JP2022166294A - Cutting blade holder and mowing machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce weight of a cutting blade holder.

SOLUTION: A cutting blade holder has a cutting blade for cutting grass attached thereto. The cutting blade holder comprises a holder body that is composed of a plate material in a round shape. The holder body comprises, at a radial outer end of the holder body, an annular reinforcement rib that is formed continuously along the entire periphery of the holder body in the circumferential direction by bending upward the edge of the holder body.

SELECTED DRAWING: Figure 5

COPYRIGHT: (C)2023,JPO&INPIT

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cutting blade holder and a mower to which a cutting blade for cutting grass is attached.

Conventionally, a cutting blade holder disclosed in Patent Document 1 is known.

The cutting blade holder disclosed in Patent Document 1 is formed of a plate material and has a holder main body that rotates around a vertical axis. The cutting blade is attached to the outer peripheral side of the holder body.

JP 2013-179844 A

By the way, if a stone or the like strikes the cutting blade while the cutting blade holder is being rotated, the cutting blade holder will receive an impact. The impact acting on the cutting blade holder is propagated to the cutting blade drive shaft that drives the cutting blade holder. If the cutting blade holder is heavy, there is a problem that the load applied from the cutting blade holder to the cutting blade drive shaft is large.

SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to reduce the weight of a cutting blade holder.

A cutting blade holder according to one aspect of the present invention is a cutting blade holder to which a cutting blade for cutting grass is attached, comprising a holder body formed of a plate material in a circular shape, and the holder body has a diameter of the holder body. An annular reinforcing rib is formed continuously over the entire circumference of the holder main body in the circumferential direction by bending the edge of the holder main body upward.

The cutting blade holder is a mounting plate to which the cutting blade is mounted, and the outer circumference of the holder main body is mounted so that the radially outer surface of the mounting plate faces the inner circumferential surface of the annular reinforcing rib. A mounting plate may be provided on the side and fixed to the upper surface of the holder body.

The holder main body has a ridge portion formed so as to protrude upward by recessing the holder main body from the lower surface, and the ridge portion extends along the radial direction on the outer peripheral side of the holder main body. and adjacent to the mounting plate in the circumferential direction.

The ridges may be provided on both sides of the mounting plate in the circumferential direction.

A pair of the mounting plate and the ridges provided on both sides of the mounting plate in the circumferential direction are provided at symmetrical positions in the radial direction with respect to the center of the holder body, sandwiching the mounting plate. The circumferential interval between the ridges adjacent in the circumferential direction is configured to be narrower than the circumferential interval between the ridges adjacent in the circumferential direction without interposing the mounting plate. good too.

A plate thickness between the upper surface and the lower surface of the mounting plate may be thicker than the plate thickness of the holder main body and substantially the same as the height of the reinforcing rib.

The holder body has an inner peripheral portion attached to a cutting blade drive shaft that rotates the holder body around its center, and an outer peripheral portion located at a position lower than the inner peripheral portion. and an intermediate portion connecting the inner peripheral portion and the outer peripheral portion, the intermediate portion being inclined downward toward the radially outward direction, wherein the annular reinforcing rib is , the mounting plate may be provided at the radially outer end of the outer peripheral portion, and the mounting plate may be fixed in the vicinity of the inner peripheral surface of the annular reinforcing rib on the upper surface of the outer peripheral portion.

The cutting-blade holder includes a blade plate erected on the holder body with a plate surface facing the circumferential direction, and the blade plate has the annular reinforcement at the outer end portion in the radial direction of the blade plate. It may be provided from the radially outer end side of the inner peripheral portion to the radially outer end portion of the outer peripheral portion so as to be located radially inward of the inner peripheral surface of the rib. good.

A lawn mower according to an aspect of the present invention includes the cutting blade holder.

According to the above cutting blade holder, the strength of the holder body can be improved. As a result, the thickness of the holder body can be reduced, and the weight of the cutting blade holder can be reduced.

1 is a schematic side view showing the overall configuration of a lawn mower; FIG. It is a schematic plan view of the main body portion of the mower. It is a side cross-sectional view of the mower. It is a plane sectional view of a body frame. FIG. 4B is a cross-sectional view taken along line Z1-Z1 in FIG. 4A. Fig. 3 is a plan view of the cutting-blade holder; FIG. 6 is a cross-sectional view taken along line Z2-Z2 of FIG. 5; It is a top view of a reinforcement plate. 6 is a cross-sectional view taken along line Z4-Z4 in FIG. 5; FIG. 6 is a cross-sectional view taken along line Z5-Z5 of FIG. 5; FIG. Fig. 4 is an enlarged plan view of a cutting blade mounting portion; Fig. 4 is a cross-sectional view of a cutting blade mounting portion; FIG. 6 is a cross-sectional view taken along line Z6-Z6 of FIG. 5; FIG. 4 is a cross-sectional view showing a part of the mud adhesion reducing member; FIG. 4 is a cross-sectional view showing another example of the mud adhesion reducing member; It is a cross-sectional view showing how mud adheres according to the prior art and the present application. FIG. 4 is a cross-sectional view showing another example of an adhesion suppressing portion; FIG. 11 is a cross-sectional view showing still another example of the adhesion suppressing portion; Fig. 10 is a plan view of a cutting blade holder according to another embodiment; FIG. 19 is a cross-sectional view taken along line Z7-Z7 of FIG. 18;

An embodiment of the present invention will be described below with appropriate reference to the drawings.

FIG. 1 is a schematic side view showing the overall configuration of a mower 1 according to this embodiment. FIG. 2 is a schematic plan view showing the main body portion of the mower 1. As shown in FIG. In this embodiment, a walk-behind mower is exemplified as the mower 1 . The lawn mower 1 may be a riding type lawn mower or a type of lawn mower mounted on a traveling vehicle such as a tractor. A lawn mower that cuts grass on the ground may be used.

In the embodiment of the present invention, the direction indicated by arrow A1 in FIGS. 1 and 2 is the front, the direction opposite to the front (the direction of arrow A2 in FIGS. 1 and 2) is the rear, and the direction of arrow B1 in FIG. 2 is the left. The direction opposite to the left direction (the direction of arrow B2 in FIGS. 1 and 2) is defined as the right direction. Also, the horizontal direction perpendicular to the front-rear direction K1 will be described as the body width direction K2. Also, the direction from the central portion of the lawn mower 1 to the right or left in the width direction K2 of the machine body will be described as the outer side in the width direction of the machine body. In other words, the outer side in the width direction of the machine body is the direction away from the center of the mower 1 in the width direction K2 of the machine body. The direction opposite to the outer side in the width direction of the machine body will be described as the inner side in the width direction of the machine body. In other words, the inner side in the width direction of the machine body is the direction in the width direction K2 of the machine body and the direction toward the center of the lawn mower 1 in the width direction.

As shown in FIGS. 1 and 2 , the mower 1 has a body 2 . The body 2 is supported by a travel device 3 so as to be able to travel. The travel device 3 has a plurality of wheels 4 and 5 . The plurality of wheels includes a plurality of first wheels 4 (first wheel 4L, first wheel 4R) arranged on one side of the body 2 in the longitudinal direction K1 and both sides in the body width direction K2, and A plurality of second wheels 5 (second wheel 5L, second wheel 5R) arranged on both sides in the body width direction K2 on the other side of K1. In this embodiment, the first wheel 4L is arranged on the left side of the front part of the machine body 2, the first wheel 4R is arranged on the right side of the front part of the machine body 2, and the second wheel 5L is arranged on the front part of the machine body 2. It is arranged on the left side of the rear part, and the second wheel 5R is arranged on the right side of the rear part of the body 2 . The first wheels 4L, 4R may be provided at the rear portion of the body 2, and the second wheels 5L, 5R may be provided at the front portion of the body 2.

The aircraft 2 is equipped with a mission case M1. An engine (prime mover) E1 is mounted on the top of the mission case M1. A fuel tank T1 that stores fuel for the engine E1 is arranged on the side (right side) of the engine E1.

As shown in FIG. 1, below the machine body 2, a mowing section 7 having a cutting blade 6 that rotates to cut grass is provided.

As shown in FIGS. 1 and 2, a side portion (left portion) of the body 2 is provided with a handle mounting portion 8 . One end of a steering handle 9 is attached to the handle mounting portion 8 . The steering handle 9 includes a length-adjustable handle rod 10, a handle attachment portion 11 provided at one end of the handle rod 10 and attached to the handle attachment portion 8, and the other end of the handle rod 10 (the steering handle 9). and a handle grip 12 which is provided on the other end of (the other end side of) and gripped by the operator. The handle attachment portion 11 is attached to the handle attachment portion 8 such that its position can be changed around the vertical axis (the axis extending in the vertical direction). Also, the handle rod 10 is attached to the handle attachment portion 11 so that its posture can be changed around a horizontal axis (an axis extending in the horizontal direction).

As shown in FIG. 3 , the body 2 has a body frame 21 that covers the mowing section 7 above. As shown in FIGS. 3, 4A, and 4B, the body frame 21 includes an upper wall portion 21a, one side wall 21b extending downward from one side portion (left side portion) of the upper wall portion 21a in the body width direction K2, The other side wall 21c extending downward from the other side (right side) of the upper wall portion 21a in the machine width direction K2, the front wall portion 21d extending downward from the front end portion of the upper wall portion 21a, and the rear end of the upper wall portion 21a. and a rear wall portion 21e extending downward from the portion.

As shown in FIGS. 1 and 4A, bumpers 22 formed by bending round bars are fixed to the front and rear parts of the body frame 21 . As shown in FIG. 3, a cover 23 made of a rubber plate is attached to the front wall portion 21d and the rear wall portion 21e so as to hang down. As shown in FIG. 4A , on both sides of the mower 7 in the width direction K2 of the machine body, covers 20 formed by bending sheet metal are arranged. The cover 20 is attached to the body frame 21 .

As shown in FIG. 4A , the first wheel 4L is arranged on the left side of the front portion of the body frame 21 , and the first wheel 4R is arranged on the right side of the front portion of the body frame 21 . A first axle 24 connecting the first wheel 4L and the first wheel 4R is arranged extending in the width direction 24 of the machine body below the front part of the machine body frame 21 . A second wheel 5L is arranged on the left side of the rear portion of the body frame 21 , and a second wheel 5R is arranged on the right side of the rear portion of the body frame 21 . A second axle 25 connecting the second wheel 5L and the second wheel 5R is arranged extending in the body width direction 24 below the rear portion of the body frame 21 . The first axle 24 and the second axle 25 are rotatably supported by an axle case (not shown) attached to the body 2 .

As shown in FIG. 4A, a transmission case 26 is provided on the side (right side) of the body frame 21 (grass cutting section 7). The transmission case 26 is provided from the front portion to the rear portion of the body frame 21 . In other words, the transmission case 26 is provided from the first wheel 4R to the second wheel 5R. As shown in FIG. 3, the transmission case 26 is formed such that the central portion in the front-rear direction K1 is higher than the front and rear portions. A power transmission mechanism that transmits power from the engine E1 to the first axle 24 and the second axle 25 is housed in the transmission case 26 . The power transmission path from the engine E1 to the transmission case 26 includes a power transmission mechanism in the transmission case 26 that converts the power from the engine E1 into a forward transmission state for moving the machine body 2 forward or a reverse transmission state for moving the machine body 2 backward. A forward/rearward movement switching mechanism is provided to transmit to. That is, the body 2 can move forward and backward.

As shown in FIG. 3, the transmission case M1 is provided with a shaft support 27 that supports a cutting blade drive shaft 28 rotatably around a vertical axis (an axis extending vertically) 29 . As shown in FIG. 4A, the cutting blade drive shaft 28 is arranged at the center of the body frame 21 in the longitudinal direction K1 and the center of the body frame 21 in the body width direction 24. As shown in FIG. Power from the engine E1 is intermittently transmitted to the cutting blade drive shaft 28 via a cutting blade clutch.

As shown in FIG. 3, a holder mounting body 30 is fitted to the lower portion of the cutting blade drive shaft 28 by spline connection or the like so as to be integrally rotatable. The holder mounting body 30 is retained from the cutting blade drive shaft 28 by a retainer nut 31 . A plurality of (four in this embodiment) holder attachment portions 32 are provided at the lower portion of the holder attachment body 30 . The plurality of holder mounting portions 32 are arranged at regular intervals in the circumferential direction around the axis (rotational axis) 29 of the cutting blade drive shaft 28 .

As shown in FIG. 3 , the mower 7 is arranged below the body frame 21 . As shown in FIG. 4A, the rotation locus R1 of the tip of the cutting blade 6 is formed to be larger than the width of the body frame 21 in the body width direction K2.

As shown in FIG. 3, the mowing section 7 has a cutting blade holder 33 to which the cutting blade 6 is attached. The cutting blade holder 33 has a holder body 34 .

As shown in FIG. 5, the holder main body 34 is formed of a plate material into a circular shape centered on the rotation axis (vertical axis) 29 . Therefore, the circumferential direction Y1 of the holder body 34 coincides with the circumferential direction around the rotation axis 29, and the radial direction Y2 of the holder body 34 coincides with the direction perpendicular to the rotation axis (vertical axis) 29. FIG.

As shown in FIGS. 5 and 6, the holder body 34 has an inner peripheral portion 35 on the inner peripheral side, an outer peripheral portion 36 on the outer peripheral side, and an intermediate portion 37 connecting the inner peripheral portion 35 and the outer peripheral portion 36. have. A hole 38 is formed in the center of the inner peripheral portion 35 to avoid interference with the retainer nut 31 . The inner peripheral portion 35 has four bolt insertion holes 39 formed at regular intervals in the circumferential direction Y1.

The holder main body 34 has a plurality of reinforcing portions 40 formed from the inner peripheral portion 35 to the intermediate portion 37 . A plurality of reinforcing portions 40 are formed by recessing the holder main body 34 . Specifically, the plurality of reinforcing portions 40 are formed by drawing so as to be recessed downward. The plurality of reinforcing portions 40 are formed so as to extend in the radial direction Y2 (long in the radial direction Y2), and are formed at equal intervals in the circumferential direction Y1. Each reinforcing portion 40 is formed between blade plates 63 to be described later. Specifically, as shown in FIG. 5, the four reinforcing portions 40 are provided one by one between the blade plates 63 adjacent to each other in the circumferential direction Y1 of the four blade plates 63 . An outer end portion of each reinforcing portion 40 in the radial direction Y<b>2 is positioned near a connecting portion 49 between the outer peripheral portion 36 and the intermediate portion 37 . A disk-shaped reinforcing plate 41 is fixed to the lower surface of the inner peripheral portion 35 .

As shown in FIG. 7 , a hole 42 is also formed in the central portion of the reinforcing plate 41 to avoid interference with the retainer nut 31 . The reinforcing plate 41 has four bolt insertion holes 43 formed at regular intervals in the circumferential direction Y1. The cutting blade holder 33 and the reinforcing plate 41 are attached to the holder attachment body 30 by bolts passing through the bolt insertion holes 39 and 43 and penetrating the holder attachment portion 32 and nuts screwed onto the bolts. Therefore, the cutting blade holder 33 and the cutting blade 6 rotate about the rotation axis 29 as the cutting blade drive shaft 28 rotates. In the mower 1 of the present embodiment, as shown in FIG. 4A, the cutting blade holder 33 and the cutting blade 6 (mowing portion 7) rotate counterclockwise as indicated by an arrow X1 in plan view.

As shown in FIGS. 6 and 7 , the reinforcement plate 41 is formed with a plurality of notch portions 44 for avoiding interference with the reinforcement portion 40 .

As shown in FIG. 6 , the outer peripheral portion 36 is positioned lower than the inner peripheral portion 35 . A reinforcing rib 45 is formed at the outer peripheral end of the outer peripheral portion 36 by bending the edge portion. The reinforcing rib 45 is formed continuously over the entire circumference of the holder main body 34 in the circumferential direction Y1.

The intermediate portion 37 is formed in a sloping shape that shifts downward toward the outside in the radial direction Y2 of the holder main body 34, and has a truncated cone shape.

As shown in FIGS. 5 and 6, the cutting blade holder 33 has a drawn portion 46 formed in the holder body 34 by drawing. The narrowed portion 46 includes a first narrowed portion 47 extending in the circumferential direction Y1 and a plurality of second narrowed portions 48 intersecting the first narrowed portion 47 . As shown in FIGS. 6, 8, and 9, the first diaphragm 47 and the second diaphragm 48 are formed as ridges protruding upward.

As shown in FIG. 5, in this embodiment, the first diaphragm 47 is formed on the outer peripheral portion 36 and is formed in a continuous annular shape over the entire circumference of the holder main body 34 in the circumferential direction Y1. The first diaphragm 47 is formed closer to the inner periphery than the central portion of the outer peripheral portion 36 in the radial direction Y2. Note that the first diaphragm 47 may be formed in an intermittent annular shape. Also, the first diaphragm 47 does not have to be annular.

As shown in FIG. 5, the plurality of second diaphragms 48 are formed in the radial direction Y2 of the holder body 34. As shown in FIG. The second throttle 48 extends from a connecting portion 49 between the outer peripheral portion 36 and the intermediate portion 37 toward the outer peripheral end of the outer peripheral portion 36 . A portion 48a of the second diaphragm 48 on the outer peripheral side from the first diaphragm 47 is formed longer than a portion 48b on the inner peripheral side of the first diaphragm 47, and is close to the outer peripheral end (reinforcing rib 45) of the holder main body 34. ing.

At least one second diaphragm 48 is sufficient, but in this embodiment, four second diaphragms 48A to 48D are formed. The distance in the circumferential direction Y1 between the second diaphragm 48A and the second diaphragm 48B and the distance in the circumferential direction Y1 between the second diaphragm 48C and the second diaphragm 48D are It is formed narrower than the interval and the interval in the circumferential direction Y1 between the second diaphragm 48B and the second diaphragm 48D.

Forming the diaphragm portion 46 including the first diaphragm 47 and the second diaphragm 48 in the holder body 34 can improve the strength of the holder body 34 . As a result, the plate thickness of the holder main body 34 can be made thinner than before, and the weight of the cutting blade holder 33 can be reduced.

As shown in FIG. 5, the cutting blade holder 33 has a plurality of cutting blade mounting portions 51 to which the cutting blades 6 are mounted. In this embodiment, the cutting blade holder 33 has two cutting blade mounting portions 51 provided at symmetrical positions in the radial direction Y2. The cutting blade 6 is attached to each cutting blade attachment portion 51 . Each cutting blade mounting portion 51 is provided on the outer peripheral portion 36 . Specifically, each cutting blade mounting portion 51 is arranged on the outer peripheral side of the first diaphragm 47 and on the inner peripheral side of the reinforcing rib 45 . One cutting blade mounting portion 51 is provided between the second diaphragm 48A and the second diaphragm 48B. The other cutting blade mounting portion 51 is provided between the second diaphragm 48C and the second diaphragm 48D. In other words, the second diaphragms 48 are formed on both sides of the cutting blade mounting portion 51 in the circumferential direction Y1.

Note that the number of the cutting blade mounting portions 51 may be one. Also, the number of cutting blade mounting portions 51 may be three or more.

As shown in FIGS. 5 and 6 , each cutting blade mounting portion 51 has a mounting plate 52 that is thicker than the holder body 34 . In this embodiment, the mounting plate 52 is formed to have a plate thickness approximately four times as large as the plate thickness of the holder body 34 . Also, the plate thickness of the mounting plate 52 is substantially the same as the height of the reinforcing ribs 45 .

As shown in FIG. 10, the mounting plate 52 is superimposed on the upper surface of the holder body 34 and fixed to the holder body 34 at a plurality of locations by welding. In other words, the cutting blade mounting portion 51 has a plurality of welding portions 53 for fixing the mounting plate 52 to the holder body 34 by welding. The plurality of welded portions 53 includes a welded portion 53A that welds the mounting plate 52 and the first throttle 47 together, a welded portion 53B that welds the circumferential direction Y1 side surface of the mounting plate 52 to the upper surface of the holder main body 34, and an attachment It includes a weld portion 53C that welds plate 52 and reinforcing rib 45 together. The strength of the cutting blade mounting portion 51 can be improved by overlaying the mounting plate 52 made of a thick plate material on the holder main body 34 and fixing it by welding. Specifically, for example, the strength against impact when the cutting blade mounting portion 51 is pushed up from below by a stone or the like is improved.

As shown in FIG. 11 , two cutting blades 6 (cutting blade 6A, cutting blade 6B) are vertically mounted on each cutting blade mounting portion 51 . The base 6a of the upper cutting blade 6A is overlaid on the mounting plate 52, and the base 6b of the lower cutting blade 6B is overlaid on the lower surface of the holder body 34. As shown in FIG. The cutting blade 6 is attached to the cutting blade attachment portion 51 by means of a bolt 54 penetrating the mounting plate 52 , the holder body 34 and the cutting blade 6 and a nut 55 screwed onto the bolt 54 . The cutting blade 6A and the cutting blade 6B are attached rotatably around the axis of the bolt 54. As shown in FIG. By attaching the cutting blade 6 with the bolt 54 and the nut 55, the cutting blade 6 can be easily attached and detached, thereby improving maintainability.

Here, the mounting structure of the cutting blade 6 to the cutting blade mounting portion 51 will be described in detail. As shown in FIG. 10, the through-hole 56 of the bolt 54 formed in the mounting plate 52 is formed in an oval shape (an oval shape in which two opposing flat surfaces are connected by an arc surface). As shown in FIG. 11, the insertion hole 58 for the bolt 54 of the washer 57 superimposed on the upper cutting blade 6A is also formed in an oval shape. A through hole 60 for the bolt 54 of the backing plate 59 superimposed on the washer 57 is formed in a circular hole. Insertion hole 61 for bolt 54 of holder body 34 and cutting blade 6
Insertion holes 62 for the bolts 54 formed in the bases 6a and 6b of A and 6B are circular holes. The bolt 54 has a head portion 54A, a shaft portion 54B, and a male screw portion 54C. The head 54A is in contact with the lower surface of the lower cutting blade 6B. The shaft portion 54B protrudes upward from the head portion 54A and passes through the lower cutting blade 6B, the holder main body 34, the mounting plate 52, the upper cutting blade 6A and the washer 57. As shown in FIG. A portion of the shaft portion 54B that is inserted through the insertion hole 61 and the insertion hole 62 is formed in a cylindrical shape. A portion of the shaft portion 54B that is inserted through the insertion hole 56, the insertion hole 62, and the insertion hole 58 is formed to have an oval cross-sectional shape (oval shape) that matches the insertion hole 56 and the insertion hole 58. As shown in FIG. Thereby, the bolt 54 is prevented from rotating with respect to the mounting plate 52 . The contact plate 59 is fitted on the male screw portion 54C and abuts on the upper end of the shaft portion 54B. The nut 55 is screwed onto the male screw portion 54C above the backing plate 59 .

As shown in FIG. 5, the cutting blade holder 33 has a plurality of blades 63 erected on the holder body 34 such that the plate surfaces face the circumferential direction Y1. In this embodiment, four blade plates 63 are provided. The blade plate 63 pushes the grass cut by the cutting blade 6 outward in the radial direction Y2 as the cutting blade holder 33 rotates. Each blade plate 63 is provided from the outer end portion of the inner peripheral portion 35 in the radial direction Y2 to the outer end portion of the outer peripheral portion 36 in the radial direction Y2. The interval between the blade plates 63 adjacent in the circumferential direction Y1 is such that the interval between the blade plates 63 sandwiching the second diaphragm 48 and the mounting plate 52 is wider than the interval between the blade plates 63 not sandwiching the second diaphragm 48 and the mounting plate 52. It is

As shown in FIG. 12, the blade plate 63 includes a first portion 63A on the inner side in the radial direction Y2 and a second portion 63C provided on the outer side in the radial direction Y2 from the first portion 63A with an interval therebetween. and a third portion 63B connecting the first portion 63A and the second portion 63C. The first portion 63A is arranged above the holder main body 34 . The inner side of the holder main body 34 in the radial direction Y2 at the first portion 63A is bent. The third portion 63B extends from the lower portion of the first portion 63A along the intermediate portion 37 and is fixed onto the intermediate portion 37. As shown in FIG. The second portion 63</b>C extends from the third portion 63</b>B outward in the radial direction Y<b>2 of the holder body 34 and is fixed on the outer peripheral portion 36 . The second portion 63C is provided from the inner end portion of the outer peripheral portion 36 in the radial direction Y2 to the outer end portion thereof in the radial direction Y2. The outer side of the holder main body 34 in the radial direction Y2 at the second portion 63C is bent.

As shown in FIG. 12 , the plate width W1 in the vertical direction of the second portion 63C is formed narrower than the vertical separation distance D1 between the inner peripheral portion 35 and the outer peripheral portion 36 . When the cutting blade 6 rotates the cutting blade holder 33 and cuts grass with the cutting blade 6, the second portion 63C may hit a stone or the like. It is possible to prevent a stone or the like from hitting the 63C and prevent the second portion 63C from being deformed.

By the way, while the cutting blade holder 33 and the cutting blade 6 are rotating and the mowing operation is being performed by the mowing section 7, the mowing blade 6 throws away mud. If it adheres to the surrounding wall, the machine body 2 becomes heavy and the operability deteriorates. Therefore, in the present embodiment, as shown in FIG. 1, a mud adhesion reducing member 71 for reducing the adhesion of mud thrown from the mowing section 7 is provided in a portion of the machine body 2 to which mud tends to adhere. Note that the portion where the mud adhesion reducing member 71 is provided is not limited to the portion shown in this embodiment. In other words, the mud adhesion reducing member 71 may be provided anywhere as long as the mud thrown from the mowing section 7 adheres. Further, the mower 1 provided with the mud adhesion reducing member 71 is not limited to the mower 1 of the present embodiment, and may be applied to the mower 1 provided with the mowing portion 7 having the rotating cutting blade 6 . can be done.

An example of a portion to which mud thrown from the cutting blade 6 is likely to adhere is a wall portion located on the side of the rotational locus R1 of the distal end portion of the cutting blade 6 from the center in the width direction of the machine body toward the rotation direction X1. This is because this portion is a portion where a large amount of mud is thrown from the mowing section 7 . In addition, the walls of the wheels 4 and 5 positioned inward in the machine body width direction and the wall parts of the transmission case 26 positioned inward in the machine body width direction are conceivable as places where mud tends to adhere. This is because the wheels 4 and 5 and the transmission case 26 act as walls to block the discharge of grass and mud, and mud tends to adhere to these areas.

In the mower 1 of the present embodiment, the mud adhesion reducing member 71 is provided on the back surface (inner surface) of the front side wall portion 21b1 of one side wall 21b of the body frame 21 and the rear side wall portion 21c1 of the other side wall 21c. there is Note that the mud adhesion reducing member 71 may be provided on the wall portion 21b2 on the rear side of one side wall 21b of the body frame 21, the wall portion 21c2 on the front side of the other side wall 21c, the front wall portion 21d, or the rear wall portion 21e. . Also, the mud adhesion reducing member 71 may be provided on the cover 20 or the cover 23 .

Next, the structure of the mud adhesion reducing member 71 will be described.

As shown in FIG. 13, the mud adhesion reducing member 71 includes a base 72 attached to the walls 21b1 and 21c1, and an adhesion suppressing portion 73 in which a plurality of flexible fine projections 73a protruding from the base 72 are densely packed. I have.

The substrate 72 has a first substrate 74 , a second substrate 75 and an adhesive structure 76 . The first base material 74 is formed in a sheet shape and attached to the wall portions 21b1 and 21c1 by bonding with an adhesive. The second base material 75 is formed in a sheet shape having substantially the same shape as the first base material 74 and faces the first base material 74 . The bonding structure 76 is a structure that detachably bonds the second base material 75 to the first base material 74 . In this embodiment, the bonding structure portion 76 is a structure having a surface fastener structure. Specifically, the bonding structure portion 76 includes a first engaging portion 77 in which a large number of minute first engaging projections 77a are densely provided on the surface opposite to the bonding surface of the first base material 74, The second base member 75 has a second engaging portion 78 in which a large number of minute second engaging projections 78a provided on the surface facing the first base member 74 are densely packed.

In this embodiment, the first engaging projection 77a is a hook-and-loop fastener loop, and the second engaging projection 78a is a hook-like hook of a hook-and-loop fastener. The second engaging portion 78 may be a mushroom-shaped hook. The first engaging projection 77a may be a hook and the second engaging projection 78a may be a loop. Also, the bonding structure portion 76 may be another hook-and-loop fastener structure. For example, the first base material 74 and the second base material 75 each have a structure in which loops and hooks are provided in a mixed manner, or a structure in which the hooks are engaged with each other so that they can be attached and detached. good too. In the substrate 72, the first substrate 74 and the second substrate 75 can be adhered by overlapping the facing surfaces, and the second substrate 75 is forcibly separated from the first substrate 74. This allows the second base material 75 to be easily removed from the first base material 74 . Accordingly, the adhesion suppressing portion 73 can be replaced or cleaned together with the second base material 75 .

The adhesion suppressing portion 73 is provided on the surface of the second base material 75 opposite to the bonding structure portion 76 . The minute projections 73a are made of elastically deformable wire rods. Specifically, the minute protrusions 73a are formed by looping a wire rod.

The mud adhesion reducing member 71 may have the structure shown in FIG. That is, the mud adhesion reducing member 71 is provided on a first base material 74 (substrate 74) adhered to the wall portions 21b1 and 21c1 with an adhesive, and on the surface of the first base material 74 opposite to the adhesion surface. The adhesion suppressing portion 73 may also be included.

Conventionally, when mud 79 adheres directly to walls 21b1 and 21c1 as shown in the left diagram of FIG. In the present embodiment, the adhesion suppressing portion 73 has a structure in which a plurality of minute protrusions 73a protruding from the base 72 are densely packed. Since a minute air layer 80 is formed between the substrate 72 and the area to which the mud 79 adheres is reduced, the adhesion suppressing portion 73 is less susceptible to adhesion of mud. In addition, since the plurality of minute projections 73a have flexibility, the minute projections are repeatedly deformed and restored when the mower 1 vibrates or the adhesion suppressing portion 73 is hit with mud thrown from the mowing portion 7. As a result, mud adhering to the adhesion suppressing portion 73 is easily removed. Due to these, adhesion of mud thrown from the cutting blade 6 can be reduced. Further, since the mud is in line contact with the adhesion suppressing portion 73, even if the mud adheres to the adhesion suppressing portion 73, the mud is easily removed, and the mud adhering to the adhesion suppressing portion 73 can be easily removed manually. can be dropped. Further, when the adhesion suppressing portion 73 has a loop shape, when the adhesion suppressing portion 73 is hit with mud, the minute projections 73a expand and contract, making it easier for the mud to fall off from the adhesion suppressing portion 73, so that the mud adheres to the adhesion suppressing portion 73. can be reduced.

As shown in FIG. 16, the plurality of minute projections 73a may be composed of linear wire rods. In this case, the mud comes into line contact with the adhesion suppressing portion 73, and even if the mud adheres to the adhesion suppressing portion 73, the mud is easily removed.

Further, as shown in FIG. 17, the adhesion suppressing portion 73 may have a structure in which a material having flexibility such as sponge is formed in an uneven shape.

18 and 19 show a cutting blade holder 33 according to another embodiment.

In this embodiment, the shape of the blade plate 63 is different from that of the above embodiment. That is, as shown in FIG. 19, the upper end 63Ba of the third portion 63B linearly extends outward (away from the center) in the radial direction Y2 from the lower portion of the first portion 63A. Further, the third portion 63B is formed from the middle portion of the intermediate portion 37 in the radial direction Y2 to the middle portion of the outer peripheral portion 36 in the radial direction Y2. The height of the upper end 63Ba of the third portion 63B (the distance from the lower surface of the holder main body 34 to the upper end 63Ba) is substantially the same as the height of the upper end 35a of the inner peripheral portion 35. The second portion 63C is provided from the middle portion of the outer peripheral portion 36 in the radial direction Y2 to the outer end portion thereof. The outer end portion of the second portion 63C in the radial direction Y2 is fixed to the reinforcing rib 45. As shown in FIG.

The height of the upper end 63Aa of the first portion 63A (the distance from the lower surface of the holder main body 34 to the upper end 63Aa) is higher than the height of the upper end 63Ca of the second portion 63C (the distance from the lower surface of the holder main body 34 to the upper end 63Ca). high. Specifically, the height of the upper end 63Aa of the first portion 63A is approximately twice the height of the upper end 63Ca of the second portion 63C. Also, the height of the upper end 63Ba of the third portion 63B is lower than the height of the upper end 63Ca of the second portion 63C. Specifically, the height of the upper end 63Ba of the third portion 63B is approximately half the height of the upper end 63Ca of the second portion 63C.

In this embodiment, while the grass cut by the cutting blade 6 is pushed outward in the radial direction Y2 at the second portion 63C, the height of the upper end 63Ba of the third portion 63B is lowered so that the slats 63 are covered with stones or the like. is reduced. Wind resistance (air resistance) is also reduced.

Further, as shown in FIGS. 18 and 19, the cutting blade mounting portion 51 has a mounting member 52A formed of a columnar member having an axial center extending in the vertical direction. The cutting blade 6 is attached to the attachment member 52A. The mounting member 52A is fixed to the holder main body 34 at its lower portion. Specifically, as shown in FIG. 18, the holder body 34 is formed with a U-shaped groove 91 extending inward in the radial direction Y2 (toward the center) from the outer end in the radial direction Y2. The lower part of the mounting member 52A is fixed to the deep part. The mounting member 52A is formed with an oval-shaped (oval-shaped) insertion hole 56 penetrating therethrough in the vertical direction. The mounting structure of the cutting blade 6 to the mounting member 52A is the same as the structure shown in FIG.

As shown in FIGS. 18 and 19, the cutting blade holder 63 has a rib plate 92 extending inward in the radial direction Y2 (toward the vertical axis 29) from the mounting member 52. As shown in FIGS. Specifically, the rib plate 92 is erected and fixed to the holder main body 34 and extends from the mounting member 52 to the middle portion of the intermediate portion 37 in the radial direction Y2. The radially Y2 inner end of the rib plate 92 extends to the radially Y2 outer end of the reinforcing portion 40 .

The cutting blade holder 63 has a reinforcing plate 93 that is superimposed and fixed on the holder main body 34 between the blade plates 63 adjacent in the circumferential direction Y1. More specifically, the reinforcing plate 93 is formed in a substantially rectangular shape, overlapped on the upper surface of the intermediate portion 37 and fixed by welding. Further, the reinforcing plate 93 is provided at a portion where the rib plate 92 is fixed, and is connected to the tip side of the rib plate 92 . Specifically, the reinforcing plate 93 has a groove 93a for avoiding interference with the rib plate 92, the rib plate 92 is inserted into the groove 93a, and is connected to the rib plate 92 by welding.

The outer end side of the reinforcing portion 40 in the radial direction Y2 partially overlaps the reinforcing plate 93 .

The cutting blade holder 63 has a plate member 94 with one end fixed to the rib plate 92 . The plate member 94 is superimposed on the upper surface of the outer peripheral portion 36 and fixed by welding.

The cutting blade holder 33 is a cutting blade holder 33 to which the cutting blade 6 for cutting grass is attached. The holder main body 34 is recessed between a plurality of blade plates 63 erected on the main body 34 so that the plate faces face the circumferential direction Y1 around the vertical axis 29 and the blade plates 63 adjacent in the circumferential direction Y1. and a reinforcing portion 40 formed by

With this configuration, the strength of the holder main body 34 can be improved. As a result, the plate thickness of the holder main body 34 can be reduced, and the weight of the cutting blade holder 33 can be reduced.

Further, the holder body 34 is provided with a narrowed portion 46 formed by drawing. and a second aperture 48 .

According to this configuration, the diaphragm portion 46 includes the first diaphragm 47 formed in the holder body 34 so as to extend in the circumferential direction Y1 around the vertical axis 29 and the second diaphragm 48 intersecting the first diaphragm 47. The strength of the holder main body 34 can be improved by forming the . As a result, the plate thickness of the holder main body 34 can be reduced, and the weight of the cutting blade holder 33 can be reduced.

The first diaphragm 47 is formed over the entire circumference in the circumferential direction Y1, and the second diaphragm 48 is formed in the radial direction Y2 perpendicular to the vertical axis 29. As shown in FIG.

According to this configuration, the strength of the holder main body 34 can be favorably improved.

The holder main body 34 is formed in a circular shape centering on the vertical axis 29, and includes an inner peripheral portion 35 on the inner peripheral side, an outer peripheral portion 36 positioned lower than the inner peripheral portion 35, and an inner peripheral portion 36 on the outer peripheral side. An intermediate portion 37 connecting the peripheral portion 35 and the outer peripheral portion 36 is provided. , toward the outer peripheral end of the outer peripheral portion 36 .

According to this configuration, the strength of the holder main body 34 can be improved more satisfactorily by improving the strength of the outer peripheral portion 36 .

Further, a cutting blade mounting portion 51 to which the cutting blade 6 is mounted is provided. The cutting blade mounting portion 51 is arranged on the outer peripheral side of the outer peripheral portion 36 relative to the first diaphragm 47, and the second diaphragm 48 is attached to the cutting blade mounting portion 51. are formed on both sides in the circumferential direction Y1.

With this configuration, the strength of the cutting blade mounting portion 51 can be improved.

The cutting blade mounting portion 51 has a mounting plate 52 welded to the plate surface of the holder body 34 and having a thickness greater than that of the holder body 34 . It is attached by a bolt 54 passing through the plate 52 , the holder body 34 and the cutting blade 6 and a nut 55 screwed onto the bolt 54 .

With this configuration, the strength of the cutting blade attachment portion 51 can be improved more favorably. In addition, maintainability is improved.

Further, the cutting blade mounting portion 51 has a welding portion 53A for welding the mounting plate 52 and the first diaphragm 47 together.

With this configuration, the strength of the cutting blade mounting portion 51 can be further improved.

Further, the blade plate 63 has a first portion 63A on the inner side in the radial direction Y2 orthogonal to the vertical axis 29, and a second portion provided on the outer side in the radial direction Y2 from the first portion 63A with an interval therebetween. 63C, and a third portion 63B connecting the first portion 63A and the second portion 63C. The width is narrower than the vertical separation distance D1 between 35 and outer peripheral portion 36 .

According to this configuration, it is possible to prevent a stone or the like from hitting the second portion 63C, and it is possible to prevent deformation of the second portion 63C.

Further, the blade plate 63 has a first portion 63A on the inner side in the radial direction Y2 orthogonal to the vertical axis 29, and a second portion provided on the outer side in the radial direction Y2 from the first portion 63A with an interval therebetween. 63C and a third portion 63B connecting the first portion 63A and the second portion 63C, the height of the upper end 63Aa of the first portion 63A is higher than the height of the upper end 63Ca of the second portion 63C, The height of the upper end 63Ba of the third portion 63B is lower than the height of the upper end 63Ca of the second portion 63C.

According to this configuration, the grass mowed by the cutting blade 6 can be pushed outward in the radial direction Y2 at the second portion 63C, and the height of the upper end 63Ba of the third portion 63B can be lowered to Hitting the plate 63 with stones or the like can be reduced.

A mounting member 52A fixed to the holder main body 34, to which the cutting blade 6 is mounted, and a rib plate 94 extending from the mounting member 52A toward the vertical axis 29 and fixed to the holder main body 34. and a reinforcing plate 93 connected to the tip side of the rib plate 94 and fixed to the holder body 34 .

With this configuration, the strength of the holder main body 34 can be improved, and the mounting member 5 can be
2A can be reinforced.

The lawn mower 1 also includes a lawn mower 7 having a cutting blade 6 that rotates to mow grass, and walls positioned around the lawn mower 7 (walls 21b1 and 21b1 on the front side of one side wall 21b of the body frame 21 and A wall portion 21c1 on the rear side of the other side wall 21c and a mud adhesion reducing member 71 for reducing adhesion of mud thrown from the cutting blade 6. The mud adhesion reducing member 71 is attached to the wall portions 21b1 and 21c1. It has a substrate 72 to be attached, and an adhesion suppressing portion 73 in which a plurality of flexible fine projections 73a protruding from the substrate 72 are densely packed.

According to this configuration, a fine air layer is formed between the mud adhering to the adhesion suppressing portion 73 and the base 72, and the area to which the mud adheres is reduced. . Further, due to the vibration of the lawn mower 1 and the mud thrown from the mowing part 7 coming into contact with the adhesion suppressing part 73, the minute protrusions repeat deformation and restoration, and the mud adhering to the adhesion suppressing part 73 is removed. Cheap. Due to these, adhesion of mud thrown from the cutting blade 6 can be reduced.

The base 72 includes a first base 74 attached to the walls 21b1 and 21c1, a second base 75 facing the first base 74, and the second base 75 detachable from the first base 74. The adhesion suppressing portion 73 is provided on the opposite side of the second base material 75 to the adhesion structure portion 76 .

According to this configuration, by removing the second base material 75 from the first base material 74 , the adhesion suppressing portion 73 can be replaced or cleaned together with the second base material 75 .

Moreover, the adhesion structure part 76 is a hook-and-loop fastener structure.

According to this configuration, the second base material 75 and the adhesion suppressing portion 73 can be easily removed from or attached to the first base material 74 .

Further, the minute projections 73a are formed of a wire rod.

According to this configuration, since the mud comes into line contact or point contact with the adhesion suppressing portion 73, there is an effect that the mud adhering to the adhesion suppressing portion 73 is easily removed.

Further, the fine projections 73a are formed by looping a wire rod.

According to this configuration, when mud hits the adhesion suppressing portion 73, the loop-shaped microscopic protrusions expand and contract, making it easier for the mud to fall off the adhesion suppressing portion 73, thereby reducing the adhesion of mud to the adhesion suppressing portion 73. can do.

Further, the cutting blade 6 is rotatably supported around the vertical axis 29, and the mud adhesion reducing member 71 is arranged on the side of the rotation locus R1 of the cutting blade 6 toward the rotation direction X1 of the cutting blade 6 from the center in the width direction of the machine body. It is provided on certain wall portions 21b1 and 21c1.

According to this configuration, by providing the mud adhesion reducing member 71 on the wall portions 21b1 and 21c1 in the portions where the amount of mud thrown from the cutting blade 6 is large, the adhesion of mud in those portions can be suppressed. , adhesion of mud thrown from the cutting blade 6 can be effectively reduced.

The body 2 rotatably supports the cutting blade 6 around the vertical axis 29 and the wheels 4 and 5 movably support the body 2 . It is provided on the wall portions 21b1 and 21c1 positioned inward in the width direction.

According to this configuration, by providing the mud adhesion reducing member 71 on the wall portion located inside the vehicle body width direction of the wheels 4 and 5 where mud tends to adhere, the adhesion of mud on this portion can be suppressed. , adhesion of mud thrown from the cutting blade 6 can be effectively reduced.

The body 2 rotatably supports the cutting blade 6 around the vertical shaft 29 and the transmission case 26 provided on the side of the body 2 . It is provided on the wall portion 21c1 positioned inward in the direction.

According to this configuration, by providing the mud adhesion reduction member 71 on the wall portion of the transmission case 26 located inward in the body width direction, where mud tends to adhere, adhesion of mud on this portion can be suppressed. Adhesion of mud thrown from the cutting blade 6 can be effectively reduced.

Although one embodiment of the present invention has been described above, it should be considered that the embodiment disclosed this time is illustrative in all respects and is not restrictive. The scope of the present invention is indicated by the scope of the claims rather than the above description, and is intended to include all modifications within the scope and meaning equivalent to the scope of the claims.

29 Vertical axis (rotational axis)
33 cutting blade holder 34 holder main body 35 inner peripheral portion 36 outer peripheral portion 37 intermediate portion 40 reinforcing portion 46 throttle portion 47 first throttle 48 second throttle 49 connection portion 51 cutting blade mounting portion 52 mounting plate 52A mounting member 53A welding portion 54 bolt 55 Nut 63 Blade plate 63A First part 63Aa upper end 63B Third part 63Ba upper end 63C Second part 63Ca upper end 92 Rib plate 93 Reinforcing plate D1 Distance Y1 Circumferential direction Y2 Radial direction W1 Plate width

Claims (9)

A cutting blade holder to which a cutting blade for cutting grass is attached,
Equipped with a holder body formed in a circular shape by a plate material,
The holder body has an annular shape that is continuously formed along the entire circumferential direction of the holder body by bending the edge of the holder body upward at the radially outer end of the holder body. A blade holder having reinforcing ribs. a mounting plate to which the cutting blade is mounted, the mounting plate being arranged on the outer peripheral side of the holder body so that the radially outer surface of the mounting plate faces the inner peripheral surface of the annular reinforcing rib; 2. The cutting blade holder according to claim 1, further comprising a mounting plate fixed to the upper surface of said holder body. The holder main body has a ridge portion formed to protrude upward by recessing the holder main body from the lower surface thereof,
3. The cutting blade holder according to claim 2, wherein the protruding portion is provided on the outer peripheral side of the holder main body so as to extend along the radial direction and adjacent to the mounting plate in the circumferential direction. . 4. The cutting blade holder according to claim 3, wherein the ridges are provided on both sides of the mounting plate in the circumferential direction. pairs of the mounting plate and the ridges provided on both sides of the mounting plate in the circumferential direction are provided at symmetrical positions in the radial direction with respect to the center of the holder body,
2. The circumferential interval between the ridges adjacent in the circumferential direction sandwiching the mounting plate is narrower than the circumferential interval between the ridges adjacent in the circumferential direction not sandwiching the mounting plate. 4. The cutting blade holder according to 4. The cutting blade holder according to any one of claims 2 to 5, wherein the plate thickness between the upper surface and the lower surface of the mounting plate is thicker than the plate thickness of the holder main body and substantially the same as the height of the reinforcing rib. . The holder body has an inner peripheral portion attached to a cutting blade drive shaft that rotates the holder body around its center, and an outer peripheral portion located at a position lower than the inner peripheral portion. an intermediate portion that connects the inner peripheral portion and the outer peripheral portion and is formed in an inclined shape that moves downward as it goes outward in the radial direction;
The annular reinforcing rib is provided at an outer end portion of the outer peripheral portion in the radial direction,
The cutting blade holder according to any one of claims 2 to 6, wherein the mounting plate is fixed near the inner peripheral surface of the annular reinforcing rib on the upper surface of the outer peripheral portion. A blade plate erected on the holder body such that the plate surface faces the circumferential direction,
The blade plate is positioned radially inward of the inner peripheral surface of the annular reinforcing rib so that the radially outer end portion of the blade plate is located radially inward of the annular reinforcing rib. 8. The cutting blade holder according to claim 7, which is provided from the outer end side to the outer end portion in the radial direction of the outer peripheral portion. A lawn mower comprising the cutting blade holder according to any one of claims 1 to 8.

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