CN110786121A - Cutting type clamping seedling cutting system of miniature garlic combine harvester - Google Patents

Abstract

The invention discloses a chopping-cutting type clamping seedling cutting system of a miniature garlic combine harvester, which comprises a clamping arm, a seedling cutting device, a grain lifter and a guider, wherein the clamping arm is connected with the seedling cutting device; the clamping arms consist of an isosceles triangle conveying mechanism and a rectangular conveying mechanism, and a clamping channel is formed between the two clamping arms; the bottom angle of the other equal waist side of the isosceles triangle transmission mechanism is fixedly connected with the grain lifter; the mounting end of the clamping driving wheel for clamping the long substrate is fixedly connected with a guider, and the clamping seedling cutting system is connected with a rotary supporting arm of the harvester; in a normal state, an included angle of 15-30 degrees is formed between the clamping channel and the transverse central line of the harvester, the feeding port of the clamping channel is positioned behind the limiting wheel of the harvester, the front end of the guide is positioned on the inner side of the limiting wheel, the grain lifter is parallel to the transverse central line of the harvester, the grain lifter and the guide are positioned on two sides of the clamping channel and form a certain included angle, the dug garlic seedlings are guided into the clamping arms and are conveyed to the tail end by the clamping arms to be cut into garlic heads by the seedling cutting device.

Description

Cutting type clamping seedling cutting system of miniature garlic combine harvester

Technical Field

The invention relates to the field of agricultural machinery, and particularly discloses a chopping-type clamping seedling cutting system of a miniature garlic combine harvester.

Background

The clamping seedling cutting system is the most important component of the garlic harvester, and whether the structure is reasonable or not determines the efficiency and quality of garlic harvesting. The seedling cutting knife of the existing garlic harvester is easy to wear when in use, and the arrangement of the clamping mechanism is unreasonable, so that the walking of the garlic harvester and the transmission of seedlings are influenced.

Disclosure of Invention

In order to solve the technical problem, the invention provides a cutting type clamping seedling cutting system of a miniature garlic combine harvester.

The technical scheme adopted by the invention is as follows: a cutting type clamping seedling cutting system of a miniature garlic combine harvester comprises a clamping arm, a seedling cutting device, a grain lifter and a guider; the clamping arms consist of an isosceles triangle conveying mechanism and a rectangular conveying mechanism, and a clamping channel is formed between the two clamping arms; the isosceles triangle conveying mechanism comprises a clamping triangle base plate, a clamping driving wheel is rotatably arranged at the top angle of the clamping triangle base plate, and a clamping driven wheel is rotatably arranged at the two bottom angles; the clamping driving wheel is in transmission connection with the two clamping driven wheels through a belt to form a triangular transmission belt; the rectangular conveying mechanism comprises a clamping long substrate, one end of the clamping long substrate is rotatably provided with a clamping wheel driving wheel, the other end of the clamping long substrate is rotatably provided with a clamping driven wheel, and the clamping long substrate and the clamping driven wheel are in transmission connection through a belt; the isosceles triangle conveying mechanism and the rectangular conveying mechanism are coaxially provided with mutually meshed nylon shifting teeth on clamping driving wheels, one of the isosceles triangle conveying mechanism is parallel to the rectangular conveying mechanism at the waist edge, the clamping driven wheels on the waist edge are coaxially provided with seedling cutting knives, the rectangular conveying mechanism is provided with positioning knives which are of rectangular sheet structures and are positioned below the seedling cutting knives, a small amount of gaps are reserved between the positioning knives and the seedling cutting knives, and the positioning knives are positioned in the rotating range of the seedling cutting knives; the bottom angle of the other equal waist edge of the isosceles triangle transmission mechanism is fixedly connected with the grain lifter; the mounting end of the clamping driving wheel for clamping the long substrate is fixedly connected with a guider, and the clamping seedling cutting system is connected with a rotary supporting arm of the harvester; in a normal state, an included angle of 15-30 degrees is formed between the clamping channel and the transverse central line of the harvester, the feeding port of the clamping channel is positioned behind the limiting wheel of the harvester, the front end of the guide is positioned on the inner side of the limiting wheel, the grain lifter is parallel to the transverse central line of the harvester, the grain lifter and the guide are positioned on two sides of the clamping channel and form a certain included angle, the dug garlic seedlings are guided into the clamping arms and are conveyed to the tail end by the clamping arms to be cut into garlic heads by the seedling cutting device.

Further, the clamping driving wheel is driven by a clamping driving system; the clamping driving system comprises a commutator, a carrier gear and a harvester power system; the shaft body of the clamping driving wheel is respectively connected with the shaft bodies of the intermediate gears through the shaft couplings, the two intermediate gears are meshed, the shaft body of one of the intermediate gears is in key connection with the power output shaft of the reverser, the power input shaft of the reverser is provided with a reverser driving wheel, and the reverser driving wheel is connected with the output wheel of the harvester power system through a chain.

Furthermore, a gear mounting platform is arranged above the clamping arm, a shaft body of the carrier gear is rotatably connected with the gear mounting platform through a bearing, and the gear mounting platform is fixedly mounted on the clamping long base plate and the clamping triangular base plate through vertical supporting legs.

Furthermore, a commutator support is further mounted on the clamping arm, a bearing seat is fixedly mounted at the top of the commutator support, and a power input shaft of the commutator is rotatably connected with the bearing seat; and two supports are arranged at the lower part of the commutator support, one support is fixedly connected with the clamping triangular base plate, and the other support is fixedly connected with the rotating support arm of the harvester.

Further, centre gripping drive wheel, centre gripping are equipped with mud scraping mechanism from the driving wheel respectively, mud scraping mechanism includes the scraper, the scraper pass through the bolt with weld the flange joint on centre gripping triangle-shaped base plate and centre gripping long base plate, the tip and the centre gripping of scraper contact from the outer fringe of driving wheel, centre gripping.

Furthermore, the clamping arm is also provided with a tensioning mechanism, and the tensioning mechanism comprises a clamping tensioning screw, a tensioning locking nut, a tensioning flange, a tensioning sliding block and a tensioning limiting bolt; the clamping and tensioning device comprises a clamping flange, a clamping and tensioning screw rod, a tensioning locking nut and a tensioning sliding block, wherein the clamping flange is welded with a clamping triangular substrate or a clamping long substrate; the clamping triangular substrate or the clamping long substrate is provided with a sliding chute, and the end part of the tensioning limiting bolt penetrates through the sliding chute and is fastened through a nut, so that the tensioning degree is convenient to adjust; the front end intercommunication of spout has the centre gripping wheel mounting groove, and the centre gripping passes through the bolt mounting in the centre gripping wheel mounting groove from the bearing of driving wheel, and under the tensioning state, tensioning slider front end supports the centre gripping from the driving wheel, makes the tensioning be connected between wheel body and the belt.

Furthermore, the seedling cutter consists of a seedling cutter base plate and a plurality of seedling cutter blades, the cutting edges of the seedling cutter blades are serrated, the seedling cutter blades are uniformly distributed on the seedling cutter base plate at the periphery, and a shaft is connected with the middle key of the seedling cutter base plate, is connected with the clamping driving wheel through the shaft and is arranged on the disc surface of the clamping driving wheel through a fixing bolt.

The invention has the beneficial effects that: the unilateral eight-piece type serrated knife is adopted, so that the effects of cutting and chopping are achieved, and the seedling cutting effect is guaranteed at the rotating speed; the nylon shifting teeth play a role in enhancing the feeding effect. The garlic planter has the advantages of compact structure, light weight and low cost, and is suitable for small-scale garlic growers to purchase and use, so the garlic planter has great social and economic values.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a bottom view.

Fig. 3 is a schematic structural diagram of an embodiment of the present invention.

Detailed Description

As shown in fig. 1, 2 and 3, a cutting type clamping seedling cutting system of a micro garlic combine harvester comprises a clamping arm 1, a seedling cutting device 2, a grain lifter 5 and a guider 6; the clamping arm 1 consists of an isosceles triangle conveying mechanism 3 and a rectangular conveying mechanism 4, and a clamping channel is formed between the two clamping arms; the isosceles triangle conveying mechanism 3 comprises a clamping triangle base plate 3-1, a clamping driving wheel 3-2 is rotatably arranged at the top angle of the clamping triangle base plate 3-1, and a clamping driven wheel 3-3 is rotatably arranged at the two bottom angles; the clamping driving wheel 3-2 is in transmission connection with the two clamping driven wheels 3-3 through a belt 3-4 to form a triangular transmission belt; the rectangular conveying mechanism 4 comprises a clamping long substrate 4-1, one end of the clamping long substrate 4-1 is rotatably provided with a clamping wheel driving wheel 4-2, the other end of the clamping long substrate 4-1 is rotatably provided with a clamping driven wheel 4-3, and the clamping long substrate and the clamping driven wheel are in transmission connection through a belt 4-4; the isosceles triangle conveying mechanism 3 and the rectangle conveying mechanism 4 are coaxially provided with mutually meshed nylon shifting teeth 3-5 and 4-5 on clamping driving wheels 3-2 and 4-2, one of the isosceles triangle conveying mechanism 3 is parallel to the rectangle conveying mechanism 4 at the equal waist side, a clamping driven wheel 3-3 on the equal waist side is coaxially provided with a seedling cutter 2-1, the rectangle conveying mechanism 4 is provided with a positioning cutter 2-2, the positioning cutter 2-2 is of a rectangular sheet structure and is positioned below the seedling cutter 2-1, a small amount of gap is reserved between the positioning cutter 2-2 and the seedling cutter 2-1, and the positioning cutter 2-2 is positioned in the rotating range of the seedling cutter 2-1; the bottom angle of the other equal waist edge of the isosceles triangle transmission mechanism 3 is fixedly connected with the grain lifter 5; the mounting end of a clamping driving wheel for clamping the long substrate 4-1 is fixedly connected with a guider 6, and the clamping seedling cutting system is connected with a rotary supporting arm 7-1 of a harvester 7; in a normal state, an included angle of 15-30 degrees is formed between the clamping channel and the transverse central line of the harvester 7, the feeding port of the clamping channel is located behind the limiting wheel 8 of the harvester 7, the front end of the guide 6 is located on the inner side of the limiting wheel 8, the grain lifter 5 is parallel to the transverse central line of the harvester 7, the grain lifter 7 and the guide 8 are located on two sides of the clamping channel and form a certain included angle, the dug garlic seedlings are guided into the clamping arm 1 and are conveyed to the tail end by the clamping arm 1 to be cut into garlic heads by the seedling cutting device 2.

As shown in fig. 1, the clamping driving wheels 3-2 and 4-2 are driven by a clamping driving system; the clamping driving system comprises a commutator 9, a carrier gear 10 and a harvester power system; the shaft bodies of the clamping driving wheels 3-2 and 4-2 are respectively connected with the shaft bodies of the intermediate gears 10 through shaft couplings, the two intermediate gears 10 are meshed, the shaft body of one of the intermediate gears 10 is connected with a power output shaft 9-1 of the reverser 9 in a key mode, the power input shaft 9-2 of the reverser 9 is provided with a reverser driving wheel 9-3, and the reverser driving wheel 9-3 is connected with an output wheel of a harvester power system through a chain 9-4.

As shown in fig. 1, a gear mounting platform 11 is arranged above the clamping arm 1, a shaft body of the carrier gear 10 is rotatably connected with the gear mounting platform 11 through a bearing, and the gear mounting platform 11 is fixedly mounted on the clamping long base plate 4-1 and the clamping triangular base plate 3-1 through vertical supporting legs 11-1.

As shown in fig. 1, a commutator support 12 is further mounted on the clamping arm 1, a bearing seat 13 is fixedly mounted at the top of the commutator support 12, and a power input shaft 9-2 of the commutator 9 is rotatably connected with the bearing seat 13; two brackets 12-1 are arranged at the lower part of the commutator support 12, wherein one bracket is fixedly connected with the clamping triangular base plate 3-1, and the other bracket 12-1 is fixedly connected with the rotating arm 7-1 of the harvester 7.

As shown in fig. 2, the clamping driving wheels 3-2, 4-2 and the clamping driven wheels 3-3, 4-3 are respectively provided with a mud scraping mechanism 14, the mud scraping mechanism 14 comprises a mud scraping plate 14-1, the mud scraping plate 14-1 is connected with flanges 14-3 welded on the clamping triangular base plate 3-1 and the clamping long base plate 4-1 through bolts 14-2, the end of the mud scraping plate 14-1 is in contact with the clamping driving wheels 3-2, 4-2, and the outer edges of the clamping driven wheels 3-3, 4-3.

As shown in fig. 2, the clamping arm is further provided with a tensioning mechanism 15, and the tensioning mechanism 15 comprises a clamping tensioning screw 15-1, a tensioning locking nut 15-2, a tensioning flange 15-3, a tensioning sliding block 15-4 and a tensioning limiting bolt 15-5; the tensioning flange 15-3 is welded with the clamping triangular base plate 3-1 or the clamping long base plate 4-1, the clamping tensioning screw 15-1 is in threaded connection with the tensioning flange 15-3, the rear part of the clamping tensioning screw 15-1 is connected with a tensioning locking nut 15-2, and the front end of the clamping tensioning screw is provided with a tensioning sliding block 15-4 through a tensioning limiting bolt 15-5; a sliding groove is formed in the clamping triangular substrate 3-1 or the clamping long substrate 4-1, and the end part of the tensioning limiting bolt 15-5 penetrates through the sliding groove and is fastened through a nut, so that the tensioning degree is convenient to adjust; the front end of the sliding groove is communicated with a clamping wheel mounting groove, bearings for clamping the driven wheels 3-3 and 4-3 are mounted in the clamping wheel mounting groove through bolts, and the front end of the tensioning sliding block 15-4 abuts against the clamped driven wheels 3-3 and 4-3 in a tensioning state, so that the wheel body is connected with the belt in a tensioning mode.

As shown in figure 2, the seedling cutter 2-1 consists of a seedling cutter base plate 2-11 and a plurality of seedling cutter blades 2-12, the cutting edges of the seedling cutter blades 2-12 are serrated, the seedling cutter blades are evenly distributed on the seedling cutter base plate 2-11 at the circumference of 2-12, the middle key of the seedling cutter base plate 2-11 is connected with a shaft, the shaft is connected with a clamping driving wheel 3-2, and the shaft is arranged on the disc surface of the clamping driving wheel 3-2 through a fixing bolt.

Claims (7)

1. A chopping-cutting type clamping seedling cutting system of a miniature garlic combine harvester is characterized by comprising a clamping arm, a seedling cutting device, a grain lifter and a guider; the clamping arms consist of an isosceles triangle conveying mechanism and a rectangular conveying mechanism, and a clamping channel is formed between the two clamping arms; the isosceles triangle conveying mechanism comprises a clamping triangle base plate, a clamping driving wheel is rotatably arranged at the top angle of the clamping triangle base plate, and a clamping driven wheel is rotatably arranged at the two bottom angles; the clamping driving wheel is in transmission connection with the two clamping driven wheels through a belt to form a triangular transmission belt; the rectangular conveying mechanism comprises a clamping long substrate, one end of the clamping long substrate is rotatably provided with a clamping wheel driving wheel, the other end of the clamping long substrate is rotatably provided with a clamping driven wheel, and the clamping long substrate and the clamping driven wheel are in transmission connection through a belt; the isosceles triangle conveying mechanism and the rectangular conveying mechanism are coaxially provided with mutually meshed nylon shifting teeth on clamping driving wheels, one of the isosceles triangle conveying mechanism is parallel to the rectangular conveying mechanism at the waist edge, the clamping driven wheels on the waist edge are coaxially provided with seedling cutting knives, the rectangular conveying mechanism is provided with positioning knives which are of rectangular sheet structures and are positioned below the seedling cutting knives, a small amount of gaps are reserved between the positioning knives and the seedling cutting knives, and the positioning knives are positioned in the rotating range of the seedling cutting knives; the bottom angle of the other equal waist edge of the isosceles triangle transmission mechanism is fixedly connected with the grain lifter; the mounting end of the clamping driving wheel for clamping the long substrate is fixedly connected with a guider, and the clamping seedling cutting system is connected with a rotary supporting arm of the harvester; in a normal state, an included angle of 15-30 degrees is formed between the clamping channel and the transverse central line of the harvester, the feeding port of the clamping channel is positioned behind the limiting wheel of the harvester, the front end of the guide is positioned on the inner side of the limiting wheel, the grain lifter is parallel to the transverse central line of the harvester, the grain lifter and the guide are positioned on two sides of the clamping channel and form a certain included angle, the dug garlic seedlings are guided into the clamping arms and are conveyed to the tail end by the clamping arms to be cut into garlic heads by the seedling cutting device.

2. The chopping type clamping seedling cutting system of the micro garlic combine harvester as claimed in claim 1, wherein the clamping driving wheel is driven by a clamping driving system; the clamping driving system comprises a commutator, a carrier gear and a harvester power system; the shaft body of the clamping driving wheel is respectively connected with the shaft bodies of the intermediate gears through the shaft couplings, the two intermediate gears are meshed, the shaft body of one of the intermediate gears is in key connection with the power output shaft of the reverser, the power input shaft of the reverser is provided with a reverser driving wheel, and the reverser driving wheel is connected with the output wheel of the harvester power system through a chain.

3. The chopping type clamping seedling cutting system of the micro garlic combine harvester as claimed in claim 1, wherein a gear mounting platform is arranged above the clamping arm, a shaft body of the intermediate gear is rotatably connected with the gear mounting platform through a bearing, and the gear mounting platform is fixedly mounted on the clamping long base plate and the clamping triangular base plate through vertical supporting legs.

4. The chopping-type clamping seedling cutting system of the micro garlic combine harvester as claimed in claim 1, wherein a commutator support is further mounted on the clamping arm, a bearing seat is fixedly mounted at the top of the commutator support, and a power input shaft of the commutator is rotatably connected with the bearing seat; and two supports are arranged at the lower part of the commutator support, one support is fixedly connected with the clamping triangular base plate, and the other support is fixedly connected with the rotating support arm of the harvester.

5. The chopping-type clamping seedling cutting system of the micro garlic combine harvester as claimed in claim 1, wherein the clamping driving wheel and the clamping driven wheel are respectively provided with a mud scraping mechanism, the mud scraping mechanism comprises a mud scraping plate, the mud scraping plate is connected with flanges welded on the clamping triangular base plate and the clamping long base plate through bolts, and the end part of the mud scraping plate is in contact with the outer edges of the clamping driving wheel and the clamping driven wheel.

6. The chopping-type clamping seedling-cutting system of the micro garlic combine harvester as claimed in claim 1, wherein the clamping arm is further provided with a tensioning mechanism, and the tensioning mechanism comprises a clamping tensioning screw, a tensioning locking nut, a tensioning flange, a tensioning slider and a tensioning limit bolt; the clamping and tensioning device comprises a clamping flange, a clamping and tensioning screw rod, a tensioning locking nut and a tensioning sliding block, wherein the clamping flange is welded with a clamping triangular substrate or a clamping long substrate; the clamping triangular substrate or the clamping long substrate is provided with a sliding chute, and the end part of the tensioning limiting bolt penetrates through the sliding chute and is fastened through a nut, so that the tensioning degree is convenient to adjust; the front end intercommunication of spout has the centre gripping wheel mounting groove, and the centre gripping passes through the bolt mounting in the centre gripping wheel mounting groove from the bearing of driving wheel, and under the tensioning state, tensioning slider front end supports the centre gripping from the driving wheel, makes the tensioning be connected between wheel body and the belt.

7. The chopping-cutting type clamping seedling cutting system of the micro garlic combine harvester as claimed in claim 1, wherein the seedling cutter is composed of a seedling cutter base plate and a plurality of seedling cutter blades, the cutting edges of the seedling cutter blades are serrated, the seedling cutter blades are evenly distributed on the seedling cutter base plate at the periphery, and the middle key of the seedling cutter base plate is connected with a shaft, is connected with the clamping driving wheel through the shaft and is arranged on the disk surface of the clamping driving wheel through a fixing bolt.

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