CN215153003U - Full-rotary printing machine - Google Patents

Abstract

The utility model relates to a full rotary press, it includes the printing machine main part and sets up the cutting device between material feeding unit and garbage collection device, cutting device is including setting up in the frame and the cross cutting mechanism of printing machine main part, cross cutting mechanism is including rotating the cross cutting roller that connects in the backing roll of frame and be on a parallel with the backing roll, the cross cutting roller is established and is rotated and connect in the cross cutting section of thick bamboo of cross cutting axle including rotating the cross cutting axle of connecting in the frame and cover, cross cutting section of thick bamboo slides and is connected with the die-cutting rule of two axial distributions, a plurality of adjustment mouths of axial extension are followed to the cross cutting section of thick bamboo, cross cutting rule fixedly connected with is a plurality of connecting rods of wearing to locate the adjustment mouth, be provided with two guiding mechanism that are used for promoting two cross cutting rule respectively and slide in the cross cutting section of thick bamboo. The application can adjust the adaptability according to different products.

Description

Full-rotary printing machine

Technical Field

The application relates to the field of printing equipment, in particular to an all-wheel printing machine.

Background

The prior rotary printing machine is a printing machine for printing on a reel product, the die cutting is a cutting process for cutting materials at redundant parts after printing labels, the die cutting process is to manufacture label printed products or other paper products into a die cutting blade for cutting according to a pre-designed pattern, and the full-wheel printing machine is applied to mass production due to high production efficiency. However, in the production process of an enterprise, the enterprise often has the requirements of small-batch production and large-batch production, so that the enterprise has to purchase and use the all-wheel rotary die cutting machine and the intermittent wheel rotary die cutting machine, and the equipment cost is high.

Chinese patent with application number CN201921044146.0 in the related art discloses a relief satellite type full-wheel-rotation intermittent circular chisel printing machine, which has the technical key points that: the automatic circular chiseling machine comprises a printing machine main body and an intermittent circular chiseling device, wherein the printing machine main body comprises a rack, a central large-pressure cylinder, a feeding device, a waste collecting device, a material receiving device and a plurality of printing units; the central large pressure cylinder is rotationally arranged on the frame; the feeding device, the waste collecting device and the receiving device are arranged on the rack; the intermittent circular chisel device comprises a feeding mechanism and a die cutting mechanism; the feeding mechanism comprises a traction pressing roller set and a swinging roller set; the traction compression roller set comprises a front traction compression roller set and a rear traction compression roller set; the swing roller group comprises a swing front roller and a swing rear roller; the die cutting mechanism comprises a die cutting bottom roller and a magnetic roller, a magnetic die cutting knife is attached to the magnetic roller, and the vertical distance from the starting point to the end point of the magnetic die cutting knife is equal to or less than the perimeter of the magnetic roller.

In view of the above-mentioned related art, the inventor believes that when slitting is performed on products of different specifications, only the corresponding die cutting mechanism can be replaced in the related art, which results in relatively high production cost.

SUMMERY OF THE UTILITY MODEL

In order to be able to do the adjustment of adaptability according to the product of different specifications, this application provides an all round transfer printing machine.

The application provides a pair of full rotary press adopts following technical scheme:

the utility model provides a full rotary press, includes the printing machine main part and sets up the cutting device between material feeding unit and garbage collection device, cutting device is including setting up in the frame and the cross cutting mechanism of printing machine main part, cross cutting mechanism is including rotating the cross cutting roller that connects in the backing roll of frame and be on a parallel with the backing roll, the cross cutting roller is established and is rotated and connect in the cross cutting section of thick bamboo of cross cutting shaft including rotating the cross cutting axle and the cover that connect in the frame, the cross cutting section of thick bamboo slides and is connected with the die-cutting rule of two axial distributions, a plurality of adjustment mouths of axial extension are seted up along to the cross cutting section of thick bamboo, a plurality of connecting rods of wearing to locate the adjustment mouth of cross cutting rule fixedly connected with, be provided with two guiding mechanism that are used for promoting two die-cutting rule respectively to slide in the cross cutting section of thick bamboo.

By adopting the technical scheme, when the positions of the die-cutting cutters need to be adjusted when products with different specifications are printed, the two die-cutting cutters are driven to slide only by the two adjusting mechanisms respectively so as to adjust the distance between the two die-cutting cutters and the positions of the two die-cutting cutters relative to the die-cutting cylinder, so that the products with different specifications are adapted; meanwhile, when the die cutting cylinder rotates, the die cutting cylinder is rotatably connected to the base through the die cutting shaft, and the die cutting knife penetrates through the adjusting opening through the connecting rod so as to limit relative rotation between the die cutting knife and the die cutting cylinder.

Optionally, the die-cutting shaft is of a tubular structure, two the adjustment mechanisms are axially distributed along the die-cutting shaft, the adjustment mechanisms include adjustment shafts and adjustment nuts, the adjustment shafts are connected in the die-cutting shaft in a penetrating mode and are sleeved with the adjustment nuts, the adjustment nuts are connected in the adjustment shafts in a threaded mode, the die-cutting shaft is provided with a plurality of axially extending adjustment ports, a plurality of adjustment rods are fixedly connected with the adjustment nuts and penetrate through the adjustment ports, the adjustment nuts are identical to one end of the adjustment nuts, the adjustment ports are penetrated through the adjustment rods, and one end of the adjustment rods, which penetrates through the die-cutting cylinder, of the die-cutting tool is connected to the adjustment rings in a rotating mode.

By adopting the technical scheme, when the position of the die-cutting rule needs to be adjusted, only one or two adjusting shafts need to be rotated, so that one or two of the two adjusting nuts slide along the axial direction, the sliding adjusting nut drives the adjusting ring to slide along the axial direction through the adjusting rod penetrating through the adjusting opening in the die-cutting shaft, and the sliding adjusting ring drives the die-cutting rule to slide along the extending direction of the adjusting opening through the connecting rod penetrating through the adjusting opening in the die-cutting cylinder, so that the effect of adjusting the position of the die-cutting rule is achieved; meanwhile, the connecting rod is rotationally connected to the adjusting ring, so that the interference generated between the die cutting cylinder and the adjusting ring is relatively small when the die cutting cylinder rotates.

Optionally, the adjustment annular has been seted up at the outer lane border of adjustment ring, the adjustment ring cover is equipped with the go-between that is located the adjustment annular, go-between fixed connection is in a plurality of connecting rods of same die-cutting rule.

By adopting the technical scheme, when the adjusting ring slides axially, the adjusting ring can be clamped in the adjusting ring groove through the connecting ring, so that the possibility that the connecting ring slides out relative to the adjusting ring is limited; meanwhile, the connecting rings can also increase the integrity among a plurality of connecting rods and optimize the stability in use.

Optionally, a connection bearing is arranged between the adjusting ring and the connection ring, and the connection bearing is sleeved on the adjusting ring.

Through adopting above-mentioned technical scheme, connecting bearing can further reduce the hindrance that receives when adjusting ring and go-between rotate relatively to when reducing the die-cutting section of thick bamboo and rotating, interference between go-between and the adjusting ring.

Optionally, the two adjusting shafts are provided with a control member for controlling the connection of the two adjusting shafts.

Through adopting above-mentioned technical scheme, when the position of two die-cutting cutters needs to be adjusted simultaneously, accessible control makes two adjusting shaft connect, only needs to rotate one of them adjusting shaft this moment and can do the adjustment to the position of two die-cutting cutters to optimize the convenience of adjusting the die-cutting cutter position.

Optionally, two the screw thread of adjustment axle revolves to opposite settings, the control includes control shaft and control nut, the control shaft is including the connecting portion that is the polygon prism column structure and the control part that is cylindric structure, connecting portion fixed connection is in the control part, the control hole of adaptation connecting portion is seted up to the adjustment axle, one of them adjustment axle is worn to locate by the connecting portion through the control hole, the control part is located the one end that the adjustment axle center was kept away from to the connecting portion, control nut overcoat and threaded connection are in the control part, control nut rotates to be connected in the adjustment axle.

Through adopting above-mentioned technical scheme, when the position of two die-cutting rule of needs simultaneous adjustment, only need rotate control nut for the control part axial slides and drives connecting portion axial and slide, the epaxial control hole of two adjustment can be worn to locate simultaneously to the connecting portion that the axial slides, when connecting portion can not insert the epaxial control hole of another adjustment simultaneously, only need rotate the adjusting shaft at connecting portion place, can make connecting portion can adapt to the angle in control hole, so that connecting portion insert.

Optionally, one end of each of the two adjusting shafts, which is far away from the corresponding adjusting shaft, penetrates through the die cutting shaft and the machine base, and the control part penetrates through the corresponding adjusting shaft.

Through adopting above-mentioned technical scheme, rotation adjustment axle and the control part that can be comparatively convenient.

Optionally, the frame is seted up two and is the mouth that slides that the opening set up, the axial both ends of die-cutting axle are two respectively and slide the mouth setting down, the both ends of die-cutting axle and backing roll are all rotated and are connected with the sliding block, the sliding block card is established and is slided and connect in sliding the mouth, sliding mouth opening border is provided with and is used for making the elastic component that two sliding blocks laminated mutually in same sliding mouth.

Through adopting above-mentioned technical scheme, die-cutting axle and backing roll all can rotate and slide through the sliding block who connects and connect in the frame, simultaneously under elastic component's effect, can make the die-cutting roller keep towards the trend of backing roll laminating to when making the cross cutting, stability when the cross cutting can be kept to the die-cutting rule.

Optionally, elastic component is including dismantling fixed block and the elastic component of connecting in sliding mouthful opening border, the elastic component includes elastic rod, elasticity piece and a plurality of spring, the elasticity piece rotates to be connected in the elastic rod and is located the intraoral one end that slides, the both ends of spring butt respectively in elasticity piece and two sliding blocks towards the sliding block of sliding mouthful opening one side.

Through adopting above-mentioned technical scheme, two in the same sliding opening can keep the trend of laminating mutually under the effect of spring to stability when can optimizing the cross cutting, simultaneously can also be through rotating the elastic rod, make the elastic rod axial slide, with the flexible volume that changes the spring, thereby to different products, adjustment die-cutting rule is the pressing force of pressfitting in the backing roll under the effect of spring.

Optionally, the elastic block is connected with a plurality of guide rods parallel to the elastic rod in a sliding manner, the guide rods are connected to the elastic block in a sliding manner along the axial direction, the spring is sleeved on the guide rods, two ends of the spring are respectively and fixedly connected to the elastic block and the elastic rod, and the guide rods abut against the sliding blocks facing one side of the sliding opening in the two sliding blocks.

By adopting the technical scheme, the bending of the spring and the possibility of the spring disengaging can be limited under the action of the guide rod.

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

when the positions of the die-cutting cutters need to be adjusted when products with different specifications are printed, the two die-cutting cutters are driven to slide only by the two adjusting mechanisms respectively so as to adjust the distance between the two die-cutting cutters and the positions of the two die-cutting cutters relative to the die cylinder, so that the products with different specifications are adapted; meanwhile, when the die cutting cylinder rotates, the die cutting cylinder is rotatably connected to the base through the die cutting shaft, and the die cutting knife penetrates through the adjusting opening through the connecting rod so as to limit relative rotation between the die cutting knife and the die cutting cylinder.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of a die cutting apparatus according to an embodiment of the present application;

FIG. 3 is an enlarged schematic view of portion A of FIG. 2;

FIG. 4 is a schematic structural diagram of a die cutting device according to an embodiment of the present application;

FIG. 5 is an enlarged schematic view of portion B of FIG. 4;

FIG. 6 is an enlarged schematic view of section C of FIG. 2;

fig. 7 is a schematic structural diagram of a control member in an embodiment of the present application.

Description of reference numerals: 1. a machine base; 11. a sliding port; 111. a sliding groove; 12. a side plate; 13. a base plate; 2. a die-cutting mechanism; 21. a support roller; 22. a die-cutting roller; 221. die cutting a shaft; 222. die cutting the cylinder; 223. an adjusting port; 23. a die-cutting rule; 231. a connecting rod; 232. a connecting ring; 24. connecting a bearing; 25. a sliding block; 251. a guide block; 3. an adjustment mechanism; 31. an adjustment shaft; 311. a control hole; 32. adjusting the nut; 321. an adjusting lever; 33. an adjustment ring; 331. adjusting the ring groove; 4. a control member; 41. a control shaft; 411. a connecting portion; 412. a control unit; 42. a control nut; 5. an elastic component; 51. a fixed block; 52. an elastic member; 521. an elastic rod; 522. an elastic block; 523. a spring; 524. a guide rod; 525. and a cushion block.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses an all-wheel printing machine. Referring to fig. 1 and 2, the all-wheel press includes a press main body including a frame, a central cylinder, a feeding device, an intermittent rotary chisel device, a garbage collecting device, a receiving device, and a plurality of printing units. The central high-pressure barrel, the feeding device, the intermittent circular chisel device, the waste collecting device, the receiving device and the plurality of printing units are all arranged on the rack, and the die cutting device is arranged between the feeding device and the waste collecting device.

Referring to fig. 2 and 3, the die cutting device comprises a base 1 and a die cutting mechanism 2, the base 1 is mounted on a rack and comprises a bottom plate 13 and two side plates 12, the two side plates 12 are arranged in parallel, the side plates 12 are perpendicular to the bottom plate 13, and the side plates 12 are fixedly connected to the bottom plate 13.

The die-cutting mechanism 2 comprises a supporting roller 21 and a die-cutting roller 22 parallel to the supporting roller 21, the supporting roller 21 and the die-cutting roller 22 are vertically distributed, the supporting roller 21 is located below the die-cutting roller 22, and two axial ends of the supporting roller 21 are respectively connected to the two side plates 12 in a rotating mode.

The two axial ends of the support roller 21 are respectively and rotatably connected with the sliding blocks 25 positioned at the middle bottom parts of the two sliding ports 11, so that the support roller 21 is rotatably connected with the side plate 12 through the two sliding blocks 25.

Referring to fig. 2 and 3, the die-cutting roller 22 includes a die-cutting shaft 221 parallel to the support roller 21 and a die-cutting cylinder 222 fitted over the die-cutting shaft 221. The die cutting cylinder 222 is provided with a plurality of adjusting openings 223, the plurality of adjusting openings 223 are divided into two groups, and the plurality of adjusting openings 223 of the same group are arranged around the central axis of the die cutting cylinder 222. The die-cutting cylinder 222 is provided with two annular die-cutting cutters 23, the die-cutting cutters 23 are sleeved on the die-cutting cylinder 222, and the two die-cutting cutters 23 are respectively and correspondingly arranged at positions of the two groups of adjusting openings 223 on the die-cutting cylinder 222.

The die-cutting rule 23 is fixedly connected with a plurality of connecting rods 231 arranged around the central axis of the die-cutting cylinder 222, and the connecting rods 231 are respectively and correspondingly arranged in the plurality of adjusting openings 223 of the same group. The die-cutting cylinder 222 is internally provided with two adjusting mechanisms 3 which respectively push the two die-cutting knives 23 to slide.

When printing is done to the product of different specifications, die-cutting rule 23 can wear to locate adjustment mouth 223 through connecting rod 231 for die-cutting rule 23 slides along the axial of a cross cutting section of thick bamboo 222 and connects in a cross cutting section of thick bamboo 222, and can restrict relative circumferential direction between a cross cutting section of thick bamboo 222 and the die-cutting rule 23 through connecting rod 231, only need to promote the position of two relative cross cutting section of thick bamboos of die-cutting rule 23 and the position between two die-cutting rule 23 respectively through two guiding mechanism 3 this moment, it can to do interval and the position control of adaptability, thereby can effectual optimization be to the adaptability of different specification products.

Referring to fig. 4 and 5, the side plate 12 is provided with a sliding opening 11 with a vertical opening, two vertical side walls of the sliding opening 11 are provided with sliding grooves 111 with vertical colors, and two sliding blocks 25 are arranged in the sliding opening 11. The sliding block 25 is fixedly connected with two guiding blocks 251, and the two guiding blocks 251 on the same sliding block 25 are respectively clamped and connected in the sliding groove 111 in a sliding manner.

During production, the die-cutting rule 23 on the die-cutting roller 22 is attached to the supporting roller 21, the die-cutting rule 23 is matched with the supporting roller 21 to cut the printing material, and in order to reduce the occurrence of incomplete cutting of the printing material caused by micro vibration of the die-cutting roller 22 or the supporting roller 21, the sliding port 11 is provided with the elastic component 5 which enables two sliding blocks 25 in the same sliding port 11 to be attached to each other.

The elastic assembly 5 includes a fixing block 51 and an elastic member 52, and the fixing block 51 is detachably connected to both opening edges of the sliding port 11 by a plurality of bolts. The elastic member 52 includes an elastic rod 521, an elastic block 522 and a plurality of springs 523, wherein the elastic rod 521 vertically penetrates through and is screwed to the fixed block 51.

Referring to fig. 4 and 5, the elastic block 522 is rotatably connected to one end of the elastic rod 521 located in the sliding opening 11, and the elastic block 522 is vertically penetrated and slidably connected with a plurality of guide rods 524. The plurality of springs 523 are respectively sleeved on the plurality of guide rods 524 in a one-to-one correspondence manner, and the lower ends of the plurality of guide rods 524 are fixedly connected with cushion blocks 525. One end of the spring 523 abuts against and is fixedly connected to the elastic block 522, the other end of the spring 523 abuts against and is fixedly connected to the cushion block 525, and the spring 523 is fixedly connected to the guide rod 524 through the cushion block 525. Wherein, the cushion block 525 is abutted against the upper sliding block 25 in the sliding opening 11. The pad 525 is also fixedly connected with a guiding block 251 which is clamped and connected with the sliding groove 111 in a sliding way.

When the die-cutting device is used, the spring 523 enables the cushion block 525 to abut against the sliding block 25, so that the two sliding blocks 25 in the sliding opening 11 can keep a relatively close fit state, and the two die-cutting cutters 23 are driven by the die-cutting shaft 221 and the die-cutting cylinder 222 to keep a fit state with the supporting roller 21, so that the stability during die-cutting is optimized; meanwhile, the extension and contraction of the spring 523 can be guided through the guide rod 524, so that the possibility of disengagement of the spring 523 is reduced; when the pressing force on the supporting roller 21 needs to be adjusted, the elastic rod 521 is rotated to drive the elastic block 522 to axially slide so as to change the expansion amount of the spring 523, thereby changing the pressing force on the sliding block 25.

Referring to fig. 2 and 3, the die cutting shaft 221 is of a tubular structure, the adjusting mechanism 3 includes an adjusting shaft 31 and an adjusting nut 32, the adjusting shafts 31 of the two adjusting mechanisms 3 are arranged at the same central axis, opposite ends of the two adjusting shafts 31 penetrate into the die cutting shaft 221, and ends of the two adjusting shafts 31 far away from each other respectively penetrate through the adjusting shafts 31. The adjusting shaft 31 is rotatably coupled to an inner wall of the adjusting shaft 31 by a plurality of struts. In other embodiments, the adjusting shaft 31 may be replaced with an air cylinder or a hydraulic cylinder, and the telescopic shaft of the air cylinder or the hydraulic cylinder may be fixedly connected to the adjusting nut 32.

The adjusting nut 32 is sleeved and screwed on the adjusting shaft 31, and the die cutting shaft 221 is provided with a plurality of adjusting openings 223 corresponding to the plurality of adjusting openings 223 on the plurality of die cutting cylinders 222. The adjusting nut 32 is fixedly connected with a plurality of adjusting rods 321 arranged around the adjusting nut 32, and the adjusting rods 321 respectively correspond to the adjusting openings 223 on the die cutting shafts 221 one by one and penetrate through the die cutting shafts 221.

Referring to fig. 2 and 3, an adjusting ring 33 is fixedly connected to one end of the adjusting rods 321, which are connected to the same adjusting nut 32, and penetrates through the die cutting shaft 221, and the adjusting ring 33 is sleeved with a connecting ring 232 and is arranged at the same central axis. The coupling ring 232 is fixedly coupled to one end of the same cutting blade 23, through which the plurality of coupling bars 231 penetrate into the die cutting cylinder 222, so that the cutting blade 23 can be rotatably coupled to the adjustment ring 33 through the plurality of coupling bars 231 and the coupling ring 232.

When the position and the distance of the die-cutting knife 23 need to be adjusted adaptively, only one or two adjusting shafts 31 need to be rotated, the adjusting nuts 32 can be rotated and locked under the limitation of the adjusting rods 321, so that one or two adjusting nuts 32 can axially slide, the die-cutting knife 23 is driven to axially slide along the die-cutting cylinder 222 through the connecting ring 232 and the connecting rod 231, and the effect of adjusting the distance between the two die-cutting knives 23 or the position of the die-cutting knife 23 relative to the die-cutting cylinder 222 is achieved.

Referring to fig. 2 and 3, an adjusting ring groove 331 is formed in an outer ring edge of the adjusting ring 33, the adjusting ring groove 331 and the adjusting ring 33 are disposed on the same central axis, and an opening of the adjusting ring groove 331 is disposed in a direction away from a center of the adjusting ring 33. The adjusting ring 33 is sleeved with a connecting bearing 24, and the connecting bearing 24 is positioned in the adjusting ring groove 331. The inner ring of the connection bearing 24 is fixedly connected to the adjustment ring 33, the outer ring of the connection bearing 24 is fixedly connected to the inner ring edge of the connection ring 232, and the connection ring 232 is externally sleeved on the outer ring of the connection bearing 24.

When the die-cutting mechanism is used, the axial slippage of the adjusting ring 33 and the connecting bearing 24 relative to the adjusting ring 33 can be limited through the adjusting ring groove 331, and the relative rotation between the connecting ring 232 and the adjusting ring 33 can be reduced through the connecting bearing 24, so that the interference and the influence generated by the rotation of the die-cutting blade 23 and the die-cutting cylinder 222 by the adjusting mechanism 3 can be effectively reduced when the die-cutting mechanism is used.

Referring to fig. 5 and 6, in addition, in order to facilitate adjustment of the two cutting blades 23, the two adjustment shafts 31 are provided with control members 4 for controlling the connection of the two cutting blades.

Referring to fig. 6 and 7, the control member 4 includes a control shaft 41 and a control nut 42, the control shaft 41 includes a connecting portion 411 having a polygonal prism structure and a control portion 412 having a cylindrical structure, and the connecting portion 411 is fixedly connected to the control portion 412 and disposed on the same central axis. The adjusting shafts 31 are opened with control holes 311 adapted to the connecting portions 411, and the control shaft 41 is disposed in the control hole 311 of one of the adjusting shafts 31.

Referring to fig. 6 and 7, the control part 412 is located at one end of the connecting part 411 away from the centers of the two adjusting shafts 31, one end of the control part 412 away from the connecting part 411 penetrates through the adjusting shafts 31, the control nut 42 is sleeved outside and screwed on one end of the control part 412 penetrating through the adjusting shafts 31, and the control nut 42 is rotatably connected to the adjusting shafts 31. Wherein the thread directions of the two adjusting shafts 31 are opposite.

When two die-cutting rule 23 are adjusted simultaneously and are slided in opposite directions or keep away from mutually, only one of them adjusting shaft 31 needs to be rotated, make and rotate at control nut 42, when driving connecting portion 411 axial through control portion 412 and slide, connecting portion 411 can insert and locate the control hole 311 on another adjusting shaft 31, wear to locate two control holes 311 on two adjusting shafts 31 simultaneously through connecting portion 411, reach the relative circumferential direction's of two adjusting shafts 31 purpose of restriction, then rotate one of them adjusting shaft 31 again, can drive another adjusting shaft 31 and rotate, thereby can drive two adjusting nut 32 simultaneously and slide in opposite directions or keep away from mutually, convenience when optimizing the adjustment.

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

Claims (10)

1. The utility model provides a full rotary press, includes the printing machine main part and sets up the cutting device between material feeding unit and garbage collection device, its characterized in that: the die cutting device comprises a machine base (1) and a die cutting mechanism (2) arranged on a printer main body, wherein the die cutting mechanism (2) is connected with a supporting roller (21) of the machine base (1) and a die cutting roller (22) parallel to the supporting roller (21) in a rotating mode, the die cutting roller (22) is connected with a die cutting shaft (221) of the machine base (1) and a die cutting cylinder (222) connected with the die cutting shaft (221) in a rotating mode through a sleeve in a rotating mode, the die cutting cylinder (222) is connected with die cutting cutters (23) distributed in two axial directions in a sliding mode, a plurality of adjusting openings (223) extending in the axial direction are formed in the die cutting cylinder (222), a plurality of connecting rods (231) penetrating through the adjusting openings (223) are fixedly connected with the die cutting cutters (23), and two adjusting mechanisms (3) used for respectively pushing the two die cutting cutters (23) to slide are arranged in the die cutting cylinder (222).

2. The all-wheel press according to claim 1, wherein: die-cutting axle (221) is the tubular structure, two guiding mechanism (3) are along die-cutting axle (221) axial distribution, guiding mechanism (3) are including wearing to establish and rotate adjusting axle (31) of connecting in die-cutting axle (221) and adjusting nut (32) of locating adjusting axle (31) with the cover, adjusting nut (32) threaded connection is in adjusting axle (31), axially extended adjustment mouth (223) have equally been seted up in die-cutting axle (221), adjusting nut (32) fixedly connected with a plurality of adjusting rod (321) of wearing to locate adjustment mouth (223), it is same one end fixedly connected with adjusting ring (33) that adjusting mouth (223) were worn out in a plurality of adjusting rod (321) on adjusting nut (32), it is same one end rotation connection in adjusting ring (33) that a plurality of connecting rods (231) on die-cutting dish (23) were worn into die-cutting section of thick bamboo (222).

3. The all-wheel press according to claim 2, wherein: adjustment ring groove (331) have been seted up at the outer lane border of adjustment ring (33), adjustment ring (33) cover is equipped with and is located connection ring (232) of adjustment ring groove (331), a plurality of connecting rods (231) of connection ring (232) fixed connection in same die-cutting rule (23).

4. The all-wheel press according to claim 3, wherein: a connecting bearing (24) is arranged between the adjusting ring (33) and the connecting ring (232), and the adjusting ring (33) is sleeved with the connecting bearing (24).

5. The all-wheel press according to claim 2, wherein: the two adjusting shafts (31) are provided with control pieces (4) for controlling the connection of the two adjusting shafts.

6. The all-wheel press according to claim 5, wherein: two the screw thread of adjusting axle (31) is turned to opposite setting, control (4) are including control shaft (41) and control nut (42), control shaft (41) are including connecting portion (411) that are the polygon prism column structure and control portion (412) that are cylindric structure, connecting portion (411) fixed connection is in control portion (412), control hole (311) of adaptation connecting portion (411) are seted up in adjusting shaft (31), one of them adjusting shaft (31) are worn to locate in connecting portion (411) through control hole (311), control portion (412) are located connecting portion (411) and keep away from the one end at adjusting shaft (31) center, control nut (42) overcoat and threaded connection are in control portion (412), control nut (42) are rotated and are connected in adjusting shaft (31).

7. The all-wheel press according to claim 6, wherein: one ends, far away from the two adjusting shafts (31), of the two adjusting shafts respectively penetrate through the die cutting shaft (221) and the machine base (1), and the control part (412) penetrates through the adjusting shafts (31).

8. The all-wheel press according to claim 1, wherein: two sliding openings (11) that are the opening setting are seted up in frame (1), two sliding openings (11) setting down are respectively seted up at die-cutting axle (221) axial both ends, the both ends of die-cutting axle (221) and backing roll (21) are all rotated and are connected with sliding block (25), sliding block (25) card is established and is slided and connect in sliding opening (11), sliding opening (11) opening border is provided with and is used for making two elastic component (5) that sliding block (25) laminated mutually in same sliding opening (11).

9. The all-wheel press according to claim 8, wherein: elastic component (5) are including dismantling fixed block (51) and elastic component (52) of connecting in sliding opening (11) opening border, elastic component (52) include elastic rod (521), elasticity piece (522) and a plurality of spring (523), elasticity piece (522) rotate to be connected in elastic rod (521) and are located the one end in sliding opening (11), the both ends of spring (523) respectively butt in elastic rod (522) and two sliding block (25) towards sliding block (25) opening one side of sliding opening (11).

10. The all-wheel press according to claim 9, wherein: the elastic block (522) is connected with a plurality of guide rods (524) parallel to the elastic rod (521) in a sliding mode, the guide rods (524) are connected to the elastic block (522) in a sliding mode along the axial direction, the spring (523) is sleeved on the guide rods (524), two ends of the spring (523) are fixedly connected to the elastic block (522) and the elastic rod (521) respectively, and the guide rods (524) abut against the sliding blocks (25) in the two sliding blocks (25) and face one side of an opening of the sliding opening (11).

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