CN204810996U - Combine harvester - Google Patents

Abstract

The utility model provides a combine harvester sets up compact structure during it is easily avoided the gain in weight of millet case and makes the swinging driving device of unloader. Unloader (F) constitute for from with the linearity of continuous leading -in side end to the side end of discharging of the corn discharge port (20B) of millet case (E) is indulged the terminal portion that transports route (R) and is formed with corn discharge opening (36), and the discharge side end towards the top accomodate the posture with the discharge side end freely switches the posture between the discharge posture in the outside, unloader (F) has the messenger unloader (F) undulation wobbling swinging driving device (60), swinging driving device (60) stride locate support (40) and unloader (F), support (40) set up on walking organism (A), support (40) set up when the back vision in the rear side of millet case (E).

Description

Combine

The application be Kubota Corp. submit on July 31st, 2014 to Patent Office of the People's Republic of China be entitled as " combine ", divisional application that application number is the Chinese patent application of 201420428838.6.

Technical field

The utility model relates to a kind of combine, the paddy case of grain and the unloader for discharging grain is stored from walking body has at this combine, wherein, use vertical transport path from the end, introduction side be connected with the grain outlet of paddy case to discharge side end to be formed as the simple type unloader of linearity, and use oscillatory gearing mechanism that this unloader is freely switched between discharge side end storage posture upward and discharge side end discharge posture toward the outer side.

Background technology

As the combine using above-mentioned simple type unloader, there are known construct as follows: such as, bucket carrier is used as the unloader that grain is discharged, and adopts hydraulic cylinder as the oscillatory gearing mechanism (with reference to patent document 1) making this unloader fluctuate between discharge side end storage posture upward and discharge side end discharge posture toward the outer side.

Patent document 1:JP JP 2001-327216 publication (with reference to [0020] section, [0021] section, [0043] section and [Fig. 3], [Fig. 4], [Figure 10])

In the structure shown in patent document 1, make unloader fluctuate by hydraulic cylinder, thus make in the combine with the larger paddy case of capacity, even if unloader is large-scale unloader, hydraulic cylinder also can be used easily to change the posture of unloader.

In existing structure, when opening paddy case to keep in repair etc., unloader is up and down axis rotation around share the same as paddy case also, and maintains the state not having relative pose to change.This is because hydraulic cylinder is across being connected to unloader and paddy case, can not make unloader and paddy case, around described upper and lower axle center, relative pose change occur.

But in the structure shown here, another side that end side is connected to the hydraulic cylinder of unloader is connected to paddy case, therefore, its structure needs to have sufficient intensity acts on hydraulic cylinder load to enable the sidewall of paddy case tackle, and thus, the weight of paddy case self may increase.And, hydraulic cylinder itself also along with opening of paddy case around upper and lower axle center change of location, so hydraulic piping etc. also relative to this hydraulic cylinder occur position move.Therefore, needing to guarantee to allow hydraulic piping etc. drive associated components along with changing and the space of movement the position of hydraulic cylinder around upper and lower axle center, existing thus and being difficult to the problem realizing densification.

Utility model content

The utility model makes the arrangement densification in the oscillatory gearing mechanism of unloader while being easy to avoid paddy case weight to increase.

The utility model provides a kind of combine, it is from walking paddy case body having and stores grain, for discharging the unloader of the grain in described paddy case, the terminal part that described feel trim actuator becomes indulging transport path from the linearity of end, introduction side to the discharge side end be connected with the grain outlet of described paddy case is formed with grain discharge opening, and between described discharge side end storage posture upward and described discharge side end discharge posture toward the outer side, freely switch posture, described unloader has the oscillatory gearing mechanism making described unloader fluctuate, described oscillatory gearing mechanism is located at supporting mass and described unloader, described supporting mass is arranged on described from walking on body, described supporting mass is arranged at the rear side of described paddy case when backsight.

The technical scheme of the combine in the utility model has architectural feature as described below and action effect.

(solution 1)

Technical scheme according to the utility model for solving above-mentioned problem is, a kind of combine, and it has the paddy case, the supporting mass for the unloader and supporting paddy case of discharging the grain in described paddy case that store grain on body voluntarily,

The terminal part that described feel trim actuator becomes indulging transport path from the linearity of end, introduction side to the discharge side end be connected with the grain outlet of described paddy case is formed with grain outlet, and between described discharge side end storage posture upward and described discharge side end discharge posture toward the outer side, freely switch posture

Described unloader has the oscillatory gearing mechanism making described unloader fluctuate,

Described oscillatory gearing mechanism is located at described supporting mass and described unloader.

(effect of the utility model involved by solution 1 and effect)

According to the utility model involved by above-mentioned solution 1, owing to having the oscillatory gearing mechanism making unloader fluctuate, even so when having relatively large unloader, also easy fluctuate operation is carried out to it.

And in oscillatory gearing mechanism, the end of the opposition side of the side be connected with unloader is connected to from walking on the supporting mass that body has, instead of is connected to paddy case itself, and the load therefore coming from oscillatory gearing mechanism can not act on paddy case itself.Thereby, it is possible to avoid occurring causing because the thickness of the sidewall by increasing paddy case improves intensity etc. the situation that paddy case weight increases.

In addition, in the both ends of oscillatory gearing mechanism, there is not change in location in the end of the side be connected with supporting mass, and the change in location being therefore arranged on the driving associated components of the oscillatory gearing mechanism near this end also tails off.Therefore, also without the need to guaranteeing for allowing that these drive associated components to carry out the space of position movement, thus there is the advantage arranging structure densification making the oscillatory gearing mechanism of unloader.

(solution 2)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described unloader is arranged at the rear side of described paddy case,

Described oscillatory gearing mechanism is connected to described supporting mass at the rear side of described paddy case.

(effect of the utility model involved by solution 2 and effect)

According to the utility model involved by above-mentioned solution 2, supporting mass and oscillatory gearing mechanism are all positioned at the rear side of paddy case, therefore have be easy to assemble the unloader be arranged on rear side of paddy case disassemble, the advantage of maintenance activity.

(solution 3)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described paddy case be configured to be supported on be arranged on described in described supporting mass voluntarily on body state lower swing and freely switching posture between the work posture of body and the maintenance posture crossed out from described body voluntarily voluntarily described in being accommodated in

Described supporting mass is configured to relatively rotate relative to described body voluntarily together with described paddy case.

(effect of the utility model involved by solution 3 and effect)

According to the utility model involved by above-mentioned solution 3, supporting mass is configured to relatively rotate relative to certainly walking body together with paddy case, therefore on the installation portion of the described paddy case relative to this supporting mass and the installation portion relative to the oscillatory gearing mechanism of this supporting mass, allow and carry out structure in relative rotation at supporting mass and the connecting portion of paddy case and the connecting portion of supporting mass and oscillatory gearing mechanism that there is the advantage of the simple structure that can realize this connecting portion without the need to having.

(solution 4)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described supporting mass is in the center of rotation of described paddy case.

(effect of the utility model involved by solution 4 and effect)

According to the utility model involved by above-mentioned solution 3, compare with the situation of the center of rotation of paddy case with the center of rotation forming supporting mass respectively, supporting mass itself is used as the bearing unit of paddy case, therefore there is the advantage of the supporting structure summary that can make paddy case.

(solution 5)

Other technologies scheme according to the utility model for solving above-mentioned problem is, the centre of area of described supporting mass when overlooking is consistent with the center of rotation of this supporting mass, supports described supporting mass in the mode can rotated relative to described body voluntarily.

(effect of the utility model involved by solution 5 and effect)

According to the utility model involved by above-mentioned solution 5, supporting mass can be formed with simple column, be conducive to the summary of implementation structure.

(solution 6)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described paddy case be configured to be supported on be arranged on described in supporting mass voluntarily on body state lower swing and freely switching posture between the work posture of body and the maintenance posture crossed out from described body voluntarily voluntarily described in being accommodated in

The vehicle body frame of described body is voluntarily equipped with vertical framework, and described supporting mass can be supported on this vertical framework rotationally.

(effect of the utility model involved by solution 6 and effect)

According to the utility model involved by above-mentioned solution 6, supporting mass is supported in the mode that can swing by vertical framework, therefore supporting mass itself does not need to have the structure for erecting relative to vehicle body frame, has the advantage being easy to the simple structure making supporting mass itself.

(solution 7)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described vertical framework connects and is supported on sheller unit.

(effect of the utility model involved by solution 7 and effect)

According to the utility model involved by above-mentioned solution 7, connect by making vertical framework and be supported on sheller unit, there is the advantage that sheller unit can be used for improve vertical frame strength.

(solution 8)

Other technologies scheme according to the utility model for solving above-mentioned problem is, staggers in described supporting mass and the described unloader position on the fore-and-aft direction of described body voluntarily.

(effect of the utility model involved by solution 8 and effect)

According to the utility model involved by above-mentioned solution 8, because supporting mass and unloader stagger in the position on the fore-and-aft direction walking body, even if therefore have to arrange compactly with state very close in the lateral direction and be in the storage unloader of posture and supporting mass, also can utilize the space between this supporting mass and unloader thus be easy to arrange without barrier the advantage of oscillatory gearing mechanism.

(solution 9)

Other technologies scheme according to the utility model for solving above-mentioned problem is be provided with described oscillatory gearing mechanism between described supporting mass and described unloader.

(effect of the utility model involved by solution 9 and effect)

According to the utility model involved by above-mentioned solution 9, by the space between supporting mass and unloader as the space arranging oscillatory gearing mechanism, thus have and be easy to integrant advantage compactly.

(solution 10)

Other technologies scheme according to the utility model for solving above-mentioned problem is, is connected with described oscillatory gearing mechanism across the front side portion of described unloader and the rear lateral portion of described supporting mass.

(effect of the utility model involved by solution 10 and effect)

According to the utility model involved by above-mentioned solution 10, there is the advantage being easy to the fluctuate expanding-contracting action of oscillatory gearing mechanism being changed well into unloader.

(solution 11)

Other technologies scheme according to the utility model for solving above-mentioned problem is, the position that described oscillatory gearing mechanism is connected with described supporting mass lower than described oscillatory gearing mechanism at the link position of described unloading pusher side.

(effect of the utility model involved by solution 11 and effect)

According to the utility model involved by above-mentioned solution 11, the supporting side of oscillatory gearing mechanism is higher than unloader side position, therefore the driving force be easy to oscillatory gearing mechanism produces acts on unloader efficiently, has the advantage being easy to less oscillatory gearing mechanism, unloader be carried out to posture changing operation.That is, the supporting side of such as oscillatory gearing mechanism is lower than unloader side position, then when the unloader driving load be in for oscillatory gearing mechanism becomes maximum discharge posture, the line of force of active force on the pull-up direction produced by oscillatory gearing mechanism becomes very little with the crossing angle of the length direction of unloader.Therefore, in the active force on the pull-up direction produced by oscillatory gearing mechanism, the component that the direction to lifting unloader acts on becomes minimum.To this, in the utility model making the supporting side of oscillatory gearing mechanism higher than unloader side position, the line of force of active force on the pull-up direction that produced by oscillatory gearing mechanism and the crossing angle of the length direction of unloader can be made to become enough large, thus the component that the direction to lifting unloader act on become greatly.Thereby, it is possible to utilize the driving force that oscillatory gearing mechanism produces efficiently.

(solution 12)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described unloader has the ancon be connected with the grain outlet of described paddy case in end, described introduction side, and be connected with on the downside of the transport of this ancon and form the vertical cylinder portion that described linearity indulges transport path, described oscillatory gearing mechanism is connected to described vertical cylinder portion.

(effect of the utility model involved by solution 12 and effect)

According to the utility model involved by above-mentioned solution 12, the ancon be connected with the grain outlet of paddy case is positioned at the oscillation center side of unloader, and on the downside of transporting, vertical cylinder portion is positioned at the position away from oscillation center compared with ancon.By oscillatory gearing mechanism being connected to this vertical cylinder portion, having compared with situation about being connected to by oscillatory gearing mechanism near the ancon of oscillation center can the advantage of wobble drive unloader trippingly.

(solution 13)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described oscillatory gearing mechanism is connected near the connecting portion that is connected with described ancon in described vertical cylinder portion.

(effect of the utility model involved by solution 13 and effect)

According to the utility model involved by above-mentioned solution 13, oscillatory gearing mechanism is connected near the connecting portion be connected with ancon in vertical cylinder portion, therefore this connecting portion compared with ancon away from oscillation center, can brisk operation be carried out, and without the need to making the actuating quantity of oscillatory gearing mechanism increase as situation about being connected to away from the connecting portion part be connected with ancon.Therefore, the miniaturization of oscillatory gearing mechanism is also conducive to.

(solution 14)

Other technologies scheme according to the utility model for solving above-mentioned problem is, the bottom of described supporting mass and the described ancon of described unloader connect into described ancon and can relatively rotate relative to described supporting mass.

(effect of the utility model involved by solution 14 and effect)

According to the utility model involved by above-mentioned solution 14, the bottom of supporting mass is connected with the ancon of unloader, has the advantage that mutually can improve bearing strength.

(solution 15)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described paddy case be configured to be supported on be arranged on described in supporting mass voluntarily on body state lower swing and freely switching posture between the work posture of body and the maintenance posture crossed out from described body voluntarily voluntarily described in being accommodated in

Described unloader is set to end, described introduction side and is positioned at compared with the center of rotation of described supporting mass on left and right directions by the position outside body.

(effect of the utility model involved by solution 15 and effect)

According to the utility model involved by above-mentioned solution 15, the setting position of unloader on body left and right directions can not be subject to the obstruction of supporting mass, can as far as possible on body left and right directions position in the outer part unloader is set, thus there is the advantage can discharging grain with more small-sized unloader to the more lateral of body.

(solution 16)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described paddy case be configured to be supported on be arranged on described in supporting mass voluntarily on body state lower swing and freely switching posture between the work posture of body and the maintenance posture crossed out from described body voluntarily voluntarily described in being accommodated in

Described oscillatory gearing mechanism is connected to described supporting mass in the position compared with the center of rotation of described supporting mass outside left and right directions.

(effect of the utility model involved by solution 16 and effect)

According to the utility model involved by above-mentioned solution 16, the position of oscillatory gearing mechanism outside the right direction that keeps left compared with the center of rotation of supporting mass is connected to supporting mass, therefore, it is possible to make the oscillatory gearing mechanism being connected to supporting mass be positioned in the lateral direction outside body as far as possible.Thereby, it is possible to reduce and with to the distance between the unloader of the discharge posture away from the movement of supporting mass direction outside body, there is the advantage realizing oscillatory gearing mechanism miniaturization as far as possible.

(solution 17)

Other technologies scheme according to the utility model for solving above-mentioned problem is, the position of described oscillatory gearing mechanism on the left and right directions of described unloader being in described storage posture outside body is connected to described unloader.

(effect of the utility model involved by solution 17 and effect)

According to the utility model involved by above-mentioned solution 17, the position leaned on outside body of the unloader of storage posture is in by making the connecting portion of oscillatory gearing mechanism on unloader be positioned at, even if supporting mass and unloader arrange the position be close in the lateral direction, be also easy to the posture being set to by oscillatory gearing mechanism topple over rightly relative to unloader.

That is, such as, when oscillatory gearing mechanism being connected to the position inside the close body being in the unloader receiving posture, if not compared with this link position to inside the body away from position the supporting mass of another side being connected with oscillatory gearing mechanism is set, then oscillatory gearing mechanism can not be set with the posture of toppling over relative to unloader.In contrast to this, in the utility model, the position outside the close body connecting portion of oscillatory gearing mechanism on unloader being positioned at be in the unloader of storage posture, thus can solve the problem.

(solution 18)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described unloader connects into described discharge side end topples over to inside body compared with end, described introduction side when being in described storage posture with described oscillatory gearing mechanism.

(effect of the utility model involved by solution 18 and effect)

According to the utility model involved by above-mentioned solution 18, the mode that the unloader being in storage posture is toppled over to the position compared with end, introduction side inside body with discharge side end is connected to described oscillatory gearing mechanism, therefore has the advantage of the storage posture being easy to stably maintain unloader.

(solution 19)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described oscillatory gearing mechanism is made up of the hydraulic cylinder that can carry out expanding-contracting action.

(effect of the utility model involved by solution 19 and effect)

According to the utility model involved by above-mentioned solution 19, the hydraulic cylinder of expanding-contracting action can be carried out as oscillatory gearing mechanism by using, structure can be made simple.

(solution 20)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described hydraulic cylinder is double-acting.

(effect of the utility model involved by solution 20 and effect)

According to the utility model involved by above-mentioned solution 20, because the hydraulic cylinder forming oscillatory gearing mechanism is double-acting, therefore there is the advantage suitably can carrying out posture changing operation between storage posture and discharge posture to unloader.

That is, if the mode that the unloader being in storage posture is toppled over to the position compared with end, introduction side inside body with discharge side end is connected to described oscillatory gearing mechanism, then with the position upright on swinging center of unloader for boundary, the telescopic direction of hydraulic cylinder takes a turn for the worse in discharge posture side and storage posture side.Now, if the hydraulic cylinder as pendulous device is single-lift, then unloader is when switching from discharge posture to storage posture, such as, unloader is undertaken by the driving of hydraulic cylinder shrinkage direction from discharging posture movements to the process of the stand up position swinging center, after having crossed stand up position, then hydraulic cylinder has extended because of deadweight, thus unloader is inevitable to the transformation of storage posture.In the opposite direction, unloader is have the driving of hydraulic cylinder shrinkage direction to carry out from storage posture movements to the process of stand up position, and hydraulic cylinder extends because of deadweight afterwards, thus unloader must move to discharge posture from stand up position.In this utility model, because hydraulic cylinder is double-acting, therefore do not have above problem, telescopic direction all can be driven by the contraction of hydraulic cylinder and carry out posture changing rapidly.

Therefore, even if the storage posture of unloader and discharge posture and be set in the stand up position clipped on swinging center and the position separated to both sides, the fluctuate operation of unloader can also be carried out rapidly without barrier by the driving force of hydraulic cylinder.

(solution 21)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described hydraulic cylinder is set to when overlooking towards body left and right directions.

(effect of the utility model involved by solution 21 and effect)

According to the utility model involved by above-mentioned solution 21, use hydraulic cylinder can carry out the oscillatory gearing mechanism of fluctuate operation to the unloader towards body left and right directions with simple Structure composing.

(solution 22)

Other technologies scheme according to the utility model for solving above-mentioned problem is, the cylinder barrel of described hydraulic cylinder is connected to described supporting mass, and the piston rod of described hydraulic cylinder is connected to described unloader.

(effect of the utility model involved by solution 22 and effect)

According to the utility model involved by above-mentioned solution 22, supply and discharge with the cylinder barrel that connects of the hydraulic piping such as hydraulic tube can not have significantly fluctuate as unloader, it is connected to the supporting mass erected in vehicle body frame, therefore, with be connected to significantly fluctuate unloader piston rod side compared with, the closer to the side be connected with supporting mass, cylinder barrel is less with the wobbling action amount of the fluctuate of unloader.

Thus, the hydraulic piping being connected to cylinder barrel swings movement amount with the fluctuate of unloader also diminishes.Therefore, without the need to guaranteeing, there is around cylinder barrel the larger redundant space swinging movement for hydraulic piping, being conducive to the densification realizing oscillatory gearing mechanism.

(solution 23)

Other technologies scheme according to the utility model for solving above-mentioned problem is, has the locking mechanism of the storage posture maintaining described unloader.

(effect of the utility model involved by solution 23 and effect)

According to the utility model involved by above-mentioned solution 23, locking mechanism can be utilized to maintain the storage posture of unloader, therefore have in the situations such as the non-operation traveling without the need to carrying out fluctuate operation to unloader, can be easy to unloader to maintain storage posture and to go forward side by side the advantage that line stabilization travels.

(solution 24)

Other technologies scheme according to the utility model for solving above-mentioned problem is, has the receiving portion of bearing the described unloader being in storage posture.

(effect of the utility model involved by solution 24 and effect)

According to the utility model involved by above-mentioned solution 24, there is the advantage of the storage posture being easy to stably maintain unloader by receiving portion.

(solution 25)

Other technologies scheme according to the utility model for solving above-mentioned problem is that described receiving portion is arranged at described supporting mass.

(effect of the utility model involved by solution 25 and effect)

According to the utility model involved by above-mentioned solution 25, supporting mass has receiving portion, therefore has the advantage that supporting mass can be used as the installation unit of receiving portion.

(solution 26)

Other technologies scheme according to the utility model for solving above-mentioned problem is, has the locking mechanism of the storage posture maintaining described unloader, and this locking mechanism is fixed described receiving portion and described unloader.

(effect of the utility model involved by solution 26 and effect)

According to the utility model involved by above-mentioned solution 26, receiving portion is used as a part for locking mechanism, thus there is the advantage realizing the structure simplifying locking mechanism.

(solution 27)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described locking mechanism has the locking pin of the drawer at movable side locking plate running through described receiving portion and be arranged at described unloading pusher side.

(effect of the utility model involved by solution 27 and effect)

According to the utility model involved by above-mentioned solution 27, due to using receiving portion and be arranged at unloading pusher side drawer at movable side locking plate as the component parts of locking mechanism, therefore having only needs additional card shotpin just can with the advantage of simple Structure composing locking mechanism.

(solution 28)

Other technologies scheme according to the utility model for solving above-mentioned problem is, described receiving portion is provided with and inserts for described locking pin during non-through and keep the retaining hole of described locking pin.

(effect of the utility model involved by solution 28 and effect)

According to the utility model involved by above-mentioned solution 28, by being arranged on the retaining hole of receiving portion, can non-through for locking mechanism time the locking pin state of inserting keep locking pin, there is the locking mechanism that can form and the situations such as locking pin loss not easily occur.

Accompanying drawing explanation

Fig. 1 is the right view of all feeding-in combine entirety.

Fig. 2 is the vertical view of all feeding-in combine entirety.

Fig. 3 is the end view of the supporting construction representing paddy case and unloader.

Fig. 4 is the rearview of the supporting construction representing paddy case and unloader.

Fig. 5 is the longitudinal cross-sectional side view of the connecting portion of paddy case and unloader.

Fig. 6 is the rearview representing that the lower support body of supporting mass divides.

Fig. 7 is the cross-sectional plan view representing unloader and supporting construction.

Fig. 8 is the cutaway view of VIII-VIII line in Fig. 3.

Fig. 9 is the schematic diagram of the transmission system represented to paddy case transferring power.

Figure 10 is the key diagram of the position relationship representing Drive Section and discharge clutch.

Figure 11 (a) is overall vertical view and the magnified partial view of the configuration representing various operating parts in Drive Section, and Figure 11 (b) is the front view that part amplifies position, and Figure 11 (c) is the stereogram that part amplifies position.

Figure 12 (a) is the overall perspective view of observing from right back of the installation constitution of the hydraulic cylinder represented across supporting mass and unloader, and Figure 12 (b) is the stereogram of the connecting structure representing the second end.

Figure 13 (a) is the overall perspective view of observing from right front of the installation constitution of the hydraulic cylinder represented across supporting mass and unloader, Figure 13 (b) is the stereogram representing receiving portion part, and Figure 13 (c) is the stereogram representing locking mechanism part.

Figure 14 is the stereogram of the installation constitution of the hydraulic cylinder represented across supporting mass and unloader.

Description of reference numerals

10 vehicle body frames; 30 ancons; A 31 vertical portion; 31a drawer at movable side locking plate; 36 grain discharge openings; 40 supporting masses; 45 receiving portions; 45d retaining hole; 46 locking mechanisms; 46c engages pin; 50 vertical frameworks; 60 oscillatory gearing mechanisms; 61 cylinder barrels; 62 piston rods; A is from walking body; E paddy case; F unloader; The longitudinal transport path of R; X swinging center; Y vertical axis.

Embodiment

Based on figure, embodiment of the present utility model is described below.

(overall structure)

Represented by Fig. 1 and Fig. 2 is all feeding-in combine of an example as combine.

The forward position certainly walking body A that this all feeding-in combine is being travelled by pair of right and left crawler travel device 1 has Drive Section B, extracts pretreating device C, and is being admitted to by extracting the full stalk feeding type sheller unit D of the paddy stalk that pretreating device C extracts, storing the paddy case E of the grain be supplied to from sheller unit D from walking body A has.

Paddy case E by rotating around the vertical axis Y of longitudinal posture of the rear positions certainly walking body A, thus walks the work posture (posture in Fig. 2 represented by solid line) of body A and is supported with freely switching from certainly walking between maintenance posture (posture Fig. 2 represented by imaginary line) that body A crosses out being accommodated in oneself.This paddy case E has unloader F below.Unloader F so that the mode switched can be carried out between discharge side end storage posture upward and discharge side end discharge posture toward the outer side, around the swinging center X freely fluctuate of fore-and-aft direction.And, certainly walking the rearward end of body A, the vehicle body frame 10 being equivalent to the position of the rear position of paddy case E has fuel tank 4.

The lower position of the driver's seat 2 of Drive Section B is provided with engine 3, there is in the middle position of the front portion certainly walking body A the gearbox (not shown) of the crawler travel device 1 driving force from engine 3 being delivered to left and right.This gearbox has the driving force from engine 3 is carried out infinite variable speed stepless speed change device, and in keep and the driving force of the crawler travel device 1 being delivered to left and right disconnected and the steering cluth (not shown) of transmission.

Extract pretreating device C be configured to by the spinning movement of straw shift wheel 5 and lift the fringe slightly side of planting vertical paddy stalk, and cut off the root of this paddy stalk by cutter 6.Laterally transported by the paddy stalk (extracting paddy stalk) that extracts by laterally transporting screw feeder 7 and focus near the entrance in feeding portion 8, this whole stalk rearward transports by feeding portion 8 and is admitted to sheller unit D.And, extract the transverse axis heart (not shown) of pretreating device C around the rearward end side in feeding portion 8 and freely up and down swing.Extract pretreating device C and have actuators (not shown) such as carrying out this hydraulic cylinder swung up and down, by setting the oscillating quantity caused by the action of this actuator, what can regulate paddy stalk extracts height.

(taking Drive Section)

Described Drive Section B has the box like hood 11 of the upside covering described engine 3, at the upper surface of hood 11, there is driver's seat 2.The outside portion of this hood 11 is formed with gas inlet shell 11A, and the exterior side of gas inlet shell 11A is formed with the intake section 11B for sucking cooling air, is equipped with Air Filter at described intake section 11B.

The front side of driver's seat 2 is equipped with console 12, is provided with the operating parts and the turning-bar 13 doubling as the operating parts carrying out the elevating control extracting pretreating device C that double as and carry out from the course changing control walking body A in the upper surface side of console 12.

As shown in Figures 10 and 11, the side panel 14 extended from the left horizontal end position of console 12 to rear side is provided with in the left side of driver's seat 2.The upper surface 14A of the leading section of this side panel 14 is provided with main shift lever 15A and secondary gear lever 15B as the variable speed operation part 15 controlled from the travel speed walking body A.

And, in the upper surface 14A side of side panel 14, than the position of variable speed operation part 15 near rear, left and right state is side by side provided with threshing clutch lever 16A and extracts clutch lever 16B.This threshing clutch lever 16A and extract clutch lever 16B and be configured to carry out joints rupturing operation by the swing of threshing clutch lever 16A operation to the threshing clutch (not shown) of sheller unit D, is operated by the swing extracting clutch lever 16B and carries out connection rupturing operation to the clutch (not shown) that extracts extracting pretreating device C.

And, be positioned at this threshing clutch lever 16A and extract clutch lever 16B rear side panel 14 on be provided with to have installed and discharge the control box 17 of clutch lever 18.Discharging clutch lever 18 is can discharge the state of grain from unloader F for carrying out discharge clutch G described later engaging rupturing operation and stop discharging from unloader F the operating parts switched between the state of grain.

As shown in Figures 10 and 11, control box 17 is set at the position in the portion rearward of side panel 14 bloat upward than the upper surface 14A of side panel 14.The position at control box 17 place in the longitudinal direction than threshing clutch lever 16A with extract position, clutch lever 16B place near the position at rear, and is positioned at the position of the left horizontal sidepiece being equivalent to driver's seat 2.In the lateral direction, the left and right width that control box 17 is positioned at the upper surface 14A of side panel 14 is partial to the side of driver's seat 2.

Control box 17 is provided with the bar guiding piece 17A across its upper surface side and front face side.With along this bar guiding piece 17A by the mode of swinging operation, discharge clutch lever 18 winding be placed in the left and right directions of control box 17 transverse axis heart p1 can swing operatively by pivot suspension.

Thus, as shown in Figure 11 (c), discharge clutch lever 18 and be configured to hold the posture that erects that portion 18a is positioned at top rupturing operation is carried out to discharge clutch G, to fall posture before portion 18a is positioned at front to hold bonding operation is carried out to discharge clutch G.By discharge clutch lever 18 is operated bonding station, discharge the engaged operation of clutch G, the driving force from engine 3 is sent to the bottom screw feeder 21 of paddy case E, and unloader F is driven, thus discharges grain from paddy case E.When discharging clutch lever 18 and being operated into off-position, discharge the cut-off operation of clutch G, the driving force from engine 3 stops transmission, thus stops discharging grain from paddy case E.

As shown in Figure 11 (a) ~ 11 (c), there is at the horizontal sidepiece of the toe lateral of control box 17 the box like switching manipulation portion 17B installed in the mode that the right horizontal side to driver's seat 2 place is outstanding.This switching manipulation portion 17B, for installing the fluctuating console switch 19 (being equivalent to fluctuating operating parts) making unloader F lifting action, the face that 17B anterior forward upward in switching manipulation portion tilts is provided with fluctuating console switch 19.

Fluctuating console switch 19 is set to: for the first press operating part 19a to unloader F transmission climb command with for transmitting the second press operating part 19b of decline instruction in the lateral direction side by side to unloader F, and described second press operating part 19b is positioned at the side (outside body) near driver's seat 2, the first press operating part 19a is positioned at the side (inside body) away from driver's seat 2.By replacing this first press operating part 19a of pressing operation and the second press operating part 19b, fluctuating console switch 19 seesaw type swings.Seesaw type with this fluctuating console switch 19 swings, inside be loaded on being operating as connection (ON) by the switch element (not shown) that restoring type pressure-sensitive switch is formed voluntarily, being disconnected (OFF) in switching manipulation portion 17B, thus export elevating control instruction to the oscillatory gearing mechanism of unloader F and hydraulic cylinder 60.

The discharge clutch lever 18 of such configuration and the horizontal leftward position of fluctuating console switch 19 at the rear portion near driver's seat 2, and discharging the position, bar guiding piece 17A place of clutch lever 18, with adjacent state setting side by side in left-right direction.Therefore, easily operate when the driver be sitting on driver's seat 2 operates fluctuating console switch 19 or discharge clutch lever 18 etc. gropingly with left hand while the undulating state looking back at confirmation of rear view unloader F.

That is, because the position of discharging clutch lever 18 and fluctuating console switch 19 is close to each other, therefore, just can easily confirm to discharge clutch lever 18 and fluctuating console switch 19 position by moving hand a little.And, although by using the discharge clutch lever 18 and fluctuating console switch 19 that mode of operation close to each other is different, can judge that operand discharges clutch lever 18 or fluctuating console switch 19 simply.

It is left side that fluctuating console switch 19 the first press operating part 19b be set to for transmitting climb command to unloader F is positioned near the side of driver's seat 2, and the second press operating part 19a for transmitting decline instruction to unloader F is positioned at the side away from driver's seat 2.Therefore, can realize be the first press operating part 19a with the second press operating part 19b position with topple over to the right in down maneuver and extend outside body, the direction of unloader F action that erects to the left in vertical motion is consistent, thus be easy to reduce maloperation.

And, in when erecting posture above portion of the holding 18a discharging clutch lever 18 is positioned at, opening operation is carried out to discharge clutch G and is in discharge halted state, be positioned at front as portion of the holding 18a discharging clutch lever 18 and in the front time of falling posture, bonding operation carried out to discharge clutch G and is in and can discharges state.Therefore, unloader F is to discharging the conversion of state along with down maneuver, discharge clutch lever 18 also to switch along with falling forward the posture of posture to the operation can discharging state, namely unloader F and eliminating clutch lever 18 are equally along with the action of descent direction, operate consistent sensuously, therefore maloperation is few, and is easy to operation.

The turning-bar 13 being arranged on the upper surface side of console 12 is maintained a neutral stance posture in a non-operating condition, by with this neutral pose for benchmark carries out swinging operation in the lateral direction, be located at the steering cluth of gearbox in control, thus realize from walking turning to (rotation) of body A.And, controlling aforesaid actuator by operating this turning-bar 13 in the longitudinal direction, realizing the lifting extracting pretreating device C.

By operating variable speed operation part 15 in the longitudinal direction, variable speed operation being carried out to stepless speed change device, realizing the change of travel speed.Threshing clutch lever 16A is configured to, by operating in the longitudinal direction, carry out cut-out bonding operation to threshing clutch, and described threshing clutch carries out cut-out or the transmission of power to sheller unit D.Extracting clutch lever 16B is configured to by operating in the longitudinal direction, carries out cut-out bonding operation to extracting clutch, described in extract clutch and carry out power cut or transmission to extracting pretreating device C.

As shown in FIG. 9 and 10, have the discharge clutch G of the discharge system driving force from engine 3 being sent to paddy case E, described discharge clutch lever 18 is connected with this discharge clutch G in the mode operating this discharge clutch G.According to this structure, by this discharge clutch lever 18 is operated bonding station, bonding operation is carried out to discharge clutch G, the driving force from engine 3 is passed to the bottom screw feeder 21 of paddy case E, and then drive unloader F, thus realize the discharge from the grain of paddy case E.

(sheller unit)

Sheller unit D has axial flow type threshing cylinder (not shown) and Screening Treatment device (not shown), described axial flow type threshing cylinder is to extract to what be supplied to threshing chamber the mode that paddy stalk carries out threshing process, rotate around driving along the axle center from the fore-and-aft direction posture walking body A, described Screening Treatment device screens grain from the handled thing obtained through threshing process.Grain screened in this Screening Treatment device is supplied to paddy case E by device 9 of winnowing, and the grass bits etc. beyond grain fall discharge from the rear portion of Screening Treatment device to the rear certainly walking body A.

(paddy case)

As shown in Fig. 1 and Fig. 3 ~ Fig. 6, described paddy case E has the bottom screw feeder 21 rearward sent by the grain being stored in box main body 20 in the bottom of box main body 20.Be accommodated under the work posture walking body A, the major part of the diapire 20A of box main body 20 is formed as in the lateral direction to the mode that the outside certainly walking body A flows down the inclined plane that position is lower more in the outer part with the grain stored.By such structure, the position deflection of bottom screw feeder 21 is from the outside walking body A.

As shown in Figure 9, the front end of the screw conveyor shaft 21A of bottom screw feeder 21 is forwards given prominence to from the antetheca 20f of box main body 20, and the jackshaft 22 of horizontal posture is connected to this outstanding position via bevel gear 21B.

Engine power is delivered to this jackshaft 22 via the output shaft 3a of engine 3, belt gear 23 and power shaft 24.Jackshaft 22 is positioned at the lower front of box main body 20 along the antetheca 20f of case body 20.

Described discharge clutch G is configured to belt tension formula, switches transmission for the driving force of belt gear 23 or disconnection by the switching between belt tension state and relaxed state.Discharge clutch lever 18 carries out power disconnection or transmission by the tensioning of the belt regulating belt gear 23.

Described discharge clutch G is configured to belt tension formula, by the switching between belt tension state and relaxed state, carries out driving force transmission and cut-out to belt gear 23.Discharge clutch lever 18 carries out power transmission and disconnection by the tensioning of the belt regulating belt gear 23.

The rear end of screw conveyor shaft 21A of bottom screw feeder 21 compared with the rear wall 20r of box main body 20 backward side give prominence to, the axle center of this screw conveyor shaft 21A and the swinging center X of unloader F consistent with each other.

Unloader F has ancon 30 in the end, introduction side of the upstream side being equivalent to grain carriage direction, and is connected with the vertical cylinder portion 31 of the straight tube-like of the longitudinal transport path R forming linearity in the downstream of the carriage direction of this ancon 30.

The rear wall 20r of box main body 20 is fixedly connected with discharge cylinder portion 41C integratedly with rearward outstanding state, and described discharge cylinder portion 41C has the grain outlet 20B grain transported by bottom screw feeder 21 being transported to unloader F.The lower support body that this discharge cylinder portion 41C doubles as supporting mass 40 described later divides a part of 41, be formed as having the cylindrical shape of the internal diameter of the close rear wall 20r side a little taper less the closer to the grain outlet 20B side away from rear wall 20r, the axle center of its central axis and screw conveyor shaft 21A and the swinging center X of unloader F match.

Therefore, be embedded in the large diameter portion of the inner circumferential side of the rear end side being formed in discharge cylinder portion 41C by the end of the carriage direction upstream side making the ancon 30 of the oscillation center side being positioned at unloader F, the entirety comprising the unloader F of this ancon 30 can carry out wobbling action centered by described swinging center X.

As described in Fig. 3 and Fig. 5, ancon 30 has the introducing cylinder portion 30A and the export cylinder portion 30B orthogonal and connected with this introducing cylinder portion 30A that are embedded in discharge cylinder portion 41C from rear.

Therefore, ancon 30 is embedded in the discharge cylinder portion 41C be fixed on box main body 20 rotatably mountedly, and by flange part 32 and hook-shaped check plate 33 engaging diametrically of the peripheral part that is formed at introducing cylinder portion 30A, prevent from coming off in the axial direction, described hook-shaped check plate 33 makes three places be bolted in the rearward end circumference of discharge cylinder portion 41C.

(supporting construction)

Below the supporting construction of supporting mass 40 and the vertical framework 50 of use is described.

As shown in Figure 3 and Figure 6, supporting mass 40 is formed as column, has the lower support body supporting aforesaid tubular discharge cylinder portion 41C and divides 41 and be fixed on this lower support body integratedly and divide the cylindric upper support body on 41 tops to divide 42.

In supporting mass 40, lower support body divides 41 to have the hinge portion 41D embedding and be arranged at the supporting bore 10a of the above-below direction at vehicle body frame 10 rear portion in bottom, and is supported on vehicle body frame 10 rotatably mountedly.

The central axis of this hinge portion 41D and upper support body divide the central axis at the cylindric position of 42 to be positioned on same line each other, and these central axis constitute center of rotation and the vertical axis Y of paddy case E.That is, vertical axis Y becomes the center of rotation of the supporting mass 40 self that the central axis of hinge portion 41D and upper support body divide the central axis at the cylindric position of 42 consistent with the center overlooking area of supporting mass 40.And paddy case E is connected to the upper end of this supporting mass 40 via connection metal part 25, by being integrally constituted rotation, described vertical axis Y becomes the center of rotation of paddy case E.

Like this, the upper side of paddy case E is connected to the upper end of supporting mass 40 by connection metal part 25, and the lower support body that lower side is supported on supporting mass 40 via the discharge cylinder portion 41C being fixed on box main body 20 divides 41.Thus, paddy case E is can rotate around the center of rotation of supporting mass 40 and vertical axis Y in the state of upper and lower two-side supporting in supporting mass 40.

Lower support body divide 41 by have grain outlet 20B tubular discharge cylinder portion 41C, be formed at this tubular discharge cylinder portion 41C upper half side upside foot 41A, be formed at lower half side downside foot 41B, embed the hinge portion 41D of the supporting bore 10a of vehicle body frame 10 and be integrally formed and obtain.

The upper end side of upside foot 41A is connected to the bottom that upper support body divides 42, and lower end side and the upper half side of tubular discharge cylinder portion 41C are integrally formed.Upper end side and the lower half side of tubular discharge cylinder portion 41C of downside foot 41B are integrally formed, and bottom and hinge portion 41D are integrally formed.

As shown in Figure 6, lower support body divides 41 to be positioned at the mode of the position dividing the central axis at the cylindric position of 42 and the right outside side side skew of vertical axis Y-direction body from upper support body with the introducing cylinder portion 30A of the ancon 30 of the tubular discharge cylinder portion 41C and unloader F that are located thereon the pars intermedia in lower direction, the shape bent when being formed as backsight.That is, upper support body is made to divide the bottom of 42 to be obliquely installed in the mode be located outside body the closer to 41C side, tubular discharge cylinder portion with the downside foot 41B making the lower half side of tubular discharge cylinder portion 41C be connected with the upper end of hinge portion 41D with the upper half side upside foot 41A be connected of tubular discharge cylinder portion 41C.

Like this, although the introducing cylinder portion 30A of the ancon 30 of tubular discharge cylinder portion 41C, unloader F is positioned at the position dividing the right outside side side skew of the central axis Ji Zong center Y-direction body at the cylindric position of 42 from upper support body, but when overlooking as shown in Figures 7 and 8, divide the cylindrical portion of 42 overlapping with upper support body.Therefore, in the lateral direction, the upper support part 42 of supporting mass 40 is relative to the introducing cylinder portion 30A of the ancon 30 of unloader F to the inner side displacement certainly walking body A, but displacement is less.

Its result, the swinging center X of the introducing cylinder portion 30A of the ancon 30 of unloader F and upper support body can be divided the distance L2 between the central axis at the cylindric position of 42 and vertical axis Y to be set as dividing the radius sum of 42 little than the radius of introducing cylinder portion 30A and upper support body, therefore, it is possible to make the introducing cylinder portion 30A of the ancon 30 of supporting mass 40 and unloader F arrange more close in the lateral direction.

Supporting mass 40 is also connected to the vertical framework 50 erected on vehicle body frame 10.

Vertical framework 50 is formed as rectangular cylindrical, and bottom bolt connects and is fixed on vehicle body frame 10.The cross-frame member 51 extended to the horizontal sidewall of the sheller unit D being positioned at left side is connected to the upper end of this vertical framework 50, and the elongated end of cross-frame member 51 is connected and fixed on the horizontal sidewall of sheller unit D.

And the vertical upper end of framework 50 divides the above-below direction centre position of 42 to be connected by rotating engagement 52 with the upper support body of supporting mass 40.As shown in Fig. 4 and Fig. 7, this rotating engagement 52 is made up of band plate-like parts, these band plate-like parts are wound onto the periphery that upper support body divides the cylindric position of 42, supported with the state of encircling, while the rotation of permission supporting mass 40, in the horizontal direction position limitation is carried out to supporting mass 40.

(unloader)

Unloader F has vertical cylinder portion 31, and this vertical cylinder portion 31 is connected with the grain carriage direction downstream of the ancon 30 being positioned at end, introduction side.

Vertical cylinder portion 31 has the expelling tube 34 of straight tube-like in the mode of the longitudinal transport path R at Inner Constitution linearity and is arranged at the discharge screw feeder 35 of this expelling tube 34 inside, and have grain discharge opening 36 in discharge side end, grain guides to the direction orthogonal with the length direction of expelling tube 34 by this grain discharge opening 36.

Unloader F is configured to freely switch between discharge side end storage posture upward and discharge side end discharge posture toward the outer side.

As shown in Figure 4, under storage posture, the central axis Z (being equivalent to an axle center) in vertical cylinder portion 31 topples over slightly toward the inner side certainly walking body A relative to plumb line.Therefore, indulging a portion 31 when backsight is the posture tilted to the left.Under discharge posture, the central axis Z in vertical cylinder portion 31 is the posture a little near top compared with horizontal line, indulges the inclination attitude risen for right side in a portion 31 when backsight.

The base end side of discharging screw feeder 35 is configured to the double helix forming two helical members on screw conveyor shaft 35A, reliably can transport grain at this base end side.It should be noted that, screw conveyor shaft 35A is supported to and rotates freely centered by central axis Z.

A part of the screw conveyor shaft 21A of bottom screw feeder 21 inserts the introducing cylinder portion 30A inside of ancon 30, and the export cylinder portion 30B discharging the part insertion ancon 30 of screw feeder 35 is inner.The bevel gear mechanism 37 with the bevel-gear sett 37G rotated around mutually orthogonal axle center is set in ancon 30 inside, thus the driving force of this screw conveyor shaft 21A is delivered to the screw conveyor shaft 35A discharging screw feeder 35.

According to this drive structure, the driving force of bottom screw feeder 21 can be passed to via the bevel gear mechanism 37 of ancon 30 and discharge screw feeder 35.Discharge screw feeder 35 thereby, it is possible to be transported to from bottom screw feeder 21 by the grain of paddy case E, and discharge from the grain discharge opening 36 of the transport terminal of unloader F.

In this unloader F, when observing paddy case E from rear, the direction of rotation of bottom screw feeder 21 is to anticlockwise (counterclockwise).Therefore, when carrying out grain from unloader F, make this unloader F in storage posture, lift the moment of torsion in direction to vertical cylinder portion 31 effect of unloader F.

In this combine, the oscillation center of paddy case E and the central axis of supporting mass 40 and vertical axis Y are arranged at the position of the rear wall 20r near paddy case E.With this vertical axis Y for benchmark, the swinging center X of the axle center of screw conveyor shaft 21A and unloader F to be arranged on than this vertical axis Y from the position walked near lateral outer side on body A left and right directions, the central axis Z of unloader F is set in than the position of vertical axis Y near rear.

Like this, swinging center X is arranged at the lateral outer side from walking body A compared with vertical axis Y, and bottom screw feeder 21 is set to the lateral outer side skew to certainly walking body A, so the entirety of unloader F configures near from the outside portion walking body A.Under making the discharge side end of unloader F swing to the discharge posture in outside, effectively can utilize the length in the vertical cylinder portion 31 of unloader F, make grain outlet 20B be positioned at the position away from the end certainly walking body A and discharge grain.

And, as shown in Figure 4, under the state that paddy case E is in work posture and unloader F is in storage posture, the position of some overlap when the vertical cylinder portion 31 of supporting mass 40 and unloader F is arranged on backsight.Thereby, it is possible to make supporting mass 40 and unloader F close on the width walking body A, thus the space for arranging supporting mass 40 and unloader F can be saved.

(driving swing mechanism)

Below, the oscillatory gearing mechanism making unloader F fluctuate is described.

Oscillatory gearing mechanism is made up of two ejector half hydraulic cylinders 60 of telescopic drive.As shown in Figures 3 to 5, hydraulic cylinder 60 is located at unloader F and erects the supporting mass 40 on vehicle body frame 10.

That is, cylinder barrel 61 upper end being positioned at hydraulic cylinder 60 end side is connected to supporting mass 40 side, and piston rod 62 bottom being positioned at another side is connected to unloader F side.Below, the end of cylinder barrel 61 side is called first end, the end of piston rod 62 side is called the second end.

The pars intermedia position of the above-below direction of the supporting mass 40 connected at the first end of cylinder barrel 61 has tubular installation portion 40A, and this tubular installation portion 40A relatively rotates and is embedded in supporting mass 40 freely outward.This tubular installation portion 40A is used for installing bracket for mounting 44 described later and receiving portion 45.

Tubular installation portion 40A is positioned at the downside of the connecting portion being fastened on vertical framework 50 on vehicle body frame 10 and supporting mass 40 with the rotating engagement 52 of band plate-like in the installation position of supporting mass 40.The upper end side of tubular installation portion 40A is connected to the lower end side of rotating engagement 52, be fixed on the rotating engagement 52 of the band plate-like of vertical framework 50 also as preventing tubular installation portion 40A from departing from from top, and the mechanism limiting tubular installation portion 40A movement downwards works.

The first end of cylinder barrel 61 swings the bracket for mounting 44 being freely connected to the peripheral part being arranged on this tubular installation portion 40A via connecting pin 63.

The end and the second end that are positioned at the piston rod 62 of another side of hydraulic cylinder 60 swing the connection bracket 39 being freely connected to and being arranged in the vertical cylinder portion 31 of unloader F around connecting pin 64.Be embedded in position adjacent with ancon 30 in the vertical cylinder portion 31 of unloader F outside this connection bracket 39, and be installed on the strengthening part 38 of soldered fixing tubular.

In the hydraulic cylinder 60 so arranged, the first end be connected with supporting mass 40 is positioned at top and is positioned at the inner side from walking body A, and the second end be connected with unloader F is positioned at below and is positioned at the lateral outer side from walking body A.

As shown in Figure 3, the vertical axis Y of the supporting mass 40 on rear side of paddy case E is erected on during side-looking parallel with the central axis Z in the vertical cylinder portion 31 of unloader F.Unloader F separates the closely-spaced of regulation with supporting mass 40 in the longitudinal direction, and hydraulic cylinder 60 is arranged to be had in this closely-spaced space, centre line C L parallel with the central axis Z in the vertical cylinder portion 31 of unloader F with the vertical axis Y of supporting mass 40 when having a side-looking.

That is, the bracket for mounting 44 of supporting mass 40 side is rearward given prominence to than the end edge of the outer peripheral face of supporting mass 40 when side-looking, and the front-end edge of vertical cylinder portion 31 outer peripheral edges of connection bracket 39 when side-looking than unloader F of unloader F side is forwards given prominence to.Being connected to bracket for mounting 44 and the hydraulic cylinder 60 of connection bracket 39, to be mounted to its centre line C L when side-looking parallel or almost parallel with described vertical axis Y and central axis Z.

The swinging center X of unloader F is orthogonal with described vertical axis Y, central axis Z and centre line C L.Therefore, the possibility that when avoiding the unloader F fluctuate along with the flexible of hydraulic cylinder 60, hydraulic cylinder 60 is interfered with unloader F and supporting mass 40.

As shown in Figure 4, when backsight, the vertical cylinder portion 31 of unloader F, under unloader F is in storage posture, is accepted by receiving portion 45 described later with the state that its central axis Z topples over from the inner side walking body A a little relative to the vertical axis Y-direction of the supporting mass 40 erected on rear side of paddy case E.

Under this storage posture, the centre line C L of hydraulic cylinder 60, compared with the inclination of the central axis Z in the vertical cylinder portion 31 of unloader F, more tilts to the inner side certainly walking body A.

That is, the bracket for mounting 44 of supporting mass 40 side that the first end of hydraulic cylinder 60 connects is given prominence to than the outer peripheral face of supporting mass 40 to the right when backsight, and connecting pin 63 is positioned at right side ora terminalis than the outer peripheral face of supporting mass 40 near the position on right side.And the outer peripheral face of connection bracket 39 when backsight also than unloader F of the unloader F side that the second end of hydraulic cylinder 60 connects is given prominence to the right, connecting pin 64 is positioned at right side ora terminalis than the outer peripheral face of unloader F near the position on right side.The swinging center X of unloader F than the vertical axis Y of supporting mass 40 closer to the lateral outer side certainly walking body A.Its result, the left side lateral margin that vertical axis Y and swinging center X position deviation amount is in the lateral direction greater than the unloader F at the position, swinging center X place of unloader F and the left side lateral margin position deviation amount in the lateral direction of the unloader F at position contacted with receiving portion 45.Therefore, the unloader F inclined degree that supports than sustained portion 45 of hydraulic cylinder 60 is larger.

The inclination of hydraulic cylinder 60 contribute to the telescopic direction of hydraulic cylinder 60 to be set as make unloader F swimmingly fluctuate time make the line of force of hydraulic cylinder 60 close to the direction orthogonal with the central axis Z in the vertical cylinder portion 31 of unloader F as far as possible.And, owing to being provided with more outstanding than the right side ora terminalis of supporting mass 40 outer peripheral face and being connected with the bracket for mounting 44 of the first end of hydraulic cylinder 60, therefore, such as, compared with more outstanding than the left side ora terminalis of supporting mass 40 outer peripheral face with this bracket for mounting 44 situation, effectively can try one's best and shorten the length of hydraulic cylinder 60.

The second end of hydraulic cylinder 60 is connected to the connection bracket 39 be arranged on the strengthening part 38 of tubular, is embedded in position adjacent with ancon 30 in the vertical cylinder portion 31 of unloader F outside the strengthening part 38 of described tubular.Like this, connected by the position near ancon 30 in vertical cylinder portion 31, reduce the radius of turn of the second end around the track r1 of the swinging center X movement of unloader F, thus effectively can reduce the stroke of hydraulic cylinder 60.

(connecting structure of first end)

The structure with the tubular installation portion 40A of the receiving portion 45 of the bracket for mounting 44 be connected with the first end of hydraulic cylinder 60 and the storage posture supporting unloader F is as follows.

Be embedded in the outer peripheral face of supporting mass 40 and the cartridge 43 of the cylindrical shape be welded and fixed outside tubular installation portion 40A has, the outer peripheral face of this cartridge 43 is provided with bracket for mounting 44 and receiving portion 45.

As previously mentioned, the state that supporting mass 40 encircles its top with the rotating engagement 52 of band shape can be supported in relative rotation, and described rotating engagement 52 is installed on the vertical framework 50 be fixed on vehicle body frame 10.Therefore, supporting mass 40 position is in the horizontal direction limited, and supporting mass 40 can rotate relative to vehicle body frame 10.Now, tubular installation portion 40A also rotates together with supporting mass 40.

The bracket for mounting 44 of tubular installation portion 40A is arranged on top than receiving portion 45.As shown in Figure 12 to 14, bracket for mounting 44 is made up of open sides channel-shaped parts down, and the outer peripheral face excision that its horizontal sidepiece has along cartridge 43 is the horizontal end limit 44a of arc-shaped.

This horizontal end limit 44a is soldered with the state of the outer peripheral face being connected to cartridge 43, thus bracket for mounting 44 is integrally fixed on cartridge 43.

The length direction of bracket for mounting 44 is left and right directions, and more protruding outside to the horizontal right side than the horizontal margo dexter of supporting mass 40 during backsight, is formed with the inserting hole 44b of the connecting pin 63 for the first end of connecting fluid cylinder pressure 60 at this outstanding position.

At the peripheral part of cartridge 43, be provided with the receiving portion 45 of the storage posture supporting unloader F than the position on the lower, position being provided with bracket for mounting 44.

As shown in Figure 12 (a), 12 (b), receiving portion 45 is made up of the plate body being formed with reception curved recessed portion 45a and installation curved recessed portion 45b, described reception curved recessed portion 45a be in the storage posture of toppling over to the inner side certainly walking body A unloader F vertical cylinder portion 31 outer peripheral face in opposite directions, the outer peripheral face of described installation curved recessed portion 45b and supporting mass 40 is in opposite directions.

The plate body forming receiving portion 45 is formed along the plane in the direction orthogonal with the central axis in the vertical cylinder portion 31 being in the unloader F receiving posture.The state that this plate body abuts with the roughly half cycle of supporting mass 40 outer peripheral face with installation curved recessed portion 45b is soldered, thus plate body is fixed on supporting mass 40.

At reception curved recessed portion 45a, along gulf bent recess 45a inner peripheral and the whole abutting plate member 45c being welded with arc-shaped up and down of plate body, described abutting plate member 45c be in the outer peripheral face in the vertical cylinder portion 31 of receiving posture in opposite directions.Abut plate 45c by arranging like this, the area contacted with the outer peripheral face in the vertical cylinder portion 31 of unloader F increases.Its result, the outer peripheral face in vertical cylinder portion 31 possibility that is impaired, distortion diminishes.

The pin-and-hole 46b of the fixation side locking plate 46a that receiving portion 45 is provided with the channel-shaped for forming locking mechanism 46 and the plate body running through this fixation side locking plate 46a and receiving portion 45.In the outer peripheral face side in the vertical cylinder portion 31 of unloader F, and when unloader F is in storage posture and the position of upper side superimposed of described fixation side locking plate 46a be also provided with drawer at movable side locking plate 31a.On this drawer at movable side locking plate 31a, and the position corresponding with the pin-and-hole 46b of fixation side locking plate 46a side is also formed with pin-and-hole 31b when unloader F is in storage posture.

Be formed at fixation side locking plate 46a by described fixation side locking plate 46a, drawer at movable side locking plate 31a and running through, the L shape of pin-and-hole 46b, 31b of drawer at movable side locking plate 31a engages pin 46c and be configured for receiving the locking mechanism 46 that posture fixes unloader F.

Near the position of a laterally sidepiece of fixation side locking plate 46a in receiving portion 45, be also formed when unloader F not being fixed for inserting the retaining hole 45d of locking pin 46c.

(connecting structure of the second end)

The structure of the connection bracket 39 that the second end of hydraulic cylinder 60 connects is as follows.

As shown in 12 and Figure 14, connection bracket 39 is installed on the strengthening part 38 of tubular, and described strengthening part 38 is outer is fixed on position adjacent with ancon 30 in the vertical cylinder portion 31 of unloader F.

This connection bracket 39 has the first component 39A of the open channel-shaped of rear side, and this first component 39A is along the tangential direction tangent with the outer peripheral face of strengthening part 38, outstanding to the laterally right side away from strengthening part 38.With the jag of this first component 39A in opposite directions and orthogonal direction is connected with the second component 39B that cross section is crank-like, the 3rd parts 39C of channel-shaped open above the leading section of second component 39B is connected with.

And between the upper lower wall portion of first component 39A, flat 4th parts 39D is by welding across the outer peripheral face and the second component 39B that are fixed on strengthening part 38.Connection bracket 39 is formed by these first components 39A, second component 39B, the 3rd parts 39C, the 4th parts 39D.

The length direction of first component 39A is the left and right directions orthogonal with the swinging center X of unloader F, and is set to from the outer peripheral face of the strengthening part 38 the vertical cylinder portion 31 of the unloader F being in storage posture outstanding to the lateral outer side certainly walking body A.

The length direction of second component 39B extends along the direction of the swinging center X of unloader F, and with the outstanding front end of the standing piece part 39Ba in crank-like cross section and first component 39A in opposite directions, and the lower face side state in opposite directions of the horizontal direction sheet part 39Bb in crank-like cross section and first component 39A is welded and fixed second component 39B.And this second component 39B more forwards gives prominence to than the front-end edge of strengthening part 38 outer peripheral face in the vertical cylinder portion 31 of unloader F when side-looking.

3rd parts 39C is set to the grain discharge direction of open sides towards unloader F of its channel-shaped.And the 3rd parts 39C is fixedly welded on standing piece part 39Ba and the horizontal direction sheet part 39Bb of second component 39B at the position that the front-end edge than strengthening part 38 outer peripheral face is more outstanding.

The described 3rd parts 39C of the connection bracket 39 formed like this is formed with through hole 39Ca, and described through hole 39Ca has the center line of the fore-and-aft direction of the swinging center X along unloader F.The second end of hydraulic cylinder 60 is connected with described 3rd parts 39C via the connecting pin 64 being inserted through this through hole 39Ca in the mode that can swing.

Be arranged on the connection be connected with the second end is positioned at the connecting pin 63 of the bracket for mounting 44 be connected with first end below with the connecting pin 64 on bracket 39, and be positioned at the lateral outer side from walking body A.Therefore, hydraulic cylinder 60 to be set in each end of telescopic direction first end than the second end inside body and than the second end near top, the telescopic direction of hydraulic cylinder 60 is the left and right directions from walking body A when overlooking.

As shown in Figure 4, the position of the connecting pin 64 of the second end of the hydraulic cylinder 60 arranged like this is than connecting the line segment L1 of the connecting pin 63 of first end side and the swinging center X of unloader F near the lateral outer side certainly walking body A.Therefore, hydraulic cylinder 60 is punctured into the shortest under storage posture, stretches out for the longest under discharge posture.

Unloader F, from discharging posture in the process that storage posture changes, crossing the position on the plumb line of this swinging center X from upright state on the plumb line of the swinging center X of unloader F, then becoming the storage posture of toppling over slightly toward the inner side certainly walking body A.

At unloader F from discharging posture until in rising oscillating stroke upright on the plumb line of swinging center X, the grease chamber's supply pressure oil on the downside of the cylinder barrel 61 of the hydraulic cylinder 60 of wobble drive unloader F.Meanwhile, piston rod 62 can be moved to shrinkage direction from grease chamber's discharge pressure oil of upside.Now, the weight that unloader F gets back to the direction of discharging posture side is always acted on to the grease chamber of the downside of hydraulic cylinder 60, when unloader F is upright, the party's weight vanishing upwards.

Cross the position of the plumb line standing on swinging center X at unloader F and change in the oscillating stroke of storage posture, along with the banking motion of unloader F to storage posture side, the weight of unloader F makes it press to shrinkage direction to piston rod 62 effect.

Therefore, in the oscillating stroke changed to this storage posture, the responsiveness of hydraulic cylinder 60 may accelerate, but by controlling the oil extraction speed of grease chamber (not shown) discharge pressure oil on the upside of cylinder barrel 61, can the responsiveness of regulator solution cylinder pressure 60.

At unloader F from the decline of the state to the plumb line standing on swinging center X that are in storage posture swings, the grease chamber's supply pressure oil on the upside of cylinder barrel 61.Meanwhile, piston rod 62 can be moved to prolonging direction from downside grease chamber (not shown) discharge pressure oil.

Now, the weight that unloader F gets back to the direction of storage posture side is always acted on to the grease chamber on the upside of hydraulic cylinder 60, when unloader F is upright, the party's weight vanishing upwards.

Cross the position of the plumb line standing on swinging center X at unloader F and change in the oscillating stroke of discharging posture, along with unloader F to the banking motion of discharging posture side, the weight of unloader F makes it pull out to prolonging direction to piston rod 62 effect.

Therefore, in the oscillating stroke changed to this discharge posture, the responsiveness of hydraulic cylinder 60 may accelerate, but by controlling the oil extraction speed of grease chamber's discharge pressure oil on the downside of cylinder barrel 61, can the responsiveness of regulator solution cylinder pressure 60.

If hydraulic cylinder 60 is single-lift, is then being configured to as mentioned above can not drive smoothly in the unloader A received slightly toward toppling over from the inner side walking body A, but if double-acting, is not then having the problems referred to above.

That is, if hydraulic cylinder 60 is single-lift and has the structure of the grease chamber's supply pressure oil on the downside of cylinder barrel 61, then to grease chamber's supply pressure oil of upside, therefore can not can not carry out unloader F and swing from the decline of the state to the plumb line standing on swinging center X that are in storage posture.

If hydraulic cylinder 60 is single-lift and has the structure of the grease chamber's supply pressure oil on the upside of cylinder barrel 61, then to downside grease chamber supply pressure oil, therefore can not can not carry out unloader F and swing from the rising of the state to the plumb line standing on swinging center X that are in discharge posture.

Hydraulic cylinder 60 of the present utility model is double-acting, therefore, it is possible to supply pressure oil to the grease chamber of either side in the upper side and lower side of cylinder barrel 61.Therefore, it is possible to carry out wobble drive to the unloader A being configured to receive slightly toward toppling over from the inner side walking body A without barrier.

(other embodiment 1)

In embodiment of the present utility model, adopt hydraulic cylinder 60 as the oscillatory gearing mechanism for making unloader F fluctuate, but be not limited to this.

Such as, as oscillatory gearing mechanism, also can be the metal wire being rolled the vertical cylinder portion 31 being connected to unloader F by winch, and on both forward and reverse directions, be driven the device of this winch by electro-motor.

Other structure can adopt the structure identical with above-mentioned embodiment.

(other embodiment 2)

In embodiment of the present utility model, enumerate the structure that supporting mass 40 freely rotates relative to vehicle body frame 10 together with paddy case E, but be not limited to this.

Also can be example structure described as follows: supporting mass 40 is fixed on vehicle body frame 10, installing between the connection metal part 25 connecting supporting mass 40 and paddy case E and described supporting mass 40 can parts of bearings etc. in relative rotation, and paddy case E relatively rotates relative to supporting mass 40.

Other structure can adopt the structure identical with above-mentioned embodiment.

(other embodiment 3)

In embodiment of the present utility model, for making the hydraulic cylinder 60 of unloader F fluctuate be located at supporting mass 40 and unloader F, but be not limited to this.

Such as, can adopt, across being disposed on supporting mass 40, the suitable structure such as hydraulic cylinder is set from the parts of the correct position walked on body A and unloader F.

Other structure can adopt the structure identical with above-mentioned embodiment.

(other embodiment 4)

In embodiment of the present utility model, the receiving portion 45 being used for the storage posture maintaining unloader F is arranged on supporting mass 40, but is not limited to this.

Such as, also can form receiving portion 45 with the other parts being different from supporting mass 40, and receiving portion 45 be arranged on from other positions walked on body A instead of be arranged at supporting mass 40.

Other structure can adopt the structure identical with above-mentioned embodiment.

(other embodiment 5)

In embodiment of the present utility model, enumerate following structure: the bracket for mounting 44 of supporting mass 40 side is more rearward given prominence to than the end edge of supporting mass 40 outer peripheral face when side-looking, the first end of hydraulic cylinder 60 is connected to this bracket for mounting 44, but is not limited to this.

Such as, the first end that also can be set to hydraulic cylinder 60 when side-looking and supporting mass 40 partly overlap.The first end that the degree of this overlap is preferably hydraulic cylinder 60 is connected on rear side of the body of the vertical axis Y of supporting mass 40.

Other structure can adopt the structure identical with above-mentioned embodiment.

(other embodiment 6)

In embodiment of the present utility model, enumerate following structure: the front-end edge of vertical cylinder portion 31 outer peripheral edges of connection bracket 39 when side-looking than unloader F of unloader F side is more forwards given prominence to, the first end of hydraulic cylinder 60 is connected to this connection bracket 39, but is not limited to this.

Such as, the second end that also can be set to hydraulic cylinder 60 when side-looking and unloader F partly overlap.The second end that the degree of this overlap is preferably hydraulic cylinder 60 is connected on front side of the body of the central axis Z of unloader F.

Other structure can adopt the structure identical with above-mentioned embodiment.

(other embodiment 7)

In embodiment of the present utility model, the structure that the discharge side end of having enumerated unloader F is toppled over to the inner side certainly walking body A when being in storage posture, but be not limited to this.

Such as, also can be configured to its discharge side end when unloader F is in storage posture and stand on the state of the swinging center X of unloader F, or the outside be configured to slightly toward certainly walking body A is toppled over.

Other structure can adopt the structure identical with above-mentioned embodiment.

(other embodiment 8)

In embodiment of the present utility model, having enumerated the hydraulic cylinder 60 carrying out expanding-contracting action is dbl act situation, but limit is not in this, also can adopt single-acting hydraulic cylinder 60.In this case, if the discharge side end being configured to unloader F is toppled over to the inner side certainly walking body A under storage posture, then the force application spring etc. making the unloader F being in storage posture get back to the position standing on swinging center X is preferably set.

Other structure can adopt the structure identical with above-mentioned embodiment.

(other embodiment 9)

In embodiment of the present utility model, locking mechanism 46 is located at unloader F and supporting mass 40, but is not limited to this.

Such as, also locking mechanism 46 can be arranged on unloader F and between the parts of correct position certainly walking body A.

Other structure can adopt the structure identical with above-mentioned embodiment.

(other embodiment 10)

In embodiment of the present utility model, cylinder barrel 61 side of hydraulic cylinder 60 is connected to supporting mass 40, piston rod 62 is connected to unloader F side, but is not limited to this.

Such as, also can be that cylinder barrel 61 side is connected to unloader F side, piston rod 62 is connected to the structure of supporting mass 40 side.

Other structure can adopt the structure identical with above-mentioned embodiment.

Industrial applicibility

The utility model is not only applicable to all feeding-in combine, also goes for half feed combine harvester.

Claims (34)

1. a combine, its from walk body (A) has store grain paddy case (E), for discharging the unloader (F) of the grain in described paddy case (E),

The terminal part that described unloader (F) is configured to indulging transport path (R) from the linearity of end, introduction side to the discharge side end be connected with the grain outlet (20B) of described paddy case (E) is formed with grain discharge opening (36), and between described discharge side end storage posture upward and described discharge side end discharge posture toward the outer side, freely switch posture

Described unloader (F) has the oscillatory gearing mechanism (60) making described unloader (F) fluctuate,

Described oscillatory gearing mechanism (60) is located at supporting mass (40) and described unloader (F), and described supporting mass (40) is arranged on described from walking on body (A),

Described supporting mass (40) is arranged at the rear side of described paddy case (E) when backsight.

2. combine as claimed in claim 1, is characterized in that,

The position that the link position of described oscillatory gearing mechanism (60) in described unloader (F) side is connected with described supporting mass (40) lower than described oscillatory gearing mechanism (60).

3. combine as claimed in claim 1, is characterized in that,

Described unloader (F) has the ancon (30) be connected with the grain outlet (20B) of described paddy case (E) in end, described introduction side, and be connected with on the downside of the transport of this ancon (30) and form the vertical cylinder portion (31) that described linearity indulges transport path (R), described oscillatory gearing mechanism (60) is connected to described vertical cylinder portion (31).

4. combine as claimed in claim 2, is characterized in that,

Described unloader (F) has the ancon (30) be connected with the grain outlet (20B) of described paddy case (E) in end, described introduction side, and be connected with on the downside of the transport of this ancon (30) and form the vertical cylinder portion (31) that described linearity indulges transport path (R), described oscillatory gearing mechanism (60) is connected to described vertical cylinder portion (31).

5. combine as claimed in claim 3, is characterized in that,

Described oscillatory gearing mechanism (60) is connected near the connecting portion that is connected with described ancon (30) in described vertical cylinder portion (31).

6. combine as claimed in claim 4, is characterized in that,

Described oscillatory gearing mechanism (60) is connected near the connecting portion that is connected with described ancon (30) in described vertical cylinder portion (31).

7. the combine according to any one of claim 1 ~ 6, is characterized in that,

Described oscillatory gearing mechanism (60) is made up of the hydraulic cylinder (60) that can carry out expanding-contracting action.

8. combine as claimed in claim 7, is characterized in that,

Described hydraulic cylinder (60) is double-acting.

9. combine as claimed in claim 8, is characterized in that,

Described hydraulic cylinder (60) is set to when overlooking towards body left and right directions.

10. combine as claimed in claim 8, is characterized in that,

The cylinder barrel (61) of described hydraulic cylinder (60) is connected to described supporting mass (40), and the piston rod (62) of described hydraulic cylinder (60) is connected to described unloader (F).

11. combines as claimed in claim 9, is characterized in that,

The cylinder barrel (61) of described hydraulic cylinder (60) is connected to described supporting mass (40), and the piston rod (62) of described hydraulic cylinder (60) is connected to described unloader (F).

12. combines according to any one of claim 1 ~ 6,8 ~ 11, is characterized in that,

Described unloader (F) is arranged at the rear side of described paddy case (E),

Described oscillatory gearing mechanism (60) is connected to described supporting mass (40) at the rear side of described paddy case (E).

13. combines as claimed in claim 12, is characterized in that,

At the rear side of described paddy case (E), there is inside the body on the left and right directions of described supporting mass (40) fuel tank (E).

14. combines according to any one of claim 1 ~ 6,8 ~ 11,13, is characterized in that,

Described paddy case (E) be configured to be supported on be arranged on the described state lower swing from the supporting mass (40) walked on body (A) and be accommodated in described from walk body (A) work posture and from described oneself walk between maintenance posture that body (A) crosses out and freely switch posture.

15. combines as claimed in claim 14, is characterized in that,

Described supporting mass (40) is in the center of rotation (Y) of described paddy case (E).

16. combines as claimed in claim 15, is characterized in that,

The centre of area of described supporting mass (40) when overlooking is consistent with the center of rotation of this supporting mass (40), to support described supporting mass (40) relative to described from walking the mode that body (A) can rotate.

17. combines according to any one of claim 1 ~ 6,8 ~ 11,13,15,16, is characterized in that,

On the vehicle body frame (10) walking body (A), vertical framework (50) is equipped with described.

18. combines as claimed in claim 17, is characterized in that,

Described vertical framework (50) connects and is supported on sheller unit (D).

19. combines according to any one of claim 1 ~ 6,8 ~ 11,13,15,16,18, is characterized in that,

Stagger in described supporting mass (40) and the position of described unloader (F) on the described fore-and-aft direction from walking body (A).

20. combines according to any one of claim 1 ~ 6,8 ~ 11,13,15,16,18, is characterized in that,

Described oscillatory gearing mechanism (60) is provided with between described supporting mass (40) and described unloader (F).

21. combines according to any one of claim 1 ~ 6,8 ~ 11,13,15,16,18, is characterized in that,

Described oscillatory gearing mechanism (60) is connected with across the front side portion of described unloader (F) and the rear lateral portion of described supporting mass (40).

22. combines according to any one of claim 1 ~ 6,8 ~ 11,13,15,16,18, is characterized in that,

The ancon (30) of described supporting mass (40) and described unloader (F) connects into described ancon (30) and can relatively rotate relative to described supporting mass (40).

23. combines according to any one of claim 1 ~ 6,8 ~ 11,13,15,16,18, is characterized in that,

Described unloader (F) is set to end, described introduction side and is positioned at position on left and right directions outside the body compared with described supporting mass (40).

24. combines according to any one of claim 1 ~ 6,8 ~ 11,13,15,16,18, is characterized in that,

Described oscillatory gearing mechanism (60) is connected to described supporting mass (40) outside the left and right directions of described supporting mass (40).

25. combines according to any one of claim 1 ~ 6,8 ~ 11,13,15,16,18, is characterized in that,

The position of described oscillatory gearing mechanism (60) on the left and right directions of described unloader (F) being in described storage posture outside body is connected to described unloader (F).

26. combines according to any one of claim 1 ~ 6,8 ~ 11,13,15,16,18, is characterized in that,

There is the locking mechanism (46) of the storage posture maintaining described unloader (F).

27. combines according to any one of claim 1 ~ 6,8 ~ 11,13,15,16,18, is characterized in that,

There is the receiving portion (45) of bearing the described unloader (F) being in storage posture.

28. combines as claimed in claim 27, is characterized in that,

Described receiving portion (45) is arranged at described supporting mass (40).

29. combines as claimed in claim 27, is characterized in that,

Have the locking mechanism (46) of the storage posture maintaining described unloader (F), this locking mechanism (46) is fixed described receiving portion (45) and described unloader (F).

30. combines as claimed in claim 28, is characterized in that,

Have the locking mechanism (46) of the storage posture maintaining described unloader (F), this locking mechanism (46) is fixed described receiving portion (45) and described unloader (F).

31. combines as claimed in claim 29, is characterized in that,

Described locking mechanism (45) has the locking pin (46c) of the drawer at movable side locking plate (31a) running through described receiving portion (45) and be arranged at described unloader (F) side.

32. combines as claimed in claim 30, is characterized in that,

Described locking mechanism (45) has the locking pin (46c) of the drawer at movable side locking plate (31a) running through described receiving portion (45) and be arranged at described unloader (F) side.

33. combines as claimed in claim 31, is characterized in that,

Described receiving portion (45) is provided with and inserts for described locking pin (46c) during non-through and keep the retaining hole (45d) of described locking pin (46c).

34. combines as claimed in claim 32, is characterized in that,

Described receiving portion (45) is provided with and inserts for described locking pin (46c) during non-through and keep the retaining hole (45d) of described locking pin (46c).