KR102140429B1 - Industrial vehicle - Google Patents

Abstract

For example, it is a technical problem to be able to perform farming comfortably by managing air conditioning in the cabin or reducing noise in the cabin. The working vehicle 1 of the present invention comprises a cabin frame 300 constituting the frame of the cabin 7 covering the steering seat 8 on the traveling body 2 and a roof disposed on the upper side of the cabin frame 300 A sieve 306 is provided. The inside of the roof body 306 is divided into two chambers in front and rear, and a sound absorbing material 444 is disposed on the upper surface side of the inner roof 362 constituting the ceiling of the front chamber of the roof body 306. The sound absorbing material 444 is accommodated in all rooms.

Description

Work vehicle {INDUSTRIAL VEHICLE}

The present invention relates to a work vehicle called a tractor for agricultural work or a wheel loader for civil works.

Conventionally, a work vehicle such as an agricultural tractor has a cabin that covers a steering seat on a traveling body (see, for example, Patent Documents 1 and 2). The cabins described in Patent Documents 1 to 3 have a cabin frame constituting a frame and a roof body disposed on the upper side of the cabin frame. The cabin frame has a so-called frame structure in which a post (pillar) or a beam member (beam) is combined, and rigidity is secured by the post and the beam member.

Japanese Patent Publication No. 2002-67657 Japanese Patent Publication 2004-345367

However, with respect to the structure of this type of cabin, there is a strong demand not only for cost reduction but also for ease of boarding and improvement in comfort inside the cabin. For example, it is desired to manage air conditioning in the cabin or to reduce noise in the cabin so that farming can be carried out comfortably.

In addition, in a work vehicle with a cabin attached, horizontally pivoting side doors are provided on the left and right sides of the cabin. The side door is often composed of a single piece of glass to secure the clock. For this reason, in a work vehicle with a cabin, when the operator tries to close a large single glass side door when the operator enters or exits the cabin, the air in the cabin is compressed rapidly, and the internal pressure of the cabin increases, making it difficult to close the side door.

An object of the present invention is to provide a work vehicle that has been improved by reviewing the above-described conditions.

The invention of claim 1 is a work vehicle having a cabin frame constituting a frame of a cabin covering a steering seat on a traveling body and a roof body disposed on an upper side of the cabin frame, wherein the interior of the roof body is divided into two front and rear rooms. It means that the sound absorbing material is arranged on the upper surface side of the inner roof constituting the ceiling of the front chamber of the roof body, and the sound absorbing material is accommodated in the front chamber.

The invention of claim 2 is that in the work vehicle according to claim 1, there is provided an obstruction plate for blocking a ceiling hole formed in the inner roof, and the sound absorbing material is adhered to an upper surface side of the obstruction plate.

The invention of claim 3 is characterized in that in the work vehicle according to claim 1 or 2, there is provided a side door to open and close the left and right sides of the cabin, and the air in the cabin is closed when the side door is closed on the rear side of the cabin. It is that it forms a bet release part that discharges to the outside.

The invention of claim 4 is that in the work vehicle according to claim 3, the bet discharge portion is attached from the outside to the lower rear surface of the cabin, and a discharge sphere is provided on the lower surface side of the bet discharge portion.

The invention of claim 5 is a work vehicle according to any one of claims 1 to 4, wherein the cabin frame is a front beam connecting a pair of left and right front struts, a pair of left and right rear struts, and an upper end of the front struts. It has a member, a rear beam member connecting between the upper ends of the rear struts, and a lateral beam member connecting between the front struts arranged in front and rear and the upper end of the rear struts. That is, the rear chamber of the roof body is projected rearward than the rear beam member to support the rear chamber with the rear beam member, and the air conditioner is accommodated in the rear chamber.

In the working vehicle according to claim 5, in the working vehicle according to claim 5, tail pipes for discharging exhaust gas of the engine mounted on the traveling gas to the outside are provided on the left and right sides of the traveling gas, and the left and right sides of the roof body are It is that the outside of the tail pipe is formed with an outside air inlet for communicating the rear thread with the outside.

The invention of claim 7 is a work vehicle according to any one of claims 1 to 4, wherein the hydraulic external take-off mechanism for supplying hydraulic fluid to a work machine detachably mounted on the traveling gas and the hydraulic external take-off mechanism are manually operated. A plurality of hydraulic operation lever to be provided, and the hydraulic external take-out mechanism and the cutting member for interlocking each of the hydraulic operation lever, the cover plate attached to the cabin frame by punching and bending the cover plate It is that the clamp portion for the rope-shaped member is formed, and the clamp portion is welded and fixed to the cabin frame.

In the working vehicle according to claim 8, in the working vehicle according to claim 7, a fitting hole through which the rope-shaped member is inserted is formed in the clamp portion, and the rope-shaped member is forcedly fitted into the fitting hole through a grommet made of an elastic material. It is attached by.

(Effects of the Invention)

According to the present invention, in a work vehicle having a cabin frame constituting a frame of a cabin covering a steering seat on a traveling body and a roof body disposed on an upper side of the cabin frame, the interior of the roof body is divided into two front and rear rooms. And, the sound absorbing material is disposed on the upper surface side of the inner roof constituting the ceiling of the front chamber of the roof body, and the sound absorbing material is accommodated in the front chamber, so that the noise near the upper side in the cabin is efficiently absorbed by the sound absorbing material. Can.

According to the invention of claim 2, it is provided with an obstruction plate for blocking the ceiling hole formed in the inner roof, and the sound absorbing material is adhered to the upper surface side of the obstruction plate. The sound absorbing material can be simply attached or detached inside the sieve.

According to the invention of claim 3, since a side door for opening and closing the left and right sides of the cabin is provided, and a bet discharge unit for discharging air in the cabin to the outside when the side door is closed is formed on the rear side of the cabin. When the side door is closed, air in the cabin can be discharged from the bet discharge unit, and it is easy to maintain the inside of the cabin in a static pressure state. As a result, the side door can be smoothly abolished.

According to the invention of claim 4, since the bet discharge portion is attached from the outside to the lower rear surface of the cabin, and a discharge sphere is provided on the bottom side of the bet discharge portion, rainwater or the like enters the cabin via the discharge sphere. It can be prevented accurately.

According to the invention of claim 5, the cabin frame has a pair of left and right front posts, a pair of left and right rear posts, a front beam member connecting between the upper ends of the front posts, and a rear beam connecting the upper ends of the rear posts. A lateral beam member connecting the member and the upper end of the front post and the rear post arranged before and after, supporting the roof body with a group of the beam members, and rearward the rear chamber of the roof body than the rear beam member By protruding to support the rear chamber with the rear beam member, and because the rear chamber accommodates the air conditioner, the air conditioner can be disposed inside the roof without increasing the overall height of the cabin. For example, since the air conditioner is housed in the entire chamber of the roof body, the problem of limiting the operator's front view can be avoided. In addition, since the rear chamber and the front chamber for accommodating the air conditioner are partitioned, it is easy to improve the sealability of the rear chamber. It also contributes to improving the assembly workability of the air conditioner.

According to the invention of claim 6, tail pipes for discharging the exhaust gas of the engine mounted on the traveling gas to the outside are provided on the left and right sides of the traveling gas, and the rear thread is located on the opposite side of the tail pipe from the left and right sides of the roof body. Since an outside air inlet opening communicating with the outside is formed, the possibility of introducing exhaust gas from the tail pipe to the outside air inlet can be particularly prevented.

According to the invention of claim 7, a hydraulic external take-out mechanism for supplying hydraulic oil to a work machine detachably mounted on the traveling body, a plurality of hydraulic operation levers for manually operating the hydraulic external take-out mechanism, the hydraulic external take-out mechanism and the An abrasive member for interlocking each hydraulic operation lever is provided, and a cover plate attached to the cabin frame is punched and bent to form a clamp portion for the rope-shaped member on the cover plate, and the clamp portion is attached to the cabin frame. Since it is fixed by welding, it is possible to support the center of the length of each rope-shaped member with the clamp formed on the cover, and to prevent the rope-shaped members from being entangled, to arrange the respective rope-shaped members squarely. Can. The wiring work itself of each of the rope-like members also becomes easy to do. In addition, the cover plate can be used as a strength member of the cabin frame, and rigidity can be improved as a whole of the cabin frame.

According to the invention of claim 8, the clamp portion is formed with a fitting hole through which the rope-shaped member is inserted, and the rope-shaped member is attached to the fitting hole through a grommet made of an elastic material by forcibly fitting the clamp portion. To this, the rope-shaped member can be inserted and attached one-touch, and the number of assembly steps can be reduced. Therefore, it is possible to improve the assembling workability of the rope-shaped member with respect to the clamp portion. In addition, since the grommet is made of an elastic material, the sealing property of the clamp portion can be secured.

1 is a left side view of the tractor.
2 is a plan view of the tractor.
3 is a right side view of the tractor.
4 is a perspective view of the tractor viewed from the rear obliquely to the right.
5 is an explanatory view of the left side of the traveling body.
6 is an explanatory diagram on the left side showing the detailed structure of the traveling body.
Fig. 7 is a perspective view of the traveling body viewed from the rear obliquely to the left.
8 is an explanatory view of the right side of the traveling body.
9 is an explanatory view on the right side showing the detailed structure of the traveling body.
Fig. 10 is a perspective view of the traveling body viewed from the rear obliquely to the right.
11 is a left side view of the cabin.
12 is a plan view of the cabin.
13 is a front view of the cabin.
14 is a right side view of the cabin.
15 is a rear view of the cabin.
16 is a bottom view of the cabin.
17 is a left side view of the cabin frame.
18 is a plan view of the cabin frame.
19 is a front view of the cabin frame.
20 is a right side view of the cabin frame.
21 is a rear view of the cabin frame.
Fig. 22 is a perspective view of the cabin frame obliquely to the left from the front.
23 is a perspective view of the cabin frame obliquely to the left from the rear.
Fig. 24 is a perspective view of the cabin's anti-vibration support structure viewed obliquely to the left from the front.
Fig. 25 is a perspective view of the anti-vibration support structure of the cabin viewed from the rear obliquely to the right.
26 is an enlarged perspective view of the right front post and front beam member.
27 is an enlarged perspective view of the right rear post and rear beam member.
28 is a plan view of the roof body.
29 is a perspective view showing an inner loop.
Fig. 30(a) is an enlarged sectional view of the front beam member, Fig. 30(b) is an enlarged sectional view of the rear beam member, Fig. 30(c) is an enlarged sectional view of the right beam member, and Fig. 30(d) is an enlarged view of the left beam member It is a cross section.
Fig. 31 (a) is an explanatory view showing the connection structure of the front beam member, the left beam member and the left front post, and Fig. 31 (b) is an explanatory view showing the connection structure of the front beam member, the right beam member and the right front post. .
32(a) is an explanatory diagram showing a connection structure of a rear beam member, a left beam member and a left rear post, and FIG. 32(b) is an explanatory diagram showing a connection structure of a rear beam member, a right beam member and a right rear post .
Fig. 33(a) is a side view of the base bracket, and Fig. 33(b) is a rear perspective view of the base bracket.
Fig. 34 is a left side view of the cabin showing the structure of the reinforcement frame.
Fig. 35 is an inner view of the left side door showing the structure of the reinforcement frame.
36 is an enlarged perspective view of the cabin frame showing the attachment structure of the hinge.
37 is a plan view in cross section of the hinge.
38 is a rear view of the rear glass.
39 is an inner view of the rear glass.
40 is a perspective view of the pivoting handle and the locking block.
41 is a plan view in cross section of the pivoting handle and the locking block.
42 is an enlarged rear view of the cabin.
43 is an enlarged perspective view of the cabin frame rear side.
44 is an enlarged side sectional view of the bet release portion.
45 is a front perspective view of the board support plate.
46 is a perspective view of the engine and cabin viewed from the front obliquely to the right.
Fig. 47 is a right side cross-sectional view showing the relationship between the board support plate and the brake pedal and brake valve.
48 is an enlarged left side sectional view of the roof body.

Hereinafter, an embodiment embodying the present invention will be described based on the drawings by taking a tractor as a work vehicle as an example.

First, the outline of the tractor 1 is demonstrated with reference to FIGS. 1-10 first. The traveling body 2 of the tractor 1 in the embodiment is supported by a pair of left and right rear wheels 4 like a pair of left and right front wheels 3 as a travel portion. The tractor 1 is driven by driving the rear wheel 4 and the front wheel 3 with a common rail type diesel engine 5 (hereinafter simply referred to as an engine) as a power source mounted on the front portion of the traveling body 2. It is configured to run forward and backward. The engine 5 is covered with a bonnet 6. A cabin 7 is installed on the upper surface of the traveling body 2, and a steering seat 8 inside the cabin 7 and a steering wheel steering the steering direction of the front wheel 3 to steer left and right by steering ( A round handle) 9 is arranged. Steps 10 in which the operator moves up and down are provided on the left and right of the cabin 7. A fuel tank 11 for supplying fuel to the engine 5 is provided below the bottom of the cabin 7.

The traveling body 2 is composed of an engine frame 14 having a front bumper 12 and a front axle case 13 and left and right aircraft frames 15 detachably fixed to the rear portion of the engine frame 14. It is done. The front axle 16 is rotatably protruding outwardly from both right and left ends of the front axle case 13. The front wheels 3 are attached to both right and left ends of the front axle case 13 through the front axle 16. The rear case of the aircraft frame 15 is connected to a mission case 17 for appropriately shifting rotational power from the engine 5 and transmitting it to the front and rear four-wheels 3, 3, 4, 4. The tank frame 18 in the shape of a rectangular frame plate is bolted to the left and right sides of the aircraft frame 15 and the mission case 17 when viewed from the bottom surface protruding outwardly. The fuel tank 11 of the embodiment is divided into two left and right. The left and right fuel tanks 11 are divided and mounted on the upper surface side of the left and right projections of the tank frame 18. The left and right outer surfaces of the mission case 17 are mounted so as to protrude outward from the left and right rear axle cases 19. The left and right rear axles 20 are interpolated rotatably to the left and right rear axle cases 19. The rear wheel 4 is attached to the mission case 17 through the rear axle 20. The upper side of the left and right rear wheels 4 is covered by the left and right rear fenders 21.

To the upper surface of the rear portion of the mission case 17, for example, a hydraulic lifting mechanism 22 for lifting and moving a working machine called a rotary tiller is detachably attached. A work machine such as a rotary cultivator is connected to the rear portion of the mission case 17 through a three-point link mechanism consisting of a pair of left and right lower links 23 and a top link 24. On the rear side of the mission case 17, a PTO shaft 25 for transmitting PTO driving force to a work machine such as a rotary cultivator is projected in a backward direction.

The flywheel 26 is attached directly to the engine output shaft (not shown) which protrudes and installs rearward from the rear side of the engine 5. The main shaft 27 protruding backward from the fly wheel 26 through the power transmission shaft 29 having a material shaft joint at both ends, and the peripheral speed input shaft 28 protruding forward from the front side of the mission case 17 Is connected (see FIGS. 1, 7 and 10). In the mission case 17, a hydraulic continuously variable transmission, a forward-backward switching mechanism, a traveling sub-shift gear mechanism, and a differential gear mechanism for the rear wheel are arranged. The rotational power of the engine 5 is transmitted to the peripheral speed input shaft 28 of the mission case 17 via the main shaft 27 and the power transmission shaft 29, and is suitably adjusted by a hydraulic continuously variable transmission and a traveling sub-shift gear mechanism. Shifts. Then, the transmission power is transmitted to the left and right rear wheels 4 through the differential gear mechanism for the rear wheels.

The front wheel output shaft 30 protruding forward from the front lower portion of the mission case 17 protrudes rearward from the front axle case 13 incorporating a differential gear mechanism (not shown) for the front wheels through the front wheel drive shaft 31. The front wheel transmission shaft (not shown) is connected. Differential gears for the front wheels in the front axle case 13 from the front wheel output shaft 30, the front wheel drive shaft 31, and the front wheel transmission shaft are the transmission powers of the hydraulic continuously variable transmission in the mission case 17 and the traveling sub transmission gear mechanism. It is transmitted to the left and right front wheels 3 via the mechanism.

Next, the structure inside the cabin 7 will be described with reference to FIGS. 1 to 4. The steering column 32 is arranged in front of the steering seat 8 in the cabin 7. The steering column 32 is installed upright in a state of being buried in the rear side of the dashboard 33 arranged on the front side inside the cabin 7. A steering wheel 9 having a substantially round shape when viewed from a plane is attached to the upper side of the handle shaft protruding upward from the upper surface of the steering column 32.

On the right side of the steering column 32, a one-touch elevating lever 34 forcibly moving a work machine such as a rotary cultivator to the uppermost position or the lowest position, and a pair of left and right brake pedals for braking the traveling body 2 (35) ). On the left side of the steering column 32, a forward and backward switching lever 36 (reverser lever) for switching operation of the traveling direction of the traveling body 2 forward and backward and a clutch (not shown) for power steps are blocked. A clutch pedal 37 for operation is provided.

An erroneous operation preventing member 38 (reverser guard) extending along the forward and backward switching lever 36 is disposed on the left side of the steering column 32 and below the forward and backward switching lever 36. The erroneous operation preventing member 38, which is a contact prevention tool, is disposed below the forward-backward switching lever 36 to prevent an operator from inadvertently contacting the forward-backward switching lever 36 when moving up and down the tractor 1. On the upper side of the rear surface of the dashboard 33, an operation display panel 39 having a liquid crystal panel is provided.

In the bottom plate 40 in front of the steering seat 8 in the cabin 7, an accelerator pedal 41 for controlling the rotational speed or vehicle speed of the engine 5 is disposed on the right side of the steering column 32. In addition, approximately the entire upper surface of the bottom plate 40 is formed as a flat surface. Side columns 42 are arranged on both the left and right sides with the steering seat 8 interposed therebetween. Between the steering seat 8 and the left side column 42, the parking brake lever 43 for performing the operation of holding the left and right rear wheels 4 in the braking state and the traveling speed (vehicle speed) of the tractor 1 The ultra-low-speed lever 44 (creep lever) forcibly reducing the force drastically, the sub-shift lever 45 for switching the output range of the traveling sub-shift gear mechanism in the mission case 17, and the PTO shaft 25 A PTO shift lever 46 for switching the driving speed of the motor is disposed. The differential locking pedal 47 for turning on and off the differential driving of the left and right rear wheels 4 is arranged below the steering seat 8. On the rear left side of the steering seat 8, a reversing PTO lever 48 for reversing driving of the PTO shaft 25 is arranged.

Between the steering seat 8 and the left side column 42, an arm rest 49 for placing an operator's arm or elbow seated on the steering seat 8 is provided. The armrest 49 is configured separately from the steering seat 8 and manually changes and adjusts the height position of the peripheral gear lever 50 for increasing and decelerating the driving speed of the tractor 1, and a working machine called a rotary cultivator. The dial-type work part position dial 51 (elevating dial) is provided. In addition, the arm rest 49 is configured to be lifted up and rotated in a plurality of stages with the rear end as a point.

The left side column 42 has a throttle lever 52 for setting and maintaining the rotational speed of the engine 5 in order from the front side, and a PTO for stair operation of power transmission from the PTO shaft 25 to a work machine such as a rotary tiller. A plurality of hydraulic operation levers 54 (SCV levers) for switching the clutch switch 53 and the hydraulic external take-off valve 430 (sub-control valve, see FIG. 42) disposed on the upper surface side of the mission case 17 ). Here, the hydraulic external take-off valve is for supplying and controlling hydraulic oil to a separate work machine called a front loader that is mounted on the tractor 1. In the embodiment, four hydraulic operation levers 54 are arranged in accordance with the number (four stations) of the hydraulic external take-off valves 430.

Next, the detailed structure of the cabin 7 will be described with reference to FIGS. 11 to 27. The cabin 7 covering the steering seat 8 on the traveling body 2 is provided with a cabin frame 300 constituting a frame. The cabin frame 300 includes a pair of left and right front struts 301 positioned in front of the steering seat 8, a pair of left and right rear struts 302 located in the rear of the steering seat 8, and a front strut 301. The front beam member 303 connecting between the upper ends of each other, the rear beam member 304 connecting the upper ends of the rear posts 302, and the front posts 301 and rear posts 302 arranged in front and rear. It is a substantially box frame shape having left and right side beam members 305 connecting between the upper ends. On the upper side of the cabin frame 300, that is, on the rectangular frame composed of the front beam member 303, the rear beam member 304 and the left and right side beam members 305, the roof body 306 is detachably attached.

The left and right outer ends of the front lower plate plate 307 extending in the left and right inwards are connected to the lower side of each front post 301. A vertically long board support plate 308 for fixing and supporting the dashboard 33 to the left and right inner end sides of the left and right lower plate plates 307 is connected, and the board support plates 308 are installed by installing the board support plates 308 between the left and right posts 301. Doing. Meanwhile, a rear beam member 304 and a rear intermediate beam member 309 extending in a parallel shape are connected between left and right rear posts 302. The upper side of the pair of left and right rear frame 310 extending downwardly is connected to the rear middle beam member 309. Each end portion in the longitudinal direction of the bottom frame 311 extending back and forth is connected to the lower side of the front lower plate plate 307 and the rear lower frame 310 which are arranged back and forth.

The lower side of each rear post 302 is connected to the upper side of the rear end of the fender frame 312 which is curved to expand upward and upward when viewed from the side by following the shape of the rear fender 21. The lower front end side of each fender frame 312 is connected to the rear end side of the side frame 313 protruding backward from the lower portion of the corresponding front post 301. The left and right outer ends of the front lower plate plate 307 are also connected to each side frame 313. Left and right rear fenders 21 are attached to the left and right outer surfaces of each fender frame 312 and the left and right outer surfaces of the rear lower frame 310 corresponding thereto.

A rear cover plate 314 covering an area surrounded by the rear middle beam member 309 and the left and right rear lower frames 310 is attached to the rear middle beam member 309 and the left and right rear lower frames 310. An L-shaped seat support plate 315 is attached to the bottom side of the rear cover plate 314 and the left and right bottom frames 311 when viewed from the side. The steering seat 8 is disposed on the seat support plate 315. The left and right fender frames 312, the rear lower frame 310, and the bottom frame 311 are attached with a bulging fender inner plate 316 along the front inner surface side of the rear wheel 4. The side columns 42 are disposed on the right and left fender inner plates 316. The bottom plate support plate 317 is attached to the left and right front lower plate plates 307, the front side of the bottom frame 311, the side frames 313, and the front end sides of the seat support plates 315 to be supported. The bottom plate 40 is disposed on the left and right bottom plate support plates 317. The front and rear center portions of the left and right fender frames 312 and the bottom frame 311 corresponding to the fender frames 312 are connected to the left and right horizontal length auxiliary frames 318.

The front glass 321 is disposed on the front side of the cabin frame 300, that is, the area surrounded by the front and rear front pillars 301, the front beam member 303, and the left and right front lower plate plates 307. The rear glass 322 is disposed in a region surrounded by the rear side of the cabin frame 300, that is, the left and right rear posts 302, the rear beam members 304, and the rear intermediate beam members 309. Transparent to the left and right lateral sides of the cabin frame 300, that is, the area surrounded by the front post 301 and rear post 302, the side beam member 305, the fender frame 312 and the side frame 313 arranged in front and rear. A side door 323 made of glass is arranged. Each side door 323 is attached to the corresponding rear post 302 so as to be opened and closed through a pair of upper and lower hinges 324.

Each post 301, 302 and each beam member 303, 304, 305, as is apparent from the arrangement of the front glass 321, rear glass 322, and left and right side doors 323, is a cabin 7 ( Located on the side of the cabin frame (300). For this reason, it is possible to widen the windows on the left and right sides of the cabin frame 300. In the embodiment, the front glass 321, the rear glass 322, and the left and right side doors 323 (transparent glass) are disposed on the front and rear left and right sides of the cabin frame 300. As a result, it is compatible with securing the clocks of the operator's front and rear, left and right, and securing the rigidity of the cabin frame 300.

22 to 25, the front part side of the left and right front lower plate plates 307 is attached to the front and rear body frames 15 through the front anti-vibration rubber body 98 as an anti-vibration member 96. Connected to. In addition, the connecting portion (butt portion) of the left and right rear lower frames 310 and the bottom frame 311 is provided with a base bracket 327 protruding outward from left and right. The left and right base brackets 327 are connected to the rear part support 97 attached to the left and right rear axle cases 19 through the rear anti-vibration rubber body 99 as a dust-proof member. Therefore, the traveling body 2 is anti-vibration-supporting the cabin 7 through a plurality of anti-vibration rubber bodies 98, 99.

11 to 27, various support stays 331, 335, 338, and 343 for attaching a lamp member are provided in the cabin frame 300. As shown in FIGS. That is, a pair of left and right front upper support stays 331 are fixed to the middle part of the length of the front beam member 303 by welding. Each front upper support stay 331 is a thin plate shape protruding upward at an oblique angle. Each front upper support stay 331 is attached to the front upper work lamp 333, which is an example of a lampshade member, through a front attachment piece 332 extending downwardly. The left and right front top work lights 333 illuminate the front of the tractor 1. The left and right front top work lights 333 are positioned to overlap the front beam member 303 when viewed from the front so as not to interfere with the operator's front view. On the front part side of the roof body 306, a recess part 334 (also referred to as an expansion part) recessed upwardly is formed so that each front top work lamp 333 is covered. When attaching the roof body 306 to the upper side of the cabin frame 301, the front top work lamp 333 is accommodated in each recess 334 on the front side, so that the roof body 306 and each front top work lamp are accommodated. (333) There is no interference.

On the other hand, on the upper side of the left and right rear posts 302, when viewed from a plane so as not to interfere with the operator's front view, the left and right outward rearwards projecting away from both sides of the rear beam member 304 and the left and right side beam members 305 protrude. The base end side of the rear upper support stay 335 is fixed by welding. A rear upper work lamp 337, which is an example of a lamp member, is attached to the front end side of each rear upper support stay 335 through a rear attachment piece 336 extending backwards. The left and right rear top work lights 337 illuminate the rear (work machines, etc.) of the tractor 1. In the embodiment, instead of the rear beam member 304, the rear upper support stay 335 is installed on the upper side of each rear post 302, thereby ensuring the operator's rear view well, and between the left and right rear upper support stays 335. At this time, the arrangement space (the arrangement space of the rear cover 363 accommodating the air conditioner 364) on the rear portion side of the roof body 306 is secured.

The base end side of the front suspension support stay 338 is welded to the upper and lower middle portions of the left and right front posts 301 by welding. The front composite lamp 339 and the front suspension work lamp 340, which are examples of the lampshade member, are attached to the front end side of each front suspension support stay 338. Each front stopper support stay 338 is a front beam member 303 and a left and right side beam member 305 when viewed from a plane such that the front composite light 339 and the front stopper work light 340 do not interfere with the operator's front view. ), protruding forward and leftwards away from both sides, and curved to extend forward from the center of the length. The front composite light 339 represents the intention of the vehicle width and the left and right rotation of the tractor 1 with respect to a car or a person in front of the tractor 1, and the front composite light 339 of the embodiment is a vehicle with a direction indicator light. It is composed of soaring. The left and right front suspension work lights 340 illuminate the front of the tractor 1. In the embodiment, attaching brackets 341 of up and down length are provided on the front end side of the front stopper support stay 338, and a front composite lamp 339 is attached to the front side of the attaching bracket 341, respectively. The front suspension work lamp 340 is attached to the upper side of the attachment bracket 341. In addition, the side mirror 342 is attached to the left and right front posts 301 through the mirror stay 341 above the front stop support stay. The mirror stay 341 also extends outwards left and right away from both the front beam member 303 and the left and right lateral beam members 305 when viewed from the plane so as not to interfere with the operator's front view.

In the lower part of the left and right rear posts 302, the front side of the rear lower support stay 343 of the vertical length is fixed by welding. A rear composite lamp 344 and an rear lower work lamp 345, which are examples of lamp holders, are attached to the rear side of each rear lower support stay 343. Each rear lower support stay 343 protrudes outward from left and right rear posts 302 when viewed from the rear so that the rear composite lights 344 and rear lower work lights 345 do not interfere with the operator's rear view. . The rear composite light 344 represents the intention of the tractor 1 to decelerate, stop, retract, and rotate left and right with respect to a car or person behind the tractor 1, and the rear composite light 344 of the embodiment is a tail light. It consists of a reversing light and a turn indicator light. The left and right rear lower work lights 345 illuminate the left and right sides of the tractor 1. In the embodiment, a rear composite lamp 344 is attached to the front side of each rear lower support stay 343. A rear lower work light 345 is attached to the upper side of the rear lower support stay 343. The front composite light 339 and the rear composite light are set at approximately the same height and height.

Further, although not shown in detail, in the embodiment, the cabin frame 300 is formed in a hollow shape, and the inside of the hollow shape is configured as a wiring passage for cable insertion. Then, the cables are pulled out from the notches holes (not shown) formed in the respective support pillars 301, 302, the beam members 303, 304, and the support stay, and the cables are respectively connected to the lamp fitting members 333, 337, 339, 340, 344, 345).

It is provided with a cabin (7) covering the steering seat (8) on the traveling body (2) as evident from the above description and FIGS. 11 to 27, the cabin (7) is a cabin frame (300) constituting the frame And, support stay (331) for attaching the lamp member (333, 337, 339, 340, 344, 345) in the work vehicle (1) having a roof body (306) disposed on the upper side of the cabin frame (300) , 335, 338, and 343 are installed on the cabin frame 300, so that the lamp members 333, 337, 339, 340, 344, and 345 can be directly attached to the cabin frame 300. For this reason, it can contribute to the improvement of the assembly workability in a manufacturing line, and can reduce cost.

In addition, the cabin frame 300 has a pair of left and right front posts 301, a pair of left and right rear posts 302, and a front beam member 303 connecting between the upper ends of the front posts 301, and A rear beam member 304 connecting between the upper ends of the rear struts 302 and a lateral beam member 305 connecting between the upper ends of the front struts 301 and the rear struts 302 arranged back and forth. Then, the front composite lamp 339 and the front suspension work lamp 340 as the lamp member are attached to the support stay 338 installed in the upper and lower middle parts of the respective front struts 301, and each rear strut ( The support stay 343 provided at the lower part of 302 is attached to the rear composite lamp 344 and the rear lower work lamp 345 as the lamp member, so that the support stay 338 on each front post 301 side is attached. The front composite light 339 and the front suspension work light 340 may be collectively attached, and the rear composite light 344 and the rear lower work light ( 345). That is, each of the support stays 338 and 343 can be used as a support member for the plurality of lamp members 339, 340, 344, and 345, and can contribute to the reduction in the number of parts. In addition, the processing of cables for the plurality of lighting fixture members 339, 340, 344, and 345 can be simplified. It is also easy to secure the front and rear right and left clocks from within the cabin 7.

It is provided with a cabin (7) covering the steering seat (8) on the traveling body (2) as evident from the above description and FIGS. 11 to 27, the cabin (7) is a cabin frame (300) constituting the frame And, in the work vehicle 1 having a roof body 306 disposed on the upper side of the cabin frame 300, the cabin frame 300 is a pair of left and right front posts 301, and a pair of left and right rear A post 302, a front beam member 303 connecting between the upper ends of the front posts 301, and a rear beam member 304 connecting between the upper ends of the rear posts 302, and arranged back and forth It has a lateral beam member 305 connecting between the front end of the front post 301 and the rear post 302, a pair of left and right support stays installed in the middle of the length of the front beam member 303 ( While attaching the front top work lamp 333 to each of 331, the front top work lamp 337 is attached to the support stay 335 installed on the upper side of each rear post 302, so the front beam The front top work lamp 333 can be directly attached to the member 303 and the rear top work lamp 337 can be directly attached to the rear beam member 304. For this reason, it contributes to the improvement of the adhesion workability in a manufacturing line, and can reduce cost. In addition, it is not necessary to carry the cables attached to the upper work lamps 333 and 337 to the roof body 306, so as to assemble the roof body 306 to the cabin frame 300. It can also be simplified. This also contributes to improving the assembly workability in the production line.

In addition, since the front beam member 303 is positioned to overlap the front beam member 303 when the front top work lamp 333 is viewed from the front, the operator's front watch seated on the steering seat 8 is placed on the front front work lamp. It is possible to significantly reduce the possibility of the 333 to be prevented, so that the operator's forward vision can be secured.

Next, the detailed structure of the step 10 provided in the lower left and right of the cabin 7 will be described with reference to FIGS. 11 to 23. As shown in FIGS. 11 to 23, the step 10 in which the operator moves up and down is provided on the left and right lower sides of the cabin 7 between the front wheel 3 and the rear wheel 4 arranged in front and rear. Step 10 of the embodiment includes a plurality of stepped step portions 351 (two steps in the embodiment), and front and rear side plate portions 352 and 353 connected to these stepped step portions 351. The plurality of stepped step portions 351 are shifted from each other in the front-rear direction so as to move away from the rear wheel 4 toward the bottom. In the embodiment, the footrest step portion 351 on the lower side is in a position shifted forward from the footrest step portion 351 on the upper side.

In this case, the front side plate portion 352 is formed in an approximately L shape when viewed from the front. The upper side of the longitudinally long portion 354 in the front side plate portion 352 is bolted to the bracket piece 355 welded and fixed to the lower side of each front post 301. The front end side of the stepped stepped portion 351 on the upper end is fixed to the upper and lower midway locations of the vertically long portion 354 in the front side plate portion 352. In the lower horizontal portion 356 of the front side plate portion 352, the front end side of the stepped step portion 351 on the lower side is fixed. The lower horizontal portion 356 of the front side plate portion 352 protrudes forward than the vertically long portion.

The upper side of the rear side plate portion 353 is bolted to the auxiliary frame 318 connecting the left and right fender frames 312 and the bottom frame 311. The rear end side of the stepped stepped portion 351 on the upper side is fixed to the upper and lower middle portions of the rear side plate portion 353. The rear end side of the footrest step portion 351 on the lower side is fixed to the lower end side of the rear side plate portion 353. The rear side plate portion 353 is inclined downward at an oblique angle forward, and is further bent in the vicinity of the upper and lower middle portions. With this configuration, it is easy to move the operator's moving direction on the cabin 7 upwards obliquely upward toward the control seat 8 (by shifting the arrangement of the respective stepped stepped parts 351 to control the operator's movement line) It becomes possible to face 8)). Therefore, the liftability to the cabin 7 can be improved significantly.

13, 19, 22, and 23, the width of the rear side plate portion 353 in the left-right direction is set wider than the width of the front side plate portion 352 (the vertically long portion 354) in the left-right direction. It is done. With this configuration, the presence of the front side plate portion 352 (vertical elongated portion 354) is not disturbed when the operator places the foot on each stepped step portion 351, and in this respect, the winch to the cabin 7 is also prevented. Contributes to the improvement of rigidity. In addition, since the rear side plate portion 353 has a wide width, the presence of the rear side plate portion 353 can effectively suppress the soil of the rear wheel 4 from splashing.

As is apparent from the above description and FIGS. 11 to 23, a traveling body 2 equipped with an engine 5, a pair of left and right front wheels 3 and a rear wheel 4 supporting the traveling body 2, , In a working vehicle (1) having a cabin (7) covering the steering seat (8) on the traveling body (2) and a step (10) for elevating in the cabin (7), arranged front and rear A structure in which the step (10) is suspended and installed on the lower left and right sides of the cabin (7) between the front wheel (3) and the rear wheel (4), wherein the step (10) comprises a plurality of stepped steps It has a part 351 and side plates 352 and 353 before and after connecting to these stepped steps 351, and the plurality of stepped steps 351 are further away from the rear wheel 4 toward the bottom. Since the positions of each other are shifted in the front-rear direction so as to lose, the stepped portions 351 of each of the scaffolds are positioned along the operator's movement toward the inside and outside of the cabin 7, thereby significantly improving the liftability to and from the cabin 7 Can.

In addition, since the width in the left and right directions of the rear side plate portion 353 is set to be wider than the width in the left and right directions of the front side plate portion 352 (the vertically long portion 354), the operator can adjust each stepped step portion ( When the foot is placed on the 351, the presence of the front side plate portion 352 is not obstructed, and this also contributes to improving the liftability to the cabin 7. In addition, since the rear side plate portion 353 has a wide width, the presence of the rear side plate portion 353 can effectively suppress splashing of the soil of the rear wheel 4.

Next, the air conditioning structure inside and outside the roof body 306 will be described with reference to FIGS. 1, 2, 11, 14, 28, and 29. The roof body 306 attached to the upper side of the cabin frame 301 has an outer outer loop 361 which is an exterior, an inner roof 362 constituting the ceiling of the cabin 7, and a rear beam member 304. It is provided with a rear portion cover 363 protruding. The inner roof 362 and the rear cover 363 are covered with the outer roof 361 from above, thereby forming a hollow shape inside the roof body 306. Therefore, the rear side of the outer roof 361 also extends rearward than the rear beam member 304. The recessed portion 334 (expansion portion) to which each front upper work light 333 is fitted is formed on the front portion side of the outer roof 361.

The inside of the roof body 306 is divided into two rooms in the front and rear by an inner roof 362 and a rear cover 363. The space on the inner roof 362 side corresponds to the front room, and the space on the rear cover 363 side corresponds to the rear room. An air conditioner 364 for managing air conditioning in the cabin 7 is accommodated in the rear chamber side (the rear cover 363 side) inside the roof body 306. The air conditioner 364 adjusts air conditioning (indoor temperature) in the cabin 7 by heating using cooling water of the engine 5 or cooling using a compressor, a condenser and an evaporator driven by the engine. . By arranging the air conditioner 364 on the rear cover 363 side protruding rearward from the rear beam member 304, the height of the cabin 7 is prevented from being increased more than necessary. In particular, in the embodiment, by installing the rear upper support stay 335 on the upper side of each rear strut 302 rather than the rear beam member 304, the rear upper and lower support stays 335 on the left and right while satisfactorily securing the operator's rear view. ), the arrangement space (the arrangement space of the rear cover 363 accommodating the air conditioner 364) on the rear side of the roof body 306 is secured.

The rear cover 363 is connected to the rear beam member 304 of the cabin frame 300. Therefore, the rear cover 363 and the air conditioner 364 are supported by the rear beam member 304 of the cabin frame 300. A sealing material 365 is attached to the circumferential edge of the rear cover 363. When the outer roof 361 is covered and attached to the inner roof 362 and the rear cover 363, the sealing material 365 is in close contact with the inner surface side of the outer roof 361, and after the inside of the roof 306 The actual side (rear side cover 363 side) becomes a closed shape.

The left and right side portions of the outer roof 361 are inclined to cut diagonally downward toward the left and right inner sides. Among the left and right sides of the outer roof 361, the tail pipe 229 (see FIGS. 1 to 10) that discharges the exhaust gas from the engine 5 to the outside and the rear side of the roof 306 inside the rear side (rear) The outside air introduction port 366 is formed to communicate the outside of the sub cover 363 with the outside. In this case, the tail pipe 229 is erected so as to extend from the lower side to the upper side on the front right side of the cabin 7 (it extends along the right anterior strut 301). On the other hand, the outside air introduction port 366 is formed on the rear portion side (a position corresponding to the rear portion cover 363) of the left side of the outer roof 361. The outside air introduction port 366 faces the air conditioner 364 in the rear cover 363 from the left side through a communication port (not shown) formed in the left wall portion of the rear cover 363. A grid-shaped ventilation frame body 367 is attached to the outside air introduction port 366. Although a detailed illustration is omitted, a damping filter is attached to a communication port formed in the left wall portion of the rear cover 363. On the other hand, on the rear side of the inner roof 362, which is opposite to the rear head portion of the operator seated in the steering seat 8, a bet introduction port 368 communicating the inside of the rear cover 363 with the cabin 7 is provided. Is forming. A lattice-shaped ventilation frame body 369 is attached to the bet introduction port 368.

Inside and outside the switching shutter plate 370 for opening and closing the communication port formed in the left wall portion of the rear cover 363 is disposed in the rear cover 363. The switching switch plate 370 of the internal and external units is configured to open and close by the drive of the actuator 371. When the inner and outer switching shutter plates 370 are opened and moved, the communication ports of the rear cover 363 are opened, and the air conditioners 364 in the rear cover 363 drive to communicate from the outside air introduction port 366. External air is introduced into the rear cover 363 through the sphere. When the switching switch plate 370 of the inner/outer air is abolished, the communication port of the rear cover 363 is abolished so that external air does not enter from the external air inlet 366, and bet by driving of the air conditioner 364 Air in the cabin 7 is guided in the rear cover 363 from the introduction port 368. In the embodiment, the ratio of the outside air and the inside air induced in the air conditioner 364 in the rear cover 363 may be adjusted according to the opening degree (opening/closing degree) of the switching switch plate 370 inside and outside.

From the rear air side (rear cover 363 side) to the front air side (inner loop 362 side) from a plane that guides the adjusting air to the adjusting air outlet 372 formed on the front side of the air conditioner 364. When viewed, the upstream side of the two-pronged air conditioning duct 373 is connected. Since the upstream side of the air conditioning duct 373 is located above the bet introduction port 368, it passes through the front side of the rear cover 363 and the rear side of the inner loop 362, and then is bifurcated left and right. . The two-pronged duct portion 374 of the air conditioning duct 373 has a rectangular shape when viewed from a plane along a rectangular frame composed of a front beam member 303, a rear beam member 304, and left and right lateral beam members 305. It is extended. In the middle portion of each duct portion 374 of the air conditioning duct 373, an adjustable shutter plate for adjusting the communication state of the air-conditioning outlet 375 and the duct portion 374 formed at both left and right sides of the inner loop 362 ( 376). The left and right adjustment shutter plates 376 are configured to rotate in conjunction with an actuator 377 and a push-pull wire 378. The downstream side of each duct part 374 of the air conditioning duct 373 communicates with the blowout port 379 for removing fogging formed in the front part of the inner loop 362. Pins (not shown) are provided at each of the outlets 375 and 379 to change and control the amount of air and the direction of air flow from the air conditioner 364.

When the flow to the downstream side of each duct portion 374 (flow to each blowout 379 for defogging) is blocked by the left and right adjustment shutter plates 376, the adjusted air from the air conditioner 364 is left and right. It is taken out inside the cabin (7) from only the air-conditioning and cooling outlet (375). When the flow to the left and right air-conditioning outlets 375 is blocked by the left and right adjustable shutter plates 376, the adjusted air from the air conditioner 364 is the cabin 7 from only the left and right defrosting outlets 379. Is taken out within. Depending on the rotation angle of the left and right adjustment shutter plates 376, the air volume of the adjusted air from the air outlet for cooling and heating and the air volume of the adjusted air from the air outlet 379 for removing fog can be adjusted.

28 and 48, the sound absorbing material 444 is disposed on the upper surface side of the inner roof 362 constituting the ceiling of the front chamber of the roof body 306. As shown in FIGS. The sound absorbing material 444 is accommodated in the inner loop 362. The sound absorbing material 444 of the embodiment is made of, for example, foamed urethane, soft urethane, gypsum board, glass wool, or the like. In this case, a ceiling hole 445 is formed in the inner loop 362. The occlusion plate 446 which blocks the ceiling hole 445 is detachably attached to the location of the ceiling hole 445 of the inner loop 362. The sound absorbing material 444 is adhered to the upper surface side of the obstruction plate 446 with an adhesive or the like. The sound absorbing material 444 is accommodated in the inner loop 362 (between the outer loop 361 and the inner loop 362) by attaching the obstruction plate 446 to the inner loop 362 to cover the ceiling hole 445. .

And a cabin 7 covering the steering seat 8 on the traveling body 2, as is evident from the above description and FIGS. 1, 2, 11, 14, 28 and 29, the cabin ( 7) is a work vehicle (1) having a cabin frame (300) constituting a frame and a roof body (306) disposed on the upper side of the cabin frame (300), mounted on the traveling body (2) A tail pipe 135 for discharging the exhaust gas of the engine 5 to the outside is provided on the left and right sides of the traveling gas 2, and the inside of the roof body 306 is divided into two chambers before and after, and the rear chamber 363 is provided. The air conditioner 364 is accommodated on the side, and the outside air inlet port 366 is formed on the opposite side of the tail pipe 229 from the left and right sides of the roof body 306 to communicate with the rear chamber 363 with the outside. Because of this, it is possible to particularly prevent the possibility of introducing exhaust gas from the tail pipe 229 into the outside air inlet 366.

In addition, the cabin frame 300 has a pair of left and right front posts 301, a pair of left and right rear posts 302, and a front beam member 303 connecting between the upper ends of the front posts 301, and A rear beam member 304 connecting between the upper ends of the rear struts 302 and a lateral beam member 305 connecting between the upper ends of the front struts 301 and the rear struts 302 arranged back and forth. Then, the rear chamber 363 of the roof body 306 protrudes rearward than the rear beam member 304 to support the rear chamber 363 with the rear beam member 304, and each rear post 302 Since the rear upper work light 337 is attached to the support stay 335 installed on the upper side of the air conditioner 364 inside the roof body 306 without increasing the height of the cabin 7 ) And the air conditioner 364 is accommodated in the front chamber 362 of the roof body 306, thereby avoiding the problem of limiting the operator's front view. In addition, by attaching a rear upper work light 337 to the support stay 335 installed on the upper side of each rear post 302, the rear space 363 side of the roof body 306 is disposed on both sides of the rear. In addition to being formed between the support stays 335 for the upper work lamp 337, the operator's rear view can be secured. In addition, since the rear chamber 363 accommodating the air conditioner 364 and the front chamber 362 are partitioned, it is easy to improve the sealing performance of the rear chamber 363. It also contributes to improving the assembling workability of the air conditioner 364.

The cabin frame 300 constituting the frame of the cabin 7 covering the steering seat 8 on the traveling body 2 and the upper side of the cabin frame 300 as apparent from the above description and FIGS. 28 and 48 In the work vehicle 1 having the roof body 306 disposed in the inner roof 362 that divides the interior of the roof body 306 into two rooms, and constitutes the ceiling of the front chamber of the roof body 306. ) Since the sound absorbing material 444 is disposed on the upper surface side, and the sound absorbing material 444 is accommodated in the front chamber, noise near the upper side in the cabin 7 can be efficiently absorbed by the sound absorbing material 444. have.

In addition, the inner loop is provided with an obstruction plate 446 that blocks the ceiling hole 445 formed in the inner loop 362, and the sound absorbing material 444 is adhered to the upper surface side of the obstruction plate 446. It is possible to simply attach or detach the sound absorbing material 444 inside the roof body 306 by simply attaching and detaching the obstruction plate 446 to the 362.

Next, detailed structures of the beam members 303, 304, and 305 will be described with reference to FIGS. 30(a) to 30(d), FIGS. 31, and 32. As described above, the rectangular frame supporting the roof body 306 includes a front beam member 303, a rear beam member 304, and left and right side beam members 305. The front beam member 303, the rear beam member 304, and the left and right side beam members 305 correspond to the frame members constituting the cabin frame 300. As shown in Fig. 30(a), the front beam member 303 is made of each pipe material having a hollow shape (cross-section rectangular shape) and extends in the left and right directions. As shown in Figs. 31(a) and 31(b), the left and right cross sections of the front beam member 303 are welded and fixed to the upper side of the front post 301.

The rear beam member 304 and the left and right lateral beam members 305 are both made of C-shaped (groove-shaped) steel. The rear beam member 304 extends long in the left-right direction, and the left and right side beam members 305 extend long in the front-rear direction. The openings of the rear beam member 304 and each side beam member 305 are welded and fixed by reinforcing plates 304a and 305a extending along their respective longitudinal directions. For this reason, at least the length middle part of the rear beam member 304 and each side beam member 305 has a hollow shape (cross-section square shape) like each pipe.

32(a) and 32(b), the left and right cross sections of the rear beam member 304 are welded and fixed to the upper side of the rear post 302. As shown in Figs. 31(a) and 31(b), the front end faces of each lateral beam member 305 are welded and fixed to the upper side of the front post 301. Accordingly, a cross section of either left or right of the front beam member 303 and a front end surface of either side beam member 305 of the left and right sides are abutted on the upper end side of the front post 301. The inside of the front beam member 303 and the left and right side beam members 305 are welded and fixed with an oblique reinforcement bracket 319. The presence of the reinforcing bracket 319 secures the connection strength between the front beam member 303, the left and right side beam members 305, and the front post 301.

32(a) and 32(b), the rear end surface of each lateral beam member 305 is welded and fixed to the upper side of the rear post 302. Therefore, a cross section of either the left or right side of the rear beam member 304 and a rear end surface of either of the left and right side beam members 305 are abutted on the upper end side of the rear post 302. The reinforcing bracket 319 having an oblique shape is also welded to the inner side of the rear beam member 304 and the left and right side beam members 305 by welding. The presence of the reinforcing bracket 319 secures the connection strength between the rear beam member 304, the left and right side beam members 305, and the rear post 302.

It is provided with a cabin (7) covering the steering seat (8) on the traveling body (2) as is apparent from the above description and FIGS. 30 to 32, the cabin (7) is a cabin frame (300) constituting the frame In the work vehicle (1) having a, at least one frame member (304, 305) of the cabin frame 300 is formed in a cross-section C-shape, extending along the longitudinal direction of the frame member (304, 305) Since the at least the length middle part of the frame members 304 and 305 is formed into a hollow shape by welding and fixing the reinforcing plates 304a and 305a to the openings of the frame members 304 and 305, the high-cost square pipe as in the prior art is described. Without using ash, the rigidity of the frame members 304 and 305 and also the cabin frame 300 can be improved and cost reduction can be achieved.

Next, the details of the anti-vibration support structure on the lower rear side of the cabin 7 will be described with reference to FIGS. 22 to 25 and FIGS. 33(a) and 33(b). The base bracket 327 is attached to the left and right butt portions on the rear lower side of the cabin frame 300 so as to protrude outward from left to right. In this case, as shown in FIGS. 22 to 25 and FIGS. 33(a) and 33(b), the left and right rear lower frames 310 and the bottom frame 311 protrude in the left and right outwards from the connecting portions (butts). The base bracket 327 is provided. Then, the base bracket 327 through the rear anti-vibration rubber body 99 as a dust-proof member on the rear supporter 97 on the rear axle case 19 protruding outward from the mission case 17 of the traveling body 2 to the left and right. Is connecting. In the embodiment, the lower surface of the rear lower frame 310 is welded and fixed to the upper rear surface of the bottom frame 311. Then, the base bracket 327 is previously attached to the rear end side of the bottom frame 311 by welding to unitize it.

The base bracket 327 includes a substrate plate 328 to which the rear anti-vibration rubber body 99 is attached, and a pair of front and rear support pieces 329 and reinforcements to complement the connection strength between the substrate plate 328 and the bottom frame 311. A plate piece 330 is provided. The substrate plate 328 is welded and fixed so as to protrude outward from the left and right sides with respect to the rear lower surface side of the bottom frame 311. A pair of front-rear posts 329 connect the upper surface of the substrate plate 328 and the rear end side of the bottom frame 311. The rear post piece 329 obstructs the cross section of the rear opening of the bottom frame 311 which is a hollow pipe (cross-section rectangular). The front holding piece 329 supports the rear end side of the bottom frame 311 through the reinforcing plate piece 330. The reinforcing plate piece 330 is disposed so as to overlap the butt portion of the rear lower frame 310 and the bottom frame 311 from the side. In the reinforcing plate piece 330, an opening hole 330a facing the butt portion of the rear lower frame 310 and the bottom frame 311 is formed. Due to the presence of the opening hole 330a, it is possible to weld the portion covered by the reinforcing plate piece 330 and the reinforcing plate piece 330 among the butt portions of the rear lower frame 310 and the bottom frame 311. .

According to the above configuration, after attaching the base bracket 327 to which the reinforcing plate piece 330 is attached to the floor frame 311 in advance, unitizing the rear lower frame 310 to the floor frame 311 by reinforcement. Can. In addition, in welding and fixing the rear lower frame 310 to the bottom frame 311, the reinforcing plate piece 330 among the butt portions of the bottom frame 311 and the rear lower frame 310 by the presence of the opening hole 330a. It is possible to sufficiently secure the welding length of the covering portion. Therefore, while improving the joining workability of the bottom frame 311 and the rear lower frame 310, while improving the bonding strength of the bottom frame 311 and the rear lower frame 310, furthermore, the cabin frame 300 of The stiffness can be improved.

In addition, the base bracket 327 is attached to the left and right butt portions on the rear lower side of the cabin frame 300 so as to protrude outward from the left and right, and after protruding outwardly from the mission case 17 of the traveling body 2 Since the base bracket 327 is connected to the support 97 on the axle case 19 through the anti-vibration member 99, the rear lower side of the cabin frame 300 can be supported from the left and right outside than that, and the cabin frame The rear lower side of the 300 is dustproof with respect to the traveling body 2 and can be stably connected.

Next, the details of the anti-vibration support structure on the lower rear side of the cabin 7 will be described with reference to FIGS. 34 and 35. As described above, on the left and right sides of the cabin 7 (the left and right side sides of the cabin frame 300), a transparent single-side glass side door 323 is provided to open and close the location. The side door 323 is attached to the corresponding rear post 302 so as to be opened and closed through a pair of upper and lower hinges 324. On the front side of the side door 323, a door locking member 400 for switching the side door 323 to a locked state and a unlocked state is provided. By operating the handle 400a provided on the outer surface side of the door locking member 400, the door locking member 400 is locked or unlocked to open and close the side door 323. A C-shaped reinforcing frame 401 is disposed on the inner surface side of the side door 323 when viewed from the side that increases the strength of the side door 323.

The reinforcing frame 401 extends along the upper edge side of the side door 323 from the upper end side of the vertical frame portion 402 and the vertical frame portion 402 extending along the rear edge side of the side door 323. It has an upper horizontal frame portion 403 that extends, and a lower horizontal frame portion 404 that extends forwardly to partition the upper and lower sides of the side door 323 from the lower side of the vertical frame portion 402. The lower horizontal frame portion 404 is located in the upper and lower middle portions of the inner surface of the side door 323, and corresponds to a frame body having a length before and after increasing the strength of the side door 323. In the embodiment, the reinforcement frame 401 is positioned to surround the upper side of the side door 323.

The reinforcement frame 401 is connected to the door locking member 400 and a pair of upper and lower hinges 324. In the embodiment, the front end side of the lower horizontal frame portion 404 is connected to the door locking member 400. The corner portions of the lower horizontal frame portion 404 and the vertical frame portion 402 are connected to the front end side of the lower hinge 324, and the upper side of the vertical frame portion 402 is connected to the upper hinge 324. In other words, the door locking member 400 and the upper and lower pair of hinges 324 and the reinforcement frame 401 hold the side door 323. The front end side of the upper horizontal frame part 403 is directly connected to the upper front part of the side door 323. In addition, the lower hinge 324 and the fender frame 312 are connected through an air cylinder 405.

The door locking member 400 is unlocked by holding it by hand in the front-rear middle part of the lower horizontal frame part 404, that is, the part of the lower horizontal frame part 404 where the operator's hand seated in the steering seat 8 reaches. The grip body 406 for switching in the direction is provided. Although a detailed illustration is omitted, the grip body 406 is interlocked to the door locking member 400 through a wire member embedded in the lower horizontal frame part 404. For example, if the grip body 406 is grasped for each lower horizontal frame part 404, the door locking member 400 is switched through the wire member in the unlocking direction. As a result, the door locking member 400 is unlocked. The operator can unlock the door locking member 400 with only a very simple operation of holding the grip body 406 for each lower horizontal frame part 404 while seating the steering seat 8. If the side door 323 is pressed as it is, the side door 323 rotates smoothly.

The cabin frame 300 is provided with a cabin 7 covering the steering seat 8 on the traveling body 2, as apparent from the above description and FIGS. 34 and 35, wherein the cabin 7 constitutes a frame And, in the work vehicle (1) having a side door (323) to open and close the left and right sides of the cabin (7), to improve the strength of the side door (323) on the inner surface side of the side door (323) When viewed from the side, a C-shaped reinforcement frame 401 is disposed, and the reinforcement frame 401 extends along the rear edge side of the side door 323 and the vertical frame portion 402 and the vertical frame portion ( 402) an upper horizontal frame portion 403 extending forward from the upper side of the side door 323 along the upper edge side, and up and down of the side door 323 from the lower side of the vertical frame portion 402. The reinforcement frame 401 is positioned to surround the upper side of the side door 323 because it has a lower horizontal frame portion 404 that extends forward to partition. For this reason, while securing the clock on the side of the cabin 7, the reinforcing frame 401 is used for the strength member of the side door 323 itself, and the side door 323, which is often composed of one glass, is used. The stiffness can be improved. In addition, the lower horizontal frame portion 404 can also be used as a handrail when lifting and lowering the cabin 7.

In addition, a door locking member 400 for switching the side door 323 to a locked state and a unlocked state, and a pair of upper and lower hinges that openly connect the side door 323 to the cabin frame 300 ( Since the reinforcing frame 401 is connected to 324, the side door 323 can be held by the door locking member 400, the upper and lower pair of hinges 324, and the reinforcing frame 401. , Reinforcing frame 401 with respect to the side door 323 is simple and can be connected with high strength. Therefore, it is possible to facilitate the assembling work of the side door 323 and reduce the manufacturing cost.

The cabin frame 300 is provided with a cabin 7 covering the steering seat 8 on the traveling body 2, as apparent from the above description and FIGS. 34 and 35, wherein the cabin 7 constitutes a frame And, in the working vehicle having a side door 323 to open and close the left and right sides of the cabin 7, the side door 323 to the front side of the side door 323 in a locked state and unlocked state A door locking member 400 for switching is installed, and a frame body 404 having a length of front and rear to improve the strength of the side door 323 is disposed in an upper and lower middle part of the inner surface of the side door 323, and the frame body The door locking member 400 is connected by connecting the door locking member 400 to the front end side of 404, and holding it by hand on the part of the frame body 404 where the operator's hand seated on the steering seat 8 reaches. Since the grip body 406 for switching the 400 in the direction of unlocking is provided, the operator seats the steering seat 8, for example, the grip body 406 for each frame body 404 It is possible to unlock the door locking member 400 with only a very simple operation of holding, and it is possible to improve the open operability of the side door 323.

Next, with reference to FIGS. 36 and 37, a detailed structure of the hinge 324 supporting the side door 323 to be rotatable will be described. Each of the upper and lower hinges 324 connecting the side door 323 to the rear post 302 of the cabin frame 300 so as to be opened and closed is a hinge stay 408 and a hinge stay 408 installed in the rear post 302. ), and has a hinge cover 409 pivoted to enable horizontal rotation. The first half of the hinge cover 409 is bolted to the rear edge side of the side door 323. The hinge stay 408 includes a flat plate portion 408a protruding from the rear post 302 and a pivoting portion 408b formed on the tip side of the flat plate portion 408a. A stopper bolt 410 serving as a stopper member for limiting the maximum opening angle of the side door 323 is attached to the flat surface portion 408a of the hinge stay 408 in contact with the rear side of the inner surface of the hinge cover 409. The stopper bolt 410 is provided with a metal contact plate 411 on the rear rear side of the hinge cover 409. The state in which the head or the front end of the stopper bolt 410 is brought into contact with the contact plate 411 of the hinge cover 409 by opening the side door 323 is the maximum opening angle of the side door 323. By adjusting the screw insertion amount of the stopper bolt 410, the contact position of the contact plate 411 of the hinge cover 490 and the stopper bolt 410 is changed, so that the maximum opening angle of the side door 323 is adjusted.

The cabin frame 300 is provided with a cabin 7 covering the steering seat 8 on the traveling body 2, as is apparent from the above description and FIGS. 36 and 37, wherein the cabin 7 constitutes a frame And, the hinge to connect the side door 323 to the opening and closing of the cabin frame 300 in the work vehicle (1) having a side door (323) to open and close the left and right sides of the cabin (7) ( 324), the hinge 324 has a hinge stay 408 installed on the cabin frame 300, and a hinge cover 409 pivoted horizontally on the hinge stay 408, The hinge stay 408 is attached to the hinge stay 408 because a stopper member 410 that contacts the inner surface side of the hinge cover 409 and regulates the maximum opening angle of the side door 323 is attached to the hinge stay 408. With the simple structure using the stopper member 410, the regulation of the maximum opening angle of the side door 323 can be achieved. Therefore, the structure for regulating the maximum opening angle of the side door 323 can be manufactured at a low price, thereby reducing cost.

In addition, the stopper member 410 is a stopper bolt that is screwed into the hinge stay 408, and by adjusting the screw insertion amount of the stopper bolt 410, the contact position of the hinge cover 409 is changed to change the side. Since the maximum opening angle of the door 323 is adjusted, the operation of adjusting the maximum opening angle of the side door 323 can be performed very simply.

Next, a structure in which the opening/closing position of the rear glass 322 as an opening/closing window is switched in multiple stages will be described with reference to FIGS. 38 to 41. On the rear side of the cabin 7 (the rear side of the cabin frame 300), a transparent single-glass rear glass 322 is provided to close and close the place. The rear glass 322 is attached to the rear beam member 304 through a pair of left and right hinges 413 that can be opened and closed (can be lifted up and rotated). In the left and right center portions of the upper surface of the rear intermediate beam member 309 of the cabin frame 300, a locking block 414 as a locking portion for determining an opening/closing position of the rear glass 322 is bolted. The locking block 414 is formed in a nose shape when viewed from a plane opened toward one of the rear posts 302.

A pivoting handle 415 is attached to the free end side of the inner surface of the rear glass 322. The rotating handle 415 includes a handle base portion 416 fastened to the free end side of the rear surface of the rear glass 322, a rotating shaft portion 417 protruding forward from the handle base portion 416, and a rotating shaft portion 417 It has a handle portion 418 protruding in the direction intersecting from. A plurality of engaging projections 420a and 420b having a downwardly protruding shape are formed on the rotation shaft portion 417 at appropriate intervals in the longitudinal direction. There are two engaging projections 420a and 420b of the embodiment, and the opening/closing position of the rear glass 322, including the fully closed position, is combined by four combinations of each engaging projection 420a and the locking block 414. It is configured to be switchable.

That is, in the state in which the first engagement protrusion 420a on the rear end side of the pivot shaft 417 is brought into contact with the inside front side surface 414a of the cabin 7 of the locking block 414 so as to overlap. Is occluded by the rear glass 322 (the rear glass 322 is in a completely closed position). In the state in which the first engaging projection 420a is inserted into the nose-shaped recessed groove 414b of the locking block 414, the rear glass 322 becomes a minimum half-opening position slightly away from the rear portion of the cabin 7. In the state where the second engaging projection 420b on the front end side of the pivot shaft 417 overlaps the front side surface 414a of the locking block 414, the rear glass 322 is positioned after the cabin 7 than the minimum half position. It is in the middle half position away from the side. In the state in which the second engagement protrusion 420b is fitted into the recessed groove 414b of the locking block 414, the rear glass 322 becomes the maximum open position farthest from the rear side of the cabin 7. In addition, it is not limited to the rear glass 322 as an opening/closing window. In addition, the opening/closing window is not limited to a leaf-up rotation type, and may be a vertical rotation type or a horizontal rotation type.

A wiper 421 for cleaning the rear glass 322 is provided on the upper side of the outer surface of the rear glass 322 (see FIG. 38). On the other hand, a wiper drive case 422 accommodating a wiper motor (not shown) or the like for driving the wiper 421 is attached to the upper side of the inner surface of the rear glass 322 (see FIG. 39). Since the wiper 421 protrudes outward from the upper side of the outer surface of the rear glass 322, the wiper 421 is rotated when the rear glass 322 is largely rotated up to the rear cover 363 of the roof 306. Forms a recessed flank 423 recessed upward to prevent interference with the rear cover (see FIG. 29). As shown in Fig. 38, a reflector 427 is provided on the fixing bracket 424 attached to the left portion of the rear glass 322. The fixing bracket 424 and the left rear strut 302 are connected through a damper body 425 such as an air cylinder, and the right and left rear struts 302 of the rear glass 322 are dampers such as an air cylinder. It is connected through a sieve 426 (see FIG. 39).

As is apparent from the above description and FIGS. 38 to 41, a cabin 7 covering the steering seat 8 on the traveling body 2 is provided, and the cabin 7 comprises a cabin frame 300 constituting a frame, In the working vehicle 1 having a rotational opening/closing window 322 that prevents one side of the cabin 7 from being opened and closed, the cabin frame 300 has a locking lock for determining an opening/closing position of the opening/closing window 322. Attached to the portion 414, the pivoting handle 415 installed on the free end side of the opening/closing window 322 is selectively disengaged from the locking portion 414 by a rotation operation of the pivoting handle 415 (I) Since a plurality of engaging projections 420a and 420b are attached, the opening/closing position of the opening/closing window 322 is performed in multiple steps by only a very simple (one-touch) operation called rotational operation of the rotating handle 415. It is possible to switch to, and the opening/closing operation of opening and closing the opening/closing window 322 can be easily performed.

Next, the structure around the hydraulic external take-off valve 430 as a hydraulic external take-out mechanism will be described with reference mainly to FIGS. 21, 23, 42, and 43. 42, a plurality of hydraulic external take-off valves 430 as hydraulic external take-out mechanisms are arranged in a vertical direction on the upper surface of the hydraulic lifting mechanism 22 on the rear side of the upper surface of the mission case 17, It is configured to be capable of supplying hydraulic oil to a work machine such as a front loader or a boom sprayer that is detachably mounted on the traveling body 2. Each hydraulic external withdrawal valve 430 is a mechanically operated switching valve, and each hydraulic external withdrawal valve 430 and its corresponding hydraulic operating lever 54 are interlocked by a push-pull wire 431 as an abrasive member. It is. In the embodiment, the switching spool of each hydraulic external take-off valve 430 is connected to the hydraulic operation lever 54 corresponding to this through the push-pull wire 431. The corresponding hydraulic external take-off valve 430 is switched by the rotation operation of each hydraulic operation lever 54. As described above, each hydraulic operation lever 54 is disposed on the left side column 42 (see Fig. 2). However, the number of hydraulic external take-off valves 430 is determined in correspondence with the number of hydraulic devices for working machines mounted as necessary, and is not particularly limited.

The hydraulic external take-off valve 430 and the hydraulic operation lever 54 are configured to be attached at the time of shipment or reinforced as an option. That is, the tractor 1 can be equipped with a work machine such as a front loader or a boom sprayer, and is equipped with a rotary cultivator, which is usually a ground work machine, and is shipped without mounting another work machine. An appropriate number of hydraulic external take-off valves 430 and hydraulic operating levers 54 can be attached. The number of option settings is usually 4 or less, and can be applied to most work machines.

Meanwhile, as shown in FIGS. 21, 23, 42, and 43, clamps for supporting each push-pull wire 431 are provided at left and right sides of the rear cover plate 314 positioned at the rear of the steering seat 8. A portion 432 is formed. In the embodiment, the right portion of the rear cover plate 314 is punched, and the clamp portion 432 is formed by bending in the backward direction. A pair of upper and lower triangular blocks 433 are welded and fixed to the left and right inner sides of the right rear lower frame 310. The upper and lower and right edge portions of the clamp portion 432 of the rear cover plate 314 are welded to the upper and lower triangular blocks 433 and the right lower rear frame 310.

A fitting hole 434 through which the push-pull wire 431 is inserted is formed in the clamp portion 432. The fitting holes 434 are arranged in the longitudinal direction with respect to the clamp portions 432 as many as the hydraulic external take-off valve 430 (four in the embodiment). A ring-shaped grommet 435 is made of a soft elastic material in the middle of the length of each push-pull wire 431. The mid-length portion of each push-pull wire 431 is fixed to the fitting hole 434 of the clamp portion 432 through the grommet 435 by force fitting. Each fitting hole 434 of the clamp portion 432 is blocked by a push-pull wire 431 and a grommet 435. Each push-pull wire 431 is fitted into the inside of the cabin 7 (in the region surrounded by the cabin frame 300) through the fitting hole 434 of the clamp portion 432.

The cabin frame 300 constituting the frame of the cabin 7 covering the steering seat 8 on the traveling body 2 as apparent from the above description and FIGS. 21, 23, 42 and 43, and the traveling body (2) a hydraulic external take-out mechanism 430 for supplying hydraulic oil to a work machine detachably mounted to the plurality, a plurality of hydraulic operation levers 54 for manually operating the hydraulic external take-out mechanism 430, and the hydraulic external take-off Punching and bending the cover plate 314 attached to the cabin frame 300 in the work vehicle 1 having an abrasive member 431 interlockingly connecting the mechanism 430 and the respective hydraulic operation levers 54. Processing, forming the clamp portion 432 for the rope-shaped member 431 on the cover plate 314, and because the clamp portion 432 is welded to the cabin frame 300, each rope The center of the length of the shape member 431 can be supported by the clamp portion 432 formed on the cover body 314, and the rope-shaped members 431 are prevented from being entangled, and each rope shape The member 431 can be arranged squarely. The wiring work itself of each rope-shaped member 431 is also facilitated. In addition, the cover plate 314 can be used for the strength member of the cabin frame 300 (rear lower frame 310), and the rigidity can be improved as a whole of the cabin frame 300.

In addition, a fitting hole 434 through which the rope-shaped member 431 is inserted and formed is formed in the clamp part 432, and the rope-shaped member is inserted into the fitting hole 434 through a grommet 435 made of an elastic material. Since the 431) is attached by forcibly fitting, the rope-shaped member 431 can be inserted and attached to the clamp portion 432 by one-touch insertion, and the number of assembly steps can be reduced. Therefore, the installation workability of the rope-shaped member 431 with respect to the clamp portion 432 can be improved. In addition, since the grommet 435 is made of an elastic material, the sealing property of the clamp part 432 can be secured.

Next, the structure for managing the internal pressure of the cabin 7 is demonstrated with reference to FIGS. 21, 23, and 42-44. As shown in FIGS. 42 to 44, a bet release case 436 is installed as a bet discharge unit that discharges air in the cabin 7 to the outside when the side door 323 is closed, on the lower side of the rear surface of the cabin 7. have. In the embodiment, a pair of left and right communication holes 437 are formed on the left and right other sides of the rear cover plate 314 (the left side located opposite to the clamp portion 432) located at the rear of the steering seat 8 ( 21, 23, 43 and 44). Ventilation plates 438 in which ventilation holes are formed in a matrix shape are arranged so as to overlap from the rear of the communication holes 437 on both sides of the rear cover plate 314. The left and right communication holes 437 and the ventilation plate 438 are covered with a bet release case 436 in a triangular cross section from the rear. The bet release case 436 is detachably fastened to the rear surface of the rear cover plate 314 through the ventilation plate 438. That is, the bet release case 436 is attached from the outside to the bottom of the rear surface of the cabin 7.

The front side of the bet release case 436 opens in a forward direction. A pair of left and right openings 439 are formed on the lower surface side of the bet release case 436. In each of the openings 439, a discharge member 440 for bleeding, which is a soft elastic material, is fitted and fixed. Inlets 441 are formed in each discharge sphere 440. Normally, the cutout 441 is closed, so that the airtightness in the cabin 7 is maintained. When the side door 323 is abolished, the air in the cabin 7 is rapidly compressed, so that the internal pressure of the cabin 7 is increased, so that the inlet 441 of each discharge sphere 440 is opened, so that the air in the cabin 7 is outward. It is discharged (bleeding is done) and the cabin 7 is kept at a constant pressure.

As is apparent from the above description and FIGS. 21, 23 and 42-44, the cabin 7 covering the steering seat 8 on the traveling body 2 and the side blocking opening and closing of the left and right sides of the cabin 7 In a work vehicle (1) having a door (323), a bet discharge unit (4) for discharging air in the cabin (7) to the outside when the side door (323) is closed under the rear surface of the cabin (7) ( Since the 436) is installed, the air in the cabin 7 can be discharged from the bet discharge unit 436 when the side door 323 is closed, and the inside of the cabin 7 is maintained in a static pressure state. easy. As a result, the side door 323 can be smoothly abolished.

In addition, since the bet discharge portion 436 is attached from the outside to the bottom of the rear surface of the cabin 7, and the discharge sphere 440 is formed on the lower surface side of the bet discharge portion 436, the discharge sphere 440 ), it is possible to accurately prevent rainwater or the like from entering the cabin 7. In addition, in the embodiment, since a plurality (two in this case) of discharge spheres 440 are formed in the bet discharge portion 436, there is also an advantage that it is easy to cope with a large change in air pressure (change in pressure) in the cabin 7 have.

Next, the board support plate 308 and its surrounding structures will be described with reference to FIGS. 19, 22, and 45 to 47. 19, 22, and 45, a vertically long board support plate for fixedly supporting the dashboard 33 on the left and right inner end sides of the front lower plate plate 307 connected to the lower side of each front post 301 308 is connected, and board support plates 308 are installed between the left and right posts 301. As can be seen from the connection relationship between the left and right front posts 301 and the front lower plate plate 307, the board support plate 308 is one of the components of the cabin frame 300, and the strength member of the cabin frame 300 Make up. On the other hand, the front glass 321 is disposed on the front side of the cabin frame 300, that is, the area surrounded by the left and right front posts 301, the front beam member 303, and the left and right front lower plate plates 307. 46 and 47, the board support plate 308 is located inside the cabin 7 than the windshield 321. The windshield 321 covers the front side of the board support plate 308. The windshield 321 is disposed on the front side of the cabin 7 without forming a notch.

As shown in Fig. 47, not only the steering column 32 and the dashboard 33 described above are attached to the board support plate 308, but also the brake valve 254 for braking the wheels 3 and 4 of the traveling body 2 ) And a brake pedal 35 for operating the brake valve 254 are attached. The brake valve 254 and the brake pedal 35 are supported on the board support plate 308. In this case, through holes 253 and 442 penetrated back and forth are formed on both sides of the front glass 321 and the board support plate 308. The brake valves 254 are fitted into the through holes 253 and 442 to fix them. The front end side of the brake valve 254 protrudes from the through holes 253 and 442 in front of the cabin 7. In addition, a front wiper 251 for cleaning the windshield 321 is provided near the center of the windshield 321 (see FIG. 46). The driving shaft 252 of the front wiper 251 penetrates the front glass 321 and is supported on the upper portion of the board support plate 308. A wiper drive case 443 accommodating a wiper motor (not shown) for driving the drive shaft 252 of the front wiper 251 is attached to an upper side of the rear surface of the board support plate 308 (see FIG. 47).

The cabin frame 300 constituting the frame of the cabin 7 covering the steering seat 8 on the traveling body 2 and the cabin (300) as apparent from the above description and FIGS. 19, 22 and 45-47 In the working vehicle 1 having a windshield 321 covering the front side of the 7), the cabin frame 300 is a board support plate supporting a dashboard 33 located in front of the steering seat 8 ( 308), and by placing the board support plate 308 inside the cabin 7 rather than the windshield 321, the board support plate 308 is configured as a strength member of the cabin frame 300. The dash board 33 can be supported with high strength by the board support plate 308 while improving the rigidity as a whole of the cabin frame 300. The front glass 321 can be attached to the front side of the cabin 7 without forming a notch, and the processing cost of the front glass 321 and the cost for securing sealing properties can be reduced. The windproof and waterproof structure of the cabin 7 can be easily configured.

Further, a brake valve 254 for braking the wheels 3 and 4 of the traveling body 2 and a brake pedal 35 for manipulating the brake valve 254 are attached to the board support plate 308. Therefore, it is possible to support the brake pedal 35 and the brake valve 254, which are movable members, with high strength to the board support plate 308, which is a strength member of the cabin frame 300.

In addition, through-holes 253 and 442 penetrated back and forth are formed in the windshield 321 and the board support plate 308, and the brake valve 254 is inserted into the through-holes 253 and 442 and fixed. , Since the front end of the brake valve 254 protrudes from the through holes 253 and 442 toward the front of the cabin 7, it is possible to easily configure the windproof and waterproof structure of the cabin 7 After arranging the brake pedal 35 in the cabin 7, it is possible to simply connect the brake valve 254 to the braking mechanism for braking the wheels 3 and 4.

In addition, the structure of each part in the present invention is not limited to the embodiment of the illustration, and various changes can be made without departing from the spirit of the present invention.

1: Tractor 2: Running aircraft
3: Front wheel 4: Rear wheel
7: Cabin 8: Steering Seat
300: cabin frame 301: front prop
302: rear post 303: front beam member
304: rear beam member 304a, 305a: reinforcement plate
305: side beam member 308: board support plate
321: windshield 327: base bracket
330: reinforcing plate piece 330a: opening hole
400: door locking member 401: reinforcement frame
406: grip body 408: hinge stay
409: hinge cover 410: stopper bolt
414: Plocking block 415: Rotating handle
420a: first engaging projection 420b: second engaging projection
430: hydraulic external withdrawal valve 431: push pull wire
432: clamp part 436: bet release case
444: sound absorbing material

Claims (8)

In the working vehicle having a cabin frame constituting the frame of the cabin covering the steering seat on the traveling aircraft, and a roof body disposed on the upper side of the cabin frame,
The inside of the roof body is divided into two chambers before and after, and a sound absorbing material is disposed on the upper surface side of the inner roof constituting the ceiling of the front chamber of the roof body, and the sound absorbing material is accommodated in the front chamber.
The cabin frame includes a pair of left and right front struts, a pair of left and right rear struts, a front beam member connecting between the upper ends of the front struts, and a rear beam member connecting between the upper ends of the rear struts, and arranged front and rear. A lateral beam member connecting between the front post and the upper end of the rear post, supporting the roof body with a group of beam members,
The rear chamber of the roof body protrudes rearward than the rear beam member to support the rear chamber with the rear beam member, and accommodate an air conditioner in the rear chamber,
Introduced outside air is provided with tail pipes for discharging exhaust gas of the engine mounted on the traveling gas to the left and right of the traveling gas, and the rear chamber is communicated with the outside on the opposite side of the tail pipe from the left and right sides of the roof body. Forming a sphere,
The tail pipe is disposed closer to the front chamber than the rear chamber of the roof body, the work vehicle. According to claim 1,
A work vehicle having an obstruction plate blocking a ceiling hole formed in the inner roof, and adhering the sound absorbing material to an upper surface side of the obstruction plate. According to claim 1,
Equipped with a side door to open and close the left and right sides of the cabin,
A work vehicle having a bet discharge unit for discharging air in the cabin to the outside when the side door is closed at the lower side of the rear surface of the cabin. The method of claim 3,
The bet discharge unit is attached to the lower rear surface of the cabin from the outside, the work vehicle is provided with a discharge sphere on the lower surface side of the bet discharge unit. delete delete The method according to any one of claims 1 to 4,
A hydraulic external take-out mechanism for supplying hydraulic oil to a work machine detachably mounted on the traveling body, a plurality of hydraulic operation levers for manually operating the hydraulic external take-out mechanism, and the hydraulic external take-out mechanism and the respective hydraulic operation levers interlock Equipped with an axle member to connect,
A work vehicle in which a cover plate attached to the cabin frame is punched and bent to form a clamp portion for a rope-shaped member on the cover plate, and the clamp portion is welded and fixed to the cabin frame. The method of claim 7,
A working vehicle in which a fitting hole through which the rope-shaped member passes is formed in the clamp portion, and the rope-shaped member is attached to the fitting hole through a grommet made of an elastic material by force fitting.

Images