JP4266308B2 - snowblower - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement technique for a snowplow of a type that travels by itself on a traveling unit such as a crawler belt.
[0002]
[Prior art]
In recent years, in order to reduce the labor of snow removal work, a technique of an auger type snow remover of a type that travels on its own with power and that operates an operation handle while an operator walks has been developed (see, for example, Patent Document 1). ).
[0003]
[Patent Document 1]
JP-A-63-513 (2nd page, FIG. 1)
[0004]
An outline of a conventional snow remover according to Patent Document 1 will be described with reference to FIG.
FIG. 10 is a schematic view of a conventional snow remover, and FIG. 1 of JP-A-63-513 is reproduced. In addition, the code | symbol was reassigned.
[0005]
The conventional snow remover 500 transmits the power of the horizontal engine 502 with the crankshaft 501 extending horizontally forward to the snow removal working unit 506 via the transmission mechanism 504 and the transmission shaft 505 housed in the transmission case 503. The power of the engine 502 is also transmitted to the left and right crawler belts 509 and 509 via the drive axle 507 and the drive wheels 508 and 508.
[0006]
More specifically, in the snowplow 500, the engine 502 is mounted on the traveling frame 512 provided with the rolling wheels 511 and 511 of the left and right crawler belts 509 and 509, and the transmission case 503 is mounted on the front portion of the engine 502. This is an auger type snow remover in which a snow removal working part 506 is attached to the front part of 503, a drive axle 507 is attached to the lower part of the transmission case 503, and left and right drive wheels 508, 508 are attached to the drive axle 507.
The snow removal work can be performed by driving the snow removal working unit 506 including the auger 521 and the blower 522 by the engine 502. The snow removal working unit 506 is configured not to swing up and down.
[0007]
[Problems to be solved by the invention]
However, in the conventional snow remover 500, the engine 502 is disposed at the rear because the snow removal working unit 506 is disposed at the front. Further, as the engine 502, a horizontal engine in which the crankshaft 501 extends horizontally forward is employed. For this reason, the engine 502 is arranged above the rolling wheels 511 and 511 which are separated rearward from the drive wheels 508 and 508. The distance from the engine 502 to the snow removal working unit 506 must be increased. Accordingly, the snowplow 500 becomes large. Since the total length of the snowplow 500 is large, there is room for improvement in order to improve turning performance.
[0008]
Therefore, it is conceivable to employ a vertical engine with the crankshaft extended vertically as the engine 502. However, simply adopting a vertical engine only complicates the configuration of the snowplow 500 and leaves room for improvement.
[0009]
Accordingly, an object of the present invention is to provide a technique that can make a snowplow smaller.
[0010]
[Means for Solving the Problems]
Claim 1 in order to achieve the above object, so as to transmit the crankshaft power of the vertical engine which extended downwardly, the snow removing portion such as the auger through a power transmission mechanism housed in the transmission case, the electric motor A snow remover that transmits the power of the left and right crawler belts via the left and right drive wheels ,
Attach the vertical engine to the top of the transmission case and attach the snow removal work part to the front of the transmission case.
The transmission mechanism includes an input shaft that extends upward and is connected to the vertical engine, and an output shaft that extends forward and is connected to the snow removal working unit via the transmission shaft.
While facing the cylinder part of the vertical engine to the rear, the front face of the engine body is adjacent to the rear face of the snow removal work part ,
The left and right drive wheels are arranged in front of the left and right crawler belts, the crankshaft is arranged in the vicinity of the axle center of the left and right drive wheels and rearward, and the electric motor is in the vicinity of the axle center of the left and right drive wheels and in front. The center of the motor shaft is arranged .
[0011]
Since the cylinder portion of the vertical engine is directed rearward and the front surface of the engine main body is adjacent to the rear surface of the snow removal work portion, the vertical engine can be disposed near the snow removal work portion. The transmission mechanism further includes an input shaft extending upward and an output shaft extending forward. The vertical engine is attached to the upper portion of the transmission case, and the crank shaft extending downward from the vertical engine is connected to the input shaft extending upward. In addition, the snow removal work part is attached to the front part of the transmission case, and the snow removal work part is connected to the output shaft extending forward via the transmission shaft, so that the vertical engine is brought close to the snow removal work part. The size of the case in the front-rear direction can be reduced. As a result, the snowplow can be reduced in size. By reducing the overall length of the snowplow, the turning performance of the snowplow can be further increased.
[0012]
Furthermore, the length of the output shaft can be reduced by the amount of reduction in the longitudinal dimension of the transmission case. As a result, since the bending moment generated in the output shaft is reduced, the diameter of the output shaft can be reduced, and the bearing supporting the output shaft can be small.
[0013]
Furthermore, the vertical engine, the transmission mechanism, and the transmission case, which are heavy objects, can be brought closer to the snow removal working unit. In this way, by setting the center of gravity of the snow removal machine to the front position, the lower end of the snow removal work part can be easily bited into the snow surface, and the efficiency of snow removal work and the finish of snow removal can be further improved. .
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings.
“Front”, “Rear”, “Left”, “Right”, “Up”, “Down” follow the direction seen from the operator, Fr is front, Rr is rear, L is left, R is right CL indicates the vehicle width center (vehicle body center). The drawings are to be viewed in the direction of the reference numerals.
[0015]
FIG. 1 is a left side view (part 1) of a snowplow according to the present invention. A snow remover 10 as an electric vehicle is attached to a traveling frame 40 having left and right traveling units 30L and 30R (only the left is shown in the figure, the same applies hereinafter) so as to swing up and down. The left and right electric motors 21L and 21R are attached to the left and right sides of the transmission case 50, the engine 60 is attached to the top of the transmission case 50, and the snow removal working unit 70 is attached to the front of the transmission case 50. Left and right operation handles 80L, 80R are extended from the upper part to the rear (more specifically, rear upper), and an operation panel 91 is provided between the left and right operation handles 80L, 80R. It is a self-propelled walking type work machine that walks. Hereinafter, the main part will be described in detail.
[0016]
The left traveling unit 30L is a crawler that wraps the crawler belt 33L around the front drive wheel 31L and the rear idler wheel 32L, and rotates the drive wheel 31L forward and backward with the left electric motor 20L. The right traveling unit 30R is a crawler that wraps the crawler belt 33R around the front driving wheel 31R and the rear idler wheel 32R, and rotates the driving wheel 31R forward and backward with the right electric motor 20R.
[0017]
The left and right electric motors 20L and 20R are driving sources for driving by transmitting power to the left and right traveling units 30L and 30R via the left and right traveling transmission mechanisms 120L and 120R.
[0018]
The engine 60 is a vertical engine in which the crankshaft 61 is extended downward. The engine 60 is driven by transmitting power to the snow removal working unit 70 via the work transmission mechanism 130 and the transmission shaft 76 housed in the transmission case 50. This is a working drive source.
In such an engine 60, a cylinder portion 62 in which a piston (not shown) reciprocates is directed rearward, and the front surface 63a of the engine main body 63 that houses the crankshaft 61 is connected to the rear surface 75a of the snow removal working portion 70 (that is, the blower housing 75). It is characterized by being adjacent to the rear surface 75a).
[0019]
The snow removal working unit 70 includes a front auger 71, a rear blower 72, an upper shooter 73, an auger housing 74 surrounding the auger 71, and a blower housing 75 surrounding the blower 72. The auger housing 74 is formed by integrally combining a rear blower housing 75.
The auger 71 collects snow accumulated on the ground in the center. The blower 72 that has received the snow acts to project the snow to a desired position around the snow removal machine 10 via the shooter 73.
[0020]
Further, the snowplow 10 includes a swing drive mechanism 83 that drives the transmission case 50 to swing up and down. The swing drive mechanism 83 permits the vertical swing of the transmission case 50 to adjust the height of the snow removal working unit 70 and prevents the vertical swing of the transmission case 50 after adjusting the height of the snow removal working unit 70. This is a telescopic mechanism. Such a swing drive mechanism 83 is an actuator in which a rod can advance and retreat from a cylinder, and includes, for example, an electric actuator, a hydraulic actuator, and a pneumatic actuator.
[0021]
In the figure, 92 is a scraper, 93 is a lamp, 94 is an air cleaner, 95 is a carburetor, and 96 is an engine exhaust muffler.
[0022]
FIG. 2 is a left side view (part 2) of the snow removal machine according to the present invention, and shows the snow removal machine 10 in a state where the periphery of the engine 60 is covered with a cover 110. The cover 110 is an upper and lower divided cover including a lower cover portion 111 surrounding the lower half of the engine 60 and an upper cover portion 112 surrounding the upper half of the engine 60.
[0023]
Furthermore, this figure shows that the space 60 is provided below the cylinder part 62 by arranging the engine 60 directly above the transmission case 50 and directing the cylinder part 62 of the engine 60 rearward. By disposing the engine exhaust muffler 96 in this space Sp, the entire engine exhaust muffler 96 is arranged in the front transmission case 50, the rear traveling frame 40 and the swing drive mechanism 83, the crawler belts 33L, 33R on the left and right sides, It can be generally surrounded by the upper engine 60 and the lower ground Gr. Accordingly, it is possible to prevent the operator from directly touching the engine exhaust muffler 96 having a relatively high temperature, and therefore it is only necessary to cover the engine exhaust muffler 96 with a minimum of a small heat shielding plate.
[0024]
FIG. 3 is a plan view of the snowplow according to the present invention, in which the operation panel 91 shown in FIG. 1 is omitted. In this figure, the engine 60 is arranged at the center of the snowplow 10, the center EL of the crankshaft (engine output shaft) 61 is arranged at the vehicle width center CL, and the transmission case 50 and the transmission case 50 are directly under the engine 60. The accommodated working transmission mechanism 130 is disposed, and the snow removal working unit 70 is disposed in front of the transmission case 50 and the working transmission mechanism 130, and the left and right crawlers on both the left and right sides of the transmission case 50 and the working transmission mechanism 130 It shows that the belts 33L and 33R are arranged, and the left and right drive wheels 31L and 31R and the left and right electric motors 20L and 20R are arranged on the front side of the crawler belts 33L and 33R.
[0025]
Further, this figure shows that when the snowplow 10 is viewed from above, a shooter 73 on the left front, a lamp 93 and a battery 97 on the right front, an air cleaner 94 on the right rear, and an operation panel 91 ( The fuel tank 98 and the left and right motor drive control units 99, 99 are attached below (see FIG. 1).
[0026]
The left operation handle 80L is provided with a travel preparation lever 82 in the vicinity of the grip 81L to enable the left and right electric motors 20L and 20R to be operated. The right operation handle 80R includes an adjustment lever 84 for operating the swing drive mechanism 83 (see FIG. 1) in the vicinity of the grip 81R.
[0027]
FIG. 4 is a schematic plan view around the engine, the electric motor, the traveling unit, and the snow removal working unit of the snowplow according to the present invention, and shows that the transmission case 50 is disposed between the left and right traveling units 30L and 30R.
The traveling frame 40 includes a pair of left and right side members 41, 41 extending in the front-rear direction, a cross member 42 spanning between the rear portions of the left and right side members 41, 41, and a bracket 43 attached to the center of the cross member 42. Is a substantially U-shaped member in plan view.
[0028]
The left and right side members 41 and 41 are frames that rotatably support the left and right drive wheel axles 34L and 34R at the front portion and the idler wheel axle 35 at the rear portion. The left and right drive wheel axles 34L and 34R are rotating shafts to which the left and right drive wheels 31L and 31R are fixed. The idler wheel axle 35 is a single fixed shaft on which the left and right idler wheels 32L and 32R are rotatably attached.
[0029]
The cross member 42 is a member to which left and right adjustment bolts 36, 36 extending rearward from the idler wheel axle 35 are attached so as to be able to advance and retract. By adjusting the adjustment bolts 36, 36, the idler wheel axle 35 can be moved back and forth to adjust the tension of the left and right crawler belts 33L, 33R.
[0030]
The left electric motor 20 </ b> L includes a fixed-side annular outer stator 21, an inner rotor 22 surrounded by the outer stator 21, and a motor shaft 23 that is integrally assembled with the inner rotor 22. The motor shaft 23 is brought into a brake state by an electromagnetic brake 24. The electromagnetic brake 24 is a brake corresponding to a parking brake of a normal vehicle, and is in a brake state during parking.
[0031]
The left traveling transmission mechanism 120 </ b> L includes a first small gear 121 attached to the motor shaft 23, and a first large gear 122 attached rotatably to the drive wheel axle 34 </ b> L so as to mesh with the first small gear 121. A second small gear 123 formed integrally with the first large gear 122, a second large gear 124 rotatably attached to the motor shaft 23 to mesh with the second small gear 123, and a second large gear 124. Is a three-stage reduction type reduction mechanism comprising a third small gear 125 formed integrally with the third small gear 125 and a third large gear 126 attached to the drive wheel axle 34L to mesh with the third small gear 125.
[0032]
Each gear 121-126 is a spur gear. The right electric motor 20R has the same configuration as the left electric motor 20L, and the right travel transmission mechanism 120R has the same configuration as the left travel transmission mechanism 120L. Reference numeral 37 denotes a bearing.
[0033]
The work transmission mechanism 130 housed in the transmission case 50 includes an input shaft 131 that extends substantially vertically, an output shaft 132 that extends substantially horizontally, a small bevel gear 133 on the drive side attached to the input shaft 131, and a small bevel gear 133. This is a one-stage reduction type reduction mechanism including a large bevel gear 134 on the driven side attached to the output shaft 132 for meshing.
[0034]
The output shaft 132 is a shaft that extends forward from the transmission case 50 and is connected to the snow removal working unit 70 via the transmission shaft 76. Specifically, the transmission shaft 76 is connected to the front end of the output shaft 132, and the transmission shaft 76 is connected to the auger shafts 78 and 78 via the worm gear type reduction mechanism 77 of the auger 71, and the blower 72 is connected to the transmission shaft 76. .
[0035]
Here, the structure of the left and right operation handles 80L and 80R and the mounting structure of the swing drive mechanism 83 will be described in detail.
The operation handles 80L and 80R are attached to the left and right handle bases 85L and 85R extending rearward from the upper left and right sides of the transmission case 50 and the rear ends of these handle bases 85L and 85R so that the mounting angle can be adjusted. The left and right handle bars 86L and 86R extend rearward. The left and right handle bases 85 </ b> L and 85 </ b> R have a cross member 87 spanned between rear ends, and a bracket 88 is attached to the center of the cross member 87.
[0036]
The attachment structure of the swing drive mechanism 83 is a structure in which the upper and lower ends of the swing drive mechanism 83 are connected to the bracket 43 of the traveling frame 40 and the bracket 88 on the handle base 85L, 85R side so as to be able to swing up and down.
[0037]
Incidentally, the left and right drive wheel axles 34L, 34R supported by the traveling frame 40 are also rotatably supported by the transmission case 50. For this reason, the transmission case 50 can swing with the axle center of the drive wheel axles 34L and 34R as the center of the vertical swing. By the swing drive mechanism 83, the transmission case 50 can be swung up and down (in the front and back directions in this figure) via the handle bases 85L and 85R.
[0038]
As described above, the engine 60 (see FIG. 3) and the snow removal working unit 70 are attached to the transmission case 50. Therefore, the height of the snow removal working unit 70 can be adjusted by swinging the engine 60 and the snow removal working unit 70 up and down together with the transmission case 50.
[0039]
FIG. 5 is a cross-sectional view of the transmission case and the working transmission mechanism according to the present invention, and shows a configuration in which the working transmission mechanism 130 housed in the transmission case 50 is viewed from the left side.
This figure is provided with a plurality of mounting bosses 51 (... indicates a plurality; the same applies hereinafter) at the upper end of the transmission case 50, and the lower end 64 of the engine 60 is provided at these mounting bosses 51. The engine 60 is attached to the upper part of the transmission case 50, and a mounting flange 52 is provided at the front end of the transmission case 50. The blower housing 75 is bolted to the mounting flange 52, so that the transmission case It shows that the snow removal working part 70 is attached to the side part of 50.
[0040]
The input shaft 131 of the working transmission mechanism 130 is disposed concentrically with the crankshaft 61, extends upward, and is connected to the lower end of the crankshaft 61 via a clutch 65.
The transmission case 50 is formed by integrally forming a cylindrical input shaft storage portion 53 through which the input shaft 131 passes and a cylindrical output shaft storage portion 54 through which the output shaft 132 passes. 55 is a lid, and 141 to 145 are bearings.
[0041]
FIG. 6 is a cross-sectional view of the transmission case, the electric motor, and the traveling transmission mechanism according to the present invention, and shows a configuration in which the electric motors 20L and 20R and the traveling transmission mechanisms 120L and 120R housed in the transmission case 50 are viewed from the back. To express. FIG. 7 is a cross-sectional view of the transmission case, the left electric motor, and the left traveling transmission mechanism according to the present invention, corresponding to FIG. In order to facilitate understanding, the traveling transmission mechanisms 120L and 120R are shown expanded.
[0042]
FIGS. 6 and 7 show driving for left and right electric motors 20L and 20R, left and right traveling transmission mechanisms 120L and 120R, and left and right traveling units 30L and 30R (see FIG. 4) on the left and right sides of the transmission case 50, respectively. The wheel axles 34L and 34R are attached, and the transmission case 50 also serves as a part of the motor cases 153 and 153.
[0043]
More specifically, the transmission case 50 is provided with an output shaft storage portion 54 at the vehicle width center CL, and motor storage portions 56, 56 are integrally formed on the left and right sides of the output shaft storage portion 54. The left and right sides of the portions 56 and 56 are opened, their open ends are closed by bolts with the left and right motor case halves 151 and 151, and left and right transmissions of these motor case halves 151 and 151 are transmitted to the left and right sides. The cover 152, 152 is covered and bolted.
[0044]
In this way, the left and right motor cases 153 and 153 can be configured by the left and right motor storage portions 56 and 56 and the left and right motor case halves 151 and 151. Accordingly, the left and right motor storage portions 56, 56 of the transmission case 50 also serve as part of the motor cases 153, 153.
The left and right motor case halves 151 and 151 and the left and right transmission covers 152 and 152 can constitute the left and right traveling transmission mechanism cases 154 and 154. Therefore, the left and right motor case halves 151 and 151 also serve as part of the traveling transmission mechanism cases 154 and 154.
[0045]
The electric motors 20L and 20R and the electromagnetic brakes 24 and 24 are accommodated in the left and right motor cases 153 and 153, respectively. As shown in FIG. 7, the left electric motor 20L includes a motor shaft 23 that extends horizontally in the vehicle width direction (left and right), an outer stator 21 in which a plurality of electric elements 25 are arranged in the stator circumferential direction, This is an inner rotor type DC brushless motor that combines an inner rotor 22 in which a plurality of permanent magnets 26 are arranged in the circumferential direction of the rotor. The same applies to the right electric motor 20R.
[0046]
On the other hand, the traveling transmission mechanisms 120L and 120R are accommodated in the left and right traveling transmission mechanism cases 154 and 154, respectively. A first small gear 121 and a second large gear 124 are provided at the tip of the motor shaft 23 that extends into the travel transmission mechanism case 154. The second large gear 124 and the third small gear 125 that are integral with each other are also rotatably supported by the transmission cover 152. Reference numerals 161 to 165 denote bearings.
[0047]
By the way, the transmission case 50 which also serves as a part of the motor cases 153 and 153 can pass the harnesses (electric wires) 171 and 171 for the electric motors 20L and 20R. Specifically, the harnesses 171 and 171 connected to the electric motors 20L and 20R in the motor storage portions 56 and 56 are wired outside through the harness holes 172 opened in the transmission case 50 as shown in FIG. That is, it can be routed. Accordingly, since the harnesses 171 and 171 are not exposed to the outside, durability and reliability of the harnesses 171 and 171 can be improved.
[0048]
FIG. 8 is an explanatory diagram showing the arrangement relationship of the components of the snowplow according to the present invention.
When the snowplow 10 is viewed from the side, the center of the crankshaft 61 (center of the crankshaft) is EL, the center of the drive wheel axles 34L and 34R (axle center) is DL, and the center of the axle 35 for idler wheels. Assume that (axle center) is FL, the center of the motor shafts 23 and 23 (motor shaft center) is ML, and the position of the center of gravity G1 of the snowplow 10 is GL.
[0049]
In the present invention, (1) the axle center DL of the left and right drive wheels 31L, 31R is the center of the vertical swing of the transmission case 50, the engine 60 and the snow removal working unit 70, and (2) the crankshaft is in the vicinity of the axle center DL and rearward. By arranging 61, (3) the center of gravity G1 of the snowplow 10 is set between the crankshaft center EL and the axle center DL, and (4) in the vicinity of the axle center DL and forward (more concretely). Is characterized in that the motor shaft center ML is arranged in the front upper direction.
[0050]
The specific distance in the longitudinal direction of the snowplow 10 will be described. The distance between the axle centers DL and FL is L1, the distance from the axle center DL to the crankshaft center EL is L2, and the position GL of the center of gravity G1 from the axle center DL. And the distance from the axle center DL to the motor shaft center ML is L4.
The distance L2 is approximately 1/3 of the distance L1, and is sufficiently small. The distance L3 is about ½ of the distance L2, and is sufficiently small. The distance L4 is about ½ of the distance L2 and is sufficiently small.
[0051]
In this way, the work transmission mechanism 130 (transmission mechanism 130) is disposed directly below the vertical engine 60, the snow removal working unit 70 is disposed in front of the transmission mechanism 130, and the left and right crawler belts 33L are disposed on both the left and right sides of the transmission mechanism 130. 33R, the left and right drive wheels 31L, 31R and the electric motors 20L, 20R are arranged on the front side of the crawler belts 33L, 33R, the transmission case 50, the engine 60, the axle center DL of the drive wheels 31L, 31R. By placing the crankshaft 61 in the vicinity of the axle center DL and behind the axle center DL, with the center of the vertical swing of the transmission mechanism 130 and the snow removal working unit 70, the weight is placed in the vicinity of the axle center DL and behind the axle center DL. The engine 60 which is a thing can be arrange | positioned.
[0052]
Thus, by setting the center of gravity G1 of the snowplow 10 as a whole between the crankshaft center EL and the axle center DL, the weight balance before and after the snowplow 10 can be set to a more optimal state. . Therefore, the lower end portion of the snow removal work part 70 can be easily bited into the snow surface, and the efficiency of the snow removal work and the finish of snow removal can be further improved. Moreover, it is possible to ensure running performance for running on the snow surface with the crawler belts 33L and 33R.
[0053]
Furthermore, since the heavy engine 60, the transmission mechanism 130, and the electric motors 20L and 20R are disposed in the vicinity of the axle center DL of the drive wheels 31L and 31R, the snow removal working unit 70 is provided with the axle center DL as a swing center. The swing operation force for swinging up and down is relatively small. Therefore, the operation of swinging the snow removal working unit 70 up and down and setting the biting angle of the snow removal working unit 70 with respect to the snow surface is easy.
[0054]
FIGS. 9A and 9B are operational views of the snowplow according to the present invention.
(A) shows the snow removal machine 10 in a state where the snow removal working unit 70 is set almost horizontally. By extending and retracting the swing drive mechanism 83 from this state, the transmission case 50 swings up and down around the axle center DL of the drive wheel axles 34L and 34R. Therefore, as shown in (b), the height of the snow removal working unit 70 can be adjusted by swinging the snow removal working unit 70 up and down together with the transmission case 50.
[0055]
Next, the operation of the snow removal machine 10 configured as described above will be described with reference to FIG.
A transmission case 50 is disposed between the left and right traveling units 30L, 30R, the engine 60 is attached to the top of the transmission case 50, the snow removal working unit 70 is attached to the front of the transmission case 50, and the electric motor is installed on the side of the transmission case 50. Since the drive wheel axles 34L, 34R for the 20L, 20R and the left and right traveling units 30L, 30R are attached, the transmission case 50 that houses the transmission mechanism 130 for transmitting the power of the engine 60 to the snow removal working unit 70 is provided. The main frame (airframe) of the snowplow 10 can also be used.
[0056]
Therefore, the main frame for mounting the engine 60, the snow removal working unit 70, the electric motors 20L and 20R, and the drive wheel axles 34L and 34R can be reduced. As a result, the snowplow 10 can be reduced in size and weight, and the number of parts can be reduced. Furthermore, maneuverability can be further improved by reducing the size of the snowplow 10.
[0057]
Furthermore, since the drive wheel axles 34L, 34R are also attached to the transmission case 50 that also serves as the main frame, the weights of the transmission case 50, the engine 60, the snow removal working unit 70, and the electric motors 20L, 20R are set to the drive wheel axle 34L. , 34R can be hung on the traveling units 30L, 30R. As a result, the driving force of the traveling units 30L and 30R can be sufficiently secured. Accordingly, the running performance for running on the snow surface at the running units 30L and 30R is enhanced.
[0058]
Furthermore, since the engine 60 is a vertical engine, the cylinder portion 62 of the vertical engine 60 is directed rearward, and the front surface 63a of the engine body 63 is adjacent to the rear surface 75a of the snow removal working portion 70, so that the vertical engine 60 is removed from the snow. It is possible to arrange it close to the portion 70.
[0059]
The transmission mechanism 130 further includes an input shaft 131 extending upward and an output shaft 132 extending forward. The vertical engine 60 is attached to the upper portion of the transmission case 50, and the vertical input shaft 131 extends from the vertical engine 60. Since the crankshaft 61 extending downward is connected, the snow removal working portion 70 is attached to the front portion of the transmission case 50, and the snow removal working portion 70 is connected to the output shaft 132 extending forward via the transmission shaft 76. The size of the transmission case 50 in the front-rear direction can be reduced by the amount that the vertical engine 60 is moved to the vicinity of the snow removal working unit 70.
As a result, the snowplow 10 can be reduced in size. By reducing the overall length of the snow removal machine 10, the turning performance of the snow removal machine 10 can be further improved.
[0060]
Furthermore, the length of the output shaft can be reduced by the amount of reduction in the longitudinal dimension of the transmission case. As a result, since the bending moment generated in the output shaft is reduced, the diameter of the output shaft can be reduced, and the bearing supporting the output shaft can be small.
[0061]
Furthermore, the vertical engine 60, the transmission mechanism 130, and the transmission case 50, which are heavy objects, can be brought closer to the snow removal working unit 70. In this way, by setting the center of gravity of the snow removal machine 10 to the forward position, the lower end of the snow removal work unit 70 can be easily bited into the snow surface, and the efficiency of the snow removal work and the finish of snow removal are further improved. Can do.
[0062]
【The invention's effect】
The present invention exhibits the following effects by the above configuration.
According to the first aspect of the present invention, the cylinder portion of the vertical engine is directed rearward, and the front surface of the engine main body is adjacent to the rear surface of the snow removal work portion. Therefore, the vertical engine can be arranged close to the snow removal work portion. The transmission mechanism further includes an input shaft extending upward and an output shaft extending forward. The vertical engine is attached to the upper portion of the transmission case, and the crank shaft extending downward from the vertical engine is connected to the input shaft extending upward. In addition, the snow removal work part is attached to the front part of the transmission case, and the snow removal work part is connected to the output shaft extending forward via the transmission shaft, so that the vertical engine is brought close to the snow removal work part. The size of the case in the front-rear direction can be reduced. As a result, the snowplow can be reduced in size. By reducing the overall length of the snowplow, the turning performance of the snowplow can be further increased.
[0063]
Furthermore, the length of the output shaft can be reduced by the amount of reduction in the longitudinal dimension of the transmission case. As a result, since the bending moment generated in the output shaft is reduced, the diameter of the output shaft can be reduced, and the bearing supporting the output shaft can be small.
[0064]
Furthermore, the vertical engine, the transmission mechanism, and the transmission case, which are heavy objects, can be brought closer to the snow removal working unit. In this way, by setting the center of gravity of the snow removal machine to the front position, the lower end of the snow removal work part can be easily taken into the snow surface, and the efficiency of snow removal work and the finish of snow removal can be further improved. .
[Brief description of the drawings]
FIG. 1 is a left side view of a snowplow according to the present invention (part 1).
FIG. 2 is a left side view of a snowplow according to the present invention (part 2).
FIG. 3 is a plan view of a snowplow according to the present invention. FIG. 4 is a schematic plan view around an engine, an electric motor, a traveling unit, and a snow removal working unit of the snowplow according to the present invention. Sectional view of case and work transmission mechanism FIG. 6 is a sectional view of the transmission case, electric motor and traveling transmission mechanism according to the present invention. FIG. 7 is a sectional view of the transmission case, left electric motor and left traveling according to the present invention. Cross-sectional view of the transmission mechanism FIG. 8 is an explanatory view showing the arrangement relationship of the parts of the snowplow according to the present invention. FIG. 9 is an operation diagram of the snowplow according to the present invention. Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Snow remover, 30L, 30R ... Traveling part, 50 ... Transmission case, 60 ... Vertical engine, 61 ... Crankshaft, 62 ... Cylinder part, 63a ... Front of engine main body, 70 ... Snow removal working part, 75a ... Snow removal working part Rear surface (rear surface of blower housing), 76 ... transmission shaft, 130 ... transmission mechanism (working transmission mechanism), 131 ... input shaft, 132 ... output shaft.

Claims (1)

The power of the vertical engine with the crankshaft extended downward is transmitted to the snow removal work part such as an auger via a transmission mechanism housed in the transmission case, and the power of the electric motor is transmitted to the left and right drive wheels via the left and right drive wheels. A snow remover that transmits to the crawler belt ,
The transmission case has the vertical engine attached to the upper part and the snow removal working part attached to the front part.
The transmission mechanism includes an input shaft extending upward and connected to the vertical engine, and an output shaft extending forward and connected to the snow removal working unit via the transmission shaft.
The vertical engine has a cylinder portion facing rearward, and the front surface of the engine body is adjacent to the rear surface of the snow removal working portion ,
The left and right drive wheels are arranged on the front side of the left and right crawler belts, the crankshaft is arranged in the vicinity of the axle center of the left and right drive wheels, and in the vicinity of the axle center of the left and right drive wheels, and A snow remover characterized in that a motor shaft center of the electric motor is arranged in front .

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