CN219359642U - Conveying and shearing integrated medium material granulator - Google Patents

Abstract

The utility model relates to a conveying and shearing integrated medium material granulator, which comprises a longitudinal cutting conveying device and a transverse cutting device, wherein the longitudinal cutting conveying device and the transverse cutting device are arranged along a straight line; the slitting conveying device comprises a conveying hob, a conveying roller, a slitting driving mechanism and a mounting frame; the conveying hob comprises a hob shaft, an upper conveying wheel and a circular cutter; the cutter shaft is arranged on the mounting frame; a plurality of upper conveying wheels are arranged on the hob shaft, and the upper conveying wheels and the hob shaft rotate coaxially; a round cutter is respectively arranged between the adjacent 2 upper conveying wheels on the cutter shaft; the conveying roller is arranged on the mounting frame, a plurality of avoidance ring grooves are formed on the circumferential surface of the conveying roller, one avoidance ring groove corresponds to one circular cutter, and the lower part of the circular cutter is inserted into the avoidance ring groove; the slitting driving mechanism is used for driving the conveying hob and the conveying roller to synchronously and reversely rotate. The utility model has the characteristics of simple structure, scientific design, convenient transportation and transportation, small occupied area when in use, and the like.

Description

Conveying and shearing integrated medium material granulator

Technical Field

The utility model relates to the technical field of mechanical production equipment of medium particles, in particular to a conveying and shearing integrated medium material granulator.

Background

The dielectric particles are an important component of the electromagnetic wave lens, and the current production modes of the dielectric particles for the electromagnetic wave lens are various, and the applicant has applied for a technical scheme of patent number 2021110775694, namely an electromagnetic dielectric material sheet, an electromagnetic dielectric particle and a production method thereof, wherein a sheet-shaped original plate, namely a dielectric plate, is firstly manufactured, and then the dielectric plate is cut to form the dielectric particles. In order to realize automatic cutting of the dielectric plate, the applicant has further developed a technical scheme of a rolling type dielectric particle forming device with the patent application number of 202221858614X, the cutting device of the technical scheme adopts a round hob and a lower supporting plate to be matched for longitudinally cutting the dielectric plate, and the cutting device does not have the function of conveying the dielectric plate, so that an independent conveying device is needed to be used for carrying out auxiliary conveying on materials between the cutting device and the granulating device when the cutting device is used, and the longitudinal cutting device and the conveying device are of separate structures, so that the whole length of a production line is longer, the carrying and the transportation are not facilitated, and the occupied factory building area is larger when the cutting device is used.

Disclosure of Invention

The utility model aims to provide a conveying and shearing integrated medium material granulator which has the advantages of simple structure, scientific design, convenient transportation and transportation, small occupied area during use and the like.

The technical scheme of the utility model is realized as follows: the utility model provides a conveying and shearing integral type medium material granulator, specifically, includes slitter conveyer and crosscut device, slitter conveyer, crosscut device are arranged along a straight line, slitter conveyer and crosscut device straight line arrangement's direction be the fore-and-aft direction, the direction of being perpendicular to fore-and-aft direction on the horizontal plane is the left and right directions, the direction of being perpendicular to the horizontal plane is the upper and lower direction;

the longitudinal cutting conveying device comprises a conveying hob, a conveying roller, a longitudinal cutting driving mechanism and a mounting frame;

the conveying hob comprises a hob shaft, an upper conveying wheel and a circular cutter; both ends of the cutter shaft are rotatably arranged on the mounting frame, and the rotation axis of the cutter shaft is distributed along the left-right direction; a plurality of upper conveying wheels are fixedly arranged on the hob shaft along the left-right direction, each upper conveying wheel is of a round cake-shaped structure, and the upper conveying wheels and the hob shaft rotate coaxially; the round cutters are respectively arranged between the adjacent 2 upper conveying wheels on the cutter shaft, and each round cutter coaxially rotates with the cutter shaft;

the two ends of the conveying roller are rotatably arranged on the mounting frame, the conveying roller is arranged below the conveying hob, the rotation axis of the conveying roller is distributed along the left-right direction, a plurality of avoidance annular grooves are formed on the circumferential surface of the conveying roller, the plurality of avoidance annular grooves are arranged in a spaced mode along the left-right direction, one avoidance annular groove corresponds to one circular cutter, and the lower part of the circular cutter is inserted into the avoidance annular groove; the longitudinal cutting driving mechanism is used for driving the conveying hob and the conveying roller to synchronously and reversely rotate;

the transverse cutting device comprises an upper cutter, a lower cutter, a mounting seat and a transverse cutting driving mechanism, wherein the upper cutter and the lower cutter are both arranged on the mounting seat, the upper cutter is positioned above the lower cutter, and the respective cutting edges of the upper cutter and the lower cutter are distributed along the left-right direction; the transverse cutting driving mechanism is used for driving the upper cutter to act and shearing in cooperation with the lower cutter.

According to the scheme, the longitudinal cutting conveying device is provided with the conveying hob and the conveying roller which are distributed up and down, when the longitudinal cutting conveying device is used, the conveying hob and the conveying roller synchronously rotate under the action of the longitudinal cutting driving mechanism, the upper conveying wheel on the conveying hob and the conveying roller are matched to clamp and press the medium plate for conveying, the longitudinal cutting conveying device can also cut the medium plate by the circular cutter on the conveying hob in the conveying process of the medium plate so as to cut the medium plate into a plurality of strip-shaped medium materials, the longitudinal cutting conveying device integrates conveying and cutting, the length of the whole production line is greatly shortened, the conveying and the conveying are facilitated, and the occupied area in use is greatly reduced; after the strip-shaped medium material is conveyed into the transverse cutting device, the upper cutter of the transverse cutting device is matched with the lower cutter to cut the strip-shaped medium material under the action of the transverse cutting driving mechanism, so that the medium plate is cut to form medium particles.

In order to make the structure of transfer roller more reasonable, the transfer roller includes axis of rotation and a plurality of transfer wheel down, and the both ends of axis of rotation are all rotationally installed on the mounting bracket, and the axis of rotation of axis of rotation is laid along left and right directions, and along left and right directions fixed mounting have a plurality of transfer wheel down in the axis of rotation, transfer wheel is the cake form structure down, and the axis of transfer wheel down is laid along left and right directions, is equipped with the baffle respectively between every adjacent 2 transfer wheels down, baffle, transfer wheel down all rotate with the axis of rotation is coaxial, transfer wheel just to with an upper transfer wheel down, is formed with between adjacent 2 transfer wheels down dodge the annular.

In order to make the cutting effect of the conveying hob on the medium plate better, a backing plate is arranged between each round cutter and the adjacent 2 upper conveying wheels on the hob shaft.

Further, the scheme further comprises a rim charge guiding mechanism, wherein the rim charge guiding mechanism is arranged between the slitting conveying device and the transverse cutting device, the rim charge guiding mechanism comprises an upper rotating roller, a lower rotating roller, a fixing frame and a guiding motor, the fixing frame is fixed beside the slitting conveying device, two ends of the upper rotating roller and two ends of the lower rotating roller are rotatably arranged on the fixing frame, the upper rotating roller is arranged above the lower rotating roller, and the rotating axis of the upper rotating roller and the rotating axis of the lower rotating roller are distributed along the left-right direction so as to form a clamping gap between the upper rotating roller and the lower rotating roller; the guide motor is used for driving the lower rotating roller to rotate around the rotating axis of the lower rotating roller. When the device is used, after the medium plate is cut by the longitudinal cutting conveying device, strip-shaped clout can be generated on the left side and the right side of the medium plate, and after the rim charge guiding mechanism is adopted, the clout can pass through a clamping gap of the rim charge guiding mechanism, so that the clout can be conveyed downwards under the action of the upper rotating roller and the lower rotating roller, and defective products with different sizes are avoided when the transverse cutting device cuts particles.

Further, the scheme further comprises a rim charge collecting box, wherein the rim charge collecting box is arranged below the rim charge guiding mechanism, and a box opening of the rim charge collecting box is arranged upwards. The design of the rim charge collecting box is additionally arranged, so that the rim charge collecting box can collect the rim charge while cutting, and the manual cleaning is avoided in the later period, so that the rim charge collecting box is more convenient to use.

In order to make the structure of the transverse cutting device more reasonable, a mounting seat of the transverse cutting device is provided with a cutter seat which can reciprocate up and down, the cutter seat is positioned above the lower cutter, a transverse cutting driving mechanism is arranged on the mounting seat, and the transverse cutting driving mechanism is used for driving the cutter seat to act; the upper cutter is arranged on the bottom surface of the cutter holder, and the cutting edge of the upper cutter is opposite to the cutting edge of the lower cutter.

In order to facilitate the transfer of the dielectric plate, a front bearing table is arranged on the side of the longitudinal cutting transfer device, which is away from the transverse cutting device, and a back bearing table is arranged between the longitudinal cutting transfer device and the transverse cutting device; the front bearing table and the back bearing table respectively comprise a bearing surface, a guide rotating column group is respectively arranged on the left side edge and the right side edge of the bearing surface of the front bearing table and the back bearing table, the guide rotating column group of the front bearing table and the back bearing table respectively comprises a plurality of rotating columns which are arranged side by side along the front and back directions, and the rotating axes of the rotating columns on the front bearing table and the back bearing table are vertical to the horizontal plane.

In order to make the structure of this scheme more reasonable, this scheme still includes the frame, slitter conveyer, crosscut device are all installed in the frame.

The scheme also comprises a finished product collecting box, wherein the finished product collecting box is arranged below the transverse cutting device, and the box opening of the finished product collecting box is upward.

The utility model has the beneficial effects that: has the advantages of simple structure, scientific design, convenient transportation and transportation, small occupied area during use, etc.

Drawings

Fig. 1 is a schematic diagram of a left-hand structure of an embodiment.

Fig. 2 is a schematic rear view of an embodiment.

Fig. 3 is a schematic top view of an embodiment.

Fig. 4 is an enlarged schematic view of the portion a in fig. 3.

Fig. 5 is a schematic perspective view of an embodiment (after removing the front support table, the back support table, the rim charge guide mechanism, and the rim charge collection box).

Fig. 6 is a schematic perspective view of an assembled conveying hob and conveying roller according to an embodiment.

Fig. 7 is a schematic side view of an assembled conveying hob and conveying roller according to an embodiment.

Fig. 8 is a schematic sectional view of the structure in the direction B-B in fig. 7.

Fig. 9 is an enlarged schematic view of the portion C in fig. 8.

Reference numerals illustrate: 1-slitting conveyor; 11-conveying hob; 111-a cutter shaft; 112-upper transfer wheel; 113-a circular cutter; 114-backing plate; 12-conveying rollers; 121-avoiding the annular groove; 122-rotation axis; 123-lower transfer wheel; 124-separator; 13-a slitting drive mechanism; 14-mounting frame; 2-a transverse cutting device; 21-an upper cutter; 22-lower cutter; 23-mounting seats; 24-transverse cutting driving mechanism; 25-knife holder; 3-a rim charge guiding mechanism; 31-upper rotating roller; 32-lower rotating rollers; 33-fixing frame; 4, a rim charge collecting box; 5-front support table; 6-a back support stage; 61-guiding the rotating column group; 62-rotating the column; 7-a frame; 71-via holes; 8, collecting a finished product.

Detailed Description

As shown in fig. 1, 2, 3, 5, 6, 7, 8 and 9, the integral type medium material granulator for conveying and shearing in this embodiment includes a longitudinal conveying device 1 and a transverse cutting device 2, wherein the longitudinal conveying device 1 and the transverse cutting device 2 are arranged along a straight line, the direction in which the longitudinal conveying device 1 and the transverse cutting device 2 are arranged in the straight line is a front-back direction, the direction perpendicular to the front-back direction on a horizontal plane is a left-right direction, and the direction perpendicular to the horizontal plane is an up-down direction; the slitting conveyor 1 comprises a conveying hob 11, a conveying roller 12, a slitting driving mechanism 13 and a mounting frame 14; the conveying hob 11 comprises a hob shaft 111, an upper conveying wheel 112 and a circular cutter 113; both ends of the cutter shaft 111 are rotatably mounted on the mounting frame 14, and the rotation axis of the cutter shaft 111 is arranged along the left-right direction; a plurality of upper conveying wheels 112 are fixedly arranged on the cutter shaft 111 along the left-right direction, each upper conveying wheel 112 is of a round cake-shaped structure, and the upper conveying wheels 112 and the cutter shaft 111 rotate coaxially; the cutter shafts 111 are respectively provided with a circular cutter 113 between the adjacent 2 upper conveying wheels 112, and each circular cutter 113 rotates coaxially with the cutter shaft 111; both ends of the conveying roller 12 are rotatably mounted on the mounting frame 14, the conveying roller 12 is positioned below the conveying hob 11, the rotation axis of the conveying roller 12 is distributed along the left-right direction, a plurality of avoidance annular grooves 121 are formed on the circumferential surface of the conveying roller 12, the plurality of avoidance annular grooves 121 are arranged at intervals along the left-right direction, one avoidance annular groove 121 corresponds to one circular cutter 113, and the lower part of the circular cutter 113 is inserted into the avoidance annular groove 121; the longitudinal cutting driving mechanism 13 is used for driving the conveying hob 11 and the conveying roller 12 to synchronously and reversely rotate, the longitudinal cutting driving mechanism 13 is a motor, and the longitudinal cutting driving mechanism 13 drives the conveying hob 11 and the conveying roller 12 to synchronously and reversely rotate through a gear set; the transverse cutting device 2 comprises an upper cutter 21, a lower cutter 22, a mounting seat 23 and a transverse cutting driving mechanism 24, wherein the upper cutter 21 and the lower cutter 22 are both arranged on the mounting seat 23, the upper cutter 21 is positioned above the lower cutter 22, and the respective cutting edges of the upper cutter 21 and the lower cutter 22 are distributed along the left-right direction; the transverse cutting driving mechanism 24 is used for driving the upper cutter 21 to act and cooperatively cut with the lower cutter 22. When the structure is used, under the action of the slitting driving mechanism 13, when the conveying hob 11 and the conveying roller 12 synchronously rotate, the upper conveying wheel 112 on the conveying hob 11 and the conveying roller 12 are matched to clamp and convey the medium plate, and in the process of conveying the medium plate, the circular cutter 113 on the conveying hob 11 can also cut the medium plate so as to cut the medium plate into a plurality of strip-shaped medium materials, and the slitting conveying device 1 is integrated with conveying and cutting, so that the length of the whole production line is greatly shortened, the conveying and the transportation are facilitated, and the occupied area in use is greatly reduced; after the strip-shaped medium material is conveyed into the transverse cutting device 2, the upper cutter 21 of the transverse cutting device 2 is matched with the lower cutter 22 to cut the strip-shaped medium material under the action of the transverse cutting driving mechanism 24, so that the medium plate is cut into medium particles.

In order to make the structure of the lower conveying roller 12 more reasonable, as shown in fig. 5, 6, 7, 8 and 9, the conveying roller 12 includes a rotating shaft 122 and a plurality of lower conveying wheels 123, both ends of the rotating shaft 122 are rotatably mounted on the mounting frame 14, the rotating axis of the rotating shaft 122 is arranged along the left-right direction, the rotating shaft 122 is fixedly mounted with a plurality of lower conveying wheels 123 along the left-right direction, the lower conveying wheels 123 are in a cake-shaped structure, the axes of the lower conveying wheels 123 are arranged along the left-right direction, a partition plate 124 is respectively arranged between every two adjacent 2 lower conveying wheels 123, the partition plate 124 and the lower conveying wheels 123 are coaxially rotated with the rotating shaft 122, the lower conveying wheels 123 are opposite to the upper conveying wheel 112, and the avoiding ring grooves 121 are formed between the two adjacent lower conveying wheels 123. When the cutter is used, the lower conveying wheel 123 and the upper conveying wheel 112 are in opposite fit to clamp and convey the dielectric plates, so that the dielectric plates cannot shift when the circular cutters 113 arranged between the 2 upper conveying wheels 112 cut the dielectric plates, and the cutting effect is better.

In order to make the cutting effect of the conveying hob 11 on the dielectric plate better, as shown in fig. 7, 8 and 9, a backing plate 114 is arranged between each circular cutter 113 and the adjacent 2 upper conveying wheels 112 on the hob shaft 111.

As shown in fig. 1 and 3, the conveying and shearing integrated medium material granulator further comprises an edge material guiding mechanism 3, wherein the edge material guiding mechanism 3 is arranged between the slitting conveyor 1 and the transverse cutting device 2, the edge material guiding mechanism 3 comprises an upper rotating roller 31, a lower rotating roller 32, a fixing frame 33 and a guiding motor, the fixing frame 33 is fixed beside the slitting conveyor 1, two ends of the upper rotating roller 31 and the lower rotating roller 32 are rotatably arranged on the fixing frame 33, the upper rotating roller 31 is positioned above the lower rotating roller 32, and the rotating axis of the upper rotating roller 31 and the rotating axis of the lower rotating roller 32 are distributed along the left-right direction so as to form a clamping gap between the upper rotating roller 31 and the lower rotating roller 32; the guide motor is used to drive the lower rotating roller 32 to rotate about its own rotation axis (the guide motor is not shown in the drawings). When the device is used, after the medium plate is cut by the slitting conveying device 1, strip-shaped clout can be generated on the left side and the right side of the medium plate, and after the rim charge guide mechanism 3 is adopted, the clout can pass through a clamping gap of the rim charge guide mechanism 3, so that the clout can be conveyed downwards under the action of the upper rotating roller 31 and the lower rotating roller 32, and defective products with inconsistent sizes are avoided when the transverse cutting device 2 is used for granulating.

As shown in fig. 1, the conveying and shearing integrated medium material granulator further comprises an edge material collecting box 4, wherein the edge material collecting box 4 is arranged below the edge material guiding mechanism 3, and the box opening of the edge material collecting box 4 is arranged upwards. The design of the rim charge collecting box 4 is additionally arranged, so that the rim charge collecting box can collect the rim charge while cutting, and the manual cleaning is avoided in the later period, so that the rim charge collecting box is more convenient to use.

In order to make the structure of the transverse cutting device 2 more reasonable, as shown in fig. 1, 2 and 5, a mounting seat 23 of the transverse cutting device 2 is provided with a tool apron 25 capable of reciprocating up and down, the tool apron 25 is positioned above a lower cutter 22, a transverse cutting driving mechanism 24 is an air cylinder, the transverse cutting driving mechanism 24 is mounted on the mounting seat 23, and the transverse cutting driving mechanism 24 is used for driving the tool apron 25 to act; the upper cutter 21 is mounted on the bottom surface of the cutter holder 25, and the cutting edge of the upper cutter 21 is opposite to the cutting edge of the lower cutter 22.

In order to facilitate the transfer of the dielectric sheet, as shown in fig. 1, 2, 3 and 4, a front support table 5 is arranged on the side of the slitting conveyor 1 facing away from the transverse cutting device 2, and a back support table 6 is arranged between the slitting conveyor 1 and the transverse cutting device 2; the front bearing table 5 and the back bearing table 6 respectively comprise a bearing surface, a guiding rotating column group 61 is respectively arranged on the left side and the right side of the bearing surface of the front bearing table 5 and the back bearing table 6, the guiding rotating column groups 61 of the front bearing table 5 and the back bearing table 6 respectively comprise a plurality of rotating columns 62 which are arranged side by side along the front and back directions, and the rotating axes of the rotating columns 62 on the front bearing table 5 and the back bearing table 6 are all perpendicular to the horizontal plane. The guiding rotation column group 61 on the front bearing table 5 and the back bearing table 6 can play a role in guiding the dielectric plate on one hand, and on the other hand, friction between the left side surface and the right side surface of the dielectric plate and the front bearing table 5 and the back bearing table 6 can be reduced, so that the dielectric plate is conveyed more smoothly.

As shown in fig. 1, 2 and 3, the conveying and shearing integrated medium material granulator further comprises a frame 7, and the longitudinal cutting conveying device 1, the transverse cutting device 2, the front bearing table 5 and the back bearing table 6 are all arranged on the frame 7. The frame 7 is provided with a panel for placing the slitting conveyor 1, the transverse cutting device 2, the front bearing table 5 and the back bearing table 6, a through hole 71 which is communicated with the upper surface and the lower surface of the panel is arranged on the panel, the through hole 71 is positioned below the rim charge guiding mechanism 3, and when in use, the rim charge passing through the rim charge guiding mechanism 3 enters the rim charge collecting box 4 through the hole 71.

As shown in fig. 1, 2 and 3, the conveying and shearing integrated medium material granulator further comprises a finished product collecting box 8, wherein the finished product collecting box 8 is arranged below the transverse cutting device 2, and the box opening of the finished product collecting box 8 is upward. The finished product collecting box 8 is designed, so that the particles obtained by shearing the transverse cutting device 2 can be collected during use, and the use is more convenient.

Claims (9)

1. The utility model provides a conveying cuts integral type dielectric material granulator which characterized in that: the device comprises a longitudinal cutting conveying device and a transverse cutting device, wherein the longitudinal cutting conveying device and the transverse cutting device are arranged along a straight line, the direction in which the longitudinal cutting conveying device and the transverse cutting device are arranged along the straight line is the front-back direction, the direction perpendicular to the front-back direction on a horizontal plane is the left-right direction, and the direction perpendicular to the horizontal plane is the up-down direction;

the longitudinal cutting conveying device comprises a conveying hob, a conveying roller, a longitudinal cutting driving mechanism and a mounting frame;

the conveying hob comprises a hob shaft, an upper conveying wheel and a circular cutter; both ends of the cutter shaft are rotatably arranged on the mounting frame, and the rotation axis of the cutter shaft is distributed along the left-right direction; a plurality of upper conveying wheels are fixedly arranged on the hob shaft along the left-right direction, each upper conveying wheel is of a round cake-shaped structure, and the upper conveying wheels and the hob shaft rotate coaxially; the round cutters are respectively arranged between the adjacent 2 upper conveying wheels on the cutter shaft, and each round cutter coaxially rotates with the cutter shaft;

the two ends of the conveying roller are rotatably arranged on the mounting frame, the conveying roller is arranged below the conveying hob, the rotation axis of the conveying roller is distributed along the left-right direction, a plurality of avoidance annular grooves are formed on the circumferential surface of the conveying roller, the plurality of avoidance annular grooves are arranged in a spaced mode along the left-right direction, one avoidance annular groove corresponds to one circular cutter, and the lower part of the circular cutter is inserted into the avoidance annular groove; the longitudinal cutting driving mechanism is used for driving the conveying hob and the conveying roller to synchronously and reversely rotate;

the transverse cutting device comprises an upper cutter, a lower cutter, a mounting seat and a transverse cutting driving mechanism, wherein the upper cutter and the lower cutter are both arranged on the mounting seat, the upper cutter is positioned above the lower cutter, and the respective cutting edges of the upper cutter and the lower cutter are distributed along the left-right direction; the transverse cutting driving mechanism is used for driving the upper cutter to act and shearing in cooperation with the lower cutter.

2. A conveyor shear integrated media material pelletizer as in claim 1 wherein: the conveying roller comprises a rotating shaft and a plurality of lower conveying wheels, wherein both ends of the rotating shaft are rotatably arranged on an installation frame, the rotating shaft is provided with a plurality of lower conveying wheels in a left-right direction, the lower conveying wheels are of round cake-shaped structures and are arranged in the left-right direction, each of the adjacent 2 lower conveying wheels is provided with a baffle plate, the baffle plates and the lower conveying wheels are coaxially rotated with the rotating shaft, the lower conveying wheels are opposite to an upper conveying wheel, and an avoidance ring groove is formed between the adjacent 2 lower conveying wheels.

3. A conveyor shear integrated media material pelletizer as in claim 1 wherein: a backing plate is arranged between each round cutter and the adjacent 2 upper conveying wheels on the cutter shaft.

4. A conveyor shear integrated media material pelletizer as in claim 1 wherein: the side material guiding mechanism is arranged between the longitudinal cutting conveying device and the transverse cutting device, and comprises an upper rotating roller, a lower rotating roller, a fixing frame and a guiding motor, wherein the fixing frame is fixed beside the longitudinal cutting conveying device, two ends of the upper rotating roller and two ends of the lower rotating roller are rotatably arranged on the fixing frame, the upper rotating roller is arranged above the lower rotating roller, and the rotating axis of the upper rotating roller and the rotating axis of the lower rotating roller are distributed along the left-right direction so as to form a clamping gap between the upper rotating roller and the lower rotating roller; the guide motor is used for driving the lower rotating roller to rotate around the rotating axis of the lower rotating roller.

5. A conveyor shear integrated media material pelletizer as in claim 4 wherein: the device also comprises an edge material collecting box, wherein the edge material collecting box is arranged below the edge material guiding mechanism, and the box opening of the edge material collecting box is upward.

6. A conveyor shear integrated media material pelletizer as in claim 1 wherein: the mounting seat of the transverse cutting device is provided with a cutter seat capable of performing up-and-down reciprocating motion, the cutter seat is positioned above the lower cutter, the transverse cutting driving mechanism is arranged on the mounting seat, and the transverse cutting driving mechanism is used for driving the cutter seat to act; the upper cutter is arranged on the bottom surface of the cutter holder, and the cutting edge of the upper cutter is opposite to the cutting edge of the lower cutter.

7. A conveyor shear integrated media material pelletizer as in claim 1 wherein: a front bearing table is arranged on the side of the longitudinal cutting conveying device, which is away from the transverse cutting device, and a back bearing table is arranged between the longitudinal cutting conveying device and the transverse cutting device; the front bearing table and the back bearing table respectively comprise a bearing surface, a guide rotating column group is respectively arranged on the left side edge and the right side edge of the bearing surface of the front bearing table and the back bearing table, the guide rotating column group of the front bearing table and the back bearing table respectively comprises a plurality of rotating columns which are arranged side by side along the front and back directions, and the rotating axes of the rotating columns on the front bearing table and the back bearing table are vertical to the horizontal plane.

8. A conveyor shear integrated media material pelletizer as in claim 1 wherein: the machine frame is also included, and the longitudinal cutting conveying device and the transverse cutting device are both arranged on the machine frame.

9. A conveyor shear integrated media material pelletizer as in claim 1 wherein: the device also comprises a finished product collecting box, wherein the finished product collecting box is arranged below the transverse cutting device, and the box opening of the finished product collecting box is upward.