CN210641425U - Single-row stem-cutting garlic harvester - Google Patents

Abstract

The utility model provides a single-row stem-cutting garlic harvester, which belongs to the technical field of agricultural machinery and structurally comprises a frame and a handle, wherein the frame is provided with an engine and a gearbox which are connected in a driving way, an engine output shaft is coaxially and fixedly connected with a driving belt pulley, the driving belt pulley is connected with a driven belt pulley which is horizontally arranged at the front end of the frame through a power belt, the front end of the frame is provided with a front harvesting mechanism, the outer side of the rear edge of the front annular belt and the outer side of the front edge of the rear annular belt are adjacent to each other, and a garlic stem clamping side throwing channel is formed at the adjacent position; a garlic bulb turning shovel is fixedly connected to the bottom of the frame behind the garlic stem harvesting inlet. The utility model discloses a leading endless belt, rearmounted endless belt because the belt is elastic, can relax impact, reduce the vibration, and the transmission is steady, and the work noise is lower. The belt transmission has good fault tolerance, is suitable for the work between fields, has simple and easy belt transmission, low cost, simple maintenance and convenient replacement.

Description

Single-row stem-cutting garlic harvester

Technical Field

The utility model belongs to the technical field of agricultural machine technique and specifically relates to a single file stem cutting garlic harvester.

Background

Generally, a garlic harvester is an agricultural machine which uses machinery to harvest garlic in agricultural links such as digging, soil removing, conveying, trimming, stem cutting, collecting and transferring, or in single, multiple or all links when garlic is ripe. The general procedure of harvesting garlic by hand is as follows: 1. digging garlic from the ground by a shovel and shaking off soil; 2. cutting off fibrous root of Bulbus Allii with a shaver, and spreading; 3. cutting off garlic straws and gathering garlic heads by a beard knife; 4. bagging the garlic; 5. carrying the garlic bags to a transport means; 6. transporting the garlic to a drying place. Therefore, the labor amount for harvesting garlic per mu is extremely surprising, and the mechanized harvesting of the industry is suitable for large-scale planting and harvesting, and the planting situation of fields cannot be well adapted to the situation of small-scale planting and harvesting. The garlic is mostly planted and harvested in a small scale by digging the garlic out of the ground by adopting a garlic semi-mechanized harvester, or laying or impurity-placing the garlic. The semi-mechanized garlic harvester in the prior art has single function and poor fault tolerance, and is usually stuck and mechanically damaged in the stem cutting process of a row of garlic.

Disclosure of Invention

The technical task of the utility model is to solve the defects of the prior art and provide a single-row stem-cutting garlic harvester.

The technical proposal of the utility model is realized in the following way, the single-row stem-cutting garlic harvester of the utility model structurally comprises a frame and a handle,

an engine and a gearbox which are in driving connection are arranged on the rack, an output chain wheel of the gearbox drives a front axle of a traveling mechanism on the rack through a chain, the front axle is provided with a front driving wheel, and the rear end of the rack is provided with a rear steering wheel;

the output shaft of the engine is coaxially and fixedly connected with a driving belt pulley, the driving belt pulley is connected with a driven belt pulley horizontally arranged at the front end of the frame through a power belt,

the front end of the frame is provided with a front harvesting mechanism, and the transverse direction of the frame at the front part of the front harvesting mechanism is provided with a vertical front stem collecting shaft and a front stem throwing shaft which are parallel to each other;

the top end of the preposed stem collecting shaft is coaxially and fixedly connected with a preposed stem collecting belt pulley,

the top end of the preposed stem throwing shaft is coaxially and fixedly connected with a preposed stem throwing belt pulley,

a front guide stem collecting shaft is arranged on the machine frame in front of the space between the front stem collecting shaft and the front stem throwing shaft, the top end of the front guide stem collecting shaft is coaxially and fixedly connected with a front guide stem collecting belt wheel,

a preposed annular belt is tightly sleeved on the outer edges of the preposed guiding stem collecting belt wheel, the preposed stem collecting belt wheel and the preposed stem throwing belt wheel;

the bottom end of the preposed stem throwing shaft is coaxially and fixedly connected with a preposed stem throwing gear;

the driven belt pulley is coaxially and fixedly connected to the preposed stem throwing shaft;

a vertical post-positioned stalk cutting shaft and a post-positioned stalk throwing shaft are arranged in the transverse direction of a rear rack of the front harvesting mechanism and are parallel to each other;

the top end of the postposition stem cutting shaft is coaxially and fixedly connected with a postposition stem cutting belt pulley,

the top end of the post stem throwing shaft is coaxially and fixedly connected with a post stem throwing belt pulley,

a postposition annular belt tightly sleeves the outer edges of the postposition stem cutting belt wheel and the postposition stem throwing belt wheel;

the bottom end of the post stem throwing shaft is coaxially and fixedly connected with a post stem throwing gear;

the bottom end of the postpositional stem cutting shaft is coaxially and fixedly connected with a front cutter, and the cutter surface of the front cutter is horizontally arranged;

the wheel distance between the front stem collecting belt wheel and the front stem throwing belt wheel is smaller than the wheel distance between the rear stem cutting belt wheel and the rear stem throwing belt wheel;

the front stem throwing gear is meshed with the rear stem throwing gear;

the front annular belt and the rear annular belt are positioned on the same horizontal plane;

a garlic stem harvesting inlet is formed between the front stem harvesting belt pulley and the rear stem cutting belt pulley;

the outer surface of the rear edge of the front annular belt and the outer surface of the front edge of the rear annular belt are adjacent to each other, and a garlic stem clamping and side throwing channel is formed at the adjacent position;

a garlic bulb turning shovel is fixedly connected to the bottom of the frame behind the garlic stem harvesting inlet.

Two rear direction wheels are arranged at the rear end of the rack and are respectively positioned at the left side and the right side of the rack, and the two rear direction wheels are universal wheels; the front driving wheels are two and are respectively positioned at the left side and the right side of the frame, and the front driving wheels are directional wheels.

The preposed annular belt synchronously drives a preposed guide stem collecting belt wheel, a preposed stem collecting belt wheel and a preposed stem throwing belt wheel;

the postposition annular belt synchronously drives the postposition stem cutting belt wheel and the postposition stem throwing belt wheel.

The front annular belt and the rear annular belt are both flat belts with flat rectangular sections.

A single-row cut stem collecting guide cover is arranged above the postposition cut stem belt pulley at one side of the garlic stem harvesting inlet, and the single-row cut stem collecting guide cover is fixedly connected to the rack;

a single-row stem throwing collecting guide cover is arranged above the preposed guiding stem collecting belt wheel, the preposed stem collecting belt wheel and the preposed stem throwing belt wheel on the other side of the garlic stem harvesting inlet and is fixedly connected to the frame;

a single-row furling fork opening is arranged between the single-row furling guide cover for cutting the stem part and the single-row furling guide cover for throwing the stem part.

The shovel tip of the garlic bulb turning shovel is forward, the shovel tip is arranged obliquely and downwards, and the garlic stem harvesting inlet and the garlic bulb turning shovel are arranged on the same longitudinal line.

A protective cover is fixedly connected above the rack behind the front harvesting mechanism and is provided with an inclined plane inclined towards the front lower part.

The handle is provided with a gear box gear shifting linkage control part.

The hand (hold) fixed connection is at the end of frame, and the hand (hold) is provided with two, and two hand (hold) fixed connection are respectively in the both sides of the terminal horizontal direction of frame, and the hand (hold) is located the top of rear direction wheel.

The knife surface of the front cutter is arranged below the garlic stem clamping side throwing channel.

Compared with the prior art, the utility model produced beneficial effect is:

the utility model discloses a single file stem cutting garlic harvester's leading mechanism of reaping adopts leading endless belt, rearmounted endless belt, because the belt is elastic, can relax impact, reduce the vibration, and the transmission is steady, and the work noise is lower.

When the transmission part encounters an obstacle or an overload, the belt slips on the belt pulley, thereby preventing the machine member from being damaged.

The belt transmission has good fault tolerance, is suitable for the work between fields, has simple and easy belt transmission, low cost, simple maintenance and convenient replacement.

The utility model discloses a single file stem cutting garlic harvester reasonable in design, simple structure, safe and reliable, convenient to use, easy to maintain have fine using value widely.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the structure of the present invention;

fig. 3 is a schematic top view of the present invention;

fig. 4 is a schematic view of the bottom view structure of the present invention.

The reference numerals in the drawings denote:

1. a frame, 2, a handle, 3, an engine, 4, a gear box, 5, a gear box output chain wheel, 6, a front axle, 7, a front driving wheel, 8 and a rear wheel,

9. an engine output shaft 10, a driving belt pulley 11, a power belt 12 and a driven belt pulley,

13. the front-mounted harvesting mechanism is arranged at the front,

14. a preposed stem collecting shaft 15 and a preposed stem throwing shaft,

16. a preposed stem collecting belt wheel 17 and a preposed stem throwing belt wheel,

18. the front-mounted guide is used for collecting the stem shaft,

19. a leading guide stalk-collecting belt wheel is arranged in front,

20. the front-mounted ring-shaped belt is arranged in the front,

21. a stem-throwing gear is arranged in front,

22. a stem cutting shaft is arranged at the rear part, 23, a stem throwing shaft is arranged at the rear part,

24. a post stem cutting belt wheel 25 and a post stem throwing belt wheel,

26. an annular belt is arranged at the rear part of the device,

27. a stem-throwing gear is arranged at the rear part,

28. a front cutter 29, a harvesting inlet of the garlic stems 30, a clamping and side-throwing channel of the garlic stems 31, a turning shovel of the garlic heads 31,

32. a single-row gathering guide cover for cutting the stem part, a single-row gathering guide cover 33 for throwing the stem part, a single-row gathering fork opening 34,

35. a protective cover 36, a gear shifting linkage control member of the gear box,

37. handle throttle control, 38, handle brake control.

Detailed Description

The following detailed description of the harvester for single row chopped garlic of the present invention is made with reference to the accompanying drawings.

As shown in the attached drawings, the single-row stem-cutting garlic harvester of the utility model structurally comprises a frame 1 and a handle 2,

an engine 3 and a gearbox 4 which are in driving connection are arranged on the frame 1, an output chain wheel 5 of the gearbox drives a front axle 6 of a travelling mechanism on the frame through a chain, the front axle is provided with a front driving wheel 7, and the rear end of the frame is provided with a rear direction wheel 8;

an engine output shaft 9 or a gearbox output shaft is coaxially and fixedly connected with a driving belt pulley 10, the driving belt pulley is connected with a driven belt pulley 12 which is horizontally arranged at the front end of the frame through a power belt 11,

the front end of the frame 1 is provided with a front harvesting mechanism 13, and the transverse direction of the frame at the front part of the front harvesting mechanism is provided with a vertical front stem collecting shaft 14 and a front stem throwing shaft 15 which are parallel to each other;

a preposed stem collecting belt wheel 16 is coaxially and fixedly connected with the top end of the preposed stem collecting shaft 14,

the top end of the preposed stem throwing shaft 15 is coaxially and fixedly connected with a preposed stem throwing belt pulley 17,

a front guide stem collecting shaft 18 is arranged on the machine frame in front between the front stem collecting shaft 14 and the front stem throwing shaft 15, the top end of the front guide stem collecting shaft 18 is coaxially and fixedly connected with a front guide stem collecting belt wheel 19,

a preposed annular belt 20 tightly sleeves the outer edges of the preposed guiding stem collecting belt wheel 19, the preposed stem collecting belt wheel 16 and the preposed stem throwing belt wheel 17;

the bottom end of the preposed stem throwing shaft 15 is coaxially and fixedly connected with a preposed stem throwing gear 21;

the driven belt pulley 12 is coaxially and fixedly connected on the preposed stem throwing shaft 15;

a vertical post-positioned stem cutting shaft 22 and a post-positioned stem throwing shaft 23 are arranged in the transverse direction of the rear frame of the front harvesting mechanism 13 and are parallel to each other;

the top end of the post-stem cutting shaft 22 is coaxially and fixedly connected with a post-stem cutting belt pulley 24,

the top end of the post stem throwing shaft 23 is coaxially and fixedly connected with a post stem throwing belt pulley 25,

a rear annular belt 26 tightly sleeves the outer edges of the rear stem cutting belt pulley 24 and the rear stem throwing belt pulley 25;

the bottom end of the post stem throwing shaft 23 is coaxially and fixedly connected with a post stem throwing gear 27;

the bottom end of the postpositional stem cutting shaft 22 is coaxially and fixedly connected with a front cutter 28, and the cutter surface of the front cutter is horizontally arranged;

the wheel distance between the front stem collecting belt wheel 16 and the front stem throwing belt wheel 17 is smaller than the wheel distance between the rear stem cutting belt wheel 24 and the rear stem throwing belt wheel 25;

the front stem throwing gear 21 is meshed with the rear stem throwing gear 27;

the front annular belt 20 and the rear annular belt 26 are positioned on the same horizontal plane;

a garlic stem harvesting inlet 29 is formed between the front stem harvesting belt pulley 16 and the rear stem cutting belt pulley 24;

the outer surface of the rear edge of the front annular belt 20 and the outer surface of the front edge of the rear annular belt 26 are adjacent to each other, and a garlic stem clamping side throwing channel 30 is formed at the adjacent position;

a garlic bulb turning shovel 31 is fixedly connected to the bottom of the frame behind the garlic stem harvesting inlet.

Two rear direction wheels 8 are arranged at the rear end of the rack and are respectively positioned at the left side and the right side of the rack, and the two rear direction wheels are universal wheels; the front driving wheels 7 are two and are respectively positioned at the left side and the right side of the frame, and the front driving wheels are directional wheels.

The preposed annular belt 20 synchronously drives a preposed guiding stem collecting belt wheel 19, a preposed stem collecting belt wheel 16 and a preposed stem throwing belt wheel 17;

the postposition annular belt 26 synchronously drives the postposition stem cutting belt pulley 24 and the postposition stem throwing belt pulley 25.

The front endless belt 20 and the rear endless belt 26 are each a flat belt having a flat rectangular cross section.

A single-row cut stem collecting guide cover 32 is arranged above the post-positioned stem cutting belt pulley at one side of the garlic stem harvesting inlet 29 and is fixedly connected to the frame;

a single-row stem throwing collecting guide cover 33 is arranged above the preposed guide stem collecting belt wheel, the preposed stem collecting belt wheel and the preposed stem throwing belt wheel on the other side of the garlic stem harvesting inlet 29 and is fixedly connected to the frame;

a single-row furling fork opening 34 is arranged between the single-row furling guide cover for cutting the stem part and the single-row furling guide cover for throwing the stem part.

The shovel tip of the garlic bulb turning shovel is forward, the shovel tip is arranged obliquely and downwards, and the garlic stem harvesting inlet and the garlic bulb turning shovel are arranged on the same longitudinal line.

A protective cover 35 is fixedly connected above the frame behind the front harvesting mechanism and is provided with an inclined plane inclined towards the front lower part.

The engine adopts a gasoline or diesel internal combustion engine or an electric motor powered by a battery.

The handle is provided with a gearbox gear shifting linkage control member 36.

The hand (hold) fixed connection is at the end of frame, and the hand (hold) is provided with two, and two hand (hold) fixed connection are respectively in the both sides of the terminal horizontal direction of frame, and the hand (hold) is located the top of rear direction wheel.

The handle of the right hand is provided with a handle accelerator control member 37, and the handle of the left hand is provided with a handle brake control member 38.

The knife surface of the front cutter is arranged below the garlic stem clamping side throwing channel.

The front cutter is close to the ground, and when the garlic harvester operates, the front cutter cuts the garlic stems extending out of the ground. The cut garlic stems are clamped and conveyed by the front annular belt and the rear annular belt in the garlic stem clamping and side throwing channel and are thrown away towards the side; in the operation process, the garlic bulb turning shovel shovels and turns out the garlic bulbs under the ground after stem breaking.

The frame is horizontally arranged, the front of the frame is a forward walking direction, the forward walking direction of the frame is a longitudinal walking direction, and the horizontal direction perpendicular to the longitudinal walking direction is a transverse direction.

The front stem collecting shaft and the front stem throwing shaft are arranged in the same transverse direction. The preposed stem collecting shaft and the preposed stem throwing shaft are respectively vertically arranged, namely, are vertical to the horizontal plane.

The postposition stem cutting shaft and the postposition stem throwing shaft are arranged in the same transverse direction. The postposition stem cutting shaft and the postposition stem throwing shaft are respectively vertically arranged, namely, vertical to the horizontal plane.

The preposed annular belt is sleeved on the preposed guide stem collecting belt wheel, the preposed stem collecting belt wheel and the preposed stem throwing belt wheel to form a triangle-shaped running preposed annular belt with a forward tip.

The postposition annular belt is tightly sleeved on the postposition stem cutting belt wheel and the postposition stem throwing belt wheel to form the long and flat annular running postposition annular belt.

Claims (10)

1. The harvester for single-row stem-cutting garlic is characterized by comprising a frame and a handle,

an engine and a gearbox which are in driving connection are arranged on the rack, an output chain wheel of the gearbox drives a front axle of a traveling mechanism on the rack through a chain, the front axle is provided with a front driving wheel, and the rear end of the rack is provided with a rear steering wheel;

the output shaft of the engine is coaxially and fixedly connected with a driving belt pulley, the driving belt pulley is connected with a driven belt pulley horizontally arranged at the front end of the frame through a power belt,

the front end of the frame is provided with a front harvesting mechanism, and the transverse direction of the frame at the front part of the front harvesting mechanism is provided with a vertical front stem collecting shaft and a front stem throwing shaft which are parallel to each other;

the top end of the preposed stem collecting shaft is coaxially and fixedly connected with a preposed stem collecting belt pulley,

the top end of the preposed stem throwing shaft is coaxially and fixedly connected with a preposed stem throwing belt pulley,

a front guide stem collecting shaft is arranged on the machine frame in front of the space between the front stem collecting shaft and the front stem throwing shaft, the top end of the front guide stem collecting shaft is coaxially and fixedly connected with a front guide stem collecting belt wheel,

a preposed annular belt is tightly sleeved on the outer edges of the preposed guiding stem collecting belt wheel, the preposed stem collecting belt wheel and the preposed stem throwing belt wheel;

the bottom end of the preposed stem throwing shaft is coaxially and fixedly connected with a preposed stem throwing gear;

the driven belt pulley is coaxially and fixedly connected to the preposed stem throwing shaft;

a vertical post-positioned stalk cutting shaft and a post-positioned stalk throwing shaft are arranged in the transverse direction of a rear rack of the front harvesting mechanism and are parallel to each other;

the top end of the postposition stem cutting shaft is coaxially and fixedly connected with a postposition stem cutting belt pulley,

the top end of the post stem throwing shaft is coaxially and fixedly connected with a post stem throwing belt pulley,

a postposition annular belt tightly sleeves the outer edges of the postposition stem cutting belt wheel and the postposition stem throwing belt wheel;

the bottom end of the post stem throwing shaft is coaxially and fixedly connected with a post stem throwing gear;

the bottom end of the postpositional stem cutting shaft is coaxially and fixedly connected with a front cutter, and the cutter surface of the front cutter is horizontally arranged;

the wheel distance between the front stem collecting belt wheel and the front stem throwing belt wheel is smaller than the wheel distance between the rear stem cutting belt wheel and the rear stem throwing belt wheel;

the front stem throwing gear is meshed with the rear stem throwing gear;

the front annular belt and the rear annular belt are positioned on the same horizontal plane;

a garlic stem harvesting inlet is formed between the front stem harvesting belt pulley and the rear stem cutting belt pulley;

the outer surface of the rear edge of the front annular belt and the outer surface of the front edge of the rear annular belt are adjacent to each other, and a garlic stem clamping and side throwing channel is formed at the adjacent position;

a garlic bulb turning shovel is fixedly connected to the bottom of the frame behind the garlic stem harvesting inlet.

2. A single row chopped garlic harvester according to claim 1, characterized in that: two rear direction wheels are arranged at the rear end of the rack and are respectively positioned at the left side and the right side of the rack, and the two rear direction wheels are universal wheels; the front driving wheels are two and are respectively positioned at the left side and the right side of the frame, and the front driving wheels are directional wheels.

3. A single row chopped garlic harvester according to claim 1, characterized in that:

the preposed annular belt synchronously drives a preposed guide stem collecting belt wheel, a preposed stem collecting belt wheel and a preposed stem throwing belt wheel;

the postposition annular belt synchronously drives the postposition stem cutting belt wheel and the postposition stem throwing belt wheel.

4. A single row chopped garlic harvester according to claim 1, characterized in that: the front annular belt and the rear annular belt are both flat belts with flat rectangular sections.

5. A single row chopped garlic harvester according to claim 1, characterized in that:

a single-row cut stem collecting guide cover is arranged above the postposition cut stem belt pulley at one side of the garlic stem harvesting inlet, and the single-row cut stem collecting guide cover is fixedly connected to the rack;

a single-row stem throwing collecting guide cover is arranged above the preposed guiding stem collecting belt wheel, the preposed stem collecting belt wheel and the preposed stem throwing belt wheel on the other side of the garlic stem harvesting inlet and is fixedly connected to the frame;

a single-row furling fork opening is arranged between the single-row furling guide cover for cutting the stem part and the single-row furling guide cover for throwing the stem part.

6. A single row chopped garlic harvester according to claim 1, characterized in that: the shovel tip of the garlic bulb turning shovel is forward, the shovel tip is arranged obliquely and downwards, and the garlic stem harvesting inlet and the garlic bulb turning shovel are arranged on the same longitudinal line.

7. A single row chopped garlic harvester according to claim 1, characterized in that: a protective cover is fixedly connected above the rack behind the front harvesting mechanism and is provided with an inclined plane inclined towards the front lower part.

8. A single row chopped garlic harvester according to claim 1, characterized in that: the handle is provided with a gear box gear shifting linkage control part.

9. A single row chopped garlic harvester according to claim 1, characterized in that: the hand (hold) fixed connection is at the end of frame, and the hand (hold) is provided with two, and two hand (hold) fixed connection are respectively in the both sides of the terminal horizontal direction of frame, and the hand (hold) is located the top of rear direction wheel.

10. A single row chopped garlic harvester according to claim 1, characterized in that: the knife surface of the front cutter is arranged below the garlic stem clamping side throwing channel.

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