CN211868013U - Special axle cutter frame of cross cutting with actuating mechanism - Google Patents

Abstract

The utility model relates to a special axle cutter saddle of cross cutting with actuating mechanism, comprising a base plate, the both sides fixedly connected with curb plate of bottom plate, the curb plate is equipped with the holding tank, sliding connection has three pairs of stoppers in the holding tank, the stopper upside is equipped with the hold-down mechanism of stopper downwards, be equipped with the drive roll from bottom to top between the curb plate in proper order, cross cutting mating roll and the special axle of cross cutting, the drive roll, cross cutting mating roll and the special axle of cross cutting rotate with the stopper respectively and are connected, the drive roll is connected with first gear, cross cutting mating roll is connected with the second gear of being connected with first gear engagement, cross cutting special hub connection has the third gear of being connected with second gear engagement, drive roll one end is connected with and drives drive roll pivoted actuating mechanism. The utility model discloses have and carry out the laborsaving effect of cross cutting during operation to the cardboard.

Description

Special axle cutter frame of cross cutting with actuating mechanism

Technical Field

The utility model belongs to the technical field of the technique of cutter saddle and specifically relates to a special axle cutter saddle of cross cutting with actuating mechanism is related to.

Background

The round-pressing round-die cutting knife roller is firstly applied to the printing industry, is a high-efficiency die cutting tool for replacing flat-pressing flat blanking processing, and can also be called a die cutting special shaft. When the round-pressing round die cutting knife roller works, the round-pressing round die cutting knife roller is arranged on the cutting knife rest.

The current chinese utility model patent of grant bulletin No. CN208930458U discloses a circle die-cutting knife rest is pressed to circle, bottom plate including the level setting, bottom plate both sides fixedly connected with curb plate still includes lower roll and the die-cutting roller that from top to bottom sets up between two curb plates, still is provided with down the compression roller on the die-cutting roller, and the top of curb plate still is provided with the subassembly that pushes down that is used for pushing down the compression roller. The vertical holding tank of having seted up of upper surface of curb plate, the spout has been seted up along the length direction of holding tank on the lateral wall of holding tank. The lower roll, the die-cutting roll and the lower pressure roll are respectively sleeved with a limiting block matched with the containing groove, and the lower roll, the die-cutting roll and the lower pressure roll are respectively connected with the limiting block in a rotating mode. The stopper towards one side fixedly connected with of spout and the spout slider of mutually supporting for the assembly of stopper and slider can follow the upper surface of curb plate and inject in the holding tank, and slide with the curb plate and be connected. The cover is equipped with the driving gear on the lower roll, and the driving gear passes through the key-type connection with the lower roll, and the cover is equipped with driven gear on the die-cutting roller, and driven gear also passes through the key-type connection with the die-cutting roller, and die-cutting roller and lower roll are each other by making driving gear and driven gear intermeshing. The one end of lower roll is coaxial fixedly connected with handle still, and staff's manual control handle rotates, drives the lower roll and rotates to make lower roll and die-cutting roller rotate towards opposite direction under driving gear and driven gear's drive, can carry out cross cutting work to the cardboard through between lower roll and the die-cutting roller.

The above prior art solutions have the following drawbacks: when the paperboard between the lower roller and the die-cutting roller is subjected to die-cutting, the handle needs to be manually rotated to further rotate the lower roller and the die-cutting roller, so that the die-cutting roller is labor-consuming in the rotating process.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art existence, the utility model aims at providing a special axle cutter saddle of cross cutting with actuating mechanism does not need the manual special axle of messenger's cross cutting of staff to rotate, has the effect of carrying out the cross cutting during operation laborsaving to the cardboard.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme: a cutter holder with a driving mechanism for a die-cutting special shaft comprises a bottom plate, wherein side plates are fixedly connected to two sides of the bottom plate, a containing groove is formed in the lower surface of each side plate, three pairs of stoppers which are vertically distributed are connected in the containing groove in a sliding mode, a pressing mechanism for pressing the stopper at the uppermost side downwards is arranged on the upper side of the stopper at the uppermost side, a driving roller, a die-cutting matching roller and a die-cutting special shaft are sequentially arranged between the side plates from bottom to top, the two ends of the driving roller penetrate through the pair of stoppers at the lowermost side, the two ends of the die-cutting matching roller penetrate through the pair of stoppers at the middle, the two ends of the die-cutting special shaft penetrate through the pair of stoppers at the uppermost side, the driving roller, the die-cutting matching roller and the die-cutting special shaft are respectively and rotatably connected with the stoppers, the driving roller is connected with a first gear, the die-cutting matching, one end of the driving roller is connected with a driving mechanism for driving the driving roller to rotate.

Through adopting above-mentioned technical scheme, the curb plate is connected in the both sides of bottom plate, and the drive roll, cross cutting mating roll and cross cutting special axle rotate with the stopper respectively and are connected, and in the holding tank was arranged in to the stopper, hold-down mechanism pushed down the stopper that cross cutting special axle was connected, and cross cutting special axle that some stoppers that cross cutting special axle was connected drives the special axle of cross cutting and pushes down cross cutting mating roll, and cross cutting mating roll compresses down the drive roll, and first gear is connected with the meshing of second gear, and second gear and third gear meshing are connected. The driving mechanism drives the driving roller to rotate, the driving roller drives the first gear to rotate, the first gear drives the second gear to rotate, the second gear drives the die cutting matching roller to rotate, the third gear drives the die cutting special shaft to rotate, then die cutting is carried out on the paperboard passing through the die cutting rotating shaft and the die cutting matching roller, in the process of die cutting of the paperboard, the die cutting special shaft does not need to be manually rotated, and the effect of saving labor in the process of die cutting of the paperboard is achieved.

The present invention may be further configured in a preferred embodiment as: the base plate downside fixedly connected with base, actuating mechanism includes the first belt pulley that drive roll one end fixed connection has, the base is close to the first connecting plate of one side fixedly connected with of first belt pulley, first connecting plate upside is connected with the motor, motor output shaft fixedly connected with second belt pulley, connect through the belt between first belt pulley and the second belt pulley.

Through adopting above-mentioned technical scheme, when needs cross cutting special axle to rotate, the output shaft of motor drives the second belt pulley and rotates, and the second belt pulley passes through the belt and drives first belt pulley rotation, and first belt pulley drives the drive roll and rotates, and the drive roll and then drive cross cutting special axle and rotate. Through belt transmission, have the advantage that operates steadily, the noise is little in the in-process of carrying out the cross cutting to the cardboard.

The present invention may be further configured in a preferred embodiment as: one side of the base, which is close to the belt, is connected with a tensioning mechanism which can tension the belt.

Through adopting above-mentioned technical scheme, after the belt used a period, straining device carries out tensioning work to the belt, prevents to skid among the belt working process, increases the stability among the belt working process.

The present invention may be further configured in a preferred embodiment as: the tensioning mechanism comprises a second supporting plate fixedly connected with one side of a base close to a belt, a fixed plate is fixedly connected with the upper side of the second supporting plate, the fixed plate penetrates through a fixing bolt with threaded connection, the axis of the fixing bolt is perpendicular to the axis of a motor output shaft, a moving block is connected with the upper side of the second supporting plate in a sliding manner, one side of the moving block close to the fixing bolt is fixedly connected with a pair of second connecting plates, one side of the second connecting plate far away from the moving block is fixedly connected with a third connecting plate, the fixing bolt penetrates through the third connecting plate and is rotatably connected with the third connecting plate, one side of the fixing bolt close to the moving block is fixedly connected with a limiting plate, one side of the moving block far away from the base is fixedly connected with a first connecting rod, and, the tensioning mechanism further comprises a tensioning pulley connected with the belt, and the second connecting rod penetrates through the tensioning pulley and is in rotary connection with the tensioning pulley.

Through adopting above-mentioned technical scheme, when needing to carry out the tensioning to the belt, rotate fixing bolt, fixing bolt drives the limiting plate and moves to the one side of keeping away from the fixed plate, and the limiting plate drives the movable block and moves to the one side of keeping away from the fixed plate. The moving block drives the first connecting rod to move towards one side far away from the fixed plate, the first connecting rod drives the second connecting rod to move towards one side far away from the fixed plate, the second connecting rod drives the tensioning belt pulley to move towards one side far away from the fixed plate, and the tensioning belt pulley drives the belt to move towards one side far away from the fixed plate so as to tension the belt.

The present invention may be further configured in a preferred embodiment as: the lateral wall of holding tank is equipped with vertical spout, one side fixedly connected with that the stopper is close to the spout and spout sliding connection's slider.

Through adopting above-mentioned technical scheme, the slider is arranged in the spout and slider and spout sliding connection, and the slider increases the stability when stopper and holding tank are connected.

The present invention may be further configured in a preferred embodiment as: the pressing mechanism comprises a first supporting plate connected with the upper surface of the side plate through a bolt, the first supporting plate is in threaded connection with a threaded rod vertically arranged, the lower end of the threaded rod is connected with a pressing block, and the pressing block is connected with a limiting block upper surface in butt joint with the die-cutting special shaft.

Through adopting above-mentioned technical scheme, when needing the special axle of cross cutting to compress tightly cross cutting mating roll, rotate the threaded rod, the threaded rod downstream, the threaded rod drives the compact heap downstream, and the compact heap compresses tightly the stopper that the special axle of cross cutting is connected with downwards and then makes the special axle of cross cutting compress tightly cross cutting mating roll.

The present invention may be further configured in a preferred embodiment as: the threaded rod upper end fixedly connected with rolling disc, rolling disc upper surface eccentric position fixedly connected with dwang.

Through adopting above-mentioned technical scheme, when needs rotate the threaded rod, rotate the dwang, the dwang drives the rolling disc and rotates, and the dwang makes the process of rotating the threaded rod more smooth and easy.

The present invention may be further configured in a preferred embodiment as: the lower surface of the pressing block is fixedly connected with a rubber pad.

Through adopting above-mentioned technical scheme, the rubber pad is located between compact heap and the stopper, and the rubber pad increases the stability when compact heap compresses tightly the stopper that the cross cutting special shaft is connected with.

The present invention may be further configured in a preferred embodiment as: the lower surface of the moving block is rotatably connected with a roller, and the roller is in rolling connection with the upper surface of the second supporting plate.

By adopting the technical scheme, when the moving block moves, the idler wheel rotates, and the idler wheel enables the moving process of the moving block to be smoother.

The present invention may be further configured in a preferred embodiment as: and the second connecting rod is in threaded connection with a limiting nut which blocks one side of the tensioning belt pulley, which is far away from the first connecting rod.

Through adopting above-mentioned technical scheme, stop nut blocks the tensioning pulley, increases the stability when second connecting rod and tensioning pulley rotate to be connected.

To sum up, the utility model discloses a following at least one useful technological effect:

1. in the process of die cutting of the paperboard, the special die cutting shaft does not need to be manually rotated, so that the effect of saving labor in the process of die cutting of the paperboard is achieved;

2. the tensioning belt wheel enables the belt to be tensioned, and stability of the belt in the working process is improved.

Drawings

FIG. 1 is a schematic structural diagram of the first embodiment;

FIG. 2 is a schematic view of a chute according to one embodiment;

FIG. 3 is a schematic view of a rubber mat according to one embodiment;

FIG. 4 is a schematic structural view of the second embodiment;

fig. 5 is a schematic view showing a limiting plate according to the second embodiment.

Reference numerals: 1. a base plate; 11. a base; 2. a side plate; 21. accommodating grooves; 211. a limiting block; 22. a chute; 221. a slider; 23. a first support plate; 231. a threaded rod; 232. a compression block; 233. a rubber pad; 234. rotating the disc; 235. rotating the rod; 3. a drive roll; 31. a first gear; 32. a first pulley; 4. die-cutting a mating roller; 41. a second gear; 5. die cutting special shafts; 51. a third gear; 6. a first connecting plate; 61. a support block; 62. a motor; 621. a second pulley; 63. a belt; 7. a second support plate; 71. a fixing plate; 72. fixing the bolt; 721. a limiting plate; 73. a moving block; 731. a second connecting plate; 732. a third connecting plate; 733. a first connecting rod; 734. a second connecting rod; 7341. a limit nut; 735. a tensioner pulley; 736. and a roller.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows: as shown in fig. 1, for the utility model discloses a special axle cutter frame of cross cutting with actuating mechanism, including bottom plate 1, the both sides of bottom plate 1 are fixed with curb plate 2 respectively, and bottom plate 1's lower surface still fixedly connected with base 11.

As shown in fig. 1 and 2, the upper surface of the side plate 2 is provided with a receiving groove 21, and the side walls of the receiving groove 21 are respectively provided with a sliding groove 22 from top to bottom. A driving roller 3, a die-cutting matching roller 4 and a die-cutting special shaft 5 are sequentially arranged between the two side plates 2 from bottom to top, two ends of the driving roller 3, the die-cutting matching roller 4 and the die-cutting special shaft 5 respectively penetrate through limiting blocks 211, and the driving roller 3, the die-cutting matching roller 4 and the die-cutting special shaft 5 are respectively in rotating connection with the limiting blocks 211.

The limiting block 211 is arranged in the accommodating groove 21, and the limiting block 211 is slidably connected with the accommodating groove 21. One side of the limiting block 211 close to the sliding groove 22 is fixedly connected with a sliding block 221 (refer to fig. 3), the sliding block 221 is arranged in the sliding groove 22, the sliding block 221 is connected with the sliding groove 22 in a sliding mode, and the sliding block 221 increases stability when the limiting block 211 is connected with the accommodating groove 21.

As shown in fig. 1 and 2, the driving roll 3 is sleeved with a first gear 31, the first gear 31 is connected with the driving roll 3 through a key (prior art), the die-cutting matching roll 4 is sleeved with a second gear 41, the second gear 41 is connected with the die-cutting matching roll 4 through a key (prior art), the die-cutting dedicated shaft 5 is sleeved with a third gear 51, and the third gear 51 is connected with the die-cutting matching roll 4 through a key (prior art).

The upper side of the die cutting special shaft 5 is provided with a pressing mechanism, the pressing mechanism presses a limiting block 211 connected with the die cutting special shaft 5 downwards, the limiting block 211 connected with the die cutting special shaft 5 drives the die cutting special shaft 5 to press a die cutting matching roller 4 downwards, and the die cutting matching roller 4 presses a driving roller 3 downwards. When the die-cutting companion roll 4 presses the drive roll 3, the first gear 31 and the second gear 41 are engaged with each other. When the die-cutting exclusive shaft 5 presses the die-cutting registration roller 4, the second gear 41 and the third gear 51 are engaged with each other.

As shown in fig. 1 and 2, one end of the driving roller 3 close to the first gear 31 is disposed through the limiting block 211, and one end of the driving roller 3 close to the first gear 31 is connected to a driving mechanism. The driving mechanism drives the driving roller 3 to rotate, the driving roller 3 drives the first gear 31 to rotate, the first gear 31 drives the second gear 41 to rotate, and the second gear 41 drives the die-cutting matching roller 4 to rotate. The second gear 41 drives the third gear 51 to rotate, the third gear 51 drives the die-cutting special shaft 5 to rotate, and then the paper board passing between the die-cutting special shaft 5 and the die-cutting matching roller 4 is die-cut. In the process of die cutting of the paperboard, the special die cutting shaft 5 does not need to be manually rotated, and the effect of saving labor in the process of die cutting of the paperboard is achieved.

The driving mechanism comprises a first belt pulley 32 fixedly connected with one end, close to the first gear 31, of the driving roller 3, a first connecting plate 6 fixedly connected with a vertical side face, close to the first belt pulley 32, of the base 11, a supporting block 61 is fixedly connected with the upper side of the first connecting plate 6, and a motor 62 is fixedly connected with the upper side of the supporting block 61. The output shaft of the motor 62 is fixedly connected with a second belt pulley 621, and the first belt pulley 32 and the second belt pulley 621 are connected through a belt 63.

When the die-cutting special shaft 5 is required to rotate, the output shaft of the motor 62 drives the second belt pulley 621 to rotate, the second belt pulley 621 drives the first belt pulley 32 to rotate through the belt 63, the first belt pulley 32 drives the driving roller 3 to rotate, and the driving roller 3 further drives the die-cutting special shaft 5 to rotate. The belt 63 is used for transmission, so that the advantages of smooth operation and low noise are achieved in the process of die cutting of the paperboard.

As shown in fig. 1 and 3, the pressing mechanism includes a first support plate 23 attached to the upper surface of the side plate 2, and bolts are inserted through the first support plate 23 and screwed into the side plate 2 to connect the first support plate 23 to the side plate 2. The pressing mechanism further includes a vertically disposed threaded rod 231, the threaded rod 231 penetrates the first support plate 23 and the threaded rod 231 is threadedly connected with the first support plate 23. The lower extreme fixedly connected with compact heap 232 of threaded rod 231, the lower surface fixedly connected with rubber pad 233 of compact heap 232, the upper surface butt of the stopper 211 that rubber pad 233 lower surface and cross cutting special shaft 5 are connected with. The upper end of the threaded rod 231 is fixedly connected with a rotating disc 234, and the eccentric position of the upper surface of the rotating disc 234 is fixedly connected with a rotating rod 235.

When the die-cutting special shaft 5 is required to press the die-cutting matching roller 4, the rotating rod 235 is rotated, and the rotating rod 235 drives the rotating disc 234 to rotate. The rotating disc 234 drives the threaded rod 231 to rotate, the threaded rod 231 moves downwards, and the threaded rod 231 drives the pressing block 232 to move downwards.

The pressing block 232 presses the limiting block 211 connected with the die-cutting special shaft 5 downwards, so that the die-cutting special shaft 5 presses the die-cutting matched roller 4. The rubber pad 233 is located between the pressing block 232 and the limiting block 211, and the rubber pad 233 increases the stability of the pressing block 232 when pressing the limiting block 211 connected with the die-cutting special shaft 5. Rotating rod 235 allows for a smoother process of rotating threaded rod 231.

The implementation principle of the embodiment is as follows: the rotating rod 235 is rotated, the rotating rod 235 drives the rotating disc 234 and the threaded rod 231 to rotate, the threaded rod 231 drives the pressing block 232 to downwards press the limiting block 211 connected with the die-cutting special shaft 5, and then downwards press the die-cutting special shaft 5, the die-cutting matched roller 4 and the driving roller 3.

The output shaft of the motor 62 drives the second belt pulley 621 to rotate, the second belt pulley 621 drives the first belt pulley 32 to rotate through the belt 63, and the first belt pulley 32 drives the driving roller 3 and the first gear 31 to rotate. The first gear 31 drives the second gear 41 and the die cutting matching roller 4 to rotate, the second gear 41 drives the third gear 51 and the die cutting special shaft 5 to rotate, and the paper boards passing between the die cutting special shaft 5 and the die cutting matching roller 4 are die-cut.

Example two: a special shaft cutter frame with a driving mechanism for die cutting is different from the embodiment in that a tensioning mechanism for tensioning a belt 63 is arranged on one side of a base 11 close to the belt 63, as shown in figure 4.

As shown in fig. 4 and 5, the tensioning mechanism includes a second supporting plate 7 fixedly connected to one side of the base 11 close to the belt 63, and a fixing plate 71 is fixedly connected to the upper side of the second supporting plate 7. The fixing plate 71 is penetrated by a fixing bolt 72, and the fixing bolt 72 is screwed with the fixing plate 71.

The tensioning mechanism further comprises a moving block 73 slidably connected to the upper side of the second support plate 7, and a pair of second connecting plates 731 is fixedly connected to one side of the moving block 73 close to the fixing bolt 72. A third connecting plate 732 is fixedly connected to a side of the second connecting plate 731 away from the moving block 73, and the fixing bolt 72 passes through the third connecting plate 732 and is rotatably connected to the third connecting plate 732.

A limit plate 721 is fixedly connected to one side of the fixing bolt 72 close to the moving block 73, and when the fixing bolt 72 is rotated, the fixing bolt 72 drives the limit plate 721 to move to the side far away from the fixing plate 71. When the limiting plate 721 abuts against the moving block 73, the limiting plate 721 drives the moving block 73 to move to a side away from the fixed plate 71.

As shown in fig. 4 and 5, a first connecting rod 733 is fixedly connected to a side of the moving block 73 away from the base 11, and a second connecting rod 734 is fixedly connected to an end of the first connecting rod 733 away from the moving block 73.

Tensioner mechanism further includes a tensioner pulley 735 coupled to the inside of belt 63, second link 734 passing through tensioner pulley 735 and second link 734 being rotatably coupled to tensioner pulley 735. The portion of the second connecting rod 734 far from the first connecting rod 733 is threaded, the threaded portion of the second connecting rod 734 is threadedly connected with a limiting nut 7341, and the limiting nut 7341 blocks the side of the tensioning pulley 735 far from the first connecting rod 733 to prevent the tensioning pulley 735 from separating from the second connecting rod 734.

As shown in fig. 4 and 5, when the belt 63 is used for a period of time and the belt 63 needs to be tensioned, the fixing bolt 72 is rotated, and the fixing bolt 72 drives the moving block 73 to move to a side away from the fixing plate 71. The moving block 73 drives the first connecting rod 733 to move towards a side far away from the fixed plate 71, and the first connecting rod 733 drives the second connecting rod 734 to move towards a side far away from the fixed plate 71. The second connecting rod 734 drives the tensioning pulley 735 to move away from the fixing plate 71, and the tensioning pulley 735 drives the belt 63 to move away from the fixing plate 71, so as to tension the belt 63. Tensioner pulley 735 tensions belt 63, prevents belt 63 from slipping during operation, and increases stability during operation of belt 63.

The lower surface of the moving block 73 is rotatably connected with four rollers 736, and the rollers 736 are in rolling connection with the upper surface of the second supporting plate 7. During the movement of the moving block 73, the roller 736 rotates, and the roller 736 makes the movement of the moving block 73 smoother.

The implementation principle of the embodiment is as follows: when the belt 63 needs to be tensioned, the fixing bolt 72 is rotated, the fixing bolt 72 drives the limiting plate 721 to move towards the side far away from the fixing plate 71, and the limiting plate 721 drives the moving block 73 to move towards the side far away from the fixing plate 71.

The moving block 73 drives the first connecting rod 733 to move towards a side far away from the fixing plate 71, the first connecting rod 733 drives the second connecting rod 734 to move towards a side far away from the fixing plate 71, the second connecting rod 734 drives the tensioning pulley 735 to move towards a side far away from the fixing plate 71, and the tensioning pulley 735 drives the belt 63 to move towards a side far away from the fixing plate 71, so that the belt 63 is tensioned.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. The utility model provides a special axle cutter saddle of cross cutting with actuating mechanism, includes bottom plate (1), the both sides fixedly connected with curb plate (2) of bottom plate (1), the upper surface of curb plate (2) is to having holding tank (21) downwards, three pairs of stopper (211) of vertical distribution of sliding connection in holding tank (21), stopper (211) upside that is located the top is equipped with the hold-down mechanism to pushing down top stopper (211), its characterized in that: a driving roller (3), a die cutting matching roller (4) and a die cutting special shaft (5) are sequentially arranged between the side plates (2) from bottom to top, the two ends of the driving roller (3) penetrate through the pair of limiting blocks (211) at the lowest side, the two ends of the die cutting matching roller (4) penetrate through the pair of limiting blocks (211) in the middle, the two ends of the die cutting special shaft (5) penetrate through the pair of limiting blocks (211) at the highest side, the driving roller (3), the die cutting matching roller (4) and the die cutting special shaft (5) are respectively in rotating connection with the limiting blocks (211), the driving roller (3) is connected with a first gear (31), the die cutting matching roller (4) is connected with a second gear (41) which is meshed with the first gear (31), the die-cutting special shaft (5) is connected with a third gear (51) which is meshed with the second gear (41), one end of the driving roller (3) is connected with a driving mechanism for driving the driving roller (3) to rotate.

2. The special shaft cutter rest with the driving mechanism for the die cutting according to claim 1, wherein: bottom plate (1) downside fixedly connected with base (11), actuating mechanism includes first belt pulley (32) that drive roll (3) one end fixed connection has, base (11) are close to first connecting plate (6) of one side fixedly connected with of first belt pulley (32), first connecting plate (6) upside is connected with motor (62), motor (62) output shaft fixedly connected with second belt pulley (621), connect through belt (63) between first belt pulley (32) and second belt pulley (621).

3. The special shaft cutting tool rest with the driving mechanism for the die cutting according to claim 2, wherein: one side of the base (11) close to the belt (63) is connected with a tensioning mechanism which can tension the belt (63).

4. The special shaft cutter rest with the driving mechanism for the die cutting according to claim 3, wherein: the tensioning mechanism comprises a second supporting plate (7) fixedly connected to one side, close to the belt (63), of a base (11), a fixing plate (71) is fixedly connected to the upper side of the second supporting plate (7), a fixing bolt (72) in threaded connection penetrates through the fixing plate (71), a moving block (73) is connected to the upper side of the second supporting plate (7) in a sliding mode, a pair of second connecting plates (731) is fixedly connected to one side, close to the fixing bolt (72), of the moving block (73), a third connecting plate (732) is fixedly connected to one side, far away from the moving block (73), of the second connecting plate (731), the fixing bolt (72) penetrates through the third connecting plate (732) and is rotatably connected with the third connecting plate (732), a limiting plate (721) is fixedly connected to one side, close to the moving block (73), of the moving block (73) is fixedly connected with a first connecting rod (733), a second connecting rod (734) is fixedly connected to one side of the first connecting rod (733) far away from the moving block (73), the tensioning mechanism further comprises a tensioning pulley (735) connected with the inner side of the belt (63), and the second connecting rod (734) penetrates through the tensioning pulley (735) and is rotatably connected with the tensioning pulley (735).

5. The special shaft cutter holder with driving mechanism for die cutting according to claim 1 or 4, wherein: the lateral wall of holding tank (21) is equipped with vertical spout (22), one side fixedly connected with that stopper (211) are close to spout (22) and spout (22) sliding connection's slider (221).

6. The special shaft cutter rest with driving mechanism for die cutting according to claim 5, wherein: hold-down mechanism includes curb plate (2) upper surface first backup pad (23) that pass through bolted connection, first backup pad (23) threaded connection has threaded rod (231) of vertical setting, threaded rod (231) lower extreme is connected with compact heap (232), stopper (211) upper surface butt that compact heap (232) and cross cutting special axle (5) are connected with.

7. The special shaft cutter holder with driving mechanism for die cutting according to claim 6, wherein: threaded rod (231) upper end fixedly connected with rolling disc (234), surface eccentric position fixedly connected with dwang (235) on rolling disc (234).

8. The special shaft cutter holder with driving mechanism for die cutting according to claim 6, wherein: the lower surface of the pressing block (232) is fixedly connected with a rubber pad (233).

9. The special shaft cutter rest with driving mechanism for die cutting according to claim 4, wherein: the lower surface of the moving block (73) is rotatably connected with a roller (736), and the roller (736) is in rolling connection with the upper surface of the second supporting plate (7).

10. The special shaft cutter rest with driving mechanism for die cutting according to claim 4, wherein: the second connecting rod (734) is in threaded connection with a limiting nut (7341) which blocks one side of the tensioning belt (63) wheel away from the first connecting rod (733).

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