CN114770714A

CN114770714A - Automatic refractory brick slitting system

Info

Publication number: CN114770714A
Application number: CN202210503079.4A
Authority: CN
Inventors: 刘富敏; 刘世雨
Original assignee: Yuzhou Xinyuan Refractory Co ltd
Current assignee: Yuzhou Xinyuan Refractory Co ltd
Priority date: 2022-05-10
Filing date: 2022-05-10
Publication date: 2022-07-22
Anticipated expiration: 2042-05-10
Also published as: CN114770714B

Abstract

The invention relates to the technical field of processing of refractory bricks, in particular to an automatic refractory brick cutting system, wherein a support seat A is arranged on the right side of a conveying mechanism, telescopic frames A are symmetrically arranged at the front and back positions of the support seat A, a cutting table A is arranged at the middle hinged point of the two telescopic frames A, a lifting mechanism A is arranged on the upper part of the cutting table A and used for installing a transverse cutting mechanism, a middle conveying mechanism is arranged on the right side of the cutting table A, a support seat B is arranged on the right side of the middle conveying mechanism, telescopic frames C are symmetrically arranged on the left and right positions of the support seat B, a cutting table B is arranged at the middle hinged point of the two telescopic frames C, a lifting mechanism B is arranged on the upper part of the cutting table B, and the lifting mechanism is used for installing a vertical cutting mechanism; the brick cutting machine has the advantages of being reasonable in structure, capable of adjusting the distance between the cutters according to the size of a cutting rotation, and capable of achieving systematic cutting and using effects of bricks.

Description

Automatic refractory brick slitting system

Technical Field

The invention relates to the technical field of processing of refractory bricks, in particular to an automatic refractory brick slitting system.

Background

Along with the development of society, more and more high-rise buildings are produced, refractory bricks are necessary raw materials of building engineering, when the refractory bricks are processed, large brick blanks are required to be cut into bricks with proper sizes, a cutting system in the prior art is used for conveying and cutting through a continuous conveying belt, cutting deviation can occur, the position of a cutting knife is fixed, the distance cannot be adjusted according to the size of the cut bricks, a plurality of devices are required for cutting the bricks to obtain the bricks with proper sizes, the using effect is poor, and therefore, the problem that how to overcome the existing technical problems and defects is needed to be solved is a key problem.

Disclosure of Invention

The invention aims to overcome the defects described in the background technology, and accordingly, the automatic refractory brick cutting system is reasonable in structure, capable of adjusting the distance between the cutters according to the size of the cutting rotation, capable of achieving systematic cutting of bricks and good in using effect.

In order to achieve the purpose, the technical scheme of the invention is as follows: an automatic refractory brick slitting system comprises a slitting mechanism and a conveying mechanism, wherein the slitting mechanism comprises a transverse slitting mechanism and a vertical slitting mechanism, a supporting seat A is arranged on the right side of the conveying mechanism, telescopic frames A are symmetrically arranged at the front and back positions of the supporting seat A, a slitting table A is arranged at the middle hinged point corresponding to each front and back of the two telescopic frames A, the upper part of the cutting table A is provided with a lifting mechanism A which is used for installing a transverse cutting mechanism, the right side of the cutting table A is provided with a middle conveying mechanism, a supporting seat B is arranged on the right side of the middle conveying mechanism, telescopic frames C are symmetrically arranged on the left and right of the supporting seat B, a slitting table B is arranged at the hinged point of the middle part of the two telescopic frames C which do not correspond to each other in the front and back, and the upper part of the slitting table B is provided with a lifting mechanism B, and the lifting mechanism is used for installing a vertical slitting mechanism.

Further, the telescopic groove A is formed in the supporting seat A at one end of the telescopic frame A and used for stretching the telescopic frame A, the telescopic groove C corresponding to the telescopic groove A is formed in the supporting seat B at one end of the telescopic frame C and used for stretching the telescopic frame C, locking pieces are respectively arranged and used for fixing the telescopic frame C, and the positions of the slitting table A and the slitting table B are adjusted by extending or shortening the length of the telescopic frame A or the telescopic frame C.

Further, a cutting groove A arranged in the front and back and a cutting groove B arranged in the left and right are respectively arranged on the cutting table A and the cutting table B.

Further, the conveying mechanism comprises a support, the support is provided with rollers in a rotary connection mode, the end portion of each roller is provided with two first transmission chain wheels, the rollers are connected with adjacent rollers in a transmission mode through transmission chains B in a bypassing mode and driven chain wheels in a extending mode, one roller is further connected with a driven chain wheel in an extending mode, the driven chain wheel is connected with a driving chain wheel through the transmission chains A, the driving chain wheel is connected with a transmission motor A through a driven gear and a driving gear, the driving gear is arranged to be 1/4 toothless sections and 3/4 toothed sections, the rollers achieve intermittent transmission, heating of a transmission structure is reduced, when refractory bricks reach the upper portion of the slitting table A, transverse slitting of the refractory brick blanks is completed in intermittent time, then the slit refractory brick blanks are pushed to the slitting table B, and the non-slit refractory brick blanks reach the slitting table A again, in the intermittent time, the next cut is completed.

Furthermore, the lifting mechanism A comprises four guide rods A and a hydraulic cylinder A which are arranged on the upper part of the supporting seat A, and an upper supporting plate A is fixed on the upper end part of the guide rods A.

Further, the transverse slitting mechanism comprises a supporting frame A sleeved on four guide rods A, a hydraulic cylinder A is arranged between the supporting frame A and the upper supporting plate A, telescopic frames B are symmetrically arranged on the front side and the rear side of the supporting frame A, telescopic grooves B are formed in the supporting frame A at one end of each telescopic frame B, locking pieces at the end parts of the telescopic frames B are arranged, mounting plates A are arranged at middle hinge points corresponding to the telescopic frames B in front and back, mounting grooves A are formed in the middle of the mounting plates A, transverse slitting cutters are rotationally connected in the mounting grooves, grooves are formed in the adjacent mounting plates A, the outer walls of the outer sleeve A and the outer wall of the inner sleeve A are provided with limiting teeth A which are clamped, the outer sleeve A and the inner sleeve A stretch out and draw back, the stretching amplitude of the outer sleeve A and the inner sleeve A is the same as the stretching amplitude of the telescopic frames B, thereby realizing the rotation of the transverse slitting knife.

Further, middle transport mechanism is including establishing the mounting bracket of setting between supporting seat A and supporting seat B, swivelling joint's driving roller has arranged on the mounting bracket, the setting along the transmission direction of driving roller, the driving roller is connected with second drive sprocket through the transmission shaft, through drive chain C transmission between the second drive sprocket to be connected with the engaged drive gear on one of them drive sprocket, one of them drive gear is connected with drive motor B, through drive motor B as middle drive power, will be able to bear or endure firebrick forward conveying, its engaged drive gear is the same with engaged driving gear and driven gear's structure, reaches the same-frequency conveying.

Furthermore, the lifting mechanism B comprises four guide rods B and a hydraulic cylinder B which are arranged on the upper part of the support seat B, and a support plate B is fixed on the upper end part of the guide rods B.

Furthermore, the vertical splitting mechanism comprises a support frame B sleeved on four guide rods B, a hydraulic cylinder B is arranged between the support frame B and an upper support plate B, telescopic frames D are symmetrically arranged on the left side and the right side of the support frame B, a telescopic groove D is formed in the support frame B at one end of each telescopic frame D, a locking piece at the end of each telescopic frame D is arranged, a mounting plate B is arranged at a middle hinge point corresponding to each front part and the rear part of each telescopic frame D, a mounting groove B is formed in the middle of each mounting plate B, a vertical splitting cutter is rotationally connected in the mounting groove, a groove is formed in the adjacent mounting plate B and is connected with an extended outer sleeve B and an extended inner sleeve B which are matched, limiting teeth B which are clamped and connected are arranged on the inner wall of the outer sleeve B and the outer wall of the inner sleeve B, the extension and the extension of the outer sleeve B are realized, and the extension of the outer sleeve B and the inner sleeve B are realized, the telescopic amplitude of the telescopic mechanism is the same as that of the telescopic frame D, so that the rotation of the vertical slitting knife is realized.

The automatic refractory brick slitting system has the beneficial effects that:

1. according to the automatic firebrick slitting system, the driving gear is set to be the 1/4 toothless section and the 3/4 toothless section, the roller achieves intermittent transmission, the transmission is set to be periodic, the heat of a transmission structure is reduced, when a firebrick reaches the upper part of the slitting table A, the firebrick is just in intermittent time, the transverse slitting of a firebrick adobe is completed, the intermittent time and the transverse slitting process are simultaneously finished, then the slit firebrick adobe is pushed to the slitting table B, and when the undiced firebrick adobe reaches the slitting table A again, the undiced firebrick adobe is in intermittent time, the next slitting process is completed.

2. According to the automatic refractory brick cutting system, the cutting table A and the mounting plate A extend or shorten respectively by virtue of the telescopic frame A and the telescopic frame B, the extension degrees of the cutting table A and the telescopic frame B are the same, the cutting table A and the mounting plate A are the same in size and are in position correspondence all the time, namely, the transverse cutting knife and the cutting groove A are in position correspondence all the time, so that the transverse cutting size of the cut brick is adjusted, the cutting table B and the mounting plate B extend or shorten respectively by virtue of the telescopic frame C and the telescopic frame D, the extension degrees of the cutting table B and the telescopic frame D are the same, the cutting table B and the mounting plate B are in size and are in position correspondence all the time, namely, the vertical cutting knife and the cutting groove B are in position correspondence all the time, and therefore the vertical cutting size of the cutting knife is adjusted.

3. According to the automatic refractory brick slitting system, the transverse slitting mechanism firstly transversely cuts a refractory brick blank so that the transverse size of the refractory brick blank meets the requirement, the transverse cutting process is in the intermittent time of the conveying mechanism and can accurately cut the refractory brick blank, then the transversely cut refractory brick blank reaches the slitting table B under the pushing of the transmission mechanism and the conveying of the middle conveying mechanism, the vertical slitting mechanism is moved to the position with the slit brick blank, the cutting is completed in the moving process, then the vertical slitting mechanism is controlled to ascend through the hydraulic cylinder B, the slit refractory brick is conveyed to the next station, then the hydraulic cylinder B is extended, the vertical slitting mechanism is moved downwards to perform the next vertical slitting, the systematic slitting of the refractory brick can be completed, and the using effect is good.

Drawings

FIG. 1 is a schematic front view of the automatic refractory brick slitting system of the present invention;

FIG. 2 is a schematic top view of the automatic refractory brick slitting system of the present invention;

FIG. 3 is a schematic structural view of a transverse slitting mechanism of the automatic refractory brick slitting system of the present invention;

FIG. 4 is a schematic structural view of a vertical slitting mechanism of the automatic firebrick slitting system of the present invention;

FIG. 5 is a schematic side view of the outer sleeve A and the inner sleeve A (or the outer sleeve B and the inner sleeve B) of the automatic refractory brick cutting system of the invention;

FIG. 6 is a schematic diagram of the transmission structure of a transmission motor A of the automatic refractory brick slitting system;

FIG. 7 is a schematic view of the drive gear of the automatic refractory brick splitting system of the present invention.

In the figure: a conveying mechanism: 11-bracket, 12-roller, 13-drive chain A, 14-drive motor A, 15-first drive sprocket, 16-drive chain B, 17-drive sprocket, 18-driven sprocket, 19-driven gear, 110-drive gear;

21-a supporting seat A, 22-a telescopic frame A, 23-a slitting table A, 231-a slitting groove A, 24-a telescopic groove A;

the lifting mechanism A: 31-guide rods A, 32-upper support plates A, 33-hydraulic cylinders A;

transversely cut mechanism: 41-guide groove A, 42-support frame A, 43-expansion bracket B, 44-transverse cutting knife, 45-expansion groove B, 46-mounting plate A, 461-mounting groove A, 47-outer sleeve A, 48-rotating motor A, 49-inner sleeve A, 410-limit tooth A;

an intermediate transfer mechanism: 51-driving roller, 52-mounting rack, 53-second driving chain wheel, 54-driving chain C, 55-driving tooth and 56-driving motor B;

61-a support seat B, 62-a telescopic frame C, 63-a slitting table B, 631-a slitting groove B and 64-a telescopic groove C;

vertical cutting mechanism: 71-guide groove B, 72-support frame B, 73-telescopic frame D, 74-vertical cutting knife, 75-telescopic groove D, 76-mounting plate B, 761-mounting groove B, 77-outer sleeve B, 78-rotating motor B, 79-inner sleeve B, 710-limit tooth B;

a lifting mechanism B: 81-guide rods B, 82-upper support plates B, 83-hydraulic cylinders B.

Detailed Description

The automatic refractory brick cutting system is described in more detail in the following by means of specific embodiments in conjunction with the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, are used in the orientations and positional relationships indicated in the drawings, which are based on the orientations and positional relationships indicated in the drawings, and are used for convenience of description and simplicity of description, but do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1, 2, 6 and 7, the automatic firebrick splitting system of this embodiment, on the basis of good use effect, achieves the technical effects of reasonable structure, adjusting the distance between knives according to the size of the splitting rotation, and achieving the systematic splitting of bricks, the structure of this embodiment includes a bracket 11, rollers 12 are distributed on the bracket 11 and rotatably connected, two first transmission sprockets 15 are arranged at the end of each roller 12, and the transmission chain B16 bypasses the first transmission sprockets 15 to drivingly connect the adjacent rollers 12, one of the rollers 12 is further connected with a driven sprocket 18 in an extending manner, the driven sprocket 18 is connected with a driving sprocket 17 through a transmission chain a13, the driving sprocket 17 is connected with a transmission motor a14 through a driven gear 19 and a driving gear 110, the driving gear 110 is provided with 1/4 toothless segments and 3/4 toothed segments, the roller 12 realizes intermittent transmission, reduces the heating of a transmission structure, finishes the transverse cutting of a firebrick adobe in intermittent time when a firebrick reaches the upper part of the cutting platform A23, then pushes the cut firebrick adobe to the cutting platform B63, and finishes the next cutting in intermittent time when the uncut firebrick adobe reaches the cutting platform A23 again.

Referring to fig. 1 and 2, a supporting seat a21 is provided at one side of an output end of the roller 12 in this embodiment, a telescopic frame a22 is symmetrically installed at front and rear positions of the supporting seat a21, a telescopic groove a24 is provided on the supporting seat a21 at one end of the telescopic frame a22 and used for stretching the telescopic frame a22, a slitting table a23 is provided at a hinge point of a middle portion of each of the two telescopic frames a22 corresponding to the front and rear, a slitting groove a231 is provided in front and rear directions of the slitting table a23, a position of the slitting table a23 is adjusted by extending or shortening the telescopic frame a22, four guide rods a31 and a hydraulic cylinder a33 are installed at an upper portion of the supporting seat a21 at an upper side edge of the slitting table a23, and an upper supporting plate a32 is fixed at an upper end of the guide rod a 31.

Referring to fig. 1, 3 and 5, a supporting frame a42 is sleeved on four guide rods a31, guide grooves 41 are arranged at four corners of the supporting frame a42, the guide grooves 41 are sleeved on the supporting frame a42, a hydraulic cylinder a33 is arranged between the supporting frame a42 and an upper supporting plate a32, telescopic frames B43 are symmetrically arranged at the front and rear sides of the supporting frame a42, a telescopic groove B45 is arranged on the supporting frame a42 at one end of the telescopic frame B43, a locking member at the end of the telescopic frame B43 is arranged for stretching the telescopic frame B43, an installation plate a46 is arranged at the middle hinge point corresponding to each front and rear of the telescopic frame B43, an installation groove a461 is arranged at the middle of the installation plate a46, a transverse slitting knife 44 is rotatably connected in the installation groove, a groove a46 is arranged at the adjacent installation plate a, an outer sleeve a47 and an inner sleeve a49 which are connected to be extended and used in a matching manner are arranged at the hinge points, and a49 a tooth 410 for clamping the inner wall of the outer sleeve a47 and the outer wall of the outer sleeve a 362, the outer sleeve A47 and the inner sleeve A49 are stretched, and the stretching amplitude is the same as that of the telescopic bracket B43, so that the transverse cutting knife 44 can rotate.

Referring to fig. 1 and 2, a mounting frame 52 is arranged on the right side of the slitting table a23 of the embodiment, driving rollers 51 which are rotatably connected are arranged on the mounting frame 52, the driving rollers 51 are arranged along the driving direction, the driving rollers 51 are connected with second driving chain wheels 53 through driving shafts, the second driving chain wheels 53 are driven through a driving chain C54, one of the driving chain wheels is connected with a meshed driving gear 55, one of the driving gear 55 is connected with a driving motor B56, the firebricks are conveyed forwards through the driving motor B56 as an intermediate driving force, and the meshed driving gear 55 is the same as the meshed driving gear 110 and the meshed driven gear 19 in structure, so that the same-frequency conveying is achieved.

Referring to fig. 1 and 2, an output end of the driving roller 51 of this embodiment is provided with a support seat B61, telescopic frames C62 are symmetrically installed at left and right positions of the support seat B61, two telescopic frames C62 are provided with a slitting table B63 at a hinge point of the middle portion corresponding to the front and the rear, a slitting groove B631 in the left and right direction is provided on the slitting table B63, a telescopic groove C64 is provided on the support seat B61, the length of the telescopic frame C62 is extended or shortened by stretching the telescopic groove C64, so as to adjust the position of the slitting table B63, four guide rods B81 and a hydraulic cylinder B83 are installed on the upper portion of the support seat B61 on the periphery of the slitting table B63, and an upper support plate B82 is fixed on the upper end portion of the guide rods B81.

FIG. 1, FIG. 4 and FIG. 5, the supporting frame B72 is sleeved on four guide rods B81, the supporting frame B72 is provided with guide grooves 71 for being sleeved on four guide rods B81, the hydraulic cylinder B83 is arranged between the supporting frame B72 and the upper supporting plate B82, the left side and the right side of the supporting frame B72 are symmetrically provided with a telescopic frame D73, the supporting frame B72 at one end part of the telescopic frame D73 is provided with a telescopic groove D75 and is provided with a locking piece at the end part of the telescopic frame D73, the middle hinge point corresponding to each front and back of the telescopic frame D73 is provided with a mounting plate B76, the middle part of the mounting plate B76 is provided with a mounting groove B761, the mounting groove is rotationally connected with a vertical dividing cutter 74, the adjacent mounting plate B76 is provided with a groove and is connected with an outer sleeve B77 and an inner sleeve B79 which are matched and used, the inner wall of the outer sleeve B77 and the outer wall of the outer sleeve B79 are provided with limiting teeth B710 which are clamped with each other teeth, the outer sleeve B77 and the inner sleeve B79 are stretched, the outer sleeve B77 and the inner sleeve B79 are stretched, the stretching amplitude of the stretching amplitude is the same as that of the telescopic frame D73, and therefore the rotation of the vertical slitting knife 74 is achieved.

The application principle and the application method of the embodiment are as follows: firstly, a transmission motor A14, a transmission motor B56, a rotating motor A48 and a rotating motor B78 are started, a processed refractory brick blank is fed from the feeding end of a roller 12 and is sent to a slitting table A23 from the discharging end, when a refractory brick reaches the position above a slitting table A23 and is just in intermittent time, a hydraulic cylinder A33 is started to control a rotating transverse slitting knife 44 to move downwards to complete transverse slitting of the refractory brick blank, the intermittent time and the transverse slitting process are finished simultaneously, the hydraulic cylinder A33 is shortened, then, under the transmission of the transmission motor B56, a transmission roller 51 rotates to move the refractory brick which completes transverse slitting to the slitting table B63, finally, a hydraulic cylinder B83 is started to move downwards to correspond to the refractory brick, along with the movement of the refractory brick, the vertical slitting knife 74 is completed, then a hydraulic cylinder B83 is controlled to shorten, the vertical slitting knife 74 is moved upwards to wait for next slitting, and transferring the divided refractory bricks to the next process.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of the terms "a" or "an" and the like in the description and in the claims of this application do not necessarily denote a limitation of quantity. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect.

Exemplary embodiments of the present invention have been described in detail with reference to the preferred embodiments, however, it will be understood by those skilled in the art that various changes and modifications may be made to the specific embodiments described above, and various combinations of the technical features and structures proposed by the present invention may be made without departing from the concept of the present invention.

Claims

1. The utility model provides a system of nai firebrick is cut automatically, includes and cuts mechanism and transport mechanism, its characterized in that: cut the mechanism including horizontal cutting mechanism and vertical cutting mechanism, transport mechanism's right side is provided with supporting seat A, telescopic bracket A is installed to position symmetry around supporting seat A, and the every middle part articulated points department that corresponds around two telescopic bracket A is provided with cuts a platform A, cut a platform A upper portion and be provided with elevating system A, elevating system A is used for installing horizontal cutting mechanism, cuts a platform A's right side and is provided with middle transport mechanism, middle transport mechanism right side is provided with supporting seat B, and telescopic bracket C is installed to supporting seat B left and right sides position symmetry, and the middle part articulated points department that corresponds around two telescopic bracket C do not has is provided with cuts a platform B, it is provided with elevating system B to cut platform B upper portion, elevating system is used for installing vertical cutting mechanism.

2. The automatic refractory brick slitting system of claim 1, wherein: the telescopic groove A is formed in the supporting seat A at one end of the telescopic frame A and used for stretching the telescopic frame A, the telescopic groove C corresponding to the telescopic groove A is formed in the supporting seat B at one end of the telescopic frame C and used for stretching the telescopic frame C, and the locking pieces are arranged respectively and used for fixing the telescopic frame C.

3. The automatic refractory brick slitting system of claim 1, wherein: the cutting table A and the cutting table B are respectively provided with a cutting groove A arranged in the front and at the back and a cutting groove B arranged in the left and at the right.

4. The automatic refractory brick slitting system of claim 1, wherein: transport mechanism includes the support, the swivelling joint that distributes on the support has the roller, every the tip of roller all is provided with two first drive sprocket to walk around first drive sprocket through drive chain B and connect adjacent roller transmission, still extend on one of them roller and be connected with driven sprocket, driven sprocket is connected with drive sprocket through drive chain A, drive sprocket has driving motor A through driven gear and driving gear connection, the driving gear sets up to 1/4 no tooth section and 3/4 has the tooth section, and the roller realizes the transmission of intermittent type formula.

5. The automatic refractory brick slitting system of claim 1, wherein: the lifting mechanism A comprises four guide rods A and a hydraulic cylinder A which are arranged on the upper portion of the supporting seat A, and an upper supporting plate A is fixed on the upper end portion of each guide rod A.

6. The automatic refractory brick slitting system of claim 5, wherein: horizontal cutting mechanism is including cup jointing carriage A on four guide bar A, pneumatic cylinder A sets up between carriage A and last backup pad A, the lateral symmetry is provided with expansion bracket B around carriage A, has seted up flexible groove B on the carriage A of expansion bracket B tip to be provided with the retaining member of expansion bracket B tip, the middle part articulated point department that every back corresponds of expansion bracket B is provided with mounting panel A, mounting groove A has been seted up at mounting panel A's middle part, the mounting groove internal rotation is connected with horizontal branch cutter, and adjacent mounting panel A department sets up slottedly to be connected with supporting outer sleeve A and the inner skleeve A who uses of extension here, be provided with the spacing tooth A of looks joint on outer sleeve A's the inner wall and the inner skleeve A outer wall, realize outer sleeve A and inner skleeve A's flexible.

7. The automatic refractory brick slitting system of claim 1, wherein: middle transport mechanism is including establishing the mounting bracket of setting between supporting seat A and supporting seat B, the driving roller of swivelling joint has arranged on the mounting bracket, the setting along the transmission direction of driving roller, the driving roller is connected with second drive sprocket through the transmission shaft, through drive chain C transmission between the second drive sprocket to be connected with the engaged drive tooth on one of them drive sprocket, one of them drive tooth is connected with driving motor B.

8. The automatic refractory brick slitting system of claim 7, wherein: the lifting mechanism B comprises four guide rods B and a hydraulic cylinder B which are arranged on the upper part of the supporting seat B, and a supporting plate B is fixed at the upper end part of each guide rod B.

9. The automatic refractory brick slitting system of claim 7, wherein: vertical cutting mechanism is including cup jointing carriage B on four guide bar B, pneumatic cylinder B sets up between carriage B and last backup pad B, carriage B's bilateral symmetry is provided with expansion bracket D, has seted up flexible groove D on the carriage B of expansion bracket D tip to be provided with the retaining member of expansion bracket D tip, the every front and back corresponding middle part articulated point department of expansion bracket D is provided with mounting panel B, mounting groove B has been seted up at mounting panel B's middle part, the mounting groove internal rotation is connected with vertical branch cutter, and adjacent mounting panel B department sets up slottedly to be connected with supporting outer sleeve B and the inner skleeve B who uses of extension here, be provided with the spacing tooth B of looks inner skleeve joint on outer sleeve B's the inner wall and the B outer wall, realize outer sleeve B and inner skleeve B's flexible.