

7. The slitter edge collecting structure of an air jet loom according to claim 6, wherein: and annular positioning grooves (57) are formed in the fixed pressure wheel (51) and the dynamic pressure wheel (53).

8. The slitter edge collecting structure of an air jet loom according to claim 1, wherein: the collecting trolley is characterized in that a collecting trolley (14) is arranged on the ground below the collecting reel (22), rollers (15) and universal wheels (16) rolling on the ground are arranged on the collecting trolley (14), and brakes are arranged on the universal wheels (16).

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