JP4275996B2 - snowblower - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a snow remover that jumps up snow collected by an auger with a blower and throws the jumped snow up to a predetermined position with a shooter.
[0002]
[Prior art]
For example, there is a snow remover equipped with an auger and a blower to remove snow from a road surface or a parking lot (see, for example, Patent Document 1).
In addition, there is a snow remover equipped with a shear bolt for a blower in consideration of a case where a force exceeding a predetermined value is applied to the blower (see, for example, Patent Document 2).
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 3-137311 (page 3-4, FIG. 9)
[Patent Document 2]
Japanese Patent Laid-Open No. 8-13439 (page 4, FIG. 2)
[0004]
FIG. 9 is a front view of FIG. The code was reassigned.
According to the auger apparatus 100, the auger (not shown) is rotated by the drive shaft 101, and the blower 102 is rotated as indicated by an arrow a. By rotating the auger, the snow is collected in the center in the vehicle width direction, and the auger device is advanced to guide the collected snow into the blower housing 103.
[0005]
The snow guided into the blower housing 103 is jumped up as shown by the arrow b by the jumping blades 104 of the blower 102.
The jumped snow is guided by a shooter 105 provided on the upper portion of the blower housing 103 and is thrown to a desired position.
Here, foreign matters such as stones are buried in the snow, and this foreign matter 106 may enter the gap 107 between the blower 102 and the blower housing 103.
[0006]
When the foreign matter 106 enters the gap 107, the blower 102 strongly presses the foreign matter 106 against the blower housing 103, and the frequency with which the foreign matter 106 is bitten into the gap 107 is increased.
When the foreign object 106 is bitten in the gap 107, it is necessary to remove the bited foreign substance 106 from the gap 107, which places a burden on the operator.
[0007]
In addition, it is necessary to stop the auger apparatus 100 while removing the bitten foreign matter 106 from the gap 107. Therefore, the downtime of the auger apparatus 100 becomes long, which hinders the improvement of workability.
Further, when the foreign object 106 is caught in the gap 107, a force exceeding a predetermined value is applied to the blower 102 and the blower housing 103, and the blower 102 and the blower housing 103 are deformed.
[0008]
On the other hand, Patent Document 2 proposes a technique in which a shear bolt is provided on a drive shaft that drives a blower, and the shear bolt is broken when a force exceeding a predetermined value is applied to the blower.
10 is a cross-sectional view of FIG. The code was reassigned.
The auger apparatus 110 includes a shear bolt 113 on a drive shaft 112 that drives the blower 111.
[0009]
According to the auger device 110, for example, when a foreign object (not shown) such as a stone buried in snow is caught in the gap 115 between the blower 111 and the blower housing 114, the shear bolt 113 is broken. .
Thereby, it is possible to prevent an excessive force from being applied to the blower 111 and the blower housing 114, and it is possible to prevent the blower 111 and the blower housing 114 from being deformed.
[0010]
[Problems to be solved by the invention]
However, in the technique of Patent Document 2, if the shear bolt 113 is broken, the drive shaft 112 and the blower 111 are separated, and the blower 111 does not rotate even if the drive shaft 112 is rotated.
[0011]
For this reason, snow remains in the auger housing (not shown) and the blower housing 114, and when the broken shear bolt 113 is replaced with a new shear bolt, the operator must have the inside of the auger housing. It is necessary to scrape snow accumulated in the blower housing 114.
[0012]
For this reason, it takes a long time to replace the broken shear bolt 113 with a new shear bolt, which hinders an increase in the operating rate of the snowplow.
Furthermore, when the broken shear bolt 113 is replaced with a new shear bolt, it is necessary to scrape snow accumulated in the auger housing or the blower housing 114, which places a heavy burden on the operator.
[0013]
SUMMARY OF THE INVENTION An object of the present invention is to provide a snowplow that can prevent deformation and breakage of a blower and a blower housing, and can easily replace a shear bolt without placing a burden on an operator. is there.
[0014]
[Means for Solving the Problems]
In order to achieve the above object, according to a first aspect of the present invention, there is provided a snow remover that collects snow with an auger, jumps up the collected snow with a blower in a blower housing, and throws the jumped up snow into a desired position by guiding it with a shooter. the blower has a supporting portion provided on the drive shaft for rotating the blower, and a structure in which each fixed in a separate shear bolts multiple pop-up blade to the support portion, the shear bolts, square in the drive-up blade A first rectangular portion inserted into the mounting hole, a second rectangular portion inserted into the rectangular mounting hole in the support portion, and a small diameter portion formed between the first and second rectangular portions, The small diameter portion is broken when a force exceeding a threshold value is applied to the jumping blade.
[0015]
A support part is provided on the drive shaft that rotates the blower, and a plurality of jumping blades are fixed to the support part with individual shear bolts. Break.
Therefore, when a foreign object such as a stone buried in snow is caught in the gap between the blower and the blower housing, it is possible to prevent an excessive force from being applied to the blower or the blower housing by breaking the shear bolt. .
[0016]
Furthermore, even when the shear bolt is broken, other jumping blades can be fixed to the support portion.
Therefore, the jumping blade remaining on the support portion can be rotated by the drive shaft, and the snow remaining in the blower housing can be lifted and removed by the jumping blade.
As a result, when replacing a broken shear bolt with a new shear bolt, the operator can save time and effort without scraping off the snow accumulated in the blower housing, and the shear bolt can be easily and quickly removed without burdening the operator. Can be replaced.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the accompanying drawings. Here, “front”, “back”, “left”, and “right” follow the direction as viewed from the operator. The drawings are viewed in the direction of the reference numerals.
FIG. 1 is a side view showing a snowplow (first embodiment) according to the present invention.
The snowplow 10 is provided with left and right traveling units 12 and 12 on the left and right sides of a frame 11 as a fuselage, an engine 13 is mounted on the frame 11, a transmission 14 is provided in front of the engine 13, and the front of the transmission 14 is provided. An auger device 20 is provided, a drive pin 45 is connected to the rear end 21 a of the drive shaft 21 of the auger device 20, a first pulley 23 is provided on the drive pin 45, and a second pulley 16 is provided on the output shaft 15 of the transmission 14. A belt 24 is hung on the second pulley 16 and the first pulley 23, a handle post 17 is extended obliquely rearward from the rear end side of the frame 11, and a handle 18 is provided at the upper end of the handle post 17. .
[0018]
The auger device 20 has a cylindrical blower housing 25 attached to the front portion of the frame 11, an auger housing 27 attached to the front end portion of the blower housing 25, and a drive pin 45 attached to the rear wall 26 of the blower housing 25 in a freely rotatable manner. The drive shaft 45 is connected to the rear end portion 21a of the drive shaft 21, the front end portion 21b of the drive shaft 21 is extended to the auger housing 27 through the blower housing 25, and the blower 30 is attached in the vicinity of the rear end portion 21a of the drive shaft 21. .
[0019]
Further, the auger device 20 forms a worm on the front end portion 21b of the drive shaft 21 and engages the worm with the worm wheel 31 to constitute a worm reduction mechanism (hereinafter referred to as “auger mission”) 32. The mission 32 is housed in the orgasm case 33, the left and right auger shafts 34 and 34 (the right side is not shown) are attached to the worm wheel 31, and the left and right auger shafts 34 and 34 are extended from the left and right sides of the orgasm case 33. The left and right augers 35 and 35 are attached to the left and right auger shafts 34 and 34, respectively.
[0020]
According to the snowplow 10, the auger device 20 is driven by the engine 13, and the snowplow 10 is driven by driving the left and right traveling units 12, 12.
The auger device 20 rotates the first pulley 23 with the belt 24 by driving the engine 13 and rotates the drive shaft 21 with the first pulley 23, thereby rotating the blower 30 and the auger 32 and the left and right sides. The left and right augers 35 and 35 are rotated via the auger shafts 34 and 34.
[0021]
As a result, the left and right augers 35 and 35 collect the snow, guide the collected snow from the auger housing 27 into the blower housing 25, jump the snow guided into the blower housing 25 with the blower 30, and shoot the jumped snow into the shooter. Guide at 36 and snow outside.
[0022]
FIG. 2 is a perspective view showing a blower constituting the auger device of the snow removal machine (first embodiment) according to the present invention.
The blower 30 connects the fitting cylinder 38 to the drive shaft 21 by fitting the fitting cylinder 38 to the drive shaft 21 that rotates the blower 30 and penetrating the connecting pin 41 to the fitting cylinder 38 and the drive shaft 21. The fitting cylinder 38 is provided with a disk-like support portion 42, and three jumping blades 43... (... indicate a plurality) are respectively provided on the support portion 42. Are fixed at regular intervals, and the shear bolts 50 are broken when a force exceeding a threshold value is applied to each of the jumping blades 43.
The blower 30 is rotatably disposed in the blower housing 25.
[0023]
FIG. 3 is a sectional view showing a blower constituting the auger device of the snow removal machine (first embodiment) according to the present invention.
A drive pin 45 is rotatably attached to the center of the rear wall 26 of the blower housing 25 via a bearing 44, a first pulley 23 is attached to a rear end portion 45 a of the drive pin 45, and the first pulley 23 and the second pulley 16 are attached. The belt 24 is hung.
The second pulley 16 is attached to the output shaft 15 (see FIG. 1) of the transmission 14.
[0024]
After fitting the fitting cylinder 38 into the rear end 21a of the drive shaft 21, the rear end 21a of the drive shaft 21 is fitted into the drive pin 45, and the front end 38a of the fitting cylinder 38, the drive shaft 21 and the drive The connecting pin 41 passes through each through hole of the tip 45b of the pin 45, and a cotter pin 47 for retaining is inserted into the lower end portion 41a of the connecting pin 41 protruding from the fitting cylinder 38, so that the driving pin 45, the driving shaft 21 and the fitting cylinder 38 are connected.
[0025]
Accordingly, when the transmission 14 is driven by the engine 13 shown in FIG. 1, the output shaft 15 of the transmission 14 is rotated, and the second pulley 16 is rotated by the output shaft 15, whereby the first pulley is connected via the belt 24. 23 is rotated as shown by the arrow.
[0026]
As the first pulley 23 rotates, the drive pin 45 rotates integrally with the first pulley 23, and the rotation of the drive pin 45 is transmitted to the fitting cylinder 38 via the connecting pin 41. When the fitting cylinder 38 is rotated as shown by the arrow, the support portion 42 is rotated integrally with the fitting cylinder 38, and the jumping blades 43 are rotated together with the support portion 42.
[0027]
The support portion 42 is a disk-like member attached to the rear end portion 38b of the fitting cylinder 38, and three attachment holes 42a (only two are shown) are equally spaced along the outer periphery. It is arranged in.
These mounting holes 42a are holes for inserting shear bolts 50.
In addition, the shape of the support part 42 is not restricted to this, What is necessary is just to be able to attach the raising blade 43 ... to the fitting cylinder 38.
[0028]
The jumping blade 43 is provided with a mounting hole 43b into which the shear bolt 50 is inserted into the base end part 43a, and is provided with a jumping part 43c that extends radially outward from the base end part 43a and jumps up snow at the tip part.
The shear bolt 50 is inserted into the mounting hole 43 b of the jumping blade 43 and the mounting hole 42 a of the support portion 42, and the nut 52 is screwed to the screw portion 51 of the shear bolt 50 protruding from the support portion 42. The jumping blade 43 is detachably attached to the support portion 42 with the nut 52.
Three jumping blades 43... Are accommodated in the blower housing 25 in a state where they are attached to the support portion 42.
[0029]
FIG. 4A is a perspective view showing a shear bolt constituting the auger device of the snow removal machine according to the present invention (first embodiment), and FIG. 4B is the snow removal machine according to the present invention (first embodiment). It is sectional drawing which shows the state which attached the shear bolt which comprises an auger apparatus.
The shear bolt 50 forms a first quadrangular portion 54 below the head 53, forms a second quadrangular portion 55 at a predetermined interval from the first quadrangular portion 54, and the first and second quadrangular portions A small-diameter portion 56 is formed between 54 and 55, and a bolt portion 51 is formed below the second square portion 55.
[0030]
An attachment hole 43b for inserting the shear bolt 50 is provided in the base end portion 43a of the jumping blade 43. The attachment hole 43 b is a square hole formed slightly larger than the first square portion 54.
The attachment hole 42 a of the support portion 42 is a square hole formed slightly larger than the second square portion 55.
[0031]
The threaded portion 51 and the second square portion 55 of the shear bolt 50 are inserted into the mounting hole 42a of the support portion 42, and the first square portion 54 of the shear bolt 50 is inserted into the mounting hole 43b of the jumping blade 43 to support the support portion. A nut 52 is screwed to the threaded portion 51 protruding from 42.
In this state, the small-diameter portion 56 between the first and second square portions 54 and 55 is disposed at the boundary between the jumping blade 43 and the support portion 42.
Reference numeral 57 denotes a washer.
[0032]
By inserting the second square portion 55 of the shear bolt 50 into the square mounting hole 42a formed in the support portion 42, the shear bolt 50 is prevented from rotating. Further, by inserting the first square portion 54 of the shear bolt 50 into a square mounting hole 43 b formed in the jump blade 43, the jump blade 43 is prevented from rotating with respect to the shear bolt 50.
Therefore, the jumping blade 43 is attached to the support portion 42 with the shear bolt 50 to prevent the jumping blade 43 from rotating.
[0033]
The small-diameter portion 56 between the first and second quadrangular portions 54 and 55 is arranged in accordance with the boundary (contact portion) 59 between the jumping blade 43 and the support portion 42.
The small-diameter portion 56 is a portion having the smallest diameter in the bolt 50, and breaks the small-diameter portion 56 of the shear bolt 50 when a force exceeding a threshold value acts on the jumping blade 43.
[0034]
Here, the threshold value satisfies the relationship of F1 <threshold value <F2.
However, F <b> 1 is a force applied to the jumping blade 43 when the snow is normally jumped up by the blower 30.
F2 is a large force generated when a foreign object such as a stone is caught between the blower 30 and the blower housing 25 (see FIG. 3) as an example.
[0035]
Therefore, by driving the auger device 20, it is possible to normally raise snow with the blower 30.
If a large force F2 is generated between a blower 30 and a blower housing 25 due to a foreign object such as a stone, the small-diameter portion 56 of the shear bolt 50 is broken, and the blower 30 or the blower housing 25 is broken. Can be prevented from being deformed or damaged.
[0036]
FIG. 5 is a front view showing a blower constituting the auger device of the snow removal machine (first embodiment) according to the present invention.
The blower housing 25 has a rear wall 26 formed in a circular shape, an arc-shaped peripheral wall 28 formed on the outer periphery of the rear wall 26, and a cylindrical portion 29 provided on the upper left portion of the peripheral wall 28.
A shooter 36 (see FIG. 1) is attached to the tube portion 29.
A blower 30 is rotatably mounted in the blower housing 25. By rotating the blower 30 as shown by the arrow, the snow is lifted from the position P1 to the position P2 by the kicking portion 43a of the kicking blade 43.
[0037]
Here, the gap 39 between the jumping blade 43 of the blower 30 and the peripheral wall 28 of the blower housing 25 is set as a small gap S, thereby preventing snow from escaping from the gap 39.
Therefore, snow can be efficiently lifted by the kicking portion 43c of the kicking blade 43 between the position P1 and the position P2.
Then, the snow that has been lifted up to the position P <b> 2 is flipped up toward the shooter 36 (see FIG. 1) by the kicking portion 43 c of the kicking blade 43.
[0038]
Next, the effect | action of the snow removal machine 10 is demonstrated based on FIGS. 1-2 and FIGS. 6-7.
Returning to FIG. 1, when the transmission 14 is driven by the engine 13, the output shaft 15 of the transmission 14 rotates.
By rotating the second pulley 16 with the output shaft 15, the first pulley 23 is rotated via the belt 24.
[0039]
Returning to FIG. 2, when the first pulley 23 rotates, the drive pin 45 rotates integrally with the first pulley 23, and the rotation of the drive pin 45 is transmitted to the fitting cylinder 38 via the connecting pin 41.
When the fitting cylinder 38 rotates as shown by the arrow, the support part 42 rotates around the fitting cylinder 38, and the jumping blades 43 ... rotate together with the support part 42.
As a result, the blower 30 is rotated.
[0040]
In addition, the rotation of the drive pin 45 is transmitted to the drive shaft 21 via the connecting pin 41, and the drive shaft 21 rotates. When the drive shaft 21 rotates, the left and right augers 35, 35 are rotated via the auger 32 and the left and right auger shafts 34, 34 shown in FIG.
[0041]
FIGS. 6A and 6B are first operation explanatory views showing the operation of the snowplow according to the present invention (first embodiment).
In (a), the left and right augers 35, 35 (see FIG. 1) rotate, and the blower 30 rotates around the fitting cylinder 38 as shown by the arrow (1).
On the other hand, the snow 61 is scraped by the left and right augers 35, 35, and the scraped snow 61 is guided from the auger housing 27 (see FIG. 1) into the blower housing 25.
[0042]
The snow 61 guided into the blower housing 25 is collected by the jumping portion 43 c of the jumping blade 43 of the blower 30, and the collected snow 61 is placed on the jumping portion 43 c of the jumping blade 43.
Thereafter, the jumping blade 43 with the snow 61 placed on the jumping portion 43 c moves below the opening 62 of the blower housing 25.
[0043]
In (b), when the jumping blade 43 carrying the snow 61 on the jumping part 43c passes through the opening 62 from below the opening 62 of the blower housing 25, the snow 61 placed on the jumping part 43c is subjected to centrifugal force. Then, it jumps up to the opening 62 and is guided to the shooter 36 (see FIG. 1) through the tube portion 29 as shown by the arrow (2). The snow 61 is guided by the shooter 36 and snowed at a desired position.
[0044]
Here, foreign matter 64 such as stone is buried in the snow 61, and the foreign matter 64 enters the gap 39 between the blower 30 and the peripheral wall 28 of the blower housing 25, particularly the gap 39 near the peripheral edge 62 a of the opening 62. It is possible to do.
When the invading foreign matter 64 is larger than the gap S of the interval 39, a force F exceeding the threshold is applied to the upper end portion of the kicking blade 43 as indicated by an arrow.
[0045]
FIGS. 7A and 7B are second operation explanatory views showing the operation of the snowplow according to the present invention (first embodiment), and FIG. 7A is a view taken in the direction of arrow 7 in FIG. .
In (a), the small-diameter portion 56 between the first and second quadrangular portions 54 and 55 is arranged in accordance with the boundary (contact portion) 59 between the jumping blade 43 and the support portion 42. The small diameter portion 56 is a portion having the smallest diameter in the bolt 50.
Therefore, when the force F exceeding the threshold value is applied to the upper end portion 43d of the lifting blade 43 as indicated by the arrow, the force (shearing or twisting) exceeding the threshold value is applied to the small diameter portion 56 of the shear bolt 50.
[0046]
In (b), the small diameter portion 56 of the shear bolt 50 is broken. Thus, when a foreign object 64 (see FIG. 6) such as a stone buried in snow is caught in the gap S between the blower 30 and the blower housing 25 (see FIG. 6), the small base portion of the shear bolt 50 By breaking 56, it is possible to prevent an excessive force from being applied to the blower 30 and the blower housing 25.
Therefore, the blower 30 and the blower housing 25 can be prevented from being deformed or damaged.
[0047]
Further, even when one of the three shear bolts 50 is broken, the other blades 50 and 50 can be used to cause the raising blades 43 and 43 to be used as the support portion 42 (see FIG. 6). Can be fixed.
Therefore, the jumping blades 43 and 43 remaining on the support portion 42 are rotated by the drive shaft 21 (specifically, the fitting cylinder 38), and the snow 61 (see FIG. 6) remaining in the blower housing 25 is removed. The jumping blades 43 and 43 can be lifted up and removed.
[0048]
Thereby, when exchanging the broken shear bolt 50 with a new shear bolt 50, it is possible to save the operator from scraping off the snow 61 accumulated in the blower housing 25.
Therefore, the broken shear bolt 50 can be easily replaced with a new shear bolt 50 in a short time.
Further, when replacing the broken shear bolt 50 with a new shear bolt 50, it is not necessary to scrape the snow 61 accumulated in the blower housing 25, and the burden on the operator can be reduced.
[0049]
Next, a second embodiment will be described.
FIG. 8 is a front view showing a blower constituting the auger device of the snow removal machine (second embodiment) according to the present invention. Note that in the second embodiment, the same members as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
The snow remover 70 of the second embodiment includes a blower 72 of the auger device 71. The blower 72 has a disk-like support portion 73 attached to the fitting cylinder 38, and three kick-up blades 74 ... are equally spaced by bolts 75 ... and shear bolts 50 ... on the support portion 73. It is attached to.
[0050]
The bolt 75 is a normal bolt, and has a valley diameter of the bolt 7 formed larger than the small diameter portion 56 of the shear bolt 50.
Further, when the shear bolt 50 is attached to the support portion 73 and the lifting blade 74, the small-diameter portion 56 (FIG. 4 (FIG. 4)) is formed at the boundary (contact portion) between the support portion 73 and the lifting blade 74 as in the first embodiment. b)) is located.
[0051]
According to the auger device 71, when the force F exceeding the threshold is applied to the kicking blade 74 as shown by the arrow, the kicking blade 74 will rotate clockwise around the bolt 75 as shown by the arrow (3). .
Therefore, a shearing force is applied to the small-diameter portion 56 (see FIG. 4B) of the shear bolt 50, and the small-diameter portion 56 of the shear bolt 50 is broken as shown in FIG. 7B. As a result, the kick-up blade 74 can rotate around the bolt 75 as shown by the arrow (3).
[0052]
Thereby, according to 2nd Embodiment, the effect similar to 1st Embodiment can be acquired.
In addition, according to the second embodiment, when the shear bolt 50 is broken, the kicking blade 74 can be attached to the support portion 73 with the bolt 75.
[0053]
In the above-described embodiment, the blowers 30 and 72 and the blower housing are disposed in the vicinity of the peripheral edge 62a of the opening 62 immediately after the snow 61 jumps up from the opening 62 of the blower housing 25 to the cylindrical portion 29 by the jumping blades 43 and 74. Although the example which the foreign material 64 penetrate | invades into the clearance gap S with 25 was demonstrated, it is not restricted to this, Even when the foreign material 64 penetrate | invades in the clearance gap S of the arbitrary positions between the blowers 30 and 72 and the blower housing 25. Similar effects can be obtained.
[0054]
In addition, when the foreign matter 64 enters the gap between the blowers 30 and 72 and the auger 35 and a force exceeding the threshold is applied to the blowers 30 and 72, the small diameter of the shear pin 50 is the same as in the above embodiment. It is also possible to break the portion 56 to prevent the blowers 30, 72 and the auger 35 from being deformed or damaged.
[0055]
In addition, the shapes of the support portions 42 and 73 and the jumping blades 43 and 74 in the above embodiment are merely examples, and the present invention is not limited thereto.
Further, in the above-described embodiment, the example in which the three jumping blades 43 and 74 are provided has been described. However, the number of the jumping blades 43 and 74 is not limited to three and can be arbitrarily selected.
[0056]
Moreover, although the said 2nd Embodiment demonstrated the example which used the shear bolt 50 of 1st Embodiment as a shear bolt, it replaced with the shear bolt 50 and formed the small diameter part in the neck lower part of the normal bolt. Can also be used as a shear bolt.
[0057]
【The invention's effect】
The present invention exhibits the following effects by the above configuration.
According to the first aspect of the present invention, a support portion is provided on a drive shaft that rotates the blower, and a plurality of raising blades are fixed to the supporting portion by individual shear bolts, and the shear bolts are inserted into rectangular mounting holes in the raising blades. By having the first square part, the second square part inserted into the square mounting hole in the support part, and the small diameter part formed between the first and second square parts , the jumping blade exceeded the threshold value When the force acts, the small diameter portion can be broken.
[0058]
Therefore, when a foreign object such as a stone buried in snow is caught in the gap between the blower and the blower housing, it is possible to prevent an excessive force from being applied to the blower or the blower housing by breaking the shear bolt. .
Thereby, the blower and the blower housing can be prevented from being deformed and damaged, and the durability of the blower and the blower housing can be enhanced.
[0059]
Furthermore, even when the shear bolt is broken, other jumping blades can be fixed to the support portion. Therefore, the jumping blade remaining on the support portion can be rotated by the drive shaft, and the snow remaining in the blower housing can be lifted and removed by the jumping blade.
[0060]
Thereby, when exchanging the broken shear bolt with a new shear bolt, it is possible to save the operator from having to scrape off the snow accumulated in the blower housing.
Therefore, the broken shear bolt can be easily replaced with a new shear bolt in a short time, and the operating rate of the snowplow can be increased.
Furthermore, since it is not necessary to scrape the snow accumulated in the blower housing when the broken shear bolt is replaced, the burden on the operator can be reduced.
[Brief description of the drawings]
FIG. 1 is a side view showing a snowplow (first embodiment) according to the present invention. FIG. 2 is a perspective view showing a blower constituting an auger device of the snowplow (first embodiment) according to the present invention. FIG. 4A is a sectional view showing a blower constituting the auger apparatus of the snow removal machine according to the present invention (first embodiment). FIG. 4A shows the auger apparatus of the snow removal machine according to the present invention (first embodiment). The perspective view which shows a shear bolt, (b) is sectional drawing which shows the state which attached the shear bolt which comprises the auger apparatus of the snow remover (1st Embodiment) which concerns on this invention.
FIG. 5 is a front view showing a blower constituting an auger device of a snow removal machine according to the present invention (first embodiment). FIG. 6 is a first action showing an operation of the snow removal machine according to the present invention (first embodiment). Explanatory drawing FIG. 7 is a second operational explanatory view showing the operation of the snow removal machine according to the present invention (first embodiment). FIG. 8 is a blower constituting the auger device of the snow removal machine according to the present invention (second embodiment). FIG. 9 is a front view of FIG. 9 of Patent Document 1. FIG. 10 is a cross-sectional view of FIG. 2 of Patent Document 2.
DESCRIPTION OF SYMBOLS 10,70 ... Snow remover, 20, 71 ... Auger device, 21 ... Drive shaft, 25 ... Blower housing, 30, 72 ... Blower, 36 ... Shooter, 38 ... Fitting cylinder, 42, 73 ... Supporting part, 43, 74 ... Jumping blade, 50 ... Shear bolt, 61 ... Snow.

Claims (1)

In a snow remover that collects snow with an auger, jumps up the collected snow with a blower in a blower housing, guides the jumped up snow with a shooter and throws it at a desired position,
The blower is
The drive shaft that rotates this blower is provided with a support portion, and a plurality of jumping blades are fixed to the support portion with individual shear bolts, respectively.
The shear bolt is formed between a first quadrangular portion that is inserted into a quadrangular mounting hole in the jumping blade, a second quadrangular portion that is inserted into the quadrangular mounting hole in the support portion, and the first and second quadrangular portions. And a small- diameter portion that breaks the small-diameter portion when a force exceeding a threshold is applied to the jumping blade.

Images