KR20090029707A - Combine - Google Patents

Abstract

A combine where a harvesting section is constructed so that it is liftable and pivotable about a crop input pipe (23) and is horizontally pivotable about a vertical support shaft (21) together with the crop input pipe (23). Even if the harvesting section is suddenly shaken or lifted by vibration by some reason when the harvesting section is horizontally pivoted in an opening direction, the harvesting section is reliably prevented from pivoting downward to a lower limit. A receiving section (71) is integrally provided with a holder member (22) on the vertical shaft (21), and the receiving section (71) is projected radially outward on the back side of the crop input pipe (23). A stopper member (74) is provided at the crop input pipe (23) so as to be slidable in the longitudinal direction of the crop input pipe (23), and the stopper member (74) is in contact with the receiving section (71) from below, holding the harvesting section so that it cannot pivot downward.

Description

Combine {COMBINE}

The present invention relates to a combine in which a harvesting unit for continuously harvesting a grain stem of a pavement is mounted on the front portion of the traveling body.

Conventionally, some of these types of combines are configured such that the harvesting unit can be rotated horizontally (that is, opening and closing rotation) toward the outside of the traveling body for the convenience of maintenance management such as a harvesting unit or an engine disposed at the front of the traveling body.

An example of the combine of such a structure is disclosed by patent document 1. As shown in FIG. The harvesting part of the combine in patent document 1 is equipped with the vertical axis installed in the left and right side of the front part of a traveling body, and the horizontal axis which protruded in the left-right horizontal direction from the vertical axis.

To the midway of the horizontal axis, a mowing frame extending forward obliquely downward is attached to rotate integrally with the horizontal axis. The lifting portion is configured to move up and down with the horizontal support shaft as the rotation center by the lifting hydraulic cylinder provided between the harvesting frame and the traveling body. The harvesting portion is configured to open and close in a horizontal direction with the horizontal axis and the harvesting frame with the vertical axis as the rotation center.

In the case of openly rotating the mowing part, a stopper means for maintaining the mowing frame in a predetermined posture so that the mowing frame does not rotate downward about the horizontal axis in this open rotation state in order to disconnect the lifting hydraulic cylinder and the mowing frame. It is necessary to provide.

In this regard, Patent Document 1 discloses a block-shaped locking member interposed between a receiving portion formed on the vertical axis and a receiving portion formed on the horizontal axis to prevent rotation about an axis around the horizontal axis. It is described to prevent the downward rotation to the lower limit.

Patent Document: Japanese Patent Application Laid-Open No. 2002-42

However, the stopper means described in Patent Document 1 restricts the downward rotation of the mowing frame by fitting the locking member into the receiving portion of the vertical axis and the receiving portion of the horizontal axis, so that the cutting portion is inadvertently vertically by any vibration or the like during the opening rotation. When rocking, the locking member is pulled out, and the harvesting frame is rotated downward. As a result, there is a concern that the harvesting portion collided with the ground is deformed or broken.

Then, this invention makes it a technical subject to provide the combine which solved the said problem.

In order to solve such a technical problem, the invention of claim 1 includes a traveling body on which an engine and a threshing unit are mounted, and a harvesting unit disposed in a front part of the traveling body, wherein the harvesting unit is left and right among the front parts of the traveling body. The vertical axis | shaft installed in one side, and the horizontal axis | shaft protruding in the horizontal direction from the vertical axis | shaft, The said harvesting | removing part can raise and lower rotationally with the said horizontal axis | shaft as the rotation center, and the said vertical axis | shaft as the rotation center A combine that is configured to be horizontally rotatable with the horizontal support shaft, wherein one of the portions near the vertical support shaft and the vertical support shaft in the horizontal support shaft is in contact with a receiving portion formed on the other side so that the harvesting portion cannot be rotated downward. A stopper member for holding can slide along the longitudinal direction of the horizontal support shaft It is that it can be installed.

According to a second aspect of the present invention, the combine of claim 1 further includes switching holding means for selectively holding the stopper member at a free position that does not contact the locking position that contacts the accommodation portion.

According to a third aspect of the present invention, in the combine according to claim 1 or 2, the stopper member is formed in a square shape, while the contact surface with the stopper member in the accommodation portion is formed in a flat surface.

In the combine of any one of Claims 1-3, the said accommodating part is formed in the said perpendicular | vertical axis so that it may protrude in the longitudinal direction of the said horizontal axis | shaft from the back side of the said horizontal axis | shaft, On the side having the concave groove in which the stopper member is slidably fitted in a portion near the vertical axis in the horizontal axis, while the vertical axis is configured to be rotatable with the horizontal axis. As viewed from the back, the U-shaped guide block portion opened backwards is integrally provided.

In the combine of any one of Claims 1 to 3, the invention of claim 5 is provided on the upper surface side of the horizontal support shaft so as to protrude along the longitudinal direction of the horizontal support shaft. A holder member for supporting the horizontal axis in the state rotatable about its axis is attached to the upper portion of the holder so as to be horizontally rotatable with the horizontal axis, with the vertical axis being the center of rotation. The upwardly open U-shaped guide block having a concave groove fitted slidably is integrally provided.

Effect of the Invention

According to the invention of claim 1, a stopper member for contacting a receiving portion formed on the other side of a portion near the vertical axis in the horizontal axis and the vertical axis in the horizontal axis to hold the retractable portion in a non-rotating direction has the length of the horizontal axis. Since it is slidably installed along the direction, even when the harvesting portion is inadvertently oscillated vertically or injured by any vibration or the like when the cutting portion is openly rotated around the vertical support axis, the sliding type is horizontally sliding compared to the locking member described in Patent Document 1 There is little possibility that the said stopper member of a position shifts.

For this reason, the stopper member can be prevented from rotating downward to the lower limit by the restriction of the stopper member, and thus the effect of preventing the deformed or damaged from colliding with the ground and deforming or breaking is exerted.

According to the invention of claim 2, further comprising switching holding means for selectively holding the stopper member in a free position not in contact with the locking position in contact with the receiving portion, and thus the stopper member is provided by the switching holding means. Can be secured to the locking position or the free position.

For this reason, it is a normal closed state which does not open-rotate the said harvesting part, and it can reliably prevent that the stopper member is caught by the said receiving part or the said stopper member falls from the said accommodating part in the state in which the said harvesting part was rotated open. It can exert an effect that can improve safety.

By the way, although the said harvesting part which rotated open becomes a state of a cantilever, since the said harvesting part has a considerable weight, a big fall moment is generated in the connection part of the said horizontal support axis and the said vertical support axis. Then, a load (load) due to an overturning moment acts on the contact portion of the stopper member and the accommodation portion in the locked position.

In this regard, as described in claim 3, when the stopper member is formed in a columnar shape, and the contact surface with the stopper member in the housing portion is formed into a flat surface, the stopper member and the accommodation portion in the locked position are faced. Contact. Thereby, the contact area of the said stopper member and the said accommodating part can be ensured widely, and the load on the said stopper member and the said accommodating part can be reliably received by the weight of the said harvesting part. Therefore, there exists an effect which can improve the support stability with respect to the said cutting part which rotated open.

In the invention of claim 4, the housing portion is formed so as to protrude in the longitudinal direction of the horizontal axis from the rear side of the horizontal axis, on the vertical axis, and is also horizontally rotated along with the horizontal axis with the vertical axis as the center of rotation. On the other hand, the U-shaped guide block portion, which is rearward-opened when viewed from the side having a concave groove into which the stopper member is slidably fitted, is integrally formed at a portion near the vertical axis in the horizontal axis. It is installed.

By adopting such a configuration, since the guide block portion for holding the stopper member is integrally provided on the horizontal support shaft, the guide block portion functions as a strength member for complementing the rigidity of the stopper member. The load acting on the member can be distributed to the guide block portion.

For this reason, it is possible to suppress an excessive load on the stopper member, to reduce the risk of breakage or deformation of the stopper member, and to promote an effect of improving the support stability to the cutting portion rotated open. will be.

In the invention of claim 5, the housing portion protrudes along the longitudinal direction of the horizontal axis, and is provided on the upper surface side of the horizontal axis, while the horizontal axis is rotatable around the axis of the vertical axis. A holder member which is axially supported at the upper end is rotatably attached together with the horizontal axis with the vertical axis as the center of rotation, and the holder member has an upward opening having a concave groove into which the stopper member is slidably fitted. The guide block part of the shape is provided integrally. That is, the invention of claim 5 corresponds to a case where the stopper member is provided on the vertical axis side, while the receiving portion for the stopper member is provided on the horizontal axis side.

When comprised in this way, the said guide block part functions as an intensity | strength member for complementing the rigidity of the stopper member by being integrally provided with the holder member on the vertical axis side. Therefore, as in the case of claim 4, the load acting on the stopper member can be distributed to the guide block portion to suppress the load on the stopper member from being more than necessary. It can promote the effect of improving the stability.

1 is a side view of a combine.

2 is a plan view of the combine.

3 is a schematic side view of the harvesting section.

4 is a schematic plan view of the harvesting section.

5 is a schematic front view showing the support structure of the harvesting unit.

6 is a schematic plan view showing a support structure of a harvesting unit.

7 is a rear view of the stopper mechanism.

FIG. 8 is a side cross-sectional view taken in the direction VIII-VIII of FIG. 7.

It is a schematic front view which shows the support structure of a harvesting | reaping part in the case where the other example of a stopper mechanism is employ | adopted.

10 is a plan view of the stopper mechanism.

11 is a partially cutaway side view of the stopper mechanism.

(Explanation of symbols for the main parts of the drawing)

1: driving body 3: cutting section

4 threshing part 5 feed chain

13: cutting device 14: grain stemming device

15: grain stem conveying device 20: gas frame

21: vertical axis 22: holder member

23: cutting input pipe as a horizontal axis 34: longitudinal electric pipe

36: hydraulic cylinder 50: raising case

51: star wheel 52: scraping belt

53: lower right conveyance chain 54: left lower conveyance chain

55: upper conveying tine 56: longitudinal conveying chain

57: auxiliary conveying chain 70: stopper mechanism

71: accommodating part 72: guide block part

73: recessed groove 74: stopper member

75: cover plate 76: guide groove hole

77 knob knob as switching holding means

EMBODIMENT OF THE INVENTION Below, embodiment which actualized this invention is described based on drawing (FIGS. 1-11). Fig. 1 is a side view of the combine, Fig. 2 is a plan view of the combine, Fig. 3 is a schematic side view of the cutting part, Fig. 4 is a schematic plan view of the cutting part, Fig. 5 is a schematic front view showing a support structure of the cutting part. 6 is a schematic plan view showing the support structure of the harvesting section, FIG. 7 is a rear view of the stopper mechanism, FIG. 8 is a side cross-sectional view seen in the VIII-VIII direction of FIG. 7, and FIG. 9 is a case where another example of the stopper mechanism is adopted. Fig. 10 is a plan view of the stopper mechanism, and Fig. 11 is a partially cutaway side view of the stopper mechanism.

(One). Schematic structure of combine

First, the schematic structure of a combine is demonstrated, referring FIGS. 1-4.

The combine for cutting four pairs in embodiment is provided with the traveling body 1 supported by the pair of left and right traveling crawlers 2. In the front part of the traveling body 1, the harvesting | reaping part 3 which takes in and harvests the grain stem mounted in the pavement rotates the harvesting input pipe 23 mentioned later by the single-acting hydraulic cylinder 36 (refer FIG. 3). It is mounted so that raising and lowering is possible as a center. The threshing part 4 with the feed chain 5 and the grain tank 6 for storing the grain after threshing are mounted in the traveling body 1 in the shape of a horizontal row. In this embodiment, the threshing part 4 is arrange | positioned at the left side of the traveling direction of the traveling body 1, and the grain tank 6 is arrange | positioned at the right side of the traveling direction of the traveling body 1. Between the harvesting section 3 and the grain tank 6, a driving section 8 having a steering round handle 9, a driving seat 10, and the like for changing and controlling the direction and speed of the traveling body 1 is provided. have. An engine 11 as a power source is disposed below the driving unit 8, and a mission for transmitting power from the engine 11 to the right and left traveling crawlers 2 in front of the engine 11 by appropriately shifting the power from the engine 11. The case 12 is arrange | positioned.

The harvesting | reaping part 3 is equipped with the barricade-type cutting blade apparatus 13, the grain stem raising device 14 for four sets, the grain stem conveying apparatus 15, and the grass herb 16. As shown in FIG. The mowing blade device 13 is disposed below the grass dividing frame 39 constituting the framework of the mowing section 3. The grain stem raising device 14 is disposed above the minute frame 39. The grain stem conveying apparatus 15 is arrange | positioned between the grain stem raising apparatus 14 and the front end part of the feed chain 5. The grass dividing body 16 is provided so that it may protrude in the lower front of the grain stem production apparatus 14. The harvesting grain stems harvested by the harvesting | reaping part 3 are carried over to the feed chain 5, are conveyed, and threshing process by the threshing part 4 is carried out.

The barrel 17 of the threshing part 4 has a built-in barrel 17 for threshing the harvested grain stem. Below the barrel 17, a swing screening mechanism (not shown) that performs swing screening by a sudden grid or chaff sieve and the like, and a wind screening mechanism for wind screening by a windnow fan ( Not shown) is arranged. The grains collected by these two sorting mechanisms and collected in the first storage container (not shown) in the lower part of the traveling body 1 are integrated into the grain tank 6 via the first conveyor and the grain grain conveyor (all are not shown). The straw waste is sucked into a suction fan (not shown) disposed in the rear portion of the threshing portion 4 and then discharged to the outside of the traveling gas body 1 from an outlet formed in the rear portion of the traveling gas body 1. The grain in the grain tank 6 is carried out to the outside of the traveling gas 1 through the discharge auger 7.

In addition, the discharge straw handed over to the straw discharge chain 18 (see FIG. 2) from the rear end of the feed chain 5 is discharged to the rear of the traveling body 1 in a long state, or by the discharge straw cutter (not shown). It is shortly cut to an appropriate length and then discharged to the rear of the traveling body 1.

(2). Structure of cutting section

Next, the structure of a harvesting | hardening part is mainly demonstrated, referring FIGS. 3-6.

The harvesting section 3 is provided on one side of the front portion of the chassis 20 in order to facilitate maintenance management of the devices 13-15, the engine 11, the mission case 12, and the like. In embodiment, it is comprised so that horizontal rotation (opening-closing rotation is possible) centering around the vertical support shaft 21 installed in the front part left side (refer the 2-dot dashed-line state of FIG. 2 and FIG. 6).

In this case, the upper end part of the vertical support shaft 21 is formed in the shape of a tapered end, and the cylindrical holder member 22 is fitted in the said site | part by the cast iron etc. so that upward pull-out is impossible and it can rotate horizontally. On the outer circumferential surface of the end forming portion 21a in the vertical support shaft 21, a flange 21b is provided to support the holder member 22 such that the holder member 22 cannot be displaced downward. Moreover, between the vertical support shaft 21 and the base frame 20, the reinforcement plate 24 (bracing shaft) of the shape inclined to the rear side to the side is fixed by welding.

The holder member 22 is axially supported in a state in which a horizontally long mowing input pipe 23 as a horizontal support shaft is rotatable about its axis center (up and down direction). The harvesting input pipe 23 of embodiment is metal, and is arrange | positioned in the state offset in front of the vertical support shaft 21 by planar view (refer FIG. 3, FIG. 4, and FIG. 6).

The holder member 22 is fixed to the lower holder bearing portion 22a with an upwardly open bisected lower shape bearing 22a projecting outward from the base fitted to the upper end of the vertical support shaft 21, and fixed to the lower holder bearing portion 22a by bolts. The upper holder bearing part 22b of the bisecting shape opened downward is provided. These upper and lower holder bearing portions 22a and 22b rotatably support the proximal end of the mowing input pipe 23 (an end portion closer to the vertical support shaft 21).

A bearing member 25 made of cast iron or the like is provided at the front end of the mowing input pipe 23 (an end opposite to the vertical support shaft 21), while a portion near the left and right centers of the front part of the base frame 20 is provided. The strut member 26 which protrudes upward is installed in the position located under the bearing member 25.

The bearing member 25 is vertically up and down through a biaxially shaped lower bearing portion 25a which is bolted to the upper plate of the strut member 26 and a bolt shaft 27 in the horizontal direction to the lower bearing portion 25a. It is provided with the upper bearing part 25b rotatably attached.

The upper bearing part 25b is comprised so that it may rotate up and down about the bolt axis 27 by operation of the harvesting locking lever 1 (not shown) provided in the driving part 8. In addition, the upper bearing portion 25b is a downward direction which can be fitted with the lower bearing portion 25a by the elastic biasing force of the spring means (not shown). It is always biased in the direction of rotation.

When the upper bearing portion 25b is rotated downward around the bolt shaft 27 by the mowing locking lever, the tip end portion of the mowing input pipe 23 is rotatably held by the upper and lower bearing portions 25a and 25b (shaft). Support) to keep the harvesting section 3 closed.

On the contrary, when the upper bearing portion 25b is rotated upwardly around the bolt shaft 27, the gripping portion of the tip portion of the harvesting input pipe 23 is released, and the harvesting portion 3 is horizontal with the vertical support shaft 21 as the rotation center. It becomes a state which can open-rotate in a direction. In this case, the harvesting input pipe 23 or the harvesting section 3 is supported in the state of the cantilever by the vertical support shaft 21.

The harvesting input pipe 23 incorporates this and the harvesting input shaft 28 in a concentric attitude. The tip end of the harvesting input shaft 28 projects outwardly (left and right center side) from the tip of the harvesting input pipe 23, and the harvesting input pulley 29 is fixed to this projecting end. A power transmission belt 30 is wound around a pulley (not shown) fixed to the power transmission shaft of the mowing input pulley 29 and the mission case 12.

Power from the engine 11 via the mission case 12 is transferred from the power transmission shaft of the mission case 12 to the mowing input shaft 28 in the mowing input pipe 23 via the pulley 29 and the belt 30 electric system. Is transmitted to, and power is transmitted from each harvesting input shaft 28 to each device 13-15 of the harvesting preprocessing apparatus 3.

An inclined arm 31 is disposed between the middle portion of the mowing input pipe 23 and the lower end of the vertical axis 21 to increase the rigidity of the mowing input pipe 23 and the vertical axis 21.

The inclined arm 31 inclines so that height may become high as it moves away from the lower end part of the vertical support shaft 21, and the upper end part is fixed to the midway part of the mowing input pipe 23. As shown in FIG. The lower end part of the inclined arm 31 is provided with the bracket member 32 of right and left outwardly U-shape in plan view, and this bracket member 32 is fitted with respect to the vertical support shaft 21 from radially outer side.

In addition, a slider (not shown) is provided inside the bracket member 32 in contact with the outer circumferential surface of the vertical support shaft 21. The presence of this slider causes the bracket member 32 to support the outer circumferential surface of the vertical support shaft 21. Therefore, it can slide smoothly (slide rotation).

At a position near the tip of the mowing input pipe 23, a longitudinal electric pipe 34 extending obliquely downward through the gear box 33 fixed to the mowing input pipe 23 is attached. Therefore, the mowing input pipe 23 and the longitudinal transmission pipe 34 are rotatable horizontally around the vertical axis 21, and the longitudinal transmission pipe 34 is vertically up and down with the mowing input pipe 23 as the center. It is possible to rotate in the direction.

Bearing ribs 35 are formed to protrude downward in the middle length of the longitudinal transmission pipe 34 (see FIG. 3), and the piston rods of the hydraulic cylinders 36 are long and horizontally long in the bearing ribs 35. It is connected by the pin 37. Although not shown in detail, the rear end of the hydraulic cylinder 36 is rotatably connected to the base frame 20 by a pin.

In addition, when opening and rotating the harvesting | reaping part 3, the pin 37 which connects the hydraulic cylinder 36 and the vertical electric pipe 34 is pulled out as a precondition work, and the side of the mission case 12 is removed. The belt 30 wound around the pulley and the mowing input pulley 29 is removed.

In the horizontally long horizontal electric pipe 38 (see FIG. 3) provided at the bottom of the vertical electric pipe 34, a plurality of forward and second minute sub-frames 39 protruding forward are appropriately spaced along the longitudinal direction of the horizontal electric pipe 38. It is added together. Below the dichroic frame 39, a barricade cutting device 13 is provided. At the distal end of each dichroic frame 39, the dichroic body 16 protrudes.

As shown in FIG. 3 in detail, the vertical pipe 40 as a vertical frame is installed in the both ends of the horizontal transmission pipe 38 so that a front oblique extension may be extended upward, and it is horizontally long between these vertical pipe 40 both. The electric transmission pipe 41 has spread across.

The raising drive case 42 of the number (4 in this embodiment) which matched the harvest tides is provided in the raise transmission pipe 41 so that it may protrude downward. These raising drive cases 42 are arranged at appropriate intervals along the longitudinal direction of the raising transmission pipe 41 (the transverse direction of the traveling body 1).

In addition, the intermediate part of the raised transmission pipe 41 and the upper end of the longitudinal transmission pipe 34 are connected by the curved frame 43 formed in the upward convex curved shape.

Below the each driving drive case 42, a grain stem raising device 14 for generating un harvested grain stems placed in a package is disposed. The grain stem raising device 14 includes a vertically long casing case 50 having a raising tine that stands up to an unharvested grain stem received through the herbaceous body 16, and a star disposed below the rear of each of the casing cases 50. The wheel 51 and the scraping belt 52 are provided.

The upper end of the raising case 50 is attached to the lower end of the raising drive case 42, and the lower end of the raising case 50 is supported by the branch frame 44 which is erected on the dividing frame 39 located in the vicinity thereof. It is. The star wheel 51 and the scraping belt 52 are for scraping back the crest base of the un harvested grain stem produced by the producing tines of the producing case 50 corresponding to these pairs. The crest base of the un harvested grain stem which is scraped by the star wheel 51 and the scraping belt 52 is cut off (cut off) by the barrican cutting blade device 13.

A grain stem conveying device 15 for sandwiching the harvested grain stem harvested by the cutting blade device 13 toward the feed chain 5 is disposed between the grain stem raising device 14 and the start end of the feed chain 5. .

As shown in detail in FIG. 3 and FIG. 4, the grain stem conveying apparatus 15 has the right lower conveyance chain 53 which conveys the right two grain harvesting grain stems to the rear at an angle, and the harvest grain stem of the left two grains at an angle to the right side. It conveys backward and obliquely leftwards, gathering the tip of the left lower conveyance chain 54 which joins the crest bottom part near the conveyance end part of the right lower conveyance chain 53, and four sets of harvesting grains together. Longitudinal conveying apparatus which conveys the crest bottom part of the harvesting grain stem of 4 trillion grains joined in the vicinity of the conveyance end part of the upper conveying tin 55 and the right lower conveying chain 53 to the feed chain 5 upwards obliquely upward. Conveying the crest bottom (more specifically, the middle part of the crest bottom) between the vertical conveyance chain 56 and the vertical conveyance chain 56 and the feed chain 5 as The system includes an auxiliary transport chain 57 as an auxiliary transport device. At the position opposite to the conveying side of the auxiliary conveyance chain 57, the fitting guide member 60 for fitting the crest bottom part of four sets of cutting grain grains with the auxiliary conveyance chain 57 is arrange | positioned (FIGS. 1 and 3). Reference).

In this case, the upper conveying tin 55, the longitudinal conveying chain 56, and the auxiliary conveying chain 57 are viewed from the side, and the upper conveying tin 55, the auxiliary conveying chain 57, and the longitudinal conveying chain 56 are viewed from above. It is arranged side by side in the order of. In more detail, the auxiliary conveyance chain 57 is fitted from the upper and lower sides by the rear end of the upper conveying tin 55 and the rear end of the longitudinal conveying chain 56. The feed end of the auxiliary conveyance chain 57 is close to the start end of the feed chain 5 in order to facilitate the exchange of the cutting grains with the feed chain 5 (see FIGS. 3 and 4).

The crest base of the four-piece cutting grain stem which has been sent by the longitudinal conveyance chain 56 to the side fell to the side by the auxiliary conveyance chain 57 and the fitting guide member 60 is conveyed, and the start of the feed chain 5 is carried out. Take over to wealth. And the tip part of the harvested grain stem handed over to the feed chain 5 is threshed by the barrel 17 in the barrel in the threshing part 4.

In the embodiment, the power transmitted to the harvesting input shaft 28 in the harvesting input pipe 23 is configured to be transmitted to the horizontal transmission shaft in the horizontal transmission pipe 38 via the vertical transmission shaft in the vertical transmission pipe 34. Then, by the power transmission from the transverse transmission shaft, the cause of the case 50, the star wheel 51, the scraping belt 52, the left and right lower conveyance chains 53 and 54, and the mowing blade device 13 ) Is configured to be driven.

A part of the power transmitted to the longitudinal transmission shaft in the longitudinal transmission pipe 34 is branched to the longitudinal conveyance drive shaft 58 (see FIG. 3) extending upward obliquely upward through a bevel gear mechanism provided in the middle portion of the longitudinal transmission shaft. It is comprised so that the longitudinal conveyance chain 56 may be driven by the power transmission from this longitudinal conveyance drive shaft 58.

On the other hand, a part of the power transmitted to the harvesting input shaft 28 is conveyed to the conveyance drive shaft 59 (refer FIG. 3 and FIG. 5) which extends obliquely upwards right through the bevel gear mechanism provided in the middle part of the harvesting input shaft 28. FIG. It is configured to be branched forward. The power from the conveying drive shaft 59 is configured to drive the upper conveying tines 55 and to drive the auxiliary conveying chains 57.

As shown in FIG. 3, in the length center part of the longitudinal pipe 40 located in the one side (left side in embodiment) of feed chain 5 vicinity among the front parts of the harvesting | reaping part 3, it is made of round pipes long before and after The front end of the support frame 45 is attached. The support frame 45 is formed to be curved or curved in an upwardly convex shape as viewed from the side, and the rear end of the support frame 45 is in front of the feed chain 5 and above the auxiliary conveying chain 57. It is located. On the rear end of the supporting frame 45, a fitting guide member 60 for fitting the crest bottom of the four-cut mowing grain together with the auxiliary conveying chain 57 is disposed to face the conveying side of the auxiliary conveying chain 57. have.

An elastic cress bottom pressing member 61 made of an elastic long leaf spring is attached to the middle portion of the supporting frame 45 so as to extend backward through the fitting guide member 60. The crested bottom pressing member 61 guides (guides) the crested bottom part of the harvesting grain stem conveyed by the longitudinal conveying chain 56 and the auxiliary conveying chain 57 to the feed chain 5, and the said feed chain ( It is for pressing the bottom of the crest tree which reached the beginning part of 5) from upper direction. The crested bottom pressing member 61 of embodiment is comprised so that it may elastically deform in the direction which contact-spaced the start part of the feed chain 5 as there are many and few mowing grains.

1, the inverted U-shaped sensor pipe 63 for suspending the threshing depth sensor 62 for detecting the ear tip of a harvesting grain stem is also attached to the support frame 45. As shown in FIG. In FIG. 3, illustration of the threshing depth sensor 62 and the sensor pipe 63 is omitted.

(3). Details of the aircraft frame and its reinforcement structure

Next, the detail of a base frame and its reinforcement structure are demonstrated, referring FIGS. 4-6.

The base frame 20 of the traveling body 1 includes a plurality of back and forth long purlin members 91 arranged in a right and left parallel shape at appropriate intervals, and a plurality of left and right girder members 92 arranged in a front and rear parallel shape at appropriate intervals. It is achieved by looking at the plane and connecting it in a rough grid.

In the following description, the first purlining member, the second purlining member, the third purlining member ... Each code | symbol is attached | subjected to the alphabet corresponding to an order of arrangement (for example, the code | symbol of a 1st purlin member is 91a, the code | symbol of a 2nd purlin member is 91b, etc.).

Similarly, the first girder member, the second girder member, and the third girder member are arranged in the rearward order from the girder member 92 located at the front end in the traveling direction of the gas frame 20. Each code | symbol is attached | subjected to the alphabet corresponding to an order of arrangement (for example, the code | symbol of a 1st girder member is 92a, the code | symbol of a 2nd girder member is 92b, etc.).

The opening portion of the gas frame 20 where the first purlin member 91a at the left end and the first girder member 92a at the front end intersect (a left front corner of the gas frame 20) has a substantially downward opening shape. The mowing table 93 is fixed by welding or the like. In this embodiment, the vertical support shaft 21 which supports the harvesting | reaping part 3 so that horizontal rotation is possible is provided on this harvesting installation stand 93 upright. In addition, the reinforcement plate 24 of embodiment is affixed by welding etc. between the up-down middle part of the back surface side in the vertical support shaft 21, and the upper surface rear part of the mowing table 93. As shown in FIG.

On the other hand, the support member 26 which supports the bearing member 25 of the harvesting input pipe 23 from below when the harvesting | reaping part 3 is closed is the 2nd purlin located left and right inside than the 1st purlin member 91a. The member 91b and the 1st girder member 92a are provided in the position which cross | intersects.

The first reinforcement frame 94 formed in the shape of an angled tubular shape is formed between the upright position (the mowing base 93 in the embodiment) and the support member 26 of the vertical support shaft 21 in the base frame 20. It is arranged. The 1st reinforcement frame 94 is inclined so that height may become high as it moves away from the mowing stand 93 (or the vertical support shaft 21), and the one end part (left end part in embodiment) is in the mowing stand 93. Is fixed to the side plate portion 93a near the strut member 26 by welding or the like. The other end part (right side part in embodiment) of the 1st reinforcement frame 94 is fixed by welding etc. to the up-down middle part site | part of the side plate part 26a which faced the mowing stand 93 among the support members 26. As shown in FIG. In other words, the mowing base 93 and the support member 26 are connected by the first reinforcing frame 94 inclined upward obliquely as seen from the mowing base 93 toward the prop member 26. .

In addition, a second reinforcing frame formed in an angled cylindrical shape between the third purlining member 91c and the support member 26 positioned on the opposite side of the first purlining member 91a with the second purlining member 91b interposed therebetween. 95 is arranged. The second reinforcing frame 95 is inclined so that its height decreases as it moves away from the support member 26, and one end thereof (the left end in the embodiment) is the third purlin member 91c in the support member 26. The upper and lower middle portions of the side plate portion 26b facing each other are fixed by welding or the like. The other end of the second reinforcing frame 95 (in the embodiment, the right end) is fixed to the third purlining member 91c by welding or the like. That is, the strut member 26 and the third purlin member 91c are connected by the second reinforcing frame 95 inclined downward obliquely as viewed from the strut member 26 toward the third purlin member 91c. It is.

The first and second reinforcing frames 94 and 95 of the embodiment are arranged in series with each other in a planar view, and the arrangement direction is set so as to be parallel to the respective girder members 92 (FIG. 4). And FIG. 6).

When the harvesting portion 3 is open-rotated around the vertical support shaft 21 to become a state of the cantilever, the conduction moment due to the weight of the harvesting portion acts on the vertical support shaft 21. By this fall moment, the load (downward load) in the direction which makes the vertical axis 21 sink is concentrated in the upright position of the vertical axis 21 in the base frame 20 (the location of the harvesting stand 93). Acts as. For this reason, although the position of the vertical support shaft 21 and the cutting stand 93 (the front corner part of the gas frame 20) needs to be made as strong as possible, the thickness of the said frame etc. will be too thick, The addition of many reinforcing members has caused a problem that the improvement of the rigidity of the location of the vertical support shaft 21 and the mowing stand 93 is not suitable for the recent increase in the demand for cost reduction, because it leads to an increase in cost. .

In this regard, in the embodiment, the upright mounting location (the location of the cutting mounting stand 93) and the support member 26 of the vertical support shaft 21 in the base frame 20 are supported by the support mounting member 93 from the cutting mounting stand 93. Since the first reinforcement frame 94 is connected by the first reinforcement frame 94 inclined upward obliquely toward the front, the first reinforcement frame 94 is placed upright of the vertical axis 21 in the base frame 20. It functions as a strength member to compensate for the rigidity of the location, and a part of the downward load applied to the upright installation location is distributed to the first reinforcing frame 94. In other words, the first reinforcing frame 94 can support (accept) a part of the downward load applied to the upright installation location.

Therefore, even if the rigidity of the base frame 20 or the mowing stand 93 itself is increased, for example, by increasing the thickness, the down load applied to the upright mounting point is added to the extent that one reinforcing frame 94 is added. The support strength can be improved, and as a result, it is possible to improve the support stability for the open-rotated cutting portion.

On the other hand, in the case where the upright installation location of the vertical support shaft 21 in the base frame 20 and the support member 26 are connected by the first reinforcement frame 94, the harvesting portion 3 is connected to the vertical support shaft ( 21) When the opening is rotated around, since the support member 26 has the first reinforcing frame 94, the pulling force that pulls in the direction to be inserted toward the cutting installation stand 93 acts.

In contrast, in the embodiment, the third purlin member 91c and the strut member 26 located on the opposite side of the first purlin member 91a with the second purlin member 91b interposed therebetween from the strut member 26 to the third. Since it is connected by the second reinforcing frame 95 inclined downward obliquely as viewed from the front toward the purlin member 91c, the presence of the second reinforcing frame 95 resists the tensile force and thus the holding member ( 26).

For this reason, the improvement effect of the support strength with respect to the load (downward load) applied to the upright installation location of the vertical support shaft 21 in the support member 26 and the base frame 20 can be further promoted. .

(4). Configuration of stopper mechanism

Next, the structure for restricting the downward rotation of a harvesting | reaping part is demonstrated, referring FIGS. 5-8.

As mentioned above, the harvesting input pipe 23 of embodiment is arrange | positioned in the state offset in front of the vertical support axis 21 in plan view (refer FIG. 3, FIG. 4, and FIG. 6). A stopper mechanism for regulating the downward rotation around the mowing input pipe 23 of the mowing part 3 at the point sandwiched by the holder member 22 on the mowing input pipe 23 and the vertical axis 21 in a plan view ( 70) is arranged.

The stopper mechanism 70 includes an accommodating portion 71 which is integrally provided at the upper side of the side close to the mowing input pipe 23 in the holder member 22 and the holder member in the mowing input pipe 23. The horizontal slide type stopper member 74 supported by the guide block part 72 provided in the site | part of the vicinity of 22 is slidably supported along the longitudinal direction of the mowing input pipe 23, and is provided.

The accommodating part 71 of embodiment protrudes (radius outwardly) along the longitudinal direction of the mowing input pipe 23 from the upper side of the side near the mowing input pipe 23 in the holder member 22. Moreover, it is located in the back side of the mowing input pipe 23. Since the accommodating part 71 is integrally provided in the holder member 22, it can be horizontally rotated around the vertical support shaft 21 with the mowing input pipe 23. As shown in FIG.

The guide block part 72 is integrally provided in the back surface of the holder member 22 vicinity in the mowing input pipe 23. The guide block portion 72 is in the form of a U-shape which is viewed from the side and opened backward. As apparent from this embodiment, the guide block portion 72 is formed such that the recessed groove 73 opened in the rearward direction extends along the longitudinal direction of the mowing input pipe 23. The side end surface (longitudinal section) shape of the recessed groove 73 is set to substantially rectangular shape (refer FIG. 7) /

The stopper member 74 is slidably fitted in the concave groove 73 of the guide block portion 72. The stopper member 74 of the embodiment is formed in a columnar shape so that the inside of the concave groove 73 can slide without rattle. That is, the stopper member 74 is formed in a block shape having a rectangular cross-section having a longitudinal cross-sectional shape of the concave groove 73 and a shape substantially similar to that of the concave groove 73, and is configured to be fitted so that the inside of the concave groove 73 can slide with almost no gap. .

As shown in FIG. 8, the cutting input pipe 23 rotated about the shaft center with the clearance gap G of an appropriate space | interval between the guide block part 72 and the accommodating part 71 of the holder member 22. As shown in FIG. It is comprised so that the guide block part 72 and the accommodating part 71 may not contact (interfere) with each other at the time (at the time of the lifting / lowering rotation of the harvesting part 3).

Moreover, the lower surface 71a (contact surface) of the accommodating part 71 becomes a flat surface extended in the shape parallel to the axis center of the mowing input pipe 23. In embodiment, when the harvesting | reaping part 3 raises and rotates to a predetermined height position (for example, an upper limit position, etc.), the guide block part 72 on the harvesting input pipe 23 side, and the accommodating part 71 on the holder member 22 side are shown. ) Is replaced, and in this state, the stopper member 74 protrudes from the open end near the holder member 22 in the concave groove 73 (see the dashed-dotted state in FIGS. 6 and 8). The concave groove 73 and the stopper member 74 of the guide block portion 72 so that the upper surface 74a of the stopper member 74 closely (contacts) the flat lower surface 71a of the accommodating portion 71. And the relationship between the accommodating part 71 is set.

On the outer surface (rear surface) of the guide block part 72, the metal plate cover plate 75 which covers the laterally long rear opening in the recessed groove 73 from the back is fixed with the bolt. The guide groove hole 76 extending along the recessed groove 73 is formed in the part which overlaps with the recessed groove 73 among the cover plates 75. A knob screw 77 as a switching holding means is screwed into the stopper member 74 in the recessed groove 73 through the guide groove hole 76.

The shaft portion of the knob screw 77 is held at both ends in the longitudinal direction of the guide groove hole 76 so that the stopper member 74 contacts the receiving portion 71 from the locking position (the two-dot chain line in FIGS. 6 and 8). And a free position (see the solid line state in FIGS. 6 and 8) which is almost hidden by the cover plate 75 without contact.

That is, the stopper member 74 cannot be pulled out from the concave groove 73 of the guide block portion 72 due to the presence of the knob screw 77, and is held slidably along the concave groove 73. . And the slide stroke along the recessed groove 73 of the stopper member 74 is regulated by the shaft part of the knob screw 77 contacting the longitudinal direction ends of the guide groove hole 76.

Therefore, the stopper member 74 can slide along the concave groove 73 in the state where the knob screw 77 is loosened, while the stopper member 74 is fixed by tightening the knob screw 77.

In the state where the stopper member 74 is held in the free position, the stopper member 74 does not protrude from an open end near the holder member 22 in the concave groove 73, and accommodates the holder member 22. Do not touch (71). For this reason, the rotation around the shaft center of the cutting input pipe 23 itself, or the lifting and lowering rotation of the cutting part 3 which made the cutting input pipe 23 the rotation center is permissible.

On the other hand, when the stopper member 74 is held in the locked position in the state in which the harvester 3 is raised and rotated to a predetermined height position (for example, the upper limit position, etc.), the stopper member 74 is formed in the recessed groove 73. The upper surface 74a of the stopper member 74 comes into close contact with the flat lower surface 71a of the housing portion 71 by protruding from the open end in the vicinity of the holder member 22.

For this reason, even if the harvesting | reaping input pipe 23 tries to rotate down about the shaft center, the stopper member 74 cannot catch up with the accommodating part 71 of the holder member 22, and as a result, the harvesting | reaping part 3 ) Is maintained at a predetermined height position.

According to the above structure, it is impossible to lower-rotate the harvesting | reaping part 3 in contact with the accommodating part 71 formed in the holder member 22 from below, and to the site | part of the holder member 22 in the harvesting | reaping input pipe 23 from below. Since the stopper member 74 which is held securely is slidably installed along the longitudinal direction of the mowing input pipe 23, the mowing part is caused by any vibration or the like when the mowing part 3 is opened and rotated around the vertical axis 21. Even if (3) is inadvertently rocked or floated vertically, there is little possibility that the horizontal slide type stopper member 74 may shift from the locking position compared with the locking member described in Patent Document 1. In addition, in the embodiment, the stopper member 74 can be fixed to the position by the knob screw 77.

For this reason, it can reliably prevent rotation of the harvesting | reaping part 3 to the lower limit, and it can prevent that the open-rotation harvesting | reaping part 3 collides with the ground, and deforms or breaks beforehand.

In addition, since the stopper member 74 can be fixed by the knob screw 77 as mentioned above, the stopper member 74 is a holder member in the normal closed state which does not open-rotate the harvesting | reaping part 3. It is possible to reliably prevent the stopper member 74 from falling off from the accommodation portion 71 while being caught by the accommodation portion 71 of the 22 or in the state in which the harvesting portion 3 is open and rotated, thereby improving safety. Can be.

By the way, although the harvesting | reaping part 3 which rotated open turns into a cantilever state, since the harvesting | reaping part 3 has a considerable weight, it connects to the connection part of the harvesting input pipe 23 and the holder member 22 on the vertical axis 21. Large conduction moment is generated. And the load (load) by a conduction moment acts on the contact part of the stopper member 74 in the locked position, and the accommodating part 71 integrally formed with the holder member 22. As shown in FIG.

On the other hand, in embodiment, the stopper member 74 is formed in the column shape, while setting the lower surface 71a of the accommodating part 71 into the flat surface which can contact the upper surface 74a of the stopper member 74, As a result, the stopper member 74 and the receiving portion 71 in the locked position are brought into surface contact.

For this reason, the contact area of the stopper member 74 and the accommodating part 71 can be ensured widely, and the load applied to the stopper member 74 and the accommodating part 71 by the weight of the harvesting | reaping part 3 is assured. I can get it. Therefore, the support stability with respect to the harvesting | reaping part 3 which rotated open can be improved.

In addition, the U-shaped guide that is rearwardly opened by looking sideward with a concave groove 73 in which the stopper member 74 is slidably fitted in a portion near the holder member 22 in the mowing input pipe 23. Since the block portion 72 is integrally provided, the guide block portion 72 for sandwiching the stopper member 74 functions as a strength member for compensating the rigidity of the stopper member 74, and the stopper member 74 The load acting on) can be distributed to the guide block 72.

For this reason, it is possible to suppress an excessive load on the stopper member 74, to reduce the risk of breakage or deformation of the stopper member 74, and to improve the support stability for the open-cut mowing part 3. To encourage.

(5). Exception of stopper mechanism

Next, the other example of the stopper mechanism which restricts the downward rotation of a harvesting | reaping part is demonstrated, referring FIGS. 9-11. Here, in the said other example, the thing which a structure and an action do not change with the previous embodiment attaches | subjects the same code | symbol as the previous embodiment, and the detailed description is abbreviate | omitted.

In this case, the vertical support shaft 21 'standing up on one side of the front portion of the base frame 20 is formed in a hollow cylindrical shape, and the holder member 22' such as cast iron is formed at the upper end of the vertical support shaft 21 '. Is inserted and mounted in such a way that it cannot be pulled out upward and can be rotated horizontally. A horizontally long mowing input pipe 23 is axially supported by the holder member 22 'in a state rotatable about its axis center (up and down direction). The mowing input pipe 23 is disposed in a state of being hardly offset above the vertical axis 21 '(see FIGS. 9 and 11).

The holder member 22 'is a bisected lower half holder bearing portion 22a' and an upper half bisected upper holder bearing portion 22b fixed by a bolt to the lower holder bearing portion 22a '. '). These upper and lower holder bearing portions 22a 'and 22b' rotatably support the proximal end of the mowing input pipe 23 (an end portion closer to the vertical support shaft 21 ').

A stopper mechanism 70 'as another example is disposed between the holder member 22' and the harvesting input pipe 23. As shown in FIG. The stopper mechanism 70 'is provided in the receiving portion 71' integrally provided on the upper surface side of the mowing input pipe 23 and the holder member 22 '(more specifically, the upper holder bearing portion 22b'). A horizontal slide type stopper member 74 'is slidably supported along the longitudinal direction of the mowing input pipe 23 by the guide block portion 72' provided.

In this other example, the cover case 80 'which incorporates a bevel gear mechanism (not shown) and the conveyance drive shaft 59 is integrally provided in the upper part of the holder member 22' in the mowing input pipe 23. have. And the flange part which protruded in the radial outer direction among the cover cases 80 'is used as the accommodating part 71'.

The guide block portion 72 'is integrally provided on the upper holder bearing portion 22b' of the holder member 22 'and has a shape of an upward opening U-shape. As apparent from this embodiment, the guide block portion 72 'is formed such that the recessed groove 73' opened upwardly extends along the longitudinal direction of the mowing input pipe 23. As shown in FIG. The side end surface (longitudinal surface) shape of the recessed groove 73 'is set to substantially rectangular shape (refer FIG. 11). The stopper member 74 'is slidably fitted in the concave groove 73' of the guide block portion 72 '. In this case, the stopper member 74 'is also formed in a columnar shape so as to be able to slide in the concave groove 73' without rattle, similarly to the previous embodiment.

On the outer surface (upper surface) of the guide block portion 72 ', a cover plate 75' made of a thin metal plate that covers the laterally long upward opening in the concave groove 73 'from above is fixed by bolts. The guide groove hole 76 'extending along the concave groove 73' is formed in the part which overlaps with the concave groove 73 'among the cover plates 75'. A knob screw 77 'serving as a switching holding means is screwed into the stopper member 74' in the recessed groove 73 'via the guide groove hole 76'. The form of position holding of the stopper member 74 'by the knob screw 77' is the same as in the case of the previous embodiment.

In the state where the stopper member 74 'is held in the free position (see the dashed-dotted state in Figs. 9 and 10), the stopper member 74' is provided with a receiving portion 71 'on the side of the mowing input pipe 23 (plan) Without contacting the branch), rotation around the axis of the cutting input pipe 23 itself, or lifting and lowering of the harvesting section 3 around the cutting input pipe 23 is allowed.

On the other hand, when the stopper member 74 'is held in the locked position (refer to the solid line state in Figs. 9 and 10) while the harvesting section 3 is rotated up to a predetermined height position (e.g., the upper limit position), the stopper member As a result of the 74 'contacting the receiving portion 71' (flange portion) on the side of the mowing input pipe 23 from below and preventing the downward rotation of the mowing input pipe 23, the mowing part 3 is predetermined. Will be maintained at the height position.

As described above, the stopper member 74 'is provided on the vertical support shaft 21' side (holder member 22 '), while the receiving portion 71' for the stopper member 74 'is provided with a mowing input pipe ( Also in the case of the installation on the 23) side, under the restriction of the stopper member 74 ', the harvesting section 3 is prevented from rotating downward to the lower limit, and the harvesting section 3 which has been rotated openly collides with the ground and is deformed. The damage can be prevented beforehand. That is, also in the structure of the stopper mechanism 70 'as another example, the effect similar to 1st Embodiment can be exhibited.

In this case, the guide block portion 72 'is integrally provided with the holder member 22' on the vertical support shaft 21 'side and functions as a strength member for compensating the rigidity of the stopper member 74'. . Therefore, as in the case of the previous embodiment, the load acting on the stopper member 74 'can be dispersed in the guide block portion 72' to suppress the excessive load on the stopper member 74 ', As a result, it is possible to promote the effect of improving the support stability for the openly rotated mowing section (3).

The structure of each part in this invention is not limited to embodiment of illustration, It can change variously in the range which does not deviate from the meaning of this invention.

Claims (5)

A traveling body on which an engine and threshing unit are mounted, and a harvesting unit disposed in the front part of the traveling body, wherein the harvesting unit is vertically installed on one side of the front part of the traveling body, A combine having a horizontal axis projecting in the direction, the harvesting portion being capable of lifting and lowering with the horizontal axis as the rotation center, and horizontally rotatable with the horizontal axis with the vertical axis as the rotation center. : A stopper member for contacting a receiving portion formed on the other side of the vertical axis in the horizontal axis and the vertical axis in the horizontal axis to hold the cutting portion in a non-rotating manner is slid along the longitudinal direction of the horizontal axis. Combines characterized in that the installation is possible. 2. The combine according to claim 1, further comprising switching holding means for selectively holding said stopper member in a free position not in contact with a locking position in contact with said receiving portion. The combine according to claim 1 or 2, wherein the stopper member is formed in a columnar shape, while the contact surface with the stopper member in the accommodation portion is formed in a flat surface. The said accommodating part is formed so that it may protrude in the longitudinal direction of the said horizontal axis | shaft from the back side of the said horizontal axis | shaft to the said vertical axis | shaft, and the said vertical axis | shaft is a rotation center as described in any one of Claims 1-3. So as to be able to rotate horizontally with the horizontal support shaft, A portion near the vertical axis in the horizontal axis is integrally provided with a U-shaped guide block having a rear opening when viewed from the side having a concave groove into which the stopper member is slidably fitted. combine. The said accommodating part is provided in the upper surface side of the said horizontal axis | shaft so that it may protrude in the longitudinal direction of the said horizontal axis | shaft, A holder member for supporting the horizontal axis in the state in which the horizontal axis is rotatable about its axis is attached to the upper portion of the vertical axis so as to be rotatable horizontally with the horizontal axis with the vertical axis as the rotation center. A combine characterized in that the holder member is integrally provided with an upwardly open U-shaped guide block having a concave groove into which the stopper member is slidably fitted.

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