WO2013038497A1 - Rotating blade for trimmer and trimmer using same - Google Patents
Rotating blade for trimmer and trimmer using same Download PDFInfo
- Publication number
- WO2013038497A1 WO2013038497A1 PCT/JP2011/070834 JP2011070834W WO2013038497A1 WO 2013038497 A1 WO2013038497 A1 WO 2013038497A1 JP 2011070834 W JP2011070834 W JP 2011070834W WO 2013038497 A1 WO2013038497 A1 WO 2013038497A1
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- WO
- WIPO (PCT)
- Prior art keywords
- rotary blade
- holding member
- guide member
- mower
- mounting shaft
- Prior art date
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D34/00—Mowers; Mowing apparatus of harvesters
- A01D34/01—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus
- A01D34/412—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters
- A01D34/416—Flexible line cutters
- A01D34/4166—Mounting or replacement of the lines
Definitions
- the present invention relates to a rotary blade for a mower and a mower using the same.
- This mower is of a type also called a brush cutter, and is configured to transmit the rotational power generated by a small engine to a rotary blade supported at the tip of an operation tube. While controlling the rotation of the engine or the rotary blade rotated by the engine, a desired mowing operation is performed by swinging the operation tube.
- Patent Document 1 As a rotary blade suitable for this type of portable power mower, there is one disclosed in Patent Document 1.
- the rotary blade shown in this document is a nylon cord (cord-like cutting member) type rotary blade proposed by the inventor of the present application, and is attached to the rotary blade mounting shaft of a mower and rotates together with the rotary blade mounting shaft.
- the holding member In addition to the holding member that holds the cord-shaped cutting member, the holding member is characterized in that it is equipped with a guide member that is rotatably supported around its rotation axis.
- the cord-like cutting member turns at high speed in the air, but the weeds to be cut extend from the ground, so that the rotating blade is moved along the ground in a situation where weeds etc. are densely growing.
- the needle is moved at a relatively high speed, the phenomenon that the tip of the nylon cord that contacts the weeds is moved downward as the weeds fall and is momentarily displaced downward, and may be struck against the guide member continuously. As a result, vibration is generated in the entire rotary blade, and the rotational speed of the rotary blade may be reduced to reduce cutting efficiency.
- weeds include upright ones whose stems extend vertically from the ground, and climbing weeds such as morning glory.
- climbing weed vine flexes flexibly with a diameter of 2 to 3 mm, stretches over several meters so as to crawl the ground or wrap around other weeds, and against the pulling force It has a strong nature.
- the rotary blade of Patent Document 1 even if the cord-like cutting member that turns at high speed hits the vine, the vine is not cut, and the holding member remains entangled with the cord-like cutting member. As a result of the rotation, the winding member may be wound between the holding member and the guide member, making it impossible to continue the mowing operation.
- the present invention has been conceived under the circumstances described above, and in a rotary blade for a mower equipped with a guide member so as to cut weeds or the like at the tip of a rotating cord-like cutting member, It is an object of the present invention to provide a rotary blade for a mower capable of performing efficient cutting work and a mower using the same.
- the present invention takes the following technical means.
- the rotary blade for a mower provided by the first aspect of the present invention includes a holding member that is attached to a rotary blade mounting shaft of a mower and is rotated, a proximal end side is held by the holding member, and a distal end side is the holding portion
- a cord-shaped cutting member that is led out radially outward from a lead-out hole provided in the member, and a guide member that can rotate relative to the holding member at the lower part of the holding member about its rotation axis.
- the lead-out hole is inclined so that the outer end is lower than the inner end.
- the guide member has a disk shape.
- a rotary blade for a mower provided by the second aspect of the present invention includes a holding member that is attached to a rotary blade mounting shaft of a mower and is rotated, a proximal end side is held by the holding member, and a distal end side is the holding portion
- a cord-shaped cutting member that is led out radially outward from a lead-out hole provided in the member, and a guide member that can rotate relative to the holding member at the lower part of the holding member about its rotation axis.
- the guide member has a disk shape having a general part and an outer peripheral part displaced upward with respect to the general part.
- the general portion has a flat plate shape
- the outer peripheral portion has a flat plate shape displaced upward with respect to the general portion
- the radial width of the outer peripheral portion is 1/3 to 1/20 of the radius of the guide member.
- the rotary blade for mower provided by the third aspect of the present invention includes a holding member that is attached to a rotary blade mounting shaft of the mower and is rotated, a proximal end side is held by the holding member, and a distal end side is a radial direction.
- a cord-like cutting member led out to the outside, and a guide member that can rotate relative to the holding member at the lower part of the holding member around its rotation axis, the guide member having an outer periphery
- a plurality of recesses are formed on the surface.
- the bottoms of the plurality of recesses are smoothly curved.
- the guide member is preferably made of resin.
- the cord-shaped cutting member is preferably made of nylon.
- the holding member is connected to the rotary blade mounting shaft and rotates integrally with the rotary blade mounting shaft, and the base end side of the cord-shaped cutting member is connected to the rotary blade mounting shaft.
- a main body part that is housed in a wound state, and is positioned higher than the main body part, can be moved with a predetermined stroke in the axial direction of the rotary blade mounting shaft, and can be operated to rotate relative to the rotary blade mounting shaft.
- the operation part to which the base end side end of the cord-like cutting member is connected an elastic member that urges the operation part in one axial direction, and the operation part by the elasticity of the elastic member
- the operation unit and the main body are prevented from rotating relative to each other at a predetermined position in the stroke, the operation unit is moved from the predetermined position against the elastic force of the elastic member.
- a clutch mechanism that permits relative rotation between the operation portion and the body portion.
- the clutch mechanism includes a plurality of first engagement portions provided along the rotation direction in the operation portion, and a plurality of second engagements provided along the rotation direction in the main body portion. And the first engagement portion and the second engagement portion engage with each other, thereby preventing relative rotation between the operation portion and the main body portion.
- a mower provided by the fourth aspect of the present invention includes a power source and a rotary blade mounting shaft that is rotationally driven by the power of the power source.
- a rotary blade for a mower according to the first to third aspects is attached.
- FIG. 1 is an overall perspective view of an example of a rotary blade for a mower according to an embodiment of the present invention and a mower using the same. It is a longitudinal cross-sectional view of the rotary blade for mowers concerning one Embodiment of this invention. It is a longitudinal cross-sectional view for effect
- FIG. 1 to 5 show an embodiment of a rotary blade for a mower according to the present invention and a mower using the same.
- a small engine 11 as a drive source is connected to the proximal end side of the operation tube 12, and the rotation output is inserted into the operation tube 12. It is configured to be transmitted to the distal end portion of the operation tube via the transmitted transmission shaft 13.
- an engine having a displacement of about 25 cc is used in consideration of the portability of the operator.
- the small engine 11 may be directly attached to the base end of the operation tube 12, or an engine mounted on a backpack frame, for example, may be connected via a flexible transmission shaft.
- a rotary blade mounting shaft 14 is supported on the gear case 16 at the tip of the operation tube 12, and the rotary blade mounting shaft 14 and the transmission shaft 13 are connected to a bevel gear mechanism ( (Not shown).
- a spline is formed on the outer periphery of the rotary blade mounting shaft 14, and a screw hole 14a extending in the axial direction is formed at the shaft end.
- the rotary blade mounting shaft 14 is attached with the rotary blade A1 characterized by the present invention.
- the rotary blade A1 is attached to the rotary blade mounting shaft 14 and rotated, and holds a nylon cord cutting blade 4a as an example of a cord-like cutting member.
- a guide member 200 that can rotate relative to the holding member 100 around its rotation axis (same axis as the rotary blade mounting shaft 14).
- the holding member 100 is supported so as to be sandwiched between the support piece 150 that is spline-fitted to the rotary blade mounting shaft 14, the lower piece 110, and the support piece 150 and the lower piece 110.
- the lower piece 110 is externally fitted to a mounting bolt 15 that is screwed into the screw hole 14 a of the rotary blade mounting shaft 14.
- the support piece 150 includes a boss portion 151 having a spline hole 151a that is spline-fitted so as not to rotate relative to the rotary blade mounting shaft 14, a flange portion 152 that extends outward in the horizontal direction from the lower end of the boss portion 151, and It has a cylindrical portion 153 that extends upward from the upper surface of the peripheral portion of the flange portion 152, and an annular protrusion 155 that protrudes outward in the horizontal direction from the upper portion of the cylindrical portion 153.
- a short-axis columnar bulging portion 154 is formed.
- the lower piece 110 has a boss portion 111 having a center hole 111a and a flange portion 112 extending outward in the horizontal direction, and a short-axis columnar bulging portion 113 is formed at the center of the upper surface of the flange portion 112.
- the outer diameter of the bulging portion 113 is the same as that of the bulging portion 154 of the support piece 150.
- the support piece 150 and the lower piece 110 are made of a metal having a predetermined strength such as aluminum.
- the center hole 121a is simultaneously fitted to the bulging portion 154 of the support piece 150 and the bulging portion 113 of the lower piece 110, and the lower surface of the flange portion 152 of the support piece 150 and the flange of the lower piece 110 are
- the inward flange portion 121 sandwiched between the upper surface of the portion 112 and an annular housing portion 122 connected to the outer periphery of the inward flange portion 121 are formed, for example, by resin integral molding.
- the housing portion 122 includes a cylindrical inner peripheral wall 122a, a donut disk-shaped bottom wall 122b extending horizontally from the lower end of the inner peripheral wall 122a, and a cylindrical outer peripheral wall 122c extending vertically upward from the outer peripheral portion of the bottom wall 122b. Is formed in a groove shape that is open at the top.
- the cover body 140 is disposed so as to block the upper open portion of the housing portion 122 of the nylon cord housing case 120.
- the cover body 140 hangs down from the donut disk-shaped top plate portion 141 and the inner peripheral edge of the top plate portion 141, and is externally fitted to the inner peripheral wall 122a of the housing portion 122 so as to be vertically slidable.
- the cylindrical body 143 is fitted on the inner peripheral wall 122 a of the housing part 122, the annular protrusion 144 is fitted on the outer surface of the cylindrical part 153 of the support piece 150, and the peripheral wall 142 is While being fitted on the outer peripheral wall 122c of the housing portion 122, it can move up and down with a predetermined stroke and can rotate around the rotary blade mounting shaft 14.
- a compression coil spring 156 is interposed between the lower surface of the annular protrusion 155 of the support piece 150 and the upper surface of the annular protrusion 144 of the cover body 140, so that the cover body 140 is always downward It is energized towards.
- a plurality of rectangular engaging protrusions 145 projecting downward are formed at the lower end of the cylindrical body portion 143 of the cover body 140 by forming a plurality of rectangular recessed portions 145a at equal pitches in the circumferential direction. .
- a plurality of rectangular engaging protrusions 131 that can be fitted into the recessed portion 145a are formed on the upper surface of the inner peripheral portion of the bottom wall 122b of the housing portion 122.
- the radial width of the housing portion 122 of the engagement protrusion 131 corresponds to the thickness of the cylindrical body portion 143 of the cover body 140.
- the engagement protrusion 131 of the housing portion 122 is fitted into the recess portion 145a when the circumferential position of the recess portion 145a between the adjacent engagement protrusion portions 145 of the cover body 140 is matched, and thus the housing portion 122 is engaged.
- the engagement protrusion 131 and the engagement protrusion 145 of the cover body 140 are in a mutually engaged state, and relative rotation of the cover body 140 with respect to the housing portion 122 or the nylon cord housing case 120 is prevented.
- the engagement state between the engagement protrusion 131 of the housing portion 122 and the engagement protrusion 145 of the cover body 140 is such that the cover body 140 is constantly urged downward by the compression coil spring 156. Maintained stably.
- a knurl 146 is formed in a bulging shape on the upper outer peripheral surface of the peripheral wall portion 142 of the cover body 140.
- a pair of holes 147 adjacent to each other in the circumferential direction are formed at appropriate positions on the top plate part 141 of the cover body 140.
- Nylon cords 4 substantially passing through the vicinity of the longitudinal center of the nylon cord 4 are accommodated in the housing portion 122 of the nylon cord accommodation case 120.
- the cylindrical body 143 of the cover body 140 is fitted on the inner peripheral wall 122a of the housing part 122 as described above, and the nylon cord 4 is wound around the outer periphery of the cylindrical body 143 of the cover body 140. It is accommodated in the housing part 122 in the removed state.
- the leading end sides of the two nylon cords 4 are led out to the outside from the lead-out holes 123 opened at two locations so as to face the nylon cord housing case 120 in the diametrical direction, and the leading end side of the portion thus led out is It functions as the nylon cord cutting blade 4a.
- the lead-out hole 123 is formed in an aluminum hole that is excellent in wear resistance in a through hole 124 that is formed obliquely at the boundary between the outer peripheral wall 122c and the bottom wall 122b of the nylon cord housing case 120.
- a cylindrical collar 125 is mounted.
- the lead-out hole 123 is inclined so that the outer end thereof is lower than the inner end, whereby the nylon cord cutting blade 4a is described later from a fixed position of the nylon cord housing case 120.
- the guide member 200 is led out to the outside while being closer to the upper surface.
- the cover body 140 when the cover body 140 is rotated relative to the nylon cord housing case 120, the cover body 140 is wound and held in the cylindrical body 143 integrated with the cover body 140.
- the nylon cord 4 is integrated with the cover body 140 and rotated relative to the nylon cord housing case 120. That is, according to the rotation operation of the cover body 140, the length of the nylon cord cutting blade 4a led out from the lead-out hole 123 can be adjusted.
- the extension length of the nylon cord cutting blade 4a when the operation cover body 140 is rotated relative to the nylon cord storage case 120 in the nylon cord winding direction, the extension length of the nylon cord cutting blade 4a can be shortened.
- the extension length of the nylon cord cutting blade 4a can be extended.
- the guide member 200 includes a central cylindrical portion 211 and a disc portion 220 extending from the lower end of the central cylindrical portion 211, and is preferably integrally formed of resin.
- the disc part 220 is a horizontal flat plate shape, and the several recessed part 240 is formed in the outer peripheral part.
- the plurality of recesses 240 are formed at equal pitches in the circumferential direction so as to be recessed from the circular outer peripheral edge of the disc part 220.
- the formation pitch of the recesses 240 can be, for example, in the range of 20 to 30 mm, the circumferential width w of the recesses 240 can be in the range of 15 to 25 mm, and the depth d of the recesses 240 can be in the range of 5 to 13 mm. However, it is not limited to this. As clearly shown in FIG. 5, it is important that the bottom 240c of the recess 240 is smoothly curved.
- the outer periphery of the disc portion 220 extends outward in the radial direction from the holding member 100 described above.
- the outer ring 231 of the bearing 230 is press-fitted and held on the inner surface of the central cylindrical portion 211 of the guide member 200.
- the attachment of the rotary blade A1 to the rotary blade attachment shaft 14 is performed as follows, for example. First, the support piece 150, the lower piece 110, the nylon cord accommodation case 120, and the cover body 140 are combined, and the holding member 100 in a state where the nylon cord 4 is accommodated in the nylon cord accommodation case 120 as described above is attached to the support piece 150.
- the spline hole 151 a of the boss portion 151 is spline fitted to the rotary blade mounting shaft 14 to be held on the rotary blade mounting shaft 14.
- the guide member 200 is held in a state where the inner ring 232 of the bearing 230 press-fitted and held against the guide member 200 is abutted against the lower end of the boss portion 111 of the lower piece 110.
- the bolt 15 is screwed into the screw hole 14 a provided at the shaft end of the rotary blade mounting shaft 14 while being inserted into the inner ring 232 of the bearing 230 and the boss portion 111 of the lower piece 110.
- the boss 111 of the lower piece 110 and the inner ring 232 of the bearing 230 are clamped and fixed between the rotary blade mounting shaft 14 or the support piece 150 and the head 15 a of the bolt 15.
- the nylon cord housing case 120 is also The rotary blade mounting shaft 14, the support piece 150 and the lower piece 110 are integrated.
- the bearing 230 and the head portion 15 a of the bolt 15 are assembled in the form of being accommodated in the central cylindrical portion 211 of the guide member 200, so that the flat circle of the guide member 200 is formed. There are no protrusions on the lower surface side of the plate portion 220.
- the nylon cord cutting blade 4a for example, one having a diameter of about 3 mm is used.
- the nylon cord cutting blade 4a is led out from a lead-out hole 123 formed facing obliquely downward at the boundary between the outer peripheral wall 122c and the bottom wall 122b of the nylon cord housing case 120. Therefore, in a state where the rotary blade A1 is rotated at a high speed, the nylon cord cutting blade 4a rotating with the rotation of the holding member 100 can be brought close to the upper surface of the guide member 200.
- the nylon cord cutting blade 4a and the guide member The gap between the upper surface of 200 is, for example, 2 to 5 mm, more preferably about 2 to 3 mm, and can be reduced to a minimum of about 2 mm.
- the nylon cord cutting blade 4a is adjusted so that the tip position thereof coincides with the outer edge of the guide member 200 or slightly extends.
- the holding member 100 or the nylon cord cutting blade 4a is more than the upper surface of the guide member 200 as the rotary blade attachment shaft 14 rotates.
- the guide member 200 is rotated freely with respect to the rotary blade mounting shaft 14 or the holding member 100 by the bearing 230. This means that the guide member 200 does not rotate by receiving the rotational driving force of the small engine 11 of the mower B even during the rotation of the holding member 100 or the nylon cord cutting blade 4a, and does not rotate. This means that it is possible to maintain a non-rotating state.
- each part of the rotary blade A1 are set such that the outer diameter of the holding member 100 is about 100 mm and the outer diameter of the guide member 200 is about 300 to 500 mm, but these dimensions are not limited.
- the rotary blade A1 When mowing using the mower B, for example, if the throttle opening of the engine 11 is increased by operating a throttle lever or the like, the rotary blade A1 is held by the rotational output of the small engine 11.
- the member 100 or the nylon cord cutting blade 4a is rotated in the N direction in FIG.
- the rotational speed of the nylon cord cutting blade 4a can be adjusted.
- the rotational output of the engine 11 is decelerated from the transmission shaft 13 by a bevel gear (not shown) in the gear case 16, and is transmitted to the holding member 100 or the nylon cord cutting blade 4a via the rotary blade mounting shaft 14.
- the number of rotations of the holding member 100 or the nylon cord cutting blade 4a reaches, for example, 5,000 to 6,300 rpm.
- the peripheral speed of the tip of the nylon cord cutting blade 4a will easily reach 350 km / h.
- a relatively soft and thin object such as weed turns at a high speed as described above at the moment when it enters the recess 240 formed on the outer periphery of the guide member 200.
- the nylon cord cutting blade 4a receives a strong collision from the lateral direction and is cut without difficulty by the impact.
- the nylon cord cutting blade 4a has a diameter of about 3 mm at most and is lightweight, but the peripheral speed of the tip is extremely high as described above, so that it is necessary to cut soft weeds and other stems. It has enough kinetic energy.
- a plurality of recesses 240 are formed on the outer periphery of the guide member 200. Therefore, when the rotary blade A1 is moved along the ground, weeds and the like are as shown in FIG. In addition, it is subjected to a cutting action by the nylon cord cutting blade 4a that rotates at a high speed in a state where the stem portion P is captured in the recess 240. Thereby, a shocking shearing force can be effectively applied to weeds or the like to cut it.
- the gap between the nylon cord cutting blade 4a that rotates at high speed and the upper surface of the guide member 200 is as small as 2 to 5 mm, and more preferably 2 to 3 mm.
- the inner surface 240a on the front side in the rotational direction and the Nanlon cord cutting blade 4a that swivels while extending in the radial direction of the rotary blade A1 act as if the blade of a reed acts as an instantaneous shearing force on weeds and the like. Can be cut. Such a cutting action is also effective for harvesting climbing weeds such as morning glory that could not be easily cut by a conventional rotary blade.
- the bottom 240c of the recess 240 of the guide member 200 is smoothly curved. Therefore, when the rotary blade A1 moves along the ground, a stump such as an upright weed is formed in the recess 240. It is hard to get caught in. Further, since the guide member 200 has a flat plate shape and no protrusions on the lower surface, the rotary blade A1 can be moved so as to slide along the ground.
- the weight of the rotary blade A1 can be applied to the ground, and the tip in that direction can be moved in any direction along the ground. Therefore, weeds and the like can be cut and there is little fatigue and work efficiency is remarkably increased.
- the nylon cord cutting blade 4a it is desirable to use the nylon cord cutting blade 4a so that the tip of the nylon cord cutting blade 4a coincides with the outer peripheral edge of the guide member 200.
- the holding member 100 or the nylon cord cutting Even when the blade 4a is rotating at high speed, the tip of the nylon cord cutting blade 4a does not directly contact the ground. Therefore, the nylon cord cutting blade 4a that rotates at high speed does not jump off pebbles and sand on the ground, and is safe, and the tip of the nylon cord cutting blade 4a does not wear unnecessarily.
- the extension length from the lead-out hole 123 gradually decreases.
- the engagement state between the engagement protrusions 145 and 131 is as shown in FIG.
- the cover body 140 and the nylon cord storage case 120 are in a state where relative rotation is allowed.
- the extension length of the nylon cord cutting blade 4a can be extended.
- the nylon cord cutting blade 4a can be extended by a length corresponding to (for example, by 10 to 15 mm).
- a simple operation of pulling up and moving the cover body 140 up allows the operation cover body 140 to be allowed to rotate relative to the nylon cord storage case 120, and the nylon cord cutting blade 4a extends.
- the length can be adjusted.
- the portion rotated by the output of the small engine 11 of the mower B is only the holding member 100 or the nylon cord cutting blade 4a as described above.
- the holding member 100 made of resin
- the weight of the holding member 100 or the nylon cord cutting blade 4a can be as low as 150 to 200 g. Therefore, the burden on the small engine 11 is small, the peripheral speed of the nylon cord cutting blade 4a can be further increased, and the high-speed rotation state can be maintained.
- the diameter of the guide member 200 can be variously changed.
- the diameter of the guide member 200 may be about 300 to 500 mm.
- the peripheral speed of the guide member 200 that is, the speed of the tip of the nylon cord cutting blade 4a reaches about 600 km / h.
- the portion rotated in the rotary blade A1 is only the holding member 100 or the nylon cord cutting blade 4a, and the guide member 200 having a relatively large diameter is not rotated.
- the tip speed of the cutting blade 4a can be achieved. If such a rotary blade A1 is used, since the diameter of the circular arc drawn by the nylon cord cutting blade 4a is large and the peripheral speed thereof is high, the mowing work in a wider area can be performed very efficiently.
- the rotary blade A1 is configured using two nylon cords 4, the number of nylon cords 4 may be larger than this.
- the four nylon cords 4 may be configured to be led out to the outside from the lead-out holes 123 provided evenly allocated to four locations on the outer peripheral wall 122c of the nylon cord housing case 120.
- the number of nylon cords 4, that is, the number of nylon cord cutting blades 4a is increased in this way, weeds can be accurately cut even if the entire rotary blade A1 is moved relatively quickly, and as a result, mowing work Can be performed more efficiently.
- FIG. 6 shows another example of the rotary blade for mower according to the present invention.
- the same or similar elements as those in the embodiment shown in FIGS. 1 to 5 are denoted by the same reference numerals, and the description thereof will be omitted as appropriate.
- the lead-out hole 123 for leading the nylon cord 4 from the nylon cord housing case 120 is not inclined but extends in the horizontal direction.
- the horizontal outer peripheral portion 220c is displaced upward with respect to the flat horizontal main portion 220a, and the remaining configuration is the same.
- the configuration of the rotary blade A2 that is different from the rotary blade A1 will be mainly described.
- lead-out holes 123 are formed at two locations facing the diameter direction of the housing portion 122 of the nylon cord housing case 120.
- the lead-out hole 123 is formed by mounting an aluminum cylindrical collar 125 excellent in wear resistance on a horizontal through hole 124 provided in the outer peripheral wall 122c.
- the guide member 200 of the rotary blade A2 includes a center tube portion 211 and a disc portion 220 extending from the lower end of the center tube portion 211, and is preferably integrally formed of resin.
- the disc part 220 has a horizontal main part 220a, an upper inclined part 220b connected to the outer periphery of the horizontal main part 220a, and a horizontal outer peripheral part 220c connected to the outer periphery of the upper inclined part 220b.
- the horizontal outer peripheral portion 220c is displaced upward by a predetermined amount with respect to the flat horizontal main portion (general portion) 220a.
- the horizontal main portion 220a occupies a ratio that sufficiently extends in the radial direction from the outer periphery of the holding member 100.
- the radial width of the horizontal outer peripheral portion 220c forms a plurality of concave portions 240 described later.
- the radius of the guide member 200 can be set to 1/3 to 1/20.
- the displacement amount of the horizontal outer peripheral portion 220c with respect to the horizontal main portion 220a is determined by the nylon cord cutting blade 4a rotating with the rotation of the holding member 100 and the horizontal outer peripheral portion 220c in a state where the rotary blade A2 is rotated at a high speed.
- the gap between the upper surface and the upper surface is set to 2 to 5 mm, more preferably about 2 to 3 mm.
- a plurality of concave portions 240 are formed in the horizontal outer peripheral portion 220 c of the guide member 200.
- this recessed part 240 it can be set as the thing similar to having mentioned above about rotary blade A1, for example.
- the attachment of the rotary blade A2 to the rotary blade attachment shaft 14 can be performed in the same manner as described above for the rotary blade A1.
- the rotary blade A2 also includes a guide member 200 that can be kept in contact with the ground or the like, can reduce the distance between the nylon cord cutting blade 4a and the periphery of the guide member 200 as much as possible, Since a plurality of recesses 240 are formed on the outer periphery, it is common to the rotary blade A1 in that the same efficient mowing work as described above for the rotary blade A1 can be performed.
- the guide member 200 is not entirely a flat plate, and the horizontal outer peripheral portion 220c having a predetermined radial width is displaced upward with respect to the horizontal main portion 220a.
- the thickness can be further reduced to further reduce the weight.
- the mowing operation can be performed by sliding along the ground.
- the horizontal outer peripheral portion 220c of the guide member 200 is displaced upward by a predetermined amount, so that weeds and the like are cut from the ground at a predetermined fixed height position, and the appearance of the ground after mowing work is improved. Can be improved.
- the extension length of the nylon cord cutting blade 4a from the outlet hole 123 can be adjusted in the same manner as described above for the cutting blade A1.
- the diameter dimension of the guide member 200 and the number of the nylon cord cutting blades 4a can be variously set similarly to the example described for the cutting blade A1.
- the nylon cord is cut by a simple operation.
- the extension length of the blade 4a can be adjusted, whether or not to employ such a mechanism is a matter of choice.
- a plurality of concave portions 240 are provided on the outer periphery of the guide member 200. Whether or not such concave portions 240 are provided is a matter of choice. Even if such a plurality of recesses 240 are not provided, if the gap between the upper surface of the nylon cord cutting blade 4a and the guide member 200 is 2 to 5 mm, preferably about 2 to 3 mm, the tip of the nylon cord cutting blade 4a is By using the guide member 200 extended from the outer peripheral edge by about 10 to 20 mm, a sufficiently efficient cutting action can be expected as compared with the conventional case.
- the form of the recesses 240 is not limited, and for example, the form shown in FIG. 7 and FIG. You can also.
- a plurality of convex portions 250 such as saw blades are formed on the outer periphery of the guide member 200, whereby a plurality of concave portions 240 whose bottom portions are smoothly curved are formed.
- the slope of the inner surface 240a on the front side in the rotational direction of the nylon cord cutting blade 4a in the recess 240 is steeper than the slope of the inner surface 240b on the rear side in the rotational direction, and the weed stalk captured on the inner surface 240a on the front side in the rotational direction.
- the stem can be cut by effectively giving P a shearing force by the nylon cord cutting blade 4a that turns at high speed.
- the target weed can be smoothly introduced into the recess 240 and used for the cutting action described above.
- the bottom part 240c of the recessed part 240 curves smoothly, the cut stump is not caught in the recessed part 240, and the movement along the ground of rotary blade A1, A2 is not inhibited.
- the width w of the recess 240 can be in the range of, for example, 15 to 25 mm, and the depth d of the recess 240 can be in the range of, for example, 5 to 13 mm, but is not limited thereto.
- the point that the bottom portion 240c of the recess 240 is smoothly curved is the same as in the above embodiment.
- a concave portion 240 is formed between a plurality of triangular mountain-shaped convex portions 250a, the bottom portion 240c of the concave portion 240 is smoothly curved, and the inner surface of the concave portion 240 is shown in a cross section in FIG.
- a sharp blade shape is formed by inclining 241.
- the width w of the concave portion 240 can be in the range of 15 to 25 mm, for example, and the depth d of the concave portion 240 can be in the range of 5 to 13 mm, for example, but is not limited thereto.
- a plurality of through holes may be formed in the disc portion 220 of the guide member 200. In this way, the guide member 200 can be further reduced in weight.
- the mower used by attaching the rotary blades A1 and A2 of the present invention is not limited to the one having the rotary blade attachment shaft 14 at the tip of the operation tube 12 as shown in FIG.
- the rotary blades A1 and A2 of the present invention are also applied to a so-called self-propelled mower having a power source such as an engine and a rotary blade mounting shaft that is rotationally driven by the power source. Can be used.
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Abstract
This rotating blade is provided with: a retaining member (100), which can be rotated, attached to a rotating blade attachment shaft (14) of a trimmer; a cord shaped cutting member (4a) retained by the base end side on the retaining member (100) with the tip parts thereof led to the outside in the radial direction from lead-out holes (123) provided in the retaining member (100); and a guide member (200) below the retaining member (100) and rotatable relative to the retaining member (100) centered on the center of the rotating shaft thereof. The lead-out holes (123) are inclined such that the outside edges are lower than the inside edges thereof.
The guide member (200) is disk shaped and has a general part and a peripheral part that is displaced upward in relation to this general part and a plurality of recessed parts (240) are formed in the periphery thereof.
Description
本発明は、草刈機用回転刃およびこれを用いた草刈機に関する。
The present invention relates to a rotary blade for a mower and a mower using the same.
田畑の土手等に生育する雑草等を除去するための器具として、携帯型動力草刈機がある。この草刈機は、刈払機とも呼ばれるタイプのものであり、小型エンジンによって発生させられる回転動力を操作管の先端に支持させた回転刃に伝えるように構成されており、作業者は、スロットルレバーによってエンジンないしこれによって回転させられる回転刃の回転を制御しつつ、操作管を振回して所望の草刈り作業を行なう。
There is a portable power mower as a tool for removing weeds growing on the bank of the field. This mower is of a type also called a brush cutter, and is configured to transmit the rotational power generated by a small engine to a rotary blade supported at the tip of an operation tube. While controlling the rotation of the engine or the rotary blade rotated by the engine, a desired mowing operation is performed by swinging the operation tube.
この種の携帯型動力草刈機に適した回転刃として、特許文献1に示されたものがある。同文献に示された回転刃は、本願の発明者が提案したナイロンコード(コード状切断部材)式の回転刃であり、草刈機の回転刃取付け軸に取付けられて、回転刃取付け軸とともに回転し、コード状切断部材を保持する保持部材に加え、この保持部材に対してその回転軸を中心として回転可能に支持されたガイド部材を装備している点に特徴づけられる。
As a rotary blade suitable for this type of portable power mower, there is one disclosed in Patent Document 1. The rotary blade shown in this document is a nylon cord (cord-like cutting member) type rotary blade proposed by the inventor of the present application, and is attached to the rotary blade mounting shaft of a mower and rotates together with the rotary blade mounting shaft. In addition to the holding member that holds the cord-shaped cutting member, the holding member is characterized in that it is equipped with a guide member that is rotatably supported around its rotation axis.
上記構成を備える特許文献1の回転刃においては、ガイド部材には回転刃取付け軸からの回転力が伝達されないので、たとえば、ガイド部材が地面に接した状態においてはこのガイド部材が回転せず、保持部材のみが高速回転をする。そして、雑草等の切断対象は、ガイド部材により、このガイド部材の外周よりも内方への進入が阻止されるので、高速旋回するコード状切断部材の先端部分によって効率的に切断されるという優れた機能を有する。
In the rotary blade of Patent Document 1 having the above configuration, since the rotational force from the rotary blade mounting shaft is not transmitted to the guide member, for example, when the guide member is in contact with the ground, the guide member does not rotate, Only the holding member rotates at high speed. The cutting target such as weeds is effectively cut by the distal end portion of the cord-like cutting member that turns at high speed because the guide member prevents the guide member from entering inward from the outer periphery of the guide member. It has a function.
しかしながら、特許文献1の回転刃においては、保持部材に対してベアリングを介してガイド部材を支持するため、保持部材から延出するコード状切断部材とガイド部材の上面との間に隙間が生じざるをえない。そのために、次のような問題が生じるに至った。
However, in the rotary blade of Patent Document 1, since the guide member is supported with respect to the holding member via the bearing, there is no gap between the cord-shaped cutting member extending from the holding member and the upper surface of the guide member. I won't. This has led to the following problems.
すなわち、動作時、コード状切断部材は空中を高速で旋回するが、切断対象である雑草等は、地面から延びているため、雑草等が密に生育している状況において回転刃を地面に沿って比較的速い速度で移動させると、雑草に接触したナイロンコードの先端が雑草の倒れに連れ動いて瞬間的に下方に変位し、ガイド部材に叩きつけられるという現象が連続して生じることがある。その結果、この回転刃全体に振動が生じるとともに、回転刃の回転数が低下して切断効率が低下することがある。
In other words, during operation, the cord-like cutting member turns at high speed in the air, but the weeds to be cut extend from the ground, so that the rotating blade is moved along the ground in a situation where weeds etc. are densely growing. When the needle is moved at a relatively high speed, the phenomenon that the tip of the nylon cord that contacts the weeds is moved downward as the weeds fall and is momentarily displaced downward, and may be struck against the guide member continuously. As a result, vibration is generated in the entire rotary blade, and the rotational speed of the rotary blade may be reduced to reduce cutting efficiency.
また、雑草等には、地面から垂直に茎が延びる直立型のもののほか、アサガオ類などのつる性の雑草がある。このようなつる性の雑草のつるは、直径2~3mmでしなやかに撓み、地面を這い、または、他の雑草類に巻き付くように数mにも及んで延び、しかも、引っ張り力に対して強いという性質をもっている。このようなつる性の雑草の場合、特許文献1の回転刃では、高速旋回するコード状切断部材がつるに当たっても、つるは切断されることがなく、コード状切断部材にからんだまま保持部材が回転することにより、保持部材とガイド部材との間に巻き付いてしまい、草刈り作業が継続不能となることがあった。
In addition, weeds include upright ones whose stems extend vertically from the ground, and climbing weeds such as morning glory. Such a climbing weed vine flexes flexibly with a diameter of 2 to 3 mm, stretches over several meters so as to crawl the ground or wrap around other weeds, and against the pulling force It has a strong nature. In the case of such climbing weeds, in the rotary blade of Patent Document 1, even if the cord-like cutting member that turns at high speed hits the vine, the vine is not cut, and the holding member remains entangled with the cord-like cutting member. As a result of the rotation, the winding member may be wound between the holding member and the guide member, making it impossible to continue the mowing operation.
本発明は、上記した事情のもとで考え出されたものであって、旋回するコード状切断部材の先端で雑草等の切断を行うようにガイド部材を備えた草刈機用回転刃において、より効率的な切断作業を行うことができる草刈機用回転刃およびこれを用いた草刈機を提供することを課題としている。
The present invention has been conceived under the circumstances described above, and in a rotary blade for a mower equipped with a guide member so as to cut weeds or the like at the tip of a rotating cord-like cutting member, It is an object of the present invention to provide a rotary blade for a mower capable of performing efficient cutting work and a mower using the same.
上記課題を解決するため、本発明では、次の技術的手段を講じている。
In order to solve the above problem, the present invention takes the following technical means.
本発明の第1の側面によって提供される草刈機用回転刃は、草刈機の回転刃取付け軸に取付けられて回転させられる保持部材と、上記保持部材に基端側が保持され、先端側が当該保持部材に設けた導出孔から半径方向外方に導出させられたコード状切断部材と、上記保持部材の下位において当該保持部材に対してその回転軸心を中心として相対回転可能なガイド部材と、を備え、上記導出孔は、その内方端に対して外方端が下位となるように傾斜させられていることを特徴とする。
The rotary blade for a mower provided by the first aspect of the present invention includes a holding member that is attached to a rotary blade mounting shaft of a mower and is rotated, a proximal end side is held by the holding member, and a distal end side is the holding portion A cord-shaped cutting member that is led out radially outward from a lead-out hole provided in the member, and a guide member that can rotate relative to the holding member at the lower part of the holding member about its rotation axis. And the lead-out hole is inclined so that the outer end is lower than the inner end.
好ましい実施の形態では、上記ガイド部材は、円板状である。
In a preferred embodiment, the guide member has a disk shape.
本発明の第2の側面によって提供される草刈機用回転刃は、草刈機の回転刃取付け軸に取付けられて回転させられる保持部材と、上記保持部材に基端側が保持され、先端側が当該保持部材に設けた導出孔から半径方向外方に導出させられたコード状切断部材と、上記保持部材の下位において当該保持部材に対してその回転軸心を中心として相対回転可能なガイド部材と、を備え、上記ガイド部材は、一般部と、この一般部に対して上方に変位している外周部とを有する円板状をしていることを特徴とする。
A rotary blade for a mower provided by the second aspect of the present invention includes a holding member that is attached to a rotary blade mounting shaft of a mower and is rotated, a proximal end side is held by the holding member, and a distal end side is the holding portion A cord-shaped cutting member that is led out radially outward from a lead-out hole provided in the member, and a guide member that can rotate relative to the holding member at the lower part of the holding member about its rotation axis. The guide member has a disk shape having a general part and an outer peripheral part displaced upward with respect to the general part.
好ましい実施の形態では、上記一般部は、平板状であり、上記外周部は、上記一般部に対して上方に変位した平板状である。
In a preferred embodiment, the general portion has a flat plate shape, and the outer peripheral portion has a flat plate shape displaced upward with respect to the general portion.
好ましい実施の形態では、上記外周部の半径方向幅は、上記ガイド部材の半径の1/3~1/20である。
In a preferred embodiment, the radial width of the outer peripheral portion is 1/3 to 1/20 of the radius of the guide member.
本発明の第3の側面によって提供される草刈機用回転刃は、草刈機の回転刃取付け軸に取付けられて回転させられる保持部材と、上記保持部材に基端側が保持され、先端側が半径方向外方に導出させられたコード状切断部材と、上記保持部材の下位において当該保持部材に対してその回転軸心を中心として相対回転可能なガイド部材と、を備え、上記ガイド部材は、その外周に複数の凹部が形成されていることを特徴とする。
The rotary blade for mower provided by the third aspect of the present invention includes a holding member that is attached to a rotary blade mounting shaft of the mower and is rotated, a proximal end side is held by the holding member, and a distal end side is a radial direction. A cord-like cutting member led out to the outside, and a guide member that can rotate relative to the holding member at the lower part of the holding member around its rotation axis, the guide member having an outer periphery A plurality of recesses are formed on the surface.
好ましい実施の形態では、上記複数の凹部の底部は、滑らかに湾曲している。
In a preferred embodiment, the bottoms of the plurality of recesses are smoothly curved.
上記各側面に係る草刈機用回転刃において、上記ガイド部材は、好ましくは、樹脂製である。
In the rotary blade for a mower according to each of the above-mentioned side surfaces, the guide member is preferably made of resin.
上記各側面に係る草刈機用回転刃において、上記コード状切断部材は、好ましくは、ナイロン製である。
In the rotary blade for a mower according to each of the above-mentioned side surfaces, the cord-shaped cutting member is preferably made of nylon.
上記各側面に係る草刈機用回転刃において、好ましくは、上記保持部材は、上記回転刃取付け軸に連結されてこの回転刃取付け軸と一体回転するとともに、上記コード状切断部材の基端側を巻回状態で収容する本体部と、上記本体部に対してその上位に位置し、上記回転刃取付け軸の軸方向に所定のストロークで移動可能かつ上記回転刃取付け軸周りに相対回転操作可能に組み合わされ、上記コード状切断部材の基端側端部が連結された操作部と、上記操作部を上記軸方向の一方方向に付勢する弾性部材と、上記操作部が上記弾性部材の弾力によって上記ストロークにおける所定位置にあるときこの操作部と上記本体部との相対回転を阻止するとともに、上記操作部が上記弾性部材の弾力に抗して上記所定位置から移動させられたときにこの操作部と上記本体部との相対回転を許容するクラッチ機構と、を備える。
In the rotary blade for a mower according to each of the above-mentioned side surfaces, preferably, the holding member is connected to the rotary blade mounting shaft and rotates integrally with the rotary blade mounting shaft, and the base end side of the cord-shaped cutting member is connected to the rotary blade mounting shaft. A main body part that is housed in a wound state, and is positioned higher than the main body part, can be moved with a predetermined stroke in the axial direction of the rotary blade mounting shaft, and can be operated to rotate relative to the rotary blade mounting shaft. Combined, the operation part to which the base end side end of the cord-like cutting member is connected, an elastic member that urges the operation part in one axial direction, and the operation part by the elasticity of the elastic member When the operation unit and the main body are prevented from rotating relative to each other at a predetermined position in the stroke, the operation unit is moved from the predetermined position against the elastic force of the elastic member. Comprising a clutch mechanism that permits relative rotation between the operation portion and the body portion.
好ましい実施の形態では、上記クラッチ機構は、上記操作部において回転方向に沿って設けられた複数の第1係合部と、上記本体部において回転方向に沿って設けられた複数の第2係合部と、を有しており、上記第1係合部と上記第2係合部とが係合することにより、上記操作部と上記本体部との相対回転が阻止される。
In a preferred embodiment, the clutch mechanism includes a plurality of first engagement portions provided along the rotation direction in the operation portion, and a plurality of second engagements provided along the rotation direction in the main body portion. And the first engagement portion and the second engagement portion engage with each other, thereby preventing relative rotation between the operation portion and the main body portion.
本発明の第4の側面によって提供される草刈機は、動力源と、この動力源の動力によって回転駆動される回転刃取付け軸と、を備え、上記回転刃取付け軸には、上記本発明の第1~第3の側面に係る草刈機用回転刃が取付けられていることを特徴とする。
A mower provided by the fourth aspect of the present invention includes a power source and a rotary blade mounting shaft that is rotationally driven by the power of the power source. A rotary blade for a mower according to the first to third aspects is attached.
以下、本発明の好ましい実施の形態につき、図面を参照して具体的に説明する。
Hereinafter, preferred embodiments of the present invention will be specifically described with reference to the drawings.
図1~図5は、本発明に係る草刈機用回転刃およびこれが用いられた草刈機の一実施形態を示している。図1によく表れているように、草刈機Bにおいては、操作管12の基端側には、駆動源としての小型エンジン11が連結されており、その回転出力が、操作管12に内挿された伝動軸13を介して操作管先端部に伝達される構成となっている。小型エンジン11としては、作業者の携帯性を考慮して、たとえば排気量が25cc程度のものが用いられる。操作管12の基端には小型エンジン11が直接的に取り付けられる場合もあるし、フレシキブルな伝動軸を介してたとえば背負い枠に搭載されるエンジンが連結される場合もある。図2および図3によく表れているように、操作管12の先端部のギヤケース16には、回転刃取付け軸14が支持され、この回転刃取付け軸14と伝動軸13とは、ベベルギヤ機構(図示略)によって連携されている。回転刃取付け軸14には、その外周にスプラインが形成されているとともに、軸端には、軸方向に延びるねじ穴14aが形成されている。
1 to 5 show an embodiment of a rotary blade for a mower according to the present invention and a mower using the same. As clearly shown in FIG. 1, in the mower B, a small engine 11 as a drive source is connected to the proximal end side of the operation tube 12, and the rotation output is inserted into the operation tube 12. It is configured to be transmitted to the distal end portion of the operation tube via the transmitted transmission shaft 13. As the small engine 11, an engine having a displacement of about 25 cc is used in consideration of the portability of the operator. The small engine 11 may be directly attached to the base end of the operation tube 12, or an engine mounted on a backpack frame, for example, may be connected via a flexible transmission shaft. 2 and 3, a rotary blade mounting shaft 14 is supported on the gear case 16 at the tip of the operation tube 12, and the rotary blade mounting shaft 14 and the transmission shaft 13 are connected to a bevel gear mechanism ( (Not shown). A spline is formed on the outer periphery of the rotary blade mounting shaft 14, and a screw hole 14a extending in the axial direction is formed at the shaft end.
上記回転刃取付け軸14には、本発明によって特徴づけられる回転刃A1が取り付けられる。
The rotary blade mounting shaft 14 is attached with the rotary blade A1 characterized by the present invention.
この回転刃A1は、図2および図3によく表れているように、上記回転刃取付け軸14に取付けられて回転させられ、かつ、コード状切断部材の一例としてのナイロンコード切断刃4aを保持する保持部材100と、この保持部材100に対してその回転軸心(回転刃取付け軸14と同一軸心)を中心として相対回転可能なガイド部材200とを備えている。
As shown in FIGS. 2 and 3, the rotary blade A1 is attached to the rotary blade mounting shaft 14 and rotated, and holds a nylon cord cutting blade 4a as an example of a cord-like cutting member. And a guide member 200 that can rotate relative to the holding member 100 around its rotation axis (same axis as the rotary blade mounting shaft 14).
本実施形態では、保持部材100は、回転刃取付け軸14にスプライン嵌合される支持ピース150と、下部ピース110と、これら支持ピース150と下部ピース110との間に挟持されるように支持されるナイロンコード収容ケース120と、このナイロンコード収容ケース120に重ねられるカバー体140(操作部)とを備えている。下部ピース110は、回転刃取付け軸14のねじ穴14aに螺合される取付けボルト15に外嵌されている。
In the present embodiment, the holding member 100 is supported so as to be sandwiched between the support piece 150 that is spline-fitted to the rotary blade mounting shaft 14, the lower piece 110, and the support piece 150 and the lower piece 110. A nylon cord storage case 120 and a cover body 140 (operation unit) that is overlaid on the nylon cord storage case 120. The lower piece 110 is externally fitted to a mounting bolt 15 that is screwed into the screw hole 14 a of the rotary blade mounting shaft 14.
支持ピース150は、回転刃取付け軸14に対して相対回転不能にスプライン嵌合するスプライン孔151aを有するボス部151と、このボス部151の下端から水平方向外方に延びるフランジ部152と、このフランジ部152の周部上面から上方に延びる筒部153と、この筒部153の上部から水平方向外方に突出する環状突部155とを有しており、フランジ部152の下面中心部には、短軸円柱状の膨出部154が形成されている。下部ピース110は、中心孔111aを有するボス部111と、水平方向外方に延びるフランジ部112とを有し、フランジ部112の上面中央には、短軸円柱状の膨出部113が形成されており、この膨出部113の外径は、支持ピース150の膨出部154と同じである。これら支持ピース150と下部ピース110とは、たとえばアルミニウムなどの所定の強度を有する金属によって形成されている。
The support piece 150 includes a boss portion 151 having a spline hole 151a that is spline-fitted so as not to rotate relative to the rotary blade mounting shaft 14, a flange portion 152 that extends outward in the horizontal direction from the lower end of the boss portion 151, and It has a cylindrical portion 153 that extends upward from the upper surface of the peripheral portion of the flange portion 152, and an annular protrusion 155 that protrudes outward in the horizontal direction from the upper portion of the cylindrical portion 153. A short-axis columnar bulging portion 154 is formed. The lower piece 110 has a boss portion 111 having a center hole 111a and a flange portion 112 extending outward in the horizontal direction, and a short-axis columnar bulging portion 113 is formed at the center of the upper surface of the flange portion 112. The outer diameter of the bulging portion 113 is the same as that of the bulging portion 154 of the support piece 150. The support piece 150 and the lower piece 110 are made of a metal having a predetermined strength such as aluminum.
ナイロンコード収容ケース120は、支持ピース150の膨出部154と下部ピース110の膨出部113とに中心孔121aが同時に外嵌され、支持ピース150のフランジ部152の下面と下部ピース110のフランジ部112の上面との間に挟持される内向フランジ部121と、この内向フランジ部121の外周につながる環状のハウジング部122とを備え、たとえば樹脂一体成形によって形成される。ハウジング部122は、円筒状の内周壁122a、この内周壁122aの下端から水平に延びるドーナツ円板状の底壁122b、およびこの底壁122bの外周部から垂直上方に延びる円筒状の外周壁122cによって囲まれており、上方が開放する溝状とされている。
In the nylon cord storage case 120, the center hole 121a is simultaneously fitted to the bulging portion 154 of the support piece 150 and the bulging portion 113 of the lower piece 110, and the lower surface of the flange portion 152 of the support piece 150 and the flange of the lower piece 110 are The inward flange portion 121 sandwiched between the upper surface of the portion 112 and an annular housing portion 122 connected to the outer periphery of the inward flange portion 121 are formed, for example, by resin integral molding. The housing portion 122 includes a cylindrical inner peripheral wall 122a, a donut disk-shaped bottom wall 122b extending horizontally from the lower end of the inner peripheral wall 122a, and a cylindrical outer peripheral wall 122c extending vertically upward from the outer peripheral portion of the bottom wall 122b. Is formed in a groove shape that is open at the top.
カバー体140は、ナイロンコード収容ケース120のハウジング部122の上方開放部分を塞ぐようにして配置されている。本実施形態では、カバー体140は、ドーナツ円板状の天板部141と、この天板部141の内周縁から下垂し、ハウジング部122の内周壁122aに上下スライド移動可能に外嵌される筒胴部143と、天板部141の外周縁から下垂し、ハウジング部122の外周壁122cに上下スライド移動可能に外嵌される周壁部142と、筒胴部143の内周面から内方に突出する環状突部144とを有し、たとえば樹脂一体成形により形成される。このカバー体140は、筒胴部143がハウジング部122の内周壁122aに外嵌されるとともに、環状突部144が支持ピース150の筒部153の外面に嵌合し、かつ、周壁部142がハウジング部122の外周壁122cに外嵌された状態で、所定ストロークで上下方向に移動可能であるとともに、回転刃取付け軸14周りに回転可能である。また、支持ピース150の環状突部155の下面とカバー体140の環状突部144の上面との間には、圧縮コイルバネ156が介装されており、これにより、カバー体140は、常時、下方に向けて付勢されている。
The cover body 140 is disposed so as to block the upper open portion of the housing portion 122 of the nylon cord housing case 120. In the present embodiment, the cover body 140 hangs down from the donut disk-shaped top plate portion 141 and the inner peripheral edge of the top plate portion 141, and is externally fitted to the inner peripheral wall 122a of the housing portion 122 so as to be vertically slidable. A cylindrical body part 143, a peripheral wall part 142 that hangs down from the outer peripheral edge of the top plate part 141 and is slidably mounted on the outer peripheral wall 122c of the housing part 122 so as to be slidable up and down, And is formed by resin integral molding, for example. In the cover body 140, the cylindrical body 143 is fitted on the inner peripheral wall 122 a of the housing part 122, the annular protrusion 144 is fitted on the outer surface of the cylindrical part 153 of the support piece 150, and the peripheral wall 142 is While being fitted on the outer peripheral wall 122c of the housing portion 122, it can move up and down with a predetermined stroke and can rotate around the rotary blade mounting shaft 14. Further, a compression coil spring 156 is interposed between the lower surface of the annular protrusion 155 of the support piece 150 and the upper surface of the annular protrusion 144 of the cover body 140, so that the cover body 140 is always downward It is energized towards.
カバー体140の筒胴部143の下端には、複数の矩形の凹入部145aを周方向に等ピッチで形成することにより、下方に突出する複数の矩形の係合突部145が形成されている。一方、ハウジング部122の底壁122bの内周部上面には、上記凹入部145aに嵌合しうる複数の矩形の係合突部131が形成されている。この係合突部131のハウジング部122の半径方向幅は、カバー体140の筒胴部143の厚みと対応している。ハウジング部122の係合突部131は、カバー体140の隣接する係合突部145間の凹入部145aとの周方向の位置が一致したとき凹入部145aに嵌合し、こうしてハウジング部122の係合突部131とカバー体140の係合突部145とは、相互係合状態となり、カバー体140のハウジング部122ないしナイロンコード収容ケース120に対する相対回転が阻止される。また、このようなハウジング部122の係合突部131とカバー体140の係合突部145との係合状態は、カバー体140が圧縮コイルバネ156によって常時下方に付勢されていることにより、安定的に維持される。
A plurality of rectangular engaging protrusions 145 projecting downward are formed at the lower end of the cylindrical body portion 143 of the cover body 140 by forming a plurality of rectangular recessed portions 145a at equal pitches in the circumferential direction. . On the other hand, on the upper surface of the inner peripheral portion of the bottom wall 122b of the housing portion 122, a plurality of rectangular engaging protrusions 131 that can be fitted into the recessed portion 145a are formed. The radial width of the housing portion 122 of the engagement protrusion 131 corresponds to the thickness of the cylindrical body portion 143 of the cover body 140. The engagement protrusion 131 of the housing portion 122 is fitted into the recess portion 145a when the circumferential position of the recess portion 145a between the adjacent engagement protrusion portions 145 of the cover body 140 is matched, and thus the housing portion 122 is engaged. The engagement protrusion 131 and the engagement protrusion 145 of the cover body 140 are in a mutually engaged state, and relative rotation of the cover body 140 with respect to the housing portion 122 or the nylon cord housing case 120 is prevented. Further, the engagement state between the engagement protrusion 131 of the housing portion 122 and the engagement protrusion 145 of the cover body 140 is such that the cover body 140 is constantly urged downward by the compression coil spring 156. Maintained stably.
また、カバー体140を圧縮コイルバネ156の付勢力に抗して上方に引き上げると、カバー体140の係合突部145とハウジング部122の係合突部131との係合状態が解除され、カバー体140をハウジング部122ないしナイロンコード収容ケース120に対して相対回転させることが可能となる。このようなカバー体140に対する操作の便宜のために、図に示す実施形態では、カバー体140の周壁部142の上部外周面に、ローレット146が膨出状に形成されている。
Further, when the cover body 140 is pulled upward against the urging force of the compression coil spring 156, the engagement state between the engagement protrusion 145 of the cover body 140 and the engagement protrusion 131 of the housing portion 122 is released, and the cover The body 140 can be rotated relative to the housing portion 122 or the nylon cord housing case 120. For the convenience of operation with respect to the cover body 140, in the embodiment shown in the figure, a knurl 146 is formed in a bulging shape on the upper outer peripheral surface of the peripheral wall portion 142 of the cover body 140.
図2、図3および図5に表れているように、カバー体140の天板部141の適所には、周方向に隣接する一対の孔147が形成されており、これら孔147に一連長尺のナイロンコード4の長手方向中心付近を通し、実質的に2本となったナイロンコード4がナイロンコード収容ケース120のハウジング部122に収容されている。本実施形態では、上述のようにハウジング部122の内周壁122aにカバー体140の筒胴部143が外嵌させられており、ナイロンコード4は、カバー体140の筒胴部143の外周に巻き取られた状態でハウジング部122に収容されている。2本のナイロンコード4の先端側は、ナイロンコード収容ケース120にその直径方向に対向するように2箇所開けた導出孔123からそれぞれ外部に導出され、このように導出された部分の先端側が、ナイロンコード切断刃4aとして機能することになる。なお、本実施形態では、導出孔123は、ナイロンコード収容ケース120の外周壁122cと底壁122bとの境界に斜めに傾斜させて形成した貫通孔124に、耐摩耗性に優れたアルミ製の筒状カラー125が装着された構成とされている。すなわち、導出孔123は、その外方端が内方端より下位となるように傾斜しているのであり、これにより、ナイロンコード切断刃4aは、ナイロンコード収容ケース120の定位置から、後述するガイド部材200の上面により近づいた状態で外部に導出される。
As shown in FIGS. 2, 3, and 5, a pair of holes 147 adjacent to each other in the circumferential direction are formed at appropriate positions on the top plate part 141 of the cover body 140. Nylon cords 4 substantially passing through the vicinity of the longitudinal center of the nylon cord 4 are accommodated in the housing portion 122 of the nylon cord accommodation case 120. In the present embodiment, the cylindrical body 143 of the cover body 140 is fitted on the inner peripheral wall 122a of the housing part 122 as described above, and the nylon cord 4 is wound around the outer periphery of the cylindrical body 143 of the cover body 140. It is accommodated in the housing part 122 in the removed state. The leading end sides of the two nylon cords 4 are led out to the outside from the lead-out holes 123 opened at two locations so as to face the nylon cord housing case 120 in the diametrical direction, and the leading end side of the portion thus led out is It functions as the nylon cord cutting blade 4a. In the present embodiment, the lead-out hole 123 is formed in an aluminum hole that is excellent in wear resistance in a through hole 124 that is formed obliquely at the boundary between the outer peripheral wall 122c and the bottom wall 122b of the nylon cord housing case 120. A cylindrical collar 125 is mounted. That is, the lead-out hole 123 is inclined so that the outer end thereof is lower than the inner end, whereby the nylon cord cutting blade 4a is described later from a fixed position of the nylon cord housing case 120. The guide member 200 is led out to the outside while being closer to the upper surface.
図2、図3および図4から理解されるように、カバー体140をナイロンコード収容ケース120に対して相対回転させると、このカバー体140と一体的な筒胴部143に巻回保持されたナイロンコード4が、カバー体140と一体になってナイロンコード収容ケース120に対して相対回転させられる。すなわち、カバー体140の回転操作に応じて、導出孔123から導出されるナイロンコード切断刃4aの長さを調節することができる。ここで、操作カバー体140をナイロンコード収容ケース120に対してナイロンコード巻取り方向に相対回転させると、ナイロンコード切断刃4aの延出長さを短縮することができ、逆に、ナイロンコード繰り出し方向に相対回転させると、ナイロンコード切断刃4aの延出長さを延長することができる。
As understood from FIGS. 2, 3, and 4, when the cover body 140 is rotated relative to the nylon cord housing case 120, the cover body 140 is wound and held in the cylindrical body 143 integrated with the cover body 140. The nylon cord 4 is integrated with the cover body 140 and rotated relative to the nylon cord housing case 120. That is, according to the rotation operation of the cover body 140, the length of the nylon cord cutting blade 4a led out from the lead-out hole 123 can be adjusted. Here, when the operation cover body 140 is rotated relative to the nylon cord storage case 120 in the nylon cord winding direction, the extension length of the nylon cord cutting blade 4a can be shortened. When the relative rotation is performed in the direction, the extension length of the nylon cord cutting blade 4a can be extended.
ガイド部材200は、中心筒部211およびこの中心筒部211の下端から延出する円板部220を備え、好ましくは樹脂により一体成形されている。本実施形態においては、円板部220は、水平平板状であり、その外周部には、複数の凹部240が形成されている。本実施形態で、この複数の凹部240は、図5によく表れているように、円板部220の円形外周縁から凹入するように、周方向に等ピッチで形成されている。凹部240の形成ピッチは、たとえば、20~30mmの範囲とし、凹部240の周方向幅wは、15~25mmの範囲とし、凹部240の深さdは、5~13mmの範囲とすることができるが、これに限定されない。そして、図5によく表れているように、この凹部240の底部240cは、滑らかに湾曲させられていることが肝要である。
The guide member 200 includes a central cylindrical portion 211 and a disc portion 220 extending from the lower end of the central cylindrical portion 211, and is preferably integrally formed of resin. In this embodiment, the disc part 220 is a horizontal flat plate shape, and the several recessed part 240 is formed in the outer peripheral part. In the present embodiment, as shown in FIG. 5, the plurality of recesses 240 are formed at equal pitches in the circumferential direction so as to be recessed from the circular outer peripheral edge of the disc part 220. The formation pitch of the recesses 240 can be, for example, in the range of 20 to 30 mm, the circumferential width w of the recesses 240 can be in the range of 15 to 25 mm, and the depth d of the recesses 240 can be in the range of 5 to 13 mm. However, it is not limited to this. As clearly shown in FIG. 5, it is important that the bottom 240c of the recess 240 is smoothly curved.
図2、図3および図5に表れているように、円板部220の外周(ガイド部材200の外周縁)は、上記した保持部材100よりも半径方向外方に延出している。このガイド部材200における中心筒部211の内面には、ベアリング230の外輪231が圧入保持されている。
2, 3, and 5, the outer periphery of the disc portion 220 (the outer peripheral edge of the guide member 200) extends outward in the radial direction from the holding member 100 described above. The outer ring 231 of the bearing 230 is press-fitted and held on the inner surface of the central cylindrical portion 211 of the guide member 200.
回転刃取付け軸14に対する回転刃A1の取付けは、たとえば、次のようにして行われる。まず、支持ピース150、下部ピース110、ナイロンコード収容ケース120、カバー体140を組み合わせ、ナイロンコード4を上記のようにナイロンコード収容ケース120内に収容した状態の保持部材100を、支持ピース150のボス部151のスプライン孔151aを回転刃取付け軸14にスプライン嵌合させることにより、回転刃取付け軸14に保持させる。次いで、ガイド部材200を、これに圧入保持させたベアリング230の内輪232を下部ピース110のボス部111の下端に突き当てた状態において保持する。次いで、ボルト15をベアリング230の内輪232、下部ピース110のボス部111に通挿しつつ、回転刃取付け軸14の軸端に設けたねじ穴14aにねじ込む。これにより、回転刃取付け軸14ないし支持ピース150と、ボルト15の頭部15aとの間に、下部ピース110のボス部111、およびベアリング230の内輪232が挟圧固定される。このとき、同時に、ナイロンコード収容ケース120の内向フランジ部121が支持ピース150のフランジ部152と下部ピース110のフランジ部112との間に挟圧されるので、このナイロンコード収容ケース120もまた、回転刃取付け軸14、支持ピース150および下部ピース110と一体化される。図2および図3に表れているように、ベアリング230およびボルト15の頭部15aは、ガイド部材200の中心筒部211内に収容された恰好で組み立てられるので、ガイド部材200の平板状の円板部220の下面側には、何ら突起物が存在しない。
The attachment of the rotary blade A1 to the rotary blade attachment shaft 14 is performed as follows, for example. First, the support piece 150, the lower piece 110, the nylon cord accommodation case 120, and the cover body 140 are combined, and the holding member 100 in a state where the nylon cord 4 is accommodated in the nylon cord accommodation case 120 as described above is attached to the support piece 150. The spline hole 151 a of the boss portion 151 is spline fitted to the rotary blade mounting shaft 14 to be held on the rotary blade mounting shaft 14. Next, the guide member 200 is held in a state where the inner ring 232 of the bearing 230 press-fitted and held against the guide member 200 is abutted against the lower end of the boss portion 111 of the lower piece 110. Next, the bolt 15 is screwed into the screw hole 14 a provided at the shaft end of the rotary blade mounting shaft 14 while being inserted into the inner ring 232 of the bearing 230 and the boss portion 111 of the lower piece 110. Thus, the boss 111 of the lower piece 110 and the inner ring 232 of the bearing 230 are clamped and fixed between the rotary blade mounting shaft 14 or the support piece 150 and the head 15 a of the bolt 15. At the same time, since the inward flange portion 121 of the nylon cord housing case 120 is sandwiched between the flange portion 152 of the support piece 150 and the flange portion 112 of the lower piece 110, the nylon cord housing case 120 is also The rotary blade mounting shaft 14, the support piece 150 and the lower piece 110 are integrated. As shown in FIGS. 2 and 3, the bearing 230 and the head portion 15 a of the bolt 15 are assembled in the form of being accommodated in the central cylindrical portion 211 of the guide member 200, so that the flat circle of the guide member 200 is formed. There are no protrusions on the lower surface side of the plate portion 220.
ナイロンコード切断刃4aは、たとえば、直径3mm程度のものが使用される。そして、上記した組立て状態においては、ナイロンコード切断刃4aは、ナイロンコード収容ケース120の外周壁122cと底壁122bとの境界において斜め下方を向いて形成した導出孔123から導出させられている。そのため、この回転刃A1を高速回転させた状態において、保持部材100の回転とともに旋回するナイロンコード切断刃4aをガイド部材200の上面に近接させることができ、たとえば、ナイロンコード切断刃4aとガイド部材200の上面との間の隙間を、たとえば2~5mm、より好ましくは2~3mm程度とし、最小2mm程度まで縮小させることができる。なお、この状態において、ナイロンコード切断刃4aは、その先端位置がガイド部材200の外縁と一致するか、わずかに延出するように調節される。
As the nylon cord cutting blade 4a, for example, one having a diameter of about 3 mm is used. In the assembled state described above, the nylon cord cutting blade 4a is led out from a lead-out hole 123 formed facing obliquely downward at the boundary between the outer peripheral wall 122c and the bottom wall 122b of the nylon cord housing case 120. Therefore, in a state where the rotary blade A1 is rotated at a high speed, the nylon cord cutting blade 4a rotating with the rotation of the holding member 100 can be brought close to the upper surface of the guide member 200. For example, the nylon cord cutting blade 4a and the guide member The gap between the upper surface of 200 is, for example, 2 to 5 mm, more preferably about 2 to 3 mm, and can be reduced to a minimum of about 2 mm. In this state, the nylon cord cutting blade 4a is adjusted so that the tip position thereof coincides with the outer edge of the guide member 200 or slightly extends.
上記のように回転刃取付け軸14に取付けられた状態において、この回転刃A1は、回転刃取付け軸14の回転に伴い、保持部材100ないしナイロンコード切断刃4aが上記ガイド部材200の上面よりもわずかに上位の位置で回転させられ、一方、ガイド部材200は、ベアリング230によって、回転刃取付け軸14ないし保持部材100に対して回転自由な状態となる。このことはすなわち、ガイド部材200は、保持部材100ないしナイロンコード切断刃4aの回転中においても、草刈機Bの小型エンジン11の回転駆動力を受けて回転することはなく、外物に接触するなどしても、回転しない状態を維持することができることを意味する。
When the rotary blade A1 is attached to the rotary blade attachment shaft 14 as described above, the holding member 100 or the nylon cord cutting blade 4a is more than the upper surface of the guide member 200 as the rotary blade attachment shaft 14 rotates. The guide member 200 is rotated freely with respect to the rotary blade mounting shaft 14 or the holding member 100 by the bearing 230. This means that the guide member 200 does not rotate by receiving the rotational driving force of the small engine 11 of the mower B even during the rotation of the holding member 100 or the nylon cord cutting blade 4a, and does not rotate. This means that it is possible to maintain a non-rotating state.
回転刃A1の各部の寸法は、たとえば、保持部材100の外径が100mm程度、ガイド部材200の外径が300~500mm程度に設定されるが、これらの寸法は、限定されるものではない。
The dimensions of each part of the rotary blade A1 are set such that the outer diameter of the holding member 100 is about 100 mm and the outer diameter of the guide member 200 is about 300 to 500 mm, but these dimensions are not limited.
次に、草刈機Bないし回転刃A1の作動について説明する。
Next, the operation of the mower B or the rotary blade A1 will be described.
草刈機Bを用いて草刈り作業を行う際には、たとえば、スロットルレバーを操作するなどしてエンジン11のスロットルの開度を上げると、小型エンジン11の回転出力により、回転刃A1のうち、保持部材100ないしナイロンコード切断刃4aが図5のN方向に回転させられる。エンジン11のスロットルの開度を調節することにより、ナイロンコード切断刃4aの回転数を調節することができる。エンジン11の回転出力は、伝動軸13からギヤケース16内のベベルギヤ(図示略)により減速され、回転刃取付け軸14を介して保持部材100ないしナイロンコード切断刃4aへと伝えられる。保持部材100ないしナイロンコード切断刃4aの回転数は、たとえば5,000~6,300rpmに達する。回転刃A1の外径(ガイド部材200の外径)をたとえば300mmとすると、ナイロンコード切断刃4aの先端部の周速は優に350km/hに達する。この回転刃A1を地面に沿って移動させてゆくと、雑草等の比較的軟質細状の物体は、ガイド部材200の外周に形成した凹部240に進入した瞬間に上記のように高速で旋回するナイロンコード切断刃4aによる横方向からの強烈な衝突を受け、その衝撃によって難なく切断される。ナイロンコード切断刃4aは、直径が高々3mm程度であり、かつ軽量であるが、先端部の周速が上記のようにきわめて高速であるため、軟質である雑草等の茎を切断するのには十分な運動エネルギを有しているのである。
When mowing using the mower B, for example, if the throttle opening of the engine 11 is increased by operating a throttle lever or the like, the rotary blade A1 is held by the rotational output of the small engine 11. The member 100 or the nylon cord cutting blade 4a is rotated in the N direction in FIG. By adjusting the throttle opening of the engine 11, the rotational speed of the nylon cord cutting blade 4a can be adjusted. The rotational output of the engine 11 is decelerated from the transmission shaft 13 by a bevel gear (not shown) in the gear case 16, and is transmitted to the holding member 100 or the nylon cord cutting blade 4a via the rotary blade mounting shaft 14. The number of rotations of the holding member 100 or the nylon cord cutting blade 4a reaches, for example, 5,000 to 6,300 rpm. If the outer diameter of the rotary blade A1 (the outer diameter of the guide member 200) is 300 mm, for example, the peripheral speed of the tip of the nylon cord cutting blade 4a will easily reach 350 km / h. When the rotary blade A1 is moved along the ground, a relatively soft and thin object such as weed turns at a high speed as described above at the moment when it enters the recess 240 formed on the outer periphery of the guide member 200. The nylon cord cutting blade 4a receives a strong collision from the lateral direction and is cut without difficulty by the impact. The nylon cord cutting blade 4a has a diameter of about 3 mm at most and is lightweight, but the peripheral speed of the tip is extremely high as described above, so that it is necessary to cut soft weeds and other stems. It has enough kinetic energy.
より詳しくは、本実施形態においては、ガイド部材200の外周に複数の凹部240が形成されているため、回転刃A1を地面に沿って移動させていくと、雑草等は、図5に示すように、その茎部Pが凹部240に捕捉された状態で高速旋回するナイロンコード切断刃4aによる切断作用を受ける。これにより、雑草等に衝撃的な剪断力を効果的に作用させてこれを切断することができる。しかも、本実施形態では、高速旋回するナイロンコード切断刃4aとガイド部材200の上面との隙間が、たとえば2~5mm、より好ましくは2~3mmと小さいため、凹部240のナイロンコード回転刃4aの回転方向前方側の内面240aと、回転刃A1の半径方向に延びつつ旋回するナンロンコード切断刃4aとが、あたかも、鋏の刃のように作用して雑草等に瞬間的な剪断力を作用させ、これを切断することができる。このような切断作用は、従来の回転刃によっては容易に切断することができなかった、アサガオ類のようなつる性の雑草の刈り取りにも有効である。
More specifically, in the present embodiment, a plurality of recesses 240 are formed on the outer periphery of the guide member 200. Therefore, when the rotary blade A1 is moved along the ground, weeds and the like are as shown in FIG. In addition, it is subjected to a cutting action by the nylon cord cutting blade 4a that rotates at a high speed in a state where the stem portion P is captured in the recess 240. Thereby, a shocking shearing force can be effectively applied to weeds or the like to cut it. In addition, in this embodiment, the gap between the nylon cord cutting blade 4a that rotates at high speed and the upper surface of the guide member 200 is as small as 2 to 5 mm, and more preferably 2 to 3 mm. The inner surface 240a on the front side in the rotational direction and the Nanlon cord cutting blade 4a that swivels while extending in the radial direction of the rotary blade A1 act as if the blade of a reed acts as an instantaneous shearing force on weeds and the like. Can be cut. Such a cutting action is also effective for harvesting climbing weeds such as morning glory that could not be easily cut by a conventional rotary blade.
しかも、本実施形態においては、ガイド部材200の凹部240の底部240cは、滑らかに湾曲しているので、回転刃A1が地面に沿って移動する際に、直立型の雑草等の切株が凹部240に引っ掛かりにくい。また、ガイド部材200は平板状であって下面に突起物がないため、回転刃A1を地面に沿って滑らせるように移動させることができる。
In addition, in the present embodiment, the bottom 240c of the recess 240 of the guide member 200 is smoothly curved. Therefore, when the rotary blade A1 moves along the ground, a stump such as an upright weed is formed in the recess 240. It is hard to get caught in. Further, since the guide member 200 has a flat plate shape and no protrusions on the lower surface, the rotary blade A1 can be moved so as to slide along the ground.
このようなことから、本実施形態に係る回転刃A1によれば、この回転刃A1の重量を地面にあずけるようにしつつ、地面に沿って前後左右どの方向に移動させても、その方向の先にある雑草等を刈ることができるのであり、疲労が少なく、かつ、作業効率が著しく高まる。
For this reason, according to the rotary blade A1 according to the present embodiment, the weight of the rotary blade A1 can be applied to the ground, and the tip in that direction can be moved in any direction along the ground. Therefore, weeds and the like can be cut and there is little fatigue and work efficiency is remarkably increased.
上記のように、本実施形態においては、ナイロンコード切断刃4aの先端とガイド部材200の外周縁とが一致するようにして使用するのが望ましく、この場合には、保持部材100ないしナイロンコード切断刃4aが高速回転している状態においても、ナイロンコード切断刃4aの先端が地面に直接接触することがない。したがって、高速旋回するナイロンコード切断刃4aが地面の小石や砂を跳ね飛ばしたりすることがなく、安全であり、また、ナイロンコード切断刃4aの先端が無駄に磨耗することもない。なお、仮に、ナイロンコード切断刃4aの先端がガイド部材200の外周縁から延出していて硬質物体に接触したことしても、衝撃はナイロンコード切断刃4aが曲げ変形することによって吸収されるので、回転刃A1が衝撃によって破損するということはなく、また、保持部材100ないしナイロンコード切断刃4aの回転数が低下するということもない。さらには、ナイロンコード切断刃4aは、先端位置がガイド部材200の外周縁と一致するまで磨耗すればそれ以上の磨耗は抑制され、ナイロンコード切断刃4aの先端がガイド部材200の外周縁と一致するという、適正な状態が自動的に現出する。
As described above, in the present embodiment, it is desirable to use the nylon cord cutting blade 4a so that the tip of the nylon cord cutting blade 4a coincides with the outer peripheral edge of the guide member 200. In this case, the holding member 100 or the nylon cord cutting Even when the blade 4a is rotating at high speed, the tip of the nylon cord cutting blade 4a does not directly contact the ground. Therefore, the nylon cord cutting blade 4a that rotates at high speed does not jump off pebbles and sand on the ground, and is safe, and the tip of the nylon cord cutting blade 4a does not wear unnecessarily. Even if the tip of the nylon cord cutting blade 4a extends from the outer peripheral edge of the guide member 200 and comes into contact with a hard object, the impact is absorbed by the nylon cord cutting blade 4a being bent and deformed. The rotary blade A1 is not damaged by an impact, and the rotation speed of the holding member 100 or the nylon cord cutting blade 4a is not reduced. Further, if the nylon cord cutting blade 4a is worn until the tip position coincides with the outer peripheral edge of the guide member 200, further wear is suppressed, and the tip of the nylon cord cutting blade 4a matches the outer peripheral edge of the guide member 200. Appropriate status automatically appears.
保持部材100ないしナイロンコード切断刃4aが高速回転させられた使用状態においては、保持部材100のカバー体140は、圧縮コイルバネ156によって常時下方向に付勢されており、図2に示すように、下動位置にある状態が維持される。このとき、カバー体140の係合突部145とハウジング部122の係合突部131とが係合しており、ナイロンコード収容ケース120に対するカバー体140の相対回転が阻止されている。したがって、ナイロンコード切断刃4aは、高速回転させられても、導出孔123からの延出長さが略一定に維持される。
In the use state in which the holding member 100 or the nylon cord cutting blade 4a is rotated at a high speed, the cover body 140 of the holding member 100 is always urged downward by the compression coil spring 156, and as shown in FIG. The state in the down position is maintained. At this time, the engagement protrusion 145 of the cover body 140 and the engagement protrusion 131 of the housing part 122 are engaged, and relative rotation of the cover body 140 with respect to the nylon cord housing case 120 is prevented. Therefore, even if the nylon cord cutting blade 4a is rotated at a high speed, the extension length from the lead-out hole 123 is maintained substantially constant.
ナイロンコード切断刃4aは、使用を継続することによって、先端部において摩耗や切損等が起こり、導出孔123からの延出長さが次第に短くなっていく。このような場合には、小型エンジン11を停止して回転刃A1を静止させたうえでカバー体140を引き上げると、図3に示すように係合突部145,131どうしの相互係合状態が解除され、カバー体140と、ナイロンコード収容ケース120とは、相対回転が許容される状態となる。ここで、カバー体140をナイロンコード収容ケース120に対してナイロンコード繰り出し方向に相対回転させると、ナイロンコード切断刃4aの延出長さを、延長することができる。この際、係合突部145,131の形成ピッチ相当分カバー体140を回転させて再び係合突部145,131を相互係合させることにより、ほぼ、係合突部145,131の形成ピッチに相当する長さずつ(たとえば、10~15mmずつ)、ナイロンコード切断刃4aを延長することができる。
As the nylon cord cutting blade 4a continues to be used, wear, breakage, or the like occurs at the tip, and the extension length from the lead-out hole 123 gradually decreases. In such a case, when the small engine 11 is stopped and the rotary blade A1 is stationary and the cover body 140 is pulled up, the engagement state between the engagement protrusions 145 and 131 is as shown in FIG. The cover body 140 and the nylon cord storage case 120 are in a state where relative rotation is allowed. Here, when the cover body 140 is rotated relative to the nylon cord housing case 120 in the nylon cord feeding direction, the extension length of the nylon cord cutting blade 4a can be extended. At this time, the cover body 140 is rotated by an amount corresponding to the formation pitch of the engagement protrusions 145 and 131 and the engagement protrusions 145 and 131 are mutually engaged again, so that the formation pitch of the engagement protrusions 145 and 131 is substantially increased. The nylon cord cutting blade 4a can be extended by a length corresponding to (for example, by 10 to 15 mm).
本実施形態では、カバー体140を引き上げて上動させるといった簡単な操作によって、ナイロンコード収容ケース120に対する操作カバー体140の相対回転を許容する状態にすることができ、ナイロンコード切断刃4aの延出長さを調節することができる。
In the present embodiment, a simple operation of pulling up and moving the cover body 140 up allows the operation cover body 140 to be allowed to rotate relative to the nylon cord storage case 120, and the nylon cord cutting blade 4a extends. The length can be adjusted.
また、回転刃A1においては、草刈機Bの小型エンジン11の出力によって回転させられる部分は、上記のように保持部材100ないしナイロンコード切断刃4aだけである。保持部材100を樹脂製とすることにより、これら保持部材100ないしナイロンコード切断刃4aの重量は、たかだか150~200gの軽量とすることができる。したがって、小型エンジン11の負担が小さく、ナイロンコード切断刃4aの周速を一段と高速化し、その高速回転状態を維持することができる。
Further, in the rotary blade A1, the portion rotated by the output of the small engine 11 of the mower B is only the holding member 100 or the nylon cord cutting blade 4a as described above. By making the holding member 100 made of resin, the weight of the holding member 100 or the nylon cord cutting blade 4a can be as low as 150 to 200 g. Therefore, the burden on the small engine 11 is small, the peripheral speed of the nylon cord cutting blade 4a can be further increased, and the high-speed rotation state can be maintained.
ガイド部材200の直径は種々変更可能である。たとえば、ガイド部材200の直径を300~500mm程度としてもよい。ガイド部材200の直径が500mmの場合、保持部材100の回転数を6300rpmとすると、ガイド部材200の周速、すなわち、ナイロンコード切断刃4aの先端の速度は、約600km/hにまで達することとなる。前述したように、回転刃A1において回転させられる部分は、保持部材100ないしナイロンコード切断刃4aだけであり、比較的大径のガイド部材200が回転させられるわけではないので、このようなナイロンコード切断刃4aの先端速度を達成することができるのである。このような回転刃A1を用いれば、ナイロンコード切断刃4aが描く円弧の直径が大きくその周速も高速であるために、より広い面積の領域の草刈り作業を非常に効率よく行うことができる。
The diameter of the guide member 200 can be variously changed. For example, the diameter of the guide member 200 may be about 300 to 500 mm. When the guide member 200 has a diameter of 500 mm and the rotation speed of the holding member 100 is 6300 rpm, the peripheral speed of the guide member 200, that is, the speed of the tip of the nylon cord cutting blade 4a reaches about 600 km / h. Become. As described above, the portion rotated in the rotary blade A1 is only the holding member 100 or the nylon cord cutting blade 4a, and the guide member 200 having a relatively large diameter is not rotated. The tip speed of the cutting blade 4a can be achieved. If such a rotary blade A1 is used, since the diameter of the circular arc drawn by the nylon cord cutting blade 4a is large and the peripheral speed thereof is high, the mowing work in a wider area can be performed very efficiently.
なお、回転刃A1においては、2本のナイロンコード4を用いて構成されているが、ナイロンコード4の本数はこれより多くしてもよい。たとえば、4本のナイロンコード4を、ナイロンコード収容ケース120の外周壁122cの4箇所に均等に割り振って設けられた導出孔123からそれぞれ外部に導出するように構成することもできる。このようにナイロンコード4の本数、すなわちナイロンコード切断刃4aの数を増やすと、回転刃A1全体を比較的に速く移動させても雑草を適確に切断することができ、その結果、草刈り作業をより一層効率よく行うことができる。
In addition, although the rotary blade A1 is configured using two nylon cords 4, the number of nylon cords 4 may be larger than this. For example, the four nylon cords 4 may be configured to be led out to the outside from the lead-out holes 123 provided evenly allocated to four locations on the outer peripheral wall 122c of the nylon cord housing case 120. When the number of nylon cords 4, that is, the number of nylon cord cutting blades 4a is increased in this way, weeds can be accurately cut even if the entire rotary blade A1 is moved relatively quickly, and as a result, mowing work Can be performed more efficiently.
図6は、本発明に係る草刈機用回転刃の他の例を示している。なお、図6においては、上記図1~図5に示した実施形態と同一または類似の要素には、同一の符号を付しており、適宜説明を省略する。
FIG. 6 shows another example of the rotary blade for mower according to the present invention. In FIG. 6, the same or similar elements as those in the embodiment shown in FIGS. 1 to 5 are denoted by the same reference numerals, and the description thereof will be omitted as appropriate.
図6に示された回転刃A2は、保持部材100において、ナイロンコード収容ケース120からナイロンコード4を導出させる導出孔123が、傾斜せず、水平方向に延びていること、ガイド部材200において、その水平外周部220cが、平板状の水平主部220aに対して上方に変位させられていること、が上記した回転刃A1と異なり、その余の構成は、同様である。以下においては、回転刃A2において、回転刃A1と異なる構成を中心に説明する。
In the rotary blade A2 shown in FIG. 6, in the holding member 100, the lead-out hole 123 for leading the nylon cord 4 from the nylon cord housing case 120 is not inclined but extends in the horizontal direction. Unlike the rotary blade A1 described above, the horizontal outer peripheral portion 220c is displaced upward with respect to the flat horizontal main portion 220a, and the remaining configuration is the same. In the following, the configuration of the rotary blade A2 that is different from the rotary blade A1 will be mainly described.
この回転刃A2においても、ナイロンコード収容ケース120のハウジング部122の直径方向に対向する2箇所に、導出孔123が形成されている。本実施形態においてこの導出孔123は、外周壁122cに設けた水平方向の貫通孔124に、耐磨耗性に優れたアルミ製の筒状カラー125を装着して形成されている。
Also in the rotary blade A2, lead-out holes 123 are formed at two locations facing the diameter direction of the housing portion 122 of the nylon cord housing case 120. In the present embodiment, the lead-out hole 123 is formed by mounting an aluminum cylindrical collar 125 excellent in wear resistance on a horizontal through hole 124 provided in the outer peripheral wall 122c.
この回転刃A2のガイド部材200は、中心筒部211およびこの中心筒部211の下端から延出する円板部220を備え、好ましくは樹脂により一体成形されている。本実施形態においては、この円板部220は、水平主部220aと、この水平主部220aの外周につながる上方傾斜部220bと、この上方傾斜部220bの外周につながる水平外周部220cとを有して構成されており、これにより、水平外周部220cは、平板状の水平主部(一般部)220aに対して所定量上方に変位させられている。水平主部220aは、保持部材100の外周から半径方向に十分延出する程度の割合を占めており、換言すると、水平外周部220cの半径方向幅は、後記する複数の凹部240を形成しても必要な強度を保持できる程度でよく、たとえば、ガイド部材200の半径の1/3~1/20とすることができる。水平外周部220cの水平主部220aに対する変位量は、後記するように、この回転刃A2を高速回転させた状態において、保持部材100の回転とともに旋回するナイロンコード切断刃4aと水平外周部220cの上面との間の隙間がたとえば、2~5mm、より好ましくは2~3mm程度となるように設定される。
The guide member 200 of the rotary blade A2 includes a center tube portion 211 and a disc portion 220 extending from the lower end of the center tube portion 211, and is preferably integrally formed of resin. In this embodiment, the disc part 220 has a horizontal main part 220a, an upper inclined part 220b connected to the outer periphery of the horizontal main part 220a, and a horizontal outer peripheral part 220c connected to the outer periphery of the upper inclined part 220b. Thus, the horizontal outer peripheral portion 220c is displaced upward by a predetermined amount with respect to the flat horizontal main portion (general portion) 220a. The horizontal main portion 220a occupies a ratio that sufficiently extends in the radial direction from the outer periphery of the holding member 100. In other words, the radial width of the horizontal outer peripheral portion 220c forms a plurality of concave portions 240 described later. However, it is sufficient that the required strength can be maintained. For example, the radius of the guide member 200 can be set to 1/3 to 1/20. As will be described later, the displacement amount of the horizontal outer peripheral portion 220c with respect to the horizontal main portion 220a is determined by the nylon cord cutting blade 4a rotating with the rotation of the holding member 100 and the horizontal outer peripheral portion 220c in a state where the rotary blade A2 is rotated at a high speed. For example, the gap between the upper surface and the upper surface is set to 2 to 5 mm, more preferably about 2 to 3 mm.
ガイド部材200の水平外周部220cには、複数の凹部240が形成されている。この凹部240の形態としては、たとえば、回転刃A1について上述したのと同様のものとすることができる。
A plurality of concave portions 240 are formed in the horizontal outer peripheral portion 220 c of the guide member 200. As a form of this recessed part 240, it can be set as the thing similar to having mentioned above about rotary blade A1, for example.
回転刃取付け軸14に対する回転刃A2の取付けは、回転刃A1について上述したのと同様に行うことができる。
The attachment of the rotary blade A2 to the rotary blade attachment shaft 14 can be performed in the same manner as described above for the rotary blade A1.
この回転刃A2においても、地面等に接して静止状態を維持できるガイド部材200を備えること、ナイロンコード切断刃4aとガイド部材200の周部との間隔を可能な限り縮小できること、ガイド部材200の外周には、複数の凹部240が形成されていること、において回転刃A1と共通しているので、基本的に回転刃A1について上述したのと同様の効率的な草刈り作業を行うことができる。
The rotary blade A2 also includes a guide member 200 that can be kept in contact with the ground or the like, can reduce the distance between the nylon cord cutting blade 4a and the periphery of the guide member 200 as much as possible, Since a plurality of recesses 240 are formed on the outer periphery, it is common to the rotary blade A1 in that the same efficient mowing work as described above for the rotary blade A1 can be performed.
なお、回転刃A2においては、ガイド部材200は、全体が平板ではなく、半径方向所定幅の水平外周部220cが水平主部220aに対して上方に変位させられているため、剛性が高まり、このガイド部材200を樹脂成形により形成するに際し、その肉厚をさらに縮小して、軽量化をより促進することができる。
In the rotary blade A2, the guide member 200 is not entirely a flat plate, and the horizontal outer peripheral portion 220c having a predetermined radial width is displaced upward with respect to the horizontal main portion 220a. When the guide member 200 is formed by resin molding, the thickness can be further reduced to further reduce the weight.
また、回転刃A2においても、ガイド部材200の水平主部220aが広く、かつその下面に突起物がないため、地面に沿って滑らせるようにして草刈り作業を行うことができる。この回転刃A2においては、ガイド部材200の水平外周部220cが所定量上方に変位させられているため、雑草等を地面から所定の一定高さ位置で切断し、草刈り作業後の地面の見栄えを向上させることができる。
Also in the rotary blade A2, since the horizontal main portion 220a of the guide member 200 is wide and there is no protrusion on the lower surface, the mowing operation can be performed by sliding along the ground. In the rotary blade A2, the horizontal outer peripheral portion 220c of the guide member 200 is displaced upward by a predetermined amount, so that weeds and the like are cut from the ground at a predetermined fixed height position, and the appearance of the ground after mowing work is improved. Can be improved.
切断刃A2についても、切断刃A1について上述したのと同様にしてナイロンコード切断刃4aの導出孔123からの延出長さを調節することができる。また、ガイド部材200の直径寸法やナイロンコード切断刃4aの数は、切断刃A1について説明した例と同様に種々設定することができる。
As for the cutting blade A2, the extension length of the nylon cord cutting blade 4a from the outlet hole 123 can be adjusted in the same manner as described above for the cutting blade A1. Moreover, the diameter dimension of the guide member 200 and the number of the nylon cord cutting blades 4a can be variously set similarly to the example described for the cutting blade A1.
もちろん、この発明の範囲は上述した実施形態に限定されることはなく、各請求項に記載した範囲内でのあらゆる変更は、すべて本発明の範囲に包摂される。
Of course, the scope of the present invention is not limited to the above-described embodiments, and all modifications within the scope of the claims are all included in the scope of the present invention.
回転刃A1においては、カバー体140を上下させることにより、ハウジング部122に対するカバー体140の相対回転不能状態と、相対回転許容状態とを選択できる機構を採用して、簡易な操作によりナイロンコード切断刃4aの延長長さを調節できるようにしているが、かかる機構を採用するかどうかは、選択事項である。
In the rotary blade A1, by adopting a mechanism that allows the cover body 140 to be moved up and down to select a relative rotation disabled state of the cover body 140 with respect to the housing portion 122 and a relative rotation permissible state, the nylon cord is cut by a simple operation. Although the extension length of the blade 4a can be adjusted, whether or not to employ such a mechanism is a matter of choice.
さらに、回転刃A1、および回転刃A2において、ガイド部材200の外周に複数の凹部240を設けているが、このような凹部240を設けるかどうかは、選択事項である。このような複数の凹部240を設けなくとも、ナイロンコード切断刃4aとガイド部材200の上面間の隙間が2~5mm、好ましくは、2~3mm程度であれば、ナイロンコード切断刃4aの先端をガイド部材200の外周縁から10~20mm程度延出させて使用することにより、従来に比して十分に効率的な切断作用を期待することができる。
Furthermore, in the rotary blade A1 and the rotary blade A2, a plurality of concave portions 240 are provided on the outer periphery of the guide member 200. Whether or not such concave portions 240 are provided is a matter of choice. Even if such a plurality of recesses 240 are not provided, if the gap between the upper surface of the nylon cord cutting blade 4a and the guide member 200 is 2 to 5 mm, preferably about 2 to 3 mm, the tip of the nylon cord cutting blade 4a is By using the guide member 200 extended from the outer peripheral edge by about 10 to 20 mm, a sufficiently efficient cutting action can be expected as compared with the conventional case.
さらに、回転刃A1、および回転刃A2において、ガイド部材200の外周に複数の凹部240を設ける場合、この凹部240の形態についても限定されず、たとえば、図7や図8に示す形態とすることもできる。
Furthermore, in the rotary blade A1 and the rotary blade A2, when a plurality of recesses 240 are provided on the outer periphery of the guide member 200, the form of the recesses 240 is not limited, and for example, the form shown in FIG. 7 and FIG. You can also.
図7に示す形態では、ガイド部材200の外周に鋸刃のような複数の凸部250が形成されることにより、底部が滑らかに湾曲する複数の凹部240が形成されている。すなわち、凹部240におけるナイロンコード切断刃4aの回転方向前方側の内面240aの傾斜が、回転方向後方側の内面240bの傾斜より急峻となっており、回転方向前方の内面240aにおいて捉えた雑草の茎Pに、高速旋回するナイロンコード切断刃4aによる剪断力を効果的に与え、この茎を切断することができる。回転方向後方側の内面240bの傾斜が緩やかになっているので、対象となる雑草をスムースに凹部240内に導入し、上記した切断作用に供することができる。また、凹部240の底部240cは滑らかに湾曲しているので、切断後の切株が凹部240に引っ掛かって回転刃A1,A2の地面に沿った移動が阻害されるということはない。なお、この場合においても、凹部240の幅wは、たとえば15~25mmの範囲とし、凹部240の深さdは、たとえば5~13mmの範囲とすることができるが、これに限定されない。ただし、凹部240の底部240cが滑らかに湾曲している点については、上記実施形態と同様である。
7, a plurality of convex portions 250 such as saw blades are formed on the outer periphery of the guide member 200, whereby a plurality of concave portions 240 whose bottom portions are smoothly curved are formed. In other words, the slope of the inner surface 240a on the front side in the rotational direction of the nylon cord cutting blade 4a in the recess 240 is steeper than the slope of the inner surface 240b on the rear side in the rotational direction, and the weed stalk captured on the inner surface 240a on the front side in the rotational direction. The stem can be cut by effectively giving P a shearing force by the nylon cord cutting blade 4a that turns at high speed. Since the inclination of the inner surface 240b on the rear side in the rotation direction is gentle, the target weed can be smoothly introduced into the recess 240 and used for the cutting action described above. Moreover, since the bottom part 240c of the recessed part 240 curves smoothly, the cut stump is not caught in the recessed part 240, and the movement along the ground of rotary blade A1, A2 is not inhibited. In this case as well, the width w of the recess 240 can be in the range of, for example, 15 to 25 mm, and the depth d of the recess 240 can be in the range of, for example, 5 to 13 mm, but is not limited thereto. However, the point that the bottom portion 240c of the recess 240 is smoothly curved is the same as in the above embodiment.
図8に示す形態では、複数の三角山状の凸部250a間に凹部240を形成し、この凹部240の底部240cを滑らかに湾曲させるとともに、図9に断面を示すように、凹部240の内面241に傾斜をつけて鋭利な刃状としてある。
In the embodiment shown in FIG. 8, a concave portion 240 is formed between a plurality of triangular mountain-shaped convex portions 250a, the bottom portion 240c of the concave portion 240 is smoothly curved, and the inner surface of the concave portion 240 is shown in a cross section in FIG. A sharp blade shape is formed by inclining 241.
このように構成すると、凹部240に捕捉した雑草等に高速旋回するナイロンコード切断刃4aが衝突するとき、より効果的に雑草等に剪断力を作用させて、速やかにこの雑草等を切断することができる。また、凹部240の内面241が傾斜しているので、雑草等の切株が凹部240からより抜け出しやすくなり、回転刃A1,A2を、地面に沿ってスムースに移動させることができる。なお、この場合においても、凹部240の幅wは、たとえば15~25mmの範囲とし、凹部240の深さdは、たとえば5~13mmの範囲とすることができるか、これに限定されない。
If comprised in this way, when the nylon cord cutting blade 4a which rotates at high speed collides with the weeds etc. which were caught by the recessed part 240, a shear force will be made to act on weeds etc. more effectively, and this weeds etc. will be cut | disconnected quickly. Can do. Further, since the inner surface 241 of the recess 240 is inclined, it becomes easier for stubs such as weeds to come out of the recess 240, and the rotary blades A1 and A2 can be smoothly moved along the ground. Also in this case, the width w of the concave portion 240 can be in the range of 15 to 25 mm, for example, and the depth d of the concave portion 240 can be in the range of 5 to 13 mm, for example, but is not limited thereto.
さらには、図示は省略するが、ガイド部材200の円板部220には、複数の貫通穴を形成してもよい。このようにすれば、ガイド部材200のさらなる軽量化を図ることができる。
Furthermore, although not shown, a plurality of through holes may be formed in the disc portion 220 of the guide member 200. In this way, the guide member 200 can be further reduced in weight.
さらに、本発明の回転刃A1,A2が取付けられて使用される草刈機は、図1に示したような操作管12の先端に回転刃取付け軸14を備える構成のものに限定されず、車輪を有して地面を移動可能なフレームに、エンジン等の動力源およびこの動力源によって回転駆動される回転刃取付け軸を有する、いわゆる自走式の草刈機にも本発明の回転刃A1,A2を取り付けて使用することができる。
Furthermore, the mower used by attaching the rotary blades A1 and A2 of the present invention is not limited to the one having the rotary blade attachment shaft 14 at the tip of the operation tube 12 as shown in FIG. The rotary blades A1 and A2 of the present invention are also applied to a so-called self-propelled mower having a power source such as an engine and a rotary blade mounting shaft that is rotationally driven by the power source. Can be used.
A1,A2 回転刃
B 草刈機
4a コード状切断部材(ナイロンコード切断刃)
14 回転刃取付け軸
15 取付けボルト
15a 頭部(ボルトの)
100 保持部材
110 下部ピース
123 導出孔
200 ガイド部材
220 円板部
220a 水平主部
220c 水平外周部
240 凹部
240c 底部(凹部の) A1, A2 Rotaryblade B Mower 4a Cord cutting member (Nylon cord cutting blade)
14 Rotatingblade mounting shaft 15 Mounting bolt 15a Head (bolt)
DESCRIPTION OFSYMBOLS 100 Holding member 110 Lower piece 123 Lead-out hole 200 Guide member 220 Disc part 220a Horizontal main part 220c Horizontal outer peripheral part 240 Concave part 240c Bottom part (concave part)
B 草刈機
4a コード状切断部材(ナイロンコード切断刃)
14 回転刃取付け軸
15 取付けボルト
15a 頭部(ボルトの)
100 保持部材
110 下部ピース
123 導出孔
200 ガイド部材
220 円板部
220a 水平主部
220c 水平外周部
240 凹部
240c 底部(凹部の) A1, A2 Rotary
14 Rotating
DESCRIPTION OF
Claims (12)
- 草刈機の回転刃取付け軸に取付けられて回転させられる保持部材と、
上記保持部材に基端側が保持され、先端側が当該保持部材に設けた導出孔から半径方向外方に導出させられたコード状切断部材と、
上記保持部材の下位において当該保持部材に対してその回転軸心を中心として相対回転可能なガイド部材と、を備え、
上記導出孔は、その内方端に対して外方端が下位となるように傾斜させられていることを特徴とする、草刈機用回転刃。 A holding member that is attached to the rotary blade attachment shaft of the mower and rotated;
A cord-shaped cutting member in which a proximal end side is held by the holding member and a distal end side is led out radially outward from a lead-out hole provided in the holding member;
A guide member that can rotate relative to the holding member at the lower part of the holding member about the rotation axis thereof;
The rotary blade for a mowing machine, wherein the lead-out hole is inclined with respect to the inner end thereof so that the outer end is lower. - 上記ガイド部材は、円板状である、請求項1に記載の草刈機用回転刃。 The rotary blade for a mower according to claim 1, wherein the guide member has a disk shape.
- 草刈機の回転刃取付け軸に取付けられて回転させられる保持部材と、
上記保持部材に基端側が保持され、先端側が当該保持部材に設けた導出孔から半径方向外方に導出させられたコード状切断部材と、
上記保持部材の下位において当該保持部材に対してその回転軸心を中心として相対回転可能なガイド部材と、を備え、
上記ガイド部材は、一般部と、この一般部に対して上方に変位している外周部とを有する円板状をしていることを特徴とする、草刈機用回転刃。 A holding member that is attached to the rotary blade attachment shaft of the mower and rotated;
A cord-shaped cutting member in which a proximal end side is held by the holding member and a distal end side is led out radially outward from a lead-out hole provided in the holding member;
A guide member that can rotate relative to the holding member at the lower part of the holding member about the rotation axis thereof;
The rotary blade for a mowing machine, wherein the guide member has a disk shape having a general part and an outer peripheral part displaced upward with respect to the general part. - 上記一般部は、平板状であり、上記外周部は、上記一般部に対して上方に変位した平板状である、請求項3に記載の草刈機用回転刃。 The rotary blade for a mower according to claim 3, wherein the general part is a flat plate, and the outer peripheral part is a flat plate displaced upward with respect to the general part.
- 上記外周部の半径方向幅は、上記ガイド部材の半径の1/3~1/20である、請求項4に記載の草刈機用回転刃。 The rotary blade for a mower according to claim 4, wherein a radial width of the outer peripheral portion is 1/3 to 1/20 of a radius of the guide member.
- 草刈機の回転刃取付け軸に取付けられて回転させられる保持部材と、
上記保持部材に基端側が保持され、先端側が半径方向外方に導出させられたコード状切断部材と、
上記保持部材の下位において当該保持部材に対してその回転軸心を中心として相対回転可能なガイド部材と、を備え、
上記ガイド部材は、その外周に複数の凹部が形成されていることを特徴とする、草刈機用回転刃。 A holding member that is attached to the rotary blade attachment shaft of the mower and rotated;
A cord-shaped cutting member in which the proximal end side is held by the holding member and the distal end side is led out radially outward;
A guide member that can rotate relative to the holding member at the lower part of the holding member about the rotation axis thereof;
The rotary blade for a mower, wherein the guide member has a plurality of recesses formed on an outer periphery thereof. - 上記複数の凹部の底部は、滑らかに湾曲している、請求項6に記載の草刈機用回転刃。 The rotary blade for a mower according to claim 6, wherein bottoms of the plurality of recesses are smoothly curved.
- 上記ガイド部材は、樹脂製である、請求項1ないし7のいずれかに記載の草刈機用回転刃。 The rotary blade for a mower according to any one of claims 1 to 7, wherein the guide member is made of resin.
- 上記コード状切断部材は、ナイロン製である、請求項1ないし8のいずれかに記載の草刈機用回転刃。 The rotary blade for a mower according to any one of claims 1 to 8, wherein the cord-shaped cutting member is made of nylon.
- 上記保持部材は、上記回転刃取付け軸に連結されてこの回転刃取付け軸と一体回転するとともに、上記コード状切断部材の基端側を巻回状態で収容する本体部と、
上記本体部に対してその上位に位置し、上記回転刃取付け軸の軸方向に所定のストロークで移動可能かつ上記回転刃取付け軸周りに相対回転操作可能に組み合わされ、上記コード状切断部材の基端側端部が連結された操作部と、
上記操作部を上記軸方向の一方方向に付勢する弾性部材と、
上記操作部が上記弾性部材の弾力によって上記ストロークにおける所定位置にあるときこの操作部と上記本体部との相対回転を阻止するとともに、上記操作部が上記弾性部材の弾力に抗して上記所定位置から移動させられたときにこの操作部と上記本体部との相対回転を許容するクラッチ機構と、を備える、請求項1ないし9のいずれかに記載の草刈機用回転刃。 The holding member is connected to the rotary blade mounting shaft and rotates integrally with the rotary blade mounting shaft, and a main body portion that houses the proximal end side of the cord-shaped cutting member in a wound state;
It is positioned higher than the main body, and is combined in such a manner that it can be moved with a predetermined stroke in the axial direction of the rotary blade mounting shaft and can be relatively rotated around the rotary blade mounting shaft. An operation unit having end-side ends connected thereto;
An elastic member for urging the operating portion in one axial direction;
When the operation portion is at a predetermined position in the stroke by the elasticity of the elastic member, the operation portion and the main body portion are prevented from rotating relative to each other, and the operation portion resists the elasticity of the elastic member. The rotary blade for a mower according to any one of claims 1 to 9, further comprising a clutch mechanism that allows relative rotation between the operation portion and the main body portion when the operation portion is moved. - 上記クラッチ機構は、上記操作部において回転方向に沿って設けられた複数の第1係合部と、上記本体部において回転方向に沿って設けられた複数の第2係合部と、を有しており、
上記第1係合部と上記第2係合部とが係合することにより、上記操作部と上記本体部との相対回転が阻止される、請求項10に記載の草刈機用回転刃。 The clutch mechanism includes a plurality of first engagement portions provided along the rotation direction in the operation portion, and a plurality of second engagement portions provided along the rotation direction in the main body portion. And
The rotary blade for a mower according to claim 10, wherein the first engagement portion and the second engagement portion are engaged to prevent relative rotation between the operation portion and the main body portion. - 動力源と、この動力源の動力によって回転駆動される回転刃取付け軸と、を備え、
上記回転刃取付け軸には、請求項1ないし11のいずれかに記載の草刈機用回転刃が取付けられていることを特徴とする、草刈機。 A power source and a rotary blade mounting shaft that is rotationally driven by the power of the power source;
The mowing machine according to any one of claims 1 to 11, wherein the rotary blade mounting shaft is attached to the rotary blade mounting shaft.
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PCT/JP2011/070834 WO2013038497A1 (en) | 2011-09-13 | 2011-09-13 | Rotating blade for trimmer and trimmer using same |
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WO2014141481A1 (en) * | 2013-03-15 | 2014-09-18 | Yamada Sakuji | Rotary blade for mower, and mower using same |
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