CN216863120U - Splitting machine - Google Patents

Abstract

The utility model provides a splitting machine. The splitting machine comprises a winding mechanism, a bearing plate and a supporting mechanism. The winding mechanism comprises a winding shaft. The bearing plate comprises a first bearing sub-plate and a second bearing sub-plate. The supporting mechanism is detachably connected with the first bearing daughter board. The supporting mechanism comprises a bearing component, a connecting piece and a telescopic component. The supporting component comprises at least one sliding block, a sliding rail and a fixing piece. The sliding block is connected with the sliding rail in a sliding way. The fixing piece is positioned on one side of the sliding block far away from the sliding rail. The fixed part is connected with the sliding block. The connecting piece is detachably connected with one side of the fixing piece far away from the sliding block. The relative position of the connecting piece and the fixing piece is adjustable. The telescoping assembly includes a telescoping end. The telescopic end of the telescopic component is connected with the connecting piece. The splitting machine provided by the utility model can be used for finely adjusting the supporting position of the winding mechanism, so that the fitting degree of the supporting mechanism and the winding shaft in the splitting machine is improved.

Description

Splitting machine

Technical Field

The utility model belongs to the technical field of machining equipment, and particularly relates to a splitting machine.

Background

With the improvement of production technology, the share of plastic flexible package products in the market is getting larger and larger, and the plastic flexible package products are widely applied to the fields of food, medicine, chemical industry, agriculture and the like. In the process of producing the plastic flexible package, the wide film needs to be cut into a plurality of narrow films, so that the next packaging bag forming procedure is convenient to carry out. In the working process of the splitting machine in the prior art, the supporting mechanism supports the winding mechanism, so that the winding work can be smoothly carried out. And when the film is completely wound, the supporting mechanism moves to one side. And moving the cut film roll to a discharging mechanism for discharging. When unloading is completed, the winding mechanism needs to work again, the supporting mechanism resets, and the winding mechanism is supported again.

The conventional support mechanism is generally manufactured in an integrated forming mode. When the supporting mechanism shifts and resets for many times, the deviation is easy to appear in the conjunction of the supporting mechanism and the winding mechanism, and the winding work of the splitting machine can not be smoothly carried out easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a splitting machine, which can improve the fitting degree of a supporting mechanism and a winding mechanism and ensure the smooth winding work of the splitting machine.

The utility model provides a splitting machine, comprising:

the winding mechanism comprises at least one winding shaft;

the bearing plate comprises a first bearing sub-plate and a second bearing sub-plate, the first bearing sub-plate is positioned at the first end part of the winding shaft, the second bearing sub-plate is positioned at the second end part of the winding shaft, and the second bearing sub-plate is detachably connected with the second end part;

the supporting mechanism is positioned on one side of the first bearing daughter board and detachably connected with the first bearing daughter board, and the supporting mechanism comprises at least one bearing component, a connecting piece and a telescopic component; the bearing assembly comprises at least one sliding block, a sliding rail and a fixing piece, the sliding block is connected with the sliding rail in a sliding mode, the fixing piece is located on one side, away from the sliding rail, of the sliding block, and the fixing piece is connected with the sliding block; the connecting piece is detachably connected with one side of the fixed piece, which is far away from the sliding block, and the relative position of the connecting piece and the fixed piece is adjustable; the telescopic component comprises a telescopic end, and the telescopic end of the telescopic component is connected with the connecting piece.

In some embodiments, the fixing member includes a plurality of threaded holes arranged along a length direction of the fixing member, the end of the connecting member connected to the fixing member is provided with a threaded hole, and the fixing member and the connecting member are connected by a screw.

In some embodiments, the fixing member includes a position adjustment plate including a plurality of the screw holes and a catching rod, and the position adjustment plate is connected with the connecting member by a screw; the clamping rod is positioned at one end of the position adjusting plate close to the winding shaft; the shape of one end of the position adjusting plate close to the winding shaft is matched with that of the winding shaft; the clamping rod is telescopic, and when the supporting mechanism supports the winding mechanism, the position adjusting plate and the clamping rod clamp the winding shaft.

In some embodiments, the telescopic assembly comprises a telescopic cylinder and a telescopic rod, the telescopic cylinder pushes the telescopic rod to be telescopic, and one end, far away from the telescopic cylinder, of the telescopic rod is connected with the connecting piece.

In some embodiments, the supporting component includes two sliding blocks, the two sliding blocks are slidably connected to the sliding rail, and a side of the two sliding blocks away from the sliding rail is connected to the fixing component.

In some embodiments, the winding mechanism comprises two winding shafts, the winding shafts being arranged in a vertical direction;

the supporting mechanism comprises two supporting components, the supporting components are connected with one ends of the connecting pieces respectively, and the telescopic components are located between the two supporting components.

In some embodiments, the fixing member includes a plurality of slots arranged along a length direction, the connecting member includes a plurality of protrusions, the slots are matched with the shape of the protrusions, and the fixing member is clamped with the protrusions.

In some embodiments, the fixing member includes a position adjustment plate including a plurality of the screw holes and an adjustment rod, the position adjustment plate being connected with the connecting member by screws; the adjusting rod is located the position adjusting plate is close to the one end of rolling axle, the position adjusting plate is provided with the screw hole, the adjusting rod is provided with the screw thread, the one end of adjusting the pole with the position of screw hole is adjustable, the position adjusting plate is close to the shape of the one end of rolling axle with rolling axle looks adaptation works as supporting mechanism supports during the winding mechanism, the position adjusting plate with the adjusting rod is right rolling axle centre gripping.

In some embodiments, the slitting machine further comprises an auxiliary discharge mechanism; the auxiliary unloading mechanism is close to the first end of the winding shaft, the auxiliary unloading machine comprises at least one unloading shaft, a swing arm and an unloading cylinder, the unloading shaft is detachably connected with the winding shaft, the swing arm is detachably connected with the unloading shaft, the unloading cylinder is located at one end, away from the unloading shaft, of the swing arm, and the cylinder pushes the swing arm to reciprocate.

In some embodiments, the slitting machine further comprises an infrared mechanism located on one side of the take-up reel, the infrared mechanism including an infrared support and a plurality of infrared emitters arranged along the infrared support.

According to the support mechanism of the splitting machine, the fixing piece is detachably connected with the connecting piece, and fine adjustment can be realized on the relative position of the connecting piece and the fixing piece, so that the fitting degree of the support mechanism and the winding shaft is improved, and the problem that the fit of the support mechanism and the winding mechanism is easy to deviate is solved. Furthermore, when the position of the winding shaft in the winding mechanism is adjusted, the relative position of the connecting piece and the fixing piece can be finely adjusted, and the supporting mechanism can still be well matched with the winding shaft after the position of the winding shaft is adjusted to support the winding shaft, so that the winding work of the splitting machine is smoothly carried out.

Drawings

Fig. 1 is a schematic structural diagram of a slitting machine provided by the utility model.

Fig. 2 is another schematic structural diagram of the splitting machine provided by the utility model.

Fig. 3 is a schematic structural diagram of the supporting mechanism of the present invention.

Fig. 4 is another structural schematic diagram of the supporting mechanism of the present invention.

FIG. 5 is a schematic view of a supporting mechanism supporting a winding mechanism according to the present invention.

FIG. 6 is a schematic view of the present invention showing the support mechanism without supporting the take-up mechanism.

Fig. 7 is a schematic view of a partial structure of the slitting machine provided by the utility model.

Fig. 8 is a schematic view of the present invention in a configuration in which the slitting machine is operating to load stock material.

Fig. 9 is another schematic view of the present invention in operation with a slitting machine loaded with stock material.

In which the figures are as follows: 1. splitting machine; 10. a support mechanism; 11. a holding assembly; 111. a slider; 112. A slide rail; 113. a fixing member; 1131. a position adjusting plate; 1132. a clamping rod; 12. a connecting member; 13. a telescoping assembly; 131. a telescopic cylinder; 132. a telescopic rod; 20. a winding mechanism; 21. a winding shaft; 21a, a first end; 21b, a second end; 22. a winding motor; 24. a coil guide frame; 30. A bearing plate; 40. an auxiliary discharge mechanism; 41. a discharge shaft; 42. swinging arms; 43. a discharge cylinder; 50. an unwinding mechanism; 51. unwinding wheels; 52. an unwinding cylinder; 60. a film feeding mechanism; 61. a transfer shaft; 70. a film cutting mechanism; 71. cutting the membrane bracket; 72. a cutter; 80. an infrared mechanism; 81. An infrared mount; 82. an infrared emitter; a. a threaded hole, x, a first direction; y, a second direction; z, third direction.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

It is to be noted that, in the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the utility model.

Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, for example, as being fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

As shown in fig. 1, the slitting machine 1 according to the embodiment of the present application includes a supporting mechanism 10, a winding mechanism 20, a bearing plate 30, and an auxiliary discharging mechanism 40. The winding mechanism 20 is used for winding a slit product such as a film, paper or cloth. The winding mechanism 20 includes two winding shafts 21, winding motors 22 in the same number as the winding shafts 21, and a winding guide frame 23. The take-up reel 21 is arranged in a one-over-one configuration. The take-up reel 21 includes a first end 21a and a second end 21 b. The first end portion 21a of the take-up reel 21 is detachably connected to the auxiliary discharging mechanism 40. The second end 21b of the take-up shaft 21 is electrically connected to the take-up motor 22. The winding motor 22 pushes the winding shaft 21 to rotate. The winding guide frame 23 is arranged corresponding to the winding shaft 21. The coil guide frame 23 plays a role in applying pressure when the product is rolled, so that the product can be kept flat in the rolling process. The bearing plates 30 are located on both sides of the take-up shaft 21. The load bearing plate 30 comprises a first load bearing sub-plate 31 and a second load bearing sub-plate 32. The first load bearing sub-plate 31 is located at the first end 21a of the take-up reel 21. The second load bearing sub-panel 32 is located at the second end 21b of the take-up reel 21. A second load bearing sub-panel 32 is removably connected to the second end 21 b. The wrap-up electrode is located outside the second load bearing sub-panel 32. The support mechanism 10 is located on a side of the first load-bearing daughter board 31 adjacent to the auxiliary discharge mechanism 40. The support mechanism 10 is connected to a side of the first load-bearing daughter board 31 adjacent the auxiliary discharge mechanism 40. Specifically, the support mechanism 10 and the first load-bearing sub-plate 31 may be connected by screws. The auxiliary discharging mechanism 40 is adjacent to the first end portion 21a of the take-up reel 21. The auxiliary discharger includes at least one discharging shaft 41, a swing arm 42, and a discharging cylinder 43. The unloading shaft 41 is detachably connected with the take-up shaft 21. The swing arm 42 is detachably connected to the discharge shaft 41. The discharge cylinder 43 is located at the end of the swing arm 42 remote from the discharge shaft 41. The cylinder drives the swing arm 42 to reciprocate.

When the machine 1 is in operation, the support mechanism 10 supports one end of the take-up reel 21 in a first direction x, moving towards the take-up reel 21. The supporting mechanism 10 holds the take-up reel 21 so that the take-up reel 21 operates normally. After the winding is completed, the supporting mechanism 10 supports one end of the winding shaft 21 to move towards one end far away from the winding shaft 21, the product is moved to the auxiliary discharging mechanism 40 from the winding shaft 21, and the auxiliary discharging mechanism 40 finishes the discharging operation of the product. When the winding work is performed again, the supporting mechanism 10 supports one end of the winding shaft 21 to move toward one end of the winding shaft 21, and the supporting mechanism 10 supports the winding shaft 21, and the process is repeated.

As shown in fig. 1 and 2, when the product moves to the auxiliary discharge mechanism 40, the auxiliary discharge mechanism 40 is disconnected from the take-up reel 21 to facilitate the discharge of the product. When the product is unloaded, the end of the supporting mechanism 10 holding the winding shaft 21 can move towards the winding shaft 21, and the supporting mechanism 10 supports the winding shaft 21 again. The discharge process of the auxiliary discharge mechanism 40 is as follows: the discharging cylinder 43 pushes the swing arm 42 to move in the second direction y toward the side far away from the winding shaft 21, the swing arm 42 pushes the discharging shaft 41 to rotate clockwise from the second direction y to the first direction x, and the swing arm 42 drives the discharging shaft 41 to move toward the direction close to the ground, so that the product can be discharged conveniently. After the worker finishes unloading the product, the swing arm 42 drives the unloading shaft 41 to move in the direction away from the bottom surface, meanwhile, the swing arm 42 drives the unloading shaft 41 to rotate anticlockwise from the first direction x to the second direction y, the unloading cylinder 43 pushes the swing arm 42 to move on the second direction y toward one side close to the winding shaft 21, and the unloading shaft 41 is connected with the winding shaft 21.

As shown in fig. 3 and 4, the supporting mechanism 10 provided by the present invention comprises a supporting member 11 corresponding to the take-up reel 21, a connecting member 12 and a telescoping member 13. A connecting member 12 connects the support member 11 to the telescoping member 13 at one end thereof. The telescoping assembly 13 moves the connecting member 12 and the supporting assembly 11 when telescoping.

The supporting member 11 includes two sliding blocks 111, a sliding rail 112 and a fixing member 113. The slider 111 is slidably connected to the slide rail 112. The fixing member 113 is located on a side of the slider 111 away from the slide rail 112. The fixing member 113 is connected to the slider 111. Through setting up two sliders 111 at bearing subassembly 11, improved the degree of agreeing with of mounting 113 and slide rail 112, when flexible subassembly 13 drove bearing subassembly 11 and removes, mounting 113's removal can become more smooth and easy.

The fixing member 113 includes a position adjustment plate 1131 and a catching rod 1132. One side of the position adjusting plate 1131 is connected to the slider 111, and the side of the position adjusting plate 1131 away from the slider 111 is detachably connected to the connecting member 12. Wherein, the relative position of the connecting piece 12 and the position adjusting plate 1131 is adjustable.

The position adjustment plate 1131 includes a plurality of screw holes a. The plurality of screw holes a are arranged in the longitudinal direction of the position adjustment plate 1131 and in the direction perpendicular to the length of the adjustment plate. One end of the connecting member 12 is detachably connected to a side of the fixing member 113 away from the slider 111. The relative position of the connecting member 12 and the fixing member 113 is adjustable. Specifically, the end position of the connecting member 12 is provided with a threaded hole a corresponding to the position adjustment plate 1131, and the position adjustment plate 1131 and the connecting member 12 are detachably connected by screws. The end of the connecting member 12 can be aligned with the threaded holes a of the position adjusting plate 1131 at different positions, and connected by screws, so as to adjust the positions of the fixing member 113 and the connecting member 12.

The shape of one end of the position adjusting plate 1131 close to the winding shaft 21 is adapted to the winding shaft 21. Specifically, one end of the winding shaft 21 is arc-shaped. The engaging rod 1132 is located at one end of the position adjusting plate 1131 near the take-up reel 21. The position adjustment plate 1131 and the engagement rod 1132 cooperatively engage and hold the take-up reel 21. The engaging rod 1132 is retractable. When the winding mechanism 20 is supported by the support mechanism 10, the engaging rod 1132 is extended, and the engaging rod 1132 is pushed out from the end of the position adjustment plate 1131, so that the winding shaft 21 is clamped by the position adjustment plate 1131 and the engaging rod 1132. The expansion and contraction of the engagement rod 1132 may be adjusted by an engagement rod cylinder 1132 p.

The end of the connecting member 12 is detachably connected to the side of the fixing member 113 away from the slider 111. The relative position of the connecting member 12 and the fixing member 113 is adjustable.

The telescopic component 13 is positioned between the two supporting components 11, and the telescopic end of the telescopic component 13 is connected with the connecting piece 12. Specifically, the telescopic assembly 13 includes a telescopic cylinder 131 and a telescopic rod 132. The telescopic cylinder 131 pushes the telescopic rod 132 to extend and retract. One end of the telescopic rod 132 far away from the telescopic cylinder 131 is connected with the connecting piece 12 through a screw.

When the telescopic cylinder 131 pushes the telescopic rod 132 to extend, the telescopic rod 132 is connected with the connecting member 12. The extension rod 132 moves the connecting member 12. The connecting rod is connected with the fixing member 113, and the connecting member 12 drives the fixing member 113 to move.

As shown in fig. 3 to 6, the slide rail 112 is connected to the first load bearing daughter board 31 when the support mechanism 10 holds the take-up reel 21. The slide rail 112 and the first load-bearing daughter board 31 can be connected through screws. The sliding block 111 is slidably connected with the sliding rail 112, and one end of the sliding block 111 away from the sliding rail 112 is connected with the fixing part 113.

When the slitting machine 1 is wound up, the telescopic cylinder 131 in the telescopic assembly 13 pushes the telescopic rod 132 to extend, and the fixing member 113 is moved to the position of the winding shaft 21 through the slide block 111 and the slide rail 112. The fixing member 113 fixes the take-up reel 21 (fig. 5), thereby supporting the take-up reel 21 by the support mechanism 10.

When the winding is completed, the telescopic rod 132 retracts (fig. 6), the fixing member 113 moves along a position far away from the winding shaft 21 through the slide block 111 and the slide rail 112, and the fixing member 113 is far away from the winding shaft 21, so that the subsequent discharging operation can be performed.

As shown in fig. 1 and 7, the splitting machine 1 further includes an unwinding mechanism 50, a film feeding mechanism 60, a film cutting mechanism 70 and an infrared mechanism 80.

The unwinding mechanism 50 is located on one side of the winding mechanism 20 close to the ground. The unwinding mechanism 50 includes an unwinding wheel 51 and an unwinding cylinder 52. The unwind reel 51 is used to grip a roll of stock material. The unwinding cylinder 52 may push the unwinding wheel 51 to reciprocate in the first direction x and the third direction z for loading and unloading the raw material.

The film feeding mechanism 60 is located on a side of the winding mechanism 20 away from the unwinding mechanism 50. The film feeding mechanism 60 includes a plurality of conveying shafts 61. The two ends of the transmission shaft 61 are respectively connected with the first bearing sub-board 31 and the second bearing sub-board 32. The film feeding mechanism 60 is used to feed the raw material to the film cutting mechanism 70 and the cut product to the winding mechanism 20.

The film cutting mechanism 70 is positioned on one side of the winding mechanism 20 close to the film feeding mechanism 60. The film cutting mechanism 70 comprises a film cutting bracket 71 and a plurality of cutters 72. The two ends of the film cutting bracket 71 are respectively connected with the first bearing sub-board 31 and the second bearing sub-board 32. A plurality of cutters 72 are arranged at intervals on the film cutting support 71. Wherein the distance between the adjacent cutters 72 is set according to the specification of the final product, and the present invention is not particularly limited.

The infrared mechanism 80 is located at the end of the support plate away from the ground. The infrared mechanism 80 includes an infrared holder 81 and a plurality of infrared emitters 82. Several infrared emitters 82 are arranged along the infrared support 81.

Before the slitting machine 1 works, the raw materials need to be manually penetrated into the film from the film feeding mechanism to the winding mechanism, so that the position of the slit film on the winding mechanism is conveniently positioned, the infrared ray mechanism 80 is arranged, the emitted infrared ray is used as a positioning reference auxiliary line, the infrared ray emitter 82 can be arranged on the infrared ray support 81 in a slidable mode, and the position of a worker can be adjusted according to the specification of the final slit product.

As shown in fig. 8 and 9, the slitting machine 1 according to the utility model operates as follows: after the unwinding mechanism 50 is loaded with the raw material, the film feeding mechanism 60 feeds the raw material to the film cutting mechanism 70 through a plurality of feeding shafts 61. After the film cutting mechanism 70 cuts the raw material, the middle conveying shaft 61 of the film feeding mechanism 60 delivers the product to different winding shafts 21 of the winding mechanism 20 for winding. After the rolling is finished, the discharging mechanism discharges materials, and the process is repeated.

In the present invention, the supporting mechanism may be provided with only one slider 111. The material of the splitting machine 1 can be saved, and the manufacturing cost of the splitting machine 1 is reduced.

In some embodiments, the fixing member 113 may include a plurality of slots (not shown) arranged along the length direction. The connector 12 may include a plurality of bosses (not shown). The clamping groove is matched with the shape of the protruding part. The fixing member 113 is connected to the protruding portion in a snap-fit manner.

In some embodiments, the fixing member 113 includes a position adjustment plate 1131 and an adjustment lever, and the position adjustment plate 1131 includes a plurality of threaded holes a (not shown). The position adjustment plate 1131 is connected to the connecting member 12 by screws. The adjusting rod is positioned at one end of the position adjusting plate 1131 close to the winding shaft 21. The position adjustment plate 1131 is provided with a threaded hole a (not shown). The adjustment rod is provided with a screw thread (not shown in the figures). One end of the adjusting rod and the position of the threaded hole a can be adjusted. The shape of one end of the position adjusting plate 1131 close to the winding shaft 21 is adapted to the winding shaft 21. When the support mechanism 10 supports the winding mechanism 20, the position adjustment plate 1131 and the adjustment lever clamp the winding shaft 21. Specifically, the adjusting rod adjusts the relative position with the position adjusting plate 1131 through the screw thread and the threaded hole a, so that the position adjusting plate 1131 and the adjusting rod clamp the winding shaft 21.

The splitting machine 1 of the present application is illustrated in fig. 1, but is not limited thereto. The manufacturer can design the splitting machine 1 into other structures according to the specific requirements of the product.

The splitting machine 1 of the present invention is exemplified by a biaxial machine, and therefore, the supporting mechanism 10 of the present invention is exemplified by providing two supporting mechanisms. But not as a limitation of the utility model. The support mechanism 10 may be provided with one, two or more holding mechanisms.

The end of the connecting element 12 and the fixing element 113 are connected by four screws, but the utility model is not limited thereto. The end position of the connecting member 12 and the fixing member 113 may be connected by one, two or more screws.

According to the utility model, the fixing piece provided with the supporting mechanism is detachably connected with the connecting piece, and the relative position of the connecting piece and the fixing piece can be finely adjusted, so that the degree of fit between the supporting mechanism and the winding shaft is improved, and the problem that the deviation is easy to occur in the fit between the supporting mechanism and the winding mechanism is avoided. Furthermore, when the position of the winding shaft in the winding mechanism is adjusted, the relative position of the connecting piece and the fixing piece can be finely adjusted, and the supporting mechanism can still be well matched with the winding shaft after the position of the winding shaft is adjusted, so that the winding shaft is supported, and the smooth winding work of the splitting machine is favorably ensured.

The foregoing is a more detailed description of the utility model in connection with specific preferred embodiments and it is not intended that the utility model be limited to these specific details. For those skilled in the art to which the utility model pertains, several simple deductions or substitutions can be made without departing from the spirit of the utility model, and all shall be considered as belonging to the protection scope of the utility model.

Claims (10)

1. A slitter, comprising:

the winding mechanism comprises at least one winding shaft;

the bearing plate comprises a first bearing sub-plate and a second bearing sub-plate, the first bearing sub-plate is positioned at the first end part of the winding shaft, the second bearing sub-plate is positioned at the second end part of the winding shaft, and the second bearing sub-plate is detachably connected with the second end part;

the supporting mechanism is positioned on one side of the first bearing daughter board and detachably connected with the first bearing daughter board, and the supporting mechanism comprises at least one bearing component, a connecting piece and a telescopic component; the supporting assembly comprises at least one sliding block, a sliding rail and a fixing piece, the sliding block is slidably connected with the sliding rail, the fixing piece is positioned on one side, away from the sliding rail, of the sliding block, and the fixing piece is connected with the sliding block; the connecting piece is detachably connected with one side of the fixed piece, which is far away from the sliding block, and the relative position of the connecting piece and the fixed piece is adjustable; the telescopic component comprises a telescopic end, and the telescopic end of the telescopic component is connected with the connecting piece.

2. The slitting machine as claimed in claim 1 wherein the fixing member includes a plurality of threaded holes formed along a length of the fixing member, the connecting member has a threaded hole formed at an end thereof connected to the fixing member, and the fixing member and the connecting member are connected by a screw.

3. The slitting machine as claimed in claim 2 wherein the fixture includes a position adjustment plate and a snap bar, the position adjustment plate including a plurality of the threaded holes, the position adjustment plate being connected with the connecting member by screws; the clamping rod is positioned at one end of the position adjusting plate close to the winding shaft; the shape of one end of the position adjusting plate close to the winding shaft is matched with that of the winding shaft; the clamping rod is telescopic, and when the supporting mechanism supports the winding mechanism, the position adjusting plate and the clamping rod clamp the winding shaft.

4. The slitting machine as claimed in claim 1 wherein the telescoping assembly includes a telescoping cylinder and a telescoping rod, the telescoping cylinder pushes the telescoping rod to telescope, and an end of the telescoping rod remote from the telescoping cylinder is connected to the connecting member.

5. The slitting machine as claimed in claim 1 wherein the carriage assembly includes two of the blocks, the two blocks being slidably coupled to the rail, and a side of the two blocks remote from the rail being coupled to the fixture.

6. The slitting machine of claim 1 wherein the take-up mechanism includes two of the take-up spools, the take-up spools being vertically aligned;

the supporting mechanism comprises two supporting components, the supporting components are connected with one end of the connecting piece respectively, and the telescopic components are located between the two supporting components.

7. The slitting machine as claimed in claim 1 wherein the fixture includes a plurality of slots along a length direction, the connector includes a plurality of protrusions, the slots are adapted to the shape of the protrusions, and the fixture is engaged with the protrusions.

8. The slitting machine as claimed in claim 2 wherein the fixing member includes a position adjustment plate including a plurality of the threaded holes and an adjustment lever coupled with the coupling member by screws; the adjusting rod is located the position adjusting plate is close to the one end of rolling axle, the position adjusting plate is provided with the screw hole, the adjusting rod is provided with the screw thread, the one end of adjusting the pole with the position of screw hole is adjustable, the position adjusting plate is close to the shape of the one end of rolling axle with rolling axle looks adaptation works as supporting mechanism supports during the winding mechanism, the position adjusting plate with the adjusting rod is right rolling axle centre gripping.

9. The slitting machine of claim 1 wherein the slitting machine further comprises an auxiliary discharge mechanism; the auxiliary unloading mechanism is close to the first end portion of the winding shaft, the auxiliary unloading machine comprises at least one unloading shaft, a swinging arm and an unloading cylinder, the unloading shaft is detachably connected with the winding shaft, the swinging arm is detachably connected with the unloading shaft, the unloading cylinder is located at one end, away from the unloading shaft, of the swinging arm, and the cylinder pushes the swinging arm to reciprocate.

10. The slitting machine as claimed in claim 1 further including an infrared mechanism located on one side of the take-up reel, the infrared mechanism including an infrared support and a plurality of infrared emitters, the infrared emitters being aligned along the infrared support.

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