CN108669580B - Sugarcane peeling and processing device - Google Patents

Abstract

The invention provides a sugarcane peeling processing device which is used for solving the problem of low peeling processing efficiency of the existing sugarcane.

Description

Sugarcane peeling and processing device

Technical Field

The invention relates to the technical field of food processing, in particular to a sugarcane peeling processing device.

Background

However, because the sugar cane has a firm outer skin, the sugar cane needs to be peeled before being eaten, and the existing merchants manually peel the sugar cane before being eaten, so that the processing speed is low, extra labor cost is needed, and the requirement for large batch cannot be met.

The patent of publication No. CN107411119A discloses a sugarcane rapid processing device with a rotary peeling function, which comprises a base, wherein two ends of the base are fixedly connected with supporting plates, first bearings are embedded in the supporting plates, inner rings of the two first bearings are respectively and fixedly connected with a left clamping block and a right clamping block, a first groove with an opening facing to the right is formed in the left clamping block, a spring is fixedly connected to the left part in the first groove, and a baffle is fixedly connected to the right end of the spring; a second groove with an opening arranged towards the left is formed in the right clamping block, and sugarcane is arranged between the first groove and the second groove. The sugarcane harvester has the beneficial effects that the driving belt wheel drives the driven belt wheel to rotate through the conveying belt, the driven belt wheel drives the right clamping block to rotate, and then the right clamping block drives the sugarcane to rotate; the moving device is used for driving the sharp teeth to move left and right, so that the sugarcane is peeled; the height of the sharp teeth is adjusted by the peeling device, so that the sharp teeth are in contact with the lower sides of the sugarcanes, and peeling is realized. The invention peels the sugarcane by contacting the sharp teeth with the sugarcane, is different from the invention, although the mechanical peeling is adopted, the peeling speed is slow, the peeling time is long, the efficiency is low, meanwhile, the peeled sugarcane can not be cut in a segmentation way subsequently, for some very long sugarcanes, the sugarcane is inconvenient to store and take subsequently after being peeled, and the device lacks a cleaning device and can not ensure the sanitary condition of the sugarcane before being processed.

Disclosure of Invention

The invention aims to provide a sugarcane peeling processing device, which is used for solving the problems that manual peeling and cutting are low in efficiency and the sugarcane is inconvenient to clean.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a sugarcane peeling processing device comprises a machine frame (10), wherein a feeding mechanism (20), a transmission mechanism (30), a peeling mechanism (40), a cutting mechanism (50) and a cleaning mechanism (60) are arranged on the machine frame (10),

the feeding mechanism (20) comprises a support, the support is arranged on the rack (10), at least more than one crank is arranged on the support, one end of each crank is fixed on the support, the other end of each crank is connected with the cross rod, at least two or more sleeves are arranged on the cross rod, sleeve rods are sleeved in the sleeves, and one ends of the sleeve rods are connected with the clamping plates;

the peeling mechanism (40) comprises at least three and more than three first knife rests and second knife rests, a guide rod is arranged on one side face of each first knife rest, the guide rods are sleeved in guide cylinders of the rack (10) and can move radially, the other side face of each first knife rest is a cambered surface, a first blade is arranged at the tail end of the cambered surface, the first blade is fixed on the first knife rest through screws and screw holes in the first knife rests, supporting columns are arranged on the lower side face of each first knife rest, elastic ropes are wound among the supporting columns in a surrounding mode, each second knife rest comprises a sliding rod and a pushing block, one end of the sliding rod is connected with the rack (10), the other end of the sliding rod is connected with the pushing block, a second blade is arranged at the front end of the pushing block, a pushing groove is formed in the upper end of the pushing block, and the elastic ropes are clamped into the pushing grooves;

the cleaning mechanism (60) comprises a fixing frame and at least three and more brush cylinders, each brush cylinder is provided with a rotating shaft, the rotating shafts penetrate through two opposite side faces of the brush cylinders, and one end of each rotating shaft is provided with a synchronous belt so that each brush cylinder can synchronously rotate.

Furthermore, transmission device (30) includes the transfer wheel, and two relative side of transfer wheel run through and are provided with the transmission axle, the both ends of transmission axle are connected with the slider respectively, the slider sets up in the sliding tray of frame (10) so that the transmission axle can slide.

Further, the cutting mechanism (50) comprises a cutter groove and a cutting blade, and the cutting blade is driven by a motor to reciprocate to be close to or far away from the cutter groove to cut.

Furthermore, the conveying wheel is provided with anti-skid protrusions.

Further, the conveying mechanism (30) is arranged below the feeding mechanism (20), the peeling mechanism (40) is arranged below the conveying mechanism (30), and the cutting mechanism (50) is arranged below the peeling mechanism (40).

Furthermore, the splint are rectangular shape, the medial surface of splint with the one end of loop bar is connected, and relative lateral surface is the cambered surface, be provided with the friction part on the cambered surface.

Furthermore, a spring pressing plate and a loop bar spring are arranged on the loop bar, and the spring pressing plate is close to the joint of the loop bar and the clamping plate.

Furthermore, an extension part is arranged on the transmission shaft, an extension spring is sleeved on the extension part, and the other end of the extension spring is sleeved into a through hole of the rack (10).

Furthermore, one end of the guide cylinder is connected with the rack (10), the other end of the guide cylinder is provided with a stop pin, a telescopic spring is arranged in the guide cylinder, and the guide rod is provided with a guide groove so that the stop pin can be clamped into the guide groove.

Furthermore, the sliding rod is sleeved in a sliding cylinder of the rack (10), and a sliding spring is arranged in the sliding cylinder.

According to the sugarcane peeling machine, sugarcane is mechanically processed, peeled automatically and cut in a segmented mode, sugarcane peeling efficiency is improved, labor cost is saved, sugarcane is conveniently and rapidly peeled on a large scale, the sugarcane is cleaned through the cleaning mechanism, cleanness and sanitation of the sugarcane are guaranteed, and finally the sugarcane is integrally combined with the cleaning mechanism, so that the sugarcane is processed in place once, and processing efficiency is improved.

Drawings

FIG. 1 is an external structural view of a sugarcane peeling apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a bracket of a feeding mechanism of the sugarcane peeling processing device provided by the embodiment of the invention;

FIG. 3 is a schematic structural diagram of a conveying mechanism of a sugarcane peeling processing device provided by an embodiment of the invention;

FIG. 4 is a schematic cross-sectional view of a peeling mechanism of a sugarcane peeling machine according to an embodiment of the present invention;

FIG. 5 is a schematic view of a blade carrier of a peeling mechanism of a sugarcane peeling machine according to an embodiment of the present invention;

FIG. 6 is another schematic cross-sectional view of a peeling mechanism of a sugarcane peeling machine according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a cutting mechanism of a sugarcane peeling machine according to an embodiment of the invention;

FIG. 8 is a schematic structural diagram of a cleaning mechanism of a sugarcane peeling machine according to an embodiment of the invention;

in the figure, a frame 10, a sliding groove 101, a through hole 102, a guide cylinder 103, a stop pin 1031, a sliding cylinder 104, a feeding mechanism 20, a support 201, a crank 202, a cross bar 203, a sleeve 2031, a sleeve 2032, a sleeve spring 2033, a spring pressing plate 2034, a clamping plate 204, a friction part 2041, a transmission mechanism 30, a transmission wheel 301, an anti-skid protrusion 3011, a transmission shaft 302, a slider 303, an extension part 3021, an extension spring 3022, a peeling mechanism 40, a first knife rest 41, a guide rod 411, a guide groove 4111, an arc 412, a first knife rest 4121, a screw 4122, a screw 4123, a support 413, an elastic cord 414, a second knife rest 42, a sliding rod 421, a pushing block 422, a second knife rest 4221, a pushing groove 4222, a cutting mechanism 50, a knife groove 501, a cutting blade 502, a motor 503, a cleaning mechanism 60, a fixed frame 61, a brush cylinder 62, a rotating shaft.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Referring to fig. 1, an embodiment of the present invention provides a sugarcane peeling processing device, which comprises a frame 10, a feeding mechanism 20 is arranged at the upper end of the frame 10, a closed shell is arranged around the outside of the frame 10, a conveying mechanism 30, a peeling mechanism 40, a cutting mechanism 50 and a cleaning mechanism 60 are arranged inside the frame 10, and the internal structure of the frame 10 can be seen from fig. 3 due to the shielding of the shell outside the frame 10 in fig. 1.

The feeding mechanism 20 comprises a support 201, the support 201 is arranged on the rack 10, at least more than one crank 202 is arranged on the support 201, one end of the crank 202 is fixed on the support 201, the other end of the crank 202 is connected with a cross rod 203, at least two or more than two sleeves 2031 are arranged on the cross rod 203, a sleeve rod 2032 is sleeved in each sleeve 2031, and one end of each sleeve rod 2032 is connected with a clamping plate 204;

the peeling mechanism 40 comprises at least three or more than three first knife rests 41 and second knife rests 42, one side surface of each first knife rest 41 is provided with a guide rod 411, the guide rods are sleeved in the guide cylinders 103 of the rack 10 and can move radially, the other side surface of each first knife rest 41 is an arc surface 412, the tail end of each arc surface 412 is provided with a first blade 4121, each first blade 4121 is fixed on each first knife rest 41 through a screw 4122 and a screw hole 4123 in each first knife rest, the lower side surface of each first knife rest 41 is provided with a support column 413, an elastic rope 414 is wound between the support columns 413, each second knife rest 42 comprises a sliding rod 421 and a pushing block 422, one end of each sliding rod 421 is connected with the rack 10, the other end of each sliding rod 421 is connected with the pushing block 422, the front end of each pushing block 422 is provided with a second blade 4221, the upper end of each pushing block 422 is provided with a pushing;

the cleaning mechanism 60 includes a fixing frame 61 and at least three or more brush drums 62, each brush drum 62 is provided with a rotating shaft 621, the rotating shaft penetrates through two opposite side surfaces of the brush drum 62, and one end of each rotating shaft 621 is provided with a timing belt 63 so that each brush drum rotates synchronously.

First, description is made from the positional relationship of each mechanism, and then detailed description is continued on the specific structure of each mechanism.

The conveying mechanism 30 is arranged below the feeding mechanism 20, the peeling mechanism 40 is arranged below the conveying mechanism 30, and the cutting mechanism 50 is arranged below the peeling mechanism 40.

When peeling the sugarcane, the sugarcane can be placed into the feeding mechanism 20 mechanically or manually, and the sugarcane is controlled to continuously move downwards, so that the peeling and processing purposes are achieved through the mechanisms arranged at the lower end.

Referring to fig. 1 and 3, the outer periphery of the frame 10 is surrounded by a housing, and the inside of the frame is wrapped by various mechanisms, wherein the cleaning mechanism 60 is arranged beside the various mechanisms to clean the sugarcane which is not peeled, so as to ensure cleanness and sanitation of the sugarcane.

Considering that the sugarcane is generally cylindrical and some sugarcanes are long, one function of the feeding structure 20 is to fix the peeled sugarcanes, so as to ensure that the sugarcanes can be stably fixed on the processing device for peeling.

The conveying mechanism 30 continues to convey the canes downwards so that the peeled portion enters the next cutting and segmenting process, and the non-peeled portion continues to be conveyed to the peeling structure 40 for peeling.

In an embodiment of the present invention, the position sequence of each mechanism is preferably designed according to the processing procedure, and it should be understood that each mechanism in the present device can also adjust the position sequence of each mechanism according to different processing procedures, for example, the cutting mechanism 50 is adjusted to the upper end of the processing device to cut the unpeeled sugarcane first, and this embodiment will not be described in too much detail.

Next, each mechanism will be described in detail based on the positional order of each mechanism in the present embodiment.

Referring to fig. 1 and 2, a detailed structure of the feeding mechanism 20 is shown, wherein fig. 2 is a schematic structural view of the clamping plate 204 of the feeding mechanism 20 in fig. 1.

In fig. 1, the feeding mechanism 20 includes two symmetrical structures, and the two structures have the same bracket 201, crank 202, cross bar 203 and clamping plate 204, only one of which is illustrated in the present embodiment and fig. 1.

The two symmetrical structures form the feeding structure 20, the number of which must be two or more than two, and the feeding structure interact with each other to fix the sugarcane, so that the sugarcane can be pushed to the lower conveying mechanism 30.

The support 201 is arranged on the rack 10, at least one crank 202 is arranged on the support 201, one end of the crank 202 is fixed on the support 201, the other end of the crank 202 is connected with the cross rod 203, at least two or more sleeves 2031 are arranged on the cross rod 203, a sleeve rod 2032 is sleeved in each sleeve 2031, and one end of each sleeve rod 2032 is connected with the clamping plate 204.

Although not shown, it should be understood that the crank 202 is fixed to the frame 201 at one end and can be driven by a motor to move the clamp plate 204 and the cross bar 203, so as to push the cane to be conveyed to the conveying mechanism 30.

The clamping plate 204 is in a strip shape, the inner side surface of the clamping plate 204 is connected with one end of the loop bar 2032, the opposite outer side surface is an arc surface, and a friction part 2041 is arranged on the arc surface.

The clamping plate 204 is in a strip shape, and a friction part 2041 is further arranged on the arc surface in contact with the sugarcane, so that the contact friction force between the clamping plate and the sugarcane is further increased, and the stability of the whole sugarcane can be kept in the peeling and cutting processes of the sugarcane.

The sleeve rod 2032 is provided with a spring pressing plate 2034 and a sleeve rod spring 2033, and the spring pressing plate 2034 is close to the connection between the sleeve rod 2032 and the clamping plate 204.

When putting into the material conveying structure 20 with the sugarcane of different diameters, press from both sides tight sugarcane through two splint 204, and the sugarcane of different diameters then can make the interval between two splint flexible, loop bar 2032 can be radial motion in sleeve 2031, and play the effect to the support of splint 204 or reset through spring pressure plate 2034 and loop bar spring 2033, make two splint 204 can adjust the interval between the two according to the diameter of different sugarcane, thereby reach the effect of fixed clamp, prevent that the sugarcane from appearing the landing in the course of working.

Referring to fig. 3, fig. 3 is a schematic structural view of the transfer mechanism 30.

The transmission mechanism 30 includes a transmission wheel 301, two opposite side surfaces of the transmission wheel 301 are provided with a transmission shaft 302 in a penetrating manner, two ends of the transmission shaft 302 are respectively connected with a sliding block 303, and the sliding block 303 is arranged in the sliding groove 101 of the frame 10 to enable the transmission shaft 302 to slide.

It should be understood that in one embodiment of the present invention, the transmission mechanism 30 in fig. 3 includes two identical transmission wheels 301, transmission shafts 302, sliding blocks 303 and the matching sliding grooves 101, and only one of them is labeled in the figure and only one of them is illustrated in this embodiment because of the identical structure and symmetrical position.

The sugarcane can be clamped tightly by the aid of the combined action of the two transmission wheels, and stability of the sugarcane during processing is guaranteed.

Wherein, the conveying wheel 301 is provided with an anti-skid protrusion 3011.

The contact friction force between the conveying wheel 301 and the sugarcane is increased through the anti-skid protrusions 3011, so that the sugarcane can be conveyed to the peeling structure 40 at the lower end, the phenomenon that the sugarcane slips in the conveying process is prevented, and the processing efficiency and the processing quality are prevented from being affected.

In one embodiment of the present invention, the transmission shaft 302 is provided with an extension 3021, the extension 3021 is sleeved with an extension spring 3022, and the other end of the extension spring 3022 is sleeved in the through hole 102 of the frame 10.

As shown in fig. 3, an extension 3021 is extended from the transmission shaft 302 perpendicularly to the transmission shaft 302, and the extension 3021 is also a cylindrical structure, so that the extension spring 3022 can be sleeved on the extension 3021, and the other end of the extension spring 3022 is connected to the through hole 102 of the frame 10.

Through the extension part 3021 and the extension spring 3022, when the conveying wheel 301 slides in the sliding groove 101 through the conveying shaft 302, the supporting and resetting functions can be achieved, so that the conveying mechanism 30 can convey sugarcanes with different diameters, and can firmly clamp the sugarcanes through the conveying wheel 301, and the slippage during conveying is prevented.

Referring to FIGS. 4, 5 and 6, FIG. 4 is a cross-sectional view of an upper view of the housing 10 showing the upper end configuration of the debarking mechanism 40; FIG. 5 is a detailed schematic view of the peeling mechanism 40, wherein the structure of the peeling mechanism 40 is different from that of FIG. 4, and FIG. 5 is only an illustration and the structure of the rest of the drawing is not shown; FIG. 6 is a cross-sectional view of a top view of the housing 10 showing the underside configuration of the debarking mechanism 40.

The peeling mechanism 40 comprises at least three or more first knife rests 41 and second knife rests 42, a guide rod 411 is arranged on one side surface of each first knife rest 41, the guide rod 411 is sleeved in the guide cylinder 103 of the rack 10 and can move radially, a cambered surface 412 is arranged on the other side surface of each first knife rest 41, a first blade 4121 is arranged at the tail end of the cambered surface 412, the first blade 4121 is fixed on each first knife rest 41 through a screw 4122 and a screw hole 4123 in each first knife rest, supporting columns 413 are arranged on the lower side surface of each first knife rest 41, elastic ropes 414 are wound among the supporting columns 413 in a surrounding mode, each second knife rest 42 comprises a sliding rod 421 and a pushing block 422, one end of each sliding rod 421 is connected with the rack 10, the other end of each sliding rod 421 is connected with the pushing block 422, a second blade 4221 is arranged at the front end of each pushing block 422, a pushing groove 4222 is arranged at the upper.

One end of the guide cylinder 103 is connected with the frame 10, the other end is provided with a stop pin 1031, a telescopic spring is arranged in the guide cylinder 103, and the guide rod 411 is provided with a guide groove 4111 so that the stop pin 1031 is clamped in the guide groove 4111.

In one embodiment of the invention, three or more first and second blade holders 41, 42 are provided with a circular hole at the end thereof for peeling the sugarcane, so that the sugarcane can pass through the circular hole, and the first and second blade holders 41, 42 are provided with blades at the ends thereof for peeling the sugarcane.

When the sugarcane is peeled, the front end part of the sugarcane firstly passes through the first knife rest 41, wherein the peeling mechanism 40 comprises at least three first knife rests 41, the front end part of the sugarcane is firstly contacted with the cambered surface 412 of the first knife rest 41, the sugarcane continuously moves downwards under the action of the transmission mechanism 30 to push the first knife rest 41, the guide rod 411 on the other side surface of the first knife rest 41 overcomes the elastic force of the telescopic spring in the guide cylinder 103 and radially moves in the guide cylinder 103 to drive the three first knife rests to move, the sugarcane continuously moves downwards under the action of the transmission mechanism 30 until the sugarcane can enter circular holes formed by the three first knife rests, and the sugarcane is primarily peeled through blades at the tail ends of the three first knife rests.

Referring to fig. 6, the sliding rod 421 of the second tool holder 42 is sleeved in the sliding cylinder 104 of the frame 10, and the sliding spring is disposed in the sliding cylinder 104.

After the sugarcane is peeled primarily by the blade of the first knife rest 41, the support 413 at the lower end of the first knife rest 41 drives the elastic rope 414 to expand, the elastic rope 414 is clamped in the pushing groove 4222 of the pushing block 422 of the second knife rest 42, the pushing block 422 is driven when the elastic rope 414 expands, a round hole similar to the first knife rest 41 is formed at the front end of the pushing block 422, and when the sugarcane passes through the round hole, the second blade 4221 can peel the sugarcane.

The push block 422 is provided at the front end of the slide lever 421, and the slide lever 421 can move against the resistance of the spring in the slide cylinder 104.

As shown in fig. 7, fig. 7 is a schematic structural view of the cutting mechanism 50.

The cutting mechanism 50 is disposed at the lower end of the peeling mechanism 40 and includes a knife channel 501 and a cutting blade 502, and the cutting blade 502 is driven by a motor 503 to reciprocate to be close to or far from the knife channel 501 for cutting.

After the cane passes through the peeling mechanism 40, the cutting mechanism 50 performs a segmented cutting of the cane, wherein the motor 503 may be controlled to adjust the time interval at which the cutting blade 502 reciprocates, thereby controlling the length of the cut cane.

Referring to fig. 8, fig. 8 is a schematic structural view of the cleaning mechanism 60.

The cleaning mechanism 60 includes a fixing frame 61 and at least three or more brush drums 62, each brush drum 62 is provided with a rotating shaft 621, the rotating shaft 621 penetrates through two opposite side surfaces of the brush drum 62, and one end of each rotating shaft is provided with a timing belt 63 so that each brush drum rotates synchronously.

It should be noted that, although not shown in the drawings, the brush drum is driven by a motor, the motor is provided with one end of the rotating shaft 621 close to the fixing frame 61, the motor drives the rotating shaft 621 to move, and the synchronous belt 63 drives other rotating shafts to move, so that the brush drum 62 rotates to clean the sugarcane.

In an embodiment of the present invention, preferably, when the sugarcane is peeled, the sugarcane is cleaned by the cleaning mechanism 60 and then enters the feeding mechanism 20, and the position of the cleaning mechanism 60 can be changed, for example, the position of the cleaning mechanism 60 is placed at the front end of the feeding mechanism 20, so that the feeding mechanism 20 can directly push the cleaned sugarcane to a subsequent mechanism, and the processing efficiency is improved.

According to the sugarcane peeling machine, sugarcane is mechanically processed, peeled and cut in a segmented mode automatically, peeling efficiency is improved, labor cost is saved, peeling of the sugarcane is conveniently and rapidly performed on a large scale, and the sugarcane which is not peeled is cleaned through the cleaning mechanism without manual cleaning, so that cleanness and sanitation of the sugarcane are guaranteed.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (10)

1. A sugarcane peeling processing device comprises a machine frame (10) and is characterized in that a feeding mechanism (20), a transmission mechanism (30), a peeling mechanism (40), a cutting mechanism (50) and a cleaning mechanism (60) are arranged on the machine frame (10),

the feeding mechanism (20) comprises a support, the support is arranged on the rack (10), at least more than one crank is arranged on the support, one end of each crank is fixed on the support, the other end of each crank is connected with the cross rod, at least two or more sleeves are arranged on the cross rod, sleeve rods are sleeved in the sleeves, and one ends of the sleeve rods are connected with the clamping plates;

the peeling mechanism (40) comprises at least three and more than three first knife rests and second knife rests, a guide rod is arranged on one side face of each first knife rest, the guide rods are sleeved in guide cylinders of the rack (10) and can move radially, the other side face of each first knife rest is a cambered surface, a first blade is arranged at the tail end of the cambered surface, the first blade is fixed on the first knife rest through screws and screw holes in the first knife rests, supporting columns are arranged on the lower side face of each first knife rest, elastic ropes are wound among the supporting columns in a surrounding mode, each second knife rest comprises a sliding rod and a pushing block, one end of the sliding rod is connected with the rack (10), the other end of the sliding rod is connected with the pushing block, a second blade is arranged at the front end of the pushing block, a pushing groove is formed in the upper end of the pushing block, and the elastic ropes are clamped into the pushing grooves;

the cleaning mechanism (60) comprises a fixing frame and at least three and more brush cylinders, each brush cylinder is provided with a rotating shaft, the rotating shafts penetrate through two opposite side faces of the brush cylinders, and one end of each rotating shaft is provided with a synchronous belt so that each brush cylinder can synchronously rotate.

2. A sugarcane peeling and processing device as claimed in claim 1, characterized in that the conveying mechanism (30) comprises a conveying wheel, two opposite sides of the conveying wheel are provided with a conveying shaft in a penetrating manner, two ends of the conveying shaft are respectively connected with a sliding block, and the sliding blocks are arranged in a sliding groove of the frame (10) so as to enable the conveying shaft to slide.

3. A sugar cane debarking processing apparatus according to claim 1, wherein the cutting mechanism (50) includes a knife slot and a cutting blade, the cutting blade being driven by a motor to reciprocate toward and away from the knife slot to effect cutting.

4. A sugarcane peeling and processing device as claimed in claim 2, wherein the conveying wheel is provided with anti-slip projections.

5. A sugarcane peeling and processing device as claimed in claim 1, 2 or 3, characterized in that the conveying mechanism (30) is arranged below the feeding mechanism (20), the peeling mechanism (40) is arranged below the conveying mechanism (30), and the cutting mechanism (50) is arranged below the peeling mechanism (40).

6. The sugarcane peeling and processing device as claimed in claim 1, wherein the clamping plate is in a strip shape, the inner side surface of the clamping plate is connected with one end of the loop bar, the opposite outer side surface is a cambered surface, and a friction part is arranged on the cambered surface.

7. A sugarcane peeling and processing device as claimed in claim 1 or 6, characterized in that the loop bar is provided with a spring pressing plate and a loop bar spring, and the spring pressing plate is close to the connection of the loop bar and the clamping plate.

8. A sugarcane peeling and processing device as claimed in claim 2, characterized in that the transmission shaft is provided with an extension part, the extension part is sleeved with an extension spring, and the other end of the extension spring is sleeved in a through hole of the frame (10).

9. A sugarcane peeling and processing device as claimed in claim 1, characterized in that one end of the guide cylinder is connected to the frame (10) and the other end is provided with a stop pin, a telescopic spring is arranged in the guide cylinder, and the guide rod is provided with a guide groove so that the stop pin can be snapped into the guide groove.

10. A sugarcane peeling and processing device as claimed in claim 1, characterized in that the sliding rod is nested in a sliding cylinder of the frame (10), and a sliding spring is arranged in the sliding cylinder.

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