CN112262633B

CN112262633B - Small-size orchard operation platform

Info

Publication number: CN112262633B
Application number: CN202011285427.2A
Authority: CN
Inventors: 王鹏飞; 杨欣; 李建平; 刘洪杰; 邵建柱; 李昕昊
Original assignee: Heibei Agricultural University
Current assignee: Heibei Agricultural University
Priority date: 2020-11-17
Filing date: 2020-11-17
Publication date: 2024-10-15
Anticipated expiration: 2040-11-17
Also published as: CN112262633A

Abstract

The invention discloses a small orchard operation platform which comprises a walking chassis, wherein an operation platform is arranged above the walking chassis, a vertical guide post is fixedly connected to the front part of the walking chassis, a guide sleeve is sleeved on the guide post, the guide sleeve is connected with the operation platform at the rear part, and the guide sleeve moves up and down along the guide post through a gear rack driving structure. The invention is a new energy orchard operation platform, has the characteristics of small structure, convenient operation and control and low cost, is suitable for single auxiliary operation, improves the mechanization level of production management of a short-stock orchard, and achieves the purposes of saving labor cost, improving production efficiency and increasing economic benefit of the orchard.

Description

Small-size orchard operation platform

Technical Field

The invention relates to the field of orchard management operation machinery, in particular to a small-sized orchard operation platform.

Background

In the management operation process of an orchard, high-level operation links such as picking, bagging and trimming are large, a traditional operation mode is used for climbing manually, building an escalator, building a simple platform and the like, a large amount of time is required to be consumed for climbing and moving, the risk coefficient is large, and the labor efficiency is low.

Therefore, how to provide an orchard work platform for improving the safety factor of operators and increasing the labor efficiency is a problem to be solved by those skilled in the art.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide a small platform suitable for single person operation.

The invention adopts the following technical scheme:

The invention relates to a small orchard operation platform which comprises a walking chassis, wherein an operation platform is arranged above the walking chassis, a vertical guide post is fixedly connected to the front part of the walking chassis, a guide sleeve is sleeved on the guide post, the guide sleeve is connected with the operation platform at the rear part, and the guide sleeve moves up and down along the guide post through a rack-and-pinion driving structure.

Further, the gear rack driving structure comprises a gear and a rack which are meshed and matched, the rack is arranged along the length direction of one side wall of the guide post, the gear is arranged on a gear shaft, the gear shaft is rotationally connected to the guide sleeve, the rear end of the gear shaft penetrates through the guide sleeve and is in power connection with a driving device, and the driving device is arranged on the bottom surface of the working platform;

the guide wheels are matched with the other side walls of the guide post in a rolling way, and are arranged on the inner wall of the guide sleeve.

Further, be provided with on the uide bushing with rack complex prevents weighing down mechanism, prevent that the mechanism of weighing down include with rack engagement's pinion rack, the back of pinion rack is provided with the telescopic shaft, telescopic shaft sliding connection is in the axle sleeve, so the axle sleeve is fixed on the uide bushing, the rear end of telescopic shaft is provided with the flexible extensible member of drive.

Further, the operation platform comprises a middle main platform and telescopic platforms with two sides capable of being unfolded outwards, the front and rear positions of the middle main platform are provided with first guardrails, and the outer sides of the two telescopic platforms are provided with second guardrails.

Further, the telescopic platform comprises a bottom plate, sliding rods are arranged on two sides of the bottom surface of the bottom plate, two guide grooves with opposite notches are arranged on the bottom surface of the middle main platform, and the sliding rods are connected in the guide grooves in a sliding mode;

A positioning adjusting rod is arranged between the two sliding rods, one end of the positioning adjusting rod is connected to the bottom surface of the bottom plate, the other end of the positioning adjusting rod is in clamping fit with a clamping mechanism, and the clamping mechanism is arranged on the bottom surface of the middle main platform.

Further, the clamping mechanism comprises a clamping base, an L-shaped upper clamping plate and an L-shaped lower clamping plate, wherein the clamping base is fixed on the bottom surface of the middle main platform, the L-shaped upper clamping plate and the L-shaped lower clamping plate are positioned on one side of the clamping base, the horizontal end of the L-shaped upper clamping plate is fixed on the clamping base, and the vertical end of the L-shaped upper clamping plate is fixed on the bottom surface of the middle main platform; the horizontal end of the L-shaped lower clamping plate is hinged to the clamping base, the vertical end of the L-shaped lower clamping plate penetrates through the reserved hole in the middle main platform and is fixedly connected with the pedal, a tension spring is arranged on the inner side of the vertical part of the L-shaped lower clamping plate, the upper end of the tension spring is connected with the bottom surface of the middle main platform, and the lower end of the tension spring is connected with the horizontal part of the L-shaped lower clamping plate;

the L-shaped upper clamping plate and the L-shaped lower clamping plate are respectively provided with a concave surface for clamping the positioning adjusting rod, and rubber pads are respectively arranged on the inner side walls of the concave surfaces.

Further, the second guardrail comprises an upper guardrail and a lower guardrail, the bottom of the lower guardrail is fixed on the bottom plate, two sides of the top of the lower guardrail are fixedly connected with side plates, a plurality of annularly arranged adjusting holes are formed in the side plates, the bottom of the upper guardrail is hinged to the side plates, positioning holes corresponding to the adjusting holes are formed in the upper guardrail, and the positioning holes correspond to one of the adjusting holes and penetrate through the pin shafts for positioning.

Further, an auxiliary pedal inclined inwards is arranged on the lower guardrail.

Further, the walking chassis adopts motor drive's electronic tricycle chassis, the pivot of the anterior steering wheel of electronic tricycle chassis passes through steering mechanism and is connected with the steering wheel that sets up on anterior first guardrail, steering mechanism includes first bevel gear subassembly, second bevel gear subassembly and telescopic steering wheel axle, the upper end of steering wheel axle with the steering wheel is connected, the lower extreme with the power input of first bevel gear subassembly is connected, the pivot of anterior steering wheel is connected with the power take off of second bevel gear subassembly.

Further, a ceiling is connected to the upper portion of the first guardrail, and a solar panel for providing electric energy for the electric tricycle chassis is arranged on the top surface of the ceiling.

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

The invention is a new energy orchard operation platform, has the characteristics of small structure, convenient operation and control and low cost, is suitable for single auxiliary operation, improves the mechanization level of production management of a short-stock orchard, and achieves the purposes of saving labor cost, improving production efficiency and increasing economic benefit of the orchard.

Drawings

The invention is further described with reference to the following description of the drawings.

FIG. 1 is a schematic view of a small orchard operation platform according to the present invention;

FIG. 2 is a schematic top view of a rack and pinion drive configuration of the present invention;

FIG. 3 is a schematic view of the front view of the fall arrest mechanism of the present invention;

FIG. 4 is a schematic view of the structure of the work platform of the present invention;

FIG. 5 is a schematic view of a clamping mechanism according to the present invention;

FIG. 6 is a schematic view of a second guardrail according to the present invention;

FIG. 7 is a schematic view of the connection structure of the side plates of the present invention;

fig. 8 is a schematic structural view of the steering mechanism of the present invention.

Reference numerals illustrate: 1. a walking chassis; 2. an operation platform; 201. an intermediate main platform; 202. a telescoping platform; 202-1, a bottom plate; 202-2, a sliding rod; 202-3, a guide groove; 203. a first guardrail; 204. a second guardrail; 204-1, upper guard rail; 204-2, lower guard rails; 204-3, side plates; 204-4, adjusting the hole; 204-5, positioning holes; 3. a guide post; 4. a guide sleeve; 5. a rack and pinion drive structure; 501. a gear; 502. a rack; 503. a gear shaft; 504. a driving device; 505. a guide wheel; 6. an anti-falling mechanism; 601. a toothed plate; 602. a telescopic shaft; 603. a telescoping member; 604. a shaft sleeve; 7. positioning an adjusting rod; 8. a clamping mechanism; 801. clamping a base; 802. an L-shaped upper clamping plate; 803. an L-shaped lower clamping plate; 804. stepping on the pedal; 805. a tension spring; 806. a concave surface; 9. an auxiliary pedal; 10. a steering mechanism; 1001. a first bevel gear assembly; 1002. a second bevel gear assembly; 1003. a steering wheel shaft; 11. a steering wheel; 12. a ceiling; 13. a solar panel.

Detailed Description

In order to make the technical scheme of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings and the detailed description.

As shown in fig. 1, this embodiment discloses a small-size orchard operation platform, including walking chassis 1, the top of walking chassis 1 is provided with operation platform 2, and the front portion welding of walking chassis 1 has vertical guide post 3, and the cover is equipped with uide bushing 4 on the guide post 3, and uide bushing 4 is connected with operation platform 2 at rear, and uide bushing 4 passes through rack and pinion drive structure 5 along guide post 3 up-and-down motion.

As shown in fig. 2, the rack-and-pinion driving structure 5 includes a rack 502 and a pinion 501 engaged with each other, the rack 502 is disposed along a length direction of a side wall of the guide post 3, the pinion 501 is mounted on a pinion shaft 503, the pinion shaft 503 is rotatably connected to the guide sleeve 4 through a bearing, and a rear end of the pinion shaft 503 penetrates through the guide sleeve 4 and is then in power connection with a driving device 504, the driving device 504 is mounted on a bottom surface of the working platform 2; the driving device 504 employs a gear motor.

In order to facilitate the up-and-down movement of the guide sleeve 4 along the guide post 3, guide wheels 505 are rollingly fitted on the remaining side walls of the guide post 3, the guide wheels 505 being mounted on the inner walls of the guide sleeve 4. In this embodiment, in order to improve the stability of lifting, a double-gear and double-rack structure is adopted.

As shown in fig. 3, after the work platform 2 is raised to a designated height, an anti-falling mechanism 6 which is engaged with the rack 502 is provided on the guide bush 4 in order to prevent the platform from falling down. Specifically, the anti-falling mechanism 6 includes a toothed plate 601 meshed with the rack 502, a telescopic shaft 602 is welded on the back surface of the toothed plate 601, the telescopic shaft 602 is slidably connected in a shaft sleeve 604, so the shaft sleeve 604 is welded on the guide sleeve 4, a telescopic member 603 for driving telescopic is arranged at the rear end of the telescopic shaft 602, a body of the telescopic member 603 is arranged at the rear end of the shaft sleeve 604, and the telescopic end of the telescopic member 603 extends into the shaft sleeve 604 and is connected with the rear end of the telescopic shaft 602 for driving the telescopic shaft to extend or retract.

As shown in fig. 4, the working platform 2 includes a middle main platform 201 and two telescopic platforms 202 with two sides capable of being unfolded outwards, the front and rear positions of the middle main platform 201 are welded with a first guardrail 203, and the outer sides of the two telescopic platforms 202 are provided with a second guardrail 204.

The telescopic platform 202 comprises a bottom plate 202-1, sliding rods 202-2 are welded on two sides of the bottom surface of the bottom plate 202-1, two opposite guide grooves 202-3 are formed in the bottom surface of the middle main platform 201, and the sliding rods 202-2 are connected in the guide grooves 202-3 in a sliding mode.

When the telescopic platform 202 stretches out and extends to a certain position, in order to facilitate positioning adjustment of the telescopic platform 202, a positioning adjusting rod 7 is arranged between the two sliding rods 202-2, one end of the positioning adjusting rod 7 is welded on the bottom surface of the bottom plate 202-1, the other end of the positioning adjusting rod is in clamping fit with the clamping mechanism 8, and the clamping mechanism 8 is arranged on the bottom surface of the middle main platform 201.

As shown in fig. 5, the clamping mechanism 8 comprises a clamping base 801, an L-shaped upper clamping plate 802 and an L-shaped lower clamping plate 803, wherein the clamping base 801 is fixed on the bottom surface of the middle main platform 201, the L-shaped upper clamping plate 802 and the L-shaped lower clamping plate 803 are positioned on one side of the clamping base 801, the horizontal end of the L-shaped upper clamping plate 802 is fixed on the clamping base 801, and the vertical end is fixed on the bottom surface of the middle main platform 201; the horizontal end of the L-shaped lower clamping plate 803 is hinged on the clamping base 801, the vertical end penetrates through a reserved hole on the middle main platform 201 and is fixedly connected with the pedal 804, a tension spring 805 is arranged on the inner side of the vertical part of the L-shaped lower clamping plate 803, the upper end of the tension spring 805 is connected with the bottom surface of the middle main platform 201, and the lower end of the tension spring is connected with the horizontal part of the L-shaped lower clamping plate 803; the opposite surfaces of the L-shaped upper clamping plate 802 and the L-shaped lower clamping plate 803 are respectively provided with a concave surface 806 for clamping and positioning the adjusting rod 7, and the inner side walls of the concave surfaces 806 are respectively provided with a rubber pad.

By depressing the pedal 804 downward, the L-shaped lower clamp plate 803 is released from clamping the positioning adjustment lever 7, and the extension length of the telescopic platform 202 can be adjusted.

As shown in fig. 6 and 7, when a worker is working on a platform, it is often necessary to pull out the body to the outside, perform pruning, picking and the like on fruit trees, when the platform is raised, the above-mentioned operation of the worker is very dangerous, in order to ensure the safety of the worker and facilitate the worker to pull out the body to the outside to perform management work on fruit trees, therefore, the second guard rail 204 is designed in a split form, mainly comprising an upper guard rail 204-1 and a lower guard rail 204-2, the bottom of the lower guard rail 204-2 is fixed on the bottom plate 202-1, both sides of the top of the lower guard rail 204-2 are welded with side plates 204-3, a plurality of adjusting holes 204-4 are provided on the side plates 204-3 in a ring arrangement, the bottom of the upper guard rail 204-1 is hinged on the side plates 204-3, and a positioning hole 204-5 is provided on the upper guard rail 204-1 corresponding to one of the adjusting holes 204-4 and is positioned through a pin shaft.

In order to facilitate the worker to have a better stress position on the rear foot of the body when the worker protrudes outwards, an auxiliary pedal 9 which inclines inwards is welded on the lower guardrail 204-2.

In this embodiment, the walking chassis 1 adopts an electric three-wheeled chassis driven by a motor, and the electric three-wheeled chassis mainly includes a battery, a driving motor and other structures, and the electric three-wheeled chassis belongs to the prior art and is not described herein again. The rotation shaft of the front steering wheel of the electric tricycle chassis is connected with the steering wheel 11 arranged on the first guardrail 203 at the front through the steering mechanism 10. The steering wheel 11 is connected to the first rail 203 via a steering wheel mount. The worker can control the direction of the walking chassis 1 on the working platform 2. In this embodiment, the steering wheel shaft 1003 employs a telescopic universal joint, which belongs to existing products, and is commercially available to those skilled in the art.

As shown in fig. 8, the steering mechanism 10 includes a first bevel gear assembly 1001, a second bevel gear assembly 1002, and a telescopic steering wheel shaft 1003, the steering wheel shaft 1003 having an upper end connected to the steering wheel 11 and a lower end connected to a power input end of the first bevel gear assembly 1001, and a rotation shaft of a front steering wheel connected to a power output end of the second bevel gear assembly 1002. The first bevel gear assembly 1001 and the second bevel gear assembly 1002 each comprise an outer housing and two bevel gears meshed together, the outer housing is mounted on the frame body of the walking chassis 1, and the bevel gears are mounted on the outer housing through bevel gear shafts.

In this embodiment, a ceiling 12 is connected above the first guard rail 203, the ceiling 12 shields the worker from sunlight, and at the same time, the top surface of the ceiling 12 is provided with a solar panel 13 for supplying electric power to the electric three-wheeled chassis.

The operation platform 2 can be further provided with a sensor for monitoring the inclination angle of the platform, the sensor converts the angle into an electric signal to be transmitted to the singlechip, automatic alarm is realized, the height of the platform is reduced, the gravity center of the platform is reduced, and the safety of operators is ensured.

The above embodiments are only illustrative of the preferred embodiments of the present invention and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art to the technical solutions of the present invention should fall within the protection scope defined by the claims of the present invention without departing from the design spirit of the present invention.

Claims

1. Small-size orchard operation platform, its characterized in that: the automatic walking device comprises a walking chassis (1), wherein an operation platform (2) is arranged above the walking chassis (1), a vertical guide post (3) is fixedly connected to the front part of the walking chassis (1), a guide sleeve (4) is sleeved on the guide post (3), the guide sleeve (4) is connected with the rear operation platform (2), and the guide sleeve (4) moves up and down along the guide post (3) through a gear rack driving structure (5);

The gear rack driving structure (5) comprises a gear (501) and a rack (502) which are meshed and matched, the rack (502) is arranged along the length direction of one side wall of the guide post (3), the gear (501) is arranged on a gear shaft (503), the gear shaft (503) is rotationally connected to the guide sleeve (4), the rear end of the gear shaft (503) penetrates through the guide sleeve (4) and then is in power connection with a driving device (504), and the driving device (504) is arranged on the bottom surface of the operation platform (2); the rest side walls of the guide post (3) are in rolling fit with guide wheels (505), and the guide wheels (505) are arranged on the inner wall of the guide sleeve (4);

The anti-falling mechanism (6) matched with the rack (502) is arranged on the guide sleeve (4), the anti-falling mechanism (6) comprises a toothed plate (601) meshed with the rack (502), a telescopic shaft (602) is arranged on the back surface of the toothed plate (601), the telescopic shaft (602) is slidably connected in a shaft sleeve (604), so that the shaft sleeve (604) is fixed on the guide sleeve (4), and a telescopic piece (603) for driving to stretch is arranged at the rear end of the telescopic shaft (602);

The operation platform (2) comprises a middle main platform (201) and telescopic platforms (202) with two sides capable of being unfolded outwards, the front and rear positions of the middle main platform (201) are provided with first guardrails (203), and the outer side edges of the two telescopic platforms (202) are provided with second guardrails (204);

The telescopic platform (202) comprises a bottom plate (202-1), sliding rods (202-2) are arranged on two sides of the bottom surface of the bottom plate (202-1), two opposite-notch guide grooves (202-3) are formed in the bottom surface of the middle main platform (201), and the sliding rods (202-2) are connected in the guide grooves (202-3) in a sliding mode;

A positioning adjusting rod (7) is arranged between the two sliding rods (202-2), one end of the positioning adjusting rod (7) is connected to the bottom surface of the bottom plate (202-1), the other end of the positioning adjusting rod is in clamping fit with a clamping mechanism (8), and the clamping mechanism (8) is arranged on the bottom surface of the middle main platform (201);

The clamping mechanism (8) comprises a clamping base (801), an L-shaped upper clamping plate (802) and an L-shaped lower clamping plate (803), wherein the clamping base (801) is fixed on the bottom surface of the middle main platform (201), the L-shaped upper clamping plate (802) and the L-shaped lower clamping plate (803) are positioned on one side of the clamping base (801), the horizontal end of the L-shaped upper clamping plate (802) is fixed on the clamping base (801), and the vertical end is fixed on the bottom surface of the middle main platform (201); the horizontal end of the L-shaped lower clamping plate (803) is hinged to the clamping base (801), the vertical end penetrates through a reserved hole in the middle main platform (201) and then is fixedly connected with the pedal (804), a tension spring (805) is arranged on the inner side of the vertical part of the L-shaped lower clamping plate (803), the upper end of the tension spring (805) is connected with the bottom surface of the middle main platform (201), and the lower end of the tension spring is connected with the horizontal part of the L-shaped lower clamping plate (803); concave surfaces (806) for clamping the positioning adjusting rod (7) are arranged on opposite surfaces of the L-shaped upper clamping plate (802) and the L-shaped lower clamping plate (803), and rubber pads are arranged on inner side walls of the concave surfaces (806);

the second guardrail (204) comprises an upper guardrail (204-1) and a lower guardrail (204-2), the bottom of the lower guardrail (204-2) is fixed on the bottom plate (202-1), two sides of the top of the lower guardrail (204-2) are fixedly connected with side plates (204-3), a plurality of annularly arranged adjusting holes (204-4) are formed in the side plates (204-3), the bottom of the upper guardrail (204-1) is hinged to the side plates (204-3), positioning holes (204-5) corresponding to the adjusting holes (204-4) are formed in the upper guardrail (204-1), and the positioning holes (204-5) correspond to one of the adjusting holes (204-4) and are positioned through pin shafts;

An auxiliary pedal (9) inclined inwards is arranged on the lower guardrail (204-2).

2. The mini-orchard work platform of claim 1, wherein: the walking chassis (1) adopts motor-driven electric tricycle chassis, the pivot of the front steering wheel of electric tricycle chassis passes through steering mechanism (10) and is connected with steering wheel (11) on the first guardrail (203) of setting in front portion, steering mechanism (10) are including first bevel gear subassembly (1001), second bevel gear subassembly (1002) and telescopic steering wheel axle (1003), the upper end of steering wheel axle (1003) with steering wheel (11) are connected, the lower extreme with the power input of first bevel gear subassembly (1001) is connected, the pivot of front steering wheel is connected with the power output of second bevel gear subassembly (1002).

3. The mini-orchard work platform of claim 2, wherein: the top of first guardrail (203) is connected with ceiling (12), the top surface of ceiling (12) is provided with solar panel (13) for electric tricycle chassis provides the electric energy.