CN202635103U - Conventional combined harvester - Google Patents

Abstract

The utility model relates to a conventional combined harvester which enables the summit portion of the front end of each seedling-separating device not to be prone to contact with the field, keeps postures of guided growing crops neat, and can smoothly achieve harvesting. The conventional combined harvester comprises a left seedling-separating device, a right seedling-separating device, a seedling-pulling wheel arranged between the seedling-separating devices, a harvesting device, and a spiral conveying device which can convey the harvested crops to a rear feed device. Each seedling-separating device comprises a pair of partition boards opposite to each other on the left and the right sides, and a seedling-separating rod which is arranged on the inner side of each partition board and guides the growing crops to the harvesting width. Each partition board comprises the top portion of an upper and lower central portion of a front edge portion, and a declining edge portion declining from the top portion to the lower edge portion. The top portion protrudes forward. Each seedling-separating rod is arranged along the front and back direction, the front portion of each seedling-separating rod is fixed close to the top portion, and the rear end of each seedling-separating rod is arranged near the spiral conveying device.

Description

Ordinary combine harvester

Technical field

The utility model relates to a kind of ordinary combine harvester, its be provided with certain extract the pair of right and left nearside divider in the width growth crops in self-propelled fuselage the place ahead divided, can be rotated around the lateral rotation axle center drive and will be between described a pair of nearside divider separated growth crops hold together into straw shift wheel, to held together by described straw shift wheel into the growth crops extract extract device, can be rotated around the lateral rotation axle center and drive and rearward pay-off transports the auger conveyor that extracts the crops that device extracts by described.

Background technology

In the past, in this type of ordinary combine harvester, a kind of structure of described nearside divider was arranged for a pair of wedge shape dividing plate (for example, with reference to patent documentation 1) that forwards is sharp type is set respectively in the left and right sides of described straw shift wheel.

Described dividing plate forms from the side of self-propelled fuselage and is viewed as leg-of-mutton shape, and one (forward end apex section) in leg-of-mutton three summits is positioned at front end, and the triangle base of rearward extending from its forward end apex section is set to the state of approximate horizontal.Described dividing plate is positioned at the place ahead of straw shift wheel under the duty of nearside divider.

Therefore, when combine advanced, the forward end apex section of dividing plate entered the root of the growth crops that are positioned at the left and right sides boundary that extracts width, can divide extracting the interior growth crops of width and the growth crops in other scopes.

In addition, the combine that also has has a minute straw in the installed inside of described dividing plate, to be positioned at the growth crops of two-end part on the width in the growth crops of center side guiding by described separator lined.

Particularly, a minute straw is made of pole, and is installed as in the forward end apex section of dividing plate and fixes its leading section, and distolateral being in slightly slopes inwardly towards the auger conveyor direction when overlooking thereafter, and observes slightly acclivitous state from the side.

The prior art document

Patent documentation 1: TOHKEMY 2009-27992 communique (Fig. 1～3)

The utility model content

Therefore described nearside divider separates crops by the root that enters the growth crops, is arranged on extremely near the position on surface, field to use.Thereby, concavo-convex if the surface, field in self-propelled fuselage the place ahead exists, then exist the protuberance in the forward end apex section of nearside divider and field that the hidden danger of disturbing occurs.

In addition, nearside divider is installed in the place ahead of self-propelled fuselage, therefore when the self-propelled fuselage teetertotters owing to the male and fomale(M﹠F) in the field travels, on the position of nearside divider larger moving up and down will occur, thereby forward end apex section easily contacts the surface, field.Thus, there is the hidden danger that causes the obstacle that travels.

In addition, for the total length that shortens combine to realize miniaturization, can consider to dwindle the front and back size of nearside divider, yet in this case, divide the height and position of straw rear end not change, and the front end of minute straw will remain on lower position and rearward mobile owing to being fixed on described forward end apex section, and therefore a minute straw can sharply be inclined upwardly.Thus, the position that contacts with the growth crops that are directed will be with travelling and larger variation occurs from bottom to top, has the mixed and disorderly hidden danger of attitude that easily makes the growth crops.

Thereby the purpose of this utility model is to eliminate described problem, provides the forward end apex section of nearside divider to be difficult for penetrating the field, and is difficult for making the attitude of the growth crops that are directed mixed and disorderly, can implement glibly the ordinary combine harvester of the work that extracts.

The 1st latent structure of the present utility model is a kind of ordinary combine harvester, and it possesses: the pair of right and left nearside divider, and it extracts in the width and can divide the growth crops in self-propelled fuselage the place ahead regulation; Straw shift wheel, it can be rotated driving around the lateral rotation axle center, and the growth crops that are divided between a pair of described nearside divider can be held together into; Extract device, its to held together by described straw shift wheel into the growth crops extract; Auger conveyor, it can be rotated driving around the lateral rotation axle center, and can rearward pay-off transports by described and extract the crops that device extracts; This ordinary combine harvester is characterised in that, described nearside divider is by being arranged on a pair of dividing plate of the described straw shift wheel left and right sides with opposed state and being arranged on the medial surface of described dividing plate and the crops that will grows guide to the described straw that divides that extracts in the width and consist of; The up and down central portion that described dividing plate has a forward position section is outstanding top forwards; Described minute straw is installed to be its leading section and is fixed near the described top.

According to the 1st kind of latent structure of the present utility model, dividing plate constitutes to have by the up and down central portion of edge, the front outstanding and top that forms forwards, and the edge part that has a down dip that has a down dip from described top to lower edge portion, therefore described top is positioned at the higher position (further from the position in field) of lower edge portion of comparing dividing plate, even the field exists concavo-convex, be easier to also prevent that described top from penetrating the field and causing the obstacle that travels.

In addition, the front end of minute straw is fixed on the forward end apex section of dividing plate, and therefore the front position of minute straw also will be to compare in the past higher position.And as long as the height and position of minute straw rear end is with in the past identical, divide the front end height and position of straw and the difference of rear end height and position just will reduce, therefore inclined degree will slow down than in the past, the variation of the position that the growth crops that can reduce and be directed contact is difficult for making the attitude of growth crops to become mixed and disorderly.This effect can realize under the prerequisite of the front and back length scale that does not limit especially nearside divider.And in the situation that shorten the nearside divider size, will obviously be embodied with the difference of constructing in the past especially.Thereby, also can expect to shorten the nearside divider size as indirectly acting on, realize the miniaturization of combine.

As known from the above, can make the forward end apex section of nearside divider be difficult for penetrating the field, and be difficult for making the attitude of the growth crops that are directed mixed and disorderly, can extract glibly work.

The 2nd latent structure of the present utility model is that described dividing plate constitutes and has the edge part that has a down dip that has a down dip from described top to lower edge portion.

The 3rd latent structure of the present utility model is that described minute straw configures along fore-and-aft direction, make its rear end section be positioned at described auger conveyor near.

The 4th latent structure of the present utility model is that described minute straw is configured to distolateral thereafter extended line and is in the state that the center of rotation with described auger conveyor intersects.

According to the 4th latent structure of the present utility model, can be guided to the center of rotation of auger conveyor by minute straw crops that will grows.Thereby, owing to can in auger conveyor guiding growth crops, extract by extracting device, and directly guide to auger conveyor and do not have unnecessary operation, therefore can improve the growth crops to the boot efficiency of auger conveyor.

The 5th latent structure of the present utility model is that described dividing plate is configured to the described edge part that has a down dip and is in identical with the center of rotation position of described straw shift wheel under the duty or is positioned at the state at its rear.

Straw shift wheel has by the rake teeth crops that will grow and catches on and guide to the effect of auger conveyor, and as in the growth crops of its effective object except the crops of erectility, auger conveyor be triggered and be guided to the crops that are in for some reason state also can by rake teeth.

Thereby, in extracting the adjacent area of width regions, be in the growth crops of state and swing to the growth crops that extract width regions in the adjacent area and also can be triggered by rake teeth.

At this moment, in the time of particularly will extracting the growth crops that are in state in the adjacent area of width regions and collude back vertical state, be the resistance that minimizing triggers, the rake teeth position fore-end of swinging to the crops that extract the width outside should avoid oppressed as far as possible relatively.

If having oppressed, nearside divider is poured on the crops that extract the width outside, then the part of its more close front will be limited mobile, can not collude back vertical state even exist the crops of growth to be caught on by rake teeth, but also can be broken at the place of linking with rake teeth, and cause the hidden danger that can't reclaim near the growth crops of front.

According to the 5th latent structure of the present utility model, the dividing plate edge part that is set to have a down dip is in identical with the center of rotation position of straw shift wheel under the duty or is positioned at the state at its rear, even therefore under the state that rake teeth touches the bottom, the edge part that has a down dip of dividing plate also will be positioned at its side, can guarantee the surface, field and have a down dip to have the space between the edge part.

Thereby, when by rake teeth the growth crops that are in state in the adjacent area being colluded back vertical state, can prevent dividing plate compressing growth crops.The part that growth is in state in the crops can be passed described space and be got back to and extract in the width.

Thus, the growth crops that are in state also all can be colluded back and guide to auger conveyor after vertical state also cuts off, prevent to extract residual.

The 6th latent structure of the present utility model is that the opposite lateral deviation that described pay-off is configured to the mediad operating portion from the length direction of described auger conveyor is moved, in the described minute straw of the left and right sides, away from minute straw of described pay-off one side from the described dividing plate outstanding outstanding distance outstanding distance of dividing straw greater than opposite side to the inside.

According to the 6th latent structure of the present utility model, will grow crops in the process of auger conveyor guiding, can be by the connecting portion to pay-off, can not waste and guiding growth crops expeditiously.

Namely because the outstanding distance of minute straw is larger, guiding amount on the horizontal direction is larger, therefore the outstanding distance of dividing straw away from pay-off one side is larger more by making, can be according to proportional to the deflection of pay-off than reboot growth crops, the guiding of the crops that can grow more efficiently.

Description of drawings

Fig. 1 is the left view of combine.

Fig. 2 is the vertical view of combine.

Fig. 3 is the major part end view of expression nearside divider.

Fig. 4 is the major part vertical view of expression nearside divider.

Fig. 5 is the stereogram of nearside divider.

Fig. 6 is the rearview of combine.

Fig. 7 is the stereogram of expression tier pole cover.

Description of reference numerals

2 self-propelled formula fuselages

6 pay-offs

12 extract device

13 auger conveyors

16 straw shift wheels

20 nearside dividers

30 dividing plates

The 30B lower edge portion

30D forward end apex section (top that is equivalent to latent structure of the present utility model)

The 30E edge section that has a down dip

31 minutes straws

31a divides the leading section of straw

31b divides the rearward end of straw

The center of rotation of b auger conveyor

L1 gives prominence to distance

P straw shift wheel axle center

Embodiment

Below based on description of drawings embodiment of the present utility model.

Fig. 1 is the unitary side view of ordinary combine harvester of the present utility model, and Fig. 2 is its whole vertical view.

In this combine, be installed in abreast on the self-propelled fuselage 2 that possesses pair of right and left crawler travel device 1 about the sheller unit 3 of axial-flow type and grain recoverer 4 quilts, and be equipped with operating portion 5 in the place ahead of grain recoverer 4.Transport the pay-off 6 that extracts crops can being connected with the front portion of sheller unit 3 around the mode that fulcrum X easy on and off shakes, and the front end of this pay-off 6 connects and extracts section 7, this pay-off 6 has the width that extracts that roughly is equivalent to fuselage width.

Thereby the growth crops are extracted by the described section 7 that extracts, and are transported to sheller unit 3 from pay-off 6, reclaim grain by grain recoverer 4 after processing through threshing, discharge the paddy bar and rearward discharge by the tier pole mouth 3a that is arranged on sheller unit 3 rears.

Extract section 7 and constitute extracting device 12 and the crops that extract laterally are transported to the auger conveyor 13 that extracts width central authorities and being erected at pair of right and left and dividing structure between the frame 11 of clipper type.

The leading section of a pair of grain separating rack 11 is provided with respectively and the growth crops in self-propelled fuselage 2 the place aheads specifically can be being extracted the nearside divider 20 that separates in the width.

Auger conveyor 13 consists of in the mode that can be rotated around horizontal center of rotation b driving, and this auger conveyor 13 possesses the helical blade 13a that laterally transports, and will laterally be transported extract the holding together into tooth 13b(with reference to Fig. 3 of initiating terminal that crops are sent into pay-off 6).

Be built-in with in the pay-off 6 and roll conveyer belt 14, this is rolled conveyer belt 14 and is located between the chain 14a about vertical coiling and is interconnected to constitute transporting bar 14b transverse strands.Transport along the pay-off bottom surface is rolled-up by holding together the crops that extract of sending into into tooth 13b, drop into and be transported to the front end of sheller unit 3.

In addition, pay-off 6 is arranged on the place ahead of sheller unit 3, and is installed in the position that middle position on the length direction of comparing described auger conveyor 13 more is partial to self-propelled fuselage left side (an opposite side of operating portion 5).

Between the bottom of body frame 8 front portions on the self-propelled fuselage 2 and pay-off 6, set up hydraulic cylinder 15, by the stretching motion of this hydraulic cylinder 15, extracting section 7 and pay-off 6 together around described fulcrum X oscillating lifting.The top that extracts section 7 front portions be provided with will growth crops hold together into rear and the straw shift wheel 16 of mentioning.

Described straw shift wheel 16 is erected at the front portion of the pair of right and left support arm 17 that can swing around fulcrum a easy on and off by bracing frame 18.Between support arm 17 and the grain separating rack 11 air door 19 is installed.Carried out when operation of swinging up and down of straw shift wheel 16 by not shown action bars, this air door 19 can be assisted this operation, can easily change the wording depth into operation of holding together of straw shift wheel 16.

In addition, also can be by bracing frame 18 to be slided and adjustment along support arm 17, front and back adjustment is held together the active position into operation.

Rotating fulcrum 22 on the support frame as described above 18 about straw shift wheel 16 is located at by level frame, connect and be fixed on a pair of square straw shift wheel frame 23 of these rotating fulcrum 22 left and right sides, level frame is located at four positions, top and four rake teeth installation shaft 24 free to rotate of the straw shift wheel frame 23 of the left and right sides, the many rake teeths 25 of on each rake teeth installation shaft 24, installing side by side with a determining deviation, supported and can assist the parts formations such as straw shift wheel frame 26 by the square that the eccentric axle center Q of rear predetermined distance freely rotates around the straw shift wheel axle center P that compares wheel carrier 23.

Auxiliary straw shift wheel frame 26 only is installed in the right side of right side straw shift wheel frame 23.

Auxiliary straw shift wheel frame 26 forms roughly the same outer shape with a pair of straw shift wheel frame 23.

From the right-hand member of each rake teeth installation shaft 24 rearward, the outstanding limit rotation arm 27 that arranges integratedly.The free end pivot of this limit rotation arm 27 is connected to each top of auxiliary straw shift wheel frame 26.

Distance from the axle center R of each rake teeth installation shaft 24 to the free end rotational support point S of limit rotation arm 27 and connect the line direction of two fulcrum R, S, with distance from straw shift wheel axle center P to eccentric axle center Q and to connect the line direction of two axle center P, Q consistent; The axle center R of straw shift wheel axle center P, eccentric axle center Q, rake teeth installation shaft 24 and the free end rotational support point S of limit rotation arm 27 consist of the fulcrum of the parallel connection strap of tetrad.

Thereby, when straw shift wheel frame 23 rotates around the P of straw shift wheel axle center, because the rotation that auxiliary straw shift wheel frame 26 is being followed straw shift wheel frame 23 is rotated around eccentric axle center Q, thereby rake teeth installation shaft 24 will in straw shift wheel axle center P revolution around axle center R synchronous rotation round about, rake teeth installation shaft 24 will remain certain rotation attitude thus.

In addition, by by the belt wheel G1 of the belt wheel G3 of the left part that is arranged on rotating fulcrum 22, driving side, be arranged on driving driving-belt G2 between two belt wheel G3, the G1, be connected to the transmission mechanism that a pair of straining pulley G4 that drives conveyer belt G2 consists of and transmit rotational power from drive system, implement holding together the rotating drive into straw shift wheel 16.

Shown in Fig. 3～5, described nearside divider 20 constitute possess in the described left and right sides of holding together straw shift wheel 16 with a pair of dividing plate 30 of relative status setting and be arranged on the medial surface of described dividing plate 30 and will grow crops to described extract guide in the width divide straw 31.

When dividing plate 30 forms and observes from the side of self-propelled fuselage 2, its be shaped as will approximate right angled triangle the roughly tetragonal shape (with reference to Fig. 3) that forms of base front chamfering.

Be provided with to the flange portion 30a of thickness direction bending along the 30A of section afterwards, fit and screw is fixed by the flange portion 11a that makes this flange portion 30a and grain separating rack 11, nearside divider 20 one are installed.In addition, the upper end on the length direction of flange portion 30a is fixed on the upper edge of grain separating rack 11 in stretching out and crooked state by screw.

Lower edge portion 30B forms it and rear edge portion 30A roughly meets at right angles, and is provided with the 30b of reinforcing flange section.The 30b of this reinforcing flange section forms width with the shape that narrows down near front.In addition, the rear end side of the 30b of reinforcing flange section extends to the lower edge portion side of grain separating rack 11, and the end of extending part is fixed on the grain separating rack 11 by screw.

Upper edge 30C forms its upper end from rear along the 30A of section and forwards is the state of having a down dip, and is provided with the 30c of reinforcing flange section crooked on thickness direction.In addition, upper edge 30C forms the upper surface part of the grain separating rack 11 that is fixed on the upper end bend of comparing described flange portion 30a, has larger gradient.

The described reinforcing flange 30c of section and the 30b of reinforcing flange section are same, form width with the shape that narrows down near front.

The bottom of upper edge 30C is the 30D of forward end apex section (top that is equivalent to feature structure of the present utility model) of dividing plate 30, and is the downward 30E of the edge section that has a down dip of gradient from the 30D of forward end apex section to lower edge portion 30B.The 30D of forward end apex section, and the 30E of edge section that has a down dip forms streamlined too sharp to prevent.For example, on top in the scope of the leading section of the 30D of the bottom of edge 30c to forward end apex section, the have a down dip 30E of edge section, lower edge portion 30B, m is processed as streamlined (with reference to Fig. 5) by the welding pole.

In addition, set position on the fore-and-aft direction of the described 30E of edge section that has a down dip be described straw shift wheel 16 under the transport condition center of rotation P under (with reference to Fig. 1, Fig. 3).

Minute straw 31 is made of pole, and its leading section 31a is fixed near the nearside divider medial surface the described forward end apex 30D of section, and rearward end 31b is set its direction to the axis of rotation b of described auger conveyor 13 is extended near the helical blade 13a.As shown in the figure, divide straw 31 to be in the slightly state of inclination.

Divide the mid portion of straw 31 to be fixed on the support 32 that is arranged on the dividing plate 30.

Support 32 dimensions length of the nearside divider 20 of the left and right sides are different.Particularly, support 32 length of self-propelled fuselage right side (away from a side of pay-off 6) are greater than the stent length of opposite side.Thereby, minute straw 31 among the outstanding outstanding distance L 1 of dividing plate 30, L2, the outstanding distance L 1 of minute straw 31 on self-propelled fuselage right side greater than the outstanding distance L 2(of minute straw 31 of opposite side with reference to Fig. 4).

About the relative inner surface of two dividing plates 30, be provided with in the above described manner will extract minute straw 31 that guides to the inside of growth crops in the width, and about the outer surface of two dividing plates 30, be respectively equipped with the guided plate 33 that will extract the slab that the outer growth crops of width guide laterally.

On the other hand, at the tier pole mouth 3a of sheller unit 3, in the mode that covers from the rear tier pole cover 40 is set.

Such as Fig. 6, shown in Figure 7, tier pole cover 40 forms the width that width dimensions meets tier pole mouth 3a.The column sections 3b that two ends, the left and right sides edge section of the 40a of mounting flange section applying sheller unit 3 rear surfaces of tier pole cover 40 is had respectively, and both screws are fixing so that tier pole cover 40 to be installed.

By the upper plate portion 42 between the upper edge of welding left and right sides board 41, two side plates 41, the rear rear board 43 between section of two side plates 41, one consists of tier pole cover 40.In addition, the described mounting flange 40a of section forms from the edge section of left and right sides board 41 front sides to the inside with the state of right-angle bending.

Need to prove, in the following description, about about record be that the place ahead with body frame 8 is as the criterion, its left side be left, its right side is the right side.

Side plate 41 forms from the side direction when observing, and it is shaped as chamfering is carried out and the trapezoidal shape that forms in the rear upper angle of perpendicular long rectangle.

In addition, the upper edge of left and right sides board 41 is positioned at sustained height each other, and its lower edge portion forms the below that the side plate 41R lower edge portion that makes the right side is positioned at the side plate 41L lower edge portion in left side.

The side plate 41L lower end part in left side is between the lower edge portion of the side plate 41R on the lower edge portion of tier pole mouth 3a and right side.

In addition, in the lower edge portion of the side plate 41L in left side, be connected with equal width and be tilted to the right under guiding hang plate 44.

The bottom of this guiding hang plate 44 extend to mid portion on the tier pole mouth 3a width under near the position.

Be wholely set plate chamfered section 43a after the rectangle between the chamfered part of two side plates 41, the plate 43b of section, the rear plate plate cap 43c behind the triangle between the described guiding hang plate 44 of the 43b of section and below that hangs down that hangs down after the sagging rectangle thereunder, board 43(is with reference to Fig. 7 after consisting of).

The left side of the upside SPACE V 1 of guiding hang plate 44 is covered by the side plate 41L in described left side, rear side is covered by described rear plate cap 43c, therefore the bootable tier pole that is expelled to described upside SPACE V 1 from described tier pole mouth 3a makes it fall to the upper surface of guiding hang plate 44.

In addition, tier pole is directed to the inclination downstream SPACE V 2 adjacent to the right side of guiding hang plate 44 when the gradient that has a down dip along guiding hang plate 44 upper surfaces glides, fall to subsequently ground.

At this moment, the tier pole that slides on the guiding hang plate 44 contacts with the side plate 41R on right side and is directed to the below, can suppress to disperse on a large scale.

According to described tier pole cover 40, can below inclination downstream SPACE V 2, guarantee peristome 40A with the rear, so the difficult obstruction of tier pole, and can prevent discharging the paddy stalk on a large scale under the state that disperses.In addition, by the peristome 40A at rear, can implement more simply the inner work such as maintenance.

Ordinary combine harvester according to present embodiment, the 30D of forward end apex section is positioned at the higher position (further from the position in field) of lower edge portion 30B of comparing dividing plate 30, therefore even the field exists concavo-convexly, be easier to also prevent that the 30D of forward end apex section from penetrating the field and causing the obstacle that travels.

In addition, the gradient of minute straw 31 is near level, therefore can reduce the variation with the contact positions of the growth crops that are directed, is difficult for making the attitude of growth crops to become mixed and disorderly.And, not identical by the outstanding distance L 1, the L2 that divide straw 31 that makes the left and right sides, and will divide the direction setting of the rear end of straw 31 to the axis of rotation b of auger conveyor 13, thus the crops that will grow efficiently guide to auger conveyor 13.

And then even shorten the nearside divider size, the gradient of minute straw 31 can not increase yet, and therefore can realize the miniaturization of combine yet.

In addition, the growth crops that are in state also can be drawn in to extracting in the width and after cutting off to noresidue and guide to auger conveyor 13, prevent to extract residual.

Other embodiments

Other embodiments below are described.

(1) divide straw 31 to be not limited to be consisted of by the illustrated pole of above embodiment.For example, also can be consisted of by tubing or lath etc.

(2) hold together into straw shift wheel 16 to be not limited to the illustrated shape of above embodiment.For example, also can be polygon or circle more than the pentagon except quadrangle.

In addition, as mentioned above, for convenient contrast accompanying drawing has used Reference numeral, but the utility model is not limited to structure in the accompanying drawing because of the record of this Reference numeral.In addition, certainly can in the scope that does not break away from utility model thought, implement the utility model in various modes.

Industrial applicibility

This combine can be applied to use tanker and unloader as the grain recoverer, or has equipped the ordinary combine harvester of pack with hopper and sack-filling device.

Claims (10)

1. ordinary combine harvester possesses:

The pair of right and left nearside divider, it extracts in the width and can divide the growth crops in self-propelled fuselage the place ahead regulation;

Straw shift wheel, it can be rotated driving around the lateral rotation axle center, and the growth crops that are divided between a pair of described nearside divider can be held together into;

Extract device, its to held together by described straw shift wheel into the growth crops extract;

Auger conveyor, it can be rotated driving around the lateral rotation axle center, and can rearward pay-off transports by described and extract the crops that device extracts;

This ordinary combine harvester is characterised in that,

Described nearside divider is by being arranged on a pair of dividing plate of the described straw shift wheel left and right sides with opposed state and being arranged on the medial surface of described dividing plate and the crops that will grows guide to the described straw that divides that extracts in the width and consist of;

The up and down central portion that described dividing plate has a forward position section is outstanding top forwards;

Described minute straw is installed to be its leading section and is fixed near the described top.

2. the ordinary combine harvester of putting down in writing according to claim 1 is characterized in that,

Described dividing plate constitutes has the edge part that has a down dip that has a down dip from described top to lower edge portion.

3. the ordinary combine harvester of putting down in writing according to claim 1 is characterized in that,

Straw configured along fore-and-aft direction in described minute, make its rear end section be positioned at described auger conveyor near.

4. the ordinary combine harvester of putting down in writing according to claim 2 is characterized in that,

Straw configured along fore-and-aft direction in described minute, make its rear end section be positioned at described auger conveyor near.

5. the ordinary combine harvester of putting down in writing according to claim 3 is characterized in that,

Described minute straw is configured to distolateral thereafter extended line and is in the state that the center of rotation with described auger conveyor intersects.

6. the ordinary combine harvester of putting down in writing according to claim 4 is characterized in that,

Described minute straw is configured to distolateral thereafter extended line and is in the state that the center of rotation with described auger conveyor intersects.

7. the ordinary combine harvester of putting down in writing according to claim 2 is characterized in that,

Described dividing plate is configured to the described edge part that has a down dip and is in identical with the center of rotation position of described straw shift wheel under the duty or is positioned at the state at its rear.

8. the ordinary combine harvester of putting down in writing according to claim 4 is characterized in that,

Described dividing plate is configured to the described edge part that has a down dip and is in identical with the center of rotation position of described straw shift wheel under the duty or is positioned at the state at its rear.

9. the ordinary combine harvester of putting down in writing according to claim 6 is characterized in that,

Described dividing plate is configured to the described edge part that has a down dip and is in identical with the center of rotation position of described straw shift wheel under the duty or is positioned at the state at its rear.

10. the ordinary combine harvester of each record is characterized in that according to claim 1～9,

Described pay-off is configured to an opposite lateral deviation of the mediad operating portion from the length direction of described auger conveyor and moves, in the described minute straw of the left and right sides, away from minute straw of described pay-off one side from the described dividing plate outstanding outstanding distance outstanding distance of dividing straw greater than opposite side to the inside.

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