CN105684641A - Highly-efficient cane crop harvesting machine - Google Patents

Abstract

The invention provides a highly-efficient cane crop harvesting machine comprising support plates, main plates, crankshafts, drive rods, auxiliary cutting wheels, main cutting wheels, a conveying belt shaft and a conveying belt. The support plates A and C are located on one side of the left main plate and one side of the right main plate. The right main plate is located between the support plates A and B. The support plate B is located between the left main plate and the right main plate. The left main plate is located between the support plates B and C. The right crankshaft is arranged on the right main plate. The two ends of the conveying belt shaft are located on the lower sides of the support plates A and C. The conveying belt is located on the outer side of the conveying belt shaft. The left drive rod and the right drive rod are in sleeved connection with the left crankshaft and the right crankshaft. The left crankshaft is located on the upper side of the left main plate. The auxiliary cutting wheel F is located on the lower side of the support plate C. The main cutting wheel B and the auxiliary cutting wheel E are located on the lower side of the left main plate separately. The auxiliary cutting wheel D and the auxiliary cutting wheel C are arranged on the lower side of the support plate B separately. The auxiliary cutting wheel B and the main cutting wheel A are arranged on the lower side of the right main plate separately. The auxiliary cutting wheel A is located on the lower side of the support plate A. The highly-efficient cane crop harvesting machine has the advantages of delicate structure, multiple functions, wide application range, flexible and convenient drive, highly-efficient and energy-saving cutting and collecting, safety, reliability and durability, low manufacture and use costs and extremely high comprehensive benefits.

Description

Efficient sugarcane stalk class harvester

Technical field

The present invention relates to a kind of harvester, particularly a kind of efficiently sugarcane stalk class harvester。

Background technology

In agricultural production modernization development process, when the contour stalk plant of Caulis Sacchari sinensis of agricultural planting gathers in, the mechanical shear continued to use cuts cuts operation with general manual manipulative techniques and cutter, there is technological lag, labor intensity is big, working efficiency is poor, effect is extremely low and is difficult to carry out the drawback such as substance and effectiveness use。For this, pole is necessary that inventing the more advanced more practical more efficient sugarcane stalk class of a kind of technology cuts receipts new technique, cuts the complex art of receipts and economic benefit development thereof improving agricultural sugarcane stalk plant as early as possible。

Summary of the invention

It is an object of the invention to for existing correlation technique defect and problem, it is provided that a kind of design delicate structure, technical performance is superior, multi-function is wide, multiple driving round cut, quickness and high efficiency cut receipts, safe and reliable durable, less costly and that overall economic efficiency the is high efficient sugarcane stalk class harvester of system。

The present invention be the technical scheme is that a kind of efficiently sugarcane stalk class harvester for achieving the above object, it is characterised in that this machine includes support body, drives body, cuts three parts of body。

Described support body includes support plate C, support plate A, right mainboard, support plate B, left mainboard, described support plate C is arranged at and cuts on the upside of wheel F away from left mainboard side and pair, described support plate A is arranged at and cuts on the upside of wheel A away from right mainboard side and pair, described right mainboard is arranged at away between support plate A and support plate B and main cut wheel A and pair is cut on the upside of wheel B, described support plate B be arranged at away between right mainboard and left mainboard and pair cut wheel D and pair and cut on the upside of wheel C, described left mainboard is arranged at away between support plate B and support plate C and main cut wheel B and pair is cut on the upside of wheel E。

The described body that drives includes right bent axle, feed spool, conveyer belt, bar is driven on the right side, bar is driven on a left side, left bent axle, described right bent axle is arranged on the upside of right mainboard and lower end is socketed inside the through hole being connected on the upside of wheel A and driving with the right side outside upper end in bar front end side plate through this mainboard and main cutting, described feed spool two ends are connected on the downside of support plate C and support plate A and each major-minor cuts wheel side, described conveyer belt be arranged at outside feed spool and on the downside of support plate C and support plate A between, the described right side drive bar front end side plate be provided with through hole with outside right bent axle upper end socket and rear end be connected with external hydraulic or electro-mechanical driving device, a described left side drive bar front end side plate be provided with through hole with outside left bent axle upper end socket and rear end be connected with external hydraulic or electro-mechanical driving device, described left bent axle is arranged on the upside of left mainboard and lower end is socketed inside the through hole being connected on the upside of wheel B and driving with a left side outside upper end in bar front end side plate through this mainboard and main cutting。

Described cut body include pair cut wheel F, main cutting takes turns B, pair cuts wheel E, pair cuts wheel D, pair cuts wheel C, pair cuts wheel B, main cutting takes turns A, pair cuts wheel A, described pair is cut wheel F and is arranged on the downside of support plate C front end and is socketed with inside set axostylus axostyle upper end and this support plate through hole, described master cuts wheel B and is arranged under left mainboard front end side and upside is connected with left bent axle lower end, described pair is cut wheel E and is arranged under left mainboard front end side and socket inside set axostylus axostyle upper end and this mainboard through hole, described pair is cut wheel D and is arranged under support plate B front end side and socket inside set axostylus axostyle upper end and this support plate through hole, described pair is cut wheel C and is arranged under support plate B front end side and socket inside set axostylus axostyle upper end and this support plate through hole, described pair is cut wheel B and is arranged under right mainboard front end side and socket inside set axostylus axostyle upper end and this mainboard through hole, described master cuts wheel A and is arranged under right mainboard front end side and upside is connected with right bent axle lower end, described pair is cut wheel A and is arranged on the downside of support plate A front end and is socketed with inside set axostylus axostyle upper end and this support plate through hole。

Wherein said support plate C, support plate A, right mainboard, support plate B, left mainboard can be cusp-shaped or round end shape or flat-head shape。

Wherein said pair is cut wheel F, main is cut wheel B, pair cuts wheel E, pair cuts wheel D, pair cuts wheel C, pair cuts wheel B, main cut wheel A, pair is cut wheel A and is the sharp shape of gear or upside is gear and downside nib is circle bladed。

Owing to adopting above-mentioned technical pattern, there is advantages that

The present invention efficient sugarcane stalk class harvester, due to by support body, drive body, cut the support plate C in three parts of body, support plate A, right mainboard, support plate B, left mainboard, right bent axle, feed spool, conveyer belt, bar is driven on the right side, bar is driven on a left side, left bent axle, pair cuts wheel F, main cutting takes turns B, pair cuts wheel E, pair cuts wheel D, pair cuts wheel C, pair cuts wheel B, main cutting takes turns A, pair is cut wheel A etc. and is carried out organic synthesis setting, wherein support plate C can arrange pair and cut wheel F rotating shaft and feed spool left end, support plate A can arrange pair and cut wheel A rotating shaft and feed spool right-hand member, right mainboard can be arranged main cuts the wheel right bent axle of A and pair cuts wheel B rotating shaft, support plate B can arrange pair and cut wheel D rotating shaft and pair and cut wheel C rotating shaft, left mainboard can be arranged main cuts the wheel left bent axle of B and pair cuts wheel B rotating shaft, right bent axle can bear the right side and drive bar and drive and turn and main cut wheel A, feed spool can arrange conveyer belt and bear outside driving shaft driving, major-minor can be cut the sugarcane stalk class that round cut cuts off and be transported away by conveyer belt, the right side drive bar can bear external drive and and drive right bent axle, a left side drive bar can bear external drive and and drive left bent axle, left bent axle can bear a left side and drive bar and drive and turn and main cut wheel B, pair is cut wheel F and can be born the main wheel B that cuts and drives and assist to cut sugarcane stalk plant, the main wheel B that cuts can bear the driving of left bent axle and actively cut sugarcane stalk plant, pair cut wheel E can bear left bent axle drives and drives pair cut wheel D cutting sugarcane stalk plant, pair cut wheel D can bear pair cut wheel E drives and assists cut sugarcane stalk plant, pair cut wheel C can bear simultaneously pair cut wheel D and pair cut wheel B drives and assists cut sugarcane stalk plant, pair cut wheel B can bear right bent axle drives and drives pair cut wheel C cutting sugarcane stalk plant, the main wheel A that cuts can bear the driving of right bent axle and actively cut sugarcane stalk plant, pair is cut wheel A and can be born the main wheel A that cuts and drives and assist to cut sugarcane stalk plant。Promote the method can be widely used in the cutting results automatical and efficient, quick of agricultural sugarcane stalk plant, and effectively overcome the drawbacks such as conventional similar agricultural machinery technology performance is delayed, the single effect of purposes life-span low, unreliable is short, and create and filled up the blank of this advanced technology, it is promoted the use of and can comprehensively save and improve production efficiency more than 95%。Therefore, the present invention efficient sugarcane stalk class harvester have design delicate structure, technical performance is superior, multi-function is wide, automatical and efficient cut receipts, safe and reliable durable, make with less costly, the advantages such as cost performance is high, its overall economic efficiency and social benefit are extremely obvious。

Below in conjunction with drawings and Examples, the present invention efficient sugarcane stalk class harvester is described further。

Accompanying drawing explanation

Accompanying drawing 1 is the structural representation of the present invention efficient sugarcane stalk class harvester。

Main element label declaration: 1-pair cut wheel F, 2-support plate C, 3-master cut wheel B, 4-pair cut wheel E, 5-pair cut wheel D, 6-pair cut wheel C, 7-pair cut wheel B, the right bent axle of 8-, 9-master cuts wheel A, 10-pair and cuts wheel A, 11-feed spool, 12-support plate A, 13-conveyer belt, the right mainboard of 14-, 15-support plate B, 16-drives bar in the right side, the left mainboard of 17-, 18-drives on a left side bar, the left bent axle of 19-。

Embodiment

Embodiment:

As shown in drawings, the present invention efficient sugarcane stalk class harvester includes support body, drives body, cuts three parts of body。

Described support body includes support plate C2, support plate A12, right mainboard 14, support plate B15, left mainboard 17, described support plate C2 is arranged at and cuts on the upside of wheel F1 away from left mainboard 17 side and pair, its effect is to arrange pair to cut wheel F1 rotating shaft and feed spool 11 left end, described support plate A12 is arranged at and cuts on the upside of wheel A10 away from right mainboard 14 side and pair, its effect is to arrange pair to cut wheel A10 rotating shaft and feed spool 11 right-hand member, described right mainboard 14 is arranged at away between support plate A12 and support plate B15 and main cut wheel A9 and pair is cut on the upside of wheel B7, its effect is to arrange main to cut the wheel right bent axle 8 of A9 and pair cuts wheel B7 rotating shaft, described support plate B15 be arranged at away between right mainboard 14 and left mainboard 17 and pair cut wheel D5 and pair and cut on the upside of wheel C6, its effect is to arrange pair to cut wheel D5 rotating shaft and pair and cut wheel C6 rotating shaft, described left mainboard 17 is arranged at away between support plate B15 and support plate C2 and main cut wheel B4 and pair is cut on the upside of wheel E3, its effect is to arrange main to cut the wheel left bent axle 19 of B4 and pair cuts wheel B3 rotating shaft。

The described body that drives includes right bent axle 8, feed spool 11, conveyer belt 13, bar 16 is driven on the right side, bar 18 is driven on a left side, left bent axle 19, described right bent axle 8 is arranged on the upside of right mainboard 14 and lower end is socketed inside the through hole being connected on the upside of wheel A9 and driving with the right side outside upper end in bar 8 front end side plate through this mainboard and main cutting, its effect is subject to the right side and drives bar 8 and drive and turn and main cut wheel A9, described feed spool 11 two ends are connected on the downside of support plate C2 and support plate A12 and each major-minor cuts wheel side, its effect is to arrange conveyer belt 12 and bear outside driving shaft driving, described conveyer belt 13 be arranged at outside feed spool 11 and on the downside of support plate C2 and support plate A12 between, its effect is major-minor to be cut the sugarcane stalk class that round cut cuts off be transported away, the described right side drive bar 16 front end side plate be provided with through hole with outside right bent axle 8 upper end socket and rear end be connected with external hydraulic or electro-mechanical driving device, its effect be subject to external drive and and drive right bent axle 8, a described left side drive bar 12 front end side plate be provided with through hole with outside left bent axle 19 upper end socket and rear end be connected with external hydraulic or electro-mechanical driving device, its effect be subject to external drive and and drive left bent axle 19, described left bent axle 19 is arranged on the upside of left mainboard 17 and lower end is socketed inside the through hole being connected on the upside of wheel B3 and driving with a left side outside upper end in bar 18 front end side plate through this mainboard and main cutting, its effect is subject to a left side and drives bar 18 and drive and turn and main cut wheel B3。

Described cut body include pair cut wheel F1, main cutting takes turns B3, pair cuts wheel E4, pair cuts wheel D5, pair cuts wheel C6, pair cuts wheel B7, main cutting takes turns A9, pair cuts wheel A10, described pair is cut wheel F1 and is arranged on the downside of support plate C2 front end and is socketed with inside set axostylus axostyle upper end and this support plate through hole, its effect is subject to the main wheel B3 that cuts and drives and assist cutting sugarcane stalk plant, described master cuts wheel B3 and is arranged under left mainboard 17 front end side and upside is connected with left bent axle 19 lower end, its effect is subject to left bent axle 19 and drives and actively cut sugarcane stalk plant, described pair is cut wheel E4 and is arranged under left mainboard 17 front end side and socket inside set axostylus axostyle upper end and this mainboard through hole, its effect is subject to left bent axle 19 and drives and drive pair to cut wheel D5 cutting sugarcane stalk plant, described pair is cut wheel D5 and is arranged under support plate B15 front end side and socket inside set axostylus axostyle upper end and this support plate through hole, its effect be subject to pair cut wheel E4 drives and assists cut sugarcane stalk plant, described pair is cut wheel C6 and is arranged under support plate B15 front end side and socket inside set axostylus axostyle upper end and this support plate through hole, its effect be bear simultaneously pair cut wheel D5 and pair cut wheel B7 drives and assists cut sugarcane stalk plant, described pair is cut wheel B7 and is arranged under right mainboard 14 front end side and socket inside set axostylus axostyle upper end and this mainboard through hole, its effect is subject to right bent axle 8 and drives and drive pair to cut wheel C6 cutting sugarcane stalk plant, described master cuts wheel A9 and is arranged under right mainboard 14 front end side and upside is connected with right bent axle 8 lower end, its effect is subject to right bent axle 8 and drives and actively cut sugarcane stalk plant, described pair is cut wheel A10 and is arranged on the downside of support plate A12 front end and is socketed with inside set axostylus axostyle upper end and this support plate through hole, its effect is subject to the main wheel A9 that cuts and drives and assist cutting sugarcane stalk plant。

Wherein said support plate C2, support plate A12, right mainboard 14, support plate B15, left mainboard 17 can be cusp-shaped or round end shape or flat-head shape。

Wherein said pair is cut wheel F1, main is cut wheel B3, pair cuts wheel E4, pair cuts wheel D5, pair cuts wheel C6, pair cuts wheel B7, main cut wheel A9, pair is cut wheel A10 and is the sharp shape of gear or upside is gear and downside nib is circle bladed。

Work process:

Bar 18 is driven on a left side of the present invention, the right side is driven bar 16 and is arranged be connected with external hydraulic or dynamo-electric driving respectively, bar 18 is driven on a left side, the right side is driven bar 16 and is namely driven left bent axle 19 to do inhour driving respectively, driving clockwise done by right bent axle 8, left bent axle 19, right bent axle 8 synchronizes to drive the main wheel B3 that cuts to be rotated clockwise therewith immediately respectively, the main wheel A9 that cuts does counter rotation therewith, main cutting when wheel B3 is rotated clockwise drives F1 do counter rotation and form with it cut state, and synchronize to drive pair to cut wheel E4 do inhour rotation, pair cut wheel E4 namely drive pair cut wheel D5 turn clockwise and form with it cut state, pair is cut wheel D5 and is also driven when being rotated clockwise pair to cut to take turns C6 and do counter rotation；And the main wheel A9 that cuts is when doing counter rotation, while driving pair to cut wheel, A10 turns clockwise and forms with it cut state, and drive pair cut wheel B7 turn clockwise, pair is cut wheel B7 and is driven again pair to cut wheel C6 to make inhour and rotate and form with it cut state, and pair is cut wheel C6 and driven pair to cut wheel D5 to be rotated clockwise simultaneously。After the cutting of sugarcane stalk plant is fallen down by major and minor cutting wheel, the conveyer belt 13 on feed spool 11 is carried backward。So that efficient sugarcane stalk class harvester is formed and cuts receipts functional status efficiently。

Above example is only the brief embodiment of the present invention; the technical pattern of the present invention is not limited to the form cited by above-described embodiment; all spirit in the present invention and any amendment made in principle and technical pattern category and similar be equal to replacement etc., should be included in the resist technology category of the present invention。

Claims (3)

1. an efficient sugarcane stalk class harvester, it is characterised in that: described efficient sugarcane stalk class harvester includes support body, drives body, cuts three parts of body,

Described support body includes support plate C (2), support plate A (12), right mainboard (14), support plate B (15), left mainboard (17), described support plate C (2) is arranged at cuts wheel F (1) upside away from left mainboard (17) side and pair, described support plate A (12) is arranged at cuts wheel A (10) upside away from right mainboard (14) side and pair, described right mainboard (14) is arranged at away between support plate A (12) and support plate B (15) and main cut wheel A (9) and pair cuts wheel B (7) upside, described support plate B (15) be arranged at away between right mainboard (14) and left mainboard (17) and pair cut wheel D (5) with pair cut wheel C (6) upside, described left mainboard (17) is arranged at away between support plate B (15) and support plate C (2) and main cut wheel B (4) and pair cuts wheel E (3) upside,

The described body that drives includes right bent axle (8), feed spool (11), conveyer belt (13), bar (16) is driven on the right side, bar (18) is driven on a left side, left bent axle (19), described right bent axle (8) is arranged on the upside of right mainboard (14) and socket inside the through hole being connected on the upside of A (9) and driving with the right side outside upper end in bar (8) front end side plate is taken turns through this mainboard and main cutting in lower end, described feed spool (11) two ends are connected to support plate C (2) and support plate A (12) downside and each major-minor cuts wheel side, described conveyer belt (13) is arranged between feed spool (11) outside and support plate C (2) and support plate A (12) downside, the described right side drive bar (16) front end side plate be provided with through hole with outside right bent axle (8) upper end socket and rear end be connected with external hydraulic or electro-mechanical driving device, a described left side drive bar (12) front end side plate be provided with through hole with outside left bent axle (19) upper end socket and rear end be connected with external hydraulic or electro-mechanical driving device, described left bent axle (19) is arranged on the upside of left mainboard (17) and socket inside the through hole being connected on the upside of B (3) and driving with a left side outside upper end in bar (18) front end side plate is taken turns through this mainboard and main cutting in lower end,

Described cut body include pair cut wheel F (1), main cutting takes turns B (3), pair cuts wheel E (4), pair cuts wheel D (5), pair cuts wheel C (6), pair cuts wheel B (7), main cutting takes turns A (9), pair cuts wheel A (10), described pair is cut wheel F (1) and is arranged on the downside of support plate C (2) front end and is socketed with inside set axostylus axostyle upper end and this support plate through hole, described master cuts wheel B (3) and is arranged under left mainboard (17) front end side and upside is connected with left bent axle (19) lower end, described pair is cut wheel E (4) and is arranged under left mainboard (17) front end side and socket inside set axostylus axostyle upper end and this mainboard through hole, described pair is cut wheel D (5) and is arranged under support plate B (15) front end side and socket inside set axostylus axostyle upper end and this support plate through hole, described pair is cut wheel C (6) and is arranged under support plate B (15) front end side and socket inside set axostylus axostyle upper end and this support plate through hole, described pair is cut wheel B (7) and is arranged under right mainboard (14) front end side and socket inside set axostylus axostyle upper end and this mainboard through hole, described master cuts wheel A (9) and is arranged under right mainboard (14) front end side and upside is connected with right bent axle (8) lower end, described pair is cut wheel A (10) and is arranged on the downside of support plate A (12) front end and is socketed with inside set axostylus axostyle upper end and this support plate through hole。

2. efficiently sugarcane stalk class harvester as claimed in claim 1, it is characterised in that: described support plate C (2), support plate A (12), right mainboard (14), support plate B (15), left mainboard (17) they can be cusp-shaped or round end shape or flat-head shape。

3. efficiently sugarcane stalk class harvester as claimed in claim 1, it is characterised in that: wherein said pair is cut wheel F (1), main is cut wheel B (3), pair cuts wheel E (4), pair cuts wheel D (5), pair cuts wheel C (6), pair cuts wheel B (7), main cut wheel A (9), pair is cut wheel A (10) and is the sharp shape of gear or upside is gear and downside nib is circle bladed。