CN116607250A - Upper shaft device of jet loom - Google Patents

Abstract

The invention relates to the field of looms, in particular to an upper shaft device of an air jet loom, which comprises a shaft seat, wherein the shaft seat is rotatably arranged on a loom frame, a driving seat and a supporting seat are respectively arranged at two sides of the loom frame, a driving joint structure is arranged at one side of the shaft seat, a supporting joint structure is arranged at the other side of the shaft seat, the shaft seat is provided with two winding shafts through the driving joint structure and the supporting joint structure, the two winding shafts are symmetrically arranged at two sides of the shaft seat, a paper tube is sleeved on the winding shafts, an extension bottom plate is arranged on the loom frame, an upper shaft seat is arranged on the extension bottom plate, a discharge ramp is arranged on the upper shaft seat, the upper shaft seat is positioned below the shaft seat, a binding seat is movably arranged on the loom frame through a linear rail, a binding structure with a cloth cutting function is arranged on the binding seat, and the cloth and the paper tube are fixed through the binding structure; the invention can achieve the purpose of double-shaft switching to finish the work of upper shaft and cloth winding without stopping machine.

Description

Upper shaft device of jet loom

Technical Field

The invention relates to the technical field of looms, in particular to an upper shaft device of an air jet loom.

Background

Air jet loom is a highly efficient apparatus widely used in the textile industry for producing a wide variety of textiles such as cloth, rope and yarn. The air jet loom forms a textile pattern by shuttling yarns in the fabric, and has the advantages of high production speed and high efficiency.

In the air jet loom, a winding shaft and a winding drum provided thereon are generally used to collect a cloth around the winding shaft when processing the cloth. The winding shaft on the current jet loom usually adopts a single-shaft structure, and after the collection of a roll of cloth is completed, workers need to detach and replace the winding shaft by means of an upper shaft device. The existing upper shaft device only plays a role of auxiliary support, can not automatically complete the replacement of a winding shaft and a winding drum, needs to stop for winding work of continuous cloth, and has poor continuity of cloth processing.

Disclosure of Invention

The invention aims to provide an upper shaft device of an air jet loom so as to achieve the purposes of double-shaft switching to complete upper shaft work and cloth winding without stopping, and solve the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an upper shaft device of jet loom, includes the axle bed, the axle bed rotates and sets up on the loom frame, and the both sides of loom frame are provided with drive seat and supporting seat respectively, and the axle bed rotates and connect between drive seat and supporting seat, one side of axle bed is provided with drive joint structure, and the opposite side is provided with support joint structure, and the axle bed installs two around the spool through drive joint structure and support joint structure, and two around spool symmetry setting in the both sides of axle bed, around the epaxial cover of spool is equipped with the fiber cone, be provided with the extension bottom plate on the loom frame, and be provided with the over-and-under type on the extension bottom plate, and be provided with ejection of compact ramp on the last axle bed, and go up the below that the axle bed is located the axle bed, install through linear track movable mounting in the loom frame and order the seat, and be provided with the binding structure that has cloth and cut the function on the dress and carry out the fixation of cloth and fiber cone through the binding structure.

Preferably, the loom frame is a door-shaped frame structure, a guide roller is rotatably arranged on the loom frame, the shaft seat is positioned below the guide roller, the shaft seat is composed of two symmetrical end plates and a connecting rod between the end plates, the driving seat and the supporting seat are respectively positioned on two sides of the shaft seat, a servo motor is arranged in the driving seat, and a motor shaft of the servo motor is connected with the central position of the shaft seat.

Preferably, the driving joint structure comprises a driving shaft arranged on one side of the shaft seat, the driving shaft is connected to the winding motor, a limiting groove is formed in the driving shaft, a top plate is sleeved on the driving shaft, and two sides of the top plate are respectively connected with a jacking spring and a rotating shaft sleeve.

Preferably, the driving shaft is installed on the shaft seat through a bearing, the limiting groove adopts a hexagonal groove, the jacking spring is connected between the shaft seat and the top plate, and the rotating shaft sleeve is rotatably installed on the top plate through the bearing.

Preferably, the support joint structure comprises a fixing screw rod arranged on the shaft seat, the fixing screw rod is in threaded connection with the shaft seat, the end part of the fixing screw rod is rotatably provided with a rotating rod, a limiting rod is fixedly connected to the rotating rod, and the limiting rod is in a hexagonal prism shape.

Preferably, the winding shaft is divided into a main shaft and a standby shaft, the main shaft and the standby shaft are identical in structure, the paper tube is sleeved on the outer wall of the winding shaft, the two sides of the winding shaft are respectively provided with a butt joint rod and a butt joint groove, the butt joint rod is a hexagonal prism, and the butt joint groove is a hexagonal groove.

Preferably, the extension bottom plate is arranged at the bottom of the loom frame, four jacking rods are arranged on the extension bottom plate, the upper shaft seat is arranged on the jacking parts of the four jacking rods, and the discharging ramp is arranged on the side face of the upper shaft seat.

Preferably, two linear rails are horizontally arranged on the loom frame, the binding seat is arranged between the two linear rails, and the binding seat is horizontally pushed by the linear rails.

Preferably, the binding structure comprises a movable block movably arranged on the binding seat, a pushing piece is fixedly connected to the movable block, the movable block is fixedly connected to the air cylinder, the binding seat is internally provided with the binding piece, a cutter bar is fixedly connected to the movable block, and a cutting knife is fixedly arranged on the cutter bar.

Preferably, the binding seat is provided with a sliding groove, the movable block is arranged in the sliding groove in a limiting sliding manner, the binding piece is placed in the binding seat against the pushing piece, the binding piece is provided with a stab nail, the cutter bar is arranged at the bottom of the movable block, and the cutting-off cutter is horizontally arranged.

Compared with the prior art, the invention has the beneficial effects that:

1. the upper shaft device adopts a switching type automatic upper shaft structure, and is provided with two winding shafts, so that the collected cloth can be automatically sent out through position switching of the winding shafts after the collection of one roll of cloth is completed, the winding collection of the cloth is automatically continued, stop is not needed, and the cloth processing efficiency is improved.

2. According to the invention, the upper shaft device takes the rotary shaft seat as a main body, the shaft seat can be driven by the driving seat to rotate 180 degrees each time to finish the switching of the two winding shafts, one side of the shaft seat is provided with the driving joint structure, and the other side of the shaft seat is provided with the supporting joint structure, so that the winding shafts can be quickly installed, and after the winding shafts finish the collection of a roll of cloth, the winding shafts can be quickly disassembled, and the cloth is carried and collected.

3. The two winding shafts are divided into a main shaft and a standby shaft, usually, the main shaft and the standby shaft are kept at the horizontal positions by utilizing a shaft seat, one of the winding shafts is positioned at the inclined lower part of the guide roller, the cloth enters the position of the winding shaft after being guided by the guide roller, the other winding shaft can be wound on the paper drum, the other winding shaft does not work, the winding shaft can be stopped after the working winding shaft finishes the collection of one roll of cloth, the shaft seat is driven to rotate by the driving seat, the winding shaft with the cloth rotates to the lower part at the moment, the empty winding shaft rotates to the upper part, the cloth can be contacted with the guide roller and the working winding shaft, the cloth is fixed with the paper drum by utilizing a binding structure, the wound cloth is cut off, and the switching type upper shaft work is automatically completed.

4. The invention is provided with the upper shaft auxiliary structure, the winding shaft which completes the cloth winding work can rotate to the position above the extension bottom plate, the lifting rod and the upper shaft seat are utilized to catch the cloth and properly descend to the position easy to operate, the cloth is conveniently taken out, and the winding shaft can also be rapidly installed by means of the lifting of the upper shaft seat.

5. The invention installs the binding seat on the loom frame through the linear track, when the winding is performed, the linear track can keep away the binding seat to avoid the influence on the cloth winding, when the position of the winding shaft is switched, the binding seat is close to the empty winding shaft, when the positions of the two winding shafts are switched, the empty winding shaft brings the paper tube close to the binding seat, the cloth can be cut off by utilizing the binding structure, the fracture is connected to the paper tube, and the uninterrupted winding work is automatically performed through the rotation of the paper tube.

Drawings

Fig. 1 is a first schematic view of the overall structure of the present invention.

Fig. 2 is a second schematic view of the overall structure of the present invention.

FIG. 3 is a schematic view of the winding shaft and shaft seat structure of the present invention.

Fig. 4 is a schematic diagram of a shaft seat and a driving seat structure according to the present invention.

Fig. 5 is a schematic view of a shaft seat and a supporting seat structure according to the present invention.

Fig. 6 is a schematic view of the structure of the drive connection end of the present invention around a reel.

Fig. 7 is a schematic view of the structure of the connection end of the present invention supported around a reel.

Fig. 8 is a schematic diagram of an upper shaft seat structure of the present invention.

Fig. 9 is a perspective view of the binding structure of the present invention.

Fig. 10 is a side view of the binding structure of the present invention.

In the figure: axle bed 1, loom frame 2, guide roll 3, driving seat 4, supporting seat 5, winding motor 6, drive shaft 7, spacing groove 8, top pressure spring 9, roof 10, rotation axle sleeve 11, fixed screw 12, dwang 13, spacing rod 14, winding shaft 15, docking rod 16, docking groove 17, paper tube 18, extension bottom plate 19, jacking rod 20, upper axle bed 21, ejection ramp 22, linear track 23, binding seat 24, binding 25, spike 26, movable block 27, chute 28, cylinder 29, pusher 30, cutter arbor 31, cutter 32.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, under the precondition of no conflict, new embodiments can be formed by any combination of the embodiments or technical features described below, and it should be understood that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: the utility model provides an upper shaft device of jet loom, including axle bed 1, axle bed 1 rotates and sets up on loom frame 2, and loom frame 2's both sides are provided with drive seat 4 and supporting seat 5 respectively, and axle bed 1 rotates and connects between drive seat 4 and supporting seat 5, one side of axle bed 1 is provided with the drive joint structure, the opposite side is provided with the supporting joint structure, and axle bed 1 installs two around spool 15 through drive joint structure and supporting joint structure, and two around spool 15 symmetry sets up in axle bed 1's both sides, around spool 15 upper cover is equipped with fiber drum 18, be provided with on loom frame 2 and extend bottom plate 19, and be provided with lifting type's upper shaft seat 21 on the extension bottom plate 19, and be provided with ejection of compact ramp 22 on the upper shaft seat 21, and upper shaft seat 21 is located the below of axle bed 1, install through linear rail 23 movable mounting on loom frame 2 and order seat 24, and be provided with the binding structure that has cloth cut function on the dress order seat 24, carry out the cloth through the binding structure and the fixation of fiber drum 18.

The loom frame 2 is a door-shaped frame structure, a guide roller 3 is rotatably arranged on the loom frame 2, the shaft seat 1 is positioned below the guide roller 3, the shaft seat 1 is composed of two symmetrical end plates and a connecting rod between the end plates, a driving seat 4 and a supporting seat 5 are respectively positioned on two sides of the shaft seat 1, a servo motor is arranged in the driving seat 4, and a motor shaft of the servo motor is connected with the central position of the shaft seat 1.

The upper shaft device adopts a switching type automatic upper shaft structure, and is provided with two winding shafts 15, so that after the collection of one roll of cloth is completed, the collected cloth can be automatically sent out through the position switching of the winding shafts 15, and the winding collection of the cloth can be automatically continued.

The upper shaft device takes a rotary shaft seat 1 as a main body, is arranged between a driving seat 4 and a supporting seat 5 of a loom frame 2, and can drive the shaft seat 1 to rotate 180 degrees each time through the driving seat 4 so as to finish the switching of two winding shafts 15.

The driving joint structure comprises a driving shaft 7 arranged on one side of the shaft seat 1, the driving shaft 7 is connected to the winding motor 6, a limiting groove 8 is formed in the driving shaft 7, a top plate 10 is sleeved on the driving shaft 7, and two sides of the top plate 10 are respectively connected with a top pressure spring 9 and a rotating shaft sleeve 11.

One side of the shaft seat 1 is provided with a driving joint structure, the other side is provided with a supporting joint structure, the quick installation of the winding shaft 15 can be realized, and after the collection of one roll of cloth is completed by the winding shaft 15, the winding shaft 15 can be quickly disassembled for carrying and collecting the cloth.

The driving shaft 7 is arranged on the shaft seat 1 through a bearing, the limiting groove 8 adopts a hexagonal groove, the jacking spring 9 is connected between the shaft seat 1 and the top plate 10, and the rotating shaft sleeve 11 is rotatably arranged on the top plate 10 through the bearing.

The support joint structure comprises a fixed screw rod 12 arranged on a shaft seat 1, the fixed screw rod 12 is in threaded connection with the shaft seat 1, a rotating rod 13 is rotatably arranged at the end part of the fixed screw rod 12, a limiting rod 14 is fixedly connected to the rotating rod 13, and the limiting rod 14 is in a hexagonal prism shape.

When the winding shaft 15 is installed, firstly, one end of the winding shaft 15, provided with the butt joint rod 16, is in butt joint with the driving shaft 7, the butt joint rod 16 is inserted into the limit groove 8, the top plate 10 is sleeved on the winding shaft 15 through the rotating shaft sleeve 11 under the elastic force of the jacking spring 9, then the fixed screw 12 is utilized for rotating and feeding, the limit rod 14 is inserted into the butt joint groove 17 of the winding shaft 15, pressure is generated from two sides of the winding shaft 15 through the fixed screw 12 and the rotating shaft sleeve 11, the winding shaft 15 can be stably installed between the driving shaft 7 and the rotating rod 13, and the winding shaft 15 can be driven to rotate through the winding motor 6.

The winding shaft 15 is divided into a main shaft and a standby shaft, the main shaft and the standby shaft are identical in structure, the paper tube 18 is sleeved on the outer wall of the winding shaft 15, the two sides of the winding shaft 15 are respectively provided with a butt joint rod 16 and a butt joint groove 17, the butt joint rod 16 is a hexagonal prism, and the butt joint groove 17 is a hexagonal groove.

The winding shaft 15 can be sleeved with the paper tube 18, and the paper tube 18 can collect cloth on the winding shaft when rotating around the winding shaft 15, and then the paper tube 18 is taken off from the winding shaft 15 to carry and collect finished cloth.

The two winding shafts 15 of the invention are divided into a main shaft and a standby shaft, usually, the two winding shafts are kept in a mutually horizontal position by utilizing a shaft seat 1, one of the winding shafts is positioned obliquely below a guide roller 3, cloth enters the position of the winding shaft 15 after being guided by the guide roller 3, can be wound on a paper drum 18, the other winding shaft 15 does not work, after the working winding shaft 15 finishes collecting a roll of cloth, the winding shaft 15 can be stopped, the shaft seat 1 is driven by a driving seat 4 to rotate, the winding shaft 15 with the cloth rotates to the lower side at the moment, the empty winding shaft 15 rotates to the upper side, the cloth can be contacted with the cloth between the guide roller 3 and the working winding shaft 15, the cloth is fixed with the paper drum 18 by utilizing a binding structure, the wound cloth is cut off, and the switching type upper shaft work is automatically completed.

The extension bottom plate 19 is arranged at the bottom of the loom frame 2, four jacking rods 20 are arranged on the extension bottom plate 19, an upper shaft seat 21 is arranged on the jacking parts of the four jacking rods 20, and a discharging ramp 22 is arranged on the side face of the upper shaft seat 21.

The winding shaft 15, which has completed the cloth winding work, can be rotated to a position above the extension floor 19, the cloth is caught by the lifting rod 20 and the upper shaft seat 21 and properly lowered to a position easy to operate, the winding shaft 15 is withdrawn from the paper tube 18, and the paper tube 18 and the cloth are taken out of the discharge ramp 22, and likewise, the winding shaft 15 can be rapidly installed by lifting the upper shaft seat 21.

The linear rails 23 are horizontally provided two on the loom frame 2, and the staple holder 24 is installed between the two linear rails 23, and the staple holder 24 is horizontally pushed by the linear rails 23.

The invention installs the binding seat 24 on the loom frame 2 through the linear rail 23, when coiling, the linear rail 23 can keep away the binding seat 24, avoid the influence on the cloth coiling, and when switching the position of the coiling shaft 15, the binding seat 24 is close to the empty coiling shaft 15.

The binding structure comprises a movable block 27 movably arranged on a binding seat 24, a pushing piece 30 is fixedly connected to the movable block 27, the movable block 27 is fixedly connected to an air cylinder 29, the binding seat 24 is provided with a binding piece 25, a cutter bar 31 is fixedly connected to the movable block 27, and a cutting-off cutter 32 is fixedly arranged on the cutter bar 31.

When the positions of the two winding shafts 15 are switched, the empty winding shaft 15 brings the paper tube 18 close to the binding seat 24, the cloth can be cut off by utilizing the binding structure, the fracture is connected to the paper tube 18, and the uninterrupted winding work is automatically carried out by rotating the paper tube 18.

The binding seat 24 is provided with a chute 28, the movable block 27 is arranged in the chute 28 in a limiting sliding manner, the binding piece 25 is placed in the binding seat 24 against the pushing piece 30, the binding piece 25 is provided with a stab nail 26, the cutter bar 31 is arranged at the bottom of the movable block 27, and the cut-off cutter 32 is horizontally arranged.

The movable block 27 is pushed by the air cylinder 29, the movable block 27 can push the binding piece 25 by utilizing the pushing piece 30 on the movable block, the binding piece 25 is pushed to the winding shaft 15 and the cloth, the binding piece 25 can penetrate the cloth and the paper tube 18 through the piercing pin 26, the cloth is fixed on the paper tube 18, meanwhile, the cutter bar 31 moves synchronously along with the movable block 27, the cutting knife 32 on the cutter bar can contact with the cloth, the cloth is cut off, and the winding work connection is completed.

The invention is used when in use: firstly, the upper shaft device adopts a switching type automatic upper shaft structure, two winding shafts 15 are arranged, collected cloth can be automatically sent out through position switching of the winding shafts 15 after the collection of one roll of cloth is completed, the winding collection of the cloth can be automatically carried out continuously, the upper shaft device takes a rotary shaft seat 1 as a main body, the upper shaft device is arranged between a driving seat 4 and a supporting seat 5 of a loom frame 2, the shaft seat 1 can be driven by the driving seat 4 to rotate 180 degrees each time to complete the switching of the two winding shafts 15, one side of the shaft seat 1 is provided with a driving joint structure, the other side is provided with a supporting joint structure, the quick installation of the winding shafts 15 can be carried out, the quick disassembly of the winding shafts 15 can also be carried out after the collection of one roll of cloth is completed, the carrying collection of the cloth is carried out, and when the installation of the winding shafts 15 is carried out, firstly, one end of a winding shaft 15 provided with a docking rod 16 is docked with a driving shaft 7, the docking rod 16 is inserted into a limit groove 8, a rotating shaft sleeve 11 is sleeved on the winding shaft 15 by a top plate 10 under the action of the elasticity of a jacking spring 9, then the rotating shaft sleeve 12 is utilized for rotating and feeding, the limit rod 14 is inserted into the docking groove 17 of the winding shaft 15, the pressure is generated from two sides of the winding shaft 15 through the fixed screw 12 and the rotating shaft sleeve 11, the winding shaft 15 can be stably arranged between the driving shaft 7 and the rotating shaft 13, the winding shaft 15 can be driven to rotate through a winding motor 6, the winding shaft 15 can be sleeved with a paper tube 18, the paper tube 18 can be wound and collected on the winding shaft 15 along with the rotation of the winding shaft 15, then the paper tube 18 is taken off from the winding shaft 15, finished product cloth is conveyed and collected, the winding shaft 15 is divided into a main shaft and a standby shaft, normally both are kept in a mutually horizontal position by means of the axle seat 1, one of them is located obliquely below the guide roller 3, after being guided by the guide roller 3, the cloth enters the position of the winding shaft 15, can be wound on the paper tube 18, the other winding shaft 15 does not work, after the working winding shaft 15 finishes collecting a roll of cloth, the winding shaft 15 can be stopped, instead, the axle seat 1 is driven by the driving seat 4 to rotate, the winding shaft 15 with the cloth rotates downwards, the empty winding shaft 15 rotates upwards, can be contacted with the cloth between the guide roller 3 and the working winding shaft 15, in this state, the cloth is fixed with the paper tube 18 by means of a binding structure, the cloth which has been wound is cut off, the switching type upper shaft work is automatically completed, the winding shaft 15 which has completed the cloth winding work can rotate to the position above the extension bottom plate 19, the invention uses the lifting rod 20 and the upper shaft seat 21 to catch the cloth, and properly descends to the easy-to-operate position, the winding shaft 15 is pulled out from the paper tube 18, and the paper tube 18 and the cloth are taken out from the discharging ramp 22, and the winding shaft 15 can also be quickly installed by lifting the upper shaft seat 21, the invention installs the binding seat 24 on the loom frame 2 through the linear rail 23, when the winding is performed, the linear rail 23 can separate the binding seat 24 from the cloth winding, avoid affecting the cloth winding, when the position of the winding shaft 15 is switched, the binding seat 24 is close to the empty winding shaft 15, when the two winding shafts 15 are switched, the empty winding shaft 15 carries the paper tube 18 to be close to the binding seat 24, the cloth can be cut off by using the binding structure, and the fracture is connected on the paper tube 18, the uninterrupted winding work is automatically performed through the rotation of the paper tube 18, the movable block 27 is pushed by the air cylinder 29, the movable block 27 can push the binding piece 25 by utilizing the pushing piece 30 on the movable block, the binding piece 25 is pushed to the winding shaft 15 and the cloth, the binding piece 25 can penetrate the cloth and the paper tube 18 through the piercing pin 26, the cloth is fixed on the paper tube 18, meanwhile, the cutter bar 31 moves synchronously along with the movable block 27, the cutting knife 32 on the cutter bar can contact with the cloth, the cloth is cut off, and the winding work connection is completed.

The above embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, but various modifications can be made by those skilled in the art without inventive effort from the above concepts, and all modifications are within the scope of the present invention.

Claims (10)

1. The utility model provides an upper shaft device of air jet loom, includes axle bed (1), its characterized in that: the utility model provides a loom, including loom frame (2), axle bed (1), loom frame (2), drive seat (4) and supporting seat (5) are provided with respectively to the both sides of just loom frame (2), and axle bed (1) rotate and connect between drive seat (4) and supporting seat (5), one side of axle bed (1) is provided with drive joint structure, and the opposite side is provided with support joint structure, and axle bed (1) installs two around spool (15) through drive joint structure and support joint structure, and two around spool (15) symmetry setting in the both sides of axle bed (1), around spool (15) top cover is equipped with fiber drum (18), be provided with extension bottom plate (19) on loom frame (2), and be provided with over-and-under type's last axle bed (21) on extension bottom plate (19), and be provided with ejection of compact ramp (22) on last axle bed (21) and order the below of axle bed (1), bind seat (24) through linear rail (23) movable mounting on loom frame (2), and bind seat (24) and be provided with on having on spool (15) and cut-off structure and cloth through cloth fixed structure.

2. The air jet loom upper shaft device as claimed in claim 1, wherein: the loom frame (2) is a door-type frame structure, the guide roller (3) is rotatably arranged on the loom frame (2), the shaft seat (1) is positioned below the guide roller (3), the shaft seat (1) is composed of two symmetrical end plates and a connecting rod between the end plates, the driving seat (4) and the supporting seat (5) are respectively positioned on two sides of the shaft seat (1), a servo motor is arranged in the driving seat (4), and a motor shaft of the servo motor is connected with the central position of the shaft seat (1).

3. The air jet loom upper shaft device as claimed in claim 1, wherein: the driving joint structure comprises a driving shaft (7) arranged on one side of the shaft seat (1), the driving shaft (7) is connected to the winding motor (6), a limiting groove (8) is formed in the driving shaft (7), a top plate (10) is sleeved on the driving shaft (7), and two sides of the top plate (10) are respectively connected with a jacking spring (9) and a rotating shaft sleeve (11).

4. A jet loom upper shaft device as in claim 3 wherein: the driving shaft (7) is arranged on the shaft seat (1) through a bearing, the limiting groove (8) is a hexagonal groove, the jacking spring (9) is connected between the shaft seat (1) and the top plate (10), and the rotating shaft sleeve (11) is rotatably arranged on the top plate (10) through the bearing.

5. The air jet loom upper shaft device as claimed in claim 1, wherein: the supporting joint structure comprises a fixing screw rod (12) arranged on a shaft seat (1), the fixing screw rod (12) is in threaded connection with the shaft seat (1), a rotating rod (13) is rotatably arranged at the end part of the fixing screw rod (12), a limiting rod (14) is fixedly connected to the rotating rod (13), and the limiting rod (14) is in a hexagonal prism shape.

6. The air jet loom upper shaft device as claimed in claim 1, wherein: the winding shaft (15) is divided into a main shaft and a standby shaft, the main shaft and the standby shaft are identical in structure, the paper tube (18) is sleeved on the outer wall of the winding shaft (15), the two sides of the winding shaft (15) are respectively provided with a butt joint rod (16) and a butt joint groove (17), the butt joint rod (16) is a hexagonal prism, and the butt joint groove (17) is a hexagonal groove.

7. The air jet loom upper shaft device as claimed in claim 1, wherein: the extension bottom plate (19) is arranged at the bottom of the loom frame (2), four lifting rods (20) are arranged on the extension bottom plate (19), an upper shaft seat (21) is arranged on the lifting parts of the four lifting rods (20), and a discharging ramp (22) is arranged on the side face of the upper shaft seat (21).

8. The air jet loom upper shaft device as claimed in claim 1, wherein: two linear rails (23) are horizontally arranged on the loom frame (2), a binding seat (24) is arranged between the two linear rails (23), and the binding seat (24) is horizontally pushed by the linear rails (23).

9. The air jet loom upper shaft device as claimed in claim 1, wherein: the binding structure comprises a movable block (27) movably arranged on a binding seat (24), a pushing piece (30) is fixedly connected to the movable block (27), the movable block (27) is fixedly connected to an air cylinder (29), binding pieces (25) are loaded in the binding seat (24), a cutter bar (31) is fixedly connected to the movable block (27), and a cutting-off cutter (32) is fixedly arranged on the cutter bar (31).

10. The air jet loom upper shaft device as claimed in claim 9, wherein: the utility model discloses a binding seat, including binding seat (24), movable block (27), pushing piece (30), binding piece (25) are provided with spout (28) on binding seat (24), and binding piece (25) are provided with spike (26), cutter arbor (31) set up in the bottom of movable block (27), and cut-off sword (32) level setting in spout (28).