CN218878943U - Cut-off conveying device - Google Patents

Abstract

The present application relates to a cut-off conveyor. The cutting and conveying device comprises a front cutting conveying mechanism, a cutting knife roller mechanism and a rear cutting conveying mechanism. Adopt this cut-off conveyor can be used for cutting off and carrying of non-woven fabrics class material, mainly divide into before cutting conveying mechanism, cutting off cutter roller mechanism, cut back conveying mechanism triplex, but through cutting the continuous non-woven fabrics of conveying mechanism multi-angle transmission before cutting, and send the non-woven fabrics into the cutting off cutter roller mechanism and cut into the multistage non-woven fabrics of unified length, then the multistage non-woven fabrics is carried through cutting back conveying mechanism, the mode of multi-angle slope transmission vertical transmission non-woven fabrics even has been realized, and cutting off cutter roller mechanism lies in before cutting conveying mechanism and cuts between the back conveying mechanism, the three is effectively integrated, the volume of whole equipment has been reduced.

Description

Cut-off conveying device

Technical Field

The application relates to the technical field of non-woven fabric production equipment, in particular to a cutting and conveying device.

Background

Along with the improvement of science and technology and improvement of living standard, people attach more and more importance to the aspect of health and health, the product demand on the aspect of health is also bigger and bigger, the non-woven fabrics have been widely used and are applied to various places such as hotels, guest houses and the like in a large number, the existing non-woven fabrics product is not the single dust-free paper and non-woven fabrics packaging product era before, but in the process of the current non-woven fabrics production and transportation machinery, the continuous non-woven fabrics need to be unfolded and transported and are packaged separately after being cut into multi-section non-woven fabrics with uniform length. But present transmission device is mostly the conveyer belt, and only can the level be placed, transmits the non-woven fabrics at its upper surface, can't realize multi-angle slope transmission even vertical transmission, and cutting device and transmission device set up respectively moreover, and effectively integration can't lead to being difficult to the integrated setting of realization equipment, lead to equipment occupation space big.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a cut-off conveying device to above-mentioned technical problem, can solve present transmission device and mostly be the conveyer belt, can't realize the technical problem of multi-angle slope transmission even vertical transmission to and solve cutting device and transmission device and set up respectively, can't effectively integrate, lead to the big technical problem of equipment occupation space.

The embodiment of the application provides a cutting conveying device, which comprises a pre-cutting conveying mechanism, a cutting knife roller mechanism and a post-cutting conveying mechanism;

the front cutting conveying mechanism comprises a front cutting left conveying clamp belt and a front cutting right conveying clamp belt which are oppositely arranged, and a front cutting conveying gap is formed between the front cutting left conveying clamp belt and the front cutting right conveying clamp belt;

the cutting knife roll mechanism comprises a left knife roll and a right knife roll which are oppositely arranged, a cutting bottom knife is arranged on the circumferential surface of the left knife roll, a cutting blade is arranged on the circumferential surface of the right knife roll, and the cutting bottom knife and the cutting blade synchronously rotate along with the left knife roll and the right knife roll and are matched for beveling;

the back cutting conveying mechanism comprises a back cutting left conveying belt and a back cutting right conveying belt which are oppositely arranged, and a back cutting conveying gap is formed between the back cutting left conveying belt and the back cutting right conveying belt.

Further, the cutting bed knife is arranged in parallel with the cutting blade; when the cutting bed knife and the cutting blade are oppositely arranged, the cutting bed knife and the cutting blade are positioned in the same plane; and a gap matched with beveling is formed between the cutting bottom cutter and the cutting blade.

Further, at least two cutting bed knives are arranged on the left knife roll along the circumferential direction of the left knife roll; at least two cutting blades are arranged on the right knife roll along the circumferential direction of the right knife roll; and one cutting bed knife is matched with one cutting blade for beveling along with the synchronous rotation of the left knife roll and the right knife roll.

Further, the front-cutting left conveying belt comprises a front-cutting left driving roller, a front-cutting left driven roller and a front-cutting left conveying belt, and the front-cutting left conveying belt is sleeved on the front-cutting left driving roller and the front-cutting left driven roller; the front-cutting right conveying belt comprises a front-cutting conveying right driving roller, a front-cutting conveying right driven roller and a front-cutting right conveying belt, and the front-cutting conveying right driving roller and the front-cutting conveying right driven roller are sleeved with the front-cutting conveying right conveying belt; the gap between the front-cutting left conveying belt and the front-cutting right conveying belt is the front-cutting conveying gap.

Further, the post-cutting left conveying belt comprises a post-cutting conveying left driving roller, a first post-cutting conveying left driven roller, a second post-cutting conveying left driven roller and a post-cutting left conveying belt, and the post-cutting conveying left driving roller, the first post-cutting conveying left driven roller and the second post-cutting conveying left driven roller are sleeved with the post-cutting left conveying belt; the post-cutting right conveying belt comprises a post-cutting conveying right driving roller, a first post-cutting conveying right driven roller, a second post-cutting conveying right driven roller and a post-cutting right conveying belt, and the post-cutting conveying right driving roller, the first post-cutting conveying right driven roller and the second post-cutting conveying right driven roller are sleeved with the post-cutting right conveying belt; and a gap between the cut left conveying belt and the cut right conveying belt is the cut conveying gap.

Further, the front-cutting conveying left driven roller is fixed on a left front small roller support, the front-cutting conveying left driven roller is fixed on a right front small roller support, and the width value of the front-cutting conveying gap can be adjusted by adjusting the distance between the left front small roller support and the right front small roller support; the first rear conveying left driven roller and the second rear conveying left driven roller are fixed on a left rear small roller support, the first rear conveying right driven roller and the second rear conveying right driven roller are fixed on a right rear small roller support, and the width value of the rear conveying clearance can be adjusted by adjusting the distance between the left rear small roller support and the right rear small roller support; the width value of the post-cutting conveying gap is equal to the width value of the pre-cutting conveying gap.

Further, the left cut conveying belt also comprises a left tension roller, and the left tension roller tightly presses the outer side wall of the left cut conveying belt; cut back right side and carry still to include right tension roller secretly, right tension roller compresses tightly cut the lateral wall of right conveyer belt of back.

Further, the front left conveying belt further comprises an upper left gear and an upper right gear, and the diameters and the tooth numbers of the upper left gear and the upper right gear are the same; the front-cutting conveying left driving roller is connected to the upper left gear, the front-cutting conveying right driving roller is connected to the upper right gear, and the upper left gear is meshed with the upper right gear.

Further, the cutting knife roller mechanism also comprises a middle left gear and a middle right gear, and the diameter and the number of teeth of the middle left gear and the diameter and the number of teeth of the middle right gear are the same; the left knife roll is connected to the middle left gear, the right knife roll is connected to the middle right gear, and the middle left gear is meshed with the middle right gear.

Further, the front-cutting left conveying belt also comprises a lower left gear and a lower right gear, and the diameter and the number of teeth of the lower left gear and the lower right gear are the same; the left driving roll is connected to the lower left gear, the right driving roll is connected to the lower right gear, and the lower left gear is meshed with the lower right gear.

Further, the cut left conveying belt comprises a cut left driving roller, a cut left driven roller and a cut left conveying belt, and the cut left driving roller and the cut left driven roller are sleeved with the cut left conveying belt; the cut right conveying belt comprises a cut right conveying driving roller, a cut right conveying driven roller and a cut right conveying belt, and the cut right conveying belt is sleeved on the cut right driving roller and the cut right conveying driven roller; and the gap between the cut left conveying belt and the cut right conveying belt is the cut conveying gap.

The cutting-off and conveying device is used for cutting off and conveying non-woven fabric materials, and mainly comprises a conveying mechanism before cutting, a cutting-off cutter roller mechanism and a rear cutting conveying mechanism, continuous non-woven fabrics can be transmitted at multiple angles through the conveying mechanism before cutting, the non-woven fabrics are sent into the cutting-off cutter roller mechanism to be cut into multiple sections of non-woven fabrics with uniform lengths, then the multiple sections of non-woven fabrics are conveyed through the rear cutting conveying mechanism, the mode of multi-angle inclined transmission and even vertical transmission of the non-woven fabrics is achieved, and the cutting-off cutter roller mechanism is located between the conveying mechanism before cutting and the rear cutting conveying mechanism, the three are effectively integrated, and the size of the whole equipment is reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a first perspective of a cutoff conveyor in one embodiment;

FIG. 2 is a schematic diagram of a second perspective of the cutoff conveying device in one embodiment;

FIG. 3 is a schematic diagram of a third perspective of the cutoff conveying device in one embodiment;

FIG. 4 is a left side view of the cutoff conveying device in one embodiment;

FIG. 5 is a right side view of the cutoff delivery device in one embodiment;

FIG. 6 is a cross-sectional view of a cutoff delivery device in one embodiment.

The labels in the figure are as follows:

a front cutting conveying mechanism 1, a front cutting left conveying belt 11, a front cutting left conveying driving roller 111, a front cutting left driven roller 112, a front cutting left conveying belt 113, an upper left gear 114, a front cutting right conveying belt 12, a front cutting right conveying right driving roller 121, a front cutting right driven roller 122, a front cutting right conveying belt 123, an upper right gear 124,

a cutting knife roller mechanism 2, a left knife roller 21, a cutting bottom knife 211, a right knife roller 22, a cutting blade 221, a middle left gear 23, a middle right gear 24,

a cut-back conveying mechanism 3, a cut-back left conveying belt 31, a cut-back left driving roller 311, a first cut-back left driven roller 312, a second cut-back left driven roller 313, a cut-back left conveying belt 314, a left tension roller 315, a cut-back right conveying belt 32, a cut-back right driving roller 321, a first cut-back right driven roller 322, a second cut-back right driven roller 323, a cut-back right conveying belt 324, a right tension roller 325,

a left front small roller support 41, a right front small roller support 42, a left rear small roller support 43, a first left rear small roller support 431, a second left rear small roller support 432, a right rear small roller support 44, a first right rear small roller support 441, and a second right rear small roller support 442.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clearly understood, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Example 1

As shown in fig. 1, 2, and 3, embodiment 1 of the present application provides a cutting and conveying device including a pre-cutting conveying mechanism 1, a cutting knife roller mechanism 2, and a post-cutting conveying mechanism 3.

As shown in fig. 1, 2 and 3, the pre-cutting conveying mechanism 1 includes a left pre-cutting conveying belt 11 and a right pre-cutting conveying belt 12 which are oppositely arranged, and a pre-cutting conveying gap is formed between the left pre-cutting conveying belt 11 and the right pre-cutting conveying belt 12.

As shown in fig. 1, 2 and 3, the cutting knife roll mechanism 2 includes a left knife roll 21 and a right knife roll 22 which are oppositely arranged, a cutting bed knife 211 is arranged on the circumferential surface of the left knife roll 21, a cutting blade 221 is arranged on the circumferential surface of the right knife roll 22, and the cutting bed knife 211 and the cutting blade 221 rotate synchronously with the left knife roll 21 and the right knife roll 22 and are matched for bisection.

The rear cutting conveying mechanism 3 comprises a rear cutting left conveying belt 31 and a rear cutting right conveying belt 32 which are oppositely arranged, and a rear cutting conveying gap is formed between the rear cutting left conveying belt 31 and the rear cutting right conveying belt 32.

Further, the cutting bed knife 211 is arranged in parallel with the cutting blade 221; when the cutting bed knife 211 is arranged opposite to the cutting blade 221, the cutting bed knife 211 and the cutting blade 221 are located in the same plane; a gap for matching and bisecting is arranged between the cutting dead knife 211 and the cutting blade 221.

As shown in fig. 4, 5, and 6, at least two cutting bed knives 211 are provided on the left knife roll 21 in the circumferential direction of the left knife roll 21; at least two cutting blades 221 are arranged on the right knife roll 22 along the circumferential direction of the right knife roll 22; with the synchronous rotation of the left knife roll 21 and the right knife roll 22, a cutting bed knife 211 and a cutting blade 221 are matched and oppositely cut, and the cutting bed knife 211 and the cutting blade 221 which are respectively fixed on the left knife roll 21 and the right knife roll 22 are matched and extruded to cut materials. Preferably, two cutting blades 221 are uniformly distributed on the right knife roller 22, so that the slitting efficiency of materials is improved, and the knife roller moves more stably.

As shown in fig. 2, 4, 5, and 6, the front-cutting left conveying belt 11 includes a front-cutting left driving roller 111, a front-cutting left driven roller 112, and a front-cutting left conveying belt 113, and the front-cutting left conveying belt 113 is sleeved on the front-cutting left driving roller 111 and the front-cutting left driven roller 112; the front-cutting right conveying belt 12 comprises a front-cutting conveying right driving roller 121, a front-cutting conveying right driven roller 122 and a front-cutting right conveying belt 123, and the front-cutting conveying right driving roller 121 and the front-cutting conveying right driven roller 122 are sleeved with the front-cutting right conveying belt 123; the gap between the pre-cut left conveyor belt 113 and the pre-cut right conveyor belt 123 is the pre-cut conveying gap. The front cutting conveying left driven roller 112 is fixed on the left front small roller support 41, the front cutting conveying left driven roller 112 is fixed on the right front small roller support 42, and the width value of the front cutting conveying gap can be adjusted by adjusting the distance between the left front small roller support 41 and the right front small roller support 42.

As shown in fig. 2, 3, 4, 5, and 6, the cut left conveying belt 31 includes a cut left driving roller 311, a first cut left driven roller 312, a second cut left driven roller 313, and a cut left conveying belt 314, and the cut left conveying belt 314 is sleeved on the cut left driving roller 311, the first cut left driven roller 312, and the second cut left driven roller 313; the cut right conveying belt 32 comprises a cut right driving roller 321, a first cut right driven roller 322, a second cut right driven roller 323 and a cut right conveying belt 324, and the cut right conveying belt 324 is sleeved on the cut right driving roller 321, the first cut right driven roller 322 and the second cut right driven roller 323; the gap between the cut left conveyor belt 314 and the cut right conveyor belt 324 is the cut conveyor gap. The first cut rear conveying left driven roller 312 and the second cut rear conveying left driven roller 313 are fixed on the left rear small roller support 43, the first cut rear conveying right driven roller 322 and the second cut rear conveying right driven roller 323 are fixed on the right rear small roller support 44, and the width of the cut rear conveying gap can be adjusted by adjusting the distance between the left rear small roller support 43 and the right rear small roller support 44. It will be appreciated that the first cut rear conveying left driven roller 312 and the second cut rear conveying left driven roller 313 may be provided to be fixed to a first left rear small roller support 431 and a second left rear small roller support 432, respectively, and the first cut rear conveying right driven roller 322 and the second cut rear conveying right driven roller 323 may be fixed to a first right rear small roller support 441 and a second right rear small roller support 442, respectively, so that the size of the gap can be adjusted more easily.

As shown in fig. 1, 2 and 3, the left cut-off conveyor belt 314 is a circular belt, so that the position of the cut-off material in the belt can be conveniently observed.

Further, in use, the width of the post-cutting transport gap is typically set equal to the width of the pre-cutting transport gap. The front conveying gap and the rear conveying gap can be adjusted by adjusting the left and right conveying belt gaps so as to adjust the clamping force of the conveying belts on the materials. As shown in fig. 6, the pre-cutting feed gap and the post-cutting feed gap are preferably aligned and correspond to the mating bisection gap between the cutting bed knife 211 and the cutting blade 221. It can be understood that when materials are conveyed in a multi-angle mode, the conveying gap before cutting and the conveying gap after cutting can be arranged in an included angle mode.

As shown in fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, the left cut conveying belt 31 further includes a left tension roller 315, and the left tension roller 315 presses the outer sidewall of the left cut conveying belt 314; the cut right conveying belt 32 further comprises a right tension roller 325, and the right tension roller 325 presses the outer side wall of the cut right conveying belt 324.

As shown in fig. 2, fig. 3, and fig. 4, the front left conveying belt 11 further includes an upper left gear 114 and an upper right gear 124, and the diameter and the number of teeth of the upper left gear 114 are the same as those of the upper right gear 124; the left driving roller 111 is connected to the upper left gear 114 before cutting, the right driving roller 121 is connected to the upper right gear 124 before cutting, the upper left gear 114 is meshed with the upper right gear 124 to drive the left driving roller 111 and the right driving roller 121 to rotate synchronously before cutting, so that materials are prevented from sliding relatively in a conveying belt, and the phenomenon that the cutting length of a cutter is not uniform is avoided.

As shown in fig. 2, 3 and 4, the cutting knife roller mechanism 2 further includes a middle left gear 23 and a middle right gear 24, and the diameter and the number of teeth of the middle left gear 23 are the same as those of the middle right gear 24; the left knife roll 21 is connected to the middle left gear 23, the right knife roll 22 is connected to the middle right gear 24, the middle left gear 23 is meshed with the middle right gear 24 to drive the left knife roll 21 and the right knife roll 22 to synchronously rotate, so that materials are prevented from sliding relatively in a conveying belt, and the phenomenon that the cutting length of a cutter is not uniform is avoided.

In the same way, the front left conveying belt 11 further comprises a lower left gear and a lower right gear, and the diameter and the number of teeth of the lower left gear are the same as those of the lower right gear; cut back and carry left drive roll 311 to be connected to lower left gear, cut back and carry right drive roll 321 to be connected to lower right gear, lower left gear with right gear intermeshing drives cut back and carry left drive roll 311 with cut back and carry right drive roll 321 synchronous rotation, prevent that relative slip from appearing in the conveyer belt in the material, avoid appearing the cutter and cut length non-unity.

Example 2

In embodiment 2 of the present application, there is provided a cutting conveyor including most of the technical features of embodiment 1, and the difference is that the structures of the left after-cutting conveyor belt 31 and the right after-cutting conveyor belt 32 in embodiment 2 are the same as those of the left before-cutting conveyor belt 11 and the right before-cutting conveyor belt 12, respectively. The detailed structural description of the left after-cutting conveying belt 31 and the right after-cutting conveying belt 32 is described in the foregoing, and is not described herein again.

Example 3

In embodiment 3 of the present application, there is provided a cutting conveyor including most of the technical features of embodiment 1, and the difference is that the structure of the front left conveying belt 11 and the front right conveying belt 12 in embodiment 3 is the same as the structure of the rear left conveying belt 31 and the rear right conveying belt 32, respectively. The detailed structural description of the front left conveying belt 11 and the front right conveying belt 12 is given in the above text, and is not described herein.

The cutting-off and conveying device in the embodiment is used for cutting off and conveying non-woven fabric materials, and mainly comprises a front cutting conveying mechanism 1, a cutting-off cutter roller mechanism 2 and a rear cutting conveying mechanism 3, continuous non-woven fabrics can be transmitted in multiple angles through the front cutting conveying mechanism 1, the non-woven fabrics are fed into the cutting-off cutter roller mechanism 2 and are cut into multiple sections of non-woven fabrics with uniform length, then the multiple sections of non-woven fabrics are conveyed through the rear cutting conveying mechanism 3, the mode of multi-angle inclined transmission and even vertical transmission of the non-woven fabrics is achieved, the cutting-off cutter roller mechanism 2 is located between the front cutting conveying mechanism 1 and the rear cutting conveying mechanism 3, the three parts are effectively integrated, and the size of the whole device is reduced.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent application shall be subject to the appended claims.

Claims (10)

1. A cutting and conveying device is characterized by comprising a pre-cutting conveying mechanism, a cutting knife roller mechanism and a post-cutting conveying mechanism;

the front cutting conveying mechanism comprises a front cutting left conveying belt and a front cutting right conveying belt which are oppositely arranged, and a front cutting conveying gap is formed between the front cutting left conveying belt and the front cutting right conveying belt;

the cutting knife roll mechanism comprises a left knife roll and a right knife roll which are oppositely arranged, a cutting bottom knife is arranged on the circumferential surface of the left knife roll, a cutting blade is arranged on the circumferential surface of the right knife roll, and the cutting bottom knife and the cutting blade synchronously rotate along with the left knife roll and the right knife roll and are matched for beveling;

the back cutting conveying mechanism comprises a back cutting left conveying belt and a back cutting right conveying belt which are oppositely arranged, and a back cutting conveying gap is formed between the back cutting left conveying belt and the back cutting right conveying belt.

2. The cut-off delivery device of claim 1, wherein the cut-off bed knife is disposed parallel to the cut-off blade; when the cutting bed knife is arranged opposite to the cutting blade, the cutting bed knife and the cutting blade are positioned in the same plane; and a gap matched with beveling is formed between the cutting bottom cutter and the cutting blade.

3. The cutoff conveying apparatus according to claim 2, wherein at least two cutoff bed knives are provided on the left knife roll in a circumferential direction of the left knife roll; at least two cutting blades are arranged on the right knife roll along the circumferential direction of the right knife roll; and one cutting bed knife is matched with one cutting blade for beveling along with the synchronous rotation of the left knife roll and the right knife roll.

4. The cutoff conveying device according to claim 1, wherein the front-cutting left conveying belt comprises a front-cutting left driving roller, a front-cutting left driven roller and a front-cutting left conveying belt, and the front-cutting left conveying belt is sleeved on the front-cutting left driving roller and the front-cutting left driven roller; the front-cutting right conveying belt comprises a front-cutting conveying right driving roller, a front-cutting conveying right driven roller and a front-cutting right conveying belt, and the front-cutting conveying right driving roller and the front-cutting conveying right driven roller are sleeved with the front-cutting conveying right conveying belt; and the gap between the front-cutting left conveying belt and the front-cutting right conveying belt is the front-cutting conveying gap.

5. The cut-off conveying device according to claim 4, wherein the cut-off left conveying belt comprises a cut-off left driving roller, a first cut-off left conveying driven roller, a second cut-off left conveying driven roller and a cut-off left conveying belt, and the cut-off left conveying belt is sleeved on the cut-off left driving roller, the first cut-off left conveying driven roller and the second cut-off left conveying driven roller; the post-cutting right conveying belt comprises a post-cutting conveying right driving roller, a first post-cutting conveying right driven roller, a second post-cutting conveying right driven roller and a post-cutting right conveying belt, and the post-cutting conveying right driving roller, the first post-cutting conveying right driven roller and the second post-cutting conveying right driven roller are sleeved with the post-cutting right conveying belt; and a gap between the cut left conveying belt and the cut right conveying belt is the cut conveying gap.

6. The cutoff conveying device according to claim 5, wherein the front-cutting conveying left driven roller is fixed on a left front small roller support, the front-cutting conveying left driven roller is fixed on a right front small roller support, and the width value of the front-cutting conveying gap can be adjusted by adjusting the distance between the left front small roller support and the right front small roller support; the first rear conveying left driven roller and the second rear conveying left driven roller are fixed on a left rear small roller support, the first rear conveying right driven roller and the second rear conveying right driven roller are fixed on a right rear small roller support, and the width value of the rear conveying clearance can be adjusted by adjusting the distance between the left rear small roller support and the right rear small roller support; the width value of the post-cutting conveying gap is equal to the width value of the pre-cutting conveying gap.

7. The cutoff conveying device according to claim 5, wherein the left cut conveying belt further comprises a left tension roller pressing against an outer side wall of the left cut conveying belt; cut back right side and carry still to include right tension roller secretly, right tension roller compresses tightly cut the lateral wall of right conveyer belt of back.

8. The cutoff conveying device according to claim 4, wherein the front-cutting left conveying belt further comprises an upper left gear and an upper right gear, and the diameter and the number of teeth of the upper left gear are the same as those of the upper right gear; the front-cutting conveying left driving roller is connected to the upper left gear, the front-cutting conveying right driving roller is connected to the upper right gear, and the upper left gear is meshed with the upper right gear.

9. The cut-off conveyor device according to claim 1, wherein the cut-off cutter roller mechanism further comprises a middle left gear and a middle right gear, and the diameter and the number of teeth of the middle left gear are the same as those of the middle right gear; the left knife roll is connected to the middle left gear, the right knife roll is connected to the middle right gear, and the middle left gear is meshed with the middle right gear.

10. The cutoff conveying device according to claim 5, wherein the front-cutting left conveying belt further comprises a lower left gear and a lower right gear, and the diameter and the number of teeth of the lower left gear are the same as those of the lower right gear; the left cut conveying driving roller is connected to the lower left gear, the right cut conveying driving roller is connected to the lower right gear, and the lower left gear is meshed with the lower right gear.

Images