JP2016036317A - Grass mower - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a grass mower capable of enabling an operator to easily confirm whether an operation member normally operates in a collector of the grass mower.SOLUTION: A drive source 56 and transmission members 57, 58, 67 are arranged in an outside front side of a collector 14, and thereby mowed grass can be prevented from entangling the drive source 56 and transmission members 57, 58, 67. The drive source 56 and transmission members 57, 58, 67 can be visually confirmed from outside and assembly and adjustment to the collector 14 can be more easily performed than a conventional constitution arranging the drive source 56 and transmission members 57, 58, 67 in the collector 14. Furthermore, an opening/closing member 71 is opened, thereby drive of the transmission members 57, 58, 67 can be visually confirmed, and confirmation on whether a diffusion member 62 operates normally or not can be performed easily.SELECTED DRAWING: Figure 9

Description

  The present invention relates to a mower.

  In a lawn mower, a grass cut by a mower for turf grass cutting disposed at the front part of a body frame is known to be conveyed by air to a collector at the rear part of the body frame by a blower (Patent Document 1).

JP 2006-325555 A

  In the technique described in Patent Document 1, turfgrass transported to the collector is deposited in a specific place as it is. Therefore, some collectors are provided with a diffusion mechanism that swings in the vehicle width direction of the lawn mower and diffuses the cut grass conveyed by the blower to the left and right within the collector.

  In the conventional diffusion mechanism, a diffusion plate to be diffused, a motor as a drive source, and a drive shaft connecting the motor and the diffusion plate are all housed in the collector. Therefore, there is a problem that the operator who operates the lawn mower is not easily noticed even if the mowing grass inside the collector increases, the mowing grass is caught or clogged by the diffusion mechanism, and the diffusion mechanism stops operating. . Therefore, a dead space that is not filled with grass is generated inside the collector, and the amount of cutting can be reduced, or the motor can be damaged by being left under a load on the motor.

  Therefore, an object of the present invention is to make it possible to easily confirm whether or not a member operating inside a collector of a mower is operating normally.

The above-described problems of the present invention are solved by the following solution means.
That is, the invention described in claim 1 includes a traveling vehicle body (2) that travels, a grass cutting unit (6) that is disposed at a front portion of the traveling vehicle body (2), and that cuts grass, and the grass cutting unit (6). An accommodation portion (14) in which the cut grass is accommodated, and a position corresponding to a position where the cut grass cut by the grass cutting portion (6) flows into the accommodation portion (14), and the traveling A diffusing member (62) that is supported so as to be swingable in the width direction of the vehicle body (2) and diffuses the cut grass that flows into the accommodating portion (14), and a drive source (56) that drives the diffusing member (62). A transmission member (57, 58, 67) for transmitting the drive of the drive source (56) to the diffusing member (62), the drive source (56) disposed on the outside front side of the accommodating portion (14), and The transmission member (57, 58, 67), the drive source (56) and the transmission member (57, 8,67) and a position covering the a mower which is characterized in that a movable closing member and a position for exposing (71).

  The invention according to claim 2 is characterized in that the housing portion (14) in which a recess (53) for housing the drive source (56) and the transmission member (57, 58, 67) is formed is provided. The mower according to claim 1.

  The invention according to claim 3 is a traveling vehicle body (2) that travels, a grass cutting part (6) that is disposed at a front portion of the traveling vehicle body (2), and mowing the grass cutting part (6). A storage part (14) in which the cut grass is housed; and a position corresponding to a position where the grass cut by the grass cutting part (6) flows into the storage part (14); and the traveling vehicle body A diffusion member (62) that is supported so as to be swingable in the width direction of (2) and diffuses the cut grass that flows into the accommodation portion (14), and is arranged to penetrate from the inside of the accommodation portion (14) to the outside. A viewing member (126) that is connected to the diffusing member (62), has a viewing portion (123) provided outside, and operates in conjunction with the operation of the diffusing member (62). It is a mowing machine that features it.

  The invention according to claim 4 includes a seat (11) disposed in front of the housing portion (14) and the visual recognition portion (123) disposed above the upper surface of the housing portion (14). The mower according to claim 3, wherein the mower is provided.

  According to the first aspect of the present invention, the drive source (56) and the transmission member (57, 58, 67) are arranged on the outside front side of the housing portion (14), so that the drive source (56) and the transmission member ( 57, 58, 67) prevents the grass from getting tangled. Further, the drive source (56) and the transmission member (57, 58, 67) are easily visible from the outside, and compared to the conventional configuration in which the drive source (56) and the transmission member (57, 58, 67) are arranged inside the storage portion (14), Attachment and adjustment can be easily performed from the outside. Furthermore, by opening the opening / closing member (71), the drive of the transmission member (57, 58, 67) can be visually confirmed, and it can be easily confirmed whether the diffusion member (62) is operating normally. .

  According to the second aspect of the present invention, in addition to the effect of the first aspect of the present invention, the driving source (56) and the recess (53) that accommodates the transmission member (57, 58, 67) are provided, thereby driving. It is easy to accommodate the source (56) and the transmission member (57, 58, 67).

  According to the third aspect of the invention, by providing the visual recognition member (126) that is arranged to penetrate from the inside of the housing portion (14) to the outside and operates in conjunction with the operation of the diffusion member (62), It can be easily confirmed whether or not the diffusing member (62) disposed inside the portion (14) is operating normally.

  According to invention of Claim 4, in addition to the effect of invention of Claim 3, arrange | positioning a visual recognition part (123) upwards rather than the upper surface of the accommodating part (14) behind a seat (11). Thus, the visual recognition part (123) can be visually recognized only by the operator turning around from the seat.

It is a side view of the riding-type lawn mower as an example of the mower of a present Example. It is a top view of the power transmission structure of a riding-type lawn mower. It is explanatory drawing of the state which the collector raised in the riding-type lawn mower of a present Example. It is explanatory drawing of the state which the collector rotated in the riding-type lawn mower of a present Example. It is a figure which shows the arrangement | positioning relationship between a collector, an engine, etc. seen from the vehicle body back. It is a perspective view inside the collector of a present Example. It is principal part sectional drawing of a collector. It is explanatory drawing of the front-end part of the collector of a present Example. It is explanatory drawing of the state by which the cover was open | released from the state shown in FIG. It is a perspective explanatory view of a discharge cylinder and a diffusion member. FIG. 11A is an exploded view, FIG. 11B is an explanatory view of a state in which the diffusing member is not stopped, and FIG. 11C is a diffusing member. It is explanatory drawing of the state which stopped. It is explanatory drawing of the door of the collector of a present Example. It is explanatory drawing of the locking mechanism of the collector door of a present Example. It is the figure seen from the arrow XIV direction of FIG. It is explanatory drawing of the handle part of the door of a present Example, FIG. 15 (A) is a front view, FIG.15 (B) is sectional drawing, FIG.15 (C) is sectional drawing of another example, FIG.15 (D). These are explanatory drawings of a conventional handle. It is explanatory drawing of the other form of a present Example, and is explanatory drawing of the discharge cylinder and diffusion member corresponding to FIG. It is explanatory drawing of the other form of a present Example, and is explanatory drawing of the front-end part of the collector corresponding to FIG. It is explanatory drawing of the further another form of a present Example, FIG. 18 (A) is explanatory drawing of the discharge cylinder and diffusion member corresponding to FIG. 16, FIG. 18 (B) is explanatory drawing of the blade | wing of a windmill, FIG. C) is an enlarged view of the worm portion. It is explanatory drawing of the other form of a present Example, and is a figure corresponding to FIG.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.
FIG. 1 shows a side view of a riding lawn mower 1 as an example of a mower of the present embodiment, and FIG. 2 shows a plan view of a power transmission configuration of the riding lawn mower. Front and rear parts of a body frame 2 as an example of a traveling vehicle body are provided with front wheels 3, 3 and rear wheels 4, 4, respectively, and below the front part of the body frame 2 are turf mowing blades 5, 5. A mower 6 is provided. The mower 6 constitutes the mowing unit of the first embodiment. A steering column 8 is erected on a floor 7 above the front portion of the vehicle body frame 2, and a handle 10 is provided on the top of the column 8. A seat 11 is provided behind the handle 10, and an engine 12 is mounted behind the seat 11. Above the engine 12, a collector 14 as an example of a storage unit is disposed.

In this specification, the riding lawn mower 1 faces the forward direction, the left and right directions are respectively called left and right, the forward direction is forward, and the backward direction is backward.
The output of the engine 12 is input to a transmission (not shown) in the front transmission case 15. Then, the rotational power of the engine 12 is shifted by the transmission, and the shifted traveling power is transmitted to the front wheels 3 and 3 and the rear wheels 4 and 4.

  Further, a transmission shaft 16 (FIG. 2) extends on the upper front side of the transmission case 15, and a blower 23, which is an example of a mowing grass conveying member, is driven by the power from the transmission shaft 16. The blower 23 is accommodated in a blower case 24, and a turfgrass transport duct 26 that communicates the blower case 24 and the collector 14 is provided on the blower case 24. A shooter 27 is disposed between the blower 23 and the mower 6, and the turf grass cut by the mower 6 is conveyed to the rear collector 14 by the blower 23 via the shooter 27 and the duct 26. A vent hole (not shown) is formed in the collector 14 so that air sent into the collector 14 can be discharged to the outside.

In addition, a pair of lops 18 and 18 are provided upright behind the seat 11. A collector elevating mechanism 19 is supported on the lops 18 and 18. The collector elevating mechanism 19 includes a pair of collector elevating links 19a and 19a whose base ends are rotatably supported by the lops 18 and 18. The tip portions of the collector elevating links 19a, 19a are connected to an elevating pedestal 19b disposed below the collector 14.
A retractable lift cylinder 28 is connected between the base end side of the lower collector lift link 19 a and the lower end of the lops 18.

  The lift base 19b has a horizontal portion 19c extending in the front-rear direction along the bottom of the collector 14, and a vertical portion 19d extending downward from the front end of the horizontal portion 19c. The pair of left and right horizontal portions 19c are connected to the rear end by a connection bar (not shown) extending in the left-right direction. Ends of the collector elevating links 19a and 19a are rotatably supported by the vertical portion 19d.

  Above the horizontal portion 19c, a base end portion of a rotary arm 19f is rotatably supported around a rotation shaft 19e at the rear end of the horizontal portion 19c. A retractable rotating cylinder 29 is connected between the tip of the rotating arm 19f and the lower end of the vertical portion 19d. The bottom of the collector 14 is fixedly supported on the rotary arm 19f.

FIG. 3 is an explanatory diagram showing a state where the collector is raised in the riding lawn mower 1 of the present embodiment.
1 and 3, in the collector elevating mechanism 19 of this embodiment, when the elevating cylinder 28 is operated and the rod 28a is extended, the collector elevating links 19a and 19a are rotated and the elevating pedestal 19b is raised. At this time, due to the parallel link structure of the collector elevating links 19a and 19a, the elevating pedestal 19b and the collector 14 are raised while maintaining a horizontal state. When the rod 28a of the elevating cylinder 28 is stored, the collector 14 descends and returns to the state shown in FIG.

FIG. 4 is an explanatory diagram of the riding lawn mower 1 of the present embodiment in a state where the collector is rotated.
3 and 4, when the rotating cylinder 29 is actuated to extend the rod 29a, the rotating arm 19f rotates about the rotating shaft 19e with respect to the horizontal portion 19c. Along with this, the collector 14 fixed to the rotating arm 19f also rotates. Therefore, it becomes possible to discharge the cut grass accommodated inside the collector 14 to the outside. When the rod 29a of the rotating cylinder 29 is stored, the collector 14 returns to the state shown in FIG.

  The rotational power of the engine 12 is transmitted through the mower drive shaft 31 extending forward from the transmission case 15 and the mower transmission shaft 32 extending in the left-right direction from the front end of the mower drive shaft 31. Drive is transmitted to 5a. In the present embodiment, the pair of left and right cutting blades 5 and 5 rotate in the directions opposite to each other in the direction of the arrow r.

  As a result, the turf grass that has entered the mower deck 38 is cut by the pair of cutting blades 5, 5, merges at the center in the left-right direction, passes through the shooter 27 and the duct 26 in sequence, and is located behind the body frame 2. 14 recovered.

A base end portion of an auxiliary wheel arm 41 extending forward is supported on the upper portion of the mower deck 38, and an auxiliary wheel 42 is rotatably supported on the front end of the auxiliary wheel arm 41.
FIG. 5 is a diagram showing the positional relationship between the collector and the engine as viewed from the rear of the vehicle body.

FIG. 6 is a perspective view of the inside of the collector of this embodiment.
In FIG. 5, the collector 14 of this embodiment has a gate shape surrounding the upper side and the left and right sides of the hood 12 a covering the engine 12.

  That is, as shown in FIGS. 5 and 6, the left and right sides of the collector 14 are formed with recesses 51 that are recessed downward so as to surround both the left and right sides of the hood 12 a from the center in the front-rear direction to the rear. ing. Therefore, the capacity | capacitance of the collector 14 which can accommodate a mowing grass can be increased compared with the case where the recessed part 51 is not formed.

  Moreover, since the collector 14 is arrange | positioned so that the food | hood 12a may be enclosed, the gravity center of the whole riding lawn mower 1 can be lowered | hung. Therefore, the low centroid of the riding lawn mower 1 can improve the running performance on an inclined land or the like.

FIG. 7 is a cross-sectional view of the main part of the collector.
6 and 7, a connection port 52 connected to the duct 26 is formed at the right side of the front end portion at the bottom inside the collector 14. The bottom surface of the collector 14 is inclined upward as it goes forward so as to be connected to the duct 26 in the vicinity of the connection port 52. The duct 26 is connected to and separated from the connection port 52 when the collector 14 shown in FIGS. 1 and 3 is moved up and down.

FIG. 8 is an explanatory view of the front end portion of the collector of this embodiment.
FIG. 9 is an explanatory view showing a state where the cover is opened from the state shown in FIG.
7 to 9, a motor installation portion 53 having a shape recessed rearward with respect to the front surface is formed above the connection port 52 as an example of a recess in which the drive source is installed.

  In FIG. 9, a slit 53 a extending in the left-right direction is formed on the right part of the motor installation portion 53 as an example of a passage portion. A screw hole 53b is formed at the lower end of the central portion in the left-right direction of the motor installation portion 53.

  A motor unit 56 as an example of a drive source is fixedly supported on the motor installation portion 53. A base end of a transmission arm 57 as an example of a first transmission member is rotatably supported on the output shaft 56a of the motor unit 56. As an example of the second transmission member, a proximal end of a swinging rod 58 extending rightward is rotatably supported at the distal end of the transmission arm 57.

FIG. 10 is a perspective explanatory view of the discharge tube and the diffusing member.
In FIG. 7, the connection port 52 supports the lower end of a rectangular tube-shaped discharge tube 61. The discharge cylinder 61 extends on the extension of the duct 26.

  Above the discharge cylinder 61, a diffusion plate 62 as an example of a diffusion member is disposed. The diffusing plate 62 has a main body portion 62a that curves backward as it goes upward on the extension of the discharge cylinder 61, and side walls 62b and 62c formed at the left and right ends of the main body portion 62a. A connection plate 63 as an example of a connection part is supported on the upper part of the main body 62a. The rear part of the connection plate 63 is rotatably supported by a shaft part 64 extending upward. The shaft portion 64 is fixedly supported on the inner surface of the motor installation portion 53 by a fixed arm 66 extending forward. Therefore, the diffusion plate 62 is supported so as to be rotatable with respect to the discharge cylinder 61 around the shaft portion 64.

  A base end of a plate-like connecting arm 67 extending forward is rotatably supported at the front end portion of the connecting plate 63. 7 and 9, the distal end of the connecting arm 67 passes through the slit 53a and extends to the motor installation portion 53. The distal end of the swing rod 58 is rotatably supported by the distal end of the connecting arm 67. Is done.

  11A and 11B are explanatory views of the motor lock prevention mechanism of the present embodiment. FIG. 11A is an exploded view, FIG. 11B is an explanatory view in a state where the diffusion member is not stopped, and FIG. These are explanatory drawings of the state which the diffusion member stopped.

  In FIG. 11, a motor lock prevention mechanism 68 is installed at a connection portion between the connection arm 67 and the swing rod 58. The motor lock prevention mechanism 68 of the present embodiment has a first lock prevention plate 68a disposed on the connecting arm 67 side. The first lock prevention plate 68a is formed in a long and thin flat plate shape, a first screw hole 68b is formed on one end side, and a first through hole 68c is formed on the other end side. The outer end of the connecting arm 67 is connected to the first screw hole 68b by a screw 68e through a spacer 68d. The outer end of the connecting arm 67 is supported so as to be rotatable with respect to the first lock prevention plate 68a.

  A second lock prevention plate 68g is disposed below the first through hole 68c via a spacer 68f. The second lock prevention plate 68g is formed in a shape in which a long thin flat plate is bent so as to be stepped. A second through hole 68h is formed in the second lock prevention plate 68g corresponding to the first through hole 68c, and a second second hole 68h is formed corresponding to the axial extension of the first screw hole 68b. The screw hole 68j is formed.

  The first lock prevention plate 68a and the second lock prevention plate 68g are connected by bolts 68k, washers 68m, and nuts 68n passing through the through holes 68c and 68h. The lock prevention plates 68a and 68g are connected to each other so as to be rotatable around the through holes 68c and 68h. The tip end portion of the swing rod 58 is connected to the second screw hole 68j via a spacer 68p in a rotatable state by a screw 68q.

  A coil spring 68r is supported between the washer 68m and the nut 68n. As shown in FIG. 11B, both ends of the coil spring 68r are supported so as to be sandwiched between the two anti-lock plates 68a and 68g. Therefore, the two lock prevention plates 68a and 68g are held in an overlapped state by the spring force of the coil spring 68r, as shown in FIG.

  7 to 9, when the motor unit 56 operates and the output shaft 56 a rotates, the rotational motion is converted into a reciprocating motion in the left-right direction by the transmission arm 57 and the swinging rod 58. Then, the connecting arm 67 connected to the swing rod 58 reciprocates left and right, and the diffusion plate 62 on which the connecting arm 67 is supported swings so as to swing the neck left and right about the shaft portion 64. That is, the drive of the motor unit 56 is transmitted to the diffusion plate 62 by the link mechanisms 57, 58, and 67 as an example of a transmission member including the transmission arm 57, the swing rod 58, and the connecting arm 67. At this time, the motor lock prevention mechanism 68 is held in the state shown in FIG. 11B by the spring force of the coil spring 68r, and the swinging rod 58 and the connecting arm 67 reciprocate left and right integrally. Exercise.

  Therefore, the cut grass carried into the collector 14 through the discharge cylinder 61 is diffused left and right by the diffusion plate 62 that swings left and right. If the diffusion plate is not provided, the cut grass is discharged and accumulated at a specific location in the collector 14, and a space in which the cut grass is not accommodated, that is, a so-called dead space is generated. Then, since the mowing grass is diffused into the collector 14 by the diffusion plate 62, the occurrence of dead space is suppressed. Therefore, compared with the case where the diffusion plate 62 is not provided, the accommodation space of the container 14 is effectively used, and the accommodation amount of the cut grass is increased. In particular, the collector 14 of the present embodiment is a diffusion plate 62, and mowing grass can be efficiently deposited on the left and right concave portions 51, and the capacity can be effectively utilized.

  In this embodiment, a cover 71 as an example of an opening / closing member for driving confirmation is arranged in front of the motor installation portion 53. The cover 71 of this embodiment is supported by the hinge 72 at the upper end so as to be openable and closable between a cover position as an example of a cover position shown in FIG. 8 and an open position as an example of an exposed position shown in FIG. Has been. A screw through hole 73 is formed at the lower end of the cover 71 corresponding to the screw hole 53 b of the motor installation portion 53. Therefore, the cover 71 can be fixed at the cover position by the screw 74 that passes through the screw through hole 73 and is screwed to the screw hole 53b at the cover position. Therefore, the cover 71 can be opened and closed by the operator removing the screw 74.

  Therefore, in the lawn mower 1 of the present embodiment, the motor unit 56, the transmission arm 57, the swing rod 58, and the swing rod 58 are not disposed inside the collector 14 in which the grass is accommodated, but outside the collector 14 that is outside the collector 14. The outer end of the connecting arm 67 is disposed. Therefore, in the conventional configuration in which the motor unit 56 and the link mechanisms 57, 58, and 67 are arranged inside the collector 14, there is a problem that grass is entangled with the motor unit 56 and the like and the operation is hindered. In the example, the motor unit 56 and the like are disposed outside the collector 14, and grass is prevented from being entangled with the motor unit 56 and the like.

  In this embodiment, the operator can check the status of the motor unit 56 and the link mechanisms 57, 58, and 67 by opening the cover 71 at the rear of the seat 11. When the operation of the diffusing plate 62 is stopped due to clogging of the cut grass, the connecting arms 67 of the link mechanisms 57, 58, and 67 no longer swing. Therefore, as compared with the configuration in which the motor unit 56 or the like is installed inside the collector 14 as in the prior art, whether or not the diffusion plate 62 is stopped due to clogging of the cut grass, that is, the diffusion plate 62 is normal. It is possible to easily confirm whether or not it is operating simply by opening and closing the cover 71.

  In this embodiment, since the motor unit 56 is installed outside the collector 14, when the motor unit 56, the transmission arm 57, and the swing rod 58 are assembled or adjusted, the motor unit 56 is operated from outside the collector 14. be able to. That is, in the conventional configuration in which the motor unit 14 is provided in the interior, the assembly and adjustment of the motor unit and the link mechanism have to be performed deep inside the collector 14. Compared to, work is easy.

  In the present embodiment, when the cover 71 is closed, the motor unit 56 and the link mechanisms 57, 58, and 67 are covered, so that the motor unit 56 and the like are damaged by rain, stepping stones, etc. Can be prevented from accidentally touching the motor unit 56 or the like.

  If the diffusion plate 62 stops and the connecting arm 67 does not swing left and right, the first lock prevention plate 68a cannot swing left and right, while the motor unit 56 rotates. The swing rod 58 and the second lock prevention plate 68g try to swing left and right. If the locking prevention mechanism 68 is not provided and the connecting arm 67 and the swing rod 58 are directly connected, when the connecting arm 67 stops, the swing rod 58 also stops and the motor unit 56 is driven. In spite of trying to do so, the torque on the side of the link mechanisms 57, 58, 67 is excessive and cannot be rotated, so-called motor lock. If the motor is locked, the motor unit 56 may be burned out due to heat generation or the like, resulting in failure. If a safety device such as a torque limiter is provided in the motor unit in order to prevent the motor from being locked, there is a problem that the size in the direction of the drive shaft becomes long, resulting in an increase in size and cost. On the other hand, in this embodiment, even when the first lock prevention plate 68a is stopped, the second lock prevention plate 68g is within the range in which the coil spring 68r can be expanded and contracted as shown in FIG. The head can be rotated with respect to the first lock prevention plate 68a, and the reciprocating motion of the swing rod 58 is allowed. Therefore, the motor unit 56 is protected without being in the motor lock state. Therefore, compared with the case where a safety device is provided, the motor lock prevention mechanism 68 of the present embodiment can prevent motor lock with a compact and low-cost configuration. The motor lock prevention mechanism 68 is preferably provided, but a safety device such as a torque limiter may be employed.

FIG. 12 is an explanatory view of the collector door of this embodiment.
FIG. 13 is an explanatory view of the collector door locking mechanism of the present embodiment.
FIG. 14 is a view as seen from the direction of arrow XIV in FIG.

  1, 3, and 4, the collector 14 according to the present embodiment is provided with a door 81 as an example of an open / close member for discharging grass cuttings at the rear end. In FIGS. 1, 3, 4, and 12, the door 81 is supported by the hinge 81a so that it can be opened and closed with respect to the main body of the collector 14 at the upper end.

  12 to 14, a square pipe-like door frame 82 is fixedly supported on the outer periphery of the door 81 of the present embodiment. At the lower end of the central portion of the door 81 in the left-right direction, an unlocking portion 83 having a shape bulging outward is formed as an example of a locking release portion. On the bottom surface of the unlocking portion 83, an unlocking opening 83a corresponding to the size of a human finger is formed. In FIG. 14, a safety label 83 b for notifying that the lock can be released is attached in the vicinity of the lock release portion 83.

  13 and 14, a lock mechanism 84 as an example of a locking member is disposed on the lower surface of the container 14. The lock mechanism 84 has a rotation shaft portion 86 supported on the lower surface of the container 14. A base end of a lock arm 87 extending rearward is supported on the rotation shaft portion 86 so as to be rotatable about the rotation shaft portion 86. A lock plate 88 extending rearward is supported at the rear portion of the lock arm 87. A claw portion 88 a protruding upward is formed at the rear end of the lock plate 88 at a position corresponding to the rear end surface of the door frame 82. The upper surface of the rear end of the claw portion 88a is formed with a guide surface 88b for contacting the door frame 82 of the door 81 and rotating the lock plate 88 downward when the door 81 is closed. In addition, the lock release port 83a of the present embodiment is disposed at a position corresponding to the upper side of the lock plate 88.

  The rotating shaft portion 86 supports a coil spring 89 that applies a force in a direction to push the claw portion 88a upward. One end of the coil spring 89 is in contact with the lower surface of the container 14, and the other end is a lock arm. 87 is in contact.

  A toggle mechanism 91 as an example of a holding mechanism is disposed below the lock arm 87. The toggle mechanism 91 has a toggle fixing portion 93 fixed to a connecting bar 92 that connects the pair of left and right horizontal portions 19c described above. A base end of the toggle link 94 is rotatably supported by the toggle fixing portion 93. A long hole 96 extending along the longitudinal direction of the toggle link 94 is formed on the distal end side of the toggle link 94. A pin 97 supported by the rear lower end of the lock arm 87 passes through the long hole 96.

  Therefore, in this embodiment, when the door 81 is closed, the coil spring 89 holds the claw portion 88a of the lock plate 88 on the door frame 82 and holds the door 81 in a closed state (the lock is locked). Takes). Here, if the operator locks the container 14 while it is in the container 14 for cleaning the inside of the container 14 or confirming the diffusion plate 82 or the like, a lock release unit 83 is provided. In a conventional configuration that does not, the worker is trapped if a person waiting outside the container 14 does not release the lock. Therefore, when a person enters the inside of the container 14, a person waiting outside is required, and there is a problem that two or more persons must be secured. On the other hand, in this embodiment, when an operator who goes inside goes out, the user can insert the finger into the unlocking port 83a of the unlocking unit 83 and push the claw unit 88a, thereby easily locking. The door 81 can be opened to go outside. Therefore, it is possible to freely enter the inside of the container 14 without securing two or more personnel.

Note that, at the lock release port 83a that is about the size of a human finger, the cut grass is hardly blown out by the air sucked by the blower 23, and there is almost no fear that the collected cut grass leaks outside.
FIG. 15 is an explanatory view of the handle portion of the door of this embodiment, FIG. 15 (A) is a front view, FIG. 15 (B) is a sectional view, FIG. 15 (C) is a sectional view of another example, FIG. (D) is explanatory drawing of the conventional handle.

  12, 15 </ b> A, and 15 </ b> B, in the door 81 of this embodiment, a door grip 101 as an example of a handle portion is formed above the unlocking portion 83. As shown in FIG. 15B, the door grip 101 of this embodiment is formed in a shape recessed from the rear surface 81b of the door 81. A slit 102 penetrating the door 81 is formed on the recessed inner surface. The slit 102 has a horizontal slit portion 102a extending in the left-right direction along the lower end of the door grip 101, and a semicircular slit portion 102b formed in a semicircular shape continuously upward from the left and right ends of the horizontal slit portion 102a. . Therefore, the door grip 101 has a lid 103 that can rotate around the upper end where no slit 102 is formed.

  Therefore, in the door grip 101 of the present embodiment, when the operator presses the lid portion 103 with a finger, the lid portion 103 rotates. Therefore, the operator can open and close the door 81 by placing a finger on the step 104 under the door grip 101 on the inner surface side of the container 14. In this embodiment, the container 14 is made of resin for weight reduction, and the door grip 101 is formed by the elastic restoring force of the resin around the upper end of the lid 103 when the operator pulls out the finger. Return to the original state.

  In FIG. 15D, a conventional door grip 01 has a shape in which the grip 01 is fixed to the outer surface of the door 81 and is a separate part and protrudes from the outer surface. Therefore, the weight of the door 81 is increased by the grip 01 of another part, and the cost is increased due to an increase in the number of parts. On the other hand, in this embodiment, the door grip 101 can be realized only by forming the slit 102, and the weight can be reduced and the cost can be reduced as compared with the conventional configuration. Further, the door grip 101 does not protrude from the outer surface of the door 81, so that the overall size can be reduced.

  Moreover, in the door grip 101 of a present Example, the cover part 103 returns to an original state with an elastic restoring force. If an opening in which the entire lid 103 is cut out is formed, when the blower 23 sucks the cut grass into the container 14, the cut grass may blow out from the opening. On the other hand, in this embodiment, the lid 103 is covered, and the amount of blown grass is reduced as compared with the case where the opening is formed.

  In FIG. 15C, as another example, the lid portion 103 ′ can be formed not on the recessed portion of the door grip 101 but on the lower surface. In the configuration shown in FIG. 15C, as in the configuration shown in FIG. 15B, it is possible to reduce the weight, reduce the cost, and reduce the size of the cut grass.

FIG. 16 is an explanatory view of another embodiment of the present embodiment, and is an explanatory view of a discharge tube and a diffusing member corresponding to FIG.
FIG. 17 is an explanatory view of another embodiment of the present embodiment, and is an explanatory view of the front end portion of the collector corresponding to FIG.

  Next, in the configuration in which the motor unit 56 and the link mechanisms 57, 58, and 67 are provided inside the container 14 without providing the motor installation portion 53 as in the prior art, is the internal diffusion plate 62 operating normally? Another form that can be easily recognized by the operator will be described with reference to FIGS. 16 and 17.

  In FIG. 16, the fixed arm 121 extends forward from the shaft portion 64, then bends downward, the upper portion is fixedly supported on the front surface of the container 14, and the lower end is fixed to the discharge cylinder 61. A shaft 122 that rotates integrally with the rotation of the diffusion plate 62 is supported on the shaft portion 64. 16 and 17, the shaft 122 extends upward, and the upper end of the shaft 122 penetrates the upper surface of the container 14 and extends to the outside. A film 123 as an example of a visual recognition unit is supported on the upper end of the shaft 122. Accordingly, the film 123 is also configured to rotate integrally with the rotation of the diffusion plate 62. The film 123 is formed of a thin plastic film that can be elastically deformed.

  In FIG. 16, a pin 124 as an example of a sound generating member is supported in the vicinity of the shaft 122 within the range of the rotation locus of the film 123. Therefore, when the film 123 rotates, the pins 124 are periodically contacted to generate sound. The film 123 is elastically deformed when the shaft 122 is further rotated from the contacted state, and is elastically restored when passing through the position of the pin 124. Therefore, while the diffusion plate 62 continues to rotate, the film 123 repeats the steps of contact with the pins 124, elastic deformation, and elastic restoration. On the other hand, when the diffusion plate 62 stops, the rotation of the shaft 122 stops and the rotation of the film 123 also stops. The shaft 122 and the film 123 constitute an indicator 126 as an example of a visual recognition member of this embodiment.

  Therefore, in the form shown in FIGS. 16 and 17, the operator easily confirms whether or not the diffusion plate 62 is operating normally by visually recognizing the indicator 126 exposed to the outside of the container 14. be able to. In particular, while the diffuser plate 62 is operating normally, the film 123 periodically contacts the pins 124 to generate sound. Therefore, even if the operator does not look back from the seat 11 and visually recognizes the sound, It is also possible to confirm whether or not the diffusion plate 62 is operating normally only by confirming the above.

  In particular, in the conventional configuration, when the collector 14 is almost full of cut grass, if the detection timing of the sensor that detects fullness is slightly delayed, the tip of the discharge cylinder 61 is clogged with grass, and the collector as shown in FIG. Even if it was going to rotate 14 and to discharge grass, the work which the person stuck in the tip of the discharge cylinder 61 entered inside and needed to be removed was needed. On the other hand, in the present embodiment, since the sound is not generated when the operation of the diffusion plate 62 is stopped, it can be used for quickly confirming that the diffusion plate 62 is full. Clogging can be reduced.

  18 is an explanatory view of still another embodiment of the present embodiment, FIG. 18 (A) is an explanatory view of a discharge tube and a diffusion member corresponding to FIG. 16, and FIG. 18 (B) is an explanatory view of a windmill blade, FIG. 18C is an enlarged view of the worm portion.

Next, still another embodiment in which an operator can confirm from the outside whether or not the diffusion plate 62 is operating normally will be described with reference to FIG.
In the form shown in FIG. 18, a windmill 141 is disposed at the upper end portion of the discharge cylinder 61. The windmill 141 has a windmill shaft 141a extending in the left-right direction. 18 (A) and 18 (B), the wind turbine shaft 141a is supported rotatably with respect to the left and right end walls 61a and 61b of the discharge tube. A plate-shaped blade 141 b is supported on the wind turbine shaft 141 a so as to enter the inside of the discharge cylinder 61. 18A and 18C, a worm 142 formed in a spiral shape with respect to the axial direction of the rotating shaft 141a is supported at the left end of the wind turbine shaft 141a. The worm 142 of the first embodiment is configured by mounting a coil-shaped compression spring on the wind turbine shaft 141a.

  A worm gear 143 that meshes with the worm 142 is disposed in front of the worm 142. A shaft 146 extending upward is supported at the rotation center of the worm gear 143. The shaft 146 is rotatably supported inside the container 14 by a shaft support portion (not shown). The upper end of the shaft 146 and the rear end of the connecting plate 63 are connected by a transmission arm 57 and a swing rod 58. Therefore, in the form shown in FIG. 18, the motor unit 56 is not provided and the windmill 141 is a drive source.

In the form shown in FIG. 18, although not shown, an indicator 126 is provided on the extension of the shaft part 64 as in the forms shown in FIGS. 16 and 17.
Therefore, in the form shown in FIG. 18, when the windmill 141 rotates due to the air flow in the blower 23, the drive is transmitted to the diffusion plate 62 via the worm 142, the worm gear 143, the shaft 146, and the link mechanisms 57 and 58, The diffusion plate 62 swings left and right. Therefore, even if the motor unit 56 is not provided, the diffusion plate 62 can be swung, and power saving and cost reduction can be achieved. In particular, when the motor unit 56 is used, when the diffusion plate 62 is stopped, a safety device for preventing the seizure of the motor is required, which increases the cost. In the form shown in FIG. The swinging operation of the diffusion plate 62 can be realized by a relatively low-cost mechanism such as the windmill 141 and the worm 142. 16 and 17, the operator can confirm whether the diffuser plate 62 and the windmill 141 are operating normally by the indicator 126.

FIG. 19 is an explanatory diagram of another embodiment of the present embodiment, and corresponds to FIG.
Next, still another embodiment in which an operator can confirm from the outside whether or not the diffusion plate 62 is operating normally will be described with reference to FIG.

  In the form shown in FIG. 19, the motor unit 161 is disposed in a lower space in front of the discharge tube 61. The motor unit 161 according to the first embodiment does not rotate in one direction and repeats forward and reverse rotation within an angle range corresponding to the reciprocating motion of the diffusion plate 62. A transmission shaft 162 as an example of a transmission member is connected to the drive shaft 161 a of the motor unit 161 via the motor lock prevention mechanism 68. The transmission shaft 162 is rotatably supported inside the collector 14 by a shaft support member (not shown). The transmission shaft 162 extends upward, and the upper end is fixedly supported by the front end of the connection plate 63. In addition, although illustration is abbreviate | omitted, the form shown in FIG. 19 has the indicator 126 similar to the form of FIG. 16, FIG.

  Therefore, in the form shown in FIG. 19, when the motor unit 161 is operated, the diffusion plate 62 reciprocates left and right via the transmission shaft 162. In the conventional motor unit 56, in order to shorten the drive transmission mechanism to the diffusion plate 62 which is a drive target, the motor unit 56 is disposed at the upper part. However, when mowing grass is accumulated, the upper space where the motor unit 56 is disposed cannot accommodate mowing grass, and there is a problem that the capacity is reduced. Here, since the cut grass that has passed through the discharge tube 61 and has been transported into the collector 14 is transported backward, especially the lower part in front of the discharge tube 61 is unlikely to be transported and tends to be a dead space. In the form shown in FIG. 19, by arranging the motor unit 161 in this dead space, the upper space can be opened and the capacity of the mowing grass can be increased.

DESCRIPTION OF SYMBOLS 1 Riding lawn mower (mower) 2 Body frame 3 Front wheel 4 Rear wheel 5 Cutting blade 5a Rotating shaft 6 Mower (mowing part) 7 Floor 8 Steering column 10 Handle 11 Seat 12 Engine 12a Hood 14 Collector (accommodating part)
DESCRIPTION OF SYMBOLS 15 Transmission case 16 Transmission shaft 18 Lops 19 Collector raising / lowering mechanism 19a Collector raising / lowering link 19b Elevating base 19c Horizontal part 19d Vertical part 19e Rotating shaft 19f Rotating arm 23 Blower 24 Blower case 26 Duct 27 Shooter 28 Elevating cylinder 28a Rod 29 Rotating cylinder 29a Rod 31 More drive shaft 32 More transmission shaft 38 More deck 41 Auxiliary wheel arm 42 Auxiliary wheel 51 Concave portion 52 Connection port 53 Motor installation portion (concave portion)
53a Slit 53b Screw hole 56 Motor unit (drive source) 56a Output shaft 57 Transmission arm 57, 58, 67 Link mechanism (transmission member)
58 Swing rod 61 Discharge tube 61a, 61b End wall 62 Diffusion plate (diffusion member)
62a body portion 62b side wall 63 connecting plate 64 shaft portion 66 fixed arm 67 connecting arm 68 motor lock preventing mechanism 68a first lock preventing plate 68b first screw hole 68c first through hole 68d spacer 68e screw 68f spacer 68g second Lock prevention plate 68h second through hole 68j second screw hole 68k bolt 68m washer 68n nut 68p spacer 68q screw 68r coil spring 71 cover (opening / closing member) 72 hinge 73 screw through hole 74 screw 81 door 82 door frame 83 lock Release part 83a Lock release port 83b Safety label 84 Lock mechanism (locking member)
86 Rotating shaft part 87 Lock arm 88 Lock plate 88a Claw part 88b Guide surface 89 Coil spring 91 Toggle mechanism 92 Connecting bar 93 Toggle fixing part 94 Toggle link 96 Long hole 97 Pin 101 Door grip (handle part) 102 Slit 102a Horizontal slit part 102b Semicircular slit part 103 Lid part 103 'Lid part 104 Step part 121 Fixed arm 122 Shaft 123 Film (visual recognition part)
124 pin 126 indicator (viewing member)
141 windmill 141a windmill shaft 141b blade 142 worm 143 worm gear 146 shaft 161 motor unit 161a drive shaft 162 transmission shaft (transmission member)

Claims (4)

A traveling vehicle body (2) for traveling;
A mowing unit (6) disposed in front of the traveling vehicle body (2) for mowing grass;
A storage portion (14) in which the cut grass cut by the grass cutting portion (6) is stored;
The mowing grass cut by the mowing portion (6) is arranged corresponding to the position where it flows into the housing portion (14), and is supported so as to be swingable in the width direction of the traveling vehicle body (2). A diffusion member (62) for diffusing the cut grass that flows into the section (14);
A drive source (56) for driving the diffusion member (62);
A transmission member (57, 58, 67) for transmitting the drive of the drive source (56) to the diffusion member (62);
The drive source (56) and the transmission member (57, 58, 67) disposed on the outside front side of the housing (14);
An opening / closing member (71) movable between a position covering the drive source (56) and the transmission member (57, 58, 67) and a position to be exposed;
A mower characterized by comprising: A recess (53) in which the drive source (56) and the transmission member (57, 58, 67) are housed;
The mower according to claim 1, comprising: A traveling vehicle body (2) for traveling;
A mowing unit (6) disposed in front of the traveling vehicle body (2) for mowing grass;
A storage portion (14) in which the cut grass cut by the grass cutting portion (6) is stored;
The mowing grass cut by the mowing portion (6) is arranged corresponding to the position where it flows into the housing portion (14), and is supported so as to be swingable in the width direction of the traveling vehicle body (2). A diffusion member (62) for diffusing the cut grass that flows into the section (14);
The inside of the housing part (14) is arranged to penetrate from the inside to the outside, the inside is connected to the diffusion member (62), the visual recognition part (123) is provided outside, and the diffusion member (62) is operated. A visual recognition member (126) that operates in conjunction,
A mower characterized by comprising: A seat (11) disposed in front of the housing (14);
The visual recognition part (123) disposed above the upper surface of the housing part (14);
The mower according to claim 3, comprising:

Images