JP2011246041A - Work vehicle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To avoid splash of muddy water and facilitate maintenance work of a work vehicle by disposing a controller for control at a lower rear side of a handle frame section.SOLUTION: The work vehicle is configured such that: an engine E is mounted on a front side of a traveling vehicle body 1 and is covered with a hood 2; a steering control valve 22 for front wheel steering is arranged in the upper part of a handle frame 9 erected behind the engine E; a steering handle 10 is attached to a shaft part 22a extending to the upper part of the steering control valve 22; the controller 21 for controlling a tractor is arranged in the lower part of the handle frame 9; and the handle frame 9 and the controller 21 are covered with attachable and detachable covers 23 and 24.

Description

  The present invention relates to a work vehicle.

  In the tractor, a support convex part that bulges rearward is provided on a partition wall that divides the inside of the bonnet from the control unit side, a handle post is supported by the support convex part via a support arm, and a power steering is provided below the support convex part at the rear of the partition wall. What provided the controller is well-known (patent document 1).

JP 2006-327379 A

  Where the control controller 21 is arranged in the tractor is important for the maintenance work. In particular, in a small tractor, the arrangement space is limited, and the outer cover is also required to be arranged at an appropriate position because it needs to be constructed at low cost.

  Therefore, the present invention is intended to facilitate maintenance work while preventing the muddy water from being scattered in a work vehicle such as a tractor by disposing a control controller at an appropriate position of the handle frame portion.

  According to the first aspect of the present invention, there is provided a handle frame (9) in which an engine (E) is mounted on a front side portion of a traveling vehicle body (1), covered with a bonnet (2), and erected on the rear side of the engine (E). A steering control valve (22) for steering the front wheels is disposed at the top of the steering wheel, and a steering handle (10) is attached to a shaft portion (22a) extending upward from the steering control valve (22). 9) A tractor control controller (21) is disposed below the work frame, and the handle frame (9) and the controller (21) are covered with removable cover bodies (23, 24). And

  According to a second aspect of the present invention, in the first aspect of the invention, the front side surface and the left and right side surfaces of the controller (21) are detachably covered with a controller bracket (26) and attached to the handle frame (9). The work vehicle is characterized in that the left and right sides of the controller bracket (26) are detachably attached to the left and right parts of the frame (25) with bolts and nuts.

  According to a third aspect of the present invention, the steering handle (10) according to the first or second aspect of the invention, wherein the lower part of the handle frame (9) is pivotally supported so as to be pivotable in the front-rear direction around a horizontal axis. Is a work vehicle characterized by having a tilt type.

  According to the first aspect of the present invention, the steering control valve (22) for steering the front wheels is disposed at the upper portion of the handle frame (9), and the shaft portion (22a) extending upward from the steering control valve (22) is provided. Since the steering handle (10) was attached and the controller (21) for controlling the tractor was disposed at the lower part of the handle frame (9), the controller (21) appeared when the cover body (23, 24) was removed during inspection, Maintenance work of the controller (21) can be performed easily and quickly. Further, the cover of the controller (21) can be shared by the cover bodies (23, 24) of the handle frame (9), so that the scattering of water can be minimized and the cost can be reduced.

  According to the invention of claim 2, in addition to the effect of the invention of claim 1, the controller bracket (26) and the controller (21) are removed by removing the bolts and nuts from the left and right sides of the handle frame (9). Therefore, the maintenance work of the controller (21) can be performed easily and quickly.

  According to the invention of claim 3, in addition to the effect of the invention of claim 1 or claim 2, when the lower part of the handle frame (9) is pivotally adjusted to the rear side about the left-right axis, the steering control valve A space is formed above (22), and the maintenance work of the steering control valve (22) and the piping can be easily performed.

The side view of the whole tractor. The top view of the whole tractor. The rear view, side view, and top view which a steering wheel and the handle | steering-wheel part part were abbreviate | omitted. The perspective view of a handle frame part and a controller. The rear view, side view, and top view which a steering wheel and the handle | steering-wheel frame part abbreviate | omitted. The side view of a tractor front side part. The perspective view of a handle frame part and a controller. The perspective view of a handle frame part and a controller. A side view of a tractor. The perspective view of a handle frame part and a controller. The front view of a meter panel and the perspective view of a brake pedal. The rear view of a tractor. The front view of a meter panel. The front view of a meter panel. The front view of a meter panel. The side view and top view of a bonnet. The front view and side view of a bonnet. The perspective view of a bonnet. The side view of a tractor and the perspective view of a sidelight. The front view of a meter panel. The front view and side view of a meter panel. The perspective view of a tractor and a poly tank. A side view of a tractor. The perspective view of a tractor and a poly tank. A side view of a tractor. The side view and bottom view of a bonnet. The front view of a bonnet, a perspective view, and the perspective view of a mounting sheet board. The side view of a bonnet, a bottom view, a rear view, a perspective view, and a perspective view of a mounting sheet board. The top view and side view of a lower link part, a fuel tank, and a poly tank. The perspective view of a bonnet and a plastic tank. The perspective view of a bonnet and a plastic tank. The perspective view of a bonnet and a plastic tank.

Hereinafter, an embodiment in which the present invention is applied to an agricultural tractor will be described with reference to the drawings.
First, the whole structure of the tractor which implements this invention is demonstrated based on FIG.1 and FIG.2.
The tractor has an engine E mounted on the front side of the traveling vehicle body 1, the engine is covered with a bonnet 2, and the rotational power of the engine is shifted by the main transmission and the sub-transmission in the transmission case 3, so And to the left and right rear wheels 5 and 5.

  Further, a cylinder case 6 having a hydraulic cylinder for lifting and lowering the work implement (not shown) is provided at the upper rear side of the transmission case 3, and left and right lift arms (not shown) are provided on the rear side of the cylinder case 6. The lift arm is configured to rotate up and down by a telescopic operation of a piston of a hydraulic cylinder (not shown). In addition, a three-point link mechanism (not shown) including an upper link and left and right lower links is provided at the upper rear side of the mission case 3 so as to connect various working machines.

  Further, a steering wheel frame 10 is provided on the rear side of the engine to provide a steering handle 10, and a seat 11 is provided on the rear side of the steering wheel frame 9. A rear safety frame 12 is provided at the rear of the traveling vehicle body 1.

  A middle part in the left-right direction of the front axle case 15 is supported on the lower front side of the traveling vehicle body 1 so as to be rotatable about a longitudinal axis, and a front wheel transmission shaft (not shown) is provided in the front axle case 15. A front wheel transmission take-out shaft (not shown) extending from 3 to the front side of the traveling vehicle body 1 is inserted into a shaft support portion of the front axle case 15 to transmit power. Also, left and right front wheel support cases (not shown) are supported on the left and right sides of the front axle case 15 so as to be able to steer and rotate about the vertical axis, and the left and right front wheels 4 and 4 are supported on the left and right front wheel support cases. Power is transmitted from the shaft (not shown) to the left and right front wheels 4 and 4 via the front wheel transmission in the front axle case 15.

  A front wheel steering cylinder 16 for power steering is attached to the front upper part of the front axle case 15 along the left and right direction, and can be refracted to the left and right sides protruding from the left and right of the steering rod (not shown) of the front wheel steering cylinder 16. The left and right steering links (not shown) are connected, and the outer ends thereof are connected to the arm portions of the left and right front wheel support cases to steer the front wheels 4 and 4.

Next, the mounting configuration of the control controller 21 and the steering control valve 22 will be described with reference to FIGS.
An engine E is mounted on the front side of the traveling vehicle body 1 and covered with a bonnet 2, and a handle frame 9 is erected on the rear side of the engine E. A steering control valve 22 is attached to the upper part of the handle frame 9, and the steering handle 10 is attached to a steering shaft 22 a extending upward from the steering control valve 22.

  Accordingly, the steering control valve 22 is switched by the steering operation of the steering handle 10, and the hydraulic pressure is supplied to and discharged from the front wheel steering cylinder 16 via the left and right steering hoses 22b and 22b, and the steering rod 16a and the left and right steering links (not shown). ) To steer the left and right front wheels 4 and 4.

Next, FIGS. 4 and 5 will be described.
A tractor control controller 21 is attached to the lower part of the handle frame 9. The controller 21 is configured as a rectangular parallelepiped having a predetermined left-right width, a predetermined vertical height, and a relatively thin thickness in the front-rear direction, and is arranged vertically along the vertical direction in a side view. Further, the handle frame 9 is composed of a left and right frame members 9a and 9b and upper and lower frame members 9c and 9d that are vertically long when viewed from the front. The front side and left and right sides of the controller 21 are covered with a controller bracket 26, and are detachably attached with bolts and nuts. Then, the left and right upper and lower mounting bolts 26a extending from the left and right side surfaces of the controller bracket 26 are fitted and supported in the left and right upper and lower mounting grooves 25a of the left and right frame bodies 9a and 9b. It is concluded.

  Further, the engine room in the bonnet 2 and the handle frame 9 are partitioned by a dashboard 23 in the left-right direction, and the upper portion of the dashboard 23 and the upper portion of the handle frame 9 are covered by an operation panel 27. The controller 21 attached to the lower part of the housing is covered with a dashboard cover 24 that bulges rearward in a U shape in plan view.

  Thus, the controller 21 is attached to the rearmost part of the handle frame 9 and is covered with a dashboard 23 and a dashboard cover 24. When the dashboard cover 24 is removed, the controller 21 appears so that maintenance work can be performed.

  Where the control controller 21 is arranged in the tractor has an important relationship for the maintenance work. In particular, in a small tractor, the arrangement space is limited, and the outer cover is also required to be arranged at an appropriate position because it needs to be constructed at a low cost. In addition, if the controller 21 is disposed below the seat and covered with a simple cover, there is a problem that the scattering of muddy water cannot be sufficiently covered.

  However, according to the above configuration, when the controller 21 is inspected, if the dashboard cover 24 is removed, the controller 21 attached to the handle frame 9 appears to be exposed, and a tester or the like is applied to the controller 21 to facilitate maintenance work quickly. Can be done. Further, the dashboard 23 and the dashboard cover 24 can prevent and minimize the scattering of water to the controller 21, and can reduce the cost while improving the maintainability.

  Further, when the dashboard cover 24 is removed, the lower portion of the steering control valve 22 appears in an exposed state, and the maintenance of the steering control valve 22 and the pipes 22b can be performed simultaneously.

Next, FIGS. 6 and 7 will be described.
A lower end portion of the handle frame 9 is configured to be adjustable in the front-rear direction around the left-right axis 9d, and the steering handle 10 is configured to be tilted. The locking portion 28a of the tilt arm 28 that is pivotally supported on the dashboard 23 by a horizontal axis is locked to the tilt adjustment grooves 29,... I have to. Reference numeral 30 denotes a return spring for locking the tilt arm 28.

Next, another embodiment of the controller bracket 26 will be described with reference to FIGS.
The frame 31 is raised from the left and right sides of the rear part of the dashboard 23 of the mission case 3, and the controller bracket 26 is detachably supported by upper and lower rails 31 a and 31 a extending from the frame 31 toward the center side. The controller 21 is attached to the left and right sides of the inner surface of the controller bracket 26, the control relay 32 and the regulator 33 are attached to the sides thereof, the connector 34 is attached to the left and right sides, and these harnesses 35,. Connected.

  According to the above configuration, since the control controller 21 and electrical components are concentrated on the controller bracket 26, even if a failure occurs, the controller bracket 26 can be replaced and repaired quickly.

  In addition, there are types of tractors that are easy to control and complex types, but they can be dealt with by using the harness 35 in common and replacing only the controller bracket 26, thereby improving production efficiency.

  Further, as shown in FIG. 10, the frame 31 may be configured so that the left and right sides of the controller bracket 26 can be opened and closed around a vertical axis. With this configuration, when the controller bracket 26 is rotated 180 degrees, the controller bracket 26 can be taken out to the side of the machine body, and maintenance work can be performed easily and easily.

Next, the meter panel 41 will be described with reference to FIG.
This meter panel 41 has a small size of liquid crystal display, and is provided with an engine speed / travel distance display section 41a at the center of the lower part, and a switching display section 41b below the engine speed / travel distance display section 41a. Alternatively, “hour meter as engine driving time” is displayed. A fuel gauge display section 41c and an engine coolant water temperature gauge display section 41d are provided on the left and right sides of the engine speed and travel distance display section 41a, and a monitor display section 41e for displaying the operating state of each section is disposed above them. ing.

  Also, the left and right brake pedals 42, 42 are connected by a connecting plate 43 to be in a left and right integrated operation state, or the connection is released and the left and right brakes are operated as an independent operation state to detect the presence or absence of the connection state. A sensor 44 is provided.

  Thus, when the brake sensor 44 detects the left / right coupled state and the detection information is input to the controller 21, the brake coupled state is displayed on the brake display unit 41f of the monitor display unit 41e, as shown in FIG. Thus, “vehicle speed” is displayed on the switching display portion 41b. When the brake sensor 44 detects the brake disengagement state, the brake disengagement display is displayed on the brake display portion 41f of the monitor display portion 41e, and the “hour meter” is displayed on the switching display portion 41b as shown in FIG. Is displayed.

  According to the said structure, the change display part 41b of the small meter panel 41 can be utilized effectively, and it can change to the display corresponding to the operating state of a tractor, and is safe. Further, the vehicle speed of the tractor can be easily confirmed by utilizing the switching display portion 41b in the inspection process at the factory of the tractor.

Next, the lighting configuration of the back lamp 46 will be described with reference to FIGS. 11 and 12.
A back lamp 46 is provided on the rear portion of the cabin 45 of the tractor. When the brake sensor 44 detects the left and right connection state and inputs the brake to the controller 21, the brake display is displayed on the brake display unit 41f of the monitor display unit 41e, and when the brake pedal 42 is depressed to the braking position, The lamp 46 is turned on. Further, when the brake sensor 44 detects the brake disengagement state, the brake disengagement display is displayed on the brake display portion 41f of the monitor display portion 41e, and the back lamp 46 is turned on when the work switch (not shown) is turned on. I have to. According to the said structure, a tractor shall be based on the road traffic law, and the night work can be assisted, reducing cost.

Next, another embodiment will be described based on FIG.
The meter panel 41 is configured in the same manner as in the above-described embodiment, and displays “vehicle speed”, “hour meter as engine driving time”, or “PTO rotational speed” on the switching display portion 41b.

  Thus, when the brake sensor 44 detects the left / right connection state and inputs it to the controller 21, the brake display is displayed on the brake display section 41f of the monitor display section 41e, and “vehicle speed” is displayed on the switching display section 41b. The Further, when the brake sensor 44 detects the brake disengagement state, the brake disengagement display is displayed on the brake display portion 41f of the monitor display portion 41e, and “hour meter” is displayed on the switching display portion 41b. Further, when the brake sensor 44 detects the brake disengagement state, the brake disengagement display is displayed on the brake display part 41f of the monitor display part 41e, and the movement of the PTO lever (not shown) to the shift position is indicated by the PTO sensor (not shown) ) Is detected, “PTO rotational speed” is displayed on the switching display portion 41b.

According to the above configuration, it is possible to make the switching display portion 41b of the meter panel 41 correspond to the operating state of the tractor while reducing cost, and it is safe.
Next, another embodiment will be described with reference to FIG.

  The meter panel 41 is configured in the same manner as in the above embodiment, and the engine speed and travel distance display section 41a is provided with an electric pointer type meter display section, and the electric pointer ranges from zero to the maximum rotation speed and maximum speed. Is displayed while rotating. In the same manner as in the above embodiment, the left and right brake pedals 42, 42 are connected by the connecting plate 43 so as to be in the left / right integrated operation state, or changed to the independent operation state in which the connection is released to operate the left / right brake device. In addition, a brake sensor 44 for detecting the connection release state is provided.

  Thus, when the brake sensor 44 detects the left / right connection state and inputs it to the controller 21, the brake display is displayed on the brake display unit 41f of the monitor display unit 41e, and the engine speed and travel distance display unit 41a displays “ It is switched to “vehicle speed display” and the vehicle speed is displayed by the electric pointer. When the brake sensor 44 detects the brake disengagement state, the brake disengagement display is displayed on the brake display portion 41f of the monitor display portion 41e, the engine speed and travel distance display portion 41a is switched to the tachometer, and the engine rotation The number is indicated by the electrical pointer. In displaying the vehicle speed and the engine speed, the zero of the electric pointer is set at the same position, and rotation is started from there to make the display easy to understand. According to the said structure, since the vehicle speed and engine speed are displayed by rotation of an electric pointer on the engine speed and mileage display part 41a set widely, it can make it easy to see.

Next, another embodiment will be described with reference to FIG.
The meter panel 41 is configured in the same manner as in the above-described embodiment, and an electric pointer is rotatably provided and displayed at the center of the engine speed / travel distance display portion 41a. A switching display portion 41b is provided below the electric pointer to switch between “vehicle speed” and “hour meter as engine driving time”. Further, the engine speed from zero to the maximum speed is displayed on the periphery of the rotation of the electric pointer of the engine speed and travel distance display section 41a, and the inner circumference side has an arc shape that becomes thicker as the speed increases. A display graphic 41aa is provided, and an OK zone 41ab is provided in the middle of the display graphic 41aa to display an appropriate engine speed during operation.

  Further, when the key switch is inserted into the starting device at the time of starting the engine and operated to the glow position, the preheating display portion 41g of the monitor display portion 41e is blinked. Next, the electric pointer instantaneously moves by a predetermined distance every predetermined time (for example, 3 seconds), passes through the OK zone 41ab, and moves to the maximum rotation speed display portion for a predetermined time (for example, 15 seconds) so that the preheating operation is finished. I have to. Accordingly, the engine preheating process is ended by a command from the controller 21, and the end of the preheating process is notified by the voice display device.

  When an elderly person operates a tractor, the end of the preheating operation time of the engine is difficult to understand, and the glow may continue until the plug is damaged. However, according to the above configuration, since the glow time is displayed by moving the electric pointer, it is easy to understand the end of the glow operation, and the above problems can be solved.

  Further, as shown in FIG. 20, when the parking display unit 41h, the engine oil pressure warning lamp 41i, etc. are configured on the monitor display unit 41e of the meter panel 41, the display is displayed by surrounding the display unit with a line. It becomes easy to see.

  Moreover, you may comprise as FIG. The monitor display on the left side of the monitor display portion 41e of the meter panel 41 is displayed in blue, for example, the right side is displayed in red, and umbrella plates 47 are provided on both the left and right sides and the upper side of the meter panel 41 to make a shadow. In the case of an abnormal alarm monitor, an audible alarm from the alarm device is also output in combination with a lighting display or a blinking display for a predetermined time (for example, 2 to 5 seconds). According to the above configuration, it is possible to make the monitor display easier to see by collecting darkly lit lighting colors in shaded areas during the daytime or in a bright environment.

Next, the arrangement of lights in the bonnet 2 will be described with reference to FIGS.
The rear lower part of the bonnet 2 is pivotally supported around an axis in the left-right direction, and light arrangement space portions 2a and 2a are provided on the left and right sides of the front upper part of the bonnet 2. Headlights 51, 51 are arranged near the center of the light arrangement space portions 2a, 2a, and are supported by a support member 2b extending from the upper surface of the bonnet 2. The left and right side lights 52, 52 are arranged on the left and right sides of the light arrangement space portions 2a, 2a and below the headlights 51, 51 and supported by the support member 2b, and both the lights 51, 51, 52, 52 Are provided independently and supported by the support member 2b.

  In a small tractor, when trying to integrate the headlight and sidelight, there is a problem that a sufficient volume cannot be secured due to the space, the support member 2b is melted by heat, or a lens area that can secure an illuminance cannot be secured. there were. However, according to the said structure, the die cost for bonnet shaping | molding can be reduced, the number of parts can be reduced, and the lights 51, 51, 52, 52 can be easily assembled | attached to the bonnet 2. FIG.

  Further, as shown in FIG. 19, side lights 52, 52 are attached to the support member 2b so as to be rotatable around a shaft 52a in the front-rear direction. And if the bonnet 2 is opened upward and the side lights 52 and 52 are rotated and adjusted to irradiate downward, the inside of the engine room can be brightened and the inspection work can be facilitated.

Next, the structure for supplying fuel to the fuel tank 61 will be described with reference to FIG.
A rotary tiller 62 is provided at the rear of the tractor body so as to be movable up and down, and left and right support bars 63, 63 are raised on the upper frame 62 a of the rotary tiller 62. The upper left and right sides of the car body 65 are rotatably supported on the left and right support bars 63, 63 by left and right shafts 65a, 65a, and a fuel poly tank 64 is fitted and supported on the car body 65. .

  Thus, the rotary tank 62 can be moved to the field with the plastic tank 64 filled with fuel being supported, and the fuel tank 61 can be replenished with fuel from the plastic tank 64. Further, when supplying fuel from the polytank 64 to the fuel tank 61, as shown in FIG. 23, while raising the rotary tiller 62 and using a head with a supply pump (not shown) from the polytank 64 at a high position, The fuel can be quickly supplied to the fuel tank 61 inside the left and right fenders 66 and 66.

  Moreover, you may comprise as FIG. A rear safety frame 67 is raised from the rear part of the mission case 3, and an intermediate frame 67 a is provided in the upper and lower intermediate part of the rear safety frame 67 along the left-right direction. The left and right lower portions 68a and 68a of the support stay 68 are inserted into and supported by the support holes 67b and 67b of the intermediate frame 67a, the rear portion of the poly tank 64 is sandwiched by the support recess 68b of the upper portion of the support stay 68, and the rear side surface of the seat 11 Thus, the front side of the poly tank 64 is supported while being squeezed. Accordingly, the fuel is supplied from the poly tank 64 to the fuel tank 61.

Next, the mounting configuration of the plastic tank 64 of the bonnet 2 will be described with reference to FIGS.
The upper surface portion 2a of the bonnet 2 made of sheet metal is configured as a slanted surface with a gentle downward slope, and a horizontal surface portion 2g parallel to the ground is drawn at the center of the left and right front and rear sides of the upper surface portion 2f. A resin mounting sheet plate 69 is fitted and mounted, and attached with resin rivets 70,..., So that the shape of the mounting sheet plate 69 and the bottom surface shape of the polytank 64 are matched.

  According to the above configuration, the plastic tank 64 can be stably placed on the placement sheet plate 69 of the bonnet 2 and fuel can be supplied to the fuel tank 61. Further, there is no need to provide a mounting base for the polytank 64 in the vicinity of the bonnet 2, and the cost can be reduced.

  Moreover, you may comprise as shown in FIG. The upper surface portion 2a of the bonnet 2 is configured to be a slanted surface with a gentle downward slope. The left and right placement sheet plates 69, 69 are made thicker at the front side and the rear side portions are made thinner in order to form the inclined attachment surface 69a on the lower surface, and the inclined attachment surface 69a of the placement sheet plate 69 on the upper surface portion 2a of the bonnet 2. Join and attach with resin rivets 70. Thus, the upper surface of the left and right placement sheet plate 69 is a horizontal plane, and the poly tank 64 is placed.

Next, FIG. 29 will be described.
Left and right lower links 73 and 73 are provided at the rear part of the machine body so as to be rotatable up and down around a horizontal axis. The support stay 68 is detachably attached to the distal end portions of the left and right lower links 73, 73, and is configured to bend in a frontal portal type and an L shape in a side view. , 68c so as to be rotatable.

  According to the above configuration, the fuel tank 64 can be placed by the support stay 68 so that the fuel can be easily supplied while the left and right lower links 73 and 73 are moved up and down by the hydraulic device. Further, when a bellows-like hose 74 is attached to the port of the poly tank 64, the fuel can be supplied by being easily joined to the fuel filler port of the fuel tank 61. Further, when the left and right lower links 73 and 73 are rotated upward and the support stay 68 is rotated about the shaft 68c, the polytank 64 can be moved upward and fuel can be easily supplied using potential energy.

  Next, FIG. 30 will be described. For example, the right side plate 2c of the bonnet 2 is provided with an opening 2g, and a polytank base plate 75 is provided in the opening 2g so as to be rotatable about a longitudinal axis. Thus, as shown by the solid line in FIG. 30, it can be rotated upward and locked in a horizontal state, the poly tank 64 can be placed, and the fuel can be supplied to the fuel tank 61. Further, the polytank base plate 75 is rotated downward to close the opening 2g. Further, as shown in FIG. 31, if the polytank base plate 75 is constituted by a cut-out plate, the exhaust of the engine can be released well from here.

  Next, FIG. 32 will be described. A bonnet 2 is provided with a hand catcher 76. The hand catcher 76 is configured to be L-shaped in a side view by a front gate-type gate portion 76a and left and right front extending portions 76b and 76b protruding forward from the left and right lower ends of the gate-type portion 76a. ing. The left and right side plates 2e and 2c of the bonnet 2 are pivotally supported by the shafts 76c and 76c extending from the front end portions of the left and right front extension portions 76b and 76b to the left and right centers in the front-rear direction intermediate portion. A fuel tank 61 is supported on the inner ends of 76c and 76c.

  The hand catcher 76 is operated to rotate about the left and right axis of the front lower end portion of the bonnet 2 and rotate upward to move the fuel tank 61 upward. Next, the hand catcher 76 is rotated around the shafts 76 c and 76 c, the fuel supply port of the fuel tank 61 is rotated upward from the front side, and fuel is supplied from the poly tank 64.

  Each of the above-described embodiments is illustrated or described separately or mixed for easy understanding, but these can be combined in various ways, and can be configured according to their description order and expression. -The action and the like are not limited, and there are of course cases where a synergistic effect is produced.

DESCRIPTION OF SYMBOLS 1 Traveling vehicle body 2 Bonnet 4 Front wheel 9 Handle frame 9a Left frame 9b Right frame 10 Steering handle 21 Controller 22 Steering control valve 22a Shaft 23 Cover body 24 Cover body 26 Controller bracket E Engine

Claims (3)

  An engine (E) is mounted on the front side of the traveling vehicle body (1), covered with a bonnet (2), and mounted on the upper part of a handle frame (9) standing behind the engine (E) for front wheel steering. A steering control valve (22) is provided, a steering handle (10) is attached to a shaft portion (22a) extending upward from the steering control valve (22), and tractor control is performed at the lower portion of the handle frame (9). A work vehicle characterized in that a controller (21) is provided and the handle frame (9) and the controller (21) are covered with detachable cover bodies (23, 24).   The left and right parts of the mounting frame (25) attached to the handle frame (9), wherein the front side and left and right sides of the controller (21) are detachably covered with a controller bracket (26). A work vehicle characterized in that the left and right sides of the controller bracket (26) are detachably attached with bolts and nuts.   In the invention of claim 1 or claim 2, the lower part of the handle frame (9) is pivotally supported so as to be pivotable in the front-rear direction around a left-right axis, and the steering handle (10) is configured in a tilt type. A working vehicle characterized by

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