CN109676650A - A kind of cutter device - Google Patents

Abstract

The present invention relates to rice paper field of machining, specifically disclose a kind of cutter device, including cabinet, fixed mechanism and cutting mechanism, fixed mechanism includes fixed cell and the first driving motor connecting with fixed cell, fixed cell is rotationally connected with cabinet wall, cutting mechanism includes cutter and the second driving motor, second driving motor is fixed on cabinet wall and the shaft of the second driving motor is fixed with cutter, cutter are opposite with fixed cell, it is rotated together with using the Medulla Tetrapanacis core that the first driving motor drives fixed cell and fixed cell to fix, Medulla Tetrapanacis core is cut using the second driving motor driving cutter, utilize the cutter rice paper different to the available thickness of Medulla Tetrapanacis core feed speed, the Medulla Tetrapanacis core of cutter cutting rotation is utilized simultaneously, the rice paper of generation can be separated with Medulla Tetrapanacis core, it effectively prevent the stem pith of the rice-paper plant Paper is damaged.

Description

A kind of cutter device

Technical field

The present apparatus is related to rice paper field of machining, in particular to a kind of cutter device.

Background technique

The stem pith of the rice-paper plant also known as rice-paper plant, the sub- arbor of Araliaceae, the marrow color in stem is pure white, there is the texture of velvet.This plant Very thin slice is cut into pith, can form rice paper, and rice paper is thin and translucent, can be used to draw a picture.Currently, people manufacture When rice paper, processed using traditional manual method, when processing, using hand rubbing Medulla Tetrapanacis core in being rolled on plate, meanwhile, it holds The continuous reciprocating cutting Medulla Tetrapanacis core of hand papercutter, is cut into rice paper for Medulla Tetrapanacis core；Due to manual operations, the working efficiency of processing compared with Low, a kind of cutter device has become the needs of people's processing rice paper.

The patent of invention of Publication No. CN104960002B discloses a kind of rice paper machining robot, includes work Platform, power device, manipulator, cut paper slot, paper cutter and controller；Power device includes the first dynamical element, second Dynamical element, third dynamical element and the 4th dynamical element, manipulator include the first sliding rail, first slide, mechanical arm with And plate of rubbing hands, paper cutter include the second sliding rail, second slide, third sliding rail, third slide and hand papercutter；A kind of stem pith of the rice-paper plant The workflow of paper conversion robot is as follows: blanking → compression → back and forth cutting → rub with the hands rolling → incision → cut paper → pendulum rise → reset → Take paper；So constantly recycle；Mechanical hand rubbing Medulla Tetrapanacis core is controlled using controller to roll, while controlling power device using controller It drives hand papercutter to cut Medulla Tetrapanacis core, Medulla Tetrapanacis core is cut into rice paper, rice paper machining robot and traditional hand cut Rice paper is compared, and processing efficiency is improved, and improves the quality of processing rice paper.

Although above-mentioned rice paper machining robot can use hand papercutter cutting Medulla Tetrapanacis core, can be improved processing efficiency and add Working medium amount, and rice paper is softer and easily broken, is easily destroyed when manipulator constantly rubs Medulla Tetrapanacis core with the hands and has cut formation Rice paper is unfavorable for controlling the velocity of rotation of Medulla Tetrapanacis core, the rice paper became uneven made using manipulator rubbing Medulla Tetrapanacis core And it cannot be guaranteed that the rice paper thickness generated is fixed, while the rice paper generated follows Medulla Tetrapanacis core to roll around, and also easily causes Rice paper is damaged.

Summary of the invention

To solve the above-mentioned problems, the present invention provides a kind of cutter devices, can protect to the rice paper of cutting, It prevents rice paper to be destroyed, and can realize production different-thickness and the uniform rice paper of thickness.

In order to achieve the above objectives, the technical solution adopted by the present invention is that: a kind of cutter device, including cabinet, fixed mechanism And cutting mechanism, fixed mechanism include the first driving motor and the fixed cell connected with the first driving motor, fixed cell can Fixed Medulla Tetrapanacis core, cutting mechanism includes cutter and the second driving motor, and the second driving motor is fixed on cabinet wall and second Motor output shaft is fixedly connected with cutter, and cutter are arranged along the axial direction of Medulla Tetrapanacis core, and the blade of cutter and Medulla Tetrapanacis core Blade and Medulla Tetrapanacis core contact position are in 30 °~60 ° angles when outer wall contacts.

The principle of the present invention is: being fixed Medulla Tetrapanacis core using fixed mechanism, the first driving motor drives Medulla Tetrapanacis core rotation, together The second driving motor of Shi Qidong, the second driving motor driving cutter slide to Medulla Tetrapanacis core, since cutter are along the axial direction of Medulla Tetrapanacis core Setting, and blade and Medulla Tetrapanacis core contact position are in 30 °~60 ° angles when the blade of cutter and the outer wall of Medulla Tetrapanacis core contact, when cutting After the blade that cutter slides to Medulla Tetrapanacis core and cutter is contacted with Medulla Tetrapanacis core, since Medulla Tetrapanacis core is in rotation status, cutter are to logical Careless core is cut；Cutter are at the uniform velocity fed to Medulla Tetrapanacis core, so that the Medulla Tetrapanacis core of cutting forms the fixed rice paper of thickness；Pass through The cutter at the uniform velocity feed speed different to Medulla Tetrapanacis core is controlled, the rice paper of different-thickness, cutter feed speed can be obtained Fastly, the rice paper thickness obtained is thicker, and cutter feed speed is slow, obtained rice paper thinner thickness.

Using the above scheme the advantages of, is:

1. cutting process does not generate clast: since the present apparatus is to be cut using cutter to Medulla Tetrapanacis core, cutting process Clast will not be generated, on the one hand the advantageous service efficiency for improving raw material；On the other hand, compared to use cutting line to Medulla Tetrapanacis core It is cut, the cutter that this programme utilizes are not susceptible to deform, and can accurately be cut to Medulla Tetrapanacis core, it is uniform to obtain thickness Rice paper.

2. convenient for being protected to rice paper: since the present apparatus is to rotate Medulla Tetrapanacis core, cutter being recycled to go to cut It cuts, can be separated from Medulla Tetrapanacis core by the rice paper that cutting generates, without being rotated always with Medulla Tetrapanacis core, rice paper and Medulla Tetrapanacis core It can be collected after separation, convenient for being protected to rice paper.

3. the rice paper of different-thickness can be produced: the feed speed of cutter is controlled, that is, can control the thickness of rice paper, The feed speed of cutter is fast, and the rice paper of generation will be thicker；Cutter feed speed is slow, and the rice paper of generation will be compared with Thin, as long as cutter are at the uniform velocity fed, energy arrives the uniform rice paper of thickness.

Further, fixed cell includes the slide unit for being set to the bottom of box, two supports being slidably connected with slide unit, turns respectively The dynamic sleeve being connected on support and the wedge-shaped knife being fixed in sleeve, two sleeves are opposite and axis is overlapped, cabinet wall It is further fixed on third driving motor, the first Bidirectional-screw is fixed in the shaft of third driving motor, the first Bidirectional-screw is separate The shaft end of third driving motor and cabinet wall are rotatablely connected, and the first Bidirectional-screw passes through two branch along slide unit glide direction , two sections of threaded rods on the first Bidirectional-screw are threadedly coupled with two supports respectively.

The first Bidirectional-screw is driven to rotate using third driving motor, compared to using rack-and-pinion or other push-and-pull machines Structure pushes and pulls Medulla Tetrapanacis core fixed mechanism, due to that can only make a support movement and another branch dwell of sley, connects two supports Line midpoint can change always, and the center for the Medulla Tetrapanacis core for causing support to be fixed can also change always, may result in the stem pith of the rice-paper plant Core is staggered with cutter, and cutter is made to be unable to complete cutting.If using Bidirectional-screw, merely with the rotation of the first Bidirectional-screw It can be achieved with pushing and pulling synchronous realize of two supports, since the first Bidirectional-screw is to synchronize and be equidistant to the push-and-pull of support, The line midpoint holding position of two supports can be just set to be always positioned at same point, it, can be to logical when being cut every time convenient for cutter Careless core is cut.

Further, sleeve is the horn-like cylinder comprising osculum end and big opening end, and the big opening end of two sleeves is opposite.

Small horn-like in the big one end in one end is set by sleeve, and two sleeves are opposite compared with the port of big end, it is ensured that It is all that Medulla Tetrapanacis core both ends are introduced into two biggish one end of sleeve, due to the wedge-shaped knife in sleeve when Medulla Tetrapanacis core is fixed every time Also form horn-like, when two sleeves are under the effect of the first Bidirectional-screw in the same direction and when row, wedge-shaped knife can be formed with Medulla Tetrapanacis core end face Certain angle facilitates in wedge-shaped knife insertion Medulla Tetrapanacis core, and after the both ends of Medulla Tetrapanacis core contact abutting with the inner wall of sleeve, Medulla Tetrapanacis core is just It can be completely fixed.

And both ends sleeve is independent of each other, and each sleeve can fix different size of Medulla Tetrapanacis core, when the both ends of Medulla Tetrapanacis core When diameter has certain size difference, sleeve can be also completely fixed Medulla Tetrapanacis core, and the central axes of Medulla Tetrapanacis core always with cutter Relatively, the cutting of cutter is unaffected.

Further, mandril is fixed on the cabinet wall opposite with sleeve osculum end, mandril is solid far from cabinet wall one end Surely there is circular jacking block, jacking block can pass through the osculum end of sleeve.

After Medulla Tetrapanacis core is cut completely, remain the stem pith of the rice-paper plant for being embedded in by wedge-shaped knife and not being cut into rice paper in sleeve Core, compared to artificially these remaining Medulla Tetrapanacis cores are removed, the present apparatus is fixed on the opposite cabinet wall in sleeve osculum end Mandril, and it is fixed with jacking block far from cabinet wall one end in mandril, jacking block can pass through the osculum end of sleeve, when third driving motor Reversion drives the rotation of the first Bidirectional-screw, is located remotely from each other two supports, and the jacking block on mandril passes through sleeve small end face, jacking block Remaining Medulla Tetrapanacis core can be ejected sleeve, be ready for cutting next time, utilize the movement removal residual stem pith of the rice-paper plant of device itself Core, it is simple and convenient.

Further, cutting mechanism include the second driving motor, the second Bidirectional-screw being fixedly connected with the second driving motor, Cutter fixed plate, with abutting mechanism and the guide rod parallel with the second Bidirectional-screw that cutter fixed plate is opposite, second pair It is vertical with cutter to screw rod, cutter fixed plate one end is threadedly coupled with one section of threaded rod of the second Bidirectional-screw, the other end with Guide rod is slidably connected, and pushes against mechanism one end and connect with another section of threaded rod of the second Bidirectional-screw, and the other end is slidably connected with guide rod, It pushes against mechanism and cutter line midpoint and two sleeve line midpoints is located on same vertical line.

The second Bidirectional-screw is driven to rotate using the second driving motor, due to guide rod position-limiting action, when the second Bidirectional-screw When rotation, cutter fixed plate is axially synchronized with abutting mechanism along the second Bidirectional-screw and equidistant relative motion, supports Tight mechanism and cutter line midpoint are located at two sleeve line midpoints and are located on same vertical line, and cutter can be made to leading to When careless core movement is cut, pushes against mechanism and can just be contacted with Medulla Tetrapanacis core and provide one for Medulla Tetrapanacis core and make relative to cutter Firmly opposite power, it is excessive with the radial force for preventing Medulla Tetrapanacis core to be subject in by cutting process and be broken, keep Medulla Tetrapanacis core complete Cutting promotes raw material availability, and due to cutter fixed plate and abutting mechanism synchronizes and equidistant relative motion, can make In feeding cutting, abutting mechanism also follows together always pushes against Medulla Tetrapanacis core cutter.

Further, it pushes against mechanism and is equipped with multiple idler wheels, multiple roller array directions and the axis of the second Bidirectional-screw hang down Directly.

Block is pushed against to Medulla Tetrapanacis core abutting compared to using, and is pushed against, can be replaced using rolling friction using multiple idler wheels While sliding friction reduces frictional force, moreover it is possible to provide support force to Medulla Tetrapanacis core, advantageously reduce energy dissipation, while rolling and rubbing Wiping can protect Medulla Tetrapanacis core not damage because of friction, will not influence the quality of rice paper.

Further, it is fixed with collection basket in cutter fixed plate, collects basket basket mouth and is lower than cutter.

Basket is collected in setting at cutter, is fallen directly into and is collected in basket by the rice paper that cutting is formed, and collecting basket can be right Rice paper progress protection, it is damaged by other external force to prevent rice paper, while preventing rice paper contaminated, influences the matter of rice paper Amount.

Further, basket top is collected except basket one side fixed with cutter fixed plate is collected, and collects other three Bian Jun of basket Equipped with baffle.The baffle of setting can play the role of protection and guiding to the rice paper of generation, be conducive to the matter for promoting rice paper Amount.

Detailed description of the invention

Fig. 1 is the longitudinal sectional view along sleeve axis of the embodiment of the present invention.

Fig. 2 is the cross-sectional view in Fig. 1 along B-B.

Fig. 3 is the cross-sectional view in Fig. 1 along C-C.

Specific embodiment

It is further described below by specific embodiment:

Appended drawing reference in Figure of description includes: cabinet 1, slide unit 2, support 3, sleeve 4, Medulla Tetrapanacis core 5, wedge-shaped knife 6, the One Bidirectional-screw 7, third driving motor 8, cutter fixed plate 9, the first driving motor 10, mandril 11, jacking block 12, left two-way silk It is sliding after bar 13, right guide rod 14, the second driving motor 15, the first front-slider 16, the first rear slider 17, the second front-slider 18, second Block 19, front shoe 20, rear fixed plate 21, support column 22, the first connecting plate 23, cutter 24, the second connecting plate 25, idler wheel 26, basket 27, baffle 28 are collected.

Embodiment is basic as shown in attached drawing 1- Fig. 3:

As shown in Figure 1, a kind of cutter device, including cabinet 1, bottom is fixed with slide unit 2, the company of sliding on slide unit 2 in cabinet 1 It is connected to the identical support 3 of two for can horizontally slipping, 3 upper end of support is rotatably connected to the sleeve 4 of a rounding mesa-shaped, and two Support 3 upper bush, 4 big opening ends are opposite, and Medulla Tetrapanacis core 5 is fixed between two sleeves 4, and Medulla Tetrapanacis core 5 is one section of stem pith of the rice-paper plant trunk, in circle Cylindricality.Each 4 inner wall of sleeve is circumferentially respectively and fixedly provided with the wedge-shaped knife 6 being axially arranged along sleeve 4, as described in Figure 2, wedge-shaped 6 quantity of knife For eight and blade and 4 radial direction of sleeve are at 30 ° of angles.

As shown in Figure 1,1 inner wall of cabinet is fixed with third driving motor 8, it is two-way that first is equipped between slide unit 2 and Medulla Tetrapanacis core 5 Screw rod 7, the shaft that 7 left end of the first Bidirectional-screw is rotatably connected on 1 inner wall of cabinet, right end and third driving motor 8 pass through shaft coupling Device is fixedly connected, and third driving motor 8 is fixed on 1 inner wall of cabinet, and two supports 3 are sheathed on the two of the first Bidirectional-screw 7 respectively On a threaded portion.Being further fixed on the support 3 on right side can be with the cutter fixed plate 9 of the left and right sliding of support 3, and cutter are fixed The first driving motor 10 is fixed on plate 9, the shaft of the first driving motor 10 is fixedly connected with right hand sleeves 4.

As shown in Figure 1,1 left and right side inner wall of cabinet is equipped with the identical ejecting mechanism of size, ejecting mechanism includes top Bar 11 and jacking block 12,1 inner wall of cabinet is fixed in 11 one end of mandril, the other end passes through the osculum end of sleeve 4 and is located in sleeve 4, Jacking block 12 is fixed on the one end of mandril 11 far from 1 inner wall of cabinet, and jacking block 12 is opposite with 5 end face of Medulla Tetrapanacis core.

As shown in figure 3, the second driving motor 15 is fixed in cabinet 1,1 bottom interior wall of cabinet below 5 both ends of Medulla Tetrapanacis core It is equipped with left Bidirectional-screw 13 and right guide rod 14, left 13 one end of Bidirectional-screw and the rotation connection of 1 inner wall of cabinet, the other end and second The shaft of driving motor 15 is fixedly connected.The axis of the axis of left Bidirectional-screw 13 and the axis of right guide rod 14 with Medulla Tetrapanacis core 5 Vertically, it is arranged with the first front-slider 16 being threadedly coupled with left Bidirectional-screw 13 respectively on two threaded portions of left Bidirectional-screw 13 With the first rear slider 17, position corresponding with left Bidirectional-screw 13 is equipped with the second front-slider 18 and the second rear slider on right guide rod 14 19, front shoe 20, the first rear slider 17 and the second rear slider 19 are connected between the first front-slider 16 and the second front-slider 18 Between be connected with rear fixed plate 21.1 bottom surface inner wall of cabinet is equipped with support column 22, and the upper surface of support column 22 is lower than sleeve 4, support The upper end of column 22 is provided with the arc groove that can place Medulla Tetrapanacis core, facilitates and provides initial branch when initial placement Medulla Tetrapanacis core for Medulla Tetrapanacis core Support.

In conjunction with Fig. 2 and Fig. 3, it is fixed with the first connecting plate 23 on front shoe 20, is fixed with cutting on the first connecting plate 23 Knife 24 is fixed with the second connecting plate 25 on rear fixed plate 21, six along 5 axial alignment of Medulla Tetrapanacis core is fixed on the second connecting plate 25 A idler wheel 26, axial direction setting of the cutter 24 along Medulla Tetrapanacis core 5, the blade when blade of cutter 24 and the outer wall of Medulla Tetrapanacis core 5 contact It is in 45 ° of angles with 5 contact position of Medulla Tetrapanacis core, when cutter 24 move horizontally towards Medulla Tetrapanacis core 5, idler wheel 26 is also contacted with Medulla Tetrapanacis core 5.The It is additionally provided on one connecting plate 23 and collects basket 27, the basket mouth for collecting basket 27 is slightly below cutter 24, collects and is additionally provided with baffle on basket 27 28。

Specific implementation process is as follows:

1. fixed Medulla Tetrapanacis core:

When initial, two supports 3 are located at the left and right both ends of slide unit 2, and cutter 24 and idler wheel 26 are located at case Forward and backward side in body 1, Medulla Tetrapanacis core 5 is placed on the curved end of support column 22, since 22 upper end end face of support column is lower than sleeve 4,5 axis of Medulla Tetrapanacis core is lower than 4 axis of sleeve at this time.

Start third driving motor 8, third driving motor 8 drives the rotation of the first Bidirectional-screw 7, due to the first Bidirectional-screw 7 pass through two supports 3, and 7 left end screw thread of the first Bidirectional-screw and right end screw thread are threadedly engaged with two supports 3 in left and right respectively, Under the effect of the first Bidirectional-screw 7, two supports 3 are close to each other, and fixed sleeve 4 is mutually drawn close on support 3, in 4 phase of sleeve During mutually drawing close, the left and right both ends of Medulla Tetrapanacis core 5 initially enter the big opening end of sleeve 4, since wedge-shaped knife 6 is obliquely installed, In sleeve 4 under the guidance and extruding of wedge-shaped knife 6, Medulla Tetrapanacis core 5 is lifted upwardly, until Medulla Tetrapanacis core 5 is gradually moved into Medulla Tetrapanacis core 5 Axis is overlapped with 4 axis of sleeve；Two continuation of sleeve 4 are mutually drawn close, and the wedge-shaped knife 6 in sleeve 4 is gradually embedded 5 liang of Medulla Tetrapanacis core End, when the both ends of Medulla Tetrapanacis core 5 are contacted with 4 inner wall of sleeve, two stoppings of sleeves 4 are drawn close, and Medulla Tetrapanacis core 5 is completely fixed.

2. cutting Medulla Tetrapanacis core:

After Medulla Tetrapanacis core 5 is fixed, starts the second driving motor 15, make to be fixedly connected with 15 shaft of the second driving motor Left Bidirectional-screw 13 rotate, the first front-slider 16 and the first rear slider 17 on left Bidirectional-screw 13 go in the same direction, preceding solid Under the action of fixed board 20 and rear fixed plate 21, the second front-slider 18 and the second rear slider 19 being set on right guide rod 14 are also carried out It synchronizes and goes in the same direction, the first connecting plate 23 for being fixed on front shoe 20 drives cutter 24 to move to Medulla Tetrapanacis core 5, fixed simultaneously Idler wheel 26 is driven also to move to Medulla Tetrapanacis core 5 in the second connecting plate 25 of rear fixed plate 21, when cutter 24 move to and Medulla Tetrapanacis core 5 When contact, idler wheel 26 is also contacted with Medulla Tetrapanacis core 5.

When cutter 24 and idler wheel 26 are contacted with Medulla Tetrapanacis core 5, the first driving motor 10 of starting drives right hand sleeves 4 to revolve Turn, since Medulla Tetrapanacis core 5 is fixed by sleeve 4, under the rotation of right hand sleeves 4, Medulla Tetrapanacis core 5 and left hand sleeves 4 follow right hand sleeves 4 one Play rotation；At the same time, the second driving motor 15 continues that left Bidirectional-screw 13 is driven to rotate, and cutter 24 is made to move closer to the stem pith of the rice-paper plant Core 5 simultaneously finally makes cutter 24 and the side wall of Medulla Tetrapanacis core 5 tangent, is in 45 ° of angles when being contacted due to cutter 24 with Medulla Tetrapanacis core 5, When the second driving motor 15 further drives left Bidirectional-screw 13 to rotate, cutter 24 continue to move to Medulla Tetrapanacis core 5, make cutter The side wall of 24 pairs of Medulla Tetrapanacis cores 5 is cut, and the feed speed of cutter 24 is identical, to obtain rice paper in homogeneous thickness；Rolling Wheel 26 is rolled in the case where contacting with Medulla Tetrapanacis core 5, is replaced sliding friction by rolling friction, is reduced the friction that Medulla Tetrapanacis core 5 is subject to Power prevents Medulla Tetrapanacis core 5 broken by friction, is conducive to the quality for promoting rice paper；Certain support force is provided to Medulla Tetrapanacis core 5 simultaneously.

It is flowed out by the rice paper that cutting is formed along cutter 24, then falls into and collected in basket 27 under the limit of baffle 28 It is collected.

3. completing cutting:

After Medulla Tetrapanacis core 5 is cut completely, while inverting the second driving motor 15 and third driving motor 8.Second driving Motor 15 is located remotely from each other cutter 24 and idler wheel 26, and then third driving motor 8 inverts, and is located remotely from each other two sleeves 4, by It is equipped with jacking block 12 along 4 axis of sleeve in 1 inner wall of cabinet, sleeve 4, which is located remotely from each other, makes the Medulla Tetrapanacis core not cut 5 follow sleeve 4 is mobile, until the one end of Medulla Tetrapanacis core 5 far from cutter 24 that do not cut is in contact with the jacking block 12 of ejecting mechanism；Third is driven Dynamic motor 8 continues to rotate, and is further located remotely from each other two sleeves 4, pushes up jacking block 12 by the Medulla Tetrapanacis core 5 remained in sleeve 4 Out, the Medulla Tetrapanacis core 5 being ejected then is subjected to unified collection, the Medulla Tetrapanacis core 5 being collected is used as medicinal material after smashing to pieces, due to being received The Medulla Tetrapanacis core 5 of collection is destroyed by wedge-shaped knife 6, so Medulla Tetrapanacis core 5 can be smashed to pieces by only needing simply to fiddle with Medulla Tetrapanacis core 5.

4. circulation cutting:

After remaining Medulla Tetrapanacis core 5 is cleaned, new Medulla Tetrapanacis core 5 is placed on to the upper surface of support column 22, repeats step Circulation cutting can be completed in 1-3.

What has been described above is only an embodiment of the present invention, the common sense such as well known specific technical solution and/or characteristic in scheme It does not describe excessively herein.It should be pointed out that for those skilled in the art, before not departing from technical solution of the present invention It puts, several modifications and improvements can also be made, these also should be considered as protection scope of the present invention, these all will not influence this Invent the effect and patent practicability implemented.The scope of protection required by this application should be based on the content of the claims, The records such as the specific embodiment in specification can be used for explaining the content of claim.

Claims (8)

1. a kind of cutter device, including cabinet, fixed mechanism and cutting mechanism, it is characterised in that: the fixed mechanism includes the One driving motor and the fixed cell connecting with the first driving motor, the fixed cell can fix Medulla Tetrapanacis core, the cutting machine Structure includes cutter and the second driving motor, second driving motor be fixed on cabinet wall and the shaft of the second motor with cut Cutter is fixedly connected, and the cutter are arranged along the axial direction of Medulla Tetrapanacis core, and when the blade of cutter and the outer wall of Medulla Tetrapanacis core contact Blade and Medulla Tetrapanacis core contact position are in 30 °~60 ° angles.

2. a kind of cutter device according to claim 1, it is characterised in that: the fixed cell includes being set to the bottom of box Slide unit, two supports being slidably connected with slide unit, the sleeve that is rotationally connected on support respectively and be fixed in sleeve Wedge-shaped knife, two sleeves are opposite and axis is overlapped, and the cabinet wall is further fixed on third driving motor, third driving motor The first Bidirectional-screw is fixed in shaft, first Bidirectional-screw is rotated far from third driving motor shaft end and cabinet wall Connection, first Bidirectional-screw pass through two supports along slide unit glide direction, two sections of screw threads on first Bidirectional-screw Bar is threadedly coupled with two supports respectively.

3. a kind of cutter device according to claim 2, it is characterised in that: the sleeve is to include osculum end and big opening end Horn-like cylinder, the big opening end of two sleeves is opposite.

4. a kind of cutter device according to claim 2, it is characterised in that: in the opposite cabinet in the osculum end of the sleeve Mandril is fixed on wall, the mandril is fixed with circular jacking block far from cabinet wall one end, and the jacking block can pass through the set The osculum end of cylinder.

5. a kind of cutter device according to claim 1, it is characterised in that: the cutting mechanism includes the second driving electricity Machine, the second Bidirectional-screw with the second driving motor is fixedly connected, cutter fixed plate, the abutting opposite with cutter fixed plate Mechanism and the guide rod parallel with the second Bidirectional-screw, second Bidirectional-screw is vertical with cutter, and the cutter are fixed Plate one end is threadedly coupled with one section of threaded rod of the second Bidirectional-screw, the other end and guide rod are slidably connected, described abutting mechanism one end It is connect with another section of threaded rod of the second Bidirectional-screw, the other end is slidably connected with guide rod, the abutting mechanism and cutter line Midpoint and two sleeve line midpoints are located on same vertical line.

6. a kind of cutter device according to claim 5, it is characterised in that: the abutting mechanism is equipped with multiple idler wheels, Multiple roller array directions are vertical with the axis of the second Bidirectional-screw.

7. a kind of cutter device according to claim 5, it is characterised in that: be fixed with collection in the cutter fixed plate Basket, the collection basket basket mouth are lower than cutter.

8. a kind of cutter device according to claim 7, it is characterised in that: the collection basket top is except collection basket and cuts The fixed one side of cutter fixed plate collects other three sides of basket and is equipped with baffle.