JP2020095697A - Work vehicle - Google Patents

Abstract

To provide a work vehicle capable of intuitively and easily recognizing an operation status of a plurality of operation tools and a pressing position of a pressing operation tool.SOLUTION: A work vehicle includes: a driver seat; and an arm rest which is provided on a side of the driver seat and has a surface where a plurality of operation tools are arranged, and the plurality of operation tools include one operation tool having: a pressing operation part which is operated through pressing; a display part which indicates whether an operating state or a non-operating state is valid; and a projection which is provided between the pressing operation part and the display part and divides the pressing operation part and the display part.SELECTED DRAWING: Figure 23

Description

The present invention relates to a work vehicle such as a tractor.

Conventionally, the work vehicle disclosed in Patent Document 1 is known.
The work vehicle disclosed in Patent Document 1 includes a driver's seat and an armrest provided on the side of the driver's seat. The armrest is provided with a plurality of operation tools (operation switches), and the operation tools include a pressing operation tool (button) and a rotation operation tool (dial).

JP, 2016-16739, A

However, in the work vehicle disclosed in Patent Document 1, it is possible to intuitively and easily recognize the operating state (whether in the operating state or the non-operating state) and the pressed position of the operating tool (operating switch). It does not have a configuration that can. Further, since the pressing operation tool and the rotating operation tool are arranged separately from each other, it is difficult for an operator to intuitively grasp the position of the operation tool. In particular, it has been difficult to intuitively distinguish and grasp the traveling system pressing operation tool and the working system pressing operation tool included in the pressing operation tool.

In view of the above-mentioned circumstances, the present invention provides a work vehicle that allows intuitive and easy recognition of the operating state and the pressed position of an operating tool. Further, the present invention provides a work vehicle in which the traveling system pressing operation tool provided on the armrest and the working system pressing operation tool can be intuitively and clearly distinguished, and the operability of the pressing operation tool is excellent. ..

A work vehicle according to an aspect of the present invention includes a driver's seat and an armrest provided on a side of the driver's seat and having a plurality of operating tools arranged on a surface thereof. A pressing operation section to be operated, a display section indicating which of an operating state and a non-operating state, a pressing operation section and the display section which are provided between the pressing operation section and the display section. One operation tool having a protrusion that partitions the and.

Preferably, the protrusion extends linearly between the pressing operation section and the display section.
Preferably, the pressing operation unit is provided with a symbol mark indicating the content of the operation, the display unit is a lamp that is lit when in the operating state and is turned off when in the non-operating state, and the protrusion is The symbol mark and the lamp are divided.

Preferably, the plurality of operation tools include another operation tool that has the pressing operation unit and does not have the display unit, and the other operation tool is the protrusion as compared with the protrusion of the one operation tool. It has a protrusion provided at a position away from the symbol mark.
Preferably, the one operation tool is a rectangular shape having a longitudinal direction and a lateral direction in a plan view, the display unit is a non-pressable portion provided on one side of the longitudinal direction, The pressing operation portion is a pressable portion provided on the other side in the longitudinal direction with respect to the protrusion.

A work vehicle according to an aspect of the present invention includes a driver's seat and an armrest provided on a side of the driver's seat and having a plurality of operating tools arranged on a surface thereof, and the plurality of operating tools relate to traveling. A running system pressing operation tool for performing an operation by pressing and a working system pressing operation tool for performing an operation related to work by pressing, wherein the working system pressing operation tool has a smaller area than the traveling system pressing operation tool and is integrated. It includes a small-sized operation tool having a plurality of pressing operation portions arranged in parallel.

Preferably, the traveling system pressing operation tool includes a pressing operation section and a display section indicating whether the operation system is in an operating state or a non-operating state, and the small operation tool includes a pressing operation section. And does not have the display section.
Preferably, in the small-sized operation tool, the plurality of pressing operation parts are integrated.
Preferably, a rotary operation tool for performing an operation related to work by rotating about a vertical axis is provided, and the small operation tool and the rotary operation tool are arranged at positions adjacent to each other in a width direction of the armrest.

Preferably, a lifting device for raising and lowering the working device is provided, and the small operating tool and the rotating operation tool are operating tools for operating the lifting device.
Preferably, the surface of the armrest is between a first region provided on the driver seat side, a second region provided on the opposite side to the driver seat side, and between the first region and the second region. And a third region provided in the first region, the traveling system pressing operation tool is arranged in the first region, the rotation operation tool is arranged in the second region, and the small operation tool is arranged in the third region. It is arranged.

According to the work vehicle, the plurality of operating tools include a pressing operation section that is operated by pressing, a display section that indicates which of an operating state and a non-operating state, and a pressing operation section and a display section. Recognizing the operating state (whether in the operating state or the non-operating state) and the pressing position of the operating tool, since it includes one operating tool that is provided between and has a protrusion that partitions the pressing operation unit and the display unit. Can be done intuitively and easily.

Further, it is possible to obtain a working vehicle in which the traveling system pressing operation tool and the working system pressing operation tool provided on the armrest can be intuitively and clearly distinguished, and the operability of the pressing operation tool is excellent. More specifically, the work system pressing operation tool includes a small operating tool having a plurality of pressing operation portions arranged in a smaller area than the traveling system pressing operation tool, and therefore the traveling system pressing operation tool and the work system pressing operation tool are included. It is possible to intuitively and clearly distinguish the pressing operation tool from the size difference. In addition, the small-sized operation tool is excellent in operability because the plurality of pressing operation portions are collectively arranged.

It is a top view which shows a driver's seat, an armrest, and a steering wheel. It is the perspective view which looked at an armrest from the upper left rear. It is a top view of an armrest. It is the side view which looked at the armrest from the driver's seat side (left side). It is the side view which looked at the armrest from the opposite side (right side) to the driver's seat. It is a rear view of an armrest. It is the perspective view which looked at the grip vicinity of an armrest from the upper left rear. It is the perspective view which looked at the grip of an armrest from the upper back. It is a top view near the grip of an armrest. It is the figure which looked at the grip vicinity of an armrest from the direction where the back of a grip part becomes a substantially perpendicular surface. It is the side view which looked at the grip vicinity of an armrest from the driver's seat side (left side). It is the side view which looked at the grip vicinity of an armrest from the opposite side (right side) to a driver's seat. It is a rear view near the grip of the armrest. It is CC sectional drawing of FIG. FIG. 14 is a cross-sectional view taken along the line DD of FIG. 13. It is the perspective view seen from the upper left rear with the elbow rest of the armrest open. It is a top view in the state where the elbow rest part of an armrest was opened. It is a top view which shows the front part of an armrest. It is a top view which shows the 1st modification of an armrest. It is the perspective view which looked at the front part of the armrest of the 1st modification from the upper left back. It is the perspective view which looked at the front part of the armrest of the 1st modification from the lower right front. It is a top view which shows the 2nd modification of an armrest. It is a top view which shows the operation tool arrangement part of the armrest of the 2nd modification. It is a top view which shows the rear operation tool group of the armrest of the 2nd modification. It is a top view of a work vehicle. It is a side view of a work vehicle.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 25 is a plan view of the work vehicle 1, and FIG. 26 is a side view of the work vehicle 1. The work vehicle 1 is a vehicle for performing agricultural work, and is a tractor in the case of the present embodiment. Hereinafter, the work vehicle 1 will be described as the tractor 1. However, the work vehicle 1 is not limited to a tractor.

In the following description, the front side (direction of arrow A1 in FIGS. 25 and 26) of the driver seated in the driver's seat 10 of the tractor 1 is the front side, and the rear side of the driver (direction of the arrow A2 in FIGS. 25 and 26) is the rear side. The left side of the driver (arrow B1 direction in FIG. 25) is the left side, and the right side of the driver (arrow B2 direction in FIG. 25) is the right side. Further, the direction indicated by the arrow K1 in FIGS. 25 and 26 will be described as the front-back direction. Further, the horizontal direction orthogonal to the front-rear direction (direction of arrow K2 in FIG. 26) is referred to as the vehicle body width direction.

<Overall structure of work vehicle>
As shown in FIGS. 25 and 26, the tractor 1 includes a vehicle body 2, a traveling device 3, and a connecting portion 4.
As shown in FIG. 26, the vehicle body 2 has a vehicle body frame 5, a clutch housing 6, and a mission case 7. The vehicle body frame 5 extends in the front-rear direction of the vehicle body 2. A prime mover 8 is mounted on the vehicle body frame 5. In the case of this embodiment, the prime mover 8 is the engine 8. The upper side of the engine 8 is covered with a hood 13. The clutch housing 6 is connected to the rear part of the engine 8 and accommodates the clutch. The mission case 7 is connected to the rear part of the clutch housing 6 and accommodates a transmission, a rear wheel differential device, and the like. The transmission includes a main transmission and an auxiliary transmission. A PTO shaft (rear PTO) 9 projects rearward of the vehicle body 2 (rearward of the mission case 7). Although not shown, a PTO shaft (front PTO) also projects in front of the vehicle body 2. The rear PTO and the front PTO are rotated or stopped by connecting or disconnecting a PTO clutch (not shown).

The traveling device 3 has a front wheel 3F provided at a front portion of the vehicle body 2 and a rear wheel 3R provided at a rear portion of the vehicle body 2. The front wheels 3F are supported by the vehicle body frame 5. The rear wheel 3R is supported by the output shaft of the rear wheel differential device. The rear wheel 3R may be a tire or a crawler.
The connecting portion 4 is provided on the rear portion of the vehicle body 2. The connecting portion 4 is a portion for connecting a working device (ground working machine) for working on a field (farmland) or the like to the rear part of the tractor 1. The work device is driven by the drive force transmitted from the PTO shaft 9, for example. Specifically, the working device is a tiller, a spreader, a seeder, and the like, but is not limited to these.

The connecting portion 4 is an elevating device that is driven by an actuator such as a hydraulic cylinder to raise or lower the working device (hereinafter, also referred to as “elevating device 4”). In the case of the present embodiment, the lifting device 4 is a three-point link mechanism and has a lift arm 4a, a lower link 4b, a top link 4c, a lift rod 4d, and a lift cylinder 4e. Further, a horizontal control device (Monroe) for maintaining the work device horizontal is provided at the rear part of the vehicle body 2.

The vehicle body 2 is equipped with a driver's seat 10 and a cabin 11 surrounding the driver's seat 10. As shown in FIG. 1, the driver's seat 10 has a backrest portion 10a and a seat portion 10b. A steering wheel 12 is provided in front of the driver's seat 10.
The tractor 1 includes a control device (not shown) that controls a traveling system and a work system. The control device includes an arithmetic unit (CPU or the like), a storage unit (memory), and the like, and executes predetermined control based on a program stored in the storage unit. More specifically, the control device controls the operating signals (lever, switch, dial, etc.) installed around the driver's seat 10 and the detection signals of various sensors mounted on the vehicle body 2. The traveling system and work system of the tractor 1 are controlled based on the above. For example, the control device executes control related to lifting and lowering of the lifting device 4 based on an operation signal from the operation tool, control of the rotation speed of the engine 8 based on a detection signal from the accelerator pedal sensor, and the like.

<Armrest>
As shown in FIG. 1, an armrest 15 is provided on one side of the driver's seat 10. The armrest 15 is arranged such that its longitudinal direction faces the front-rear direction and its lateral direction faces the vehicle body width direction. Hereinafter, the lateral direction of the armrest 15 is referred to as the width direction of the armrest 15. The width direction of the armrest 15 is a direction orthogonal to the longitudinal direction of the armrest 15 and is the same direction as the vehicle body width direction. In the case of the present embodiment, the one side is the right side, and the other side opposite to the one side is the left side. Therefore, one side of the armrest 15 is opposite to the driver's seat 10 side, and the other side of the armrest 15 is the driver's seat 10 side.

As shown in FIGS. 2 to 6, the armrest 15 has a main body 16 and a swing operation section 17, an elbow rest section 18, and an operation tool disposition section 19 provided on the main body 16. The main body 16 has an upper surface 16a, a lower surface 16b, a left side surface 16c, a right side surface 16d, a front surface 16e, and a rear surface 16f.
As shown in FIGS. 4 and 5, the upper surface 16a is gently curved upward in a convex shape. The upper surface 16a is inclined so as to move downward as it goes forward. The lower surface 16b has a rear portion 16b2 recessed upward as compared to the front portion 16b1. This prevents the lower surface 16b of the armrest 15 from coming into contact with the knee (right knee) of the operator seated in the driver's seat 10. An attachment 39 for attaching the armrest 15 to the side portion of the driver's seat 10 is provided on the rear portion 16b2 of the lower surface 16b.

The left side surface 16c connects the left portion of the upper surface 16a and the left portion of the lower surface 16b. The right side surface 16d connects the right portion of the upper surface 16a and the right portion of the lower surface 16b. The front surface 16e connects the front portion of the upper surface 16a, the front portion of the lower surface 16b, the front portion of the left side surface 16c, and the front portion of the right side surface 16d. The rear surface 16f connects the rear portion of the upper surface 16a, the rear portion of the lower surface 16b, the rear portion of the left side surface 16c, and the rear portion of the right side surface 16d.

As shown in FIG. 6, the left side surface 16c is inclined so as to shift to the right as it goes downward. The right side surface 16d is inclined so as to shift to the left as it goes downward. As shown in FIGS. 4 and 5, the front surface 16e is inclined so as to move backward as it goes downward. The rear surface 16f is inclined so as to move forward as it goes downward.

<Swing operation part>
As shown in FIGS. 2 to 5, the swing operation portion 17 is provided on the front portion of the armrest 15. The swing operation unit 17 has a pedestal 20 and an operation lever 21.
The pedestal 20 is provided so as to protrude from the front portion of the armrest 15. The pedestal 20 is bulged upward from the upper surface 16a of the main body 16. The pedestal 20 is raised above the upper surface 18a of the elbow rest 18. In other words, the height of the upper end of the pedestal 20 (height from the upper surface 16a) is higher than the height of the upper surface 18a of the elbow rest 18. The pedestal 20 is formed in a substantially truncated pyramid shape, and becomes thinner toward the upper side. The pedestal 20 has an upper surface 20a, a front surface 20b, a rear surface 20c, a left surface 20d, and a right surface 20e. The distance between the front surface 20b and the rear surface 20c and the distance between the left surface 20d and the right surface 20e become smaller toward the upper side. As shown in FIGS. 4 and 5, the upper surface 20a of the pedestal 20 is curved upward in a convex arc shape.

The pedestal 20 is made of a hard material and does not deform when the operation lever 21 is swung. As shown in FIGS. 7 and 11, an opening 20f is formed in the upper surface 20a of the pedestal 20. The opening 20f is formed in an oval shape extending in the front-rear direction.
As shown in FIGS. 4 to 6, the operation lever 21 has a rocking body 22 and a grip 23.

The rocking body 22 is a shaft body that is inserted into the pedestal 20. The rocking body 22 projects upward from the upper surface 20a of the pedestal 20. A skirt 22 a is provided below the rocking body 22. The skirt 22a is curved along the upper surface 20a of the pedestal. The skirt 22a moves along the upper surface 20a of the pedestal as the operation lever 21 swings.

As shown in FIGS. 4 and 5, the oscillating body 22 extends so as to be inclined from the lower side toward the upper side from the rear side toward the front side. The rocking body 22 can rock in the front-back direction. A lower portion of the rocking body 22 is rockably supported by a horizontal shaft (a shaft extending in the vehicle body width direction) 21a provided inside the armrest 15. As a result, the operation lever 21 (oscillating body 22 and grip 23) can be swung in the front-rear direction about the horizontal axis. By swinging the operating lever 21 in the front-rear direction, it is possible to operate the transmission device and perform a shift operation.

When the operating lever 21 swings forward, the swinging body 22 stops by hitting the front edge of the opening 20f, and when swinging backward, the swinging body 22 hits the rear edge of the opening 20f and stops. That is, the swinging of the operating lever 21 in the front-back direction is restricted by the opening 20f.
As shown in FIG. 4, a swing fulcrum (horizontal axis that supports the lower portion of the swing body 22) 21a of the operation lever 21 is provided inside the pedestal 20 that is bulged upward from the upper surface 16a of the main body 16. Therefore, the swing fulcrum 21a of the operating lever 21 is located above the upper surface 16a of the main body 16. As a result, the stroke of swinging the operating lever 21 in the front-back direction can be made smaller than in the case where the swinging fulcrum is provided inside the main body 16 (below the upper surface 16a), and the operability of the operating lever 21 can be reduced. Will be good.

The grip 23 is provided on the upper portion of the rocking body 22. As shown in FIGS. 7 to 13, the grip 23 has a grip portion 24, an operation portion 25, and an extension portion 26. The grip portion 24 is a portion that an operator seated in the driver's seat 10 grips with one hand (right hand). The operation part 25 is a part for an operator holding the grip part 24 to extend his/her thumb to perform an operation. The extension portion 26 is a portion for an operator who holds the grip portion 24 to put a little finger side (a little finger ball) of the palm, and supports the palm holding the grip portion 24 so as not to fall down. The grip portion 24, the operation portion 25, and the extension portion 26 are integrally formed.

First, the shape of the grip portion 24 of the grip 23 will be described.
The grip portion 24 is provided on one side (right side) of the grip 23. In other words, the grip portion 24 is provided on the side of the grip 23 opposite to the driver seat 10 side. As shown in FIGS. 7 to 13, the grip portion 24 has a front surface 24a, a back surface 24b, an upper surface 24c, a lower surface 24d, a left side surface 24e, a right side surface 24f, and a corner edge surface 24g.

The surface 24a of the grip portion 24 constitutes the right portion of the surface of the grip 23 (the surface facing the worker seated in the driver's seat 10). The surface 24a is a portion against which the palm touches when gripping the grip portion 24. As shown in FIG. 10, the surface 24a is a curved surface that extends in a curved manner from the other side (left side) to the one side (right side). Hereinafter, the surface 24a of the grip portion 24 will be referred to as a "curved surface 24a". As shown in FIG. 10, the curved surface 24a is convexly curved so as to bulge rearward. The right portion of the curved surface 24a moves from the rear side to the front side from the left side to the right side. Further, as shown in FIGS. 11 and 12, the curved surface 24a is curved while inclining so as to shift from the lower side to the upper side from the rear side to the front side.

As shown in FIG. 8 and the like, the curved surface 24a has a side edge portion 24h, an upper edge portion 24i, a lower edge portion 24j, and a corner edge portion 24k. The side edge portion 24h, the upper edge portion 24i, the lower edge portion 24j, and the corner edge portion 24k constitute an outer edge portion of the curved surface 24a.
The side edge portion 24h includes a first side edge portion 24h1 and a second side edge portion 24h2. The first side edge portion 24h1 constitutes an edge portion on one side (right side) of the curved surface 24a. The second side edge portion 24h2 constitutes an edge portion on the other side (left side) of the curved surface 24a. The upper edge portion 24i constitutes an upper edge portion of the curved surface 24a. The lower edge portion 24j constitutes the lower edge portion of the curved surface 24a. The corner edge portion 24k connects the side edge portion (first side edge portion) 24h1 and the upper edge portion 24i, and constitutes an upper corner edge portion on one side (right side) of the curved surface 24a. ..

The first side edge portion 24h1, the second side edge portion 24h2, the upper edge portion 24i, the lower edge portion 24j, and the corner edge portion 24k are curved.
The first side edge 24h1 extends downward from above. As shown in FIG. 8 and the like, the first side edge portion 24h1 is curved in a convex shape so as to bulge slightly to one side (rightward) in the middle portion from the upper side to the lower side. Further, the first side edge portion 24h1 moves from the other side (left side) to one side (right side) as it goes downward from above. As shown in FIG. 12 and the like, the first side edge portion 24h1 moves from the front side to the rear side from the upper side to the lower side.

The second side edge portion 24h2 extends downward from above. As shown in FIG. 8 and the like, the second side edge portion 24h2 moves from one side (right side) to the other side (left side) from the upper side to the lower side. The distance between the first side edge portion 24h1 and the second side edge portion 24h2 gradually increases from the upper side to the lower side. As shown in FIG. 11 and the like, the second side edge portion 24h1 moves from the front side to the rear side from the upper side to the lower side. The second side edge portion 24h2 is curved in a convex shape so as to swell upward and rearward at a midway portion from the upper side to the lower side. The curve becomes sharper from the upper side to the lower side.

As shown in FIG. 8 and the like, the upper edge portion 24i extends from the other side (left side) toward one side (right side), and from the other side toward the one side, the upper edge portion 24i extends downward. Curved while inclining to transition. As shown in FIG. 10 and the like, the upper edge portion 24i is convexly curved so as to bulge rearward at a midway portion from one side (right side) to the other side (left side).
As shown in FIG. 9 and the like, the lower edge portion 24j extends from the other side (left side) to one side (right side), and is rearward at a midway portion from the other side to the one side. It is curved so as to bulge.

As shown in FIG. 8 and the like, the corner edge portion 24k is curved so as to connect the first side edge portion 24h1 and the upper edge portion 24i with a smooth curve. The corner edge 24k is curved with a smaller radius of curvature than the first side edge 24h1 and the upper edge 24i. In other words, the corner edge portion 24k is sharply curved as compared with the first side edge portion 24h1 and the upper edge portion 24i.
As shown in FIGS. 7 to 11, the left side surface 24e of the grip portion 24 rises from the operation portion 25 toward the curved surface 24a of the grip portion 24. Hereinafter, the left side surface 24e of the grip portion 24 is referred to as a "standing surface 24e". The upright surface 24e is a portion that can be touched by the thumb when the grip portion 24 is gripped by placing the palm on the curved surface 24a. The upright surface 24e connects the operating portion 25 and the second side edge portion 24h2 of the curved surface 24a. As shown in FIG. 10, the upright surface 24e is slightly inclined from the other side (left side) to one side (right side) as it stands up from the operating portion 25 toward the curved surface 24a. .. The lower edge of the upright surface 24e is connected to the surface 25a of the operation unit 25. The upper edge of the standing surface 24e is connected to the upper surface 24c of the grip portion 24. The right edge of the upright surface 24e is connected to the second side edge 24h2 of the curved surface 24a.

The upper surface 24 c of the grip portion 24 constitutes the right portion of the upper surface of the grip 23. As shown in FIG. 8 and the like, the upper surface 24c of the grip portion 24 is inclined from the upper side to the lower side from the other side (left side) to the one side (right side). The upper surface 24c is curved along the curve of the upper edge portion 24i of the curved surface 24a. As shown in FIGS. 11 and 12, the upper surface 24c transitions from the lower side to the upper side as it goes from the front side to the rear side, and is curved in a convex shape so as to bulge upward and forward at a midway portion from the upper side to the lower side. .. The front edge of the upper surface 24c is connected to the upper edge 24i of the curved surface 24a. The rear edge of the top surface 24c is connected to the back surface 24b. The left edge of the upper surface 24c is connected to the upper edge of the standing surface 24e. The left edge portion of the upper surface 24c is also connected to the upper surface 25c of the operation unit 25. As shown in FIGS. 8 to 10, etc., an operation switch 35 described later is provided on the upper surface 24c.

The right side surface 24f of the grip portion 24 constitutes the right side surface of the grip 23. As shown in FIG. 8 and the like, the right side surface 24f of the grip portion 24 is curved along the curve of the first side edge portion 24h1 of the curved surface 24a. Specifically, the right side surface 24f extends from the upper side to the lower side, and is curved in a convex shape so as to swell slightly to one side (right side) at a midway portion from the upper side to the lower side. In addition, the right side surface 24f moves to one side (right side) from the upper side to the lower side. The distance between the upright surface 24e and the right side surface 24f gradually increases from the upper side to the lower side.

As shown in FIGS. 8 and 9, the corner edge surface 24g of the grip portion 24 connects the upper surface 24c and the right side surface 24f. The corner edge surface 24g is curved along the curve of the corner edge portion 24k of the curved surface 24a. The corner edge surface 24g is curved so as to connect the upper surface 24c and the right side surface 24f with a smooth curved surface. The corner edge surface 24g is curved with a smaller radius of curvature than the upper surface 24c and the right side surface 24f. In other words, the upper surface 24c and the right side surface 24f are gently curved, while the corner edge surface 24g is sharply curved.

The back surface 24b of the grip portion 24 constitutes the right portion of the back surface of the grip 23. The back surface 24b is a portion where a fingertip other than the thumb hits when the grip portion 24 is gripped by placing the palm on the curved surface 24a. As shown in FIG. 12, the back surface 24b of the grip portion 24 is inclined so as to shift from the lower side to the upper side from the rear side to the front side. Further, as shown in FIG. 10, the back surface 24b is inclined so as to shift from the front side to the rear side from one side (left side) to the other side (right side). The upper edge of the back surface 24b is connected to the upper surface 24c. The lower edge of the back surface 24b is connected to the lower surface 24d. The left edge portion of the back surface 24b is connected to the back surface 25b of the operation unit 25. The right edge of the back surface 24b is connected to the right side surface 24f. The corner edge portion of the back surface 24b is connected to the corner edge surface 24g. As shown in FIGS. 12 and 13, a guide recess 37 and an operation switch 36, which will be described later, are provided on the back surface 24b.

The lower surface 24d of the grip portion 24 constitutes the right portion of the lower surface of the grip 23. As shown in FIGS. 12 and 13, the lower end 24 d of the grip 24 is connected to the upper end of the rocking body 22. The front edge of the lower surface 24d is connected to the back surface 24b. The rear edge of the lower surface 24d is connected to the lower surface of the extending portion 26. The left edge portion of the lower surface 24d is connected to the lower surface 25d of the operation unit 25. The right edge of the lower surface 24d is connected to the right side surface 24f.

Next, the shape of the operating portion 25 of the grip 23 will be described.
The operation unit 25 is provided on the other side (left side) of the grip 23. In other words, the operation unit 25 is provided on the driver seat 10 side of the grip 23.
As shown in FIGS. 7 to 13, the operation unit 25 has a front surface 25a, a back surface 25b, an upper surface 25c, a lower surface 25d, and a left side surface 25e. Hereinafter, in order to clarify the distinction from the front surface 24a and the like of the grip portion 24, the front surface 25a of the operation portion 25 is the "second front surface 25a", the rear surface 25b is the "second rear surface 25b", and the upper surface 25c is the "second upper surface." 25c”, the lower surface 25d may be referred to as “second lower surface 25d”, and the left side surface 25e may be referred to as “second left side surface 25e”.

The second surface 25a constitutes the left part of the surface of the grip 23. The second surface 25a is a portion to which the thumb can be extended and touched when the palm is applied to the curved surface 24a and the grip portion 24 is gripped. As shown in FIG. 11 and the like, the second surface 25a is inclined so as to shift from the lower side to the upper side from the rear side to the front side. As shown in FIGS. 6 and 10, the second surface 25a is inclined from the front side toward the rear side from the other side (left side) to the one side (right side). As shown in FIG. 10 and the like, the second surface 25a is located in front of the curved surface 24a that is the surface of the grip portion 24. The second surface 25a is provided with a plurality of operation switches 30, 31, 32 described later.

The second upper surface 25c constitutes the left part of the upper surface of the grip 23. As shown in FIG. 8 and the like, the second upper surface 25c is inclined from the lower side to the upper side from the other side (left side) to the one side (right side). The upper surface 24c of the grip portion 24 and the upper surface (second upper surface) 25c of the operation portion 25 are connected in a mountain shape with a vertex 29 near the boundary between the grip portion 24 and the operation portion 25.

The second lower surface 25d constitutes the left part of the lower surface of the grip 23. As shown in FIG. 9 and the like, the second lower surface 25d is inclined from the upper side to the lower side from the other side (left side) to the one side (right side). The distance between the second upper surface 25c and the second lower surface 25d gradually increases from the other side toward the one side. The second lower surface 25d is connected to the lower surface 24d of the grip portion 24 and the lower surface of the extending portion 26.

The second left side surface 25e constitutes the left side surface of the grip 23. The upper portion of the second left side surface 25e is connected to the left portion of the second upper surface 25c. The lower portion of the second left side surface 25e is connected to the left portion of the second lower surface 25d. The boundary between the second left side surface 25e and the second upper surface 25c and the boundary between the second left side surface 25e and the second lower surface 25d are respectively curved.
The second back surface 25b constitutes the left part of the back surface of the grip 23. As shown in FIGS. 10 and 13, the second back surface 25b is a substantially flat surface that curves very gently. The upper edge of the second back surface 25b is connected to the second upper surface 25c. The lower edge of the second back surface 25b is connected to the second bottom surface 25d. The left edge portion of the second back surface 25b is connected to the second left side surface 25e. The right edge of the second back surface 25b is connected to the back surface 24b of the grip portion 24.

As shown in FIGS. 7 to 9, the extension portion 26 extends rearward from the lower portion of the grip portion 24 (the lower edge portion 24j of the curved surface 24a). The extending portion 26 extends from the other side (left side) to one side (right side), and is curved in a convex shape so as to bulge backward at a midway portion from the other side to the one side. ing. The other side portion (left portion) of the extending portion 26 extends to the other side (left side) of the curved surface 24a and the upright surface 24e, and the surface of the operating portion 25 ( The second surface) 25a. As shown in FIG. 9, in the extension portion 26, the extension width W1 on the other side (left side) is wider than the extension width W2 on the one side (right side) (W1>W2).

As shown in FIGS. 7 to 9, the grip 23 has a non-slip portion 28.
The anti-slip portion 28 is made of a material having an anti-slip function such as rubber. The coefficient of friction of the surface of the anti-slip portion 28 is larger than the coefficient of friction of the surface of the grip portion 24 (the surface of the portion where the anti-slip portion 28 is not provided). The anti-slip part 28 is configured by, for example, attaching a non-slip member such as a rubber plate to the surface of the grip part 24, or embedding the anti-slip member in the surface of the grip part 24. By providing the non-slip portion 28, it is possible to prevent the hand from slipping when the grip portion 24 is gripped and the operation lever 21 is operated. As a result, the operation lever 21 can be reliably operated, and since it is not necessary to firmly grip the grip portion 24, hand fatigue is unlikely to occur.

The anti-slip portion 28 is provided over (straddling) the surface of the grip portion 24 and the extension portion 26. Specifically, the anti-slip portion 28 is provided from the curved surface 24 a of the grip portion 24 to the surface of the extension portion 26. Hereinafter, of the anti-slip portion 28, the portion provided on the curved surface 24a of the grip portion 24 will be referred to as "anti-slip portion 28a", and the portion provided on the surface of the extending portion 26 will be referred to as "anti-slip portion 28b".

The anti-slip portion 28b is provided only on a portion located on one side (right side) of the surface of the extension portion 26, and is not provided on a portion located on the other side (left side). In other words, the anti-slip portion 28b is provided only on the side of the surface of the extending portion 26 opposite to the operation portion 25 side, and is not provided on the operation portion 25 side. The anti-slip portion 28a is not provided on the lower portion of the curved surface 24a of the grip portion 24 on the side of the operation portion 25. That is, the curved surface 24a of the grip portion 24 has a region 24a1 where the anti-slip portion 28b is not provided on the extending portion 26 side and the operating portion 25 side.

In other words, the anti-slip portion 28 is not provided on the thumb side when the grip portion 24 is held by the right hand. Specifically, the anti-slip portion 28a is not provided at a portion where the vicinity of the base of the thumb (the ball of the thumb) abuts when the grip portion 24 is gripped by the right hand. This prevents the anti-slip part 28 from interfering with the movement of the thumb that operates the operation switch provided on the operation part 25.

Next, the operation switch provided on the grip 23 will be described.
The grip 23 is provided with a plurality of operation switches. The plurality of operation switches are provided on the grip portion 24 and the operation portion 25, respectively.
As shown in FIG. 7 to FIG. 9 and the like, the operation unit 25 is provided with a plurality of operation switches 30, 31, 32. The plurality of operation switches 30, 31, 32 are provided on the surface (second surface) 25 a of the operation unit 25. Specifically, the plurality of operation switches 30, 31, 32 are provided on the upper surface (second surface) 25a of the operation unit 25. Although the operation switch is not provided below the second surface 25a, another operation switch may be provided as necessary.

The plurality of operation switches 30, 31, 32 are arranged in a range in which an operator who holds the grip 24 with his right hand can extend his thumb to operate. The operation switches 30 and 31 are seesaw switches. The operation switch 32 is a push button switch.
Specifically, the operation switch 30 is a shuttle switch (a forward/backward changeover switch of the traveling vehicle 1) that operates the transmission. Pressing the upper portion (“F” portion) of the operation switch 30 switches to forward driving, and pushing the lower portion of the operation switch 30 (“R” portion) switches to reverse driving.

The operation switch 31 is a pumper switch that drives the elevating device 4 to elevate the work device. Pushing the upper part of the operation switch 31 raises the working device, and pushing the lower part of the operation switch 31 lowers the working device.
The operation switch 32 is an automatic/manual switch for automatic shifting. By pressing the operation switch 32, the automatic shift mode and the manual shift mode are switched. In the automatic shift mode, the optimum vehicle speed stage is automatically selected by electronic control within the range of the vehicle speed stage set by the operator in advance. In the manual shift mode, the operator can manually switch the vehicle speed.

As shown in FIGS. 7 to 11 and the like, on the upright surface 24e of the grip portion 24, other operation switches 33, 34 different from the operation switches 30, 31, 32 provided on the operation portion 25 are provided. .. The other operation switches 33 and 34 provided on the upright surface 24e are push button switches. The operation switches 33 and 34 are main shift switches for switching the gear ratio. Pushing the operation switch 33 increases the gear ratio, and pushing the operation switch 34 decreases the gear ratio. The operation switch 33 and the operation switch 34 are arranged side by side in the vertical direction. Specifically, the operation switch 34 is arranged below and behind the operation switch 33. As shown in FIG. 8 and the like, the anti-slip portion 28 is provided over at least a range that overlaps the operation switches 33 and 34 in the vertical direction.

As shown in FIGS. 8 and 11, the region 24a1 where the anti-slip portion 28b is not provided is disposed below the operation switches 30, 31, 32 in the vertical direction. Accordingly, when the operation switch 30, 31, 32 is selected, the bulge of the base of the thumb can be slid on the surface of the region 24a1, and therefore the fingertip position of the thumb can be easily adjusted to the operation switch to be operated. Further, when the selected operation switch is operated (pressed), the bulge of the base of the thumb is located on the surface of the anti-slip portion 28b, so that the slip is suppressed, so that the operation switch can be reliably pressed.

As shown in FIG. 7 to FIG. 10 and the like, another operation switch 35 different from the operation switches 30, 31, 32 is provided on the surface surrounding the grip 23 and the periphery of the grip portion 24. .. The operation switch 35 is provided on at least one of the upper surface 24c, the lower surface 24d, the right side surface 24f, and the corner edge surface 24g of the grip portion 24.
In the case of the present embodiment, another operation switch 35 different from the operation switches 30, 31, 32 provided on the operation portion 25 is provided on the upper surface 24c of the grip portion 24. The other operation switch 35 provided on the upper surface 24c of the grip portion 24 is a push button switch, and is provided so as to project from the upper surface 24c. The operation switch 35 is a switch for switching permission/prohibition of swinging of the swinging body 22, and specifically, is a sub-shift check switch. By pressing the operation switch 35, the rocking body 22 can be rocked. When the oscillating body 22 is swung forward while pressing the operation switch 35, the sub-shift stage is shifted up, and when it is swung backward, the sub gear is shifted down. That is, the operation switch 35 is a switch for switching the permission/prohibition of the shift operation by the swing of the swing body 22.

The operation switch 35 is provided on the upper surface 24c of the grip portion 24. Since the upper surface 24c of the grip portion 24 is provided above the curved surface 24a, it can be said that the operation switch 35 is provided above the curved surface 24a. The operation switch 35 is provided at a position near the operation unit 25 on the upper surface 24c. Specifically, as shown in FIG. 8, the operation switch 35 includes a side edge on one side (first side edge 24h1) and a side edge on the other side (second side edge 24h2) of the grip portion 24. It is provided at a position closer to the operating portion 25 (a position closer to the left) than the intermediate position 24M between the two. The intermediate position 24M between the side edge on one side and the side edge on the other side is the distance between the first side edge 24h1 and the second side edge 24h2 in the width direction of the armrest 15. Is an intermediate position in the widest portion (the lower edge portion 24j of the curved surface 24a).

As described above, the upper surface 24c of the grip portion 24 and the upper surface (second upper surface) 25c of the operation portion 25 are connected in a mountain shape with the vertex 29 near the boundary between the grip portion 24 and the operation portion 25. As shown in FIG. 8, the operation switch 35 is provided between the side edge on one side (first side edge 24h1) and the side edge on the other side (second side edge 24h2) of the grip portion 24. It is provided at a position closer to the apex 29 than the position 24M (position on the left side).

As shown in FIG. 10, the operation switch 35 is arranged on an extension line La extending from the surface 25a (second surface 25a) of the operation portion 25 to the grip portion 24 side. This allows the operator to intuitively grasp the position of the operation switch 35 while holding the grip portion 24.
As shown in FIGS. 12 and 13, another operation switch 36 different from the operation switches 30, 31, 32 provided on the operation unit 25 is also provided on the back surface 24 b of the grip portion 24. The operation switch 36 provided on the back surface 24b of the grip portion 24 is a push button switch. The operation switch 36 is a shuttle restraint switch that switches whether the operation of the operation switch 30 which is a shuttle switch is permitted or not. By operating the operation switch (shuttle switch) 30 while pressing the operation switch (shuttle restraint switch) 36, it is possible to switch between forward and reverse.

As shown in FIGS. 14 and 15, the operation switch 36 does not protrude from the back surface 24b. Therefore, it is possible to prevent the operation switch 36 from impairing the operational feeling when the operator grasps the grip portion 24 and operates the operation lever 21.
As shown in FIGS. 12 to 15, the back surface 24b of the grip portion 24 is provided with a guide recess 37 for guiding a finger toward the operation switch 36. The operation switch 36 is operated by the index finger of the right hand while the grip portion 24 is held by the right hand. Therefore, the guide recess 37 guides the index finger of the right hand holding the grip 24 toward the operation switch 36.

The guide recess 37 is formed so as to be recessed from the back surface 24b of the grip portion 24. The guide recess 37 has an inclined surface 37a whose depth changes as it approaches the operation switch 36. As shown in FIGS. 14 and 15, the inclined surface 37 a has a dent depth that gradually increases as it approaches the operation switch 36. Therefore, by sliding the finger along the inclination of the guide recess 37, the finger is naturally guided to the operation switch 36. The inclined surface 37a may have a depth that is gradually reduced as it approaches the operation switch 36.

The outer edge portion of the guide recess 37 forms a closed region on the back surface 24b of the grip portion 24. That is, the outer edge portion 37b of the guide recess 37 is inside the outer edge portion (upper edge portion, lower edge portion, left edge portion, right edge portion) of the back surface 24b and does not reach the outer edge portion. As a result, on the back surface 24b of the grip portion 24, a non-recessed area 24p is formed around the closed area formed by the outer edge portion 37b of the guide recess 37. The region 24p that is not recessed surrounds the periphery (outside) of the outer edge portion 37b of the guide recess 37.

The operation switch 36 is arranged at the upper corner portion 24n of the back surface 24b of the grip portion 24 opposite to the driver's seat 10 (right side). The upper corner portion 24n is located on the back side of the corner edge portion 24k of the curved surface 24a of the grip portion 24 and is connected to the corner edge surface 24g. The inclined surface 37a extends in a fan shape from the vicinity of the upper corner portion 24n.
As shown in phantom in FIG. 13, the guide recess 37 may be provided with a projection or groove 37c extending in an arc shape. The protrusion or groove 37c is provided in a region near the center of the guide recess 37 (a region between the outer edge portion on the operation switch 36 side and the outer edge portion on the opposite side to the operation switch 36). The protrusion or groove 37c is formed in an arc shape centered on the operation switch 36. Thus, when the fingertip is placed near the center of the guide recess 37, the protrusion or the groove 37c is touched to obtain the sensation that the operation switch 36 is located at the center of the arc and to grasp the position of the operation switch 36. You can

<Elbow rest>
Next, the elbow rest 18 will be described.
The elbow rest 18 is a portion on which an operator seated on the driver's seat 10 places his elbow. The elbow rest 18 is wholly or partially (at least the upper surface) made of a material having a cushioning property.
As shown in FIGS. 2 to 5, the elbow rest 18 is provided on the rear portion of the armrest 15. The elbow rest 18 is attached to the main body 16 of the armrest 15 and covers the rear portion of the upper surface 16 a of the main body 16. As shown in FIG. 3, the width of the elbow rest 18 (the length of the armrest 15 in the width direction) W3 is larger than the width of the main body 16 (the length of the armrest 15 in the width direction) W4 (W3>W4).

The elbow rest 18 is arranged behind the operation lever 21. As shown in FIG. 3 and the like, the operation lever 21 is set within the width of the elbow rest 18 in the vehicle body width direction. In other words, in the vehicle body width direction, the left end of the operation lever 21 (the left end of the grip 23) is located to the right of the left end of the elbow rest 18, and the right end of the operation lever 21 (the right end of the grip 23). Is located to the left of the right end of the elbow rest 18. As a result, the operator seated in the driver's seat 10 can operate the operation lever 21 without moving the elbow placed on the elbow rest 18 (in a state where the elbow is not separated from the body), and the operability is excellent. ing.

The elbow rest 18 has an upper surface 18a, a left side surface 18b, a right side surface 18c, a front surface 18d, and a rear surface 18e. The upper surface 18a is arranged above the upper surface 16a of the main body 16. The upper surface 18a is a substantially flat surface and is inclined so as to move downward from the front to the rear. The front surface 18d is a surface extending downward from the front portion of the upper surface 18a, and is inclined so as to move forward as it extends downward. The rear surface 18e is a surface that extends downward from the rear portion of the upper surface 18a, and is inclined so as to move rearward as it extends downward. The left side surface 18b is a surface extending downward from the left part of the upper surface 18a, and is inclined so as to shift to the left as it extends downward. The left side surface 18b is located to the left of the left side surface 16b of the main body 16. The right side surface 18c is a surface extending downward from the right portion of the upper surface 18a, and is inclined so as to shift to the right as it extends downward.

The lower part of the right side surface 18c of the elbow rest 18 is connected to the main body 16 by a hinge 38. This allows the elbow rest 18 to rotate upward with the hinge 38 as a fulcrum. As shown in FIGS. 16 and 17, by rotating the elbow rest 18 upward, the elbow rest 18 can be retracted to the upper right of the main body 16. Thereby, the upper surface 16a of the main body 16 covered with the elbow rest 18 can be opened.

As shown in FIGS. 16 and 17, a plurality of operating tools are provided on the upper surface 16 a of the main body 16 covered by the elbow rest 18. Hereinafter, the plurality of operation tools will be referred to as a "rear operation tool group 40". In FIG. 17, the rear operation tool group 40 is shown by being surrounded by an imaginary line (two-dot chain line) denoted by reference numeral 40. The rear operation tool group 40 is arranged at the rear part of the main body 16. The rear operation tool group 40 is covered by the elbow rest 18 when the elbow rest 18 is used, and is exposed and operable when the elbow rest 18 is opened.

The rear operation tool group 40 includes an operation tool group 40A and an operation tool group 40B whose operation modes are different from each other. Hereinafter, for convenience of description, the operation tool group 40A will be referred to as a "third operation tool group 40A", and the operation tool group 40B will be referred to as a "fourth operation tool group 40B".
The third operation tool group 40A includes a plurality of operation tools operated by pressing. Specifically, the third operation tool group 40A includes the first rear operation tool 41, the second rear operation tool 42, the third rear operation tool 43, the fourth rear operation tool 44, the fifth rear operation tool 45, and the sixth rear operation tool 45. A rear operation tool 46, a seventh rear operation tool 47, and an eighth rear operation tool 48 are included. The first rear operation tool 41 to the eighth rear operation tool 48 are push button switches (tactile switches) operated by pressing.

The fourth operation tool group 40B includes a plurality of operation tools operated by rotation about a vertical axis (vertical axis). Specifically, the fourth operation tool group 40B includes a ninth rear operation tool 49, a tenth rear operation tool 50, an eleventh rear operation tool 51, a twelfth rear operation tool 52, a thirteenth rear operation tool 53, and a fourteenth operation part. A rear operation tool 54 is included. The ninth rear operation tool 49 to the fourteenth rear operation tool 54 are rotary dials that operate by rotation about the vertical axis.

The third operation tool group 40A (first rear operation tool 41 to eighth rear operation tool 48) is arranged on the left side (driver's seat 10 side) of the upper surface 16a of the main body 16. The fourth operation tool group 40B (the ninth rear operation tool 49 to the fourteenth rear operation tool 54) is arranged on the right side (opposite to the driver's seat 10 side) of the upper surface 16a of the main body 16. That is, the third operation tool group 40A (first rear operation tool 41 to eighth rear operation tool 48) which are push button switches is arranged on the left side (driver's seat 10 side) of the upper surface 16a, and is the fourth rotation dial. The operation tool group 40B (the ninth rear operation tool 49 to the fourteenth rear operation tool 54) is arranged on the right portion (the side opposite to the driver's seat 10 side) of the upper surface 16a. As a result, an operator seated in the driver's seat 10 can easily operate the push button switch and the rotary dial by natural movement of fingers.

The first rear operation tool 41 and the second rear operation tool 42 are automatic shift mode changeover switches. When the first rear operation tool 41 is pressed, the automatic shift mode becomes the load mode. When the second rear operation tool 42 is pressed, the automatic shift is in the field mode. The third rear operation tool 43 is a power assist control switch. By pressing the third rear operation tool 43, it is possible to suppress fluctuations in the engine speed due to fluctuations in the load of the work device or the like, and keep the vehicle speed and the rotation speed of the PTO shaft substantially constant.

The fourth rear operation tool 44 is a mode switch, and can switch between position control and draft control. The fifth rear operation tool 45 is a DHC switch, and smoothes the speed change operation according to the load of the engine. The sixth rear operation tool 46 is a spare switch, and has a function added as necessary. The seventh rear operation tool 47 and the eighth rear operation tool 48 are engine memory adjustment switches, and are set rotation speeds by an engine speed memory switch (a second front operation tool 62, a third front operation tool 63) described later. (1st rotation speed, 2nd rotation speed) is adjusted. Specifically, the seventh rear operation tool 47 decreases the set rotation speed, and the eighth rear operation tool 48 increases the set rotation speed.

As shown in FIG. 17, the first rear operation tool 41 and the second rear operation tool 42, the third rear operation tool 43 and the fourth rear operation tool 44, the fifth rear operation tool 45 and the sixth rear operation tool 46, The seventh rear operation tool 47 and the eighth rear operation tool 48 are arranged side by side in the width direction of the armrest 15. Further, the first rear operation tool 41, the third rear operation tool 43, the fifth rear operation tool 45, and the seventh rear operation tool 47 are arranged in the front-rear direction. The second rear operation tool 42, the fourth rear operation tool 44, the sixth rear operation tool 46, and the eighth rear operation tool 48 are arranged in the front-rear direction.

The ninth rear operation tool 49 is a rotary dial for adjusting the automatic transmission mode sensitivity. The tenth rear operation tool 50 is a rotary dial for adjusting shuttle shift sensitivity. The eleventh rear operation tool 51 is a rotary dial for setting an upper limit of the engine speed. The twelfth rear operation tool 52 is a rotary dial for adjusting a draft ratio. The thirteenth rear operation tool 53 is a rotary dial for adjusting the upper limit of 3P (lift arm). The fourteenth rear operation tool 54 is a rotary dial for adjusting the falling speed of the work device.

In principle, the plurality of rear operation tools included in the rear operation tool group 40 are operation tools that are not used while traveling. Since the rear operation tool group 40 is covered by the elbow rest 18 when the work vehicle 1 is running, it is possible to prevent the rear operation tool group 40 from being unintentionally contacted and operated when the work vehicle 1 is running. Further, since the rear operation tool group 40 may be used by opening the elbow rest 18 after stopping the traveling of the work vehicle 1, the operability is not deteriorated even if it is covered by the elbow rest 18 during traveling. Does not happen. However, the types and the number of specific rear operation tools included in the rear operation tool group 40 are not limited to the types and the number of the rear operation tools described above.

As shown in FIGS. 16 and 17, a storage portion 55 is provided behind the rear operation tool group 40. The storage section 55 has a space recessed from the upper surface 16a of the main body 16, and can store articles such as a smartphone (multifunctional mobile phone) in the space. The storage part 55 is covered by the elbow rest 18 when the elbow rest 18 is used, and articles can be taken in and out with the elbow rest 18 opened.

<Operation tool placement section>
As shown in FIGS. 2 to 5 and FIGS. 16 to 18, a plurality of operation tools are arranged in the operation tool placement section 19. Hereinafter, the plurality of operation tools arranged in the operation tool disposition unit 19 will be referred to as a “front operation tool group 60”. In FIG. 17, the front operation tool group 60 is shown surrounded by an imaginary line designated by reference numeral 60. The front operation tool group 60 is arranged on the upper surface 16 a of the main body 16 and in front of the rear operation tool group 40. The front operation tool group 60 and the rear operation tool group 40 are provided on the same surface (upper surface 16a). The operation tools included in the front operation tool group 60 arranged in the operation tool arranging section 19 are operation tools that are operated more frequently than the operation tools included in the rear operation tool group 40 covered by the elbow rest section 18. ..

The operation tool placement portion 19 is provided at a position closer to the front of the armrest 15. Specifically, the operation tool placement portion 19 is provided behind the swing operation portion 17 and in front of the elbow rest portion 18. In other words, the operation tool placement section 19 is provided between the swing operation section 17 and the elbow rest section 18. The operation tool placement portion 19 is an upper surface of a portion of the upper surface 16 a of the main body 16 located between the swing operation portion 17 and the elbow rest portion 18.

As shown in FIGS. 4 and 5, the operation tool disposition portion 19 is provided at a lower position than the upper surface 20 a of the pedestal 20 and the upper surface 18 a of the elbow rest portion 18. That is, the height of the operation tool placement portion 19 is lower than the height of the pedestal 20 (the height from the upper surface 16a) and the height of the upper surface 18a of the elbow rest portion 18. In other words, the operation tool placement portion 19 is provided so as to be recessed with respect to the upper surface 20a of the pedestal 20 and the upper surface 18a of the elbow rest portion 18. Further, the upper surface of the operation tool disposing portion 19 is inclined so as to move downward as it goes forward.

As shown in FIG. 4, the front operation tool group 60 is arranged below a virtual straight line L1 that connects the upper end of the pedestal 20 and the front end of the upper surface 18a of the elbow rest 18. That is, the front operation tool group 60 does not project upward from the virtual straight line L1. The front operation tool group 60 is arranged below an extension line L2 that extends the upper surface 18a of the elbow rest 18 to the pedestal 20. That is, the front operation tool group 60 does not project upward from the extension line L2.

The upper end of the pedestal 20 is higher than the upper surface 18a of the elbow rest 18. Therefore, the virtual straight line L1 is inclined so as to move upward as it goes forward. Further, since the upper surface 18a of the elbow rest portion 18 is inclined so as to move downward as it goes from the front to the rear, the extension line L2 is also inclined so as to move upward as it goes to the front. In addition, the vertical distance between the upper surface of the operation tool placement portion 19 and the virtual straight line L1 increases as it goes forward.

The front operation tool group 60 includes a first operation tool group 60A and a second operation tool group 60B. In FIG. 18, the first operation tool group 60A is surrounded by a virtual line with a reference numeral 60A, and the second operation tool group 60B is surrounded with a virtual line with a reference numeral 60B.
The first operation tool group 60A is arranged in the rear part of the operation tool arranging portion 19. The second operation tool group 60B is arranged in the front part of the operation tool arranging portion 19. That is, in the operation tool arranging section 19, the second operation tool group 60B is arranged in front of the first operation tool group 60A.

First, the first operation tool group 60A will be described.
As shown in FIG. 18, the first operation tool group 60A includes a first front operation tool 61, a second front operation tool 62, a third front operation tool 63, a fourth front operation tool 64, and a fifth front operation tool. Section operation tool 65, sixth front operation tool 66, seventh front operation tool 67, eighth front operation tool 68, ninth front operation tool 69, tenth front operation tool 70, eleventh front operation The tool 71 and the twelfth front operation tool 72 are included.

The first front operation tool 61 to the eleventh front operation tool 71 are push button switches (tactile switches) as pressing operation tools. That is, the first operation tool group 60A includes a plurality of operation tools operated by pressing. Specifically, the first front operation tool 61 to the ninth front operation tool 69 are travel system pressing operation tools that perform an operation by running by pressing. The tenth front operation tool 70 and the eleventh front operation tool 71 are work-system pressing operation tools that perform operations related to work by pressing.

The first front operation tool 61 is a shuttle gear shift neutral switch, and can be returned to neutral by shifting the gear shift of the transmission. The second front operating tool 62 and the third front operating tool 63 are engine rotation speed memory switches, and set the rotation speed of the engine 8 to the engine rotation speed stored in advance in the storage unit of the control device. By pressing the second front operation tool 62, the rotation speed of the engine 8 can be set to a preset first rotation speed. By pressing the third front operating tool 63, the rotational speed of the engine 8 can be set to a second rotational speed different from the preset first rotational speed.

The fourth front operation tool 64 is a diff lock switch (manual). The fifth front operation tool 65 is a diff lock switch (automatic). The sixth front operating tool 66 is a 4WD switch (manual), and by pushing it, the front wheels and the rear wheels are always driven. The 7th front operation tool 67 is a 4WD switch (automatic), and when it is pressed, 2WD and 4WD are automatically switched according to the vehicle speed and the turning angle of the front wheels. The eighth front operating tool 68 is a double speed switch, and by pushing it, the front wheel can be turned rapidly during turning to make a small turn. The ninth front operation tool 69 is a turning switch, and by pushing it, it is possible to turn the work vehicle 1 at a low speed by decreasing the engine speed when raising the work device. The tenth front operation tool 70 is a 3P link lock switch, and can lock the elevating device 4 so that the working device does not descend when pushed.

The eleventh front part operation tool 71 is a pumper switch that drives the elevating device 4 to elevate the working device. The eleventh front part operation tool 71 has a smaller area than the traveling system pressing operation tools (first front part operation tool 61 to ninth front operation tool 69) and a plurality of (two) presses arranged collectively. It is a small-sized operation tool having operation parts 71a and 71b. In the case of the present embodiment, the eleventh front operation tool (small operation tool) 71 has a plurality (two) of pressing operation sections 71a and 71b integrated, but a plurality (two) of pressing operation sections 71a. , 71b may be arranged close to each other.

The pressing operation parts 71a and 71b are parts that are pressed during operation. The eleventh front part work implement 71 is a seesaw switch with which two pressing operation parts 71a and 71b are selectively pressed. The pressing operation portion 71a is a front half area of the eleventh front working tool 71. The pressing operation portion 71b is a rear half area of the eleventh front working tool 71. The surface area of each of the two pressing operation portions 71a and 71b is smaller than the surface area of the traveling-system pressing operation tool (first front operation tool 61 to ninth front operation tool 69).

The traveling system pressing operation tools (first front operation tool 61 to ninth front operation tool 69) each include a pressing operation portion 80 and a display portion 81. Note that, in FIG. 18, reference numerals 80 and 81 are given only to the sixth front operating tool 65 for the sake of space in the drawing, but other traveling system pressing operating tools are similar to the sixth front operating tool 65. The pressing operation section 80 and the display section 81 are provided at the position.
The pressing operation portion 80 is a portion that is pressed when the traveling-type pressing operation tool (first front operation tool 61 to ninth front operation tool 69) is operated. The display section 81 indicates whether the traveling system pressing operation tool is in an operated state or a non-operated state. The operation state is a state in which the pressing operation unit 80 is pressed. The non-operation state is a state in which the pressing operation unit 80 is not pressed. The display unit 81 is composed of a lamp such as an LED that can be turned on. The lamp forming the display unit 81 is turned on in the operated state and turned off in the non-operated state. That is, the display unit 81 is an indicator that indicates whether the traveling system pressing operation tool is in the operating state or the non-operating state by switching between lighting and extinguishing. The operator can grasp whether the traveling-system pressing operation tool is in the operating state or the non-operating state by seeing whether the display section 81 is in the lighting state or the extinguishing state.

The eleventh front part operation tool (small operation tool) 71 has pressing operation parts 71a and 71b, but has a display part (indicator) indicating whether it is in an operating state or a non-operating state. Not not. Therefore, the space for providing the display unit is not necessary. As a result, the surface area of the eleventh front operating tool (small operating tool) 71 having a plurality (two) of pressing operating parts 71a, 71b is calculated from the total surface area of the same number (two) of running system pressing operating tools. Can also be made smaller. Specifically, the eleventh front operating tool 71 has two pressing operating portions 71a and 71b, but the surface area of the eleventh front operating tool 71 is two traveling system pressing operating tools (for example, It is smaller than the total surface area of the 8th front operation tool 68 and the 9th traveling operation tool 69).

That is, the eleventh front part operation tool 71 has a smaller area than the traveling system pressing operation tool (the first front part operation tool 61 to the ninth front part operation tool 69) having the display section 81 and is arranged collectively. It has a plurality of pressing operation parts 71a and 71b.
A longitudinal centerline CL1 of the eleventh front operating tool 71 and a traveling system pressing operating tool that is lined up with the eleventh front operating tool 71 in the vehicle body width direction and that is lined up in the front-back direction (first 4 front operation tool 64 and fifth travel operation tool 65, sixth front operation tool 66 and seventh travel operation tool 67, center line CL2 between eighth front operation tool 68 and ninth travel operation tool 69) Match in the front-back direction.

The pressing operation portions 71a and 71b of the eleventh front operating tool 71 are the traveling system pressing operation tools (fourth front operating tool 64 to ninth front operating tool) aligned with the eleventh front operating tool 71 in the vehicle body width direction. 69), and is arranged at a position deviated from the pressing operation portion 80 in the front-back direction.
The length in the front-rear direction of the eleventh front part operation tool 71 is the total length of the two travel-system pressing operation tools (for example, the eighth front part operation tool 68 and the ninth travel operation tool 69) in the front-rear direction. Smaller than The length of the eleventh front operation tool 71 in the vehicle width direction is equal to the length of the traveling system pressing operation tool (for example, the eighth front operation tool 68) in the vehicle width direction.

The twelfth front part operation tool 72 is a rotary operation tool that performs an operation related to work by rotating around a vertical axis. That is, the front operation tool group 60 includes a rotation operation tool (twelfth front operation tool) 72 for performing an operation related to work by rotating around the vertical axis. The rotary operation tool 72 is arranged on the right rear part of the operation tool arranging portion 19. The rotary operation tool 72 is a plowing depth adjustment dial that drives the elevating device 4 to adjust the working depth of the working device (plow depth of the tiller).

As shown in FIG. 18, the surface (upper surface 16a) of the armrest 15 includes a first area 15A, a second area 15B, and a third area 15C. The first area 15A, the second area 15B, and the third area 15C are provided in the operation tool placement portion 19. The first area 15A is provided on the driver's seat 10 side. The second region 15B is provided on the side opposite to the driver's seat 10 side. The third region 15C is provided between the first region 15A and the second region 15B. In the first region 15A, traveling system pressing operation tools (first front operation tool 61 to ninth front operation tool 69) are arranged. A twelfth operation tool (rotation operation tool) 72 is arranged in the second region 15B. The tenth operating tool 70 and the eleventh front operating tool (small operating tool) 71 are arranged in the third region 15C.

Accordingly, the eleventh front operation tool (small operation tool) 71 and the twelfth front operation tool (rotation operation tool) 72 are arranged at positions adjacent to each other in the width direction of the armrest 15. Specifically, the twelfth front operation tool (rotation operation tool) 72 is arranged on one side of the armrest 15 (on the side opposite to the driver's seat 10 side). The eleventh front operation tool (small operation tool) 71 is arranged on the other side (driver's seat 10 side) than the twelfth front operation tool (rotation operation tool) 72. Here, the eleventh front operation tool (small operation tool) 71 and the twelfth rotation operation tool (rotation operation tool) 72 are both operation tools for operating the lifting device 4. Therefore, the eleventh front operation tool (small operation tool) 71 and the twelfth rotation operation tool (rotation operation tool) 72 are arranged at positions adjacent to each other in the width direction of the armrest 15, so that the lifting device 4 of Operability is improved.

Further, the tenth front operation tool 70 and the eleventh front operation tool 71 are arranged at positions adjacent to each other in the front-rear direction. As a result, the tenth front operation tool 70, the eleventh front operation tool 71, and the twelfth rotation operation tool (rotation operation tool) 72 that perform operations related to the lifting device 4 are collectively arranged in the vicinity, so that the lifting device. The operability of operations related to 4 is improved.
Next, the second operation tool group 60B will be described.

As shown in FIG. 18, the second operation tool group 60B includes a thirteenth front operation tool 73, a fourteenth front operation tool 74, and a fifteenth front operation tool 75. The thirteenth front part operation tool 73 and the fourteenth front part operation tool 74 are operation tools which are rocked around a horizontal axis (an axis extending in the vehicle body width direction). The fifteenth front part operation tool 75 is an operation tool that is rotated about a horizontal axis (an axis extending in the vehicle body width direction). That is, the second operation tool group 60B includes a plurality of operation tools operated by rotation or swing around the horizontal axis.

The thirteenth front operation tool 73 and the fourteenth front operation tool 74 are PTO clutch control switches for performing an operation of connecting or disconnecting the PTO clutch. The thirteenth front operation tool 73 is a rear PTO clutch control switch. The fourteenth front part operation tool 74 is a front PTO clutch control switch.
The fifteenth front operation tool 75 is a rotary dial that performs an operation related to traveling by rotating around a horizontal axis. In the case of the present embodiment, the fifteenth front operation tool 75 is an accelerator dial that increases or decreases the rotation speed of the engine 8.

As shown in FIG. 2, the fifteenth front operation tool (accelerator dial) 75 has a rotating body 75a and a knob 75b. The rotating body 75a projects upward from the upper surface of the armrest 15 in an arc shape that is convex upward in a side view. The knob 75b projects from the upper surface of the rotating body 75a. The rotating body 75a is attached so as to be rotatable around a lateral (horizontal) spindle that is arranged inside the armrest 15. By squeezing the grip portion 75b and moving it forward or backward, the rotating body 75a rotates about the spindle. When the knob 75b is moved forward, the rotation speed of the engine 8 increases. When the knob 75b is moved rearward, the rotation speed of the engine 8 decreases.

As shown in FIG. 18, the thirteenth front operation tool 73, the fourteenth front operation tool 74, and the fifteenth front operation tool 75 are arranged side by side in the width direction of the armrest 15. The thirteenth front operation tool 73 and the fourteenth front operation tool 74 are arranged on the driver seat 10 side of the armrest 15. The fifteenth front operation tool 75 is arranged on the side opposite to the driver seat 10 side of the armrest 15.
As shown in FIG. 18, no other operation tool is arranged behind the fifteenth front operation tool 75 (direction of arrow A2). Therefore, when operating the fifteenth front operating tool (accelerator dial) 75, other operating tools do not interfere with the operation and good operability can be obtained.

As shown in FIGS. 4 and 5, the height of the operation tool (thirteenth front operation tool 73 to fifteenth front operation tool 75) operated by rotation or swinging about the horizontal axis (height from the surface 16a). Is higher than the height of the operation tool (first front operation tool 61 to eleventh front operation tool 71) operated by pressing. Further, the height of the operation tools (thirteenth front operation tool 73, fourteenth front operation tool 74) operated by swinging about the horizontal axis is higher than the heights of the other operation tools.

In the operation tool arranging section 19, the operation tools (thirteenth front operation tool 73 to fifteenth front operation tool 75) operated by rotation or swinging about the horizontal axis are operated by pressing (first operation tool). It is arranged in front of the front operation tool 61 to the eleventh front operation tool 71). That is, in the operation tool placement portion 19, the high operation tool is arranged in front of the low operation tool. The virtual straight line L1 connecting the upper end of the pedestal 20 and the front end of the upper surface 18a of the elbow rest 18 is inclined so as to move upward as it goes forward, so that a high operating tool is forward of a low operating tool. It is possible to prevent the operation tool from protruding upward from the virtual straight line L1 by disposing the operation tool at the position. As a result, it is possible to reliably prevent the arm of the operator who operates the operation lever 21 by placing the elbow on the elbow rest 18 to come into contact with the operation switch arranged on the operation tool arrangement portion 19.

The front operation tool group 60 and the rear operation tool group 40 can be arranged on one substrate. Specifically, the entire front operation tool group 60 and the entire rear operation tool group 40 can be arranged on one board. Further, a part of the front operation tool group 60 and the whole of the rear operation tool group 40 can be arranged on one board. Further, the entire front operation tool group 60 and a part of the rear operation tool group 40 can be arranged on one board. Further, a part of the front operation tool group 60 and a part of the rear operation tool group 40 can be arranged on one board. In the case of the present embodiment, among the operation tools included in the front operation tool group 60 and the rear operation tool group 40, one operation tool except the thirteenth front operation tool 73 and the fourteenth front operation tool 74 is provided. It is arranged on the substrate.

Among the operation tools included in the front operation tool group 60, the rotary operation tool (the twelfth front operation tool 72) operated by rotating about the vertical axis is one side of the upper surface 16a of the main body 16 of the armrest 15. It is arranged in a region (opposite to the driver's seat 10 side). Further, among the operation tools included in the rear operation tool group 40, the rotation operation tools (the ninth rear operation tool 49 to the fourteenth rear operation tool 54) operated by the rotation around the vertical axis are also located on one side of the upper surface 16a. It is arranged in the area on the side (the side opposite to the driver's seat 10 side). That is, the rotary operation tool operated by rotation about the vertical axis is arranged in a region on one side of the upper surface 16 a of the main body 16 of the armrest 15. As a result, the movement of the finger of the right hand (the movement of pinching with the thumb and the other finger to rotate) for the rotation operation around the vertical axis can be performed naturally and smoothly.

Among the operation tools included in the front operation tool group 60, the pressing operation tools (first front operation tool 61 to eleventh front operation tool 71) operated by pressing are provided on the upper surface 16 a of the main body 16 of the armrest 15. It is arranged in the area on the other side (driver's seat 10 side). Further, among the operation tools included in the rear operation tool group 40, the pressing operation tools (first rear operation tool 41 to eighth rear operation tool 48) operated by pressing are also on the other side of the upper surface 16a (driver's seat). 10 side). That is, the pressing operation tool is arranged in a region on the other side of the upper surface 16 a of the body 16 of the armrest 15. As a result, since the pressing operation tool is arranged on the side close to the thumb or the index finger, the pressing operation tool can be operated smoothly.
However, the specific types and numbers of the front operation tools included in the front operation tool group 60 are not limited to the types and the numbers of the front operation tools described above.

<First modification>
19 to 21 show a first modification of the armrest 15.
Hereinafter, the armrest 15 of the first modification will be described focusing on the configuration different from the armrest 15 of the above-described embodiment, and the description of the common configuration will be omitted.
The armrest 15 of the first modification is different from the above embodiment in the arrangement of the pedestal 20 and the operation lever 21. Specifically, the pedestal 20 and the operation lever 21 are deviated to the opposite side (right side) from the driver's seat 10 side as compared with the above embodiment.

As shown in FIG. 19, the center of the pedestal 20 in the width direction (the center of the vehicle body in the width direction) is offset to the right of the center of the armrest 15 in the width direction of the main body 16. As a result, as shown in FIG. 21, the lower end of the right surface 20e of the pedestal 20 is flush with the upper end of the right surface 16d of the main body 16. The lower end of the front surface 20b of the pedestal 20 is flush with the lower end of the front surface 16e of the main body 16. In other words, the lower end portion of the right surface 20e of the pedestal 20 is smoothly connected to the upper end portion of the right side surface 16d of the main body 16 without a step. Further, the lower end of the front surface 20b of the pedestal 20 is smoothly connected to the upper end of the front surface 16e of the main body 16 without any step.

The width (length in the vehicle body width direction) of the upper surface 20a of the pedestal 20 is smaller than the length in the front-rear direction. The width (length in the vehicle body width direction) of the upper surface 20a of the pedestal 20 is narrower than the width of the extending portion 26 and is substantially the same as the width of the skirt 22a.
As shown in FIGS. 19 and 20, since the pedestal 20 is eccentrically arranged on the right side, the upper surface 16a of the main body 16 is provided with a region 16g on the left side of the pedestal 20 in which no operation tool is arranged. ing. The region 16g is located in front of the thirteenth front operating tool (rear PTO clutch control switch) 73, which is an operating tool that is swung about the horizontal axis. The region 16g extends from the front of the thirteenth front operating tool 73 to the front end of the main body 16. The front end of the region 16g is connected to the upper end of the front surface 16e of the main body 16. The left end of the region 16g is connected to the upper end of the left side surface 16c of the main body 16.

As shown in FIG. 19, the center of the operation lever 21 in the width direction (center of the vehicle body width direction) is offset to the right of the center of the armrest 15 in the width direction of the main body 16. In the vehicle body width direction, the left end portion of the operation lever 21 (the left end portion of the grip 23) is located to the right of the left side surface 16c of the main body 16, and the right end portion of the operation lever 21 (the right end portion of the grip 23) is the main body 16. It is located to the right of the right side surface 16d.

As shown in FIGS. 19 and 20, a first recess 76 is provided around the thirteenth front operation tool 73. A second recess 77 is provided around the fourteenth front operation tool (front PTO clutch control switch) 74. The first recess 76 and the second recess 77 are recessed downward with respect to the upper surface 16 a of the main body 16. The first concave portion 76 and the second concave portion 77 are formed in a rectangular shape that is long in the front-rear direction in a plan view.

An intermediate wall 78M that partitions the first recess 76 and the second recess 77 is provided between the first recess 76 and the second recess 77. A left wall 78L is provided on the left side of the first recess 76. A right wall 78R is provided on the right side of the second recess 77. The middle wall 78M, the left wall 78L, and the right wall 78R extend in the front-rear direction in parallel with each other. As shown in FIG. 20, the middle wall 78M, the left wall 78L, and the right wall 78R are curved in an arc shape so as to move downward as they go forward. The front end of the middle wall 78M and the front end of the left wall 78L are connected to the region 16g in which the operation tool is not arranged.

The height of the upper end portion when the thirteenth front operation tool 73 and the fourteenth front operation tool 74 are in the upright state is set to be equal to or lower than the heights of the upper edges of the intermediate wall 78M, the left wall 78L, and the right wall 78R. Has been done. Therefore, the upper ends of the thirteenth front operation tool 73 and the fourteenth front operation tool 74 do not project upward from the upper edge portions of the intermediate wall 78M, the left wall 78L, and the right wall 78R.
As shown in FIGS. 19 to 21, the twelfth front operating tool (plow depth adjusting dial) 72 and the fifteenth front operating tool (accelerator dial) 75 are arranged side by side in the front-rear direction. More specifically, the twelfth front operating tool 72 is arranged on an extension line that extends backward from the center line of the fifteenth front operating tool 75 in the vehicle body width direction.

As shown in FIG. 20 and FIG. 21, a twelfth front operation tool in a region in which the operation tools included in the front operation tool group 60 (first operation tool group 60A, second operation tool group 60B) are arranged. The area 16h in which the 72 and the fifteenth front operation tool 75 are arranged is in the area 16i in which the operation tools (traveling system pressing operation tools 61 to 69, work system pressing operation tools 70, 71) operated by pressing are arranged. On the other hand, it is formed so as to be recessed downward. Therefore, among the operation tools included in the front operation tool group 60, the operation tools operated by rotation (the twelfth front operation tool 72, the fifteenth front operation tool 75) are the operation tools operated by pressing ( It is arranged at a position lower than the traveling system pressing operation tools 61 to 69 and the working system pressing operation tools 70, 71).

The area 16h in which the twelfth front operation tool 72 and the fifteenth front operation tool 75 are arranged has the same height as the area 16g in which no operation tool is arranged. The heights of the regions 16h and 16g are lower than the height of the region 16i. The left front part of the region 16h is connected to the right rear part of the region 16g. The region 16h reaches the right end of the main body 16 and is connected to the upper end of the right side surface 18c of the main body 16.

As shown in FIGS. 19 to 21, standing walls 16j are formed at the boundaries between the regions 16h and 16i. The standing wall 16j rises from the upper surface of the region 16h toward the region 16i. The front portion of the standing wall 16j constitutes a right wall 78R on the right side of the second recess 77. The rear portion of the standing wall 16j is bent and extends in a plan view from the left side to the rear side of the twelfth front operation tool 72. As shown in FIG. 21, the upper ends of the twelfth front operating tool 72 and the fifteenth front operating tool 75 arranged in the region 16h are lower than the height of the standing wall 16j. Therefore, the upper end portion of the twelfth front operating tool 72 and the upper end portion of the fifteenth front operating tool 75 do not project above the upper end portion of the standing wall 16j.

As shown in FIGS. 19 and 20, a protruding portion 79 that protrudes from the upper surface of the region 16h is provided between the fifteenth front operating tool 75 and the standing wall 16j. The projecting portion 79 is formed in an arc shape in a side view and extends in the front-rear direction in parallel with the fifteenth front operating tool 75.
In the example shown in FIG. 20, in the eleventh front operating tool (pumper switch) 71, a plurality (two) of pressing operating portions 71a and 71b are not integrated but independent, and are arranged close to each other. There is. The front end portion of the pressing operation portion 71a is the front end of the pressing operation tool (the first front operation tool 61, the second front operation tool 62, the third front operation tool 63) aligned with the pressing operation portion 71a in the vehicle width direction. It is located behind the department. The rear end portion of the pressing operation portion 71b is provided with a pressing operation tool (a fifth front operation tool 65, a seventh front operation tool 67, a ninth front operation tool 69) aligned with the pressing operation section 71b in the vehicle width direction. It is located in front of the rear end. The surface area of each of the two pressing operation portions 71a and 71b is smaller than the surface area of the traveling-system pressing operation tool (first front operation tool 61 to ninth front operation tool 69).

<Second modified form>
22 to 24 show a second modification of the armrest 15.
Hereinafter, among the configurations of the armrest 15 of the second modification, the configuration of the characteristic part of the present invention will be described. The description of the configuration common to the above-described embodiment and the first modification will be omitted.
The front operation tool group 60 arranged in the front part of the operation tool arranging section 19 includes a first operation tool group 160A and a second operation tool group 160B.

Hereinafter, the first operation tool group 160A will be described.
As shown in FIG. 23, the first operation tool group 160A includes a first front operation tool 161, a second front operation tool 162, a third front operation tool 163, a fourth front operation tool 164, a fifth front operation tool. The front operating tool 165, the sixth front operating tool 166, the seventh front operating tool 167, the eighth front operating tool 168, the ninth front operating tool 169, and the tenth front operating tool 170.

The first front operation tool 161 to the eighth front operation tool 168 are push button switches (tactile switches) as pressing operation tools. That is, the first operation tool group 160A includes a plurality of operation tools 161 to 168 operated by pressing. Specifically, the first front operation tool 161 to the fifth front operation tool 165 are travel system pressing operation tools that perform operation by travel by pressing. The sixth front operating tool 166 to the eighth front operating tool 168 are work system pressing operation tools that perform operations related to work by pressing.

The first front operation tool 161 is a 2WD/4WD switch (manual), and can be switched between 2WD and 4WD by pressing. The second front operation tool 162 is a 2WD/4WD changeover switch (automatic), and when pressed, it automatically switches between 2WD and 4WD according to the vehicle speed and the turning angle of the front wheels. The third front operation tool 163 is a double-speed switch, and when pressed, the front wheel can be swiftly turned during turning to make a small turn. The fourth front operation tool 164 is a differential lock switch (manual). The fifth front operation tool 165 is a differential lock switch (automatic).

The sixth front operation tool 166 is a 3P link lock switch, and by pushing it, the lifting device 4 can be locked so that the working device does not descend. The seventh front operating tool 167 and the eighth front operating tool 168 are pumper switches that drive the elevating device 4 to elevate the working device. When the seventh front operation tool 167 is pushed, the lifting device 4 lowers the working device. When the eighth front operating tool 168 is pushed, the lifting device 4 raises the working device.

Each of the first front operation tool 161 to the sixth front operation tool 166 has a pressing operation section 80, a display section 81, and a protrusion 82. Hereinafter, the operation tool having the pressing operation section 80, the display section 81, and the protrusion 82 may be referred to as “one operation tool”.
Each of the first front operation tool 161 to the sixth front operation tool 166 (one operation tool) is a rectangular shape having a longitudinal direction (long side) and a lateral direction (short side) in a plan view. In this embodiment, the longitudinal direction is the front-rear direction and the lateral direction is the vehicle body width direction. The display portion 81, the protrusion 82, and the pressing operation portion 80 are arranged in this order from the front to the rear.

The pressing operation part 80 is a part operated by pressing. The pressing operation portion 80 is a pressable (movable by pressing) portion provided on the other side (rear side) in the longitudinal direction with respect to the protrusion 82. A symbol mark (design) M representing the content of the operation is written on the pressing operation section 80. Different symbol marks M are written on the first front operation tool 161 to the sixth front operation tool 166, respectively.

The display portion 81 is a non-pressable portion (which does not move even if pressed) provided on one side in the longitudinal direction of the first front operation tool 161 to the sixth front operation tool 166 (one operation tool). .. The display unit 81 indicates whether the first front operation tool 161 to the sixth front operation tool 166 (one operation tool) is in an operated state or a non-operated state. The operation state is a state in which the pressing operation unit 80 is pressed (a state in which the function is exerted). The non-operation state is a state in which the pressing operation unit 80 is not pressed (a state in which the function is not exerted). The display unit 81 is composed of a lamp such as an LED that can be turned on. The lamp forming the display unit 81 is turned on in the operated state and turned off in the non-operated state. That is, the display unit 81 indicates whether the first front operation tool 161 to the sixth front operation tool 166 (one operation tool) is in the operating state or the non-operating state by switching between lighting and extinguishing. It is an indicator. The operator determines whether the first front operation tool 161 to the sixth front operation tool 166 (one operation tool) are in the operation state or the non-operation state by seeing whether the display unit 81 is in the lighting state or the extinguishing state. It is possible to know which one of the states is in. That is, by switching the display of the display unit 81, it is possible to give the operator (driver) feedback regarding the operation.

Further, the symbol mark M of the pressing operation portion 80 is transparent, and the light of the lamp forming the display portion 81 passes through the symbol mark M. Thereby, the symbol mark M can be visually recognized even at night.
The protrusion 82 is provided between the pressing operation unit 80 and the display unit 81, and partitions the pressing operation unit 80 and the display unit 81. The protrusion 82 extends linearly between the pressing operation portion 80 and the display portion 81. The protrusion 82 extends in the width direction of the armrest 15. The protrusion 82 partitions the symbol mark M and the lamp. That is, the protrusion 82 is provided between the symbol mark and the lamp.

The seventh front operation tool 167 and the eighth front operation tool 168 each have a pressing operation section 80 and a protrusion 82, but do not have the display section 81. Hereinafter, an operation tool that has the pressing operation section 80 and the protrusion 82 but does not have the display section 81 may be referred to as “another operation tool”. The fifth rear operation tool 145 and the sixth rear operation tool 146 are also included in “other operation tools”.
The projections 82 of the seventh front operation tool 167 and the eighth front operation tool 168 (other operation tools) are the projections 82 of the first front operation tool 161 to the sixth front operation tool 166 (one operation tool). It is provided at a position different from. Specifically, the projections 82 of the seventh front operation tool 167 and the eighth front operation tool 168 (another operation tool) include the first front operation tool 161 to the sixth front operation tool 166 (one operation). It is provided at a position farther from the symbol mark M than the protrusion 82 of the tool). Further, the projections 82 of the seventh front operation tool 167 and the eighth front operation tool 168 (another operation tool) are different from those of the first front operation tool 161 to the sixth front operation tool 166 (one operation tool). Compared to the protrusion 82, it is located closer to the edge (front edge or rear edge) in the longitudinal direction (front-back direction) of the operating tool.

The projection 82 provided on the seventh front operation tool 167 and the projection 82 provided on the eighth front operation tool 168 have different positions in the longitudinal direction (front-back direction) of the operation tool. Specifically, the projection 82 provided on the seventh front operation tool 167 is located on one side (front side) in the longitudinal direction of the operation tool, and the projection 82 provided on the eighth front operation tool 168 is It is located on the other side (rear side) in the longitudinal direction of the operating tool. That is, in the seventh front operation tool 167 and the eighth front operation tool 168, the protrusions 82 are arranged in mutually opposite directions in the longitudinal direction (front-back direction) of the operation tool.

The seventh front operation tool 167 and the eighth front operation tool 168 are operation tools for performing operations in mutually opposite directions. Specifically, the seventh front operating tool 167 and the eighth front operating tool 168 are operating tools (pumper switches) that move (raise or lower) the work devices in mutually opposite directions. Therefore, in the operation tools (seventh front operation tool 167 and eighth front operation tool 168) for performing operations in opposite directions, the protrusions 82 are arranged in opposite directions. As a result, the driver (operator) operates the operation tool (seventh front operation tool 167, eighth front operation tool 168) visually intuitively or by confirming the position of the protrusion 82 with the fingertip. It is possible to understand the contents of.

The seventh front operation tool 167, which is an operation tool for lowering the work device, and the eighth front operation tool 168, which is an operation tool for elevating the work device, are arranged side by side in the front-rear direction. Specifically, the seventh front operation tool 167 is arranged in the front, and the eighth front operation tool 168 is arranged in the rear. The projection 82 of the seventh front operating tool 167 arranged in the front is located on the front side of the operating tool, and the projection 82 of the eighth front operating tool 168 arranged on the rear is located in the rear side of the operating tool. Therefore, the projection 82 of the seventh front operating tool 167 and the projection 82 of the eighth front operating tool 168 are widely spaced. As a result, the protrusion 82 of the seventh front operating tool 167 and the protrusion 82 of the eighth front operating tool 168 can be clearly discriminated visually or by the tactile sensation of the fingertip. As a result, the two operation tools 167 and 168 can be clearly discriminated, and the risk of erroneous operation can be reduced.

Further, the driver can intuitively determine the type of the operating tool based on the difference in the position of the protrusion 82 and the presence/absence of the display unit 81, and the operability can be improved.
The ninth front operating tool 169 and the tenth front operating tool 170 are rotary operating tools that perform operations related to work by rotating around the vertical axis. That is, the front operation tool group 60 includes a rotation operation tool (a ninth front operation tool 169, a tenth front operation tool 170) that performs a work-related operation by rotating around the vertical axis. The rotary operation tools 169 and 170 are arranged on the right rear part of the operation tool arrangement section 19. The ninth front operation tool 169 is a draft ratio adjustment dial. The tenth front part operation tool 170 is a plowing depth adjustment dial that drives the elevating device 4 to adjust the working depth by the working device (plow depth by the tiller).

As shown in FIG. 23, the surface (upper surface 16a) of the armrest 15 includes one side upper surface 115A, an intermediate upper surface 115B, and the other side upper surface 115C. The one-side upper surface 115A, the intermediate upper surface 115B, and the other-side upper surface 115C are provided in the operation tool disposing portion 19. In other words, the upper surface on which the operation tool placement portion 19 is provided has the upper surface 115A on one side, the intermediate upper surface 115B, and the upper surface 115C on the other side. The one side upper surface 115A, the intermediate upper surface 115B, and the other side upper surface 115C are regions of the operation tool arranging portion 19 in which the first operation tool group 160A is arranged.

One side upper surface 115A is an area provided on the side opposite to the driver's seat 10 side. The other side upper surface 115C is an area provided on the driver's seat 10 side. The intermediate upper surface 115B is a region provided between the one side upper surface 115A and the other side upper surface 115C.
The upper surface 115A on one side, the intermediate upper surface 115B, and the upper surface 115C on the other side have different heights. Specifically, the intermediate upper surface 115B is higher than the one-side upper surface 115A and lower than the other-side upper surface 115C. That is, the one-side upper surface 115A, the intermediate upper surface 115B, and the other-side upper surface 115C are formed in a staircase shape in which the one-side upper surface 115A is lowest, the intermediate upper surface 115B is next lowest, and the other-side upper surface 115C is highest.

On one side upper surface 115A and intermediate upper surface 115B, operation system operation tools (sixth front operation tool 166 to tenth front operation tool 170) for performing operations related to work are arranged. Among the work system operation tools, the sixth front operation tool 166 to the eighth front operation tool 168 are arranged on the intermediate upper surface 115B. Among the work system operation tools, a ninth front operation tool 169 and a tenth front operation tool 170 are arranged on the one side upper surface 115A. On the other side upper surface 115C, a traveling system operation tool for performing traveling-related operations is arranged. Specifically, a traveling system pressing operation tool (first front operation tool 161 to fifth front operation tool 165) is arranged on the other side upper surface 115C.

As described above, the upper surface provided with the operation tool disposition portion 19 is provided with a plurality of regions having different heights (one-side upper surface 115A, intermediate upper surface 115B, and other-side upper surface 115C), and operation tools having different functions are provided. It is arranged in a plurality of areas. Accordingly, the driver can distinguish the operation tool by the height of the upper surface on which the operation tool is provided, and thus the driver can easily visually determine the operation tool. Further, it is possible to recognize the height with a finger and determine the operation tool without relying on the visual sense.

Further, the first front operating tool 161 to the fifth front operating tool 165 are arranged on the upper surface (the other side upper surface 115C) having the same height. This improves the operability of the operation related to traveling. Further, the sixth front operating tool 166, the seventh front operating tool 167, and the eighth front operating tool 168 are arranged on the upper surface (intermediate upper surface 115B) at the same height. As a result, the operability of the operation regarding the lifting device 4 is improved.

As shown in FIG. 24, the rear operation tool group 40 arranged at the rear part of the operation tool arrangement portion 19 includes a third operation tool group 140A and a fourth operation tool group 140B.
The third operation tool group 140A includes a plurality of operation tools operated by pressing. Specifically, the third operation tool group 140A includes a first rear operation tool 141, a second rear operation tool 142, a third rear operation tool 143, a fourth rear operation tool 144, a fifth rear operation tool 145, and a sixth operation tool 145. The rear operation tool 146, the seventh rear operation tool 147, and the eighth rear operation tool 148 are included. The first rear operation tool 141 to the eighth rear operation tool 148 are push button switches (tactile switches) operated by pressing.

The fourth operation tool group 140B includes a plurality of operation tools operated by rotation about a vertical axis (vertical axis). Specifically, the fourth operation tool group 140B includes a ninth rear operation tool 149, a tenth rear operation tool 150, an eleventh rear operation tool 151, a twelfth rear operation tool 152, and a thirteenth rear operation tool 153. The ninth rear operation tool 149 to the thirteenth rear operation tool 153 are rotary dials that operate by rotation around the vertical axis.

The third operation tool group 140A (first rear operation tool 141 to eighth rear operation tool 148) is arranged on the left side (driver's seat 10 side) of the upper surface 16a of the main body 16. The fourth operation tool group 140B (the ninth rear operation tool 149 to the thirteenth rear operation tool 153) is arranged on the right side (opposite to the driver's seat 10 side) of the upper surface 16a of the main body 16. That is, the third operation tool group 140A (first rear operation tool 141 to eighth rear operation tool 148) that are push button switches is arranged on the left side (driver's seat 10 side) of the upper surface 16a, and is the fourth rotary dial. The operation tool group 140B (the ninth rear operation tool 149 to the thirteenth rear operation tool 153) is arranged on the right side (opposite to the driver's seat 10 side) of the upper surface 16a. As a result, an operator seated in the driver's seat 10 can easily operate the push button switch and the rotary dial by natural movement of fingers.

The first rear operation tool 141 is an automatic speed change mode switch, and when pressed, enters the automatic speed change mode suitable for traveling. The second rear operation tool 142 is an automatic speed change mode switch, and when pressed, enters the automatic speed change mode suitable for field work. The third rear operation tool 143 is an ON/OFF switch in a control mode that keeps the engine speed constant. The fourth rear operation tool 144 is a DHC switch, and smoothes the speed change operation according to the load of the engine. The fifth rear operation tool 145 and the sixth rear operation tool 146 are engine memory adjustment switches, and set the rotation speed (first rotation speed, second rotation speed) set by the engine rotation speed memory switch (operation switches 34, 35). adjust. Specifically, the fifth rear operation tool 145 decreases the set rotation speed, and the sixth rear operation tool 146 increases the set rotation speed. The seventh rear operation tool 147 is a changeover switch that switches between draft control and position control. The eighth rear operation tool 148 is a spare switch, and a function is added as necessary.

As shown in FIG. 24, a first rear operation tool 141 and a second rear operation tool 142, a third rear operation tool 143 and a fourth rear operation tool 144, a fifth rear operation tool 145 and a sixth rear operation tool 146, a The seventh rear operation tool 147 and the eighth rear operation tool 148 are arranged side by side in the width direction of the armrest 15. The first rear operation tool 141, the third rear operation tool 143, the fifth rear operation tool 145, and the seventh rear operation tool 147 are arranged in the front-rear direction. The second rear operation tool 142, the fourth rear operation tool 144, the sixth rear operation tool 146, and the eighth rear operation tool 148 are arranged in the front-rear direction.

The ninth rear operation tool 149 is a rotary dial for adjusting the automatic transmission mode sensitivity. The tenth rear operation tool 150 is a rotary dial for setting an upper limit of the engine speed. The eleventh rear operation tool 151 is a rotary dial for adjusting a draft ratio. The twelfth rear operation tool 152 is a rotary dial for adjusting the upper limit of 3P (lift arm). The thirteenth rear operation tool 153 is a rotary dial for adjusting the falling speed of the work device.

The first rear operation tool 141 to the fourth rear operation tool 144 and the seventh rear operation tool 147 also include the pressing operation section 80, the display section 81, and the projection 82, and are therefore included in “one operation tool”. Be done. The first rear operation tool 141 to the fourth rear operation tool 144 and the seventh rear operation tool 147 are rectangular shapes having a longitudinal direction (long side) and a lateral direction (short side) in plan view, The hand direction is the front-back direction and the longitudinal direction is the vehicle body width direction. The display portion 81, the protrusion 82, and the pressing operation portion 80 are arranged in this order from the right side (the side opposite to the driver's seat 10 side) to the left side (the driver's seat 10 side).

The projections 82 of the first rear operation tool 141 to the fourth rear operation tool 144 and the seventh rear operation tool 147 are also provided between the pressing operation section 80 and the display section 81, and the pressing operation section 80 and the display section are provided. And 81. The protrusion 82 extends linearly between the pressing operation portion 80 and the display portion 81. The protrusion 82 extends linearly in the front-rear direction. The protrusion 82 partitions the symbol mark M and the lamp. That is, the protrusion 82 is provided between the symbol mark and the lamp.

Other configurations of the display section 81, the protrusion 82, and the pressing operation section 80 in the first rear operation tool 141 to the fourth rear operation tool 144 and the seventh rear operation tool 147 are the same as those in the first front operation tool 161 to the first operation section 161 described above. The configuration of the pressing operation unit 80, the display unit 81, and the protrusions 82 in the 6 front operation tool 166 is the same.
The fifth rear operation tool 145 and the sixth rear operation tool 146 have the pressing operation section 80 and the protrusion 82, but do not have the display section 81, and thus are included in “other operation tools”.

The projections 82 of the fifth rear operation tool 145 and the sixth rear operation tool 146 (another operation tool) include the first rear operation tool 141 to the fourth rear operation tool 144, and the seventh rear operation tool 147 (one operation tool). ) Is provided at a position different from the protrusion 82. Specifically, the projections 82 of the fifth rear operation tool 145 and the sixth rear operation tool 146 (another operation tool) include the first rear operation tool 141 to the fourth rear operation tool 144 and the seventh rear operation tool 147. It is provided at a position farther from the symbol mark M than the protrusion 82 of (one operation tool). In addition, the projections 82 of the fifth rear operation tool 145 and the sixth rear operation tool 146 (other operation tools) include the first rear operation tool 141 to the fourth rear operation tool 144 and the seventh rear operation tool 147 (one It is closer to the edge (left edge or right edge) of the operation tool in the longitudinal direction (width direction of the armrest) than the protrusion 82 of the operation tool.

As described above, the direction in which the projections 82 of the operation tools 161 to 168 included in the front operation tool group 60 extend differs from the direction in which the projections 82 of the operation tools 141 to 147 included in the rear operation tool group 40 extend. ing. Specifically, the direction in which the projections 82 of the operation tools 161 to 168 included in the front operation tool group 60 extend is the width direction of the armrest 15 (vehicle body width direction), and the operation tools 141 included in the rear operation tool group 40. The direction in which the projections 82 of ~147 extend is the front-back direction.

As a result, the direction of the finger when the driver seated in the driver's seat 10 touches the operation tool becomes closer to the direction orthogonal to the direction in which the protrusion 82 extends, so that the protrusion 82 can be easily and surely recognized. You can

<Effect>
The above work vehicle has the following effects.
The work vehicle 1 includes a driver's seat 10 and an armrest 15 provided on a side of the driver's seat 10 and having a plurality of operation tools 141 to 147 and 161 to 168 arranged on the surface thereof. A pressing operation unit 80 operated by pressing, a display unit 81 indicating which of an operating state and a non-operating state, a pressing operation unit 80 provided between the pressing operation unit 80 and the display unit 81. And one operation tool 141 to 144, 147, 161 to 166 having a projection 82 partitioning the display section 81.

With this configuration, it is possible to intuitively and easily recognize the operating state (whether in the operating state or the non-operating state) of the operating tools 141 to 144, 147, and 161 to 166 by the display unit 81. Further, since the pressing operation section 80 and the display section 81 are partitioned by the protrusion 82, it is possible to intuitively and easily recognize the pressing position (pressing operation section 80) of the pressing operation tool. Thereby, the operation of the operation tool can be performed easily and reliably.

Further, the protrusion 82 extends linearly between the pressing operation portion 80 and the display portion 81.
According to this configuration, since the pressing operation unit 80 and the display unit 81 can be clearly divided by the protrusions 82, the pressing position (pressing operation unit 80) of the pressing operation tool can be intuitively visually or tactilely sensed by a finger. Can be easily recognized.
Further, a symbol mark M indicating the content of the operation is written on the pressing operation section 80, the display section 801 is a lamp which is turned on in the operation state and is turned off in the non-operation state, and the projection 82 is , The symbol mark M and the lamp are divided.

With this configuration, it is possible to easily grasp the content of the operation by the pressing operation unit 80 by the symbol mark M. Further, since the projection 82 partitions the symbol mark M and the lamp, the position of the projection 82 can be easily recognized, and the pressing position (pressing operation unit 80) of the pressing operation tool based on the projection 82 can be more easily recognized. be able to.
Further, the plurality of operation tools include other operation tools 145, 146, 167, 168 having the pressing operation section 80 and not having the display section 81, and the other operation tools 145, 146, 167, 168 are The protrusion 82 is provided at a position farther from the symbol mark M than the protrusion 82 of the one operation tool.

According to this configuration, depending on the position of the protrusion 82, the one operation tool 141 to 144, 147, 161-166 and the other operation tool 145, 146, 167, 168 can be visually intuitively or easily touched with a finger. Can be distinguished and recognized.
Further, the one operation tool 141 to 144, 147, 161 to 166 has a rectangular shape having a longitudinal direction and a lateral direction in a plan view, and the display unit 81 is provided with a pressing member provided on one side in the longitudinal direction. The pressing operation portion 80 is an immovable portion, and is a depressible portion provided on the other side in the longitudinal direction with respect to the protrusion 82.

According to this configuration, the pressing operation unit 80 and the display unit 81 can be easily discriminated by pressing, and the pressing operation unit 80 can be operated easily.
The operation lever 21 of the work vehicle 1 is an operation lever 21 provided on one side of the driver's seat 10 of the work vehicle 1, and is provided with a swingable swing body 22 and an upper portion of the swing body 22. A grip 23 is provided, and the grip 23 is provided on the one side and a grip portion 24 provided on the other side opposite to the one side and the operation switches 30, 31, 32. An operating portion 25 provided with, an extending portion 26 extending rearward from a lower portion of the grip portion 24, and an anti-slip portion 28 provided from a surface of the grip portion 24 to a surface of the extending portion 26. Have.

According to the above configuration, since the grip 23 is provided with the anti-slip portion 28, when the grip 23 is operated to operate the operation lever 21, the holding force (grip force) acting on the hand during the operation is increased. Operability is improved. Further, since the non-slip portion 28 is provided from the surface of the grip portion 24 of the grip 23 to the surface of the extension portion 26, the grip portion 24 is placed not only on the gripping portion (palm) but also on the extension portion 26. The part (pinky ball) is also prevented from slipping, the holding force is surely increased, and the operability is greatly improved.

The anti-slip portion 28 is provided only on the portion of the surface of the extension portion 26 located on the one side side.
According to this configuration, since the non-slip portion 28 is provided on one side of the driver's seat 10, slipping of the hand on the little finger ball side is prevented when the grip portion 24 is gripped. The extending portion 26 can reliably prevent the gripped palm from slipping off. In addition, since the non-slip portion 28 is not provided on the other side of the driver's seat 10, it is possible to smoothly move the ball side of the hand of the hand when the grip portion 24 is gripped. The anti-slip portion 28 does not impede the movement of the thumb that operates the operation switch provided at 25. Further, since the friction when the ball side of the hand is moved is small, the load applied to the skin on the ball side is small.

Further, the surface of the grip portion 24 has a region 24a1 where the anti-slip portion 28 is not provided on the extension portion 26 side and the operation portion 25 side.
According to this structure, since the vicinity of the base of the thumb hits the area 24a1 when the grip portion 24 is gripped, the operation of the operation switch provided on the operation portion 25 makes the thumb move smoothly, and the anti-slip portion 28 is used. Will not be hindered.

Further, the region 24a1 where the anti-slip portion 28b is not provided is arranged below the operation switches 30, 31, 32 in the vertical direction.
According to this configuration, when the operation switch 30, 31, 32 is selected, the bulge of the base of the thumb can be slid on the surface of the region 24a1, and when the selected operation switch is operated, the bulge of the base of the thumb can be prevented. It is gripped by the non-slip portion 28b. Therefore, the operation switch can be operated easily and reliably.

Further, the grip portion 24 has a curved surface 24a that curves and extends from the other lateral side toward the one lateral side, and an upright surface 24e that stands up from the operation portion 25 toward the curved surface 24a, The anti-slip part 28 is provided from the curved surface 24 a to the surface of the extending part 26.
According to this structure, when the grip portion 24 is gripped, the palm is along the curved surface 24a, so that the grip portion 24 is excellent in fit and the palm is prevented from sliding along the curved surface 24a.

Further, other operating switches 33, 34 different from the operating switches 30, 31, 32 are provided on the upright surface 24e, and the anti-slip portion 28 is provided at least vertically with the other operating switches 33, 34. Are provided over the overlapping range.
According to this configuration, when the operation switches 30, 31, 32 provided on the upright surface 24e are operated, the anti-slip portion 28 prevents the parts other than the vicinity of the base of the thumb of the palm from sliding. Therefore, the position of the palm can be firmly fixed and the operation switches 30, 31, 32 can be operated without fail without fail.

The extension width of the extension portion 26 on the side of the other side is wider than the extension width on the side of the one side.
According to this configuration, when the grip portion 24 is gripped, the lower part of the palm of the palm on the thumb side can be supported by the wide portion of the extension portion 26, so that the palm of the palm when moving the thumb can be supported. It can prevent the thumb side from slipping off.
In addition, the curved surface 24a includes a side edge portion 24h that constitutes an edge portion on the one side of the curved surface 24a, an upper edge portion 24i that constitutes an upper edge portion of the curved surface 24a, and a side edge portion. 24h and a corner edge portion 24k that connects the upper edge portion 24i, and the corner edge portion 24k is curved with a smaller radius of curvature than the side edge portion 24h and the upper edge portion 24i.

According to this configuration, since the grip portion 24 can be gripped by sandwiching the corner edge portion 24k with a plurality of fingers other than the thumb, the position of the palm is stable and difficult to slip, and the palm is kept in a constant position for a long time. Easy to maintain.
The work vehicle 1 also includes a driver's seat 10 mounted on the vehicle body 2, an armrest 15 provided on one side of the driver's seat 10, and an operation lever 21 provided on the armrest 15. Reference numeral 21 is an operation lever 21 having the above-mentioned anti-slip portion 28.

According to this configuration, in the work vehicle 1 including the operation lever 21 provided on the armrest 15, when the grip 23 is operated and the operation lever 21 is operated, the holding force (grip force) acting on the hand at the time of operation is increased. It is enhanced and the operability is improved.
The armrest 15 has an elbow rest 18 behind the operating lever 21, and the operating lever 21 is within the width of the elbow rest 18 in the vehicle width direction.
According to this configuration, the operator seated in the driver's seat 10 can operate the operation lever 21 without moving the elbow placed on the elbow rest 18 (in a state where the elbow is not separated from the body), and the operation is performed. It has excellent properties.

Further, the work vehicle 1 includes a driver's seat 10, a swing operation part 17, an elbow rest part 18, and an operation tool placement part 19 provided with a plurality of operation tools, which are provided on the side of the driver's seat 10. And an armrest 15 having an armrest 15, and an elbow rest 18 provided at a rear portion of the armrest 15, and a swing operation portion 17 provided at a front portion of the armrest 15 so as to be higher than an upper surface of the elbow rest 18. The pedestal 20 and the operation lever 21 that projects upward from the pedestal 20 and can swing.

With this configuration, the swing fulcrum of the operation lever 21 can be provided at a high position within the protrusion of the pedestal 20, and the stroke of the operation lever 21 protruding upward from the pedestal 20 in the front-rear direction can be reduced. be able to. Further, when operating the operation lever 21 with the elbow placed on the elbow rest 18, the operation lever 21 can always be held and operated at a position higher than the elbow. That is, the operation lever 21 can be operated with the forearm (the part of the arm in front of the elbow) facing upward and tilting upward. As a result, even when the operation lever 21 is tilted forward, the elbow is unlikely to be fully extended, the operability is improved, and a reliable operation is possible.

In addition, the operation tool placement portion 19 is provided at a position lower than the upper surface of the pedestal 20 and the upper surface of the elbow rest portion 18 behind the swing operation portion 17 and in front of the elbow rest portion 18.
According to this configuration, since the position of the arm is sufficiently higher than the operation tool disposition unit 19, it is ensured that the arm unintentionally contacts the operation tool arranged in the operation tool disposition unit 19. Can be prevented.

The plurality of operating tools are arranged below a virtual straight line L1 that connects the upper end of the pedestal 20 and the front end of the upper surface 18a of the elbow rest 18.
According to this configuration, it is possible to more reliably prevent unintentional contact of the arm with the operation tool arranged in the operation tool disposition unit 19.
Further, the plurality of operation tools are arranged below an extension line L2 that extends the upper surface 18a of the elbow rest 18 to the pedestal 20.

With this configuration, it is possible to more reliably prevent the arm from unintentionally contacting the operation tool arranged in the operation tool arranging section 19.
The virtual straight line L1 is inclined so as to move upward as it goes forward.
According to this configuration, when the elbow is placed on the elbow rest 18 and the operation lever 21 is operated, the inclination direction of the arm and the inclination direction of the virtual straight line L1 are the same, and therefore, the operation tool placement portion 19 is arranged. Unintentional contact of the arm with the operation tool can be reliably prevented.

Further, the upper surface of the operation tool disposing portion 19 is inclined so as to move downward as it goes forward.
According to this configuration, the vertical distance between the upper surface of the operation tool disposition unit 19 and the virtual straight line L1 increases as it goes forward, and therefore the arm arranged on the operation tool disposition unit 19 unintentionally. Can be effectively prevented.

In addition, the plurality of operation tools include operation tools 61 to 71 operated by pressing and operation tools 73 to 75 operated by rotation or swing around the horizontal axis, and in the operation tool disposition unit 19, the horizontal operation is performed. The operation tools 73 to 75 operated by rotation or swing around the axis are arranged in front of the operation tools 61 to 71 operated by pressing.
According to this configuration, under the condition that the virtual straight line L1 is inclined so as to move upward as it goes forward, the operation tools 73 to 75 operated by rotation or swinging around a tall horizontal axis, Since it is arranged in front of the operation tools 61 to 71 that are operated by the short push, it is unlikely that the tall operation tool projects from the virtual straight line L1. Therefore, it is possible to reliably prevent the arm from unintentionally contacting the operation tool arranged in the operation tool arranging section 19.

Further, the lower surface of the armrest 15 is recessed upward at the rear portion as compared with the front portion.
According to this configuration, it is possible to prevent the lower surface 16b of the armrest 15 from coming into contact with the knees of the operator seated in the driver's seat 10.
Further, the work vehicle 1 includes a driver's seat 10 and an armrest 15 provided on the side of the driver's seat 10 and having a plurality of operating tools arranged on the surface thereof. The plurality of operating tools press an operation related to traveling. The running system pressing operation tools 61 to 69, and the working system pressing operation tools 70 and 71 that perform operations related to work by pressing. The working system pressing operation tools 70 and 71 are the traveling system pressing operation tools 61 to 69. It includes a small operation tool 71 having a plurality of pressing operation portions 71a and 71b arranged in a smaller area and collectively.

According to this configuration, the work system pressing operation tool includes the small operating tool 71 having a plurality of pressing operation portions 71a and 71b arranged in a smaller area than the traveling system pressing operation tool, so The system pressing operation tool and the working system pressing operation tool can be intuitively and clearly distinguished by the size difference, and the working system pressing operation tool can be easily found. Further, the small operation tool 71 is excellent in operability because the plurality of pressing operation parts 71a and 71b are arranged collectively.

Further, the traveling system pressing operation tools 61 to 69 each include a pressing operation section 80 and a display section 81 indicating which of the operating state and the non-operating state, and the small operating tool 71 is a pressing operation. It has the parts 71a and 71b and does not have the display part.
According to this configuration, it is possible to visually and easily grasp whether the pressing operation unit 80 is in the operating state or the non-operating state due to the presence of the display unit 81. Further, since the small-sized operation tool 71 does not have the display section and is downsized, the distinction from the traveling system pressing operation tools 61 to 69 can be clarified, and it becomes easy to find.

Further, the small operation tool 71 has a plurality of pressing operation parts 71a and 71b integrated therein.
According to this configuration, the small-sized operation tool 71 can be downsized as compared with the case where the plurality of pressing operation parts 71a and 71b are provided separately, and therefore the distinction from the traveling-system pressing operation tools 61 to 69 is clarified. can do.
In addition, a rotary operation tool 72 for performing an operation related to work by rotating around the vertical axis is provided, and the small operation tool 71 and the rotary operation tool 72 are arranged at positions adjacent to each other in the width direction of the armrest 15.

According to this configuration, since the small operation tool 71 and the rotary operation tool 72, which are work-related operation tools that perform operations related to work, are adjacent to each other in the width direction of the armrest 15, an operation when performing operations related to work is performed. It has excellent operability.
The small operating tool 71 and the rotary operating tool 72 are the operating tools for operating the lifting/lowering device 4, including the lifting/lowering device 4 for lifting/lowering the working device.

According to this configuration, since the small operation tool 71 and the rotation operation tool 72, which are both operation tools for operating the lifting device 4, are adjacent to each other in the width direction of the armrest 15, the lifting device 4 is operated at the time of operation. The operability of the controls is excellent.
The surface of the armrest 15 includes a first area 15A provided on the driver's seat 10 side, a second area 15B provided on the opposite side to the driver's seat 10 side, a first area 15A and a second area 15B. And a third region 15C provided therebetween, the traveling system pressing operation tools 61 to 69 are arranged in the first region 15A, the rotary operation tool 72 is arranged in the second region 15B, and the small operation tool 71 is the first region. It is arranged in three areas 15.

According to this configuration, since the traveling system pressing operation tools 61 to 69, the rotary operation tool 72 that is an operation tool of the work system, and the small operation tool 71 are arranged in different regions of the armrest 15, the operation tools of the travel system are provided. It is possible to clearly distinguish between the operation tool and the operation tool of the work system, and it is possible to prevent erroneous operation of the operation tool.
Further, the operation lever 21 of the work vehicle 1 is an operation lever 21 provided on the side of the driver's seat 10 of the work vehicle 1, and is provided with a swingable swing body 22 and an upper portion of the swing body 22. The grip 23 includes a grip portion 24 provided on the side opposite to the driver's seat 10 side, and an operation portion 25 provided on the driver's seat 10 side and provided with operation switches 30, 31, 32 on its surface. The grip 23 is provided, and another operation switch 36 different from the operation switches 30, 31, 32 is provided on the back surface 24b of the grip portion 24, and a finger is formed toward the other operation switch 36 by being recessed from the back surface 24b. Is provided with a guide recess 37.

According to this configuration, since the guide recess 37 for guiding the finger toward the operation switch 36 provided on the back surface 24b of the grip portion 24 is provided, the operation switch 36 provided on the back surface 24b of the grip portion 24 is provided. The position can be easily grasped and operated quickly. In particular, when a person with a long finger grips the grip portion 24, it may be difficult to find the operation switch 36 because the tip of the finger greatly goes over the operation switch 36 provided on the back surface 24b. The operation switch 37 can be easily found and operated by being guided by the switch 37.

The guide recess 37 has an inclined surface 37a whose depth changes as it approaches the other operation switch 36.
According to this configuration, by sliding the finger along the inclination of the guide recess 37, the finger is guided to the operation switch 36, so that the operation switch 37 can be easily found and operated.
Preferably, the inclined surface 37a has a dent depth that gradually increases as it approaches the other operation switch 37.

According to this configuration, by sliding the finger along the direction in which the depth of the recess of the guide recess 37 increases, the finger is naturally guided to the operation switch 36, so that the operation switch 37 can be easily found and operated. can do.
Further, the outer edge of the guide recess 37 forms a closed region on the back surface 24b of the grip portion 24, and the back surface 24b of the grip portion 24 has a region 24p that is not recessed around the closed region. There is.
According to this configuration, since the area of the guide recess 37 and the area 24p that is not the guide recess 37 can be clearly recognized on the back surface 24b of the grip portion 24 with the fingertips, the existence of the guide recess 37 on the back surface 24b is facilitated. In addition, it can be grasped surely.

Further, the other operation switch 36 is arranged at the upper corner portion 24n on the opposite side of the driver's seat 10 on the back surface 24b of the grip portion 24, and the inclined surface 37a extends from the vicinity of the upper corner portion 24n into a fan shape.
According to this configuration, since the grip portion 24 is arranged at the upper corner portion 24n, the fingertip does not immediately hit the operation switch 36 when the grip portion 24 is gripped, and the operation switch 36 is unintentionally pressed. It can be prevented from falling. Further, since the inclined surface 37a extends in the fan shape from the vicinity of the upper corner portion 24n, it is possible to reliably guide the fingertip toward the operation switch 36 arranged at the upper corner portion 24n.

Further, the operation switches 30, 31, 32 include a shuttle switch that operates the transmission of the work vehicle 1, and the other operation switch 36 is a shuttle check switch that switches whether to operate the shuttle switch.
According to this configuration, the guide recess 38 facilitates the operation of the operation switch (shuttle restraint switch) 36. Therefore, while pushing the operation switch (shuttle restraint switch) 36, the operation switch (shuttle switch) 30 is pushed to move forward and backward. The operation of switching can be easily performed.

Further, the work vehicle 1 includes a driver's seat 10, an armrest 15 provided on the side of the driver's seat 10, and an operation lever 21 provided on the armrest 15, and the operation lever 21 includes the operation switch 36. The operation lever 21 includes a guide recess 38 and the like.
According to this configuration, the work vehicle 1 includes the operation lever 21 that can easily grasp the position of the operation switch 36 provided on the back surface 24b of the grip portion 24 and operate the operation switch 36 quickly.

The operation lever 21 of the work vehicle 1 is an operation lever 21 provided on one side of the driver's seat 10 of the work vehicle 1, and includes a swingable swing body 22 and an upper portion of the swing body 22. The grip 23 is provided on the one side, and the grips 24 are provided on the other side opposite to the one side and the operation switches 30, 31, 32 are provided. The operation unit 25 and the grip 23 having the operation unit 25 are provided, and another operation switch 35 different from the operation switches 30, 31, and 32 is provided on the surface that is the periphery of the grip 23 and the periphery of the grip unit 24. Has been.

According to this configuration, the operability when swinging the operation lever while operating the operation switch is excellent. More specifically, since another operation switch 35 different from the operation switches 30, 31, 32 provided on the operation unit 25 is provided on the surface that is the periphery of the grip 23 and the periphery of the grip portion 24. It is easy to operate the operation lever 21 while pressing the other operation switch 35 while holding the grip portion 24 of the grip 23, and the operability is excellent.

Further, on the upper surface 24c of the grip portion 24, another operation switch 35 different from the operation switches 30, 31, 32 is provided.
According to this configuration, since the other operation switch 35 different from the operation switches 30, 31, 32 provided on the operation portion 25 is provided on the upper surface 24c of the grip portion 24, when the grip portion 24 is grasped. It is easy to operate the operation lever 21 while pressing the other operation switch 35, and the operability is excellent.

Further, the other operation switch 35 is a switch for switching whether or not the rocking of the rocking body 22 is allowed.
According to this configuration, a series of operations of pressing the operation switch 35 to allow the rocking of the rocking body 22 and rocking the rocking body 22 to operate the operation lever 21 can be smoothly performed, and operability is improved. Are better.
Further, the other operation switch 35 is located at an intermediate position 24M between the side edge (first side edge 24h1) on one side of the grip portion 24 and the side edge (second side edge 24h2) on the other side. Is also provided at a position near the operation unit 25.

According to this configuration, the operation switch 35 is arranged at a position displaced from the position of the finger (index finger) when the grip portion 24 is gripped, toward the operation portion 25. Therefore, it is possible to prevent the operation switch 35 from being unintentionally pressed when the grip portion 24 is gripped. Further, since the operation switch 35 is arranged near the position of the finger (index finger) when the grip portion 24 is grasped, the operation switch 35 can be easily operated and is excellent in operability.

Further, the grip portion 24 has a curved surface 24a that curves and extends from the other lateral side toward the one lateral side, and an upright surface 24e that stands up from the operation portion 25 toward the curved surface 24a, The other operation switch 35 is provided above the curved surface 24a.
According to this configuration, when the grip portion 24 is gripped and the palm is moved along the curved surface 24a, the finger (index finger) is naturally positioned near the operation switch 35, so that the operation switch 35 can be easily operated. It can be operated and has excellent operability.

Further, the upper surface 24c of the grip portion 24 and the upper surface 25c of the operation portion 25 are connected in a mountain shape with the vertex 29 near the boundary between the grip portion 24 and the operation portion 25, and the other operation switch 35 is connected to the grip portion 24. It is provided at a position closer to the apex 29 than the intermediate position 24M between the side edge on one side (first side edge 24h1) and the side edge on the other side (second side edge 24h2).
According to this configuration, the position of the operation switch 35 is displaced from the position of the finger (index finger) when the grip portion 24 is gripped toward the operation portion 25. Therefore, it is possible to prevent the operation switch 35 from being unintentionally pressed when the grip portion 24 is gripped. The operation switch 35 can be easily accessed by gripping the grip portion 24 and sliding a finger toward the apex 29.

The other operation switch 35 is a push button switch provided so as to project from the upper surface of the grip portion 24.
According to this configuration, since the finger (index finger) easily hits the operation switch 35 when the grip portion 24 is grasped, the existence of the operation switch 35 can be easily and surely recognized.
Further, the oscillating body 22 is capable of gear shifting operation by oscillating, and the other operation switch 35 is a switch for switching permission/denial of the gear shifting operation by oscillating the oscillating body 22.

According to this configuration, a series of operations of pressing the operation switch 35 to allow the rocking of the rocking body 22 and rocking the rocking body 22 to perform the gear shift operation can be smoothly performed, and the operability is excellent. There is.
Further, the work vehicle 1 includes a driver's seat 10, an armrest 15 provided on the side of the driver's seat 10, and an operation lever 21 provided on the armrest 15, and the operation lever 21 is provided with the grip 23. The operation lever 21 is provided with another operation switch 35 different from the operation switches 30, 31, 32 on the surface which is the periphery and constitutes the periphery of the grip portion 24.

According to this configuration, it is easy to operate the operation lever 21 while pressing the other operation switch 35 while holding the grip portion 24, and the work vehicle 1 having excellent operability with respect to the operation lever 21 is provided.
Although one embodiment of the present invention has been described above, it should be considered that the embodiment disclosed this time is an exemplification in all respects and not restrictive. The scope of the present invention is shown not by the above description but by the claims, and is intended to include meanings equivalent to the claims and all modifications within the scope.

1 Work Vehicle 4 Lifting Device 10 Driver's Seat 15 Armrest 15A First Area 15B Second Area 15C Third Area 61 to 69 Traveling System Pushing Operation Tool 70, 71 Working System Pushing Operation Tool 71 Small Operation Tool 71a, 71b Pressing Operation Section 72 Rotating operation tool 80 Pressing operation section 81 Display section 82 Protrusions 141 to 144, 147 One operation tool 161 to 166 One operation tool 145, 146, 167, 168 Other operation tool M Symbol mark

Claims (11)

Driver's seat,
An armrest provided on the side of the driver's seat and having a plurality of operating tools arranged on its surface,
Equipped with
The plurality of operating tools are provided between the pressing operation section operated by pressing, a display section indicating which of the operating state and the non-operating state, and the pressing operation section and the display section. A work vehicle including one operation tool having a protrusion that partitions the pressing operation unit and the display unit. The work vehicle according to claim 1, wherein the protrusion extends linearly between the pressing operation portion and the display portion. A symbol mark indicating the content of the operation is written on the pressing operation unit,
The display unit is a lamp that is turned on when in the operating state and turned off when in the non-operating state,
The work vehicle according to claim 1, wherein the protrusion partitions the symbol mark and the lamp. The plurality of operation tools include another operation tool having the pressing operation part and not having the display part,
The work vehicle according to claim 3, wherein the other operation tool has a projection provided at a position farther from the symbol mark than the projection of the one operation tool. The one operation tool is a rectangular shape having a longitudinal direction and a lateral direction in a plan view,
The display portion is a non-pressable portion provided on one side in the longitudinal direction,
The work vehicle according to any one of claims 1 to 4, wherein the pressing operation portion is a pressable portion provided on the other side in the longitudinal direction with respect to the protrusion. Driver's seat,
An armrest provided on the side of the driver's seat and having a plurality of operating tools arranged on its surface,
Equipped with
The plurality of operation tools include a traveling system pressing operation tool that performs an operation related to travel by pressing, and a work system pressing operation tool that performs an operation related to work by pressing,
The working vehicle includes a small operating tool that has a plurality of pressing operating portions that are arranged in a smaller area than the traveling system pressing operating tool and that are collectively arranged. The traveling system pressing operation tool includes a pressing operation section, and a display section indicating which of an operating state and a non-operating state is present,
The work vehicle according to claim 6, wherein the small operating tool includes a pressing operation unit and does not include the display unit. The work vehicle according to claim 6 or 7, wherein the plurality of pressing operation units are integrated in the small-sized operation tool. Equipped with a rotary operation tool that performs operations related to work by rotating around the vertical axis,
The work vehicle according to any one of claims 6 to 8, wherein the small operation tool and the rotation operation tool are arranged at positions adjacent to each other in a width direction of the armrest. Equipped with a lifting device that raises and lowers the working device,
The work vehicle according to claim 8, wherein the small operation tool and the rotation operation tool are operation tools for operating the elevating device. The surface of the armrest is provided between the first region provided on the driver seat side, the second region provided on the opposite side to the driver seat side, and between the first region and the second region. And a third region,
The traveling system pressing operation tool is arranged in the first area, the rotation operation tool is arranged in the second area, and the small operation tool is arranged in the third area. Work vehicle.

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