CN112136465A

CN112136465A - Automatic dig bamboo shoot equipment

Info

Publication number: CN112136465A
Application number: CN202011075486.7A
Authority: CN
Inventors: 宏佳
Original assignee: Senjuberg Intelligent Equipment Technology Co ltd
Current assignee: Senjuberg Intelligent Equipment Technology Co ltd
Priority date: 2020-10-10
Filing date: 2020-10-10
Publication date: 2020-12-29

Abstract

The invention discloses automatic bamboo shoot digging equipment, which comprises a main machine body, wherein a rotating block is rotatably arranged on the lower side of the main machine body, a lifting threaded block is vertically and slidably arranged on the lower side of the rotating block, a digging mechanism is arranged on the right side of the lifting threaded block, and a cutting mechanism is arranged on the left side of the lifting threaded block.

Description

Automatic dig bamboo shoot equipment

Technical Field

The invention relates to the technical field of electric tools, in particular to an automatic bamboo shoot digging device.

Background

Bamboo shoots are a delicious food material, and are grown in bamboo forests, the larger parts of the bamboo shoots are buried underground, soil around the bamboo shoots is dug when the bamboo shoots are dug, and the bamboo shoots are preferably cut off by blocking the waist when the bamboo shoots are dug to be close to the roots, so that the process is very labor-consuming, the bamboo shoot body can be dug off if the bamboo shoots are not operated properly, the bamboo shoots are not convenient to carry and store, and the bamboo shoots generally grow on hillsides, and are high-shrunken and densely distributed on the periphery, so that the bamboo shoots are inconvenient to operate.

Disclosure of Invention

Aiming at the technical defects, the invention provides automatic bamboo shoot digging equipment which can overcome the defects.

The invention relates to automatic bamboo shoot digging equipment, which comprises a main machine body, wherein four adjustable supporting legs for supporting the main machine body are arranged on the periphery of the main machine body, a rotating block is rotatably arranged on the lower side of the main machine body, a lifting threaded block is vertically and slidably arranged on the lower side of the rotating block, a digging mechanism is arranged on the right side of the lifting threaded block, a cutting mechanism is arranged on the left side of the lifting threaded block, the digging mechanism comprises a digging spline shaft which is rotatably arranged on the right part of the lifting threaded block and extends rightwards, a digging spline sleeve is arranged on the digging spline shaft, the digging spline sleeve is rotatably arranged on the upper part of a digging rack, the digging rack is rotatably arranged on the right side of the lifting threaded block, a digging spring connected with the lifting threaded block is arranged on the left side of the digging rack, and a digging roller capable of contacting with, the excavator comprises an excavator frame, a transmission shaft, a transition shaft, a mounting block, a driving block, a cutting mechanism and a cutting mechanism, wherein the transmission shaft is rotatably mounted in the excavator frame and is connected with an excavating spline sleeve through a bevel gear pair, the lower end of the transmission shaft is connected with the transition shaft through the bevel gear pair, the transition shaft is rotatably mounted at the lower part of the excavator frame and is connected with an output shaft through a belt transmission, the output shaft is rotatably mounted in the mounting block, the mounting block is fixedly mounted at the right side of the lower part of the excavator frame, a rotating wheel is fixedly mounted at the front end of the output shaft, a rotating shaft is fixedly mounted at the front side of the rotating wheel, the rotating shaft is rotatably mounted at the middle part of an excavating shovel, the right end of the excavating shovel is rotatably mounted on the driven block, a sliding rod, a driving spline housing is arranged on the driving spline shaft through a spline, the driving spline housing is rotatably arranged in the power slide block, a threaded sleeve is rotatably arranged in the power slide block and is connected with the driving spline sleeve through a gear pair, the thread sleeve is arranged on the driving thread shaft in a threaded manner, the driving thread shaft is fixedly arranged on the left side of the upper part of the connecting plate, the connecting plate is arranged on the left side of the lifting thread block in a left-right sliding manner, a cutting spring connected with the lifting thread block is arranged on the right side of the connecting plate, the lower end of the connecting plate is rotatably provided with a turnover plate and a cutting roller, the upper part of the turnover plate is rotatably provided with a turnover block, a transition spline shaft is rotatably arranged in the overturning block, a transition spline sleeve is arranged on a spline on the transition spline shaft, the transition spline housing is rotatably installed in the power sliding block and is connected with the driving spline housing through a bevel gear pair.

Beneficially, be provided with the motor in the host computer body, the motor downside is connected with the power shaft, the power shaft is connected with driving sleeve and rotation cover through two gear pairs, rotate the cover with driving sleeve all rotates install in the host computer body, just driving sleeve rotate install in rotate the cover with in the turning block, rotate cover fixed mounting in the turning block upside, fixed mounting has lift screw shaft and downwardly extending in the host computer body, lift screw shaft lower extreme rotates to be installed in the bottom plate, the epaxial screw thread of lift screw is installed lift screw block.

Beneficially, excavation mechanism still including rotate install in the transmission integral key shaft of turning block right part, transmission integral key shaft upper end through gear pair with the driving shaft bushing, transmission integral key shaft lower extreme rotate install in the bottom plate, the top piece is installed to the upper and lower slidable of lifting screw thread piece right part downside, the top piece upside is provided with the jacking spring that lifting screw thread piece is connected, rotate in the top piece and install the transmission integral key housing, the transmission integral key housing spline install in on the transmission integral key shaft, fixed mounting has power bevel gear on the transmission integral key housing, excavation integral key shaft left end fixed mounting can with the transmission bevel gear of power bevel gear meshing.

Beneficially, the cutting mechanism further comprises a linking spline shaft rotatably mounted at the left part of the rotating block, the lower end of the linking spline shaft is rotatably mounted at the left part of the bottom plate, a linking spline sleeve is mounted on the linking spline shaft in a spline mode, the linking spline sleeve is rotatably mounted in a pressing block, the pressing block is vertically and slidably mounted at the left part of the lifting threaded block, a pressure spring connected with the lifting threaded block is arranged on the upper side of the pressing block, a linking bevel gear is fixedly mounted on the linking spline sleeve, and a driving bevel gear capable of being meshed with the linking bevel gear is arranged on the right side of the driving spline shaft.

Beneficially, the upper portion of the turnover plate is rotatably provided with a turnover shaft, the turnover shaft is rotatably arranged in the turnover block, the turnover shaft is connected with the transition spline shaft through a bevel gear pair, the turnover plate is rotatably arranged with a cut spline shaft, the upper end of the cut spline shaft can be connected with the turnover shaft through the bevel gear pair, the cut spline sleeve is arranged on the cut spline shaft through a spline, the cut spline sleeve is rotatably arranged in a pushing slider, the pushing slider is slidably arranged in the turnover plate up and down, the pushing slider is rotatably arranged with a pushing shaft, the pushing shaft is connected with the turnover plate through a gear rack, the pushing shaft is connected with the cut spline sleeve through a bevel gear, the left side of the pushing slider is fixedly provided with a cutting plate, the upper portion of the cutting plate is rotatably provided with two cutting shafts, and the two cutting shafts are respectively connected with the front end and the rear end of the pushing slider through two gear pairs, the cutting device is characterized in that a power band saw wheel is fixedly mounted on the cutting shaft, a band saw is sleeved on the power band saw wheel, the band saw is further sleeved on two directional wheels, the two directional wheels are respectively rotatably mounted on the front side and the rear side of the lower portion of the cutting plate, and directional blocks are arranged in the cutting plate.

The beneficial effects are that: this equipment is when using, can place in bamboo shoots top through adjusting supporting leg all around, then equipment begins to rotate and digs the soil around bamboo shoots downwards, expose the bamboo shoots main part, excavate the in-process digger blade and keep the certain distance with bamboo shoots all the time, can not dig bamboo shoots absolutely in advance, after excavating certain degree of depth, follow the cutting mechanism that digs the same decline of digger blade and overturn, and lateral shifting, through the band saw with bamboo shoots neat cutting off, can not cause the waste, it is small and exquisite portable after this equipment result is folding, can conveniently bring in the bamboo forest, can replace the manual work when digging bamboo shoots, use manpower sparingly.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural view of an automatic bamboo shoot digging device of the present invention;

FIG. 2 is an enlarged schematic view of A in FIG. 1;

FIG. 3 is a schematic diagram of B-B of FIG. 1;

FIG. 4 is a schematic diagram of the structure of C-C in FIG. 1;

fig. 5 is a schematic diagram of the structure of D-D in fig. 1.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an automatic bamboo shoot digging device, which comprises a main machine body 10, wherein four adjustable supporting legs 11 for supporting the main machine body 10 are arranged on the periphery of the main machine body 10, a rotating block 15 is rotatably arranged on the lower side of the main machine body 10, a lifting threaded block 18 is vertically and slidably arranged on the lower side of the rotating block 15, an excavating mechanism capable of digging soil around bamboo shoots is arranged on the right side of the lifting threaded block 18, a cutting mechanism capable of cutting the bamboo shoots from the bottom is arranged on the left side of the lifting threaded block 18, the excavating mechanism comprises an excavating spline shaft 26 which is rotatably arranged on the right part of the lifting threaded block 18 and extends rightwards, an excavating spline sleeve 27 is arranged on the excavating spline shaft 26 in a spline mode, the excavating spline sleeve 27 is rotatably arranged on the upper part of an excavating rack 28, the excavating rack 28 is rotatably arranged on the right side of the lifting threaded block 18 in a left-right-side manner, an excavating, excavator frame 28 lower extreme rotates installs the excavation gyro wheel 39 that can with bamboo shoots surface contact, the rotation installs transmission shaft 30 in the excavator frame 28, transmission shaft 30 pass through bevel gear pair with the excavation spline housing 27 is connected, transmission shaft 30 lower extreme passes through bevel gear pair and is connected with transition shaft 31, transition shaft 31 rotate install in the excavator frame 28 lower part, transition shaft 31 is connected with output shaft 33 through belt drive, output shaft 33 rotates and installs in installation piece 32, installation piece 32 fixed mounting in excavator frame 28 lower part right side, output shaft 33 front end fixed mounting has runner 34, runner 34 front side fixed mounting has axis of rotation 35, axis of rotation 35 rotates and installs in excavation shovel 36 middle part, excavation shovel 36 right-hand member rotates and installs on driven block 37, driven block 37 left side fixed mounting has slide bar 38, the slide bar 38 is installed at the rear side of the installation block 32 in a left-right sliding manner, the cutting mechanism comprises a drive spline shaft 46 which is installed at the left part of the lifting thread block 18 in a rotating manner, a drive spline housing 47 is installed on the drive spline shaft 46 in a spline manner, the drive spline housing 47 is installed in a power slider 48 in a rotating manner, a thread housing 49 is installed in the power slider 48 in a rotating manner, the thread housing 49 is connected with the drive spline housing 47 through a gear pair, the thread housing 49 is installed on a drive thread shaft 50 in a threaded manner, the drive thread shaft 50 is fixedly installed at the left side of the upper part of a connecting plate 51, the connecting plate 51 is installed at the left side of the lifting thread block 18 in a left-right sliding manner, a cutting spring 52 connected with the lifting thread block 18 is arranged at the right side of the connecting plate 51, a turning plate 53, the upper portion of the turnover plate 53 is rotatably provided with a turnover block 57, a transition spline shaft 56 is rotatably arranged in the turnover block 57, a transition spline housing 55 is arranged on the transition spline shaft 56 through splines, the transition spline housing 55 is rotatably arranged in the power slider 48, and the transition spline housing 55 is connected with the driving spline housing 47 through a bevel gear pair.

Beneficially, a motor 12 is arranged in the main machine body 10, a power shaft 13 is connected to the lower side of the motor 12, the power shaft 13 is connected to a driving shaft sleeve 16 and a rotating sleeve 14 through two gear pairs, the rotating sleeve 14 and the driving shaft sleeve 16 are both rotatably installed in the main machine body 10, the driving shaft sleeve 16 is rotatably installed in the rotating sleeve 14 and the rotating block 15, the rotating sleeve 14 is fixedly installed on the upper side of the rotating block 15, a lifting threaded shaft 17 is fixedly installed in the main machine body 10 and extends downwards, the lower end of the lifting threaded shaft 17 is rotatably installed in a bottom plate 19, and the lifting threaded shaft 17 is threadedly installed with the lifting threaded block 18.

Beneficially, the excavating mechanism further comprises a transmission spline shaft 20 rotatably mounted at the right part of the rotating block 15, the upper end of the transmission spline shaft 20 is connected with the transmission shaft sleeve 16 through a gear pair, the lower end of the transmission spline shaft 20 is rotatably mounted in the bottom plate 19, a top block 22 is vertically and slidably mounted at the lower side of the right part of the lifting screw block 18, a jacking spring 23 connected with the lifting screw block 18 is arranged at the upper side of the top block 22, a transmission spline housing 21 is rotatably mounted in the top block 22, the transmission spline housing 21 is spline-mounted on the transmission spline shaft 20, a power bevel gear 24 is fixedly mounted on the transmission spline housing 21, and a transmission bevel gear 25 capable of being meshed with the power bevel gear 24 is fixedly mounted at the left end of the excavating spline shaft 26.

Advantageously, the cutting mechanism further comprises an engaging spline shaft 40 rotatably mounted at the left part of the rotating block 15, the lower end of the engaging spline shaft 40 is rotatably mounted at the left part of the bottom plate 19, an engaging spline housing 41 is splined on the engaging spline shaft 40, the engaging spline housing 41 is rotatably mounted in a press block 42, the press block 42 is vertically slidably mounted at the left part of the lifting screw block 18, a pressure spring 43 connected with the lifting screw block 18 is arranged at the upper side of the press block 42, an engaging bevel gear 44 is fixedly mounted on the engaging spline housing 41, and a driving bevel gear 45 capable of being meshed with the engaging bevel gear 44 is arranged at the right side of the driving spline shaft 46.

Beneficially, the turning plate 53 is rotatably provided with a turning shaft 58 at the upper part thereof, the turning shaft 58 is rotatably arranged in the turning block 57, the turning shaft 58 is connected with the transition spline shaft 56 through a bevel gear pair, the turning plate 53 is rotatably provided with a cutting spline shaft 59, the upper end of the cutting spline shaft 59 can be connected with the turning shaft 58 through a bevel gear pair, the cutting spline shaft 59 is splined with a cutting spline housing 60, the cutting spline housing 60 is rotatably arranged in a pushing slider 61, the pushing slider 61 is slidably arranged in the turning plate 53 up and down, the pushing slider 61 is rotatably provided with a pushing shaft 62, the pushing shaft 62 is connected with the turning plate 53 through gear and rack meshing, the pushing shaft 62 is connected with the cutting spline housing 60 through a helical gear, and the left side of the pushing slider 61 is fixedly provided with a cutting plate 65, cutting plate 65 upper portion is rotated and is installed two cutting axles 63, two cutting axle 63 respectively through two gear pairs with both ends are connected around advancing slider 61, fixed mounting has power band saw wheel 64 on cutting axle 63, the cover is equipped with band saw 66 on the power band saw wheel 64, band saw 66 still on suit and two directional wheels 67, two directional wheels 67 rotate respectively install in side around cutting plate 65 lower part, be provided with in the cutting plate 65 and enable band saw 66 turns to vertical directional piece 68.

In the initial state, the lifting thread block 18 is positioned at the uppermost end, the power slider 48 is positioned at the rightmost end, the turnover plate 53 is in the vertical state, the engaging bevel gear 44 is not meshed with the driving bevel gear 45, and the power bevel gear 24 is meshed with the transmission bevel gear 25;

when the machine starts to work, the positions of the four adjustable supporting legs 11 are adjusted to enable the main machine body 10 not to be right above the bamboo shoots to be dug, the motor 12 is started, so that the power shaft 13 is rotated, the rotating sleeve 14 and the transmission shaft sleeve 16 are driven to rotate through gear meshing transmission, the rotating sleeve 14 is rotated to drive the rotating block 15 to rotate, the lifting threaded block 18 is driven to rotate through the transmission spline shaft 20 and the engagement spline shaft 40, the lifting threaded block 18 is driven to descend through threaded connection with the lifting threaded shaft 17, when the lifting threaded block 18 descends, the digging roller 39 is in surface contact with the cutting roller 54 and the bamboo shoots and rolls, so that the digging rack 28 and the connecting plate 51 are opened towards two sides, meanwhile, the transmission shaft sleeve 16 drives the transmission spline shaft 20 to rotate through gear meshing transmission, the transmission spline sleeve 21 is driven to rotate through spline connection, and the digging spline shaft 26 is driven to rotate through bevel gear meshing transmission of, the movable excavating spline housing 27 is thereby rotated by spline connection, the transmission shaft 30 is thereby rotated by bevel gear meshing transmission, the transition shaft 31 is thereby rotated by bevel gear meshing transmission, the output shaft 33 is thereby rotated by belt transmission, the rotating wheel 34 is thereby rotated, the excavating blade 36 is thereby rotated around the driven block 37, and the slide bar 38 is driven to slide left and right in the mounting block 32, so that the excavating blade 36 excavates the soil while rotating around the bamboo shoots.

The elevating screw block 18 is rotated and lowered to cause the excavating shovel 36 to excavate the soil around the bamboo shoots outward, and when the elevating screw block 18 is lowered to the lowermost end, the top block 22 and the press block 42 are lifted by the bottom plate 19 to separate the power bevel gear 24 from the drive bevel gear 25 to stop the rotation of the excavating spline shaft 26, and the engaging bevel gear 44 is caused to agree with the engagement of the drive bevel gear 45 to cause the driving sleeve 16 to rotate the engaging spline shaft 40 through gear-mesh transmission to thereby rotate the engaging spline housing 41 through spline-connected belt, to thereby rotate the drive spline shaft 46 through bevel-mesh transmission of the engaging bevel gear 44 and the drive bevel gear 45 to thereby rotate the drive spline housing 47, to thereby rotate the screw housing 49 through gear-mesh transmission to thereby drive the power slider 48 to slide left with respect to the connecting plate 51 through threaded connection with the drive screw shaft 50, to thereby drive the reversing plate 53 to rotate around the lower end of the connecting plate 51 to be perpendicular to the bamboo shoots, meanwhile, the driving spline housing 47 drives the transition spline housing 55 to rotate through bevel gear transmission, thereby driving the transition spline shaft 56 to rotate through spline connection, thereby driving the turning shaft 58 to rotate through bevel gear engagement transmission, thereby driving the cutting spline shaft 59 to rotate through bevel gear engagement transmission, thereby driving the cutting spline housing 60 to rotate through spline connection, thereby driving the propulsion shaft 62 to rotate through bevel gear engagement, thereby driving the cutting shaft 63 to rotate through bevel gear engagement transmission, thereby driving the band saw 66 to rotate through the power band saw wheel 64, while the propulsion shaft 62 drives the propulsion slider 61 to slide along the turning plate 53 through gear rack engagement transmission, thereby making the band saw 66 contact with bamboo shoots to cut off the same.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides an automatic dig bamboo shoot equipment, includes the host computer body, its characterized in that: four adjustable supporting legs for supporting the main machine body are arranged on the periphery of the main machine body, a rotating block is rotatably mounted on the lower side of the main machine body, a lifting threaded block is vertically and slidably mounted on the lower side of the rotating block, an excavating mechanism is arranged on the right side of the lifting threaded block, and a cutting mechanism is arranged on the left side of the lifting threaded block;

the excavating mechanism comprises an excavating spline shaft which is rotatably installed at the right part of the lifting thread block and extends rightwards, an excavating spline sleeve is installed on the excavating spline shaft, the excavating spline sleeve is rotatably installed on the upper part of an excavating frame, the excavating frame is horizontally and slidably installed at the right side of the lifting thread block, an excavating spring connected with the lifting thread block is arranged at the left side of the excavating frame, an excavating roller capable of contacting with the surface of bamboo shoots is rotatably installed at the lower end of the excavating frame, a transmission shaft is rotatably installed in the excavating frame and connected with the excavating spline sleeve through a bevel gear pair, the lower end of the transmission shaft is connected with a transition shaft through a bevel gear pair, the transition shaft is rotatably installed at the lower part of the excavating frame and connected with an output shaft through a belt transmission, the output shaft is rotatably installed in an installation block, and the installation block is fixedly installed at the right side, the front end of the output shaft is fixedly provided with a rotating wheel, the front side of the rotating wheel is fixedly provided with a rotating shaft, the rotating shaft is rotatably arranged in the middle of the digging shovel, the right end of the digging shovel is rotatably arranged on a driven block, the left side of the driven block is fixedly provided with a sliding rod, and the sliding rod is arranged on the rear side of the mounting block in a left-right sliding manner;

the cutting mechanism comprises a driving spline shaft which is rotatably arranged at the left part of the lifting thread block, a driving spline sleeve is arranged on the driving spline shaft through a spline, the driving spline sleeve is rotatably arranged in a power slider, a thread sleeve is rotatably arranged in the power slider, the thread sleeve is connected with the driving spline sleeve through a gear pair, the thread sleeve is arranged on a driving thread shaft in a threaded manner, the driving thread shaft is fixedly arranged at the left side of the upper part of a connecting plate, the connecting plate is arranged at the left side of the lifting thread block in a left-right sliding manner, a cutting spring connected with the lifting thread block is arranged at the right side of the connecting plate, a turnover plate and a cutting roller are rotatably arranged at the lower end of the connecting plate, the turnover block is rotatably arranged at the upper part of the turnover plate, a transition spline shaft is rotatably arranged in, the transition spline housing is rotatably installed in the power sliding block and is connected with the driving spline housing through a bevel gear pair.

2. The automatic bamboo shoot digging device of claim 1, wherein: the host computer is provided with the motor in the body, the motor downside is connected with the power shaft, the power shaft is connected with the driving shaft sleeve and rotates the cover through two gear pairs, rotate the cover with the driving shaft sleeve all rotate install in the host computer body, just the driving shaft sleeve rotate install in rotate the cover with in the turning block, rotate cover fixed mounting in the turning block upside, fixed mounting has lift screw thread axle and downwardly extending in the host computer body, lift screw thread axle lower extreme rotates and installs in the bottom plate, the epaxial screw thread of lift screw is installed lift screw thread piece.

3. The automatic bamboo shoot digging device as claimed in claim 2, wherein: the excavating mechanism further comprises a transmission spline shaft which is rotatably installed at the right part of the rotating block, the upper end of the transmission spline shaft is connected with the transmission shaft through a gear pair, the lower end of the transmission spline shaft is rotatably installed in the bottom plate, a top block is vertically and slidably installed at the lower side of the right part of the lifting thread block, a jacking spring connected with the lifting thread block is arranged at the upper side of the top block, a transmission spline sleeve is rotatably installed in the top block, a transmission spline sleeve spline is installed on the transmission spline shaft, a power bevel gear is fixedly installed on the transmission spline sleeve, and a transmission bevel gear which can be meshed with the power bevel gear is fixedly installed at the left end of the excavating spline shaft.

4. The automatic bamboo shoot digging device as claimed in claim 2, wherein: the cutting mechanism further comprises a connecting spline shaft rotatably installed at the left part of the rotating block, the lower end of the connecting spline shaft is rotatably installed at the left part of the bottom plate, a connecting spline sleeve is installed on the connecting spline shaft through a spline, the connecting spline sleeve is rotatably installed in a pressing block, the pressing block is vertically slidably installed at the left part of the lifting threaded block, a pressure spring connected with the lifting threaded block is arranged on the upper side of the pressing block, a connecting bevel gear is fixedly installed on the connecting spline sleeve, and a driving bevel gear capable of being meshed with the connecting bevel gear is arranged on the right side of the driving spline shaft.

5. The automatic bamboo shoot digging device as claimed in claim 1, wherein: the upper part of the turnover plate is rotatably provided with a turnover shaft, the turnover shaft is rotatably arranged in the turnover block and is connected with the transition spline shaft through a bevel gear pair, the turnover plate is rotatably arranged with a cut spline shaft, the upper end of the cut spline shaft can be connected with the turnover shaft through the bevel gear pair, the spline on the cut spline shaft is provided with a cut spline housing, the cut spline housing is rotatably arranged in a pushing slider which is slidably arranged in the turnover plate up and down, the pushing slider is rotatably arranged with a pushing shaft, the pushing shaft is connected with the turnover plate through gear and rack meshing, the pushing shaft is connected with the cut spline housing through a bevel gear, the left side of the pushing slider is fixedly provided with a cutting plate, the upper part of the cutting plate is rotatably provided with two cutting shafts, and the two cutting shafts are respectively connected with the front end and the rear end of the pushing slider through two gear pairs, the cutting device is characterized in that a power band saw wheel is fixedly mounted on the cutting shaft, a band saw is sleeved on the power band saw wheel, the band saw is further sleeved on two directional wheels, the two directional wheels are respectively rotatably mounted on the front side and the rear side of the lower portion of the cutting plate, and directional blocks are arranged in the cutting plate.