CN114051828A - Light sugarcane stacking and cutting machine - Google Patents

Abstract

The invention discloses a light sugarcane stacking and cutting machine which comprises a walking vehicle, a frame body, an inverted supporting structure and two cutting structures, wherein the frame body is arranged at the front end of the walking vehicle; the inverted supporting structure is arranged on the frame body and comprises two first inverted supporting assemblies and two second inverted supporting assemblies, and the two first inverted supporting assemblies are obliquely arranged at the front end of the frame body and are used for supporting the lodging sugarcane; the two second inverted supporting assemblies are obliquely arranged on the frame body and are positioned on two opposite sides of the two first inverted supporting assemblies and used for driving the sugarcanes to the two first inverted supporting assemblies; the two cutting structures are respectively arranged at the bottom of the frame body and used for cutting the sugarcane and adopting the combined inverted supporting assembly, so that the sugarcane is effectively supported and prevented from being inverted to two sides.

Description

Light sugarcane stacking and cutting machine

Technical Field

The invention relates to the technical field of sugarcane harvesting, in particular to a light sugarcane cutting and stacking machine.

Background

Sugar cane is a temperate and tropical crop, a raw material for sucrose production, and ethanol can be extracted as an energy substitute. The sugarcane contains abundant sugar and water, and also contains various vitamins, fat, protein, organic acid, calcium, iron and other substances which are very beneficial to the metabolism of a human body. As a big agricultural country, the production scale of the sugarcane is large. At present, in order to improve the efficiency, a sugarcane cutting and stacking machine is adopted to harvest in many places.

In the related art, many sugarcane cutting and stacking machines are complex in structure, and in addition, the lodging sugarcane is more, and the harvesting efficiency is low.

Disclosure of Invention

The invention mainly aims to provide a light sugarcane stacking and cutting machine, and aims to provide a light sugarcane stacking and cutting machine which is simple in structure, has a combined inverted structure and can realize efficient harvesting.

In order to achieve the purpose, the invention provides a light sugarcane stacking and cutting machine, which comprises:

the walking vehicle is driven by a motor to run,

the frame body is arranged at the front end of the walking vehicle;

the device comprises a frame body, a falling structure, a lifting mechanism and a lifting mechanism, wherein the falling structure is arranged on the frame body and comprises two first falling assemblies and two second falling assemblies, and the two first falling assemblies are obliquely arranged at the front end of the frame body and are used for lifting the fallen sugarcane; the two second inverted supporting assemblies are obliquely arranged on the frame body and are positioned on two opposite sides of the two first inverted supporting assemblies and used for driving the sugarcanes to the two first inverted supporting assemblies; and

the two cutting structures are respectively installed at the bottom of the frame body and used for cutting the sugarcane.

Optionally, each of the back-up assemblies includes a mounting shell, a back-up driving member and a chain, the mounting shell is disposed obliquely, a driving gear is disposed at the upper end of the mounting shell, a driven gear is disposed at the lower end of the mounting shell, the chain is located in the mounting shell and sleeved on the driving gear and the driven gear, a plurality of driving tooth blocks are disposed on the chain, the back-up driving member is mounted on the outer side of the mounting shell and used for driving the driving gear to rotate, and the chains of the two first back-up assemblies rotate in opposite directions; the two second inverted supporting components are obliquely arranged on two opposite sides of the two first inverted supporting components and used for driving the sugarcanes to the two first inverted supporting components.

Optionally, each second falling assembly comprises two falling members, and the two falling members are respectively rotatably mounted on the frame body and staggered back and forth in the walking direction of the walking vehicle.

Optionally, each inverted supporting member comprises an inverted supporting rod and a helical blade, the inverted supporting rod is rotatably mounted on the frame body and is inclined towards the rear of the walking vehicle, and the helical blade is arranged on the periphery of the inverted supporting rod.

Optionally, each second back-up assembly further comprises a guide plate, the guide plate is mounted at the front end of the frame body and is arranged in an inclined mode, and the inclined direction of the guide plate is consistent with the inclined direction of the back-up rod.

Optionally, the mounting shell is including mounting disc and installation lid, the mounting disc slope is installed on the support body, the mounting disc with form the spacing groove that is used for the spacing rectangular shape of a plurality of drive cogs on one side of being close to the mirror shaft between the installation lid.

Optionally, each cutting structure includes blade disc and a plurality of cutter body, the blade disc is circular, a plurality of cutter bodies equidistance is respectively installed on one side of blade disc, each cutter body is including installation department and cutting part, the installation department is installed on the blade disc, the cutting part is provided with semi-circular cutting edge, and be provided with the binding face of blade disc laminating, the tangent point of the cutting edge of a plurality of cutter bodies is all on first circumference, and the radius of first circumference is greater than the radius of blade disc.

Optionally, the blade disc has an accommodating groove corresponding to each blade body, and the accommodating groove accommodates the mounting portion.

Optionally, the abutting surfaces of the cutter body are located on a second circumference, and the radius of the second circumference is smaller than that of the first circumference.

Optionally, the two cutting structures are mirror-symmetrical, the two first inverted components are mirror-symmetrical, and the two second inverted components are mirror-symmetrical.

Compared with the prior art, the invention has the following technical effects:

the light sugarcane stacking and cutting machine comprises a walking vehicle, a frame body, an inverted supporting structure and two cutting structures, wherein the frame body is arranged at the front end of the walking vehicle; the inverted supporting structure is arranged on the frame body and comprises two first inverted supporting assemblies and two second inverted supporting assemblies, and the two first inverted supporting assemblies are obliquely arranged at the front end of the frame body and are used for supporting the lodging sugarcane; the two second inverted supporting assemblies are obliquely arranged on the frame body and are positioned on two opposite sides of the two first inverted supporting assemblies and used for driving the sugarcanes to the two first inverted supporting assemblies; the two cutting structures are respectively arranged at the bottom of the frame body and are used for cutting the sugarcane and adopting a combined turning and supporting assembly, so that the sugarcane is effectively supported and prevented from turning to two sides; in addition, the driving tooth blocks on the two first back-up components are driven to move by the two chains on the two first back-up components, so that the sugarcane is pushed, and then is conveyed to the walking vehicle, and the harvesting of the sugarcane is realized; the cutter is further provided with the semicircular cutting edge, the probability that the cutting edge is lost can be reduced by adopting cutting, the binding surface attached to the cutter is arranged, impurities are prevented from being clamped between the cutter and the cutter body, the cutter body is prevented from being damaged easily, and the service life of the cutter body is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present 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, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a perspective view of one embodiment of the light sugarcane cutting and stacking machine of the present invention;

FIG. 2 is another perspective view of the light sugarcane harvester of FIG. 1;

FIG. 3 is another perspective view of the light sugarcane harvester of FIG. 1, wherein a first upender assembly and a second upender assembly are not shown;

FIG. 4 is a bottom view of the light sugarcane harvester of FIG. 1;

FIG. 5 is an exploded perspective view of the first backup assembly of FIG. 1;

FIG. 6 is an enlarged view of portion VI of FIG. 5;

FIG. 7 is a perspective view of the cutting structure of FIG. 1;

fig. 8 is another view of the cutting structure shown in fig. 7.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a light sugarcane harvester 800.

In an embodiment of the present invention, the light sugarcane harvester 800 comprises:

the traveling vehicle 300 is driven by a vehicle,

a frame body 600 installed at the front end of the walking vehicle 300;

the inverted supporting structure 200 is mounted on the frame body 600, and comprises two first inverted supporting components 210 and two second inverted supporting components 220, wherein the two first inverted supporting components 210 are obliquely arranged at the front end of the frame body 600 and are used for supporting the lodging sugarcane; the two second inverted support assemblies 220 are obliquely arranged on the frame body 600 and are positioned at two opposite sides of the two first inverted support assemblies 210, and are used for driving the sugarcane to the two first inverted support assemblies 210; and

the two cutting structures 100 are respectively arranged at the bottom of the frame body 600 and used for cutting the sugarcane.

Specifically, in an embodiment of the present invention, the sugarcane cutting and stacking machine 800 includes two cutting structures 100, a lifting structure 200, a walking vehicle 300, a cab 400, a conveying structure 500, and a frame 600.

In an embodiment of the present utility model, the walking vehicle 300 is commonly used, and it is understood that the walking vehicle may specifically include, but is not limited to, an engine, a gearbox, tires, a dump box, etc., the cab 400 is mounted on the walking vehicle 300 for being operated by a worker to control the actions of the walking vehicle 300, such as walking, stopping, direction, etc., the frame body 600 is mounted at the front end of the walking vehicle 300, the inverted structure 200 is mounted on the frame body 600 for lifting the fallen sugarcane, the cutting structure 100 is mounted at the bottom of the frame body 600 for cutting the sugarcane, the conveying structure 500 is mounted at the top of the walking vehicle 300 and located behind the inverted structure 200 for conveying the cut sugarcane into the dump box of the walking vehicle 300;

in an embodiment of the present invention, the frame body 600 includes a first bracket 610 and a second bracket 620, the first bracket 610 is mounted at a front end of the walking vehicle 300 for supporting the inverted structure 200, and the second bracket 620 is suspended from the first bracket 610 for mounting the cutting structure 100.

Specifically, first support 610 is including two extension rods 611, two montants 612, two bracing pieces 613, two horizontal poles 614 and two stiffener 616, extension rod 611 installs on walking car 300, two montants 612 install respectively on two extension rods 611, two bracing pieces 613 install in the slope respectively on two montants 612, the bottom of corresponding montant 612 and bracing piece 613 is connected respectively to two horizontal poles 614, furtherly, two bracing pieces 6131 are inwards provided with respectively to two bracing pieces 613, and the top of each montant 612 is provided with two protective casings 6121, and each protective casing 6121 is the halfcylinder. Preferably, the two support bars 613 are arranged in parallel, and the two support sheets 6131 on each support bar 613 are arranged in parallel and in a staged arrangement; the two reinforcing rods 616 are respectively connected to the corresponding extending rod 611 and the cross rod 614, and are located outside the supporting rod 613.

Referring to fig. 7 and 8, in an embodiment of the present invention, the cutting structure 100 is installed at the bottom of the first frame 610 of the frame 600, and includes a cutter 10 and a plurality of cutters 20, the cutter 10 is circular, the cutters 20 are respectively installed on one side of the cutter 10 at equal intervals, each cutter 20 includes an installation portion 21 and a cutting portion 22, the installation portion 21 is installed on the cutter 10, the cutting portion 22 is provided with a semicircular cutting edge and an attachment surface 221 attached to the cutter 10, cutting points of the cutting edges of the cutters 20 are all on a first circumference, a radius of the first circumference is greater than a radius of the cutter 10, in addition, the attachment surface 221 of the cutter 20 is located on a second circumference, and a radius of the second circumference is less than a radius of the first circumference.

In an embodiment of the present invention, the cutter head 10 is provided with a receiving groove 11 corresponding to each cutter body 20, and the receiving groove 11 receives the mounting portion 21, so that the mounting portion 21 is located in the cutter head 10 and does not protrude out of the cutter head 10, thereby preventing the cutter body 20 from being damaged by friction caused by the fact that the mounting portion 21 protrudes out of the cutter head during the rotation of the cutter head 10.

In an embodiment of the present invention, in order to drive the cutter disc 10 to rotate, the cutting structure 100 further includes a cutting driver 30, a driving shaft of the cutting driver 30 is connected to the cutter disc 10, and is used for driving the cutter disc 10 to rotate, the cutter disc 10 rotates, and further drives the plurality of cutter bodies 20 to rotate, the cutter bodies 20 rotate to cut the sugarcane, it is understood that the cutting driver 30 may be a motor, an electric motor, or the like, but is not limited thereto

Referring to fig. 1-6, in an embodiment of the present invention, the inverted supporting structure 200 includes two first inverted supporting assemblies 210 and two second inverted supporting assemblies 220, specifically, the two first inverted supporting assemblies 210 are respectively mounted on two supporting plates 6131 of the two supporting rods 613, each inverted supporting assembly 210 includes a mounting shell 211, an inverted driving member 212 and a chain 213, the mounting shell 211 is disposed obliquely, a driving gear 2111 is disposed at an upper end of the interior, a driven gear 2112 is disposed at a lower end of the interior, the chain 213 is located in the mounting shell 211 and is sleeved on the driving gear 2111 and the driven gear 2112, a plurality of driving tooth blocks 215 are disposed on the chain 213, the inverted driving member 212 is mounted outside the mounting shell 211 and is configured to drive the driving gear 2111 to rotate, the directions of the chains 213 of the two first inverted supporting assemblies 210 are opposite, so that when the walking vehicle 300 moves, the inclined installation shell 211 lifts the lodged sugarcane, and simultaneously can drive the chain 213 to rotate when the driving gear 2111 rotates, the chain 213 rotates to drive the plurality of driving tooth blocks 215 to move, so that the plurality of tooth blocks 215 of the two first falling components 210 move together to push the cut sugarcane, the two second falling components 220 are obliquely arranged at two opposite sides of the two first falling components 210 and are used for driving the sugarcane to the two first falling components 210, the combined falling components are adopted, the sugarcane lifting is effectively realized, the sugarcane is prevented from falling to two sides, meanwhile, the two chains 213 on the two first falling components 210 drive the driving tooth blocks 215 thereon to move, and then the sugarcane is pushed, so that sundries such as sugarcane leaves are prevented from being clamped on the two first falling components 210, and the sugarcane is simultaneously conveyed to the tipping bucket of the walking vehicle 300.

Preferably, the two first inverted assemblies 210 are mounted on the frame body 600 and have mirror symmetry; the two second inverted supporting assemblies 220 are mounted on the frame body 600 and are in mirror symmetry; the mirror axes of the two first inverted assemblies 210 coincide with the mirror axes of the two second inverted assemblies 220.

In an embodiment of the present invention, the mounting shell 211 includes a mounting plate 216 and a mounting cover 217, the mounting plate 216 is obliquely mounted on the two support plates 6131 of the frame body 600 through a common method, such as screw locking or welding, and a strip-shaped limiting groove 218 for limiting the plurality of driving gear blocks 216 is formed between the mounting plate 216 and the mounting cover 217 at a side close to the mirror axis.

Further, the mounting disc 216 is provided with a first limiting strip 2161, the mounting cover 217 is provided with a second limiting strip 2171, the limiting groove 218 is formed between the first limiting strip 2161 and the second limiting strip 2171, and in addition, in order to limit the position of the chain 213, the mounting disc 216 is further provided with an elongated limiting piece 219, and the limiting piece 219 is close to the limiting groove 218 and used for limiting the position of the chain 213 and preventing the chain 213 from loosening and failing to rotate normally. Preferably, the limiting piece 219 is perpendicular to the mounting cover 217 and the mounting plate 216.

In addition, each driving tooth block 215 is rotatably connected to the chain 213 through a rotating shaft, and in the present embodiment, each driving tooth block 215 is L-shaped, but not limited thereto, when the driving tooth block 215 is mounted on the mounting plate 216, each driving tooth block 215 extends out of the limiting groove 218 for pushing the sugarcane when the chain 213 rotates.

In an embodiment of the present invention, the two second handrail assemblies 220 are respectively mounted on the first support 610 of the frame body 600, and specifically, each second handrail assembly 220 includes two handrail members 222, the two handrail members 222 are respectively rotatably mounted on the first support 610 of the frame body 600 and are staggered back and forth in the traveling direction of the walking vehicle 300, and further, each handrail member 222 includes a handrail 2221 and a spiral blade 2222, the handrail 2221 is rotatably mounted on the first support 610 in a conventional manner, such as by matching a shaft with a hole, and is inclined toward the rear of the walking vehicle 300, and the spiral blade 2222 is disposed on the outer periphery of the handrail 2221.

With continued reference to fig. 1-8, in order to drive the two handrail members 222, each second handrail member 220 further includes two handrail drivers 225, the two handrail drivers 225 are respectively connected to the two handrail members 222 for driving the corresponding handrail member 222 to rotate, the rotation of the handrail member 222 drives the lodging sugarcane to the first handrail member 210 at the same time, it is understood that, in order to drive the sugarcane to the first handrail member 210, the rotation directions of the two second handrail members 220 are opposite, in the embodiment of the present invention, the two handrail drivers 225 are respectively installed in the two protective casings 6121 by a common method, such as welding or screw locking, and the output shaft is connected to one end of the corresponding two handrail members 222, and in order to install the other end of the two handrail members 222, the first support 610 is provided with a mounting block 615 corresponding to each first handrail member 210, the mounting block 615 is disposed at the bottom of the corresponding reinforcing bar 616, and specifically includes two mounting pieces 6151 and a connecting piece 6152, the connecting piece 6152 connects the two mounting pieces 6151 to form a step, so that the other ends of the two inverted pieces 222 are respectively rotatably mounted on the two mounting pieces 6151.

In addition, in order to guide the inverted structure 200, each second inverted component 220 further includes a guide plate 223, the guide plate 223 is installed at the bottom of the front end of the first bracket 610 and is disposed obliquely, the oblique direction of the guide plate 223 is the same as the oblique direction of the inverted bar 2221, in this embodiment, the guide plate 223 is triangular, and further, the guide plate 223 is installed on the mounting piece 6151 at the front end.

In an embodiment of the invention, the conveying structure 500 is mounted on the walking vehicle 300 with a front end behind the tipping structure 200 and a rear end above the tipping bucket for conveying the cut canes into the tipping bucket, and in particular, the conveying structure 500 may be conventional, such as, but not limited to, a conveyor belt or the like.

In addition, in order to control the cutting structure 100, the back-off structure 200, the walking vehicle 300, and the conveying structure 500, the sugarcane harvester-stacker 800 further includes a control unit, which may be a controller, a microcontroller, a microprocessor, or other data processing chip, and is not described herein again, and the control unit is electrically connected to the drivers of the back-off driving member 212, the back-off driver 225, the cutting driver 30, and the conveying structure 500, and controls the drivers of the back-off driving member 212, the back-off driver 225, the cutting driver 30, and the conveying structure 500.

When the sugarcane harvester is used, a worker sits in the cab 400, the walking vehicle 300 is controlled to run, the cutting driver 30, the uprighting driving part 212, the uprighting driver 225 and the driver of the conveying structure 500 are controlled to start to work, the uprighting structure 200 uprights the lodging sugarcane, the cutting structure 100 cuts the sugarcane, the uprighting structure 200 pushes the cut sugarcane to the conveying structure 500, and the conveying structure 500 conveys the sugarcane to a tipping bucket, so that the sugarcane is harvested.

The sugarcane lifting device is simple in structure, and by arranging the combined lifting structure, the sugarcane is effectively lifted, the sugarcane is prevented from being overturned to two sides, and meanwhile, the two chains on the two first lifting assemblies drive the driving tooth blocks on the two first lifting assemblies to move, so that the sugarcane is pushed, and the sugarcane is conveyed to the walking vehicle;

in addition, this application is through setting up the semicircular cutting edge, adopts to cut, can reduce the probability that the cutting edge is lost to be provided with the binding face with the blade disc laminating, prevent that impurity card from between blade disc and cutter body, and damage the cutter body easily, thereby prolonged the life of cutter body.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A light sugarcane harvester, comprising:

the walking vehicle is driven by a motor to run,

the frame body is arranged at the front end of the walking vehicle;

the device comprises a frame body, a falling structure, a lifting mechanism and a lifting mechanism, wherein the falling structure is arranged on the frame body and comprises two first falling assemblies and two second falling assemblies, and the two first falling assemblies are obliquely arranged at the front end of the frame body and are used for lifting the fallen sugarcane; the two second inverted supporting assemblies are obliquely arranged on the frame body and are positioned on two opposite sides of the two first inverted supporting assemblies and used for driving the sugarcanes to the two first inverted supporting assemblies; and

the two cutting structures are respectively installed at the bottom of the frame body and used for cutting the sugarcane.

2. The light sugarcane cutting machine according to claim 1, wherein each inverted component comprises a mounting shell, an inverted driving member and a chain, the mounting shell is obliquely arranged, a driving gear is arranged at the upper end of the mounting shell, a driven gear is arranged at the lower end of the mounting shell, the chain is positioned in the mounting shell and sleeved on the driving gear and the driven gear, a plurality of driving tooth blocks are arranged on the chain, the inverted driving member is arranged outside the mounting shell and used for driving the driving gear to rotate, and the chains of the two first inverted components rotate in opposite directions; the two second inverted supporting components are obliquely arranged on two opposite sides of the two first inverted supporting components and used for driving the sugarcanes to the two first inverted supporting components.

3. The lightweight cane harvester of claim 2, wherein each second upending assembly includes two upending members rotatably mounted to the frame body and staggered fore and aft in the direction of travel of the carriage.

4. The lightweight sugarcane harvester of claim 3, wherein each of the inverted members includes an inverted bar rotatably mounted on the frame and inclined toward the rear of the traveling vehicle, and a helical blade disposed at the outer periphery of the inverted bar.

5. The light sugarcane harvester of claim 4, wherein each second upending component further comprises a guide plate, the guide plate is installed at the front end of the frame body and is arranged in an inclined mode, and the inclined direction of the guide plate is consistent with the inclined direction of the upending rod.

6. A light sugarcane cutter according to any one of claims 2 to 5, wherein the mounting shell comprises a mounting plate and a mounting cover, the mounting plate is obliquely mounted on the frame body, and an elongated limiting groove for limiting the plurality of driving tooth blocks is formed between the mounting plate and the mounting cover on one side close to the mirror shaft.

7. The light sugarcane cutting machine according to claim 2, wherein each cutting structure includes a cutter head and a plurality of cutter bodies, the cutter head is circular, the cutter bodies are respectively installed at equal intervals on one side of the cutter head, each cutter body includes an installation part and a cutting part, the installation part is installed on the cutter head, the cutting part is provided with a semicircular cutting edge and is provided with a joint surface which is jointed with the cutter head, the cutting points of the cutting edges of the cutter bodies are all on a first circumference, and the radius of the first circumference is larger than that of the cutter head.

8. The light sugarcane harvester of claim 7, wherein the cutter head defines a receiving slot for each blade, the receiving slot receiving the mounting portion.

9. The light sugarcane harvester of claim 8, wherein the abutting surfaces of the cutter bodies are all located on a second circumference, and the radius of the second circumference is smaller than the radius of the first circumference.

10. A light sugarcane harvesting machine according to any one of claims 2 to 5, wherein the two cutting structures are mirror images, the two first inverted assemblies are mirror images, and the two second inverted assemblies are mirror images.

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