CN109090636B - Sugarcane peeling machine - Google Patents

Abstract

The invention discloses a sugarcane peeling machine, which comprises a sugarcane container, a receiving mechanism, a feeding mechanism, a guide structure, a pushing mechanism and a peeler, wherein the receiving mechanism is arranged on the sugarcane container; the sugarcane container is provided with a discharging channel; the material receiving mechanism is provided with a material receiving groove; the feeding mechanism comprises a bearing assembly and a first rotary driving structure, and the bearing assembly is provided with a bearing groove; the receiving groove is used for receiving the sugarcane falling from the discharging channel; the first rotary driving structure is used for driving the bearing assembly to rotate so that the notch of the bearing groove faces to the sugarcane container or the receiving mechanism; the guide structure is used for guiding the sugarcane in the receiving groove into the receiving groove when the notch of the receiving groove faces the receiving mechanism; the pushing mechanism is used for pushing the sugarcane in the receiving groove to move relative to the peeler so as to enable the peeler to cut off the sugarcane skin. According to the sugarcane peeling machine, automatic feeding of sugarcane is achieved through the feeding mechanism, labor intensity is reduced, peeling efficiency is improved, and sanitation and safety are guaranteed.

Description

Sugarcane peeling machine

Technical Field

The invention relates to a peeling machine, in particular to a sugarcane peeling machine.

Background

At present, sugarcane is an economic crop with extremely wide distribution, is delicious, sweet, rich in juice and rich in nutrition, and is deeply favored by people. However, eating sugarcane for peeling is a long-standing problem. In the past, most sugarcane peels are peeled by hands by using a peeling knife, so that the peeling speed is low, and the peeling effect is affected due to the proficiency of a peeler, so that the sugarcane peeler is time-consuming and labor-consuming, is unhygienic and can scratch hands.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide a sugarcane peeling machine which realizes automatic feeding of sugarcane through a feeding mechanism, reduces labor intensity, improves peeling efficiency and ensures sanitation and safety.

The invention adopts the following technical scheme:

a sugarcane peeling machine comprises a sugarcane container, a receiving mechanism, a feeding mechanism, a guide structure, a pushing mechanism and a peeler; the sugarcane container is provided with a discharging channel; the material receiving mechanism is provided with a material receiving groove; the feeding mechanism comprises a bearing assembly and a first rotary driving structure, and the bearing assembly is provided with a bearing groove; the receiving groove is used for receiving the sugarcane falling from the discharging channel; the first rotary driving structure is used for driving the bearing assembly to rotate so that the notch of the bearing groove faces the sugarcane container or the receiving mechanism; the guide structure is used for guiding the sugarcane in the receiving groove into the receiving groove when the notch of the receiving groove faces the receiving mechanism; the pushing mechanism is used for pushing the sugarcane in the receiving groove to move relative to the peeler so that the peeler can cut off sugarcane peels.

Further, the peeler comprises a clamping ring and a peeling knife fixed on the clamping ring, and the cutting edge of the peeling knife faces the receiving groove; the clamping ring is used for the sugarcane pulp to pass through.

Further, the material receiving mechanism comprises a shell, a second rotary driving structure and a material receiving assembly; the shell is provided with a feed inlet for the sugarcane to pass through; the receiving component is arranged in the shell and is provided with a plurality of receiving grooves; the material receiving grooves are sequentially arranged along the circumferential direction; the second rotary driving structure is used for driving the material receiving assembly to rotate so as to link the material receiving groove to pass through the feeding port; the inner wall of the housing is adapted to withstand sugarcane located in the receiving chute to confine the sugarcane within the receiving chute.

Further, the pushing mechanism comprises a pushing assembly and a linear driving structure, wherein the pushing assembly is provided with a plurality of pushing parts which are arranged in one-to-one correspondence with the plurality of receiving grooves; the pushing part is used for abutting against the sugarcane; the linear driving structure is used for driving the pushing assembly to move.

Further, the number of the peelers is multiple, and the peelers are sequentially arranged around the rotating direction of the material receiving assembly and are fixed on the material receiving assembly; the peelers are arranged in one-to-one correspondence with the material receiving grooves.

Further, the bearing assembly comprises a bearing piece and a rotating shaft, the bearing piece is fixedly sleeved on the rotating shaft, and the bearing groove is formed in the side wall of the bearing piece; the first rotary driving structure is in transmission connection with the rotating shaft; the guide structure comprises a guide plate, one end of the guide plate is movably propped against the upper part of the rotating shaft, and the other end of the guide plate is fixed on the mouth wall of the feed inlet; the guide plate is gradually inclined downward from one end to the other end.

Further, the second rotary driving structure comprises a motor, a driving gear fixedly sleeved on an output shaft of the motor, a driven gear meshed with the driving gear, a transmission gear fixedly connected with the driven gear, and a transmission chain meshed with the transmission gear; the transmission chain is fixed on the material receiving assembly and extends along the rotation direction of the material receiving assembly.

Further, the sugarcane peeling machine further comprises a blanking mechanism, and the pushing mechanism is further used for pushing sugarcane in the receiving groove towards the direction of the blanking mechanism; the cutting mechanism is used for cutting off sugarcane.

Further, the cutting mechanism comprises a cutter and a third rotary driving structure, and the third rotary driving structure is used for driving the cutter to rotate.

Further, the receiving groove, the peeler and the cutter are sequentially arranged along a straight line.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the sugarcane is received by adopting the receiving groove of the receiving assembly, the sugarcane is fed into the receiving groove under the cooperation of the first rotary driving structure and the guide structure, and then the sugarcane skin of the sugarcane in the receiving groove is removed under the cooperation of the pushing mechanism and the peeler; in the process, manual operation is not needed, so that the labor intensity is reduced, the efficiency is improved, and the sanitation and safety are ensured.

Drawings

FIG. 1 is a schematic view of the overall structure of the sugarcane peeling machine of the present invention;

FIG. 2 is a schematic view of the sugarcane peeling machine of the present invention;

FIG. 3 is a schematic view of the structure of the feeding mechanism of the present invention;

FIG. 4 is a schematic view of the sugarcane peeling machine of the present invention at an angle (with the feed mechanism and sugarcane container removed);

FIG. 5 is a schematic view of the other side view of the sugarcane peeling machine of the present invention (with the feed mechanism and sugarcane container removed);

FIG. 6 is a schematic diagram of a pushing mechanism according to the present invention;

fig. 7 is a schematic view of the construction of the peeler of the present invention.

In the figure: 10. a sugar cane container; 11. a discharge channel; 20. a receiving mechanism; 21. a housing; 211. a feed inlet; 22. a second rotary drive structure; 221. a motor; 222. a drive gear; 223. a driven gear; 224. a transmission gear; 225. a drive chain; 23. a receiving assembly; 231. a receiving groove; 30. a feeding mechanism; 31. a receiving assembly; 311. a receiving member; 3111. a receiving groove; 312. a rotating shaft; 32. a first rotary drive structure; 40. a guide structure; 50. a pushing mechanism; 51. a pushing assembly; 52. a linear driving structure; 60. a peeler; 61. a clasp; 62. a peeling knife; 70. and a blanking mechanism.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

1-7, a sugarcane peeling machine comprises a sugarcane container 10, a receiving mechanism 20, a feeding mechanism 30, a guide structure 40, a pushing mechanism 50 and a peeler 60; the sugarcane container 10 is provided with a discharge channel 11; the sugar cane container 10 may be a barrel, box, or the like; the discharging channel 11 is used for the sugarcane to pass through; the receiving mechanism 20 is formed with a receiving slot 231; the feeding mechanism 30 comprises a receiving component 31 and a first rotary driving structure 32, wherein the receiving component 31 is provided with a receiving groove 3111; the receiving groove 3111 is used for receiving the sugarcane falling from the discharging channel 11; in actual situations, the width of the receiving groove 3111 can be set according to the direct arrangement of the sugarcane, so that one sugarcane can be accommodated; the first rotation driving structure 32 is used for driving the receiving component 31 to rotate so as to enable the notch of the receiving groove 3111 to face the sugarcane container 10 or the receiving mechanism 20; at this time, when the notch of the receiving groove 3111 faces the sugar cane container 10, the receiving groove 3111 can receive sugar cane dropped from the discharge passage 11; the guiding structure 40 is used for guiding the sugarcane in the receiving groove 3111 into the receiving groove 231 when the notch of the receiving groove 3111 faces the receiving mechanism 20; the pushing mechanism 50 is used for pushing the sugarcane in the receiving groove 231 to move relative to the peeler 60 so as to enable the peeler 60 to peel off sugarcane skin; in practice, the peeler 60 is reasonably positioned so that the blade of the peeler 60 is just against the junction or the vicinity of the junction of the bark and the flesh of the sugar cane when the pushing mechanism 50 pushes the sugar cane.

On the basis of the structure, when the sugarcane peeling machine is used, sugarcane is loaded into the sugarcane container 10, the sugarcane falls off from the discharge channel 11 under the action of self gravity, the first rotating mechanism drives the bearing assembly 31 to rotate, the notch of the bearing groove 3111 faces the sugarcane container 10, at the moment, the sugarcane falling off from the discharge channel 11 enters the bearing groove 3111, then the pushing mechanism 50 pushes the sugarcane to move relative to the peeler 60, and when the cutting edge of the peeler 60 abuts against the junction of the sugarcane peel and the sugarcane flesh or the position nearby, the peeling of the sugarcane peel can be realized by the pushing mechanism 60 under the action of the pushing force of the pushing mechanism 50; the process realizes automatic feeding and automatic peeling of the sugarcane, can reduce labor intensity, improves peeling efficiency and ensures sanitation and safety.

The first rotary driving structure 32 may be a conventional rotary motor, a rotary hydraulic cylinder, a hollow rotary platform, etc., for example, when the rotary motor is used, an output shaft of the rotary motor is in transmission connection with the receiving assembly 31; the first rotation driving structure 32 may also adopt a structure that the first rotation driving structure 32 includes a motor, a first gear fixedly sleeved on an output shaft of the motor, a second gear fixedly connected with the receiving assembly 31, and a chain wound around the first gear and the second gear; it should be noted that, the rotating motor, the rotating hydraulic cylinder, the hollow rotating platform, the motor and the like are existing components, and the circuit structure diagram, the power on-off control and the driving principle thereof can be known by those skilled in the art from the prior art, and are not described herein.

The peeler 60 may include a blade having a blade edge facing the receiving slot 231, such that peeling is performed by pushing the pushing mechanism 50, but preferably, the peeler 60 includes a snap ring 61 and a peeling knife 62 fixed to the snap ring 61, wherein the blade edge of the peeling knife 62 faces the receiving slot 231, since the sugarcane is extended to a longer and longer length near one end of the blade in the step-wise peeling process, and the sugarcane is easily inclined downward by gravity to be separated from the receiving slot 231 when the length of the portion exceeds half of the length; the clasp 61 is used for the passage of the sugarcane pulp; thus, when the sugarcane peeling machine is used, under the action of the pushing mechanism 50, the peeling knife 62 removes sugarcane skin, and sugarcane flesh enters the clamping ring 61, at this time, the clamping ring 61 supports and clamps the sugarcane flesh, so that the tilting of the sugarcane can be avoided, the smooth peeling is ensured, and the peeling of the sugarcane with the largest area is realized.

Here, the sugar cane flesh refers to a part of the sugar cane located in the bark of the sugar cane.

The receiving mechanism 20 may be implemented in a manner, in which the first receiving mechanism 20 includes a receiving plate, and the receiving plate is provided with the receiving slot 231; the second mode, the receiving mechanism 20 comprises a receiving box, and the receiving box is provided with the receiving groove 231; while the following embodiments are preferred in this example: the receiving mechanism 20 comprises a shell 21, a second rotary driving structure 22 and a receiving assembly 23; the shell 21 is provided with a feed inlet 211 for the sugarcane to pass through; the receiving assembly 23 is arranged in the shell 21 and is provided with a plurality of receiving grooves 231; the receiving grooves 231 are sequentially arranged along the circumferential direction; the second rotary driving structure 22 is used for driving the material receiving assembly 23 to rotate so as to link the material receiving groove 231 to pass through the material inlet 211; the inner wall of the housing 21 serves to withstand the sugar cane located within the receiving channel 231 to confine the sugar cane within the receiving channel 231.

On the basis of the structure, when the sugarcane harvester is used, the second rotary driving structure 22 drives the receiving assembly 23 to rotate, in the rotating process of the receiving assembly 23, when the receiving groove 231 rotates to a position opposite to the feeding hole 211, sugarcane guided by the guide structure 40 enters the receiving groove 231 to finish receiving, then the receiving groove 231 filled with the sugarcane is far away from the feeding hole 211 under the continuous driving of the second rotary driving structure 22, and the sugarcane is limited in the receiving groove 231 under the action of the inner wall of the shell 21; simultaneously, the empty receiving groove 231 is rotated to the position of the feeding hole 211, so that continuous receiving is realized.

The receiving assembly 23 comprises a rotating shaft and a receiving cylinder, the receiving cylinder is fixed on the rotating shaft, and the side wall of the receiving cylinder is recessed towards the central axis direction of the receiving cylinder to form the receiving groove 231; the second rotary driving structure 22 is in transmission connection with the rotary shaft; in actual use, the machine body can be arranged, and the rotating shaft is pivoted on the machine body so as to realize the support of the rotating shaft.

Further, the pushing mechanism 50 includes a pushing assembly 51 and a linear driving structure 52, where the pushing assembly 51 has a plurality of pushing parts corresponding to the plurality of receiving slots 231 one by one, and the pushing parts may be a pushing block, a pushing plate, a pushing column, or the like; the pushing part is used for abutting against the sugarcane; the linear driving structure 52 is used for driving the pushing assembly 51 to move; thus, when the pushing assembly 51 of the linear driving structure 52 moves, the pushing portions of the pushing assembly 51 respectively collide with the sugarcane in each receiving groove 231, so that simultaneous pushing of multiple sugarcane is realized.

Further, the number of peelers 60 is plural, and the plurality of peelers 60 are sequentially arranged around the rotation direction of the receiving assembly 23 and are fixed on the receiving assembly 23; the plurality of peelers 60 are arranged in one-to-one correspondence with the plurality of receiving slots 231; in this way, under the pushing action of the pushing component 51, the sugarcane is relatively moved relative to the peelers 60 at the same time, so that the sugarcane is peeled at the same time, and the processing efficiency is further improved; furthermore, only one linear driving structure 52 is adopted, so that energy sources can be saved, and the structure is simplified.

The linear driving structure 52 may be a conventional component such as a linear motor, a cylinder, a hydraulic cylinder, etc., and the circuit structure, the power on-off control, and the driving principle of the driving structure are known in the art by those skilled in the art, and are not described herein.

Specifically, the number of the receiving slots 3111 may be plural, the receiving slots 3111 are sequentially arranged around the rotation direction of the receiving assembly 31, and in the practical use process, the rotation speeds of the first rotation driving structure 32 and the second rotation driving structure 22 are controlled, so that the receiving slots 3111 just drive the receiving slots 231 to the direction of the feeding port 211 when the slots face the direction of the receiving mechanism 20, and thus the receiving assembly 31 can receive sugarcane orderly and continuously, and convey the received sugarcane orderly and continuously into the receiving slots 231, thereby improving conveying efficiency.

The receiving assembly 31 may adopt a receiving column, and in this embodiment, the receiving assembly 31 includes a receiving member 311 and a rotating shaft 312, the receiving member 311 is fixedly sleeved on the rotating shaft 312, and a receiving groove 3111 is formed on a side wall of the receiving member 311; the first rotary driving structure 32 is in transmission connection with the rotating shaft 312; thus, the first rotation driving structure 32 drives the rotation shaft 312 to rotate, so that the rotation of the receiving groove 3111 can be realized; correspondingly, the guide structure 40 comprises a guide plate, one end of the guide plate is movably propped against the upper part of the rotating shaft 312, and the other end of the guide plate is fixed on the mouth wall of the feed inlet 211; the guide plate is gradually inclined downward from one end to the other end thereof. Thus, when the first rotation driving structure 32 drives the rotation shaft 312 to rotate, the rotation shaft 312 rotates relative to the guide plate, and when the notch of the receiving groove 3111 rotates to a position facing the material receiving mechanism 20 and located above the guide structure 40, along with the continuous rotation of the receiving piece 311, the sugarcane leaves the receiving groove 3111, at this time, the guide plate receives the sugarcane, and then the sugarcane enters the feeding hole 211 along the guide plate under the action of the gravity of the sugarcane, so as to complete the guiding; in the above structure, the guide can be realized by only arranging one guide plate through the matching of the rotating shaft 312 and the inlet wall of the feed inlet 211, and the matching of the rotating shaft 312 and the inlet wall of the feed inlet 211 simplifies the installation procedure of the guide plate, namely, the structure is simplified, and the guide is easy to realize.

It should be noted that, the receiving piece 311 may be a receiving plate or a receiving post; furthermore, the number of the bearing pieces 311 is a plurality, the bearing pieces 311 are arranged at intervals along the extending direction of the rotating shaft 312, and the bearing pieces 311 simultaneously support the sugarcane; correspondingly, the number of the guide plates is multiple, the guide plates are arranged at intervals along the extending direction of the rotating shaft 312, and the guide plates guide sugarcane at the same time; the plurality of receiving pieces 311 and the plurality of guide plates are alternately arranged in sequence; thus, the stability of transportation and guidance can be improved.

In the above structure, a machine body may be further provided, and the rotating shaft 312 is pivotally connected to the machine body, so as to support the rotating shaft 312.

The second rotary driving structure 22 may be a rotary hydraulic cylinder, a hollow rotary platform, etc.; the embodiment is preferable in that the second rotary driving structure 22 includes a motor 221, a driving gear 222 fixedly fitted on an output shaft of the motor 221, a driven gear 223 engaged with the driving gear 222, a transmission gear 224 fixedly connected with the driven gear 223, and a transmission chain 225 engaged with the transmission gear 224; the transmission chain 225 is fixed on the material receiving assembly 23 and extends along the rotation direction of the material receiving assembly 23; in this way, the driving gear 222 is driven to rotate by the rotation of the output shaft of the motor 221, the driving gear 222 is linked with the driven gear 223 to rotate so as to transmit power to the transmission gear 224, and then the transmission gear 224 drives the transmission chain 225 to move under the action of the transmission gear 224, so that the rotation of the material receiving assembly 23 is realized.

It should be noted that, the rotary hydraulic cylinder, the hollow rotary platform, and the motor 221 are all existing components, and the circuit structure, the power on-off control, and the driving principle of the driving components are known by those skilled in the art from the prior art, and are not repeated herein.

In order to realize the sectioning operation of the sugarcane, the sugarcane peeling machine preferably further comprises a blanking mechanism 70, and the pushing mechanism 50 is further used for pushing the sugarcane in the receiving groove 231 towards the blanking mechanism 70; the blanking mechanism 70 is used to cut the sugar cane.

Specifically, the cutting mechanism 70 includes a cutter and a third rotary driving structure for driving the cutter to rotate; thus, when the pushing mechanism 50 pushes the sugarcane part to a position beyond the cutter, the cutter rotates under the drive of the third rotary driving structure, so that the cutting action on the sugarcane is realized in the rotating process, and the structure is simple; moreover, the third rotary driving structure is used for driving the sugarcane, so that the sugarcane does not need to be manually conveyed to be cut off, and the labor intensity can be further reduced.

More specifically, the receiving groove 231, the peeler 60, and the cutter are sequentially arranged along a straight line. In this way, after the pushing mechanism 50 pushes the sugarcane to the peeler 60 for peeling, the sugarcane directly enters the cutter cutting area for cutting, so that the driving time can be saved, the sugarcane is cut while being peeled later, the time is saved, and the efficiency is improved; furthermore, the weight of the sugarcane extending out of the receiving groove 231 can be reduced, the possibility of the sugarcane tilting downwards due to dead weight can be reduced, and the gravity action of the sugarcane on the clamping ring 61 can be reduced when the peeler 60 adopts the combination of the clamping ring 61 and the cutter.

The third rotary driving structure can be in transmission connection with the middle part of the cutter, so that when the receiving groove 231 is provided with a plurality of embodiments, the third rotary driving structure drives the cutter to rotate, and the sugarcane on the two opposite sides is cut off simultaneously, so that the efficiency is improved.

It should be noted that the third rotary driving structure may be a driving component such as an existing rotary motor, a rotary hydraulic cylinder, a hollow rotary platform, etc., and a circuit structure diagram, power on-off control, and a driving principle of the driving component may be known by those skilled in the art from the prior art, and will not be described herein.

The above embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present invention are intended to be within the scope of the present invention as claimed.

Claims (8)

1. A sugarcane peeling machine, characterized in that: comprises a sugarcane container, a receiving mechanism, a feeding mechanism, a guiding structure, a pushing mechanism and a peeler; the sugarcane container is provided with a discharging channel; the material receiving mechanism is provided with a material receiving groove; the feeding mechanism comprises a bearing assembly and a first rotary driving structure, and the bearing assembly is provided with a bearing groove; the receiving groove is used for receiving the sugarcane falling from the discharging channel; the first rotary driving structure is used for driving the bearing assembly to rotate so that the notch of the bearing groove faces the sugarcane container or the receiving mechanism; the guide structure is used for guiding the sugarcane in the receiving groove into the receiving groove when the notch of the receiving groove faces the receiving mechanism; the pushing mechanism is used for pushing the sugarcane in the receiving groove to move relative to the peeler so as to enable the peeler to cut off sugarcane peels;

the peeler comprises a clamping ring and a peeling knife fixed on the clamping ring, and the cutting edge of the peeling knife faces the receiving groove; the clamping ring is used for the sugarcane pulp to pass through;

the material receiving mechanism comprises a shell, a second rotary driving structure and a material receiving assembly; the shell is provided with a feed inlet for the sugarcane to pass through; the receiving component is arranged in the shell and is provided with a plurality of receiving grooves; the material receiving grooves are sequentially arranged along the circumferential direction; the second rotary driving structure is used for driving the material receiving assembly to rotate so as to link the material receiving groove to pass through the feeding port; the inner wall of the housing is adapted to withstand sugarcane located in the receiving chute to confine the sugarcane within the receiving chute.

2. A sugarcane peeling machine as claimed in claim 1, wherein: the pushing mechanism comprises a pushing assembly and a linear driving structure, and the pushing assembly is provided with a plurality of pushing parts which are arranged in one-to-one correspondence with the plurality of receiving grooves; the pushing part is used for abutting against the sugarcane; the linear driving structure is used for driving the pushing assembly to move.

3. A sugarcane peeling machine as claimed in claim 2, wherein: the peelers are sequentially arranged around the rotating direction of the material receiving assembly and are fixed on the material receiving assembly; the peelers are arranged in one-to-one correspondence with the material receiving grooves.

4. A sugarcane peeling machine as claimed in claim 1, wherein: the bearing assembly comprises a bearing piece and a rotating shaft, the bearing piece is fixedly sleeved on the rotating shaft, and the bearing groove is formed in the side wall of the bearing piece; the first rotary driving structure is in transmission connection with the rotating shaft; the guide structure comprises a guide plate, one end of the guide plate is movably propped against the upper part of the rotating shaft, and the other end of the guide plate is fixed on the mouth wall of the feed inlet; the guide plate is gradually inclined downward from one end to the other end.

5. A sugarcane peeling machine as claimed in claim 1, wherein: the second rotary driving structure comprises a motor, a driving gear fixedly sleeved on an output shaft of the motor, a driven gear meshed with the driving gear, a transmission gear fixedly connected with the driven gear, and a transmission chain meshed with the transmission gear; the transmission chain is fixed on the material receiving assembly and extends along the rotation direction of the material receiving assembly.

6. A sugarcane peeling machine as claimed in claim 1, wherein: the sugarcane peeling machine further comprises a blanking mechanism, and the pushing mechanism is further used for pushing sugarcane in the receiving groove towards the direction of the blanking mechanism; the cutting mechanism is used for cutting off sugarcane.

7. A sugarcane peeling machine as claimed in claim 6 wherein: the cutting mechanism comprises a cutter and a third rotary driving structure, and the third rotary driving structure is used for driving the cutter to rotate.

8. A sugarcane peeling machine as claimed in claim 7 wherein: the receiving groove, the peeler and the cutter are sequentially arranged along a straight line.