CN205336896U - Harvester divides standing grain structure - Google Patents

Harvester divides standing grain structure Download PDF

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Publication number
CN205336896U
CN205336896U CN201620141351.9U CN201620141351U CN205336896U CN 205336896 U CN205336896 U CN 205336896U CN 201620141351 U CN201620141351 U CN 201620141351U CN 205336896 U CN205336896 U CN 205336896U
Authority
CN
China
Prior art keywords
standing grain
installing plate
mounting blocks
backplate
reinforcement
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201620141351.9U
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Chinese (zh)
Inventor
秦大国
汪仁凡
刘涛
李川
谭功平
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Chongqing Shineray Agricultural Machinery Co Ltd
Original Assignee
Chongqing Shineray Agricultural Machinery Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Chongqing Shineray Agricultural Machinery Co Ltd filed Critical Chongqing Shineray Agricultural Machinery Co Ltd
Priority to CN201620141351.9U priority Critical patent/CN205336896U/en
Application granted granted Critical
Publication of CN205336896U publication Critical patent/CN205336896U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model discloses a harvester divides standing grain structure, including the header that is located the harvester front end, the header includes cutterbar and the backplate that is located the cutterbar both sides, install the divider on the backplate, the divider includes fixed connection's divider main part, be provided with exterior division standing grain strip and interior division standing grain strip in the divider main part respectively, the one end of exterior division standing grain strip is connected on divider main part one side side, the other end is outwards buckled and towards the rear extension of header, the one end of interior division standing grain strip is connected on divider main part one side side, the other end is outwards buckled and towards the rear extension of the header position to the cutterbar, the most remote tip of cutterbar and the distance between the backplate of being greater than between interior division standing grain strip and the divider main part. The utility model discloses simple structure, the branch standing grain strip of inside and outside setting can divide the standing grain with the plant channeling conduct, has avoided the clearance of plant card between cutterbar and backplate, has reduced the damage that causes equipment, has reduced user's burden, has improved and has reaped efficiency.

Description

Harvester divides standing grain structure
Technical field
This utility model relates to harvester, is specifically related to a kind of harvester and divides standing grain structure.
Background technology
Harvester is one of agricultural machinery of China's emphasis support, and owing to China's Developing Agricultural Mechanization is later, technical merit more developed country is comparatively backward, and the harvester supporting industries of China are backward in technique in addition, causes that harvester entirety industry technology level is not high.The nearside divider of harvester is the critical component that grain plant imports cutter smoothly, and common nearside divider is integrally conical structure, is separately mounted to the both sides of harvester cutter.Use and during this nearside divider, easily make plant be stuck in the gap location of sickle and sickle two side guard plate, the situation that sickle is stuck so easily occurs, causes the damage of harvester.Sickle is once block after death, it is necessary to equipment carries out cleaning and safeguards, add the burden of user, also reduce harvesting efficiency simultaneously.
Utility model content
For above-mentioned the deficiencies in the prior art, technical problem to be solved in the utility model is: how to provide a kind of it can be avoided that grain plant is stuck in the gap between sickle and backplate, reducing the damage that equipment is caused, reduce the burden of user, the harvester improving harvesting efficiency divides standing grain structure.
In order to solve above-mentioned technical problem, this utility model have employed following technical scheme:
A kind of harvester divides standing grain structure, including the ceding of Taiwan being positioned at harvester front end, the ceding of Taiwan includes horizontally disposed sickle and is positioned at the backplate of the sickle left and right sides, the described backplate of both sides is separately installed with nearside divider, it is characterized in that: described nearside divider includes fixing, with described backplate front end, the nearside divider main body being connected, the left and right sides of nearside divider main body is respectively arranged with outer point standing grain bar and interior point of standing grain bar, one end of described outer point standing grain bar is connected to described nearside divider main body away from the side, side of described sickle and near the front end of described nearside divider main body, the other end outwards bends and extends towards the rear of the described ceding of Taiwan, in described, one end of point standing grain bar is connected to described nearside divider main body on the side, side of described sickle and near the front end of described nearside divider main body, the other end outwards bends and extends to the position of described sickle towards the rear of the described ceding of Taiwan, divide the maximum distance between standing grain bar with adjacent described nearside divider main body more than the distance between the end of described sickle with adjacent described backplate in described.
In this utility model, interior point of standing grain bar of the nearside divider main body left and right sides and an outer point standing grain bar begin to from the front end of nearside divider main body grain plant carries out a point standing grain job.And the maximum distance between interior point of standing grain bar and nearside divider main body is more than the distance between end and the adjacent plates of sickle; in so, grain plant just can be led into the working region of sickle by point standing grain bar; grain plant is avoided to be stuck in the gap between sickle and backplate; decrease the damage that equipment is caused; avoid frequent shutdown that sickle carries out cleaning to safeguard; reduce the burden of user, also improve harvesting efficiency simultaneously.
As optimization, described nearside divider main body includes the installing plate being vertically arranged, the overall angle triangular in shape and triangle of described installing plate is circular arc angle, described circular arc angle is towards the front of described installing plate, on described installing plate and be positioned at the edge on both sides, described circular arc angle and be respectively facing the side of described installing plate and extend to be formed and strengthen plate I, the width of described reinforcement version I is gradually increased along described installing plate front to rear, on described installing plate and be positioned at the edge of described circular arc angle opposite edge and extend be formed with reinforcement plate II along described reinforcement plate I direction of extending, the two ends of described reinforcement plate II are fixing with the reinforcement plate I being positioned at its two ends respectively to be connected.It is vertically arranged and the nearside divider main body of platy structure, it is possible to reduce the width of self, it is to avoid wide directly the grain plant in front is overwhelmed, does not reach the purpose of point standing grain.The edge of the installing plate of triangle is provided with reinforcement plate simultaneously, by increasing capacitance it is possible to increase the intensity of installing plate, it is to avoid impact point standing grain effect after its deformation.Additionally the circular arc angle of front end is it can be avoided that in use hurt sb.'s feelings, and improves safety.
As optimization, described installing plate is fixedly connected with reinforcement I towards the side of described reinforcement plate I along described circular arc corner edge, the two ends of described reinforcement I extend along the edge of both sides, described circular arc angle respectively, described installing plate is fixedly connected with reinforcement II on the side, side of described reinforcement plate I, and the two ends of described reinforcement II are fixing near the position of self end, two ends with described reinforcement I respectively to be connected.Owing to nearside divider front end to be inserted between grain plant, if the insufficient strength of nearside divider front end, flexural deformation will be susceptible to, a point standing grain ability is impacted.
As optimization, dividing and be horizontally disposed with triangle ribs I between standing grain bar with adjacent described installing plate in described, the dual-side of triangle ribs I is respectively fixedly connected with and divides on standing grain bar and described installing plate in described;Described outer point on the right side of the described ceding of Taiwan has been horizontally disposed with triangle ribs II between standing grain bar with adjacent described installing plate, the dual-side of triangle ribs II is respectively fixedly connected with on described outer point standing grain bar and described installing plate, is positioned on the described backplate on the left of the described ceding of Taiwan and is additionally provided with the angle adjusting mechanism for the adjacent described outer point standing grain bar anglec of rotation is adjusted.The stem stalk having some grain plant is harder, and point standing grain bar acts on stem stalk when point standing grain, and divides the triangle ribs between standing grain bar and installing plate can point standing grain bar be provided and support, it is to avoid its deformation, a raising point standing grain effect.Additionally angle adjusting mechanism can be pointed to the rotation scheduling of outer point of standing grain bar on the left of the ceding of Taiwan and is adjusted, and makes an outer point of standing grain bar be respectively at different height, it is possible to divide standing grain to the grain plant of differing heights.
As optimization, described angle adjusting mechanism includes being fixedly connected on outside described backplate and near described backplate rear end rear mounting blocks, the front of described rear mounting blocks is provided with the front mounting blocks fixing connection with adjacent described installing plate, front contiguous block and rear contiguous block are respectively equipped with through hole along the longitudinal direction, the through hole being positioned on described rear mounting blocks is equipped with a connecting rod and can be slidably matched with it along through hole length direction, it is positioned in connecting rod described in described rear mounting blocks forward-and-rearward to be respectively equipped with and the slip of described connecting rod can be carried out spacing preposition limited block and rearmounted limited block, distance length between preposition limited block and rearmounted limited block is more than being positioned on described rear mounting blocks the length of through hole, being arranged with in described connecting rod between described preposition limited block and rear mounting blocks can be that after described rearmounted limited block abuts to, mounting blocks lifts up the spring for spring force, the two ends of described spring are fixing to be connected on described preposition limited block and described rear mounting blocks;The front end being positioned at the described outer point standing grain bar on the left of the ceding of Taiwan is placed through the through hole on described front mounting blocks and reaches the front of described front mounting blocks, and described connecting rod bends and be secured to connect towards an adjacent described outer point standing grain bar direction away from one end of described preposition limited block.When externally a point standing grain bar rotates angular adjustment, first acting on makes it move towards rear on outer point standing grain bar, it is simultaneously connected with bar also to follow and move towards rear, spring is compressed by preposition limited block, making rearmounted limited block no longer be connected on mounting blocks, the height then arranged according to outer point standing grain bar rotates.After an outer point standing grain bar is rotated in place, no longer externally dividing standing grain bar to apply active force, connecting rod just moves towards front under the effect of spring spring force, and makes rearmounted limited block be connected on rear contiguous block, relies on spring force externally to divide standing grain bar to be fixed.
As optimization, described rear mounting blocks is respectively equipped with on the side, side of described rearmounted limited block and multiple described connecting rod after bending can be carried out spacing spacing draw-in groove so that the kink of adjacent described outer point standing grain bar can be separately fixed at the top of described rear mounting blocks, left side and lower left.When run into some grain plants stems stalks harder when, rely on the spring force of spring cannot externally divide standing grain bar to be fixed, by spacing draw-in groove, connecting rod carried out spacing, and then make an outer point of standing grain bar to rotate again.It is fixed on outer point of standing grain bar above rear mounting blocks, it is possible to reduce the floor space that harvester is overall, convenient transport;The grain plant of common height can be carried out a point standing grain by the outer point of standing grain bar being fixed on left side;And the grain plant that some are highly higher can be carried out a point standing grain by the outer point of standing grain bar being fixed on lower left, reduce the height of outer point standing grain bar so that outer point standing grain bar more bottom plants stems stalk, can improve a point standing grain effect.
In sum, the beneficial effects of the utility model are in that: this utility model simple in construction, grain plant can be guided a point standing grain by the inside and outside point standing grain bar arranged respectively, avoid the gap that plant is stuck between sickle and backplate, can correctly guide plant to enter into the working region of sickle simultaneously, improve the yield rate of grain, decrease the damage that equipment is caused, reduce the burden of user, improve harvesting efficiency.
Accompanying drawing explanation
In order to make the purpose of utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, this utility model is described in further detail, wherein:
Fig. 1 is top view of the present utility model;
Fig. 2 is the side view of nearside divider main body in this utility model;
Fig. 3 is the top view of nearside divider main body in this utility model;
Fig. 4 is the rearview of nearside divider main body in this utility model;
Fig. 5 is the structural representation of angle adjusting mechanism in this utility model.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described in further detail.
As shown in Figures 1 to 5, harvester in this detailed description of the invention divides standing grain structure, including the ceding of Taiwan being positioned at harvester front end, the ceding of Taiwan includes horizontally disposed sickle 1 and is positioned at the backplate 2 of sickle 1 left and right sides, the described backplate 2 of both sides is separately installed with nearside divider, it is characterized in that: described nearside divider includes fixing, with described backplate 2 front end, the nearside divider main body being connected, the left and right sides of nearside divider main body is respectively arranged with outer point standing grain bar 3 and interior point of standing grain bar 4, one end of described outer point standing grain bar 3 is connected to described nearside divider main body away from the side, side of described sickle 1 and near the front end of described nearside divider main body, the other end outwards bends and extends towards the rear of the described ceding of Taiwan, in described, one end of point standing grain bar 4 is connected to described nearside divider main body on the side, side of described sickle 1 and near the front end of described nearside divider main body, the other end outwards bends and extends to the position of described sickle 1 towards the rear of the described ceding of Taiwan, divide the maximum distance between standing grain bar 4 with adjacent described nearside divider main body more than the distance between the end of described sickle 1 with adjacent described backplate 2 in described.
In this detailed description of the invention, described nearside divider main body includes the installing plate 5 being vertically arranged, the overall angle triangular in shape and triangle of described installing plate 5 is circular arc angle, described circular arc angle is towards the front of described installing plate 5, on described installing plate 5 and be positioned at the edge on both sides, described circular arc angle and be respectively facing the side of described installing plate 5 and extend to be formed and strengthen plate I 6, the width of described reinforcement version I 6 is gradually increased along described installing plate 5 front to rear, on described installing plate 5 and be positioned at the edge of described circular arc angle opposite edge and extend along described reinforcement plate I 6 extension direction and be formed with reinforcement plate II 7, the two ends of described reinforcement plate II 7 are fixing with the reinforcement plate I 6 being positioned at its two ends respectively to be connected.
In this detailed description of the invention, described installing plate 5 is fixedly connected with reinforcement I 8 towards the side of described reinforcement plate I 6 along described circular arc corner edge, the two ends of described reinforcement I 8 extend along the edge of both sides, described circular arc angle respectively, described installing plate 5 is fixedly connected with reinforcement II 9 on the side, side of described reinforcement plate I 6, and the two ends of described reinforcement II 9 are fixing near the position of self end, two ends with described reinforcement I 8 respectively to be connected.
In this detailed description of the invention, dividing and be horizontally disposed with triangle ribs I 10 between standing grain bar 4 with adjacent described installing plate 5 in described, the dual-side of triangle ribs I 10 is respectively fixedly connected with and divides on standing grain bar 4 and described installing plate 5 in described;Described outer point on the right side of the described ceding of Taiwan has been horizontally disposed with triangle ribs II 11 between standing grain bar 3 with adjacent described installing plate 5, the dual-side of triangle ribs II 11 is respectively fixedly connected with on adjacent described outer point standing grain bar 3 and described installing plate 5, is positioned on the described backplate 2 on the left of the described ceding of Taiwan and is additionally provided with the angle adjusting mechanism for adjacent described outer point standing grain bar 3 anglec of rotation is adjusted.
In this detailed description of the invention, described angle adjusting mechanism includes being fixedly connected on outside described backplate 2 and near described backplate 2 rear end rear mounting blocks 13, the front of described rear mounting blocks 13 is provided with and the adjacent described fixing front mounting blocks 12 connected of installing plate 5, front contiguous block 12 and rear contiguous block 13 are respectively equipped with through hole along the longitudinal direction, the through hole being positioned on described rear mounting blocks 13 is equipped with a connecting rod 14 and can be slidably matched with it along through hole length direction, it is positioned in connecting rod 14 described in described rear mounting blocks 13 forward-and-rearward to be respectively equipped with and the slip of described connecting rod 14 can be carried out spacing preposition limited block 15 and rearmounted limited block, distance length between preposition limited block 15 and rearmounted limited block is more than being positioned on described rear mounting blocks 13 length of through hole, being arranged with in described connecting rod 14 between described preposition limited block 15 and rear mounting blocks 13 can be that after described rearmounted limited block abuts to, mounting blocks 13 lifts up the spring 17 for spring force, the two ends of described spring 17 are fixing to be connected on described preposition limited block 15 and described rear mounting blocks 13;The front end being positioned at the described outer point standing grain bar 3 on the left of the ceding of Taiwan is placed through the through hole on described front mounting blocks 12 and reaches the front of described front mounting blocks 12, and described connecting rod 14 bends and be secured to connect towards adjacent described outer point standing grain bar 3 direction away from one end of described preposition limited block 15.
In this detailed description of the invention, described rear mounting blocks 13 is respectively equipped with on the side, side of described rearmounted limited block and multiple described connecting rod 14 after bending can be carried out spacing spacing draw-in groove 16 so that the kink of adjacent described outer point standing grain bar 3 can be separately fixed at the top of described rear mounting blocks 13, left side and lower left.
In the process being embodied as, arbitrary one block of described reinforcement plate I 6 outwards extends near one end of described reinforcement plate II 7 formation connecting plate, described connecting plate and offer the bolt hole for being fixed on harvester by installing plate 5 respectively on described reinforcement plate II 7.It is attached either directly through bolt and harvester, simple to operation, fixing firm, safeguard also simple.
Described preposition limited block 15 is limit screw cap, and described limit screw cap is threadeded with described connecting rod 14.By dismantling limit screw cap, it is possible to make an outer point standing grain bar 3 remove and install from angle adjusting mechanism easily, it is simple to later maintenance.
What finally illustrate is, above example is only in order to illustrate the technical solution of the utility model and unrestricted, although this utility model being described by referring to preferred embodiment of the present utility model, but it will be understood by those within the art that, in the form and details it can be made various change, without departing from the spirit and scope of the present utility model that appended claims limits.

Claims (6)

1. a harvester divides standing grain structure, including the ceding of Taiwan being positioned at harvester front end, the ceding of Taiwan includes horizontally disposed sickle and is positioned at the backplate of the sickle left and right sides, the described backplate of both sides is separately installed with nearside divider, it is characterized in that: described nearside divider includes fixing, with described backplate front end, the nearside divider main body being connected, the left and right sides of nearside divider main body is respectively arranged with outer point standing grain bar and interior point of standing grain bar, one end of described outer point standing grain bar is connected to described nearside divider main body away from the side, side of described sickle and near the front end of described nearside divider main body, the other end outwards bends and extends towards the rear of the described ceding of Taiwan, in described, one end of point standing grain bar is connected to described nearside divider main body on the side, side of described sickle and near the front end of described nearside divider main body, the other end outwards bends and extends to the position of described sickle towards the rear of the described ceding of Taiwan, divide the maximum distance between standing grain bar with adjacent described nearside divider main body more than the distance between the end of described sickle with adjacent described backplate in described.
2. harvester according to claim 1 divides standing grain structure, it is characterized in that: described nearside divider main body includes the installing plate being vertically arranged, the overall angle triangular in shape and triangle of described installing plate is circular arc angle, described circular arc angle is towards the front of described installing plate, on described installing plate and be positioned at the edge on both sides, described circular arc angle and be respectively facing the side of described installing plate and extend to be formed and strengthen plate I, the width of described reinforcement version I is gradually increased along described installing plate front to rear, on described installing plate and be positioned at the edge of described circular arc angle opposite edge and extend be formed with reinforcement plate II along described reinforcement plate I direction of extending, the two ends of described reinforcement plate II are fixing with the reinforcement plate I being positioned at its two ends respectively to be connected.
3. harvester according to claim 2 divides standing grain structure, it is characterized in that: described installing plate is fixedly connected with reinforcement I towards the side of described reinforcement plate I along described circular arc corner edge, the two ends of described reinforcement I extend along the edge of both sides, described circular arc angle respectively, described installing plate is fixedly connected with reinforcement II on the side, side of described reinforcement plate I, and the two ends of described reinforcement II are fixing near the position of self end, two ends with described reinforcement I respectively to be connected.
4. harvester according to claim 2 divides standing grain structure, it is characterized in that: divide in described and be horizontally disposed with triangle ribs I between standing grain bar with adjacent described installing plate, the dual-side of triangle ribs I is respectively fixedly connected with and divides on standing grain bar and described installing plate in described;Described outer point on the right side of the described ceding of Taiwan has been horizontally disposed with triangle ribs II between standing grain bar with adjacent described installing plate, the dual-side of triangle ribs II is respectively fixedly connected with on adjacent described outer point standing grain bar and described installing plate, is positioned on the described backplate on the left of the described ceding of Taiwan and is additionally provided with the angle adjusting mechanism for the adjacent described outer point standing grain bar anglec of rotation is adjusted.
5. harvester according to claim 4 divides standing grain structure, it is characterized in that: described angle adjusting mechanism includes being fixedly connected on outside described backplate and near described backplate rear end rear mounting blocks, the front of described rear mounting blocks is provided with the front mounting blocks fixing connection with adjacent described installing plate, front contiguous block and rear contiguous block are respectively equipped with through hole along the longitudinal direction, the through hole being positioned on described rear mounting blocks is equipped with a connecting rod and can be slidably matched with it along through hole length direction, it is positioned in connecting rod described in described rear mounting blocks forward-and-rearward to be respectively equipped with and the slip of described connecting rod can be carried out spacing preposition limited block and rearmounted limited block, distance length between preposition limited block and rearmounted limited block is more than being positioned on described rear mounting blocks the length of through hole, being arranged with in described connecting rod between described preposition limited block and rear mounting blocks can be that after described rearmounted limited block abuts to, mounting blocks lifts up the spring for spring force, the two ends of described spring are fixing to be connected on described preposition limited block and described rear mounting blocks;The front end being positioned at the described outer point standing grain bar on the left of the ceding of Taiwan is placed through the through hole on described front mounting blocks and reaches the front of described front mounting blocks, and described connecting rod bends and be secured to connect towards an adjacent described outer point standing grain bar direction away from one end of described preposition limited block.
6. harvester according to claim 5 divides standing grain structure, it is characterized in that: described rear mounting blocks is respectively equipped with on the side, side of described rearmounted limited block and multiple described connecting rod after bending can be carried out spacing spacing draw-in groove so that the kink of adjacent described outer point standing grain bar can be separately fixed at the top of described rear mounting blocks, left side and lower left.
CN201620141351.9U 2016-02-25 2016-02-25 Harvester divides standing grain structure Expired - Fee Related CN205336896U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108156939A (en) * 2018-02-06 2018-06-15 河南科技大学 A kind of millet combined harvester elasticity divides standing grain device
CN108575271A (en) * 2018-06-15 2018-09-28 江苏大学 A kind of adjustable perpendicular cutter of combined harvester

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108156939A (en) * 2018-02-06 2018-06-15 河南科技大学 A kind of millet combined harvester elasticity divides standing grain device
CN108156939B (en) * 2018-02-06 2023-12-22 河南科技大学 Elastic seedling dividing device of millet combine harvester
CN108575271A (en) * 2018-06-15 2018-09-28 江苏大学 A kind of adjustable perpendicular cutter of combined harvester

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Granted publication date: 20160629

Termination date: 20180225