CN203057894U - Grain discharge structure of combine harvester - Google Patents

Abstract

The utility model relates to a grain discharge structure of a combine harvester. The structure of a grain discharge device is simplified, and grains stored in a grain collection box can be well discharged to the outside of a machine body by means of the grain discharge device. The grain discharge structure of the combine harvester is provided with the grain discharge device capable of discharging the grains stored in the grain collection box to the outside of the machine body. The grain discharge device is provided with an upward conveying device conveying the grains in the grain collection box upwards and discharging the grains from a discharge outlet in the upper portion of the grain discharge device and a discharge sliding groove guiding the grains discharged from the discharge outlet to the outside of the machine body and enabling the grains to flow downwards. The discharge sliding groove is arranged at the discharge outlet of the upward conveying device and can be arranged on the upward conveying device in an up-down swinging mode based on a supporting point which is a bearing shaft formed when the discharge sliding groove and the grain guiding direction of the discharge sliding groove are crossed, accordingly a base portion of the discharge sliding groove is supported by the bearing shaft, and can switch from a discharge position which the upward conveying device leaves along a retracting position of the upward conveying device and the free end of the discharge sliding groove.

Description

The grain discharge structure of combine

Technical field

The utility model relates to the grain discharge structure of the combine with cereal grain-discharging device that the grain that is stored in the grain collecting box is discharged to engine body exterior.

Background technology

Grain discharge structure as combine, for example there is following structure: in cereal grain-discharging device, discharge helix transporting device, the state that the vertical auger of helical feed formula and the horizontal auger of helical feed formula drive with the interlock that can carry out these parts and can to carry out with horizontal auger be the rotary manipulation of basic point and the state configuration of fluctuating swinging operation with the vertical linking part of auger, wherein, described discharge helix transporting device towards fore-and-aft direction be configured in the collection granary (grain collecting box) the bottom, the vertical auger of described helical feed formula make the bottom and from collect granary rearward the rearward end of outstanding discharge helix transporting device be connected, the horizontal auger of described helical feed formula makes an end be connected with the upper end of vertical auger, and, have the turning motor that drives horizontal auger rotation and drive the hydraulic cylinder of horizontal auger swing, discharge (for example with reference to patent documentation 1) with being stored in the outlet that grain idiomorphism in the collection granary is formed in the other end (stretching out the end) of horizontal auger to any discharge position of engine body exterior.

Patent documentation 1: TOHKEMY 2011-67110 communique (0018 section, 0019 ~ 0022 section, Fig. 1, Fig. 2)

In said structure, discharge the degree of freedom of the selection at position in order to improve grain, have at cereal grain-discharging device: the grain that will utilize vertical auger to face upward to send to the horizontal auger of laterally carrying, can change horizontal auger the grain throughput direction turning motor and can change the hydraulic cylinder etc. of the discharge height of the grain of discharging from the horizontal outlet of auger, therefore, cereal grain-discharging device become that number of parts is many, complex structure and huge device.Therefore, aspect the configuration cereal grain-discharging device, except bothersome and cost is high, also cause the weight increase of cereal grain-discharging device.

And, when the operation of not carrying out the discharge of grain is travelled or during mobile travelling etc., need and fixedly to remain on predefined stowed position from the horizontal auger that stretch out the upper end of vertical auger, need erect at body for this reason and be provided for the external part side bearing of the horizontal auger support unit in the stowed position, therefore, more bothersome and cost is higher aspect the cereal grain-discharging device in configuration.

The utility model content

The purpose of this utility model is: in structure of seeking to simplify cereal grain-discharging device etc., the grain that can utilize cereal grain-discharging device will be stored in the grain collecting box is discharged well to engine body exterior.

The grain discharge structure of the combine of the technical solution of the utility model 1, has the cereal grain-discharging device that the grain that will be stored in the grain collecting box is discharged to engine body exterior, the grain discharge structure of described combine is characterised in that, described cereal grain-discharging device has: face upward and send the interior grain of described grain collecting box and send conveying plant with its facing upward of outlet discharge from top, the grain that to discharge from described outlet is to body guided outside and discharge chute that it is flowed down, described discharge chute is at the described discharge oral-lateral that send conveying plant of facing upward, the bolster of the posture of intersecting with the grain channeling direction that is in described discharge chute is that fulcrum can be arranged at described facing upward with swinging up and down and send conveying plant, make the base portion of described discharge chute by described support shaft supports, and described discharge chute can faced upward the stowed position of sending conveying plant and the free end side of described discharge chute is switched from described facing upward between the drain position that send conveying plant to leave along described.

In above-mentioned utility model, under the situation that the grain in the grain collecting box is discharged to the assigned position of engine body exterior, to discharge chute after the stowed position switches to drain position, by facing upward the grain that send conveying plant to face upward to send in the grain collecting box, discharge from the outlet on top thereby this can be faced upward the grain that send, and can utilize discharge chute with the grain of discharging to the discharge part guidance of the regulation in the body outside and it is flowed down.Namely, do not have and will drive the turning motor of horizontal auger from the horizontal auger of facing upward the grain lateral transfer of sending conveying plant, rotation and make horizontal auger along the hydraulic cylinder of heave direction wobble drive etc., just can be with the assigned position discharge of the grain in the grain collecting box to engine body exterior.

In addition, carry out under the situations such as operation is travelled or movement is travelled in the discharge of not carrying out grain, only need switch to the stowed position with discharging chute, therefore, can not need under the situation that has adopted horizontal auger, need the supporting structure that is used for horizontal auger is bearing in the stowed position that disposes.

Therefore, in simplification, lightweight and the cutting down cost etc. of the structure of seeking cereal grain-discharging device, the grain that can utilize cereal grain-discharging device will be stored in the grain collecting box is discharged well to the assigned position of engine body exterior.

The utility model of the technical solution of the utility model 2 is characterized in that on the basis of technique scheme 1 described utility model being provided with the described bolster that can change with described discharge chute is the drain position change mechanism of the drain position of fulcrum.

In above-mentioned utility model, can utilize drain position change mechanism in the opereating specification of discharge chute that with the bolster is fulcrum, to change the drain position of discharging chute arbitrarily.And, by the drain position side change upward that will discharge chute, the discharge position of discharging the grain of chute can be altered to the position of leaving in the body outside.

In addition, by being that fulcrum changes the drain position of discharging chute with the bolster, the inclination angle of discharging chute can be changed, the speed that flows down of the grain that is discharged from the chute guiding and flows down can be regulated.Thus, change the inclination angle of discharging chute according to the flowability that changes because of the amount of moisture of grain etc., thereby the speed that flows down of grain can be adjusted to suitable speed, avoid easily causing producing grain obstruction etc. discharging chute because flowability reduces.

Therefore, under the state at the discharge position that can change grain, can utilize cereal grain-discharging device to discharge grain better to engine body exterior.

The utility model of the technical solution of the utility model 3 is on the basis of technique scheme 1 or 2 described utility models, it is characterized in that, described discharge chute is configured in described lateral sides of facing upward the body outside of sending conveying plant, be positioned under the situation of described stowed position at described discharge chute, described discharge chute is positioned at the position of more leaning on the body inboard than the transverse side in the body outside of described grain collecting box.

In above-mentioned utility model, carry out that operation is travelled or mobile situation such as travel under, will discharge chute and switch to the stowed position, thereby can prevent to damage such unfavorable condition because the middle discharge chute that travels contacts with other objects.

The utility model of the technical solution of the utility model 4 is on the basis of technique scheme 1 or 2 described utility models, it is characterized in that, by described face upward send that clamping rpole that the either party in conveying plant and the described discharge chute has and the opposing party have can strain holder constitute maintaining body, described clamping rpole and described holder engage linkedly with the arrival action of described discharge chute to described stowed position, thus, described maintaining body fixedly remains on described stowed position with described discharge chute.

In above-mentioned utility model, can utilize maintaining body will discharge chute and fixedly remain on the stowed position.Thus, can avoid vibration etc. because of the body in travelling to cause discharging chute and unexpectedly be switched to this worry of drain position from the stowed position.

And, only switch to the stowed position and just can fixedly remain on the stowed position with discharging chute by discharging chute, thereby do not need fixedly to remain on the operation of the special use of stowed position for discharging chute, therefore, can prevent following unfavorable condition: forget the discharge chute is fixedly remained on the stowed position.

Therefore, can prevent more reliably to damage such unfavorable condition because discharge chute in travelling contacts with other objects.

The utility model of the technical solution of the utility model 5 is characterized in that on the basis of technique scheme 4 described utility models, and described discharge chute is made of base plate and the pair of side plates that erects from described base plate.

In above-mentioned utility model, owing to the discharge chute does not have top board this part is opened wide, therefore, produced at the discharge chute under the situation of grain obstruction, can should stop up by visual early detection, and, can easily stir the grain of obstruction towards the below of discharging chute with the hand that the open section of discharging chute certainly stretches into.

Therefore, can be simply and the grain of discharging in the chute of reply promptly stop up, thus, compare with discharging the situation that chute has a top board, can seek to improve the operating efficiency that grain is discharged operation.In addition, can prevent from facing upward grain damage, the bothersome such unfavorable condition of obstruction removing operation of sending conveying plant to cause because the grain in the discharge chute stops up to involve.

The utility model of the technical solution of the utility model 6 is on the basis of technique scheme 5 described utility models, it is characterized in that, dispose and to constitute the described support of facing upward on the conveying plant outer casing supporting that send conveying plant is arranged at organism frame in setting the pillar, dispose the butt parts at described support, these butt parts are by abutting to the described base plate of the described discharge chute that moves with the described grain collecting box one of swinging to maintenance position, remove described discharge chute and utilize described maintaining body in the fixedly maintenance at stowed position place, and the free end side that makes described discharge chute from described face upward send conveying plant away from.

The utility model of the technical solution of the utility model 7 is characterized in that on the basis of technique scheme 5 described utility models, disposes to prevent the cover body that flies out from the top of described discharge chute from the grain that described outlet flows to described discharge chute.

In above-mentioned utility model, utilize cover body can prevent from not having top board, flying out from discharging chute top to discharging the grain that is easy to generate when chute flows from outlet at grain because discharging chute.

Therefore, can be simply and reply promptly discharge when grain in the chute stops up, can prevent from causing the grain rate of recovery to reduce because grain flies out from the top of discharging chute.

The utility model of the technical solution of the utility model 8 is on the basis of technique scheme 7 described utility models, it is characterized in that, described discharge chute and described cover body are linked linkedly via connect mechanism, make described discharge chute the closer to described stowed position, then the opening that forms between described discharge chute and described cover body more reduces, the free end side of described discharge chute from described face upward send conveying plant more away from, then described opening more increases.

In above-mentioned utility model, consider: discharge chute the closer to the stowed position, the inclination angle of then discharging chute more increases, is discharged from chute guiding and the flow velocity of the grain that flows down is all the more fast, the grain discharge rate in the unit interval more increases this situation, constitute, discharge chute the closer to the stowed position, then more reduce the opening that forms between chute and the cover body discharging, so that the grain throughput in the unit interval of opening part reduces.Thus, can suppress to cause the grain discharge rate in the unit interval to increase this situation along with discharging chute near the stowed position.

On the contrary, consider: the free end side of discharging chute from face upward send conveying plant more away from, the inclination angle of then discharging chute more reduces, is discharged from chute guiding and the flow velocity of the grain that flows down is more slack-off, the grain discharge rate in the unit interval more reduces this situation, constitute, the free end side of discharging chute from face upward send conveying plant more away from, then more increase the opening that forms between chute and the cover body discharging, so that the grain throughput in the unit interval of opening part increases.Thus, can suppress along with the free end side of discharging chute from face upward send conveying plant away from and cause the grain discharge rate in the unit interval to reduce this situation.

Namely, no matter the inclination angle of discharge chute how, can make the grain discharge rate constant in the unit interval, thus, can suppress following unfavorable condition: the discharge position that more increases the inclination angle of discharging chute and make the grain of discharging chute from body away from, then the grain discharge rate in the unit interval more reduces and grain is discharged efficient and more reduced.

The utility model of the technical solution of the utility model 9 is characterized in that on the basis of technique scheme 8 described utility models the free end side at described discharge chute has the connecting rod that its upper end is linked across described pair of side plates ground at least.

In above-mentioned utility model, do not have top board although discharge chute, still can improve intensity and the shape retention of discharging chute.In addition, when changing the drain position of discharging chute, can be with connecting rod as handle.

Therefore, can be simply and reply promptly discharge when grain in the chute stops up, can guarantee to discharge intensity and the shape retention of chute, in addition, can improve the operability when changing drain position.

The utility model of the technical solution of the utility model 10 is on the basis of technique scheme 8 described utility models, it is characterized in that, the transverse width of described cover body constitutes wideer than the transverse width of described outlet, and narrower than the transverse width of described discharge chute.

The utility model of the technical solution of the utility model 11 is on the basis of technique scheme 1 or 2 described utility models, it is characterized in that, dispose and prevent the cover body that flies out from the top of described discharge chute from the grain that described outlet flows to described discharge chute.

In above-mentioned utility model, utilize cover body can prevent from not having top board, flying out from discharging chute top to discharging the grain that is easy to generate when chute flows from outlet at grain because discharging chute.

Therefore, can be simply and reply promptly discharge when grain in the chute stops up, can prevent from causing the grain rate of recovery to reduce because grain flies out from the top of discharging chute.

The utility model of the technical solution of the utility model 12 is on the basis of technique scheme 11 described utility models, it is characterized in that, described discharge chute and described cover body are linked linkedly via connect mechanism, make described discharge chute the closer to described stowed position, then the opening that forms between described discharge chute and described cover body more reduces, the free end side of described discharge chute from described face upward send conveying plant more away from, then described opening more increases.

In above-mentioned utility model, consider: discharge chute the closer to the stowed position, the inclination angle of then discharging chute more increases, is discharged from chute guiding and the flow velocity of the grain that flows down is all the more fast, the grain discharge rate in the unit interval more increases this situation, constitute, discharge chute the closer to the stowed position, then more reduce the opening that forms between chute and the cover body discharging, so that the grain throughput in the unit interval of opening part reduces.Thus, can suppress to cause the grain discharge rate in the unit interval to increase this situation along with discharging chute near the stowed position.

On the contrary, consider: the free end side of discharging chute from face upward send conveying plant more away from, the inclination angle of then discharging chute more reduces, is discharged from chute guiding and the flow velocity of the grain that flows down is more slack-off, the grain discharge rate in the unit interval more reduces this situation, constitute, the free end side of discharging chute from face upward send conveying plant more away from, then more increase the opening that forms between chute and the cover body discharging, so that the grain throughput in the unit interval of opening part increases.Thus, can suppress along with the free end side of discharging chute from face upward send conveying plant away from and cause the grain discharge rate in the unit interval to reduce this situation.

Namely, no matter the inclination angle of discharge chute how, can make the grain discharge rate constant in the unit interval, thus, can suppress following unfavorable condition: the discharge position that more increases the inclination angle of discharging chute and make the grain of discharging chute from body away from, then the grain discharge rate in the unit interval more reduces and grain is discharged efficient and more reduced.

The utility model of the technical solution of the utility model 13 is characterized in that on the basis of technique scheme 12 described utility models the free end side at described discharge chute has the connecting rod that its upper end is linked across described pair of side plates ground at least.

In above-mentioned utility model, do not have top board although discharge chute, still can improve intensity and the shape retention of discharging chute.In addition, when changing the drain position of discharging chute, can be with connecting rod as handle.

Therefore, can be simply and reply promptly discharge when grain in the chute stops up, can guarantee to discharge intensity and the shape retention of chute, in addition, can improve the operability when changing drain position.

The utility model of the technical solution of the utility model 14 is on the basis of technique scheme 12 described utility models, it is characterized in that, the transverse width of described cover body constitutes wideer than the transverse width of described outlet, and narrower than the transverse width of described discharge chute.

Description of drawings

Fig. 1 is the integral right view of half-feed combine harvester.

Fig. 2 is the whole vertical view of half-feed combine harvester.

Fig. 3 is the whole rearview of half-feed combine harvester.

Fig. 4 is the right view of the major part of expression grain discharge structure.

Fig. 5 is the rearview of the major part of expression grain discharge structure.

Fig. 6 is the right view on the top of cereal grain-discharging device.

Fig. 7 is that the vertical profile rearview on top of cereal grain-discharging device that chute is positioned at the state of stowed position is discharged in expression.

Fig. 8 is that the vertical profile rearview on top of cereal grain-discharging device that chute is positioned at the state of drain position is discharged in expression.

Fig. 9 (a) is the rearview of cereal grain-discharging device of the structure of expression drain position change mechanism etc., (b) is the IXb-IXb profile in this rearview.

Figure 10 is that expression is carried out the releasing of maintaining body according to the effect of butt parts and discharged the cross-sectional vertical view of major part of the swing of chute.

Figure 11 is that expression is carried out the releasing of maintaining body according to the effect of butt parts and discharged the right view of cereal grain-discharging device of the swing of chute.

Figure 12 is the vertical profile right view of the major part of expression engine exhaust mechanism.

Figure 13 is the vertical profile front view of the major part of the expression operating structure of discharging clutch etc.

Description of reference numerals

11 grain collecting boxes

12 cereal grain-discharging devices

16 face upward and send conveying plant

The 16A outlet

17 discharge chute

The 17A base plate

The 17B side plate

The 17C connecting rod

40 bolsters

41 drain positions change mechanism

48 maintaining bodies

49 clamping rpoles

50 holders

51 cover bodies

54 openings

55 connect mechanisms

Embodiment

Below, as be used for implementing an example of the present utility model the grain discharge structure of combine of the present utility model is applied to the embodiment as the half-feed combine harvester of an example of combine based on description of drawings.

As Fig. 1 ~ 3 and shown in Figure 12, illustrative half-feed combine harvester links a plurality of steel such as square tube material and formation organism frame 1 in the present embodiment.Dispose pair of right and left crawler belt 2 in the bottom of organism frame 1.Carry engine 3 in the front side of organism frame 1 right-hand part and be formed with and take Drive Section 4.Leading section in organism frame 1 left side, with the crop paddy stalk harvesting that can be the mode that fulcrum carries out the lifting and swinging operation with the bolster (not shown) towards left and right directions, link to dispose the results object that will be positioned at body the place ahead when operation is travelled and the harvesting conveying plant of rearward carrying 5.Be equipped with sheller unit 6 in the left side of organism frame 1, the harvested paddy stalk that this sheller unit 6 reception harvesting on one side conveying plant 5 is carried is namely received harvested cereal culm and is rearward carried, on one side to the fringe of receiving harvested cereal culm slightly the knot grain portion of side carry out threshing and handle, and carry out sorting process to handling the handled thing that obtains by this threshing.Rear portion at sheller unit 6 upsides disposes stalk conveying plant 8, and to receive receipts harvested cereal culm after threshings are handled be stalk to this stalk conveying plant 8 and carry to the rear, top of sheller unit 6 from the clamping conveying mechanism 7 of threshing device 6.Dispose the stalks cutting that stalk conveying plant 8 can be carried and the stalk treating apparatus 9 of discharging in the rearward end binding of sheller unit 6 downsides.Rear side at organism frame 1 right-hand part is equipped with grain collecting box 11, and these grain collecting box 11 storages are faced upward via spiral from threshing device 6 and sent formula supply conveying plant 10 to face upward the grain that send output.In grain collecting box 11, dispose the cereal grain-discharging device 12 that the grain that is stored in the grain collecting box 11 can be discharged to engine body exterior.

As Fig. 3, Fig. 5 and shown in Figure 10, stalk treating apparatus 9 is arranged on first pillar 13 of organism frame 1 right back end by setting and at the bolster of pair of longitudinal up and down 14 of this first pillar 13 configurations, is supported to the mode of horizontal swinging operation being fulcrum with described bolster 14 up and down.Thus, described stalk treating apparatus 9 constitutes, can between job position and maintenance position, carry out swinging operation, this job position is to be positioned at the below of stalk conveying plant 8 and to be connected with the downside rear portion of sheller unit 6 so that the position that the stalks cutting that stalk conveying plant 8 is carried can be discharged, this maintenance position be stalk treating apparatus 9 free end side the right back of body and with its with the rearward end of sheller unit 6 between unlimited position (with reference to Figure 10) significantly.

Though diagram is omitted, at the left back end of sheller unit 6 and the free end of stalk treating apparatus 9, dispose the structure member that stalk treating apparatus 9 can be fixed the locking mechanism that keeps at the job position place respectively.

Shown in Fig. 1 ~ 5, grain collecting box 11 is formed with the grain receiving port 11A that is communicated with the grain discharge port 10A that is formed on supply conveying plant 10 upper ends in the middle part, front and back of its upper left end.In addition, grain collecting box 11 constitutes, and its underpart is formed see from fore-and-aft direction to be roughly V-arrangement, in order to can will be stored in the grain bottom 11B guiding that has of center side to the left and right in the grain collecting box 11 and it be flowed down.And, be formed with the grain conveying end (not shown) that the grain that is stored in the grain collecting box 11 can be taken out outside grain collecting box at the position, rear end of grain collecting box 11 bottoms.

As Fig. 1 ~ 11 and shown in Figure 13, cereal grain-discharging device 12 constitutes to have: will be stored in the grain collecting box 11 grain from the grain conveying end outside case, take out of take out of helix transporting device 15, face upward send take out of grain that helix transporting device 15 takes out of and with facing upward of discharging of its outlet 16A from top send conveying plant 16, the grain that will discharge from this outlet 16A guide and make its discharge chute 17 that flows down etc. to the right outer side of body.

Taking out of helix transporting device 15 disposes towards fore-and-aft direction ground at the bottom of grain collecting box 11 11B, so that the leading section of its helical axis 15A becomes from the front end of grain collecting box 11 outstanding state forwards, and the rearward end of taking out of helix transporting device 15 becomes the grain conveying end that passes grain collecting box 11 and is positioned at the state of grain discharge shell 18 inside that are connected with rear end, grain collecting box 11 bottom.And, at the leading section of helical axis 15A, to link with the state of taking out of the rotation of helix transporting device 15 one the output pulley 20 that makes the band tension type discharge clutch 19 that the transmission to cereal grain-discharging device 12 is interrupted from engine 3 is arranged.In the rearward end of helical axis 15A, to link with the state of taking out of the rotation of helix transporting device 15 one bevel gear (not shown) is arranged.

Face upward and send conveying plant 16 by conveying plant shell 21 cylindraceous, lid 22 and face upward the rear that square auger conveying plant 23 etc. constitutes helical feed formula device and is configured in grain collecting box 11.This conveying plant shell 21 is connected with the upper end that grain is discharged shell 18 communicatively towards above-below direction ground, the opening 21A that this lid 22 will be formed on conveying plant shell 21 upper ends stops up, and this faces upward the inside that square auger conveying plant 23 can be configured in conveying plant shell 21 rotatably.

Face upward square auger conveying plant 23 and constitute, its bottom self-conveying apparatus shell 21 stretches out and is positioned at the inside that grain is discharged shell 18 downwards.And, in the bottom of the helical axis 23A that faces upward square auger conveying plant 23, have and the bevel gear engagement that is linked to the helical axis 15A that takes out of helix transporting device 15 and the bevel gear (not shown) of interlock to link with the state of facing upward the rotation of square auger conveying plant 23 one.On the top of facing upward square auger conveying plant 23, dispose with by with facing upward square auger conveying plant 23 one rotations by face upward deliver to face upward send conveying plant 16 tops grain from outlet 16A towards discharging the tabular pushing piece 23B that chute 17 is released.

Grain discharge shell 18 forms has the L shaped of gear accommodation space and connected space, this gear accommodation space is the space that two bevel gears are contained with the state that can mesh and be supported linkedly, and this connected space is the space that the inside of the inside of grain collecting box 11 and conveying plant shell 21 is communicated with the state that can take out of grain.

Discharge chute 17 and constitute the grain path of navigation with groove shape by base plate 17A with from the pair of side plates 17B that base plate 17A erects, facing upward the right side of discharging oral-lateral that becomes of sending conveying plant 16, with the state configuration of base plate 17A in the face of this right side.In the free end side of discharging chute 17, have across the up and down a pair of connecting rod 17C of pair of side plates 17B ground with their upper end binding.

According to said structure, cereal grain-discharging device 12 constitutes, and takes out of helix transporting device 15 if be used to from passing through of engine 3 power drive of discharge clutch 19, then takes out of helix transporting device 15 and faces upward square auger conveying plant 23 via the bevel gear interlock.Then, by this interlock, utilize and to take out of the grain that helix transporting device 15 will be stored in the grain collecting box 11 and take out of and send into the connected space that grain is discharged shell 18 from the grain conveying end.In addition, utilization is faced upward the grain that square auger conveying plant 23 will be sent in this connected space and is faced upward and send to facing upward the top of sending conveying plant 16, and then utilizes pushing piece 23B to face upward to deliver to and face upward the grain that send conveying plant 16 tops and release towards discharging chute 17 from outlet 16A.Then, utilize discharge chute 17 to discharge part guidance and it is flowed down from the grain of grain side outside the right side that is arranged on body that this outlet 16A releases.

That is, the grain that can utilize the cereal grain-discharging device 12 with discharge chute 17 this structures will be stored in the grain side outside the right side that is arranged on body in the grain collecting box 11 is discharged the position discharge.And, constitute the grain path of navigation with groove shape owing to discharge chute 17, therefore, produced at discharge chute 17 under the situation of grain obstruction, can should stop up by visual early detection, and, can easily stir the grain of obstruction towards the below of discharging chute 17 with the hand that the open section of discharging chute 17 certainly stretches into.And, by constituting as mentioned above, also can utilize up and down a pair of connecting rod 17C to improve intensity and the shape retention of discharging chute 17.

As shown in Figures 7 and 8, face upward and send conveying plant 16 to constitute its upper end to be positioned at the upside of grain collecting box 11 upper ends.And, its lid 22 of having of upper end utilize bolt can load and unload link with the upper end of conveying plant shell 21.In addition, at the back side of this lid 22, has the axle support 22A that can support the helical axis 23A upper end of facing upward square auger conveying plant 23 with the state that can extract insertion out with the relative rotation.And the bottom of helical axis 23A and the binding of bevel gear constitute by making their one rotation time allow helical axis 23A to carry out with respect to bevel gear engages disengaging from the top chimeric (for example spline is chimeric).The upper end of discharging shell 18 at grain has the support (not shown) that blocks and support the bottom of facing upward square auger conveying plant 23.

According to said structure, to take out of helix transporting device 15 and face upward the structure that square auger conveying plant 23 links linkedly though adopt via bevel gear, but pull down lid 22 by the upper end of self-conveying apparatus shell 21, can open and be positioned at the opening 21A that faces upward directly over the square auger conveying plant 23, mention by this opening 21A certainly and to face upward square auger conveying plant 23, can remove the chimeric of the bottom of helical axis 23A and bevel gear, face upward square auger conveying plant 23 thereby can self-conveying apparatus shell 21 extract out.Thus, the maintenances such as replacing of carrying out conveying plant shell 21 easily and facing upward the cleaning of square auger conveying plant 23 or face upward square auger conveying plant 23.

In addition, after the maintenance, face upward square auger conveying plant 23 and bottom and the bevel gear of helical axis 23A is chimeric from opening 21A insertion, thereby can link linkedly facing upward square auger conveying plant 23 and taking out of helix transporting device 15.After this, axle support 22A at the chimeric lid 22 in the upper end of helical axis 23A, and utilize the upper end of bolt and conveying plant shell 21 to link the lid 22, thereby can face upward square auger conveying plant 23 with the appropriate state configuration that can drive in the inside of conveying plant shell 21.

And, face upward the upside that the upper end of sending conveying plant 16 is positioned at grain collecting box 11 upper ends by making, be difficult to cause following worry: when facing upward square auger conveying plant 23 with respect to the 21 extraction insertions of conveying plant shell, cause facing upward square auger conveying plant 23 and grain collecting box 11 damages because of the tops of facing upward square auger conveying plant 23 unexpected contact grain collecting boxes 11.

Shown in Fig. 1 ~ 11, conveying plant shell 21 is arranged on second pillar 24 of organism frame 1 right back end by setting and at the assigned position of the medial side up and down of the support 25 supporting conveying plant shells 21 of the upper end of this second pillar 24 configuration, so that it can be that fulcrum rotates relatively with the helical axis 23A that faces upward square auger conveying plant 23.In addition, the top of this conveying plant shell 21 can not be linked with grain collecting box 11 with the relative rotation via fixture 26, and shell 18 is discharged via grain in the bottom of this conveying plant shell 21 can not link with grain collecting box 11 with the relative rotation.

Discharge the bottom of shell 18 at grain, be formed with to be positioned at the supporting axial region 18A cylindraceous that the state with the pivot concentric position of facing upward square auger conveying plant 23 stretches out towards the below from the bottom.And, this supporting axial region 18A can be embedded in the axle support 1A that the right back end of organism frame 1 has with the relative rotation, in addition, should support axial region 18A from the below by this support 1A and block and support.

According to said structure, to discharge the X of axle center longitudinally at center of the supporting axial region 18A of shell 18 be that fulcrum is swung with grain collecting box 11 one to cereal grain-discharging device 12 to pass the pivot of facing upward square auger conveying plant 23 and grain.Thus, can make grain collecting box 11 is fulcrum with the X of axle center longitudinally that its rear was had, between job position and maintenance position, swing, this job position for the right-hand end of sheller unit 6 in abutting connection with and will supply with the position that the grain receiving port 11A of the grain discharge port 10A of conveying plant 10 and grain collecting box 11 engages communicatively, this maintenance position is the communicative engagement of the grain receiving port 11A that removes the grain discharge port 10A that supplies with conveying plant 10 and grain collecting box 11 and the position (with reference to Fig. 2) that the side is left outside the right side to body from threshing device 6.Consequently, by grain collecting box 11 is swung to maintenance position, can between the sheller unit 6 of adjacency when being in job position and grain collecting box 11, guarantee wide space and open wide the right side of sheller unit 6 and the left side of grain collecting box 11 etc., thereby easily sheller unit 6 and grain collecting box 11 etc. be safeguarded.

As shown in figure 13, grain collecting box 11 constitutes and can utilize first locking mechanism 27 and second locking mechanism (not shown) to fix maintenance at job position.First locking mechanism 27 constitutes, the connecting hole (not shown) of the assigned position by being opened in organism frame 1 and with along the state configuration of utilizing spring to be biased to the direction of this connecting hole engaging the following front portion of grain collecting box 11 fall L shaped engagement pin 28 etc., to the lower side effect of grain collecting box 11.Second locking mechanism constitutes, by the clamping hooked (not shown) that can swingingly dispose at the card shotpin (not shown) of the upper forepart of sheller unit 6 configuration and at the upper forepart of grain collecting box 11 etc., to the upper side effect of grain collecting box 11.Clamping hooked links via connecting rod 30 and unlocking lever 29 in the following anterior configuration of grain collecting box 11.

Discharge clutch 19 constitutes in the organism frame side and disposes reception from the input belt wheel 31 of the power of engine 3, swinging operation according to the swing arm 34 with tensioning pulley 33, to import the driving-belt 32 of the output pulley 20 volume extensions of belt wheel 31 and aforesaid cereal grain-discharging device side at this, between tensioning state and relaxed state, switch, switch between the drive state that will transmit to cereal grain-discharging device 12 from the power of engine 3 and the dissengaged positions with this transmission cut-out thereby will discharge clutch 19.

According to said structure, with grain collecting box 11 during to the maintenance position swinging operation, to discharge clutch 19 and switch to dissengaged positions, will because of the lax driving-belt 32 of this switching after output pulley 20 unloads, remove grain collecting box 11 and utilize first locking mechanism 27 and second locking mechanism in the fixedly maintenance at job position place, thereby grain collecting box 11 can be carried out swinging operation to maintenance position.

As Fig. 1, Fig. 2 and shown in Figure 13, the swing arm 34 of discharging clutch 19 links via connect mechanism 37 and the discharge clutch lever 36 that is configured in the position, driver's seat 35 left back of taking in the Drive Section 4.Discharge clutch lever 36 and constitute, can be in edge-on in the left back of driver's seat 35 off-position and swing operation between the transmission position of driver's seat 35 lodging.And, constitute, by being built in the maintaining body (not shown) in the maneuver box 38 that the swing fulcrum side of this discharge clutch lever 36 is covered, the position that can carry out off-position and these two positions, transmission position is switched and is kept.Maneuver box 38 is configured in to erect and is arranged on the top of taking the 3rd pillar 39 between Drive Section 4 and the grain collecting box 11.Maintaining body constitutes, and the elasticity by having utilized driving-belt 32 and because crossing the maintenance structure that stop obtains is discharged clutch lever 36 and switched in the position of off-position and these two positions, transmission position and keep.

According to said structure, by having utilized the flexible simple maintenance structure of driving-belt 32, discharge clutch 19 can be switched between dissengaged positions and drive state with stable status and keeps.In addition, by discharging the lodging operation of the clutch lever 36 easy application of force forwards, switch to the drive state of having resisted driving-belt 32 flexible discharge clutches 19, thereby can improve the operability of discharging clutch 19.

Shown in Fig. 1 ~ 11, face upward the rectangle that members of frame 21B that the outlet 16A that send conveying plant 16 has by the top of conveying plant shell 21 forms the identical and lengthwise of the diameter of width and conveying plant shell 21.In addition, be positioned at grain collecting box 11 under the state of job position, above-mentioned outlet 16A is to set towards the mode of the front-right of body.

Members of frame 21B disposes in the bottom of its right-hand member side and discharges the support unit 21C that chute is used.And, be the end of grain channeling direction upstream side with the base portion of discharging chute 17, via the horizontal bolster 40 that is positioned at grain collecting box 11 under this state of job position towards fore-and-aft direction, can be mode and this support unit 21C binding that fulcrum swings up and down with this bolster 40 so that discharge chute 17.

Dispose the inclination angle change mechanism 41 that change is the inclination angle of the discharge chute 17 that swings up and down of fulcrum with bolster 40 at cereal grain-discharging device 12.Inclination angle change mechanism 41 is made of guiding parts 42, supporting arm 43 and holder 44 etc., these guiding parts 42 fixed configurations are at the exterior side of the side plate 17B of the rear side of the free end side of discharging chute 17, this supporting arm 43 can be configured in the rear portion side of conveying plant shell 21 with swinging up and down, and this holder 44 is configured in the free end of supporting arm 43.

Guiding parts 42 utilization is discharged side plate 17B among each connecting rod 17C up and down that the free end side of chutes 17 has, that discharge chute 17 rear sides certainly outstanding protuberance rearward, and fixed configurations is in discharging chute 17.Be formed with the gathering sill 42A that extends along the grain channeling direction of discharging chute 17 at guiding parts 42.

Holder 44 by the ladder bolt 45 of the T shape with lever 45A, be folded in the packing ring 46 between supporting arm 43 and the ladder bolt 45 and twist the nut parts 47 that close with ladder bolt 45 and constitute.Nut part 47 by form rectangle and have bolt inserting hole 47a snapin part 47A, constitute with the abutting part 47B of guiding parts 42 butts and the nut 47C that is welded in clamping part 47B, this snapin part 47A can snap in the gathering sill 42A of guiding parts 42 slidably to have stoped counterrotating state.

According to said structure, by the ladder bolt 45 of holder 44 is operated towards fastening releasing direction, thereby nut part 47 is turned along the direction away from ladder bolt 45, can unclamp the clamping that the guiding parts 42 of the abutting part 47B that utilizes packing ring 46 and nut part 47 and supporting arm 43 carry out.Thus, can allow holder 44 to slide with respect to guiding parts 42, be that fulcrum swings up and down thereby can make discharge chute 17 with bolster 40.And, swing up and down by this, can make the free end of discharging chute 17 near facing upward the maximum angle of the regulation of sending conveying plant 16 and making the free end of discharging chute 17 not be classified to change the inclination angle of discharging chute 17 between away from the minimum angles of facing upward the regulation of sending conveying plant 16.

After changing this inclination angle, the ladder bolt 45 of holder 44 is operated along fastening direction, thereby nut part 47 is turned along the direction near ladder bolt 45, can strengthen utilizing the guiding parts 42 of abutting part 47B of packing ring 46 and nut part 47 and the clamping that supporting arm 43 carries out.Thus, can stop holder 44 to slide with respect to guiding parts 42, thereby can fix maintenance with the inclination angle after changing with discharging chute 17.

Consequently, can fall arbitrarily between the drain position of posture from facing upward the "Left"-deviationist of sending conveying plant 16 to leave becoming along the stowed position of facing upward the posture that hangs down of sending conveying plant 16 and become the free end side of discharging chute 17, not be classified to change the swinging position position of discharging chute 17.That is, inclination angle change mechanism 41 is that the drain position change mechanism of the drain position of fulcrum works as can not being classified to change what discharge chute 17 with bolster 40.

And, if change to discharge the drain position of chute 17, then can change the grain that is discharged from chute 17 guiding and flows down at body right lateral discharge position and discharge height, thereby carry out discharge with the corresponding grain of job status easily.In addition, if change the drain position of discharging chute 17, then change the inclination angle of discharging chute 17, thereby can regulate the speed that flows down of the grain that is discharged from chute 17 guiding and flows down.Consequently, can change the inclination angle of discharging chute 17 according to the flowability that changes because of the amount of moisture of grain etc., by this change, the speed that flows down of grain can be adjusted to suitable speed, thereby avoid easily causing discharging chute 17 generation grain obstructions etc. because flowability reduces.

In addition, have each the connecting rod 17C that discharges chute 17 in the free end side of discharging chute 17, therefore, not only above-mentioned each connecting rod 17C can be also used as the support unit of guiding parts 42, and the handle can be also used as swinging operation discharge chute 17 time.

As Fig. 2, Fig. 3, Fig. 5, Fig. 9 and shown in Figure 10, discharge chute 17 and constitute in the body inboard that is in the right flank that is positioned at grain collecting box 11 under the situation of stowed position.Thus, carrying out switching to the stowed position by discharging chute 17 under the situations such as operation is travelled or movement is travelled, can prevent to damage such unfavorable condition because discharge chute 17 in travelling contacts with other objects.

As Fig. 3 ~ 7, Fig. 9 and shown in Figure 10, discharge chute 17 constitutes can utilize with its maintaining body 48 to the arrival action interlock of stowed position and fixedly remains on the stowed position.The clamping rpole 49 that maintaining body 48 is had by the toe lateral of conveying plant shell 21 and the base plate 17A that discharges chute 17 have can strain holder 50 constitute, holder 50 moves clamping linkedly and be embedded in clamping rpole 49 with discharging chute 17 to the arrival of stowed position, thereby can fixedly remain on the stowed position with discharging chute 17.

Thus, switched under the situation of stowed position will discharging chute 17, the holder 44 of inoperation inclination angle change mechanism 41 can automatically fixedly remain on the stowed position with discharging chute 17.Thus, can prevent following unfavorable condition reliably: unexpectedly switch to drain position from the stowed position and contact with other objects because the vibration of the body in travelling etc. causes discharging chute 17.

As Fig. 1, Fig. 3 ~ 9 and shown in Figure 11, to discharge the cover body 51 that chute 17 tops fly out from outlet 16A certainly to discharging chute 17 mobile grain be used to preventing, via a pair of hinge 52 that is configured in the upper right end of members of frame 21B, can swing up and down link with the members of frame 21B of conveying plant shell 21.

Cover body 51 has the top board 51A of the curved shape that bloats upward and the pair of side plates 51B that hangs down from top board 51A, and this cover body 51 constitutes than the transverse width of members of frame 21B wide and pair of side plates 51B becomes state with the outside adjacency of members of frame 21B.

Discharging chute 17 constitutes wideer than the transverse width of cover body 51.And, job position at grain collecting box 11, be positioned at the forward state that more leans on the body front side than the pivot X that faces upward square auger conveying plant 16 with the center on the transverse width direction of discharging chute 17, be configured in and face upward the right side of sending conveying plant 16 discharging chute 17, make the state of the outside adjacency of its side plate 17B that becomes its rear side and cover body 51.And, the internal configurations of members of frame 21B have with from outlet 16A to discharging grain that chute 17 the flows guided plate 53 near body channeling conduct ventrally.

Namely, form wideer than the transverse width of outlet 16A by the transverse width that makes cover body 51, not only can utilize cover body 51 to prevent from flying out from discharging chute 17 tops to discharging chute 17 mobile grain from outlet 16A, and can prevent from spilling from two cross sides of cover body 51 to discharging chute 17 mobile grain from outlet 16A.In addition, because the transverse width of cover body 51 is narrower than the transverse width of discharging chute 17, therefore, can utilizes and discharge chute 17 and catch the grain that it flies out and is stoped by cover body 51 reliably.

In addition, send conveying plant 16 with respect to facing upward, discharge chute 17 with forward state configuration, discharge chute 17 under this state of job position and send conveying plant 16 rearward overhangs from facing upward thereby can reduce to be positioned at grain collecting box 11.Thus, for stalk conveying plant 8 and stalk treating apparatus 9 that the rearward end with sheller unit 6 links configuration, be difficult to cause following worry: by it being disposed at the above-mentioned discharge chute 17 that send conveying plant 16 to be positioned at stalk conveying plant 8 and stalk treating apparatus 9 right side sides of facing upward that arranges at grain collecting box 11 rears, because making grain collecting box 11 when job position is swung to maintenance position and the one of grain collecting box 11 is swung and touched stalk conveying plant 8 and stalk treating apparatus 9.

And, because the internal configurations at members of frame 21B has guided plate 53, so, although discharge chute 17 with forward state configuration facing upward the right side of sending conveying plant 16, still can face upward grain that the outlet 16A that send conveying plant 16 flows out certainly to the width center side channeling conduct of discharging chute 17.Thus, can make grain from outlet 16A is not to be partial to the state of the width rear end side of discharging chute 17 but to flow down discharging chute 17 with the state of the few homogenising of the biasing on the width.Consequently, can avoid because causing grain rearward to overflow such unfavorable condition from the rearward end of discharging chute 17 under the state flow of grain with deflection width rear end side.

As Fig. 3 ~ 9 and shown in Figure 11, the rear end at the base portion of discharging chute 17 disposes the armite 17D that stretches out to grain channeling direction upstream side from this rearward end.At the side plate 51B of the rear side of cover body 51, dispose the armite 51C that stretches out laterally from the end of the grain channeling direction upstream side of this side plate 51B.And, discharging chute 17 and cover body 51 links linkedly via armite 17D, the 51C of the connect mechanism 55 that is made of connecting rod with them, make and discharge chute 17 the closer to the stowed position, then more reduce at the opening 54 of discharging formation between chute 17 and the cover body 51, the free end side of discharging chute 17 from face upward send conveying plant 16 more away from, then opening 54 more increases.

In said structure, consider: discharge chute 17 the closer to the stowed position, the inclination angle of then discharging chute 17 more increases, is discharged from chute 17 guiding and the flow velocity of the grain that flows down is all the more fast, the grain discharge rate in the unit interval more increases this situation, constitute, discharge chute 17 the closer to the stowed position, then more reduce at the opening 54 of discharging formation between chute 17 and the cover body 51, so that the grain throughput in the unit interval at opening 54 places reduces.Thus, can suppress to cause the grain discharge rate in the unit interval to increase this situation along with discharging chute 17 near the stowed position.

On the contrary, consider: the free end side of discharging chute 17 from face upward send conveying plant 16 more away from, the inclination angle of then discharging chute 17 more reduces, is discharged from chute 17 guiding and the flow velocity of the grain that flows down is more slack-off, the grain discharge rate in the unit interval more reduces this situation, constitute, the free end side of discharging chute 17 from face upward send conveying plant 16 more away from, then more increase the opening 54 that forms between chute 17 and the cover body 51 discharging, so that the grain throughput in the unit interval at opening 54 places increases.Thus, can suppress along with the free end side of discharging chute 17 from face upward send conveying plant 16 away from and cause the grain discharge rate in the unit interval to reduce this situation.

Namely, no matter the inclination angle of discharge chute 17 how, can make the grain discharge rate constant in the unit interval, thus, can suppress following unfavorable condition: the discharge position that more increases the inclination angle of discharging chute 17 and make the grain of discharging chute 17 from body away from, then the grain discharge rate in the unit interval more reduces and grain is discharged efficient and more reduced.

As Fig. 5 ~ 9 and shown in Figure 11, dispose the block 17E that is constituted by the pin outstanding towards the rear at the armite 17D that discharges chute 17.And, constitute, by making connect mechanism 55 and this block 17E butt, thereby restriction is discharged chute 17 and is sent conveying plant 16 to swinging away from direction from facing upward.

Shown in Fig. 3 ~ 5 and Fig. 9 ~ 11, dispose butt parts 56 at support 25, these butt parts 56 are by abutting to the base plate 17A of the discharge chute 17 that moves with grain collecting box 11 one of swinging to maintenance position, remove to discharge chute 17 and utilize maintaining body 48 in the fixedly maintenance at place, stowed position, and make the free end side of discharging chute 17 from face upward send conveying plant 16 away from.Butt parts 56 are made of the roller that outer embedding with the relative rotation is configured on the bolster 57 that support 25 hangs down down, make job position at grain collecting box 11, these butt parts 56 with the state of the back side adjacency of the base plate 17A that discharges chute 17 by the discharge chute 17 that is in the stowed position.

According to said structure, if fixedly remain under the state of stowed position grain collecting box 11 swung towards maintenance position utilizing maintaining body 48 will discharge chute 17, the base plate 17A that then discharges chute 17 climbs up butt parts 56 ground and its butt, the free end side of discharging chute 17 is boosted, thus, utilize the fixedly maintenance of the chimeric discharge chute 17 that keeps of being fixed of the clamping of the clamping rpole 49 of maintaining body 48 and holder 50 to be disengaged automatically, discharge chute 17 swing of rising.

Thus, can prevent following unfavorable condition: contact in its moving direction downstream towards the discharge chute 17 of maintenance position and grain collecting box 11 one swing and connect mechanism 55 and swing to the stalk treating apparatus 9 of the close maintenance position of grain collecting box 11 etc.Consequently, even if stalk treating apparatus 9 is being swung under the situation of maintenance position, also can make grain collecting box 11 to the right outside swing significantly of body, thereby can between sheller unit 6 and grain collecting box 11, guarantee wide space.

As Fig. 1, Fig. 3 ~ 5, Fig. 9 and shown in Figure 11, discharging the free end of chute 17, the state that takes the shape of the letter U with the shape of seeing from the grain channeling direction has by what transparent resin plate constituted and has a flexible auxiliary shoot 58.And at the free end of auxiliary shoot 58, that disposes the circular hole 58A that the rear and front end that is passed in this free end forms and the transverse width that changes free end is with 59.

According to said structure, for example, be under the situations such as boxcar at the discharge object of grain, be with 59 by unclamping, the frontal width of the grain outlet side of auxiliary shoot 58 can be formed roomy state, thereby, can be so that grain be diffused into the state in broadness zone such as boxcar that it is discharged.

In addition, discharge object at grain is under the situations such as grain bag, is with 59 by tightening, and the frontal width of the grain outlet side of auxiliary shoot 58 can be formed narrow cylindric, thereby, can be so that grain focuses on the state in narrow and small zones such as grain bag that it is discharged.

Namely, though be to use with 59 and had the simple structure of flexible auxiliary shoot 58, but the frontal width of the grain outlet side of auxiliary shoot 58 easily can be altered to the corresponding sizes such as discharge object with grain, thereby can carry out the discharge with the corresponding grain such as discharge object of grain well.

As Fig. 1 ~ 6, Fig. 9 and shown in Figure 11, the side plate 17B that discharges chute 17 rear sides makes the top of its base portion side tilt to the body rear side in the offside mode in the body rear side of upper side that more arrives base portion side.Thus, can prevent that the side plate 51B of cover body 51 rear sides that the top sliding-contact because of the base portion side of the side plate 17B that discharges chute 17 rear sides is adjacent from causing being difficult to discharge the inclination angle alter operation of chute 17.

As Fig. 3, Fig. 5 and shown in Figure 10, first pillar 13 and second pillar 24 link parts 60 with their top binding by utilizing, thereby improve their intensity.

As Fig. 1 ~ 3, Fig. 5 and shown in Figure 12, waste gas from engine 3 is discharged to engine body exterior via muffler 61 and blast pipe 62 backwards from the position, top, rear end of body, this muffler 61 is configured in the upper left-hand side of engine 3, and this blast pipe 62 passes between sheller unit 6 and the grain collecting box 11 and sheller unit 6 and supply with between the conveying plant 10 and linearly stalk conveying plant 8 tops that reach from the air vent (not shown) of this muffler 61.

Dispose the hood 63 of the semicircle arcuation that is constituted by the porous plate that covers blast pipe 62 from the right side at blast pipe 62.Thus, although grain collecting box 11 swung right side of opening by sheller unit 6 etc. to maintenance position, still can blast pipe 62 be blocked by hood 63.

In the rearward end of blast pipe 62, dispose the exhaust cover for conducting 64 that rearward stretches out from the rearward end of blast pipe 62 with the semicircle arcuation that covers the air vent 62A of blast pipe 62 from the top.Thus, the waste gas that can utilize exhaust cover for conducting 64 to discharge from the air vent 62A of blast pipe 62 guides to the body rear.

As shown in Figures 1 and 2, erect in the right side side of engine 3 and to be provided with right side wall 65, this right side wall 65 has: be used for importing the opening 65A of extraneous gas and preventing basket strainer 65B that dust flows into from this opening 65A etc. to engine 3.Right side wall 65 constitutes, and the right flank that becomes lateral surface of its upper side is positioned at the position identical with the right flank of grain collecting box 11 at the body width, and the right flank of its underpart side is positioned at the position of more leaning on the body inboard than the right flank of grain collecting box 11.Therefore, the lower side at right side wall 65 disposes from the paddy stalk guide part 66 of its leading section towards the right flank horizontal U-shaped that stretch out in the oblique outside towards the right side of grain collecting box 11.And, carry out the body right side also exist do not receive harvested cereal culm in the middle of during harvesting operation etc., by this paddy stalk guide part 66 can be with the body right side do not receive harvested cereal culm to the right guided outside of grain collecting box 11.Thus, during underway harvesting operation etc., can prevent following unfavorable condition: the harvested cereal culm of not receiving on body right side enters between right side wall 65 and the grain collecting box 11 and is wrapped on the discharge clutch 19 that has between right side wall 65 and the grain collecting box 11 etc.

(other embodiments)

(1) as combine, can be to receive the full feed type combine of the whole feeding of harvested cereal culm sheller unit 6 inside.In addition, also can be to cover by driver's cabin to take the combine that Drive Section 4 constitutes.

(2) as cereal grain-discharging device 12, also can replace having at the bottom of grain collecting box 11 11B the grain that is stored in the grain collecting box 11 is taken out of helix transporting device 15 this structures from what the grain conveying end was taken out of outside case, and constitute, the bottom 11B of grain collecting box 11 has and will be stored in grain in the grain collecting box 11 from inclined plane that the grain conveying end guides and it is flowed down outside case, perhaps, vibrate by the bottom 11B that makes grain collecting box 11, thereby the grain that will be stored in the grain collecting box 11 guides and makes it to flow outside case from the grain conveying end.

(3) as cereal grain-discharging device 12, also can constitute, its base plate 17A will discharge chute 17 so that can be that fulcrum is configured in with swinging up and down and faces upward the right side that becomes the discharge oral-lateral of sending conveying plant 16 with the lateral support axle 40 towards fore-and-aft direction in the face of facing upward the state that send conveying plant 16 right sides and being positioned at grain collecting box 11 under the state of job position, and, can the grain that be stored in the grain collecting box 11 being discharged to the right outside of body along facing upward the stowed position of sending conveying plant 16 and the free end side of discharging chute 17 from facing upward the form of switching between these two positions of drain position of sending conveying plant 16 to leave.

(4) as cereal grain-discharging device 12, also can constitute, its side plate 17B will discharge chute 17 so that can be that fulcrum is configured in with swinging up and down and faces upward the right side that becomes the discharge oral-lateral of sending conveying plant 16 with the lateral support axle 40 towards left and right directions in the face of facing upward the state that send conveying plant 16 right sides and being positioned at grain collecting box 11 under the state of job position, and, can the grain that be stored in the grain collecting box 11 being discharged to the back outside of body along facing upward the stowed position of sending conveying plant 16 and the free end side of discharging chute 17 from facing upward the form of switching between these two positions of drain position of sending conveying plant 16 to leave.

(5) as cereal grain-discharging device 12, also can constitute, facing upward the top rear side formation outlet 16A that send conveying plant 16, its base plate 17A will discharge chute 17 so that can be that fulcrum is configured in with swinging up and down and faces upward the rear portion side that becomes the discharge oral-lateral of sending conveying plant 16 with the lateral support axle 40 towards left and right directions in the face of facing upward the state that send conveying plant 16 rear portions and being positioned at grain collecting box 11 under the state of job position, and, can the grain that be stored in the grain collecting box 11 being discharged to the back outside of body along facing upward the stowed position of sending conveying plant 16 and the free end side of discharging chute 17 from facing upward the form of switching between these two positions of drain position of sending conveying plant 16 to leave.

(6) as cereal grain-discharging device 12, also can constitute, facing upward the top rear side formation outlet 16A that send conveying plant 16, its side plate 17B will discharge chute 17 so that can be that fulcrum is configured in with swinging up and down and faces upward the rear portion side that becomes the discharge oral-lateral of sending conveying plant 16 with the lateral support axle 40 towards fore-and-aft direction in the face of facing upward the state that send conveying plant 16 rear portions and being positioned at grain collecting box 11 under the state of job position, and, can the grain that be stored in the grain collecting box 11 being discharged to the right outside of body along facing upward the stowed position of sending conveying plant 16 and the free end side of discharging chute 17 from facing upward the form of switching between these two positions of drain position of sending conveying plant 16 to leave.

(7) as cereal grain-discharging device 12, also can constitute, its side plate 17B will discharge chute 17 so that can be that fulcrum is configured in with swinging up and down and faces upward the right side that becomes the discharge oral-lateral of sending conveying plant 16 with the lateral support axle 40 towards left and right directions in the face of facing upward the state that send conveying plant 16 right sides and being positioned at grain collecting box 11 under the state of job position, and, be provided with by being that fulcrum swings up and down the drain position change mechanism 41 that can change the drain position (inclination angle) of discharging chute 17 with this bolster 40, the grain that is stored in the grain collecting box 11 is discharged the state at position to the back outside discharge of body can change grain.

(8) as cereal grain-discharging device 12, also can constitute, facing upward the top rear side formation outlet 16A that send conveying plant 16, its base plate 17A will discharge chute 17 so that can be that fulcrum is configured in with swinging up and down and faces upward the rear portion side that becomes the discharge oral-lateral of sending conveying plant 16 with the lateral support axle 40 towards left and right directions in the face of facing upward the state that send conveying plant 16 rear portions and being positioned at grain collecting box 11 under the state of job position, and, be provided with by being that fulcrum swings up and down the drain position change mechanism 41 that can change the drain position (inclination angle) of discharging chute 17 with this bolster 40, the grain that is stored in the grain collecting box 11 is discharged the state at position to the back outside discharge of body can change grain.

(9) as cereal grain-discharging device 12, also can constitute, facing upward the top rear side formation outlet 16A that send conveying plant 16, its side plate 17B will discharge chute 17 so that can be that fulcrum is configured in with swinging up and down and faces upward the rear portion side that becomes the discharge oral-lateral of sending conveying plant 16 with the lateral support axle 40 towards fore-and-aft direction in the face of facing upward the state that send conveying plant 16 rear portions and being positioned at grain collecting box 11 under the state of job position, and, be provided with by being that fulcrum swings up and down the drain position change mechanism 41 that can change the drain position (inclination angle) of discharging chute 17 with this bolster 40, the grain that is stored in the grain collecting box 11 is discharged to the right outside of body with the state that can change grain discharge position.

(10) as cereal grain-discharging device 12, also can constitute, to discharge chute 17 so that its base plate 17A in the face of face upward the state that send conveying plant 16 right sides and be positioned at grain collecting box 11 under the state of job position can be respectively be that fulcrum is configured in with swinging up and down and faces upward the right side that becomes the discharge oral-lateral of sending conveying plant 16 towards the lateral support axle 40 of fore-and-aft direction with towards the lateral support axle 40 of left and right directions, and, be provided with by being that fulcrum swings up and down the drain position change mechanism 41 that can change the drain position (inclination angle) of discharging chute 17 with these bolsters 40, the grain that is stored in the grain collecting box 11 is discharged to the right outside of body with the state that can change grain discharge position.

(11) as cereal grain-discharging device 12, also can constitute, to discharge chute 17 so that its side plate 17B in the face of face upward the state that send conveying plant 16 right sides and be positioned at grain collecting box 11 under the state of job position can be respectively be that fulcrum is configured in with swinging up and down and faces upward the right side that becomes the discharge oral-lateral of sending conveying plant 16 towards the lateral support axle 40 of fore-and-aft direction with towards the lateral support axle 40 of left and right directions, and, be provided with by being that fulcrum swings up and down the drain position change mechanism 41 that can change the drain position (inclination angle) of discharging chute 17 with these bolsters 40, the grain that is stored in the grain collecting box 11 is discharged the state at position to the back outside discharge of body can change grain.

(12) as cereal grain-discharging device 12, also can constitute, facing upward the top rear side formation outlet 16A that send conveying plant 16, to discharge chute 17 so that its base plate 17A in the face of face upward the state that send conveying plant 16 rear portions and be positioned at grain collecting box 11 under the state of job position can be respectively be that fulcrum is configured in with swinging up and down and faces upward the rear portion side that becomes the discharge oral-lateral of sending conveying plant 16 towards the lateral support axle 40 of fore-and-aft direction with towards the lateral support axle 40 of left and right directions, and, be provided with by being that fulcrum swings up and down the drain position change mechanism 41 that can change the drain position (inclination angle) of discharging chute 17 with these bolsters 40, the grain that is stored in the grain collecting box 11 is discharged the state at position to the back outside discharge of body can change grain.

(13) as cereal grain-discharging device 12, also can constitute, facing upward the top rear side formation outlet 16A that send conveying plant 16, to discharge chute 17 so that its side plate 17B in the face of face upward the state that send conveying plant 16 rear portions and be positioned at grain collecting box 11 under the state of job position can be respectively be that fulcrum is configured in with swinging up and down and faces upward the rear portion side that becomes the discharge oral-lateral of sending conveying plant 16 towards the lateral support axle 40 of fore-and-aft direction with towards the lateral support axle 40 of left and right directions, and, be provided with by being that fulcrum swings up and down the drain position change mechanism 41 that can change the drain position (inclination angle) of discharging chute 17 with these bolsters 40, the grain that is stored in the grain collecting box 11 is discharged to the right outside of body with the state that can change grain discharge position.

(14) send conveying plant 16 as facing upward, also can adopt the bucket type conveying plant.In addition, also can send the place ahead that conveying plant 16 is configured in grain collecting box 11 or the horizontal side in the body outside with facing upward.

(15) as inclination angle change mechanism 41, also can constitute, be formed for changing a plurality of recesses of drain position at guiding parts 42, and, free end at supporting arm 43 has the holding section that engages with these recesses, by changing the recess that the holding section engages, thereby change the drain position of discharging chute 17 by stages.

(16) maintaining body 48 also can constitute, and send conveying plant 16 to have holder 50, has clamping rpole 49 discharging chute 17 facing upward.

(17) discharge chute 17 and also can form pipe shape or square tube type etc.

(18) connect mechanism 55 also can constitute by discharging steel wire etc.

Industrial applicibility

The grain discharge structure of combine of the present utility model can be applied to have semi-feeding type or the full feed type combine of grain collecting box.

Claims (14)

1. the grain discharge structure of a combine has the cereal grain-discharging device that the grain that is stored in the grain collecting box is discharged to engine body exterior, and the grain discharge structure of described combine is characterised in that,

Described cereal grain-discharging device has: faces upward the grain that send in the described grain collecting box and it sent conveying plant, the grain that will discharge from described outlet is to the body guided outside and makes its discharge chute that flows down from facing upward of discharging of the outlet on top,

Described discharge chute is at the described discharge oral-lateral that send conveying plant of facing upward, the bolster of the posture of intersecting with the grain channeling direction that is in described discharge chute is that fulcrum can be arranged at described facing upward with swinging up and down and send conveying plant, make the base portion of described discharge chute by described support shaft supports, and described discharge chute can faced upward the stowed position of sending conveying plant and the free end side of described discharge chute is switched from described facing upward between the drain position that send conveying plant to leave along described.

2. the grain discharge structure of combine as claimed in claim 1 is characterized in that,

Being provided with the described bolster that can change with described discharge chute is the drain position change mechanism of the drain position of fulcrum.

3. the grain discharge structure of combine as claimed in claim 1 or 2 is characterized in that,

Described discharge chute is configured in described lateral sides of facing upward the body outside of sending conveying plant,

Be positioned under the situation of described stowed position at described discharge chute, described discharge chute is positioned at the position of more leaning on the body inboard than the transverse side in the body outside of described grain collecting box.

4. the grain discharge structure of combine as claimed in claim 1 or 2 is characterized in that,

By described face upward send that clamping rpole that the either party in conveying plant and the described discharge chute has and the opposing party have can strain holder constitute maintaining body, described clamping rpole and described holder engage linkedly with the arrival action of described discharge chute to described stowed position, thus, described maintaining body fixedly remains on described stowed position with described discharge chute.

5. the grain discharge structure of combine as claimed in claim 4 is characterized in that,

Described discharge chute is made of base plate and the pair of side plates that erects from described base plate.

6. the grain discharge structure of combine as claimed in claim 5 is characterized in that,

Dispose and will constitute the described support of facing upward on the conveying plant outer casing supporting that send conveying plant is arranged at organism frame in setting the pillar,

Dispose the butt parts at described support, these butt parts are by abutting to the described base plate of the described discharge chute that moves with the described grain collecting box one of swinging to maintenance position, remove described discharge chute and utilize described maintaining body in the fixedly maintenance at stowed position place, and the free end side that makes described discharge chute from described face upward send conveying plant away from.

7. the grain discharge structure of combine as claimed in claim 5 is characterized in that,

Dispose and prevent the cover body that flies out from the top of described discharge chute from the grain that described outlet flows to described discharge chute.

8. the grain discharge structure of combine as claimed in claim 7 is characterized in that,

Described discharge chute and described cover body are linked linkedly via connect mechanism, make described discharge chute the closer to described stowed position, then the opening that forms between described discharge chute and described cover body more reduces, the free end side of described discharge chute from described face upward send conveying plant more away from, then described opening more increases.

9. the grain discharge structure of combine as claimed in claim 8 is characterized in that,

At least the free end side at described discharge chute has the connecting rod that its upper end is linked across described pair of side plates ground.

10. the grain discharge structure of combine as claimed in claim 8 is characterized in that,

The transverse width of described cover body constitutes wideer than the transverse width of described outlet, and narrower than the transverse width of described discharge chute.

11. the grain discharge structure of combine as claimed in claim 1 or 2 is characterized in that,

Dispose and prevent the cover body that flies out from the top of described discharge chute from the grain that described outlet flows to described discharge chute.

12. the grain discharge structure of combine as claimed in claim 11 is characterized in that,

Described discharge chute and described cover body are linked linkedly via connect mechanism, make described discharge chute the closer to described stowed position, then the opening that forms between described discharge chute and described cover body more reduces, the free end side of described discharge chute from described face upward send conveying plant more away from, then described opening more increases.

13. the grain discharge structure of combine as claimed in claim 12 is characterized in that,

At least the free end side at described discharge chute has the connecting rod that its upper end is linked across described pair of side plates ground.

14. the grain discharge structure of combine as claimed in claim 12 is characterized in that,

The transverse width of described cover body constitutes wideer than the transverse width of described outlet, and narrower than the transverse width of described discharge chute.

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