JP7142603B2 - work vehicle - Google Patents

Description

TECHNICAL FIELD The present invention relates to a support structure for a floor on which a worker rides in a work vehicle such as a riding rice transplanter, a riding direct seeder, or a tractor.

A ride-on rice transplanter, which is an example of a working vehicle, has a configuration as disclosed in Patent Document 1.
In Patent Literature 1, a body frame arranged along the longitudinal direction supports front wheels and rear wheels, and also supports an engine. A floor frame is arranged along the left-right direction and directly connected to the body frame, and the floor is supported by the floor frame.

JP 2016-77200 A

In Patent Document 1, since the floor frame is directly connected to the body frame, vibrations of the engine and vibrations from the front and rear wheels during running are transmitted to the body frame, and then transmitted from the body frame to the floor frame and the floor. easy to be Therefore, there is room for improvement in terms of reducing floor vibration.

An object of the present invention is to make it difficult for engine vibrations and vibrations from the front and rear wheels during travel to be transmitted to the floor frame and floor of a work vehicle.

The work vehicle of the present invention includes a machine body frame supported by front wheels and rear wheels and arranged along the front-rear direction, and a vehicle body frame arranged along the left-right direction at a position spaced above the machine body frame at a predetermined distance. A floor frame and a support member connected across the body frame and the floor frame to support the floor frame on the body frame are provided, an engine is supported by the body frame, and a worker gets on. The floors are supported by the floor frames, and the right and left fuselage frames are arranged at predetermined intervals in the left-right direction, and a plurality of floor frames are arranged at predetermined intervals in the front-rear direction. wherein the engine is supported on the front part of the fuselage frame, the support member is connected only across the frontmost floor frame and one of the right or left fuselage frames, and the frontmost The support members are connected across both the floor frame arranged on the rear side of the floor frame of the vehicle and the right and left body frames .

According to the present invention, in the body frame arranged along the longitudinal direction and the floor frame arranged along the left-right direction, the floor frame is arranged above the body frame at a predetermined distance. , the support member is connected across the body frame and the floor frame, and the floor frame is supported by the body frame.

According to the present invention, vibrations of the engine and vibrations from the front and rear wheels during running are transmitted to the body frame, and are not transmitted directly from the body frame to the floor frame, but are transmitted from the body frame through the support members. transmitted to the floor frame. The floor frame is connected to the fuselage frame by a narrow range of support members.

As a result, engine vibrations and vibrations from the front and rear wheels during driving can be expected to be damped by the support members when they are transmitted from the body frame to the floor frame. By transmitting to the frame, engine vibrations and vibrations from the front and rear wheels during running are less likely to be transmitted to the floor frame and floor, thereby improving the comfort of workers on the floor.
The work vehicle is provided with right and left body frames that are spaced apart in the left-right direction by a predetermined distance, and the engine is supported on the front part of the body frame, and is spaced in the front-to-rear direction at a predetermined distance. Many have multiple floor frames. In this case, vibrations of the engine are likely to be transmitted to the front portion of the body frame.
According to the present invention, of the plurality of floor frames, the support member is connected only across the front floor frame closest to the engine and one of the right and left fuselage frames, No support members are connected across this front floor frame and the other of the right or left fuselage frame.
As a result, even if engine vibrations are transmitted to the front part of the body frame, the number of support members connected across the frontmost floor frame and the body frame is small, so that the engine vibrations are transmitted from the front part of the body frame. It is less likely to be transmitted to the floor frame and the floor, thus improving the comfort of the worker on the floor.
According to the present invention, of the plurality of floor frames, the floor frame arranged on the rear side of the foremost floor frame has supporting members connected over both the right and left fuselage frames. The frame and floor are stably supported.

In the present invention, it is preferable that the floor is made of synthetic resin.

In work vehicles, the body frame and the floor frame are often made of metal.
According to the present invention, it can be expected that vibrations are less likely to be transmitted from the floor frame to the floor due to the difference in material between the floor frame made of metal and the floor made of synthetic resin, thereby improving the comfort of the worker on board. do.

In the present invention, in a plan view, the body frame is arranged on the left-right center side of the floor frame with respect to the right end of the floor frame, and at the left-right center of the floor frame with respect to the left end of the floor frame. It is preferably arranged on the side.

According to the present invention, the body frame and the floor frame are arranged so as to intersect each other in a plan view, so that the support member can be smoothly connected across the body frame and the floor frame.

In the present invention, it is preferable that the plurality of support members are arranged at predetermined intervals along the front-rear direction.

According to the present invention, the floor frame and the floor are stably supported by the plurality of support members arranged at predetermined intervals along the front-rear direction.

In the present invention, a mission case connected to the front part of the body frame, a support frame connected to the mission case and extending forward to support the engine, and a right or left part of the mission case and a transmission mechanism provided across the engine and the transmission for transmitting the power of the engine to the transmission. It is preferable that the support member is connected only to the right or left body frame on the gearbox side.

In the work vehicle, when the engine is supported on the front part of the body frame, the mission case is connected to the front part of the body frame, the support frame is connected to the mission case and extends forward, and the engine is supported by the support frame. As a result, the engine may be supported on the front part of the body frame via the transmission case and the support frame.

In the above configuration, the transmission may be connected to the right or left portion of the mission case, and a transmission mechanism for transmitting the power of the engine to the transmission may be provided across the engine and the transmission. It is necessary to avoid contact between the floor and the transmission mechanism in the vicinity of the transmission in the .

According to the invention, if the support member is only connected across the frontmost floor frame and one of the right or left fuselage frames, the support member is connected between the frontmost floor frame and the gearbox side right or left fuselage frame. Since it is connected across the left fuselage frame, the portion of the floor in the vicinity of the transmission is stably supported, and contact between the floor and the transmission mechanism can be reasonably avoided.

In the present invention, in a plan view, the support member is arranged along the vertical direction at a portion where the body frame and the floor frame intersect, and is connected across the body frame and the floor frame. It is preferable to have

According to the present invention, by effectively utilizing the intersection of the body frame and the floor frame, even if the support member is short, the support member can be connected smoothly over the body frame and the floor frame. , which is advantageous in terms of structural simplification.

It is a left side view of a riding type rice transplanter. It is a top view of a riding-type rice transplanter. 4 is an exploded perspective view of the front floor, floor, and rear cover; FIG. It is a perspective view of a front floor, a floor, a body frame that supports a rear cover, a floor frame, and the like. Fig. 3 is a left side view of the front floor, the floor, the body frame supporting the rear cover, the floor frame, and the like; 4 is a perspective view of a floor frame; FIG.

1 to 6 show a riding-type rice transplanter that is an example of a work vehicle, F indicates "forward direction", B indicates "backward direction", U indicates "upward direction", D indicates "downward". R indicates "right direction" and L indicates "left direction".

(Overall configuration of ride-on rice transplanter)
As shown in FIGS. 1 and 2, the riding-type rice transplanter has a link mechanism 4 and a link mechanism 4 which are lifted and lowered at the rear of a body frame 3 supported by right and left front wheels 1 and right and left rear wheels 2. An operating hydraulic cylinder 5 is provided, and a four-row planting type seedling planting device 6 is supported at the rear of the link mechanism 4 .

A fertilizing device 7 for supplying fertilizer to the paddy field is provided across the rear part of the machine frame 3 and the seedling planting device 6, and a soil leveling device 8 for leveling the paddy field is provided below the front part of the seedling planting device 6. Supported.

(Structure of seedling planting device)
As shown in FIGS. 1 and 2, in the seedling planting device 6, two planting transmission cases 9 are arranged at intervals in the left-right direction. A supported rotary case 10, planting arms 11 supported at both ends of the rotary case 10, a float 12, a seedling platform 13, and the like are provided.

When power is transmitted to the seedling planting device 6, the seedling tray 13 is driven to feed in the left-right direction, the rotating case 10 is driven to rotate, and the planting arm 11 picks up the seedling from the bottom of the seedling tray 13. plant in the field.

(Configuration of fertilizing device)
As shown in FIGS. 1 and 2, the fertilizer applicator 7 is provided with a hopper 15, a feeding section 16, a blower 17, a grooving device 18, a hose 19, and the like.

A hopper 15 for storing fertilizer and a feed-out portion 16 are supported behind the driver's seat 20 , and a blower 17 is provided laterally to the left of the feed-out portion 16 . A grooving device 18 is connected to the float 12 to provide four grooving devices 18 , and four hoses 19 are connected across the delivery portion 16 and the grooving device 18 .

Fertilizer in the hopper 15 is fed out by the feeding portion 16 and supplied to the grooving machine 18 through the hose 19 by the conveying air of the blower 17. Fertilizer is supplied to the ditch of the field from 18.

(Configuration of ground leveling device)
As shown in FIG. 1, a soil leveling device 8 for leveling the surface of a field is supported at the lower front portion of the seedling planting device 6 .

The right and left support cases 29 are supported by the lateral outer portions of the right and left planted transmission cases 9 and extend forward. A drive shaft (not shown) is supported along the left-right direction across the front portions of the right and left support cases 29, and a large number of ground leveling bodies 30 are attached to the drive shaft.
The power transmitted to the seedling planting device 6 is transmitted to the drive shaft via a transmission shaft (not shown) inside the planting transmission case 9 and a transmission chain (not shown) inside the support case 29. be done.

As described in (Structure of Seedling Planting Device) above, when power is transmitted to the seedling planting device 6, power is transmitted from the seedling planting device 6 to the ground leveling device 8, and the driving shaft and the ground leveling body are transmitted. 30 is driven to rotate counterclockwise in FIG.

(Composition related to machine frame)
As shown in FIGS. 1, 4, and 5, the right and left body frames 3 formed by bending a plate material are arranged along the front-rear direction with a predetermined interval in the left-right direction.

A channel-shaped frame 33 is connected across the rear of the right and left fuselage frame 3 . Right and left support plates 34 formed of a plate material are connected to the rear part of the body frame 3 and extend upward, and right and left seat frames 35 supporting the driver's seat 20 are connected to the support plate 34. It is

A connecting frame 27 is connected to the front part of the body frame 3 . The mission case 21 is connected to the connecting frame 27 , and the mission case 21 is connected to the front portion of the body frame 3 via the connecting frame 27 .

As shown in FIG. 1, the right and left front axle cases 24 are connected to the right and left parts of the transmission case 21, and the right and left front wheels 1 are steerably supported by the front axle cases 24. It is A front wheel 1 is steered by a steering handle 14 .

The right and left support links 31 are supported so as to be vertically swingable about the horizontal axis P1 of the right and left body frames 3 and extend rearward. A rear axle case 25 is connected to the rear portion of the right and left support links 31 , and the right and left rear wheels 2 are supported on the rear axle case 25 .

Right and left suspension springs 32 are connected across a spring receiving portion 28 connected to the rear portion of the body frame 3 and the rear axle case 25 . A lateral link (not shown) that determines the lateral position of the rear axle case 25 is connected across the body frame 3 and the rear axle case 25 so as to be vertically swingable.
With the above configuration, the body frame 3 is supported by the right and left front wheels 1 and the right and left rear wheels 2 .

(Construction related to engine support frame)
As shown in FIGS. 1, 4 and 5, a support frame 22 formed by bending a plate material into a channel shape is connected to the front portion of the transmission case 21 and extends forward. It is connected to the front part of the support frame 22 along the left-right direction.

The engine 26 is supported by the support frames 22 and 23 via anti-vibration rubber (not shown), and the engine 26 is mounted on the front part of the body frame 3 via the transmission case 21 and the support frames 22 and 23. It is supported in a horizontal position. A bonnet 44 covers the engine 26 .

A round pipe-shaped frame 40 is connected to the support frame 22 along the left-right direction, and right and left support brackets 41 are connected to the right end and left end of the frame 40 .
Right and left preliminary seedling loading base frames 42 are attached to support brackets 41 and extend upward, and a preliminary seedling loading base 43 is attached to the preliminary seedling loading frame 42 .

(Transmission system from the engine to the front and rear wheels and the seedling planting device)
As shown in FIG. 1 , a hydrostatic continuously variable transmission 36 (corresponding to a transmission) is connected to the left portion of the transmission case 21 .

A transmission belt 37 (corresponding to a transmission mechanism) is attached across an output pulley 26 a provided on the left side of the engine 26 and an input pulley 36 a provided on the left side of the continuously variable transmission 36 . Power of the engine 26 is transmitted to the continuously variable transmission 36 via an output pulley 26 a of the engine 26 , a transmission belt 37 and an input pulley 36 a of the continuously variable transmission 36 .

The continuously variable transmission 36 is configured to be continuously variable from a neutral position to forward and reverse. A gear shift lever 38 is provided on the left side of the steering handle 14, and the continuously variable transmission 36 is operated by the gear shift lever 38 to the neutral position, the forward side, and the reverse side.

The power of the continuously variable transmission 36 is transmitted through an auxiliary transmission (not shown) inside the transmission case 21, a front wheel differential device (not shown), and a transmission shaft (not shown) inside the front axle case 24. , are transmitted to the front wheels 1 .

In the transmission case 21, the power of the auxiliary transmission is transmitted to the rear axle case 25 via a transmission shaft (not shown), and is transmitted to the rear wheels 2 via a transmission shaft (not shown) inside the rear axle case 25. is transmitted to

The power branched from between the continuously variable transmission 36 and the sub-transmission is transmitted from the inter-plant transmission (not shown) and the planting clutch (not shown) inside the transmission case 21 via the transmission shaft 39 to the seedling. It is transmitted to the planting device 6 .

(Structure of front floor, floor and rear cover)
As shown in FIGS. 1, 2 and 3, there are provided a front floor 45 and a floor 46 on which workers ride, and a rear cover 47 .

On the front floor 45, a right portion 45a located on the right side of the bonnet 44, a left portion 45b located on the left side of the bonnet 44, and a connection portion 45c connected across the right portion 45a and the left portion 45b. is provided. A right portion 45a and a left portion 45b of the front floor 45 and a connecting portion 45c are integrally formed of synthetic resin.

The floor 46 is arranged in the front-rear direction over the position directly below the front part of the driver's seat 20 and the rear part of the bonnet 44, and in the left-right direction over the full width of the riding-type rice transplanter, and is made of synthetic resin. integrally formed.

The rear cover 47 is arranged below the driver's seat 20, has an opening 47a through which the seat frame 35 (see FIGS. 4 and 5) passes, and is integrally formed of synthetic resin. . The hopper 15 and delivery part 16 of the fertilizing device 7 are arranged above the rear cover 47 .

(Configuration regarding floor frames arranged along the front-rear direction in supporting the floor and rear cover)
As shown in FIGS. 4 and 5, legrest frames 48 in the form of round pipes are connected to the right and left body frames 3 and extend in the left-right direction. 2) are connected to the right and left ends of the legrest frame 48 .

A square pipe-shaped frame 50 is connected to the upper end portions of the rear portions of the right and left support plates 34 and extends in the left-right direction. , and is arranged above the rear cover 47 (see FIG. 1).

A round pipe-shaped right floor frame 51 is connected to the right end of the frame 50 and extends rightward, forward, and downward. The right floor frame 51 is arranged along the front-rear direction at a position above the right portion of the legrest frame 48 at a predetermined distance.

A round pipe-shaped left floor frame 51 is connected to the left end of the frame 50 and extends leftward, forward, and downward. The left floor frame 51 is arranged along the front-rear direction at a position above the left portion of the legrest frame 48 at a predetermined distance.

Elongated flat plate-like right and left frames 52 are connected to the right and left floor frames 51 near the connecting portions with the frame 50, and extend forward and downward.

An angle-shaped right floor frame 53 is connected to the lower part of the right frame 52 and arranged in the front-rear direction at a position above the legrest frame 48 at a predetermined distance.
An angle-shaped left floor frame 53 is connected to the lower part of the left frame 52 and arranged at a position above the legrest frame 48 at a predetermined distance along the front-rear direction.

A right support plate 54 having a triangular shape when viewed from the front is connected across the right portion of the legrest frame 48 and the right floor frames 51 and 53 . An elongated flat plate-like frame 55 is connected across the right floor frames 51 and 53 .

A left support plate 54 having a triangular shape when viewed from the front is connected across the left portion of the legrest frame 48 and the left floor frames 51 and 53 . An elongated flat plate-like frame 55 is connected across the left floor frames 51 and 53 .

An angled right bracket 56 is connected across the front ends of the right floor frames 51 , 53 . A right bracket 57 is connected to the left end of the right bracket 56 and extends downward, and the right bracket 57 is connected to the right front axle case 24 (see FIG. 1).

An angled left bracket 56 is connected across the front ends of the left floor frames 51 , 53 . A left bracket 57 is connected to the right end of the left bracket 56 and extends downward, and the left bracket 57 is connected to the left front axle case 24 (see FIG. 1).

With the above configuration, the rear cover 47 is placed on and supported by the right and left support plates 34, the frame 50, the right and left floor frames 51 and 53, and the right and left frames 52. As shown in FIG.

(Configuration related to floor frames arranged along the left-right direction in supporting the floor and rear cover)
As shown in FIG. 6, an angled front floor frame 58 and an angled rear floor frame 59 are provided.

An angle-shaped right floor frame 60 is connected diagonally across the right end of the floor frame 58 and the floor frame 59 . An angle-shaped left floor frame 60 is connected obliquely across the left end of the floor frame 58 and the floor frame 59 .

An elongated flat plate-like support member 61 is connected to the left-right portion of the floor frame 58 and extends downward.
An elongated flat support member 62 is connected to the floor frame 59 in the vicinity of the connecting portion of the left floor frame 60 and extends downward.
An elongated flat support member 63 is connected to the floor frame 59 in the vicinity of the connecting portion of the right floor frame 60 and extends downward.

The floor frames 58, 59, 60 and the support members 61, 62, 63 are connected to each other as described above to form a single unit.

As shown in FIGS. 4, 5 and 6, the right end of floor frame 59 is connected to right floor frame 53 and the left end of floor frame 59 is connected to left floor frame 53 . A front end portion of the right floor frame 60 is connected to the right floor frame 53 , and a front end portion of the left floor frame 60 is connected to the left floor frame 53 .
Support members 61 and 62 are connected to the left body frame 3 , and support member 63 is connected to the right body frame 3 .

With the above configuration, the floor 46 includes right and left floor frames 51, 53, front and rear floor frames 58, 59, right and left floor frames 60, right and left support plates 54, right and left brackets. 56 and is supported.

(Relationship between machine frame and floor frame)
As shown in FIGS. 4 and 5, front and rear floor frames 58 and 59 (plurality of floor frames 58 and 59) arranged at predetermined intervals in the longitudinal direction are attached to the right and left body frames 3. are arranged along the left-right direction at a position spaced apart by a predetermined distance above the .

The right and left body frames 3 are arranged on the left and right central sides of the floor frames 58 and 59 with respect to the right end portions of the floor frames 58 and 59 in a plan view, and with respect to the left end portions of the floor frames 58 and 59. It is arranged on the left and right central sides of the floor frames 58 and 59 .

In a plan view, support members 61, 62, 63 are arranged along the vertical direction at the intersections of the right and left body frames 3 and the floor frames 58, 59 to support the right and left body frames 3 and the floor frames 58, 59. It is connected across floor frames 58 and 59 .

Floor frames 58, 59, 60 and floor frames 51, 53 are arranged at the same height. The floor frames 51 , 53 , 58 , 59 , 60 are supported by the support members 61 , 62 , 63 , the support plate 54 , and the bracket 57 at positions spaced upward from the right and left body frames 3 by a predetermined distance in side view. Supported.

A support member 61 is connected only across the frontmost floor frame 58 of the floor frames 58 and 59 and the left body frame 3 on the continuously variable transmission 36 (see FIG. 1) side.

Support members 62 and 63 are connected across both the floor frame 59 arranged on the rear side of the frontmost floor frame 58 and the right and left body frames 3 .
Front and rear support members 61 and 62 (a plurality of support members 61 and 62) are arranged at predetermined intervals along the front-rear direction.

(Configuration related to front floor support)
As shown in FIGS. 4 and 5, a round pipe-shaped left floor frame 64 and an angle-shaped left floor frame 65 are provided, and front portions of the left floor frames 64 and 65 are connected to each other. ing. An angled left bracket 66 is connected across the rear ends of the left floor frames 64,65.

An elongated flat left floor frame 67 is connected across the front and rear intermediate portions of the left floor frames 64 and 65 and extends rearward. A left support member 68 formed by bending an elongated flat plate is connected to the front end of the left floor frame 64 and extends downward. An angle-shaped left support member 69 is connected to the front-rear intermediate portion of the floor frame 65 and extends downward.

The left floor frames 64, 65, 67, the left bracket 66, and the left support members 68, 69 are connected to each other as described above to form one unit. The left floor frame 64 to support member 69 and the right floor frame 64 to support member 69 are provided symmetrically.

In the right floor frame 64 to support member 69, the support member 68 is connected to the right portion of the support frame 23, the support member 69 is connected to the right portion of the frame 40, the bracket 66 is connected to the right bracket 56, and the floor A rear end portion of the frame 67 is connected to an upper portion of the right connecting frame 27 .

In the left floor frame 64 to support member 69, the support member 68 is connected to the left portion of the support frame 23, the support member 69 is connected to the left portion of the frame 40, the bracket 66 is connected to the left bracket 56, and the floor A rear end portion of the frame 67 is connected to the upper portion of the left connecting frame 27 .

The right floor frame 64 to support member 69 are arranged on the right side of the bonnet 44 , and the left floor frame 64 to the support member 69 are arranged on the left side of the bonnet 44 . The floor frames 64 and 65 are arranged along the front-rear direction, and the floor frame 67 is arranged along the left-right direction and the front-rear direction.

Floor frames 58, 59, 60 and floor frames 64, 65, 67 are arranged at the same height. Floor frames 64, 65, 67 are supported by support members 68, 69 and brackets 56, 57 at positions above the right and left fuselage frames 3 and support frames 22, 23 at predetermined intervals in side view. ing.

With the above configuration, the right portion 45a of the front floor 45 is placed and supported by the right floor frame 64 to the support member 69, and the left portion 45b of the front floor 45 is placed on the left floor frame 64 to the support member 69. Placed and supported.

(First alternative embodiment of the invention)
4, 5 and 6, the configuration of the support members 61, 62 and 63 is the following configuration (1).
(1) There is a support member 61, there is a support member 62, and there is a support member 63.

As configurations of the support members 61, 62, 63 other than the configuration (1) described above, the following configurations (2) to (6) may be employed.
(2) The support member 61 is provided, the support member 62 is not provided, and the support member 63 is provided.
(3) The support member 61 is present, the support member 62 is absent, and the support member 63 is absent.
(4) There is no support member 61, there is no support member 62, and there is a support member 63;
(5) There is no support member 61, there is no support member 62, and there is no support member 63;
(6) There is no support member 61, there is a support member 62, and there is a support member 63;

According to floor 46 deflection experiments and simulations conducted for configurations (1) to (6), the evaluation of floor 46 deflection (reciprocal of floor 46 stiffness) was as follows.
(1) Deflection "small".
(2) deflection "Medium";
(3) deflection "large";
(4) deflection "large";
(5) Deflection "Large".
(6) deflection "small";

Configuration (1) or configuration (2) seems appropriate based on the evaluation of the deflection of the floor 46 (reciprocal of the rigidity of the floor 46) and various judgment criteria.

(Second alternative embodiment of the invention)
In the configurations (1) to (6) described above, in addition to the floor frames 58, 59, and 60 arranged along the left-right direction, another floor is arranged behind the floor frame 59 along the left-right direction. One or more frames (not shown) may be provided.

In the above configurations, the support members 61 , 61 , 61 , 61 , 61 , 61 , 61 , 61 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 , 8 E , 8 , Support members (not shown) corresponding to 62, 63 may be connected. According to this configuration, a state occurs in which three or more support members 61 and 62 (a plurality of support members 61 and 62) are arranged at predetermined intervals along the front-rear direction.

(Third alternative embodiment of the invention)
A continuously variable transmission 36 may be connected to the right portion of the transmission case 21 .
According to this configuration, the transmission belt 37 is attached across the output pulley 26 a provided on the right side of the engine 26 and the input pulley 36 a provided on the right side of the continuously variable transmission 36 .

When the continuously variable transmission 36 is connected to the right portion of the transmission case 21, the support member 61 is connected to a portion slightly to the right of the left-right central portion of the floor frame 58 in the configurations (1) to (3) described above. , extending downward and connected across the floor frame 58 and the right body frame 3 on the continuously variable transmission 36 side.

In addition to this, the support members 62 and 63 are modified as follows in the configurations (2) and (4) described above.
(2) The support member 61 is provided, the support member 62 is provided, and the support member 63 is not provided.
(4) The support member 61 is absent, the support member 62 is present, and the support member 63 is absent.

The present invention can be applied not only to ride-on rice transplanters, but also to work vehicles such as ride-on direct seeders and tractors equipped with seeding devices for supplying seeds to the surface of a field.

1 front wheel 2 rear wheel 3 body frame 21 mission case 22 support frame 23 support frame 26 engine 36 continuously variable transmission (transmission)
37 transmission belt (transmission mechanism)
46 floor 58 floor frame 59 floor frame 61 support member 62 support member 63 support member

Claims (6)

a body frame supported by the front wheels and the rear wheels and arranged along the front-rear direction;
a floor frame arranged along the left-right direction at a position spaced upward from the body frame by a predetermined distance;
a support member connected across the body frame and the floor frame for supporting the floor frame on the body frame,
An engine is supported by the body frame, a floor on which a worker boards is supported by the floor frame ,
The right and left body frames arranged at predetermined intervals in the left-right direction, and a plurality of floor frames arranged at predetermined intervals in the front-rear direction,
The engine is supported on a front portion of the airframe,
The support members are connected only across the frontmost floor frame and one of the right or left fuselage frames,
A work vehicle in which the support members are connected across both the floor frame arranged on the rear side of the frontmost floor frame and the right and left body frames . The work vehicle according to claim 1, wherein the floor is made of synthetic resin. In plan view, the body frame is arranged on the left-right center side of the floor frame with respect to the right end portion of the floor frame, and is arranged on the left-right center side of the floor frame with respect to the left end portion of the floor frame. The work vehicle according to claim 1 or 2. The work vehicle according to any one of claims 1 to 3, wherein a plurality of said support members are arranged at predetermined intervals along the front-rear direction. a mission case connected to the front part of the body frame;
a support frame connected to the transmission case and extending forward to support the engine;
a transmission connected to the right or left part of the mission case;
a transmission mechanism provided across the engine and the transmission for transmitting power of the engine to the transmission,
5. The support member according to any one of claims 1 to 4 , wherein the support member is connected only across the frontmost floor frame and the right or left body frame on the transmission side. work vehicle. 2. In a plan view, the support member is arranged along the vertical direction at a portion where the body frame and the floor frame intersect, and is connected across the body frame and the floor frame. 6. The work vehicle according to any one of 1 to 5 .

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