JP2018202904A - Steering device of work vehicle - Google Patents

Abstract

To provide a steering device of a work vehicle that facilitates work for mounting a driving unit for rotationally driving a steering shaft on the steering shaft side and facilitates maintenance of the driving unit.SOLUTION: The steering device of a work vehicle comprises a driving unit 20 which is configured to be freely attachable to and detachable from a space between a steering handle 12 and a steering column 22 and rotationally drives a steering shaft 21. The driving unit 20 has a motor 23, a control part 25, a decelerating gear 24, and a unit case 26 in which the motor 23, the control part 25 and the decelerating gear 24 are stored to be unitized. The unit case 26 is constituted of an upper body 26A and a lower body 26B separately formed. The control part 25 is mounted on the upper body 26A, and the motor 23 and the decelerating gear 24 are supported on the lower body 26B.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a steering device for a work vehicle that can control a steering operation.

  A steering apparatus for a work vehicle that rotates a steering shaft by a motor, the steering column being configured to be detachably mounted between a steering handle, the steering column, the steering handle, and the steering column. 2. Description of the Related Art Conventionally, a work vehicle steering apparatus described in Patent Document 1 is known which includes a drive unit that rotationally drives an inner steering shaft and can control a steering operation by the drive unit.

JP 2014-213615 A

  In the above-mentioned document, it is possible to assist the straight traveling of the traveling machine body by controlling the driving of the motor provided on the steering shaft. However, the motor is provided inside the middle part of the steering column in the vertical direction. Therefore, it takes time to assemble the motor and control unit, and it is necessary to dismantle a part of the steering column and perform work on the control unit side of the traveling aircraft every time maintenance work is performed. There was a problem.

  It is an object of the present invention to provide a steering device for a work vehicle that can facilitate the assembly operation of the drive unit that rotates the steering shaft to the steering shaft side and that facilitates maintenance of the drive unit. It is said.

  In order to solve the above-described problems, the present invention firstly provides a steering device for a working vehicle in which a steering shaft 21 is rotationally driven by a motor 23, and includes a steering handle 12, a steering column 22, a steering handle 12, and a steering column. And a drive unit 20 configured to be detachably mounted between the steering column 22 and the steering shaft 21 in the steering column 22. The drive unit 20 includes a motor 23 and a motor 23. A control unit 25 that controls driving, a reduction gear 24 that reduces the power of the motor 23 and transmits it to the steering shaft 21, and the motor 23, the control unit 25, and the reduction gear 24 are housed inside. A unit case 26 that is unitized, and the unit case 26 is formed separately. The control unit 25 is attached to the upper body 26A, and the motor 23 and the reduction gear 24 are supported on the lower body 26B. .

  Second, the upper body 26A and the lower body 26B are attached and fixed by at least two fixing portions 53 disposed on the same axis.

  Thirdly, the drive unit 20 is provided with operation means 41 and 44 for operating the control of the steering shaft 21 by the drive unit 20 on the upper body 26A side, and the operation means 41 and 44 include the steering shaft 21 and the steering shaft 21. It is characterized by being arranged between the handle 12 and the outer peripheral side.

  In the drive unit, the control unit is centrally arranged on the upper body side, and the reduction gear and the motor are centrally arranged on the lower body side, so that the assembly work of the drive unit is facilitated and the control system and the drive are driven. Since the members arranged in the system are different, the maintenance work is facilitated.

  In addition, the upper body and the lower body are attached and fixed by at least two fixing portions disposed on the same axis, and the upper body is fixed to the lower body. Since the shaft is pivotably attached, the maintenance work in the unit case and the assembly work of the drive unit are facilitated.

  Further, the drive unit is configured such that operation means for operating control of the steering shaft by the drive unit is disposed on the upper body side, and the operation means is disposed between the steering shaft and the outer peripheral side of the steering handle. According to the above, since the operating means for operating the drive unit can be visually recognized from the gap between the steering handle shaft and the outer peripheral side serving as the handle of the steering handle, workability is improved.

It is a side view of a tractor to which the present invention is applied. It is the principal part perspective view which showed the control part. It is the principal part perspective view which showed the attachment or detachment aspect of the control unit. It is the perspective view which showed the control unit. (A) thru | or (C) are the top view, front view, and side view which showed the control unit. It is principal part side sectional drawing which showed the attachment state of the control unit. It is a principal part perspective view of the control unit which showed the structure of the deceleration mechanism. It is the exploded view which showed the structure of the unit case. It is the perspective view which showed the open state of the unit case. It is the principal part side view which showed the attachment state of the control unit. It is the principal part perspective view which showed the structure of the attaching part.

  FIG. 1 is a side view of a tractor to which a steering control device of the present invention is applied, FIG. 2 is a perspective view of a main part showing a control unit, and FIG. 3 is a main part showing an attachment / detachment mode of a control unit. It is a perspective view. The tractor includes a body frame 3 supported by a pair of left and right front wheels 1 and a rear wheel 2, a bonnet 4 covering an upper surface side of an engine (not shown) installed on the front side of the body frame 3, and the bonnet 4 And a cabin 7 provided with a maneuvering unit 6 on which an operator gets on and steers the vehicle. A traveling machine body 8 is configured behind the traveling machine body 8 via an elevating link 9. A work machine (not shown) such as a rotary cultivator is connected so as to be movable up and down.

  The steering unit 6 includes a seat 11 on which an operator is seated, a steering handle 12 that is a steering operation tool disposed on the front side of the seat 11, and a display panel 13 that is disposed on the front side of the steering handle 12. The forward / reverse switching lever 14 disposed on the left side of the steering handle 12, the throttle lever 16 disposed on the right side of the steering handle 12, and the lifting / lowering operation of the working machine disposed on the front side of the throttle lever 16 Is provided with a lift lever 17 for operating the vehicle, a direction indicator lever 15 disposed on the back side of the throttle lever 16, and a floor step 18 which is a floor provided between the seat 11 and the steering handle 12. .

  The steering handle 12 is provided with a control unit 20 for controlling (assisting) the steering operation on the rotating shaft side. The control unit 20 is mounted on the upper end side of a steering shaft (steering shaft) 21 extending in the vertical direction, and is attached and fixed to the upper side of a steering column 22 that covers the steering shaft 21 (see FIG. 3).

  As a result, the steering shaft 21 is rotated (steered) by the operator via the steering handle 12, and the steering operation is controlled (assisted) by being driven to rotate by the control unit 20. ) Is configured to be possible. The control unit 20 will be described later.

  Next, the control unit will be described with reference to FIGS. 4 is a perspective view showing the control unit, FIGS. 5A to 5C are a plan view, a front view, and a side view showing the control unit, and FIG. 6 is a mounting state of the control unit. FIG. 7 is a perspective view of the main part of the control unit showing the configuration of the speed reduction mechanism, FIG. 8 is an exploded view showing the configuration of the unit case, and FIG. FIG. 5 is a perspective view showing an open state of the unit case.

  The control unit 20 includes a drive motor (motor) 23 that rotates the steering shaft 21, a speed reduction mechanism 24 that decelerates the motor output of the drive motor 23, and a control unit 25 that controls the drive of the drive motor 23. Are unitized by being housed in a unit case 26 divided vertically by a lower case body (lower body) 26B and an upper case body (upper body) 26A. The control unit 20 has a lower surface side of the unit case 26 detachably attached to an upper end side of the steering shaft 21 (steering column 22), and the steering handle 12 is attached to the upper surface side of the unit case 26. It is configured to be.

  The speed reduction mechanism 24 includes a plurality of speed reduction gears supported on the lower case body 26B side. Specifically, the large-diameter gear portion 31b and the small-diameter gear portion 31a are integrally formed so as to be disposed on the same axis, and the large-diameter gear portion 31b is provided on the output shaft on the drive motor 23 side. A first reduction gear 31 that meshes with the gear 29 and a second diameter gear that engages with the small diameter gear portion 31a of the first reduction gear 31 and has a larger diameter than the large diameter gear portion 31b of the first reduction gear 31. And a reduction gear 32 (see FIG. 7).

  Thereby, the motor output by the drive motor 23 is decelerated by transmission from the output gear 29 → the first reduction gear 31 → the second reduction gear 32, and is connected to rotate integrally with the second reduction gear 32. Further, it is transmitted to the steering shaft 21 side.

  More specifically, a boss member 33 that rotates integrally with the second reduction gear 32 is provided on the lower surface side of the second reduction gear 32 on the axis side, and the steering shaft 21 is attached to the boss member 33. As a result, the second reduction gear 32 and the steering shaft 21 are connected to rotate integrally (see FIG. 6).

  The boss member 33 is formed so that the inner peripheral surface side becomes narrower from the lower end side upward, and the steering shaft 21 inserted through the boss member 33 has the upper end side of the second reduction gear 32. It is comprised so that it may hold | maintain in the predetermined position which penetrated the axial center side (refer FIG. 6). In addition, a groove portion is formed on the inner peripheral surface side of the boss member 33 so that a rib-like projection portion formed along the axial direction is fitted to the upper end side of the steering shaft. The gear 32 and the steering shaft 21 inserted through the boss member 33 are integrally rotated.

  According to this configuration, the control unit 20 can be detachably attached along the extending direction of the steering shaft 21 by inserting the upper end side of the steering shaft 21 on the steering unit 6 side into the boss member 33. At the same time, the steering operation can be controlled by rotating the steering shaft 21 by the motor output of the drive motor 23 (see FIG. 6).

  Further, on the upper surface side of the second reduction gear 32, a connecting plate 34 fixed by a bolt 35 so as to rotate integrally with the second reduction gear 32, an axial rotation integrally with the connecting plate 34, and the aforementioned A steering attachment shaft 36 extending along the extending direction of the steering shaft 21 inserted through the boss member 33 is provided (see FIGS. 4 to 7).

  The steering attachment shaft 36 is formed to have a shape substantially the same as that of the upper end side of the steering shaft 21, so that the existing steering handle 12 can be detachably attached with the same configuration as the boss member 33. It is configured. The steering attachment shaft 36 may be configured to screw a steering handle fitted to the steering attachment shaft 36 so that the existing steering handle 12 can be smoothly attached and detached.

  According to this configuration, when the steering handle 12 mounted on the steering mounting shaft 36 is rotated, the boss member 33 is moved via the steering mounting shaft 36 → the connecting plate 34 → the second reduction gear 32 → the boss member 33. Since the inserted steering shaft 21 is rotated, the steering operation can be performed in the same manner as the normal steering handle 12.

  As the steering handle 12 attached to the steering mounting shaft 36, a dedicated product having a thin thickness in the steering shaft direction may be used. As a result, by mounting the control unit 20, the position of the steering handle 12 shifted upward by the speed reduction mechanism 24 along the axial direction of the steering shaft 12 can be brought closer to the original installation position. There is less discomfort during operation.

  The drive motor 23 is a stepping motor. As a result, the drive motor 23 can be made small and have high output, so that the space in the unit case 26 in which the drive motor 23 is accommodated can be used efficiently and the unit case 26 can be made more compact. . Furthermore, it becomes easy to finely control the operation position of the steering shaft 21 (steering handle 12) rotated by the drive motor 23.

  The unit case 26 is formed in a box shape divided into upper and lower parts by the lower case body 26B and the upper case body 26A covering the upper side of the lower case body 26B, and the drive motor 23, The deceleration mechanism 24 and the control unit 25 are accommodated. The lower case body 26B includes a support portion 26B1 that supports the speed reduction mechanism 24 and the drive motor, a lower surface cover portion 26B2 that covers the lower surface side of the support portion 26B1, and a rear portion (front side) of the support portion 26B. It is comprised from the makeup | decoration cover part 26B3 which covers the side (refer FIG. 8). Thereby, the appearance when the unit case 26 is detached from the steering shaft 21 side is also kept good.

  The upper case body 26A is entirely formed in a dish shape covering the upper surface and outer periphery of the lower case body 26B, and the insertion hole 38 through which the steering attachment shaft 36 to which the steering handle 12 is attached is inserted, and the insertion hole An operation panel 39 disposed on the front side (rear side) of 38 is provided.

  Further, on the back side of the operation panel 39, a support portion 42 that supports the control portion 25 that controls the driving of the drive motor 23 based on the operation of various operation switches provided on the operation panel 39 is formed. (See FIG. 6). By covering the panel-like control part 25 with resin by the support part 42, it is possible to prevent failure due to vibration or the like. Incidentally, on the left side of the operation panel 39, a power switch 43 for operating ON / OFF of the power of the control unit 20 is provided.

  The operation panel 39 includes a plurality of operation switches 41 including a changeover switch 41 for switching to a plurality of control modes for controlling the steering operation by the control unit 20, an adjustment switch 44 for adjusting the sensitivity of the steering operation by the control unit 20, and the like. , 44 and a display unit 46 including a lamp or the like for displaying the control state of the control unit 20 when the operation switches 41, 44 are operated (see FIGS. 4 and 5).

  Incidentally, the control unit 20 performs, for example, a long-distance straight-ahead control that travels straight toward a far-off target point, and a follow-up travel control that travels along the side of the traveling machine body and the work trace / running trace. The operation panel 39 can be used to switch to each control state.

  Further, since the operation panel 39 and the power switch 43 are disposed on the front (rear) side of the steering mounting shaft 36, the operation panel 39 and the power switch 43 are provided with a steering wheel as viewed in the axial direction of the steering shaft 21. The rotating shaft of the handle 12 and the handle of the steering handle 12 are arranged.

  According to this configuration, the operator can visually recognize the operation panel 39 from a position where it is easy to see, specifically, from a gap formed between the handle of the steering handle 12 and the rotating shaft. Thus, the operator can always visually recognize the control state of the control unit 20 by the display unit 46 at hand, and the positions of the operation switches 41 and 44 on the operation panel 39 side and the power switch 43 are also easy to see. Therefore, the control unit 20 can be easily operated.

  In addition, the upper case body 26A includes various operation levers that are often arranged around the steering handle 12 at one place on the left side and two places on the front and back sides of the right side. Notched recesses 47, 48, and 49 are formed to allow the swing operation.

  More specifically, the upper case body 26A is formed with a first recess 47 for allowing a swing operation of the throttle lever 16 on the back side (front side) on the right side surface. A second recess 48 for allowing the swinging operation of the elevating lever 17 is formed on the rear side, and a third recess for allowing the swinging operation of the forward / reverse switching lever 14 on the center side of the left side surface is formed. A recess 49 is formed.

  Like the working vehicle in the illustrated example, the forward / reverse switching lever 14 is of a type that does not interfere with the control unit 20 mounted on the lower side of the steering handle 12 (see FIGS. 1 to 3), and the third recess 49 When it is not necessary to use this, the third concave portion 49 can be closed by attaching a plate-like cover body 49A to the third concave portion 49. When neither the first concave portion 47 nor the second concave portion 48 is used, the cover bodies 47A and 48A can be attached to each.

  The lower case body 26B rotatably supports the second reduction gear 32 having the largest diameter at the center back side thereof, and the steering mounting shaft 36 provided on the second reduction gear 32 has an upper case body 26A. It is configured to protrude from the insertion hole 38 on the side to the upper side of the unit case 26. Further, the drive motor 23 for rotating the steering shaft 21 connected to the second reduction gear 32 is moved toward the left (right in the illustrated example) side on the front (rear) side of the lower case body 26B. The first reduction gear 31 is arranged between the drive motor 23 and the second reduction gear 32 so as to mesh with each other.

  At this time, the first reduction gear 31 is arranged such that the large diameter portion 31b wraps with the drive motor 23 as viewed in the axial direction of the steering shaft 21 (see FIGS. 7 to 9). According to this configuration, since the amount of protrusion of the lower case body 26B toward the front side is suppressed, the front direction from the steering mounting shaft 36 of the unit case 26 can be configured more compactly.

  Furthermore, since the large diameter portion 31b side of the first reduction gear 31 is disposed above the drive motor 23 and the second reduction gear 32, the output gear of the drive motor, the first reduction gear 31 and the second reduction gear 31 are provided. Compared with the case where the reduction gear 32 is arranged side by side in the vertical direction, the vertical direction of the drive motor 23 and the reduction mechanism 24 is arranged more compactly. With this configuration, the thickness direction of the control unit 20 can be configured more compactly.

  As shown in FIGS. 8 and 9, a pair of left and right lower mounting pieces 51 are formed on the rear end side of the lower case body 26B, and left and right sides are formed on the rear end side of the upper case body 26A. A pair of upper mounting pieces 52 are formed, and the lower mounting body 51 and the upper mounting body 52 are fastened together by a fixing bolt 53, whereby the lower case body 26B and the upper case body 26A are rear end. It is detachably connected at two places on the side.

  At this time, the pair of left and right fixing bolts 53, 53 that connect the lower case body 26 </ b> B and the upper case body 26 </ b> A on the rear end side are oriented in the left-right direction and the axis of each fixing bolt 53. Are arranged on the same axis.

  As a result, the unit case 26 loosens the tightening of the lower mounting piece 51 and the upper mounting piece 52 by the fixing bolt 53, so that the front end side of the upper case body 26 </ b> A is centered on the axis of the fixing bolt 53. Can be opened and closed vertically with respect to the lower case body 26B (see FIG. 9). Incidentally, the front end side of the unit case 26 is provided with a fixing bolt 54 for connecting and fixing the upper case body 26A and the lower case body 26B, and a fixing portion 55 to which the fixing bolt 54 is fastened and fixed. The unit case 26 can be fixed in a closed state.

  According to this configuration, the control unit 20 can visually recognize the inside of the control unit without disassembling the unit case by turning the upper case body 26A upward to be in the open state.

  With the above-described configuration, the control unit 20 supports the control system such as the control unit 25 and the operation panel 39 on the upper case body 26A side, and includes the drive motor 23 and the speed reduction mechanism 24 on the lower case body 26B side. Since the drive system is supported, the assembly work of the unit case 26 can be made smooth and easy, and maintenance is easy.

  Next, based on FIG.10 and FIG.11, the attachment aspect to the steering column side of a control unit is demonstrated. FIG. 10 is a side view of the main part showing the mounting state of the control unit, and FIG. 11 is a perspective view of the main part showing the configuration of the mounting part.

  The lower case body 26B is provided with a plate-like attachment portion 56 extending downward on the front end side thereof, and the attachment portion 56 is provided on the lower end side of the left and right sides that are recessed upward. A pair of recesses 56a, 56a is formed (see FIG. 11). A pair of left and right mounting bolts 57, 57 are fixed in advance on the steering column 22 side to which the mounting portion 56 is mounted.

  At this time, the mounting bolt 57 fixed to the steering column 22 side is fixed in a state where the screw portion is screwed to the steering column side, and the cylindrical portion and the head of the mounting bolt 57 forward from the steering column 22. The part is fixed so as to protrude. Further, fitting members 58 and 58 made of a pair of grommets, washers and the like are inserted into the mounting bolt 57 in this state, and a recess 56a on the mounting portion side is formed between the pair of fitting members 58 and 58. It is comprised so that it may be inserted (refer FIG. 10).

  As a result, the control unit 20 fits and connects the upper end side of the steering shaft 21 with the boss member 33 on the second reduction gear 32 side, and the mounting portion provided on the front end side of the control unit 20. The control unit 20 is mounted at a predetermined position by inserting the recessed portions 56a of 56 into the mounting bolt 57 side fixed to the upper end side of the steering column 22 from the upper side.

  According to this configuration, the front end side of the control unit 20 is locked to the steering column 22 side by the mounting portion 56, so that when the drive motor 23 outputs the motor, the entire control unit 20 is the axis of the steering shaft 21. While being able to prevent the situation from being taken around, vibration and backlash of the control unit 20 can be suppressed. In addition, the loading / unloading operation of the control unit 20 on the steering shaft 21 side can be performed smoothly.

12 Steering handle 20 Control unit (drive unit)
21 Steering shaft (steering shaft)
22 Steering column 23 Drive motor (motor)
24 Reduction mechanism (reduction gear)
25 Control Unit 26 Unit Case 26A Upper Case Body (Upper Body)
26B Lower case body (lower body)
41 Operation switch (operation means)
44 Adjustment switch (operating means)
53 Fixing bolt (fixing part)

Claims (3)

A work vehicle steering device for rotating a steering shaft (21) by a motor (23),
A steering handle (12);
Steering column (22);
A drive unit (20) configured to be detachably mounted between the steering handle (12) and the steering column (22) and configured to rotationally drive the steering shaft (21) in the steering column (22); Prepared,
The drive unit (20) is a motor (23), a control unit (25) that controls the drive of the motor (23), and the power of the motor (23) is decelerated and transmitted to the steering shaft (21). And a unit case (26) in which the motor (23), the control unit (25), and the reduction gear (24) are housed and unitized.
The unit case (26) includes an upper body (26A) and a lower body (26B) formed separately,
The upper body (26A) is attached with the control unit (25),
A steering device for a work vehicle, wherein the lower body (26B) supports the motor (23) and the reduction gear (24). The steering device for a work vehicle according to claim 1, wherein the upper body (26A) and the lower body (26B) are attached and fixed by at least two fixing parts (53) arranged on the same axis. . The drive unit (20) is provided with operating means (41, 44) for operating the steering shaft (21) by the drive unit (20) on the upper body (26A) side,
The work vehicle according to claim 1, wherein the operation means (41, 44) is arranged between a steering shaft (21) and an outer peripheral side of the steering handle (12). Steering device.

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