KR20090014971A - Walk-behind-type mower - Google Patents

Abstract

A walking-type mower is provided to enable a user to cut grass with the walking-type mower when the user moves the walking-type mower forwards as well as backwards, thereby saving power for rotating a cutting blade. A walking-type mower is composed of the following units. A driving apparatus(1) includes a motor(E), a driving unit and a cutting blade(10). The driving unit is rotated by power of the motor. A slope posture changing unit supports the cutting blade to be rotated in an up-to-down axis center(P2) direction or to be rotated in a side-to-side axis center(P1) direction. A front side of the cutting blade is dropped to change a posture to a down-slope posture when the driving apparatus is moved forwards.

Description

Walking mowers {WALK-BEHIND-TYPE MOWER}

The present invention relates to a walking-type mower having a driving unit, a traveling device that rotates by power from the driving unit, and a mowing blade.

As a conventional technique, for example, as disclosed in Japanese Patent Application Laid-Open No. 2007-53991 (hereinafter referred to as [Patent Document 1]), a traveling wheel (4 in FIG. 1 of Patent Document 1) is provided. BACKGROUND ART A walking type lawnmower is provided which has an engine (5 in FIG. 1 of Patent Document 1) mounted on a traveling body and is provided with a cutting blade (2 in FIG. 1 in Patent Document 1) that rotates by power from the engine.

In the walk-type mowing machine of Patent Document 1, the drive case (of Patent Document 1) is formed so that the base (66 of FIG. 13 of Patent Document 1) and the blade member (67 of FIG. 13 of Patent Document 1) constituting the cutting blade are substantially horizontal to the ground. A mowing blade is mounted at the lower part of Fig. 13), and when the mowing mower is advanced, the grass introduced from the front is mowed at the front part of the mowing blade, and when the mowing mower is reversed, the grass introduced from the rear is mowing at the rear part of the mowing blade. It was configured to be.

Therefore, regardless of whether the mowing blade actually mows the grass in front of or behind the mowing blade, even when the mowing lawnmower is advanced, the lower surface side of the mowing blade is almost full. It was located at a position close to the ground over the surface of the grass, and the grass grown on the ground after being mowed through the lower side of the blade was easy to resist the rotation of the blade. As a result, the load on the engine due to the drive of the cutting blade is increased, and there is room for improvement from the viewpoint of miniaturization of the engine and reduction of the weight of the walking-type mower.

An object of the present invention is to realize a walking-type mowing machine having a simple structure capable of saving power for rotating a cutting blade while constituting a mowing operation for advancing a traveling gas and a mowing operation for reversing a traveling gas.

A feature configuration of the present invention is that in a walking type mower having a driving unit, a traveling device that rotates by power from the driving unit, and a mowing blade.

The mowing blade is rotatably supported by the traveling body in the vertical axis direction and swingable in the left and right axial direction,

When the traveling body is moved forward, the posture of the cutting blade is changed to a forward descending inclined posture that swings downward, and when the traveling body is moved backward, the rear side of the harvesting blade is changed to a backward descending inclined posture that is swinged downward. A posture change mechanism is provided.

According to the above configuration, by advancing (reversing) the traveling gas, the pool introduced from the front can be mowed by the front part (rear part) of the mowing blade that has been changed into a forward descending inclination posture (rear descending inclination posture). In this case, even if the mowing blade is in the forward descending inclination posture (backward descending inclination posture), since the mowing of the grass is the front side (rear side) of the mowing blade, the grass introduced from the front (rear) can be mowed without difficulty. Since the rear side (front side) of the mowing blade is spaced upward in the forward descending inclination posture (rear downward inclination posture), the grass passing through the lower side of the mowing blade is less likely to become a resistance to rotate the mowing blade. Can reduce the load. As a result, while making the mowing operation which advanced the traveling gas and the mowing operation which reversed the traveling gas possible, the output of the drive part which drives a mowing blade can be set small, and the power which rotates a mowing blade can be saved.

Further, since the cutting blade is rotatably supported by the traveling body in the left and right axial direction, the swinging blade can be oscillated with respect to the traveling body so that the forward lowering inclination posture and the rear lowering inclination posture of the cutting blade can be easily exhibited. As a result, switching of the forward descending inclination posture and the rear descending inclination posture of the mowing blade can be easily performed, and the structure of the inclination attitude changing mechanism can be simplified.

As a result, the size of the moving part can be reduced and the walking lawnmower can be reduced in weight, and the manufacturing cost of the walking lawnmower can be reduced.

In the above-described configuration, the tilting posture changing mechanism is configured by rotatably supporting the mowing blade in the vertical axis direction in the lower portion of the driving section, and supporting the driving section in the left and right axial direction so as to be rotatable in the traveling body. Is preferable.

According to this configuration, by swinging the driving unit in the left and right axial direction with respect to the traveling body, the cutting blade swings in the left and right axial direction with respect to the traveling body integrally with the driving unit, so that the forward lowering inclination attitude and the rear descending inclination posture of the mowing blade are easy. It can be manifested. Further, for example, if only the blade is oscillated in the left and right axial direction, there is a possibility that the connection structure of the mowing blade and the prime mover may become complicated, but the mowing blade and the mowing blade are integrally swung in the left and right axial direction, thereby connecting the mowing blade and the prime mover. The structure can be prevented from becoming complicated. As a result, it is possible to more easily switch the front lowering inclined posture and the rear lowering inclined posture of the mowing blade, thereby further simplifying the structure of the inclined posture changing mechanism.

As a result, the weight reduction of the walking lawnmower can be further reduced, and the manufacturing cost of the walking lawnmower can be further reduced.

In the above-described configuration, the drive shaft and the swing support shaft having a concentric shape are extended from the left and right sides of the driving unit in the left and right direction, and the power from the driving unit is transmitted to the traveling device via the driving shaft, thereby driving the drive shaft. And the swing support shaft rotatably supported by the traveling body in the left and right axial direction to constitute the inclined attitude changing mechanism.

According to this configuration, when the driving shaft is rotated by the power from the driving unit to advance (reverse) the driving gas, the force in the direction opposite to the direction in which the driving shaft rotates acts on the driving unit by the law of action of reaction force. And the cutting blade swings integrally, and the posture of the cutting blade is changed to a forward lowering inclined posture (backward lowering inclined posture) in which the front side (rear side) of the harvesting blade swings downward. As a result, by driving the traveling device, the inertia force can be effectively used to automatically change the cutting blade into the forward lowering inclined posture (rear lowering inclined posture), and the front lowering inclined posture automatically by changing the traveling direction of the traveling gas. You can switch the rear descending inclination position.

Specifically, for example, as shown in Fig. 13, when the driving gas is moved forward and the drive shaft (7a in Fig. 13) is rotated clockwise in the left and right axial direction (P1 in Fig. 13), the law of action action of the force The counterclockwise force in the left and right axial directions of the drive shaft acts on the prime mover (Fig. 13E), causing the prime mover and the mowing blade (10 in Fig. 13) to move forward integrally, so that the front side of the mowing blade is downward. The posture is changed to a forward lowering inclined posture that is rocked. For example, as shown in Fig. 14, when the driving gas is reversed and the drive shaft is rotated counterclockwise from the left and right axial center directions, the force in the clockwise direction from the left and right axial center directions of the drive shaft is governed by the law of reaction action of the force. Acting on the prime mover (Fig. 14E), the prime mover and the mowing blade (10 in Fig. 14) are integrally oscillated to the rear, so that the rear side of the mowing blade (10 on Fig. 14) is swinged downward and the posture is in a lowered inclined posture. Is changed.

As a result of the above, the forward lowering inclination posture and the rear lowering inclination posture of the mowing blade can be switched easily and quickly, and the workability of the mowing operation can be improved, and the structure of the inclination attitude changing mechanism can be further simplified.

In the above-described configuration, it is preferable to include an inclination angle adjustment mechanism capable of changing and adjusting the forward lowering inclination angle of the cutting blade in the forward lowering inclination posture or the rear lowering inclination angle of the harvesting blade in the backward lower inclined posture.

According to this configuration, the height of the cutting blade can be changed by changing the front lowering inclination angle or the rear lowering inclination angle of the mowing blade by the inclination angle adjusting mechanism, and by adjusting the inclination angle adjusting mechanism according to the length of the pool, Can be mowed. As a result, the mechanism for changing and adjusting the mowing height of the pool can be simplified, and the number of parts of the mechanism for changing and adjusting the mowing height of the pool can be reduced.

As a result of the above, the manufacturing cost of the walking-type mower can be kept low while the mowing height of the pool is configured to be changeable.

In addition, another feature configuration of the present invention is a walking type mowing device having a driving unit having a driving unit, and rotatably connecting a cutting blade to the lower portion of the driving unit in a vertical axis direction, wherein the front side of the cutting blade is downward. The mowing blade in the forward descending inclination posture by supporting the driving unit in the left and right axial direction so as to be a swinging forward lowering inclination posture, and simultaneously changing the posture in the forward and backward axial direction by integrally changing the driving section and the cutting blade in the left and right axial directions. It is in the point which can be configured to change the front lowering inclination angle of the.

According to this configuration, if the forward portion of the mowing blade is changed in the forwardly descending inclination posture by changing the posture of the prime mover and the mowing blades in the left and right axial direction integrally, the height of the front side of the mowing blade is changed and introduced from the front. The height of the front side of the cutting blade for mowing the grass is changed. In this case, even if the mowing blade is in the forward descending inclination posture, since the mowing of the grass is the front side of the mowing blade, the grass introduced from the front can be mowed without difficulty. In addition, since the rear side of the mowing blade is spaced upward in the forward descending inclination posture, the grass passing through the lower side of the mowing blade is less likely to become a resistance to rotate the mowing blade, so that the load on the driving part caused by the driving of the mowing blade can be reduced.

Thereby, by changing the attitude | position of a driving part and a mowing blade to a left-right axial direction, the mowing height of the pool by a mowing blade can be changed and adjusted, for example, the mechanism which slides a mowing blade up and down, etc. becomes unnecessary. In addition, for example, if only the blade is configured to change the posture in the left and right axial direction, there is a possibility that the connection structure of the mowing blade and the prime mover may be complicated. The connection structure can be prevented from becoming complicated. As a result, the mechanism for changing and adjusting the mowing height of the pool can be simplified, and the number of parts of the mechanism for changing and adjusting the mowing height of the pool can be reduced.

As a result, the weight reduction and cost reduction of the walking type mower can be realized, and the workability of the mowing operation by the walking type mowing machine and the conveying operation of the walking type mowing machine can be improved, for example.

According to the present invention, it is possible to realize a walking-type mowing machine capable of saving the power for rotating the cutting blade while constituting a mowing operation in which the traveling gas is advanced and a mowing operation in which the traveling gas is reversed.

[Overall Configuration of Walking Mower]

1 to 6, the overall configuration of the walk behind lawnmower will be described. 1 and 2 show a full left side view and a full plan view of a walk behind lawnmower, respectively, and FIGS. 3 to 5 show a longitudinal left side view, a cross sectional top view and a longitudinal rear view of the traveling body 1, respectively. 6 shows a longitudinal rear view illustrating the support structure of the front wheel 5 and the rear wheel 6.

As shown in Figs. 1 and 2, the front axle 3 and the rear axle 4 are pivoted on the machine body frame 2 provided in the traveling body 1, and this front axle 3 ) And the front wheels 5 and 5 made of sheet metal and the rear wheels 6 and 6 (equivalent to the traveling device) are fixed to the left and right ends of the rear axle 4. The transmission case 7 is supported by the upper part of the machine main body frame 2 so that it can rock to the axial center P1 direction of the left-right direction, and the fuel tank 8a is integrally comprised in the upper part of this transmission case 7 The engine 8 is interlocked and the drive unit E is comprised. The engine 8 is equipped with the recoil starter 8b, and is comprised so that the engine 8 can be driven by this starter 8b.

A chain transmission mechanism 9 is disposed on the right side of the traveling body 1, and power from the engine 8 is transmitted to the chain transmission mechanism 9 through a transmission path in the transmission case 7 so that the front axle (3) and the rear axle 4 are configured to rotate, and the front and rear wheels 5 and 6 on the left and right sides are rotated. A mowing blade 10 is mounted to the lower part of the transmission case 7, power from the engine 8 is transmitted to the cutting blade 10 through a transmission path in the transmission case 7, and the cutting blade 10 rotates. It is configured to mow the grass.

As shown in Figs. 4 and 5, the U-shaped frame 18 is fixed to the upper part of the machine main body frame 2 from the plane of the machine main body frame 2 of the frame 18. The support shaft 19 is rotatably supported by the axial direction of an up-down direction at the edge part extended to the left. The bracket 20 is rotatably supported by the upper end part of the support shaft 19 in the axial direction of the horizontal direction, and the pipe-shaped steering wheel 21 is being fixed to this bracket 20.

As shown in Figs. 1 and 2, the steering wheel 21 is capable of oscillating displacement in the axial direction of the up and down direction, and under the action of the first locking mechanism 22 provided between the frame 18, A second structure configured to be selectively fixed to and supported in a plurality of swing positions in the axial direction in the vertical direction set in advance, and capable of swinging displacement in the axial direction in the horizontal direction and further provided between the frame 18 and the frame 18. By the action of the lock mechanism 23, it is comprised so that it may selectively fix and support to the some rotational position of the axial center direction of the horizontal direction set previously.

The extended end of the steering wheel 21 is equipped with a gripping portion 21a, and a first release for enabling the unlocking operation of the first locking mechanism 22 that is spring-pressed in the locked state to the gripping portion 21a. The second release lever 25 is provided to enable the lock release operation of the lever 24 and the second lock mechanism 23 that is spring-pressed in the locked state, and the first and second lock mechanisms 22 and 23 are provided. Each is linked.

An extended end of the steering wheel 21 is equipped with a main clutch lever 21b so as to be able to swing up and down in the axial direction in the transverse direction, and is connected to the main clutch 63 to be described later to rotate the cutting blade 10. It is comprised so that a stop and a stop of the traveling body 1 can be performed.

On the rear end of the steering wheel 21, forward and backward switching levers 26 which can be switched to the forward position, the neutral position and the reverse position are supported so as to be able to swing left and right in the axial direction of the vertical direction, and this forward and backward switching lever 26 ), The operation arm 85 mentioned later is linked, and it is comprised so that forward, stop (neutral), and reverse of a walking type lawn mower can be switched by operation of the forward-backward switching lever 26.

As shown in Fig. 3, Fig. 4, and Fig. 6, the machine body frame 2 is a front end of the right and left main frames 31 and 32 and the right and left main frames 31 and 32, which are long forward and backward. And a rear frame 34 provided over the rear ends of the main frames 31 and 32 on the right and left sides.

The front and rear frames 33 and 34 are constituted by cylindrical members, and the front axle 3 in the left and right directions can be rotated through the left and right bearing members 37 in the front frame 33. It is fitted inside, and the rear axle 4 in the left and right directions is rotatably fitted in the rear frame 34 via the left and right bearing members 38.

The front part rod 35 which protects the front part of the traveling body 1 is mounted over the front part of the right and left main frames 31 and 32, and is attached to the rear end part of the right and left main frames 31 and 32. The rear part rod 36 which protects the rear part of the traveling body 1 is attached.

3 to 5, the drive shaft 7a extends from the transmission case 7 to the right side, and the drive shaft 7a extends through the bearing member 39 on the main frame 31 on the right side. It is rotatably supported. The drive shaft 7a and the concentric rocking support shaft 7b extend from the transmission case 7 to the left side, and the rocking support shaft 7b is interposed between the bearing member 40 on the left main frame 32. And rotatably supported in the axial center P1 direction in the left and right directions. Thereby, the transmission case 7, the engine 8 attached to the transmission case 7, the cutting blade 10, etc. are made to be able to oscillate back and forth integrally with the machine main body frame 2 in the axial center P1 direction of a left-right direction. I can support it.

The transmission case 7 supported by the drive shaft 7a and the swing support shaft 7b is positioned in the front-rear direction when viewed from the side of the axis P1 in the left and right directions of the drive shaft 7a and the swing support shaft 7b. And the cutting blades are arranged so as to be located in the vicinity of the center of gravity in the front and rear directions of the engine 8 and the cutting blade 10, and the driving shaft 7a is stopped and the inertia force is not applied to the transmission case 7 or the like. The force in the direction of the axial center P1 due to the weight of the transmission case 7 or the like is maintained in the state where the 10 is kept substantially horizontal with the ground, and the inertia force acts on the transmission case 7 by rotating the drive shaft 7a. As the inertia force increases as the drive shaft 7a is rotated, the cutting blade 10 is configured to change its posture into a forward downward inclination posture and a rear downward inclination posture (see FIGS. 13 and 14).

As shown in Figs. 3 to 6, a chain transmission mechanism 9 is equipped on the right outer side of the main frame 31 on the right side. The chain transmission mechanism 9 includes a drive sprocket 41 interlocked with the right outer end of the drive shaft 7a, a front sprocket 42 interlocked with the right outer end of the front axle 3, and a rear axle ( 4) a rear sprocket 43 interlocked with the right outer end, a tension sprocket 44 disposed above the drive sprocket 41, a drive sprocket 41, a front and rear sprockets 42 and 43; ) And the electric chain 45 wound tightly over the tension sprocket 44.

The right side of the main frame 31 on the right side is equipped with a chain cover 46 divided into two sides, and the chain cover 46a on the left side is fixed to the main frame 31 on the right side. It is comprised so that the chain transmission mechanism 9 may be covered by the chain cover 46 by fastening and fixing the chain cover 46b of the right side from the right outer side to 46a).

The tension sprocket 44 is rotatably supported in the axial direction of the left-right direction at the upper part of the front-back center part of the left chain cover 46a. The tension sprocket 44 is installed on the left side of the chain cover 46a so that the position can be changed in the vertical direction. The tension sprocket 44 is configured to adjust the tension of the electric chain 45 by adjusting the tension sprocket 44 up and down. have.

The cover 50 is detachably attached to the front-back center part of the right side chain cover 46b from the right outer side, and it is comprised so that the inspection in the chain cover 46 can be performed by removing this cover 50. FIG.

The left and right front wheels 5 and 5 and the rear wheels 6 and 6 are externally inserted into the left and right ends of the front axle 3 and the rear axle 4 so that the front axle 3 and the rear vehicle It is fixed to the shaft 4 so that rotation is possible integrally. When the power from the engine 8 is transmitted to the drive shaft 7a via the transmission case 7 and the front axle 3 and the rear axle 4 rotate through the chain transmission mechanism 9, the front wheels 5 and the rear wheel 6 are rotated so that a walking mower may be moved forward or backward.

As described above, the drive shaft 7a and the swing support shaft 7b extending from the transmission case 7 are supported by the machine body frame 2 of the traveling body 1 in a axial direction P1 direction in the horizontal direction. Thus, the power from the engine 8 is transmitted to the drive shaft 7a via the transmission case 7, and the front wheel 5 and the rear wheel via the chain transmission mechanism 9 by the power from the drive shaft 7a. By rotating (6), when the traveling body 1 is moved forward, the front side of the cutting blade 10 is changed in posture to a forward lowering inclination posture that is rocked downward, and when the traveling body 1 is reversed, the rear of the cutting blade 10 is reversed. An inclined posture changing mechanism configured to change a posture in a rearward inclined posture in which a side swings downward (see FIGS. 13 and 14).

[Detailed structure of the cover]

The detailed structure of the cover attached to the traveling body 1 is demonstrated based on FIG. 4 thru | or FIG. Fig. 7 shows a longitudinal side view as viewed from inside the machine body illustrating the structure of the movable shatterproof cover 54. Figs.

As shown in Figs. 4 and 5, the left and right upper covers 51 are fixed to the lower surface side of the front and rear center portions of the right and left main frames 31 and 32, and the left and right upper cover 51 is fixed to the left and right upper covers 51. The prevention cover 52 is being fixed. The gap between the lower end of the left fixed shatterproof cover 52 and the ground is set wider than the gap between the lower end of the fixed shatterproof cover 52 and the ground, and the scattering prevention cover 52 on the left is described later. In cooperation with the movable scatter prevention cover 54, it is comprised so that scattering to the left side of a mow can be prevented.

5 and 7, the front and rear brackets 53 extend downward from the frame 18, and the movable shatterproof cover 54 is attached to the front and rear brackets 53. The movable shatterproof cover 54 is formed with a front and rear long hole 54A that is vertically long, and the front and rear pin 53A that extends from the front and rear bracket 53 to the left side is in communication with the long hole 54A before and after. . The upper part of the movable shatterproof cover 54 is provided with the spring installation part 54a which protrudes inward, and the elastic spring 55 is attached over this spring installation part 54a and the front-back bracket 53. As shown in FIG.

A lower portion of the front portion of the movable shatterproof cover 54 is formed with a front portion inclined portion 54b cut out upward from the side, and a lower portion of the rear portion of the movable shatterproof cover 54 is viewed from the rear. The rear inclined portion 54c cut out is formed. Thereby, for example, when a walking mowing machine is advanced and obstacles such as stones from the left front come into contact with the movable shatterproof cover 54, the elastic spring is formed by the long hole 54A formed in the movable shatterproof cover 54. The movable scattering prevention cover 54 moves upward in response to the pressing force of the 55. As shown in FIG. On the contrary, when the walking lawnmower is retracted and obstacles such as stones contact the movable shatterproof cover 54 from the left rear, the pressing force of the elastic spring 55 is provided by the long hole 54A formed in the movable shatterproof cover 54. The movable scattering prevention cover 54 moves upward in response to the resistance.

As shown in Figs. 4 and 5, the front and rear portions of the movable shatterproof cover 54 are arranged along the outer surfaces of the front wheel 5 and the rear wheel 6 on the left side, so that the front and rear ends are respectively inward. The front end and the rear end which are molded into the shape bent inwardly and are bent so as to overlap the front wheel 5 and the rear wheel 6 in plan view. Further, the gap between the lower end of the movable shatterproof cover 54 and the ground is set substantially the same as the gap between the lower end of the fixed shatterproof cover 52 on the right side and the ground. Thereby, the clearance gap between the lower end part of the movable shatterproof cover 54 and the ground, and the clearance gap between the movable shatterproof cover 54, the front wheel 5, and the rear wheel 6 can be set small, and the scattering to the left of the lawn mower Can be effectively prevented.

By configuring the movable shatterproof cover 54 as described above, the movable shatterproof cover 54 is pushed downward by the pressing force of the elastic spring 55 in a normal manner, so as to widen the space between the front wheel 5 and the rear wheel 6. The movable shatterproof cover 54 can be covered from the side, and when it comes in contact with an obstacle, the movable shatterproof cover 54 moves upward to resist the pressing force of the elastic spring 55, and thus the movable shatterproof cover 54 Breakage can be prevented. In addition, the movable shatterproof cover 54 may be provided on the right side of the traveling body 1, and the movable shatterproof cover 54 may be provided on both the left and right sides of the traveling body 1.

As shown in Figs. 3 and 6, the front part frame 33 provided over the right and left main frames 31 and 32 has rubber front part shatterproof members 56 covering between the left and right front wheels 5, respectively. ) Is mounted so as to swing back and forth in the axial direction in the left and right directions, and a rear portion made of rubber covering the left and right rear wheels 6 to the rear frame 34 provided over the right and left main frames 31 and 32. The scattering prevention member 57 is rotatably mounted back and forth in the axial direction in the left and right directions. Both left and right ends of the front and rear scattering prevention covers 56 and 57 are shaped to enter the inside of the front wheels 5 and the rear wheels 6, respectively, thereby effectively preventing front and rear scattering of mowing. can do.

As shown in Figs. 4 and 6, the machine body frame 2 is covered from above by a front and rear upper cover 58 divided into two front and rear. The center portion of the front and rear upper covers 58 is shaped into a convex projecting shape upward, the outer peripheral portion is formed into a horizontal shape, and the left and right both sides formed into the horizontal shape of the front and rear upper covers 58 are formed at right and left sides. It is fastened and fixed to the several place of the upper surface side of the main frame 31,32.

[Detail structure of cutting day]

The detailed structure of the cutting blade 10 is demonstrated based on FIG. 5 and FIG. 8 shows a cross-sectional plan view illustrating the structure of the mowing blade 10.

As shown in Figs. 5 and 8, the cutting blade 10 includes a boss member 11 for mounting the cutting blade 10 on the lower part of the transmission case 7, and a rotating disc fixed to the boss member 11 ( 12), a plurality of cutting blades 13 rotatably supported on an outer circumferential portion, and a plurality of diffusion blades 14 fixed to an upper surface side of the rotating disc 12 on the rotating disc 12. have.

The rotating disc 12 is shaped into a plate shape in the downward direction inclined downwardly outward so that the distance between the boss member 11 and the ground gradually narrows outward, and is substantially horizontal with the ground on the outer circumference. The part 12a is formed. The cutting blade 13 is comprised by the upper cutting blade 13a shape | molded in the shape which inclined upward inclined outer side, and the lower cutting blade 13b shape | molded in the shape inclined downward inclined outer side, and the rotation disc 12 The upper cutting blade 13a and the lower cutting blade 13b are alternately supported on the plurality of horizontal portions 12a of the outer circumferential portion of the cuff by rotatably by the pin 15 at a pitch of approximately 90 degrees. .

The diffusion blade 14 is formed in a shape in which its upper end is inclined upwardly outward so that the area of the blade gradually widens toward the outside, and the intermediate blades 13 of adjacent cutting blades 13 are adjacent to each other from the shaft center P2. It is radially arranged at equal intervals of about 90 degrees.

A mowing blade cover 16 is attached to the lower portion of the transmission case 7, and the mowing blade cover 16 is prevented from entering the rotation center side and prevents mowing of the mowing from the rotation center. It is.

[Electric structure of walking mower]

9 to 12, the transmission structure of the walking type lawn mower will be described. Fig. 9 shows the electric drive diagram of the walking lawn mower, and Figs. 10 and 11 show the longitudinal rear view and the cross-sectional plan view of the drive structure of the walking lawn mower, respectively. 12 also shows a perspective view of the mowing blade clutch 68.

9 to 11, the vertical input shaft 62 is rotatably supported on the upper portion of the transmission case 7 via a pair of bearings 61, and the input shaft 62 is rotated. The upper end part is connected via the main clutch 63 to the output shaft 8c of the engine 8 fixed to the upper part of the transmission case 7. The transmission gear 64 is integrally rotatably connected to the lower part of the input shaft 62, and this transmission gear 64 meshes with the transmission gear 72 linked with the upper transmission shaft 65 mentioned later.

The upper transmission shaft 65 and the lower transmission shaft 66 arranged concentrically in the axial direction P2 direction of the transmission case 7 in the up-and-down direction are rotatably supported through the plurality of bearings 67, and the upper portion A mowing blade clutch 68 is mounted over the transmission shaft 65 and the lower transmission shaft 66. The boss member 11 of the mowing blade 10 is fixed to the lower end of the lower transmission shaft 66 from the lower side. When the mowing blade clutch 68 is operated to the inlet side, the power from the engine 8 is input to the input shaft ( 62), and is transmitted to the lower transmission shaft 66 via the upper transmission shaft 65 and the cutting blade clutch 68 is configured to rotate the cutting blade 10.

As shown in Figs. 10 and 12, the cutting blade clutch 68 is integrally rotatable to the upper clutch 69 and the lower transmission shaft 66 linked to the upper transmission shaft 65, and has a spline structure. The lower clutch 70 is externally fitted so that it can slide up and down, and the upper clutch 69 and the lower clutch 70 are each provided with engaging pieces 69a and 70a which mutually engage.

An elastic spring 68a is mounted to push the lower clutch 70 upward over the lower surface side of the lower clutch 70 and the upper surface side of the bearing 67. The cutting blade clutch 68 is mounted by the elastic spring 68a. ) Is configured to be pressed toward the inlet side.

Slope portions 69b and 70b that are inclined at an angle are formed on the engaging pieces 69a and 70a, and the power from the engine 8 is transmitted to the lower transmission shaft 66 via the upper transmission shaft 65. In this case, the engaging piece 69a of the upper clutch 69 and the engaging piece 70a of the lower clutch 70 are engaged so that power from the engine 8 is transmitted to the lower transmission shaft 66.

For example, the cutting blade 10 rotates by inertial force while the engine 8 is stopped and the rotation of the upper transmission shaft 65 is stopped, and the inertial force from the cutting blade 10 is lowered from the lower transmission shaft 66. If it is to be transmitted to the upper transmission shaft 65, the lower clutch 70 is slid relative to the upper clutch 69 by the inclined portions 69b and 70b of the engaging pieces 69a and 70a, and the lower transmission shaft Transmission of the inertial force from 66 to the upper transmission shaft 65 is interrupted. When rotation by the inertia force of the mowing blade 10 stops, the lower clutch 70 is operated upward by the pressing force of the elastic spring 68a, and the mowing blade clutch 68 is operated to the entrance side.

Thereby, the front wheel 5 and the rear wheel (by the inertia force of the mowing blade 10) are co-rotated (for example, by the inertial force of the mowing blade 10) of the inertia force of the mowing blade 10 to the electric upstream side (the engine 8 side and the drive shaft 7b side). 6) can be prevented, and, for example, a brake device (not shown) forcibly braking the rotation of the mowing blade 10 (not shown) may be used on the electric upstream side of the mowing blade 10 (for example, Compared to the case in which the inertia force due to the rotation of the mowing blade 10 when the engine 8 is stopped is transmitted to the upper upstream shaft 65 or the lower transmission shaft 66, or the like. The mechanism which suppresses the transmission of the inertia force from the mowing blade 10 to the upstream side of an electric motor can be simplified, and manufacturing cost can be reduced.

The lower clutch 70 is formed with a shift groove 70c at the outer periphery of the lower portion of the lower clutch 70 so as to function also as a shift member of the mowing blade clutch 68, and the shift groove 70c is formed in the axial direction in the front-rear direction. When the operation part 71a of the shift lever 71 supported to rock left and right is engaged, and rocking the lever main body 71b of the shift lever 71, the lower clutch 70 slides up and down, and the cutting blade clutch ( It is comprised so that single junction of 68) may be possible.

As shown in Figs. 9 to 11, the transmission gears 72 and 73 are interlocked with the upper transmission shaft 65, and the transmission gear 72 is connected to the transmission gear 64 fixed to the input shaft 62. Interlocked. The transmission gear 75 is interlocked with the transmission shaft 74 of the front-back direction rotatably supported by the transmission case 7, and the transmission gear 75 is linked with the upper transmission shaft 65 by the transmission gear ( 73), the power from the upper transmission shaft 65 in the vertical direction is changed by 90 degrees and is transmitted to the transmission shaft 74 in the front-rear direction. The transmission gear 76 is interlocked with the transmission shaft 74, and the transmission gear 76 is disposed on the lower right side of the transmission shaft 74 and engaged with the transmission gear 78 interlocked with the transmission shaft 77. have.

A bevel gear 79 is interlocked with the transmission shaft 77, and the bevel gear 79 is a forward bevel gear 80 and a backward bevel gear 81 which are externally fitted to the drive shaft 7a in the left and right directions. Is interlocked. The drive shaft 7a is rotatably supported in the axial direction P1 direction in the left and right direction via a bearing 83 on the transmission case 7, and the bevel gears 80 for forward and reverse movements are supported on the drive shaft 7a. 81 is rotatably externally fitted, and the shift member 82 is slidably movable in the horizontal direction between the forward bevel gear 80 and the reverse bevel gear 81, and is integrally rotatable with the drive shaft 7a. It is fitted outside.

The operating shaft 84 is rotatably supported by the transmission case 7 in the axial direction of the vertical direction, and the operation arm 85 and the upper and lower operation members 86 are connected to the upper end and the lower end of the operation shaft 84. It is. The shift groove 82a is formed in the outer peripheral part of the shift member 82, and the operation member 86 connected to the operation shaft 84 is couple | bonded with this shift groove 82a. When the operation arm 85 is swung back and forth, the shifting member 82 slides in the horizontal direction to engage the forward bevel gear 80 or the reverse bevel gear 81 to move forward and stop the traveling body 1. Neutral) and reverse. Thus, the forward and backward clutch 87 is comprised by the bevel gear 79, the forward bevel gear 80, the reverse bevel gear, the shift member 82, etc. As shown in FIG.

As shown in Figs. 1 and 2, the operation arm 85 is connected to the forward and backward switching lever 26 provided in the steering wheel 21, and the forward and backward switching lever 26 is moved forward (left). Rocking operation, the operation arm 85 swings backward, the shift member 82 is engaged with the forward bevel gear 80 and the forward and backward clutch 87 is operated on the forward side, and from the bevel gear 79 Power is transmitted to the drive shaft 7a via the forward bevel gear 80 and the shift member 82, and the drive shaft 7a is driven to rotate forward. On the other hand, when the forward / backward switching lever 21 is rocked to the reverse side (right side), the operation arm 85 is rocked forward, and the shift member 82 is engaged with the reverse bevel gear 81 so that the forward and backward clutch ( 87 is operated on the reverse side, the power from the bevel gear 79 is transmitted to the drive shaft 7a via the reverse bevel gear 81 and the shift member 82, and the drive shaft 7a is driven in reverse rotation. .

9 to 11, the drive sprocket 41 of the chain transmission mechanism 9 is interlockedly connected to the right end of the drive shaft 7a, and the power from the drive shaft 7a is driven by the chain transmission mechanism 9 Is transmitted to the front axle 3 and the rear axle 4 via), and the front wheel 5 and the rear wheel 6 are reversed, and the traveling body 1 moves forward or backward.

[Detailed Structure of Cutting Height Adjustment Mechanism]

Based on FIG.3 and FIG.4, the detailed structure of the mowing height adjustment mechanism 90 (equivalent to the inclination-angle adjustment mechanism) is demonstrated. 3 and 4, the plate-shaped bracket fastened to the left side of the bracket 91 and the transmission case 7 fastened to the upper surface side of the rear part of the main frame 32 on the left side ( By linking the linkage rod 93 over 92, the cutting height adjustment mechanism 90 which regulates the lower limit range of the cutting height is comprised.

The bracket 91 is formed by bending a sheet material into an L shape, and three adjusting holes 91A, 91B, 91C are processed in a portion extending upward from the fixing portion with the main frame 32 on the left side. have. 91 A of upper adjustment holes are shape | molded by the round hole, and the center adjustment hole 91B and the lower adjustment hole 91C are shape | molded by the long hole back and forth, respectively. The lengths of the long holes of the adjustment holes 91B and 91C are gradually lengthened so that the cutting heights H1, H2, and H3 to be described later increase at substantially the same interval.

The front end and the rear end of the linkage rod 93 are each molded into a shape that is bent inward and outward, and the front end of the linkage rod 93 is connected to the through hole in the left and right directions of the upper portion of the bracket 92, and the linkage rod ( The rear end portion of the 93 is connected to any one of the adjustment holes 91A, 91B, 91C of the bracket 91 by the pin 94, so that the swing range of the transmission case 7 or the like in the axial center P1 direction in the left and right directions It is designed to regulate the upper limit of

When the rear end of the linkage rod 93 is engaged with the adjustment hole 91A, the swing of the transmission case 7 in the axial center P1 direction in the left and right directions is regulated to drive the engine 8 to rotate the mowing blade 10. Even if it is made, the height of the lower end part of the cutting blade 10 does not change with the state of H1.

When the rear end of the linkage rod 93 is linked to the adjustment hole 91B, movement of the rear end of the linkage rod 93 is allowed in the range of the long hole of the adjustment hole 91B, so that it is in the axial center P1 direction in the left and right directions. Rotation to the front and rear of the transmission case 7 and the like is permitted in the range of the long hole of the adjustment hole 91B. For example, when the engine 8 is driven to operate the forward and backward switching lever 26 to the forward side, the cutting blade 10 connected to the lower end of the transmission case 7 is adjusted from the height H1 which is almost horizontal to the ground. It is inclined in the range permitted by 91B. Then, the rear end of the linkage rod 93 is in contact with the front end of the adjustment hole 91B, and the height of the lower end of the cutting blade 10 is automatically changed to the height H2 so that the height H2 is maintained.

When the rear end of the linkage rod 93 is linked to the adjustment hole 91C, movement of the rear end of the linkage rod 93 is allowed in the range of the long hole of the adjustment hole 91C, and in the axial center P1 direction in the left and right directions. Rotation to the front and rear of the transmission case 7 and the like is allowed in the range of the long hole of the adjustment hole 91C. For example, when the engine 8 is driven to operate the forward and backward switching lever 26 to the forward side, the cutting blade 10 connected to the lower end of the transmission case 7 is adjusted from the height H1 which is almost horizontal to the ground. It inclines in the range allowable by the hole 91C. Then, the rear end of the linkage rod 93 contacts the front end of the adjustment hole 91C, and the height of the lower end of the cutting blade 10 is automatically changed to the height H3 so that the height H3 is maintained.

In addition, when the engine 8 is stopped or the forward / backward switching lever 26 is operated to the stop side (neutral side), the height of the cutting blade 10 is automatically changed to the height H1 which is almost horizontal to the ground. do.

By constructing the mowing height adjusting mechanism 90 as described above, the transmission case 7 is detached from the pin 94 and the linking position to the adjustment holes 91A, 91B, 91C at the rear end of the linkage rod 93 is changed. By changing the swing range of the cutting edge 10, the height of the lower end of the cutting blade 10 can be changed and adjusted in three stages of H1, H2, H3, cutting height by the cutting blade 10 (the forward lowering inclination angle of the cutting blade 10 to be described later) (α) (rear tilt angle α) can be adjusted in three stages.

[Explanation of the inclination situation of cutting day]

13 and 14, the inclination situation of the cutting blade 10 will be described. FIG. 13 shows the inclination situation of the mowing blade 10 in the forward descending inclined posture with the traveling body 1 advanced, and FIG. 14 shows the mowing blade 10 in the rear descending inclined posture with the traveling body 1 reversed. The inclination situation is shown.

As shown in Fig. 13, the drive shaft 7a is left and right when the engine 8 is driven in a state in which the cutting blade 10 is substantially level with the ground that is not rotating, and the forward and backward switching lever 26 is switched to the forward side. It rotates clockwise as shown by the black arrow of FIG. 13 in the axial center P1 direction of the direction. When the drive shaft 7a rotates clockwise, a counterclockwise force opposite to the direction in which the drive shaft 7a shown by the black arrow in Fig. 13 rotates is transmitted to the transmission case 7 according to the law of action of the reaction force of the force. Works. When counterclockwise force acts on the transmission case 7, the transmission case 7, the engine 8 and the cutting blade 10 connected to the transmission case 7 are integrally forward in the axial direction P1 in the left and right directions. And the swinging range is regulated by the cutting height adjusting mechanism 90 (in FIG. 13, when the cutting height is set to H3), the transmission case 7, the engine 8, and the cutting blade 10 are numbered. The angle α is inclined forward down than in the normal state.

On the other hand, as shown in Fig. 14, the drive shaft 7a is driven by driving the engine 8 in a state where the cutting blade 10 is substantially level with the ground where it is not rotating, and switching the forward and backward switching lever 26 to the reverse side. It rotates in the counterclockwise direction shown by the black arrow of FIG. 14 in the axial direction P1 direction of this left-right direction. When the drive shaft 7a rotates in the counterclockwise direction, a clockwise force opposite to the direction in which the drive shaft 7a shown by the black arrow in Fig. 14 rotates is transmitted to the transmission case 7 by the law of action of the force reaction reaction. Works. When clockwise force is applied to the transmission case 7, the engine 8 and the cutting blade 10 connected to the transmission case 7 and the transmission case 7 are integrally rearward from the axial direction P1 in the left and right directions. The swing range is controlled by the cutting height adjusting mechanism 90 (in FIG. 14, when the cutting height is set to H3), and the transmission case 7, the engine 8, and the cutting blade 10 are horizontal. It becomes a state inclined backward of angle (alpha) back than ever.

That is, when the engine 8 is driven and the forward / backward switching lever 26 is switched to the forward side or the reverse side to move the traveling body 1 forward or backward, the cutting height set by the mowing height adjustment mechanism 90 is automatically set. The cutting blade 10 automatically swings, and the cutting operation can be performed at the cutting height of the cutting blade 10 set by the cutting height adjusting mechanism 90 in advance.

As described above, the lower edge (front end or the rear end) of the lower edge of the cutting edge 10 or the lower side of the lower edge of the cutting edge 10 is mowed by pulling the grass by inclining the blade 10 in the forward downward direction or the rear downward slope. It becomes a close position, and the gap between the mowing blade 10 and the grass (ground surface) which passes through the lower side of the mowing blade 10 gradually widens from the position toward the reverse direction to a traveling direction. As a result, the contact area between the lower surface side of the mowing blade 10 and the grass (ground surface) passing through the lower side of the mowing blade 10 becomes smaller, and thus, from the mowed grass (ground) acting on the lower surface side of the mowing blade 10. The resistance becomes small, and the load acting on the cutting blade 10 at the time of mowing the grass can be reduced.

As a result, for example, compared with the case where the mowing blade 10 is configured to mow the grass in a state substantially horizontal to the ground, the power (power mowing the mowing grass) for rotating the mowing blade 10 is reduced, so that the engine 8 ) Can be realized (for example, the engine can be set with a small horsepower while securing the ability to mow the grass), and the compact and light weight of the walking lawnmower can be realized.

[First separate form of implementation of the invention]

In the above-described embodiment, the drive shaft 7a and the swing support shaft 7b extending from the transmission case 7 of the traveling body 1 are supported by the shaft center P1 in the left-right direction so as to be swingable, and the cutting blade ( 10 shows an example in which the inclination posture changing mechanism is configured to change the posture in the forward downward inclination posture and the rear downward inclination posture, but if the cutting blade 10 is supported by the traveling body 1 so as to be able to swing in the left and right axial directions, You may employ | adopt another structure.

Specifically, you may employ | adopt the structure (not shown) which supports the cutting blade 10 so that it can oscillate in a left-right axial direction, for example in the lower part of the transmission case 7, The engine 8 and the transmission case 7 may be employ | adopted. Apart from this, a configuration (not shown) for supporting the cutting blade 10 so as to be able to swing in the left and right axial directions on the machine body frame 2 may be adopted.

[Second form of implementation of the invention]

In the above-described embodiment, an example in which the power from the drive shaft 7a is transmitted to the front wheels 5 and the rear wheels 6 through the chain transmission mechanism 9 is shown. The power may be transmitted to the front wheels 5 and the rear wheels 6 via other transmission mechanisms. For example, a belt transmission mechanism (not shown) such as a V belt or a timing belt may be employed, or a drive shaft ( Not shown) may be employed.

In the above-described embodiment, an example in which the cutting height adjusting mechanism 90 is configured by linking the linkage rod 93 across the bracket 91 and the bracket 92 is shown. A mechanism may be employed, and for example, a mowing height is provided on the machine body frame 2 side so as to provide a restrictor (not shown) that regulates an upper limit of the swing range of the swinging engine 8 or the transmission case 7. You may comprise the adjustment mechanism 90.

In the above-described embodiment, the example in which the cutting height adjusting mechanism 90 is configured to change and adjust the cutting height by the cutting blade 10 in three stages is illustrated. For example, the mowing height adjusting mechanism 90 may be configured to be changed and adjusted in as few steps as in step 2 or as many steps as in step 4, step 5, and the like. In addition, the cutting height adjusting mechanism 90 may be configured so that the cutting height by the cutting blade 10 may be changed steplessly, and thus the cutting height by the cutting blade 10 may be configured. Fine adjustment can be performed and the workability of a mowing operation can be improved further.

Specifically, for example, on the side of the machine body frame 2 which does not rock, a restrictor (not shown) for regulating the upper limit of the swing range of the engine 8 or the transmission case 7 that swings is provided, The mowing height adjusting mechanism 90 is configured so that the upper limit of the swing range of the engine 8 or the transmission case 7 is regulated steplessly by adjusting the regulating tool.

[Third separate form of implementation of the invention]

Instead of the cutting blade 10 in the above-mentioned embodiment, you may employ | adopt a bar blade (not shown).

In the above-mentioned embodiment, although the front wheel 5 and the rear wheel 6 were employ | adopted as the traveling device, the three-wheel traveling specification which arrange | positioned three wheels instead of the front wheel 5 and the rear wheel 6 was shown. (Not shown) or a crawler traveling device (not shown) may be employed.

In the above-described embodiment, an example in which the front wheels 5 and the rear wheels 6 are configured to be driven by the power from the engine 8 is shown. However, the front wheels 5 or the rear wheels 6 are moved by an idle wheel. ), The walk type mower may be configured such that the front wheel 5 or the rear wheel 6 is driven by the power from the engine 8.

In the above-mentioned embodiment, although the lawnmower which employ | adopted the engine 8 as the prime mover E was shown as the example, a different structure may be employ | adopted as the prime mover E, for example, instead of the engine 8, a battery Or an electric motor (not shown) driven by electric power such as a commercial power source.

In the above-described embodiment, an example in which the driving unit E is formed by interlocking the engine 8 to the upper portion of the transmission case 7 is shown. However, the circle in which the transmission case 7 and the engine 8 are integrally formed Eastern part E (not shown) may be employ | adopted. In addition, you may abbreviate | omit the transmission case 7 and may comprise the prime mover E only by the engine 8 (not shown). In this case, the drive shaft and the swing support shaft in the left and right directions from the engine 8 to the traveling device (wheels and the like) are extended, and the transmission shaft in the downward direction from the lower part of the engine 8 to the cutting blade 10 is extended, and the engine 8 Is rotatably supported by the machine body frame 2 in the left and right axial directions (not shown).

[Fourth separate form of implementation of invention]

In the above-described embodiment, an example in which the cutting height adjusting mechanism 90 is configured by linking the linking rod 93 over the bracket 91 and the bracket 92 is shown. Different mechanisms may be employed, for example, on the machine body frame 2 side, mowing so as to provide a restrictor (not shown) for regulating the upper limit of the swing range of the swinging engine 8 or the transmission case 7. You may comprise the height adjustment mechanism 90.

In the above-described embodiment, the example in which the cutting height adjusting mechanism 90 is configured to change and adjust the cutting height by the cutting blade 10 in three stages is illustrated. For example, the mowing height adjusting mechanism 90 may be configured to be changed and adjusted in as few steps as in step 2 or as many steps as in step 4, step 5, and the like.

In addition, the cutting height adjusting mechanism 90 may be configured so that the cutting height by the cutting blade 10 may be changed steplessly, and thus the cutting height by the cutting blade 10 may be configured. Fine adjustment can be performed and the workability of a mowing operation can be improved further.

Specifically, for example, on the side of the machine body frame 2 which does not rock, a restrictor (not shown) for regulating the upper limit of the swing range of the engine 8 or the transmission case 7 that swings is provided, The mowing height adjusting mechanism 90 is configured so that the upper limit of the swing range of the engine 8 or the transmission case 7 is regulated steplessly by adjusting the regulating tool.

[The fifth separate form of implementation of the invention]

In the above-mentioned embodiment, when the engine 8 is driven, the forward and backward switching lever 26 is switched to the forward side or the reverse side, and the traveling body 1 is moved forward or backward, the cutting height adjustment mechanism 90 Although the walk type mower was configured to automatically swing the cutting blade 10 at the set cutting height, the traveling body 1 was moved to the front and rear directions of the electric case 7, the engine 8, and the cutting blade 10. By pivotally supporting the cutting blade 10 at an angle set by the cutting height adjusting mechanism 90 (for example, fixing the linkage rod 93 to a plurality of points of the bracket 91). Regardless of advancing or reversing the traveling body 1, the walk type lawnmower may be configured to display the forward descending inclination posture (or rear descending inclination posture) in which the cutting blade 10 is oscillated at a predetermined cutting height. .

[6th separate form of implementation of the invention]

In the above-mentioned embodiment, although the walk-type mowing machine was comprised so that forward and backward movement was possible, the cutting height adjusting mechanism 90 was shown so that the front lowering inclination angle and the rear lowering inclination angle of the cutting blade 10 could be changed and adjusted. The mowing height adjusting mechanism 90 may be configured so that the walking mowing machine may be configured to be forward only (reverse only) or to change and adjust only the forward lowering inclination angle (only the rear lowering inclination angle) of the cutting blade 10. . Moreover, you may comprise the mowing height adjustment mechanism 90 so that a mowing height may differ in the case of advancing and backward.

1 is an entire left side view of a walking lawnmower;

2 is an overall plan view of a walk behind lawnmower;

3 is a longitudinal left side view of the traveling body;

4 is a cross-sectional plan view of the traveling gas.

5 is a longitudinal rear view of the traveling body;

6 is a longitudinal rear view illustrating the support structure of the front wheel and the rear wheel;

7 is a longitudinal side view illustrating the structure of the movable shatterproof cover.

8 is a cross-sectional plan view illustrating the structure of a cutting blade;

9 is an electric system diagram of a walking lawnmower.

Fig. 10 is a longitudinal rear view showing the transmission structure of the walk behind lawnmower;

Fig. 11 is a cross sectional plan view showing a transmission structure of a walking lawnmower;

12 is a perspective view of a mowing blade clutch;

Fig. 13 is a schematic right side view illustrating the inclination situation of the cutting blade in the case of advancing;

Fig. 14 is a schematic right side view illustrating the inclination situation of the cutting blade in the case of reversing;

<Explanation of symbols for the main parts of the drawings>

1: Travel gas

5: front wheel (driving device)

6: rear wheel (driving device)

7a: drive shaft

7b: rocking support shaft

10: cutting day

90: mowing height adjusting mechanism (inclination angle adjusting mechanism)

E: motor

P1: shaft center (left and right shaft center)

P2: shaft center (up and down shaft)

α: forward descending inclination angle, rear descending inclination angle

Claims (5)

In the walking type mower having the traveling body 1 and the traveling device 1 and the traveling device and the cutting blade 10 which are rotated by the power from the moving device E, The mowing blade 10 is rotatably supported in the traveling body 1 in the direction of the vertical axis P2, and swingably supported in the direction of the left and right axis P1, When the traveling body 1 is moved forward, the posture of the cutting blade 10 is changed to a forward lowering inclination posture that is swinged downward. A walking type mower having an inclined posture changing mechanism that is changed in posture to a rearward inclined posture that is oscillated by a. The method according to claim 1, wherein the cutting blade 10 is rotatably supported in the lower portion of the driving portion E in the direction of the vertical axis P2. A walking type lawn mower configured to support the driving unit (E) to the traveling body (1) so as to be able to swing in a left and right axial center (P1) direction so as to constitute the inclined attitude changing mechanism. 3. The driving unit according to claim 2, wherein the driving shaft 7a and the oscillation support shaft 7b having a concentric shape are extended from the left and right sides of the driving unit E in the left and right direction, and the driving unit is formed through the driving shaft 7a. Transmit power from (E) to the traveling device, A walking type lawn mower comprising the drive shaft (7a) and the swing support shaft rotatably supported by the traveling body (7b) in the direction of the left and right shaft center (P1). The inclination angle according to any one of claims 1 to 3, wherein the inclination angle of the forward lowering inclination angle of the cutting blade 10 in the forward lowering inclination posture or the rear lowering inclination angle of the cutting blade in the rear lowering inclination posture can be changed and adjusted. A walk-type mower having an adjusting mechanism 90. In the walking type mower, which is provided with the driving unit 1 in the traveling body 1 and rotatably connecting the cutting blade 10 in the direction of the vertical axis P2 to the lower part of the driving unit E, At the same time, the driving unit E is supported on the traveling body 1 in the direction of the left and right axial center P2 such that the front side of the cutting blade 10 is in a forward lowering inclination posture swinged downward. By changing the posture of the prime mover E and the harvesting blade 10 in the direction of the left and right axial center P1, the forward lowering inclination angle of the harvesting blade 10 in the forward descending inclination posture can be changed. Walk-type mowers.

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