JP4481532B2 - Snow blower height adjustment device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for making it possible to easily adjust the height of a snow removal portion arranged at the front portion of a snow removal machine by lever operation.
[0002]
[Prior art]
Conventionally, the height of the snow removal part arranged at the front part of the snow removal machine is adjustable, so that snow that is higher than the running ground or snow surface that is lower than the running surface can be removed. In the case of a large snow remover, the height of the snow removal unit can be adjusted by driving the cylinder with the power of the engine or motor, or rotating the screw shaft or arm to raise or lower the snow removal unit. It was. In addition, in the case of a small snowplow, the height of the snow removal part can be changed by stepping on a pedal provided at the rear part of the traveling device in order to reduce the size while reducing the horsepower and reducing the cost.
[0003]
[Problems to be solved by the invention]
In a conventional small snowplow, the crawler is in contact with the ground and the height of the snowplow is determined by the up / down lever or foot pedal. However, it was difficult to confirm the position of the snow removal part in front of the aircraft. Therefore, the snow removal part may be lowered more than necessary and the ground may be damaged by an auger or the like for taking in the snow, or the snow removal part may not be sufficiently lowered and snow may be left on the ground even if snow removal work is performed. there were. Furthermore, in the case of a system in which the vertical position of the snow removal part is adjusted in a stepped manner, it is difficult to set the snow removal part at an appropriate position, thus preventing the snow removal work from being performed properly. Also, if the snow removal part is lowered to remove snow deeply, the snow removal part may be raised only by its own weight depending on the road surface condition. Therefore, the scraping auger stored in the snow removal part also rises from the snow surface. The amount of snow that was crushed by the rotation and stuck into the center side decreased, and the efficiency of snow removal work was reduced.
[0004]
[Means for Solving the Problems]
The problems to be solved by the present invention are as described above. Next, means for solving the problems will be described.
[0005]
In claim 1, the snow removal part (1) is arranged in the front part of the body frame (9), and the body frame (9) is rotated around the front wheel support shaft (4) of the crawler type traveling device (50). A snowplow configured to be movable and having a driving operation unit (40) disposed above and behind the fuselage frame (9), the mounting bracket (15) provided at the rear of the fuselage frame (9); A locking lever (13) provided on the rear part of the crawler type traveling device (50) can be connected and fixed by a fixing means comprising a bolt (17) and a nut (18), and is arranged in the driving operation part (40). (6) is interlocked with the bolt (17), and the bolt (17) can be rotated and fastened by operating the lock lever (6). A long hole (13a) is provided to make (17) slidable. The position at which the fixing bracket (13) is fixed to the mounting bracket (15) by the bolt (17) and the nut (18) can be changed steplessly, and the nut ( 18) is provided on the side of the side where the anti-rotation bracket (21) is disposed, and the anti-rotation bracket (21) is fixed to the mounting bracket (15) and is attached to the anti-rotation bracket (21). Is configured such that a hole corresponding to the hexagonal shape of the nut (18) is formed, the nut (18) is fitted into the hole, and the nut (18) is prevented from rotating .
[0006]
According to a second aspect of the present invention, in the height adjustment device for a snowplow according to the first aspect, the detent metal fitting (21) is rotatable about the bolt (17) with respect to the mounting metal fitting (15). The locking bracket (21) and the mounting bracket (15) are inserted into a mounting hole (21a) penetrating the locking bracket (21) at a position away from the bolt (17). The other fixing bolt (20) and the nut can be fastened and fixed, and the mounting hole (21a) is formed into a long hole, and along the fixing bolt (20), the mounting hole (21a) The rotation-stop bracket (21) can be rotated with the bolt (17) and the nut (18), and when the tightening force is reduced, the rotation-stop bracket (21) is attached to the mounting bracket (15). It is possible to rotate and tighten the nut (18) Those were.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Next, examples of the present invention will be described.
[0008]
1 is an overall side view of the snowplow, FIG. 2 is a perspective view of a sled mounting portion, FIG. 3 is an overall perspective view of the snowplow viewed from the rear, and FIG. 4 is a perspective view of a structure for fixing the snowplow. FIG. 5 is a perspective view of the fixing structure of the snow removal portion, and FIG. 6 is an overall side view of the snow removal machine showing the case where the snow removal portion is located above.
[0009]
In FIG. 1, it demonstrates from the whole structure of a snowblower. A snow removal unit 1 is disposed at the front of the machine body frame 9, and the snow removal unit 1 houses a blower in a blower cover 46 connected to the front end of the machine body frame 9. An auger cover 48 that projects a snow throwing chute 47 so as to be movable and houses a scraping auger at the front of the blower cover 46 is disposed. The scraping auger and the blower are driven simultaneously, and the snow is crushed by the rotation of the scraping auger and scraped to the center, blown upward by the blower, and guided by the snow throwing chute 47 in any direction. It can be discharged.
[0010]
A swivel seat 49 formed in a crown shape is integrally provided at a lower portion of the snow throwing chute 47, and a swivel motor (not shown) is attached to the side of the swivel seat 49. The turning motor includes a gear, and the snow throwing chute 47 can be rotated by meshing the gear and a tooth portion formed on the lower outer periphery of the turning seat 49 and rotating the gear.
[0011]
As shown in FIGS. 1 and 2, sleds 8 and 8 are fixed to the lower end of the blower cover 46 at left and right symmetrical positions, and the bottom surface of the sleds 8 and 8 is in contact with the ground to remove the snow. Part 1 is made stable. The sleds 8 and 8 are fixed to the blower cover 46 by fastening bolts, and the mounting position in the left-right direction can be changed as necessary. Further, the present snow removal machine may be configured such that a roller is pivotally provided at the lower end of the blower cover 46 instead of the sled 8 or 8. In this case, the stability of the snow removal unit 1 is improved, and at the same time, the resistance during the machine running is reduced, so that the machine can smoothly run during the snow removal work.
[0012]
The sleds 8 and 8 are configured such that the mounting position can be adjusted up and down, and the distance between the snow removal portion 1 and the ground can be changed. That is, the height of the snow removal portion 1 can be finely adjusted by changing the mounting position of the sleds 8 and 8. In addition, also when arrange | positioning the said roller in the snow removal part 1, it can comprise so that an attachment position can be adjusted up and down.
[0013]
A pair of left and right handles 10, 10 project from the rear of both sides of the body frame 9 to the rear and above, and a driving operation unit 40 is formed above the handles 10, 10. An operation box 14 is disposed between the upper portions of the handles 10 and 10, and a traveling clutch lever 51 and a snow removal clutch lever 52 are disposed on the handles 10 and 10 on both sides thereof. The travel clutch lever 51 and the snow removal clutch lever 52 are deadman clutch levers that are operated only when gripped and stop when released. Further, as shown in FIG. 3, a lock lever 6 is disposed at the rear of the operation box 14, and the vertical position of the snow removal portion 1 can be fixed by operating the lock lever 6 as will be described later. Yes.
[0014]
Then, the engine 60 is placed on the body frame 9, the output shaft projects from the front part of the engine 60, and is disposed in the belt cover portion 43 at the top of the body frame, via a pulley on the output shaft via a belt. The power is transmitted to the mission case disposed in the lower part of the body frame 9 and the snow removal portion 1. An HST type transmission is integrally provided in the transmission case, and the front wheel support shaft 4 protruding to both sides from the transmission case penetrates the body frame 9 and the track frame 42 to the left and right as a driving shaft. . The body frame 9 is supported so that it can tilt forward and backward about the front wheel support shaft 4. Drive sprockets 2 and 2 are fixed to both shaft ends of the front wheel support shaft 4, a rear wheel support shaft 11 is horizontally mounted on the rear portion of the track frame 42, and driven sprockets 3. 3 is rotatably supported, and a crawler belt 5 is wound between the driven sprocket 3 and the drive sprocket 2. The drive sprocket 2, the driven sprocket 3, the crawler belt 5, the track frame 42, and the like constitute a crawler traveling device 50.
[0015]
Further, a battery mounting base 25 is provided on the rear surface of the body frame 9 below the handles 10 and 10, and a battery 26 is mounted on the battery mounting base 25. The battery 26 is fixed by a support member 27 and a battery cover 28. By placing the battery 26 at the rear, the weight of the front and rear of the machine is balanced. In this embodiment, the battery 26 is disposed on the rear surface of the body frame 9 in order to balance the weight before and after the body. However, the battery 26 may be disposed on the front or side of the body in consideration of the balance of the entire body. it can.
[0016]
Next, the height adjustment device of the snow removal unit 1 will be described. The height adjusting device includes a vertical rotation mechanism of the snow removal unit 1 and a fixing mechanism of the snow removal unit 1, and the vertical position of the snow removal unit 1 can be changed and fixed. The snow remover shown in FIG. 1 can significantly adjust the height of the snow removal portion 1 as compared with the vertical adjustment by the sleds 8 and 8 described above. As described above, the body frame 9 and the handles 10, 10 are integrally formed from the snow removal portion 1, and the snow removal is performed by moving the handles 10, 10 up and down around the front wheel support shaft 4. The part 1 is also capable of adjusting the vertical height according to the vertical width of the handles 10. This is the vertical rotation mechanism.
[0017]
The crawler belt 5 is in contact with the ground with a mounting pitch of the drive sprocket 2 and the driven sprocket 3. The crawler guide 7 is fixed to the lower end of the track frame 42 on both the left and right sides, and the crawler guide 7 presses the crawler belt 5 against the ground from the inside against the installation surface with the ground. For this reason, the rigidity of the crawler belt 5 is ensured, and the crawler belt 5 is in contact with the ground in a stable state. That is, the arrangement of the crawler guide 7 does not cause inconvenience such as the machine body turning over even if the vertical height adjustment of the snow removal portion 1 is roughly performed.
[0018]
Next, the fixing mechanism of the snow removal unit 1 will be described with reference to FIGS. 4 and 5. In the present invention, the vertical height adjustment of the snow removal unit 1 can be performed at a stepless position, and the snow removal unit 1 can be locked at an arbitrary position after being rotated up and down.
[0019]
The rear wheel support shaft 11 described above is pivotally provided at the rear portion of the crawler type traveling device 50, and a fixing fitting 13 is pivotally provided on the rear wheel support shaft 11. On the rear surface of the body frame 9, a mounting bracket 15 extends rearward. The fixing bracket 13 can be fixed to the mounting bracket 15 by a fixing means, and the fixing means includes a bolt 17 and a nut 18. The fixing bracket 13 is provided with a long hole 13a through which the bolt 17 can be inserted and slidable. The mounting bracket 15 has an attachment hole through which the bolt 17 can be inserted. Is provided. Then, the bolt 17 is inserted into the fixing bracket 13 and the mounting bracket 15, and the nut 18 is screwed from the outside to connect the fixing bracket 13 and the mounting bracket 15, and to the mounting bracket 15. The fixing bracket 13 can be fixed. Whether the bolt 17 and the nut 18 are in a fastened state or not depends on whether the bolt 17 and the nut 18 are in a locked state or a free state. That is, in the fastening state, the fixing bracket 13 is fixed to the mounting bracket 15 to be in a locked state. If not fastened, the fixing bracket 13 is in a free state with respect to the mounting bracket 15, and the bolt 17 is also slidable in the elongated hole 13a. As will be described later, the nut 18 is prevented from rotating by a rotation stopper 21 described later, and the fixing means can be locked by fastening the bolt 17.
[0020]
As described above, the machine body frame 9 and the snow removal portion 1 are integrally configured, and the machine body frame 9 and the crawler type traveling device 50 are fixed by fixing the fixing bracket 13 to the mounting bracket 15. Is fixed. That is, the vertical position of the snow removal unit 1 with respect to the crawler type traveling device 50 is fixed. Further, as described above, the fixing metal 13 is provided with the long hole 13a so that the bolt 17 can be slid. The position where the fixing metal 13 is fixed to the mounting metal 15 is defined in the long hole 13a. It can be changed along. For this reason, it is possible to fix the vertical position of the snow removal part 1 after changing the vertical position of the snow removal part 1 by an arbitrary width, and the vertical position of the snow removal part 1 with respect to the crawler type traveling device 50 is It can be changed and fixed continuously.
[0021]
As shown in FIGS. 1 and 3, the operation lever 40 is provided with the lock lever 6 and is located in the vicinity of the right handle 10. As will be described later, the lock lever 6 is an operation means for operating the fixing means to switch between the locked state and the free state. Since the vertical rotation operation of the snow removal unit 1 is performed by moving the handles 10 and 10 up and down, in order to shift to the locked state when the snow removal unit 1 is in the free state, the handle 10 and 10 are fixed by hand. The lock lever 6 needs to be operated, and it is convenient for the lock lever 6 to be in the vicinity of the handle 10.
[0022]
The lock lever 6 is pivoted on the rear surface of the operation box 14, and the upper end of the rod 12 is pivoted in the middle of the lock lever 6, and in conjunction with the vertical rotation operation of the lock lever 6, The rod 12 moves up and down. One end of an arm 16 is pivotally connected to the lower end of the rod 12, and the bolt 17 is fixed to the other end of the arm 16, and the rod 12 and the bolt 17 are connected by the arm 16. Yes. Then, in conjunction with the vertical movement of the rod 12, the arm 16 is rotated up and down around the bolt 17 as a rotation fulcrum, and the bolt 17 is tightened or loosened by the vertical rotation of the arm 16. ing. As described above, the rod 12 and the arm 16 constitute a link, and the lock lever 6 and the bolt 17 constituting the fixing means are interlocked and connected via the link. Then, by operating the lock lever 6, the bolt 17 is tightened or loosened via the link, and the fixing bracket 13 can be fixed to the mounting bracket 15. The fixing means is configured so that the bolt 17 can be sufficiently tightened in one stroke of the lock lever 6 and the rod 12, and the operation of the lock lever 6 locks and locks the snow removal unit 1. Release is possible.
[0023]
Next, a tightening structure in the fixing means will be described. The bolt 17 is attached to the fixing bracket 13 with a plain washer 19 interposed therebetween, so that the fixing bracket 13 is prevented from being worn and the bolt 17 is securely tightened. Further, instead of using the flat washer 19, a washer made of a material having a high friction coefficient may be used to assist the tightening force by the bolt 17. In this case, a large force is required for the frictional force when the bolt 17 is tightened. For this purpose, the fixing bracket 13 and the mounting bracket 15 are brought into close contact with each other, and the snow removal portion 1 is strongly locked. In addition to the plain washer 19 and the washer, there is a method of assisting the tightening by the bolt 17 using an elastic member such as a spring washer and a disc spring washer.
[0024]
Further, on the side of the mounting bracket 15 on the side where the nut 18 is disposed, a rotation stopper 21 is disposed. The anti-rotation bracket 21 is configured to be fixed to the mounting bracket 15 as will be described later. A hole corresponding to the hexagonal shape of the nut 18 is formed in the rotation stopper 21, and the nut 18 is inserted into the hole to prevent the nut 18 from rotating. The fixing means is in a locked state. The locking bracket 21 and the mounting bracket 15 can be fastened and fixed by bolts 20 and nuts, and the bolt 20 has mounting holes 21 a provided in the locking bracket 21 and mounting holes provided in the mounting bracket 15. It is inserted. As described above, the nut 18 is prevented from rotating as a structure in which the rotation stopper 21 is fixed to the mounting bracket 15.
[0025]
The mounting hole 21a is formed as a long hole, and the bolt 20 can be slid along the mounting hole 21a. For this reason, by loosening the fastening by the bolt 20, the rotation stopper 21 can be rotated with the bolt 17 as a rotation fulcrum. Then, when the tightening force is reduced due to the use of the fixing means for a certain period of time, the nut 18 can be tightened by rotating the detent fitting 21.
[0026]
This retightening is performed as follows. First, as described above, the fastening by the bolt 20 is loosened, the detent 21 is rotated, and the nut 18 is tightened. At this time, the rotation stopper 21 is fixed to the nut 18, and the rotation angle of the rotation stopper 21 is limited within the adjustment range of the mounting hole 21a. Therefore, this is a retightening as a fine adjustment. Next, if the retightening as the fine adjustment is not sufficient, it is necessary to perform a large retightening. In this case, the bolt 20 is removed from the locking bracket 21 and the locking bracket 21 is once removed from the nut 18. Then, the anti-rotation fitting 21 is externally fitted to the nut 18 again at a position where one side of the hexagonal shape of the nut 18 is shifted by 1 pitch, 2 pitches if necessary, and 3 pitches. In this way, the anti-rotation fitting 21 is repeatedly rotated to perform additional tightening as necessary. As described above, the snowplow of the present invention can perform additional tightening even in the limited adjustment range of the mounting hole 21a.
[0027]
Next, the gravity center position of the snowplow in the longitudinal direction of the machine will be described. The position of the center of gravity of the snowplow differs depending on the position of the center of gravity of the snowplow 1 when it is above or below it. Even when it is in the position, the position of the center of gravity of the snowplow is located in front of the fuselage with respect to the front wheel support shaft 4. That is, regardless of the vertical position of the snow removal unit 1, the snow removal machine is always in a forward leaning posture. When the snow removal unit 1 is in the uppermost position, when the aircraft is released by releasing the handle, etc., as shown in FIG. 6, the aircraft is in a forward leaning posture so that the snow removal unit 1 is in contact with the ground, With the front wheel support shaft 4 as a pivot point, the rear of the crawler type traveling device 50 is lifted by an angle θ.
[0028]
The state shown in FIG. 6 naturally occurs because the snow removal unit 1 is in a locked state by the operation of the lock lever 6. Here, when there is a snow remover in this state, if the snow removing unit 1 is brought into a free state by operating the lock lever 6, the crawler type traveling device 50 is lowered by the angle θ due to its own weight, and finally the figure. Return to the state shown in FIG. This corresponds to a method of positioning the vertical height of the snow removal portion 1 in accordance with snow accumulation, ground inclination, and the like when performing snow removal work. That is, it corresponds to a method of positioning the crawler type traveling device 50 after positioning the snow removing portion 1 so as to contact the ground. Then, after confirming that the crawler type traveling device 50 is in contact with the ground, the operator can fix the snow removal portion 1 using the lock lever 6. Therefore, in the case of this type of snow remover, since the crawler type traveling device is positioned after the snow removal portion is always in contact with the ground, the vertical position of the snow removal portion can be always appropriate.
[0029]
Further, as described above, the position of the snow removal portion 1 in contact with the ground can be adjusted by changing the vertical mounting position of the sled 8 or 8 or the roller. Therefore, even if the snow removal unit 1 is always in contact with the ground via the sled 8 or 8 or the like, it is possible to perform snow removal work that leaves snow on the ground using the present snow remover.
[0030]
The operation of the lock lever 6 is not limited to the positioning performed by lowering the crawler traveling device 50 by its own weight. During the snow removal operation, the lock lever 6 can be unlocked as necessary and operated while adjusting the height of the snow removal portion 1.
[0031]
Further, in this embodiment, the fixing mechanism of the height adjusting device is constituted by the fixing means and a link that interlocks and connects the fixing means and the lock lever 6. However, a structure using a hydraulic mechanism may be used. In this case, a hydraulic mechanism is configured to raise the snow removal portion 1 using a hydraulic cylinder or the like, and the snow removal portion 1 is lowered (the crawler traveling device 50 is lowered). It is configured to be performed by natural fall due to its own weight. The height adjustment device can be automated to reduce the burden on the operator of fixing the vertical position of the snow removal unit 1.
[0032]
Next, the height adjustment structure of the snow removal part will be described. This structure prevents the snow removal unit 1 from rising from the road surface because the center of gravity of the snow removal machine is located behind the machine body depending on the road surface condition. As shown in FIGS. 4 and 5, a stay 22 is attached to the lower part of the body frame 9, an attachment hole is provided at the tip of the stay 22, and one end of a spring 23 serving as an elastic body is connected to the attachment hole. ing. Further, a mounting hole is provided in the lower part of the fixing metal 13, and the other end of the spring 23 is connected to the mounting hole. Thus, the pulling force of the spring 23 urges the crawler traveling device 50 to rotate the snow removal portion 1 downward in the state shown in FIG. In this embodiment, a tension spring is used. However, an elastic body such as a compression spring, a torsion spring, or a leaf spring can be arranged so as to bias the snow removal portion 1 downward. . In addition to the spring, an actuator such as a motor or a cylinder can be arranged so as to urge the snow removal portion 1 in the vertical direction.
[0033]
With this configuration, when the lock lever 6 is unlocked, the snow removal unit 1 and the body frame 9 are always urged so that the front wheel support shaft 4 is pivoted so that the snow removal unit 1 is lowered. In addition to its own weight, it is possible to perform snow removal work that is lowered by the spring force of the spring 23 and dug downward, and the efficiency of the snow removal work can be prevented from decreasing.
[0034]
【The invention's effect】
According to a first aspect of the present invention, a snow removing portion is disposed at a front portion of the airframe frame, the airframe frame is configured to be rotatable around a front wheel support shaft of the traveling device, and a driving operation portion is provided above the airframe frame. A snowplow disposed, wherein a mounting bracket provided at a rear portion of the fuselage frame and a fixing bracket provided at a rear portion of the traveling device can be connected and fixed by a fixing means, and a lock lever arranged in the driving operation section is fixed to the fixing means. Since the fixing bracket can be fixed to the mounting bracket by operating the lock lever, the vertical height of the snow removal portion can be changed and fixed, and the snow removal height can be adjusted. . Further, since the adjustment of the snow removal height is performed by a single lock lever disposed in the driving operation unit, the snow removal height can be adjusted as necessary during the snow removal work and the operation can be continued.
[0035]
Further, the fixing means is composed of a bolt and a nut, and is configured such that either the bolt or the nut can be fastened by operating the lock lever, and a long hole for allowing the bolt to slide is provided in the fixing bracket. Since the position for fixing the fixing bracket to the mounting bracket can be changed steplessly, the snow removal height can be fixed by a simple mechanism. In addition, since the vertical position of the snow removal portion can be adjusted steplessly instead of stepped, appropriate height adjustment can be performed as necessary for snow removal work.
[0036]
Further, by operating the lock lever (6), the bolt (17) can be rotated and fastened, and a long hole (13a) that allows the bolt (17) to slide in the fixing bracket (13). ), The position where the fixing bracket (13) is fixed to the mounting bracket (15) by the bolt (17) and the nut (18) can be changed continuously, and the mounting bracket (15) A detent bracket (21) is disposed on the side where the nut (18) is disposed. The detent bracket (21) is fixed to the mounting bracket (15) and the detent bracket ( 21) Since a hole corresponding to the hexagonal shape of the nut (18) is drilled, the nut (18) is fitted into the hole, and the nut (18) is prevented from rotating. As the structure for fixing the rotation stopper 21 to the mounting bracket 15, the nut 1 It is intended that was able to prevent the co-rotation rotation of.
[0037]
According to a second aspect of the present invention, in the height adjustment device for the snowplow according to the first aspect, the detent metal fitting (21) is rotatable about the bolt (17) with respect to the mounting metal fitting (15). The locking bracket (21) and the mounting bracket (15) are inserted into a mounting hole (21a) penetrating the locking bracket (21) at a position away from the bolt (17). The other fixing bolt (20) and the nut can be fastened and fixed, and the mounting hole (21a) is formed into a long hole, and along the fixing bolt (20), the mounting hole (21a) The rotation-stop bracket (21) can be rotated with the bolt (17) and the nut (18), and when the tightening force is reduced, the rotation-stop bracket (21) is attached to the mounting bracket (15). The nut (18) can be retightened by rotating. In, by loosening the fastening by the bolt 20, thereby rotating the detent fitting 21, performs tightening of the nut 18. At this time, the rotation stopper 21 is fixed to the nut 18, and the rotation angle of the rotation stopper 21 is limited within the adjustment range of the mounting hole 21a. Therefore, this is a retightening as a fine adjustment.
Next, if the retightening as the fine adjustment is not sufficient, it is necessary to perform a large retightening. In this case, the bolt 20 is removed from the locking bracket 21 and the locking bracket 21 is once removed from the nut 18. Then, the anti-rotation fitting 21 is externally fitted to the nut 18 again at a position where one side of the hexagonal shape of the nut 18 is shifted by 1 pitch, 2 pitches if necessary, and 3 pitches. In this way, the anti-rotation fitting 21 is repeatedly rotated to perform additional tightening as necessary.
As described above, the snowplow of the present invention can perform additional tightening even in the limited adjustment range of the mounting hole 21a.
[Brief description of the drawings]
FIG. 1 is an overall side view of a snowplow.
FIG. 2 is a perspective view of a sled mounting portion.
FIG. 3 is an overall perspective view of the snowplow as viewed from the rear.
FIG. 4 is a perspective view of a snow removal unit fixing structure.
FIG. 5 is a perspective view of a snow removal unit fixing structure.
FIG. 6 is an overall side view of the snow removal machine showing a case where a snow removal unit is located above.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Snow removal part 6 Lock lever 9 Airframe frame 4 Front wheel support shaft 13 Fixing metal fitting 13a Long hole 15 Mounting metal fitting 17 Bolt 18 Nut 40 Driving operation part 50 Crawler type traveling device

Claims (2)

The snow removal part (1) is arranged in the front part of the machine body frame (9), and the machine body frame (9) is configured to be rotatable around the front wheel support shaft (4) of the crawler type traveling device (50). A snow remover in which a driving operation unit (40) is disposed on the rear upper side of the machine body frame (9), the mounting bracket (15) provided on the rear part of the machine body frame (9), and the crawler traveling device (50 ) Can be connected and fixed by a fixing means including a bolt (17) and a nut (18), and the lock lever (6) disposed in the operation operating portion (40) is The bolt (17) is interlocked and connected , and the bolt (17) can be rotated and fastened by operating the lock lever (6), and the bolt (17) is slid on the fixing bracket (13). A long hole (13a) that can be freely provided is provided, ), The position where the fixing bracket (13) is fixed by the bolt (17) and the nut (18) can be changed continuously, and the side of the mounting bracket (15) where the nut (18) is disposed The anti-rotation fitting (21) is provided on the side of the anti-rotation fitting (21), and the anti-rotation fitting (21) is fixed to the attachment fitting (15). ), A height adjustment device for a snowplow characterized in that the nut (18) is inserted into the hole to prevent the nut (18) from rotating. . The height adjustment device for a snowplow according to claim 1, wherein the detent metal fitting (21) is pivotally supported with respect to the attachment metal fitting (15) so as to be rotatable around the bolt (17), The locking bracket (21) and the mounting bracket (15) are other fixing bolts inserted into the mounting hole (21a) penetrating the locking bracket (21) at a position away from the bolt (17). (20) and a nut that can be fastened and fixed, and the mounting hole (21a) is formed as a long hole. Along the fixing bolt (20), an anti-rotation bracket ( 21) can be rotated, and when the tightening force is reduced by the bolt (17) and the nut (18), the anti-rotation bracket (21) is rotated with respect to the mounting bracket (15). It is characterized in that it possible to tighten the nuts (18) Height adjustment device of the snowplow.

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