JP4199054B2 - snowblower - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a snow removal machine in which a snow removal operation part such as an auger for snow removal is provided in the front part of the machine body.
[0002]
[Prior art]
There is a snow remover equipped with an auger as a means for removing snow on a road surface or a parking lot (see, for example, Patent Document 1).
[0003]
[Patent Document 1]
JP-A-59-88509 (pages 2 and 3 and FIG. 4)
[0004]
FIG. 13 is a front view of FIG. The code was reassigned.
The auger apparatus 200 includes an auger 202 at the center of the auger housing 201 in the width direction, extends auger shafts 203 and 203 from the auger 202 in the left and right directions, and the left and right augers 204 and 204 respectively on the left and right auger shafts 203 and 203. Is provided.
According to this auger apparatus 200, the auger 202 is driven by a drive shaft (not shown), and the left and right augers 204, 204 are rotated by rotating the left and right auger shafts 203, 203 by the augment 202.
[0005]
By rotating the left and right augers 204, 204, the snow blocks are cut by the cutting blades of the left and right augers 204, 204, the cut snow blocks are transferred to the center by the auger, and the snow blocks transferred to the center are blower housing ( Guided to a shooter 205 by a blower (not shown) and snowed from the shooter 205 to a desired location.
Here, the left and right augers 204 and 204 are symmetrical members. The left auger 204 will be described below, and the description of the right auger 204 will be omitted.
[0006]
In the auger 204, two auger blades 206 and 207 are formed in a spiral shape, and the auger blades 206 and 207 are attached with a phase difference of about 180 °.
The auger blades 206, 207 formed in a spiral shape are provided with saw blades 206a,..., 207a,.
[0007]
FIG. 14 is a side view for explaining a state in which a snow block is cut by a conventional auger apparatus.
By providing the saw blades 206a..., 207a... On the outer periphery of the auger blades 206, 207, the saw blade 206a. .., 207a... Are efficiently cut into the snow mass 209 to cut the snow mass 209 well.
[0008]
[Problems to be solved by the invention]
By the way, the conventional auger apparatus has an uneven saw blade 206a ... formed on the outer periphery of one auger blade (front auger blade) 206 of the two auger blades 206, 207, and the other auger blade. (Rear auger blade) The concave and convex saw blades 207a formed on the outer periphery of the 207 are formed at the same pitch.
According to this auger device, the saw blades 206a..., 207a... Are formed on the outer circumferences of the front and rear auger blades 206, 207 at the same pitch.
[0009]
FIGS. 15A and 15B are views taken along the arrow 15 in FIG. In order to facilitate understanding, the lower auger blade will be described as the front auger blade 206, and the upper auger blade will be described as the rear auger blade 207.
In (a), by rotating the auger 204 as shown by an arrow, the snow mass 209 is cut with the saw blades 206a of the front auger blade 206 of the two auger blades 206, 207.
As a result, the convex portions of the saw blade 206a form concave portions 212 ... in the snow mass 209 on the snow removal surface 211, and the concave portions of the saw blade 206a ... convex shapes on the snow mass 209 on the snow removal surface 211. 213 ... are formed.
[0010]
In (b), the rear auger blade 207 bites into the snow mass 209 by rotating the auger 204 by 180 ° as shown by an arrow.
However, since the saw blades 206a... Formed on the front auger blade 206 and the saw blades 207a... Formed on the rear auger blade 207 are formed at the same pitch, the saw blades 207a. .. Are located in the recesses 212 of the snow mass 209, and the recesses of the saw blades 207 a... Are located in the projections 213.
In addition, since the auger 204 is kept at the same height, the snow mass 209 on the snow removal surface 211 cannot be cut by the rear auger blade 207. Therefore, the convex portions 213 of the snow mass 209 remain on the snow removal surface 211 as they are.
[0011]
Since the convex portions 213... Remain on the snow mass 209, it is necessary to remove the convex portions 213... Remaining on the snow mass 209 with a scraper 215 (see FIG. 12) provided at the rear of the auger 204. is there.
When the convex portions 213... Are removed by the scraper 215, resistance is applied, and slipping may occur in the traveling portion, or the straightness of the snowplow may be impaired. This state tends to occur remarkably when the snow mass is hard, and a heavy burden is placed on the worker during snow removal work.
[0012]
FIGS. 16A and 16B are views taken along arrow 16 in FIG.
In (a), by rotating the auger 204 as shown by an arrow, the snow mass 209 is cut with the saw blades 206a of the front auger blade 206 of the two auger blades 206, 207.
.. Are formed in the snow mass 209 by the convex portions of the saw blades 206a..., And convex portions 217.
[0013]
In (b), the rear auger blade 207 is positioned on the snow mass 209 side by rotating the auger 204 by 180 ° while moving forward as indicated by the arrow a.
Here, since the saw blades 206 ... formed on the front auger blade 206 and the saw blades 207 ... formed on the rear auger blade 207 are formed at the same pitch, the saw blade 207a provided on the rear auger blade 207 is formed. The convex part of... Enters the concave part 216 of the snow mass 209.
[0014]
The entire convex part of the saw blade 207a ... comes into contact with the concave part 216 ... of the snow mass, and the whole concave part of the saw blade 207a ... comes into contact with the convex part 217 ... .., 217... Of the snow mass are simultaneously cut by the cutting allowance S1.
Therefore, the resistance when the saw blades 207a... Bite into the snow mass 209 increases, and this state appears remarkably when the snow mass is hard.
For this reason, it is difficult to sufficiently secure the biting property of the saw blades 207a...
[0015]
Accordingly, an object of the present invention is to provide a snow remover that can reduce the burden on the worker during snow removal work and can improve snow removal performance.
[0016]
[Means for Solving the Problems]
  In order to achieve the above object, according to the first aspect, the auger blades are composed of two strips, each auger blade is mounted with a phase shift of approximately 180 °, and an auger composed of the two strips of auger blades is attached to the front of the aircraft. In the provided snow blower, one of the two auger blades, Across the outer periphery from one end to the otherAn uneven saw blade is provided, and the other auger blade, Across from one end to the otherProvide a flat flat blade,The outer circumference of the flat flat blade is the same diameter as the outer circumference of the convex part constituting the saw bladeIt is characterized by.
[0017]
  Of the two auger blades, one auger blade was provided with an uneven saw blade, and the other auger blade was provided with a flat flat blade.
  The tip of the saw blade is made to bite into the snow mass on the snow removal surface, and the snow mass is efficiently cut with the saw blade. The cutting surface cut by the saw blade is uneven. The convex part of this cutting surface is cut off with a flat flat blade to flatten the cutting surface.
  Therefore, the snow lump on the snow removal surface can be cut flat simply by moving the snow removal machine straight forward. Thereby, the effort which removes the convex part which remained on the cutting surface on a snow removal surface with the scraper provided in the back of an auger can be saved.
  In addition, since the outer periphery of the flat flat blade has the same diameter as the outer periphery of the convex portion constituting the saw blade, the snow lump is cut into an uneven shape with the saw blade, and then the flat flat blade is removed from the uneven cutting surface. By cutting off the convex portion, the saw blade can always be bitten into the flat cutting surface. Therefore, a snow lump can be crushed favorably by the convex part of the saw blade, and the cutting performance of the saw blade can be made uniform. Thereby, it becomes possible to cut a snow lump efficiently with an auger, and snow removal property can be improved.
[0018]
On the other hand, when cutting the snow mass in front of the auger, the tip of the saw blade is bitten into the snow mass, and the snow mass is efficiently cut with the saw blade. The cutting surface cut by the saw blade is uneven. By cutting the concavo-convex cutting surface with a flat flat blade, the convex portion is removed from the concavo-convex cutting surface to flatten the cutting surface. The saw blade rotates to the flat cutting surface, and the flat cutting surface is cut with the saw blade.
In this way, after flattening the cutting surface of the snow lump with a flat blade, the flat cutting surface is cut with a saw blade, so that the snow lump is crushed well with the saw blade and the cutting performance of the saw blade is improved. It can be made uniform.
[0019]
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 22 is connected to a rear end portion 21 a of the drive shaft 21 of the auger device 20, a first pulley 23 is provided on the drive pin 22, and a second pulley 16 is provided on the output shaft 15 of the transmission 14. The belt 24 is hung on the second pulley 16 and the first pulley 23, the handle post 17 is extended obliquely rearward from the rear end side of the frame 11, and the handle 18 is provided on the upper end portion of the handle post 17. .
[0020]
The auger apparatus 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 22 attached to the rear wall 26 of the blower housing 25 in a freely rotatable manner. The drive pin 22 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. .
[0021]
Further, the auger apparatus 20 is provided with a worm speed reduction mechanism (hereinafter referred to as “auguration”) 32 at the front end portion of the drive shaft 21. The auger shafts 34 and 34 (the right side is not shown) are connected, and the left and right augers 35 and 35 are attached to the left and right auger shafts 34 and 34, respectively.
[0022]
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 (augers) 35, 35 are rotated via the auger shafts 34, 34.
[0023]
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.
[0024]
FIG. 2 is a cross-sectional view showing an auger device of a snowplow (first embodiment) according to the present invention.
The auger device 20 has an auger housing 27 attached to the front end of the blower housing 25, a drive pin 22 rotatably attached to the rear wall 26 of the blower housing 25, and a rear end 21a of the drive shaft 21 connected to the drive pin 22. Then, the front end portion 21 b 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 21 a of the drive shaft 21.
[0025]
Further, the auger device 20 forms a worm at the front end 21b of the drive shaft 21, and constitutes a worm reduction mechanism (hereinafter referred to as "auger mission") 32 by engaging the worm with the worm wheel 31. The auger 32 is housed in the auger case 33, the left and right auger shafts 34, 34 are attached to the worm wheel 31, the left and right auger shafts 34, 34 are extended from the left and right sides of the auger case 33, , 34 are attached with left and right augers 35, 35, respectively.
[0026]
The left and right augers 35 and 35 are symmetrical members, and the left auger 35 will be described as the auger 35 below.
The left and right auger shafts 34 are symmetrical members, and the left auger shaft 34 will be described as the auger shaft 34 below.
[0027]
The auger 35 includes two auger blades including a first auger blade (one auger blade) 37 and a second auger blade (the other auger blade) 38.
Specifically, the auger 35 forms a first auger blade 37 in a spiral shape, arranges the first auger blade 37 around the auger shaft 34, and forms a second auger blade 38 in a spiral shape. The second auger blade 38 is disposed so as to be wound around the auger shaft 34 with a phase shift of about 180 ° with respect to the first auger blade 37, and the first and second auger blades 37, 38 are arranged on the stays 39 ... (... indicates a plurality) and is attached to the auger shaft 34.
[0028]
The first auger blade 37 is formed by continuously forming a plurality of saw blades 41... Along the outer periphery from one end 37 a to the other end 37 b.
The second auger blade 38 is formed by continuously forming a flat flat blade 42 along the outer periphery from the one end 38a to the other end 38b.
An annular plate 43 is fixed to the auger shaft 34 by support rods 44 and 44 at the outer end portion of the auger shaft 34.
[0029]
FIG. 3 is a side view showing an auger of a snowplow (first embodiment) according to the present invention.
The first and second auger blades 37, 38 are attached to the auger shaft 34 by stays 39... In this state, the first and second auger blades 37 and 38 rotate in the direction of the arrow with the auger shaft 34 as an axis.
The saw blade 41 of the first auger blade 37 has a convex portion 46 and a concave portion 47, and the front end of the convex portion 46 (the front end in the rotational direction of the auger 35) is a blade portion 46a.
Here, the angle of the saw blade 41 (the convex portion 46 and the concave portion 47) is 1 pitch (1P).
[0030]
The convex portion 46 of the saw blade 41 extends the blade portion 46a radially outward from the base end 46b of the diameter (valley diameter) D1 to the tip end 46c of the diameter (peak diameter) D2, and extends the outer periphery 46d from the tip 46c of the blade portion 46a. The inclined surface 46f extends from the rear end 46e of the outer periphery 46d to the base end 46b of the adjacent blade portion 46a toward the inside of the first auger blade 37 with a mountain diameter D2.
[0031]
The concave portion 47 of the saw blade 41 is a recess formed by the inclined surface 46f and the adjacent blade portion 46a.
According to the saw blade 41, when the auger 35 is rotated as shown by an arrow, the blade portion 46a of the convex portion 46 can be satisfactorily bitten into the snow mass, and the snow mass can be efficiently crushed.
[0032]
The flat blade 42 of the second auger blade 38 has an outer periphery 42 a formed with the same mountain diameter D <b> 2 as the outer periphery 46 a of the convex portion 46 constituting the saw blade 41.
That is, the outer periphery 42a of the flat blade 42 and the outer periphery 46d of the convex portion 46 constituting the saw blade 41 are located on an arc having the same mountain diameter D2.
[0033]
Next, the effect | action of the snow removal machine 10 of 1st Embodiment is demonstrated based on FIGS.
FIG. 4 is a first operation explanatory view showing the operation of the snowplow (first embodiment) according to the present invention.
The auger 35 composed of the first and second auger blades 37 and 38 is rotated as indicated by an arrow (1) around the auger shaft 34, and the auger device 20 is advanced as indicated by an arrow (2).
[0034]
By moving the auger 35 forward while rotating, the snow block 52 on the snow removal surface 51 is cut by the auger 35 and the snow block 53 in front of the auger 35 is cut.
Hereinafter, an example of cutting the snow mass 52 on the snow removal surface 51 with the auger 35 is shown in FIG.
[0035]
FIGS. 5A and 5B are second operation explanatory views showing the operation of the snow remover according to the present invention (first embodiment), and an example in which the snow mass 52 on the snow removal surface 51 is cut by the auger 35. Show.
In (a), the snow mass 52 is cut with the saw blades 41 of the first auger blade 37 by rotating the auger 35 as shown by the arrow (1).
Thus, the convex portions 46 of the saw blade 41... Form the concave portions 52 a in the snow mass 52 on the snow removal surface 51, and the concave portions 47 of the saw blade 41. Projections 52b are formed on the snow mass 52 on the snow removal surface 51.
[0036]
In (b), the second auger blade 38 is moved to the snow mass 52 by rotating the auger 35 by 180 ° as shown by the arrow (1). The flat blade 42 of the second auger blade 38 bites into the convex portions 52b of the snow mass 52 and the flat blade 42 removes the convex portions 52a.
Therefore, the snow mass 52 on the snow removal surface 51 can be cut into the flat surface 54.
[0037]
Thereby, the snow lump 52 on the snow removal surface 51 can be cut into the flat surface 54 only by moving the snow removal machine 10 (refer FIG. 1) straightly.
Therefore, since it is not necessary to remove the convex portions 52a of the snow mass 52 with the scraper 55 (see FIG. 4) provided at the rear of the auger 35, the burden on the operator during snow removal work is reduced. Can do.
In particular, when the snow mass 52 is hard, it becomes more difficult to remove the convex portions 52a... Of the snow mass 52 with the scraper 55, and removing the work by the scraper 55 places a greater burden on the operator. Play the role of making it smaller.
[0038]
FIGS. 6A to 6C are third action explanatory views showing the action of the snow remover according to the present invention (first embodiment), and show an example in which the snow mass 53 in front of the auger 35 is cut.
In (a), the auger 35 is rotated as indicated by the arrow (1) and the auger device 20 is advanced as indicated by the arrow (2). The snow mass 53 is cut.
Thus, the convex portions 46 of the saw blade 41... Form the concave portions 53 a in the snow mass 53 in front of the auger 35, and the concave portions 47 of the saw blade 41. Projections 53b are formed in the snow mass 53 in front of the auger 35.
At this time, since the convex portions 46 of the saw blade 41... Bite into the snow mass 53, even when the snow mass 53 is hard, the snow mass 53 is favorably crushed by the saw blade 41. Can do.
[0039]
In (b), the second auger blade 38 is moved to the snow mass 53 by rotating the auger 35 by 180 ° as indicated by the arrow (1) while the auger device 20 is advanced as indicated by the arrow (2). The flat blade 42 of the second auger blade 38 bites into the convex portions 53a of the snow mass 53, and the flat blade 42 removes the convex portions 53a.
Therefore, the cutting surface 56 of the snow mass 53 can be cut flat.
Here, since the snow lump 53 to be cut by the flat blade 42 is formed in a concavo-convex shape by the saw blades 41..., The flat blade 42 can be satisfactorily bite into the snow lump 53. Therefore, even when the snow mass 53 is hard, the snow mass 53 can be crushed favorably by the flat blade 42.
[0040]
In (c), the first auger blade 37 is moved to the snow mass 53 by further rotating the auger 35 by 180 ° as shown by the arrow (1) while moving the auger device 20 as shown by the arrow (2). The flat cutting surface 56 of the snow mass 53 in front of the auger 35 is cut with the saw blades 41 of the first auger blade 37.
[0041]
As a result, the convex portions 46 of the saw blades 41... Form the concave portions 53 a in the snow mass 53 in front of the auger 35, and the concave portions of the saw blade 47. Are formed on the snow mass 53.
Here, since the cutting surface 56 is formed flat, the convex portions 46 of the saw blades 41 can be stably bited into the flat cutting surface 56. Therefore, even when the snow mass 53 is hard, the snow mass 53 can be favorably crushed with the saw blades 41.
Thereafter, the operations (a) to (c) are sequentially repeated.
[0042]
As described above, when the forward snow mass 53 is cut while the auger 35 is moved forward, the snow mass 53 is cut into an uneven shape with the saw blade 41... And then the uneven cut with the flat flat blade 42. By cutting away the convex portions 53b from the surface, the saw blades 41 can be constantly bited into the flat cutting surface 56.
[0043]
Therefore, the snow blocks 53 can be satisfactorily crushed by the convex portions 46 of the saw blades 41 and the cutting performance of the saw blades 41 can be made uniform.
Thereby, it becomes possible to cut the snow mass 53 with the auger 35 efficiently, and snow removal property can be improved.
[0044]
  next,Reference exampleThe snow remover will be described with reference to FIGS. In addition,Reference exampleInAs described aboveThe same members as those in the embodiment are denoted by the same reference numerals, and description thereof is omitted.
  FIG.Reference exampleAffectSnow blower augerIt is sectional drawing which shows an apparatus.
  The auger device 60AboveIn that the left and right augers 61 are provided instead of the left and right augers 35 of the embodiment.AboveOther than the embodiment, other configurations areAboveThis is the same as the embodiment.
  In addition,AboveSimilarly to the embodiment, the left and right augers 61 and 61 are symmetrical members, and the left auger 61 will be described as the auger 61 below.
[0045]
The auger 61 includes two auger blades including a first auger blade (one auger blade) 62 and a second auger blade (the other auger blade) 63.
Specifically, the auger 61 forms the first auger blade 62 in a spiral shape, arranges the first auger blade 62 around the auger shaft 34, and forms the second auger blade 63 in a spiral shape, The second auger blade 63 is arranged so as to be wound around the auger shaft 34 with a phase shift of about 180 ° with respect to the first auger blade 37, and the first and second auger blades 61, 62 are arranged on the stay 39. (... indicates a plurality) and is attached to the auger shaft 34.
[0046]
The first auger blade 62 is formed by continuously forming a plurality of first saw blades 65 along the outer periphery from one end 62a to the other end 62b.
The second auger blade 63 is formed by continuously forming a plurality of second saw blades 71... Along the outer periphery from one end 63 a to the other end 63 b.
[0047]
  Figure 8Reference examplePertaining toSnow blower augerFIG.
  The first and second auger blades 62, 63 are attached to the auger shaft 34 by stays 39 (only one is shown) with a phase shift of approximately 180 °. In this state, the first and second auger blades 62 and 63 rotate in the arrow direction about the auger shaft 34.
  The first saw blade 65 of the first auger blade 62 has a convex portion 66 and a concave portion 67, and the front end of the convex portion 66 (the front end in the rotation direction of the auger 61) is a blade portion 66a.
  The angle of the 1st saw blade 65 (the convex part 66 and the recessed part 67) shall be 1 pitch (1P).
[0048]
The convex portion 66 of the first saw blade 65 extends the blade portion 66a radially outward from the proximal end 66b of the diameter (valley diameter) D3 to the distal end 66c of the diameter (peak diameter) D4, and the outer periphery from the distal end 66c of the blade portion 66a. 66d is extended on a circular arc with a mountain diameter D4, and an inclined surface 66f is extended from the rear end 66e of the outer periphery 66d to the base end 66b of the adjacent blade portion 66a toward the inside of the first auger blade 62.
[0049]
The recess 67 of the first saw blade 65 is a recess formed by the inclined surface 66f and the adjacent blade 66a.
According to the first saw blade 65, when the auger 61 is rotated as shown by the arrow, the blade portion 66a of the convex portion 66 can be satisfactorily bitten into the snow mass, and the snow mass can be efficiently crushed.
[0050]
The saw blade 71 of the second auger blade 63 forms a convex portion 72 and a concave portion 73, and the front end of the convex portion 72 (the front end in the rotation direction of the auger 61) is a blade portion 72a.
The angle of the 2nd saw blade 71 (the convex part 72 and the recessed part 73) shall be 1 pitch (1P).
[0051]
The convex portion 72 of the second saw blade 71 extends the blade portion 72a radially outward from the proximal end 72b of the diameter (valley diameter) D3 to the distal end 72c of the diameter (peak diameter) D4, and the outer periphery from the distal end 72c of the blade portion 72a. 72d extends on a circular arc with a mountain diameter D4, and an inclined surface 72f extends from the rear end 72e of the outer periphery 72d to the base end 72b of the adjacent blade portion 72a toward the inside of the second auger blade 63.
[0052]
The recess 73 of the second saw blade 71 is a recess formed by the inclined surface 72f and the adjacent blade portion 72a.
According to the second saw blade 71, when the auger 61 is rotated as shown by the arrow, the blade portion 72a of the convex portion 72 can be satisfactorily bitten into the snow mass and the snow mass can be efficiently crushed.
[0053]
The second auger blade 63 is attached to the auger shaft 34 with a shift of (1/2) × P, that is, a half pitch, with respect to the first auger blade 62.
The reason why the second auger blade 63 is shifted by a half pitch with respect to the first auger blade 62 will be described in detail below.
[0054]
  Figure 9Reference examplePertaining toSnow blower augerFIG.
  The snow mass 53 is cut with the first auger blade 62 by rotating the auger 61 about the auger shaft 34 in the direction of the arrow. The convex portion 66 and the concave portion 67 of the first saw blade 65 form the concave portion 76 and the convex portion 77 on the cutting surface of the snow mass 53 as shown in FIG. The height of the convex part 77 at this time is set to H1.
  On the other hand, by cutting the snow mass 53 with the second auger blade 63, the convex portion 72 and the concave portion 73 of the second saw blade 71, as shown in FIG. A portion 79 is formed. The height of the convex part 79 at this time is set to H1.
[0055]
Here, since the second auger blade 63 is shifted by a half pitch with respect to the first auger blade 62, the uneven portions 78 and 79 cut by the second auger blade 63 are the uneven portions cut by the first saw blade 65. It is shifted by a half pitch with respect to 76,77.
Therefore, after cutting the snow mass 53 with the first auger blade 62 as shown in (a) and then cutting the cut surface with the second auger blade 63, the convex portion 77 shown in (a) is cut into the second auger blade. Cutting is performed by 63 convex portions 72.
Thereby, as shown to (c), the height of the convex part 82 of the cutting surface 81 can be made small from H1 to H2 shown to (a), (b).
[0056]
  next,Reference exampleThe operation of the snow remover 60 will be described with reference to FIGS.
  FIG.Reference examplePertaining toAction of snowplowIt is the 1st operation explanatory view showing.
  An auger 61 composed of first and second auger blades 62 and 63 is moved around an auger shaft 34 as an arrow.Round number 3And rotate the auger device 60 with an arrow.Round number 4Move forward like this.
  By moving the auger 61 forward while rotating, the auger 61 cuts the snow mass 52 on the snow removal surface 51 and cuts the snow mass 53 in front of the auger 61.
  Hereinafter, an example of cutting the snow mass 52 on the snow removal surface 51 with the auger 61 is shown in FIG. 11, and an example of cutting the snow mass 53 in front of the auger 61 will be described with reference to FIG. 12.
[0057]
  11 (a) and 11 (b)For the snowplow according to the reference exampleIt is the 2nd operation explanatory view showing an operation, and shows the example which cuts snow block 52 on snow removal surface 51 with auger 61.
  In (a), the auger 61 is moved to an arrow.Round number 3Thus, the snow mass 52 is cut by the first saw blades 65 of the first auger blade 62.
  Thus, the concave portions 84a are formed in the snow mass 52 on the snow removal surface 51 by the convex portions 66 of the first saw blades 65, and the snow on the snow removal surface 51 is formed by the concave portions 67 of the first saw blades 65. Convex portions 84b are formed on the mass 52.
[0058]
In (b), the second saw blade 71 of the second auger blade 63 moves to the snow mass 52 by rotating the auger 61 by 180 ° as shown by the arrow (1).
Here, the second saw blade 71 of the second auger blade 63 is shifted by a half pitch with respect to the first saw blade 65 of the first auger blade 62.
[0059]
The convex part 72 of the second saw blade 71 bites into the convex part 84b of the snow mass 52, and the convex part 72 of the second saw blade 71 is a part of the convex part 84b of the snow mass 52. 84c ... are removed.
Therefore, the unevenness of the cutting surface 85 of the snow mass 52 on the snow removal surface 51 can be crushed to be substantially flat.
[0060]
Thereby, the unevenness | corrugation of the cutting surface 85 on the snow removal surface 51 can be made small, and it can be made substantially flat by only moving the snow removal machine 10 (refer FIG. 1) straightly.
Therefore, since it is not necessary to remove the convex portions 84b of the snow mass 52 with the scraper 55 (see FIG. 10) provided at the rear of the auger 35, the burden on the operator during snow removal work is reduced. Can do.
In particular, when the snow mass 52 is hard, it becomes more difficult to remove the convex portions 84b of the snow mass 52 with the scraper 55, and removing the work by the scraper 55 makes it more burdensome for the operator. Play the role of making it smaller.
[0061]
  12 (a) to 12 (c)Reference examplePertaining toAction of snowplowFIG. 6 is an explanatory diagram of a third action, showing an example of cutting the snow mass 53 in front of the auger 61.
  In (a), the auger 61 is moved to an arrow.Round number 3And rotate the auger device 60 with an arrow.Round number 4By moving forward, the snow block 53 in front of the auger 61 is cut by the first saw blades 65 of the first auger blade 37.
[0062]
Accordingly, the convex portions 66... Of the first saw blades 65... Form the recesses 86 a in the snow mass 53 in front of the auger 61, and the recesses 67. In this manner, convex portions 86b... Are formed in the snow mass 53 in front of the auger 61.
At this time, since the convex portions 66... Of the first saw blades 65... Bite into the snow mass 53, even if the snow mass 53 is hard, the first saw blades 65. Can be crushed into pieces.
[0063]
In (b), the second auger blade 63 moves to the snow mass 53 by rotating the auger 61 by 180 ° as shown by the arrow (3) while moving the auger device 60 as shown by the arrow (4).
Here, the second saw blade 71 of the second auger blade 63 is shifted by a half pitch with respect to the first saw blade 65 of the first auger blade 62.
[0064]
The convex portion 72 of the second saw blade 71 bites into the convex portion 86b of the snow mass 53, and the convex portion 72b of the snow mass 53 is formed by the convex portion 72 of the second saw blade 71. ... 86c can be efficiently crushed.
Thereby, the recessed part 87a ... is formed in the cutting surface of the snow lump 53, and the recessed part 86a ... shown to (a) protrudes and becomes the convex part 86a ....
[0065]
In (c), the first auger blade 62 is moved to the snow mass 53 by further rotating the auger 61 by 180 ° as shown by the arrow (3) while moving the auger device 60 as shown by the arrow (4).
Here, the first saw blade 65 of the first auger blade 62 is shifted by a half pitch with respect to the second saw blade 71 of the second auger blade 63.
[0066]
The convex portions 66 of the first saw blade 65 are bitten into the convex portions 86a of the snow mass 53, and the convex portions 86a of the snow mass 53 are formed by the convex portions 66 of the first saw blade 65. -A part 87b ... can be efficiently crushed.
Thereby, the recessed part 87c ... is formed in the cutting surface of the snow lump 53, and the recessed part 87a ... shown to (b) protrudes and becomes the convex part 87a ....
Thereafter, the operations (a) to (c) are sequentially repeated.
[0067]
Thus, when cutting the forward snow mass 53 while advancing the auger 35, the tip of the convex portion 66... Of the first saw blade 65. The snow mass 53 is efficiently crushed by the first saw blade 65.
The cutting surface cut by the first saw blades 65 becomes uneven. The projections 72b of the second saw blade 71 are made to bite into the projections 86b of the cutting surface, and the projections 86b of the cutting surface are efficiently crushed.
[0068]
In this way, by shifting the second saw blade 71 by a half pitch with respect to the first saw blade 65, both the first and second saw blades 65, 71 can be satisfactorily bitten into the snow mass 53, respectively. it can. This effect can be obtained even when the snow mass 53 is hard.
Therefore, the snow block 53 can be efficiently crushed by the auger 60, and the snow removal performance can be improved.
[0069]
  In addition,As described aboveIn the embodiment, the saw blades 41 of the first auger blade 37 have been described with the shape shown in FIG. 3 as an example, but the shape of the saw blades 41 is not limited to this. In short, it is only necessary to be formed in an uneven shape so as to easily bite into the snow mass 53.
[0070]
  Also, the aboveReference exampleIn the above description, the first and second saw blades 65, 71,... Provided in each of the first and second auger blades 62, 63 have been described by taking the shape shown in FIG. 8 as an example. The shape of the saw blades 65, 71 ... is not limited to this. In short, it is only necessary to be formed in an uneven shape so as to easily bite into the snow mass 53.
[0071]
【The invention's effect】
  The present invention exhibits the following effects by the above configuration.
  According to a first aspect of the present invention, there is provided a snow remover comprising two auger blades, each auger blade being mounted with a phase shift of approximately 180 °, and an auger comprising the two auger blades provided at the front of the machine body. One auger blade of the auger blade, Across the outer periphery from one end to the otherAn uneven saw blade is provided, and the other auger blade, Across from one end to the otherProvide a flat flat blade,The outer periphery of the flat flat blade was made the same diameter as the outer periphery of the convex portion constituting the saw blade.
  The tip of the saw blade is made to bite into the snow mass on the snow removal surface, and the snow mass is efficiently cut with the saw blade. The cutting surface cut by the saw blade is uneven. The convex part of this cutting surface is cut off with a flat flat blade to flatten the cutting surface.
[0072]
Therefore, the snow lump on the snow removal surface can be cut flat simply by moving the snow removal machine straight forward.
Thereby, since it is not necessary to remove the convex part remaining on the cutting surface on the snow removal surface with a scraper provided at the rear of the auger, it is possible to reduce the burden on the operator during the snow removal operation.
[0073]
On the other hand, when cutting the snow mass in front of the auger, the tip of the saw blade is bitten into the snow mass, and the snow mass is efficiently cut with the saw blade. The cutting surface cut by the saw blade is uneven. By cutting the concavo-convex cutting surface with a flat flat blade, the convex portion is removed from the concavo-convex cutting surface to flatten the cutting surface. The saw blade rotates to the flat cutting surface, and the flat cutting surface is cut with the saw blade.
[0074]
  In this way, after flattening the cutting surface of the snow lump with a flat blade, the flat cutting surface is cut with a saw blade, so that the snow lump is crushed well with the saw blade and the cutting performance of the saw blade is improved. It can be made uniform.
  Thereby, since a snow lump can be cut efficiently with an auger, the snow removal property can be improved.
  In particular, the present inventionSince the outer periphery of the flat flat blade has the same diameter as the outer periphery of the convex portion constituting the saw blade, after cutting the snow lump into an uneven shape with the saw blade, the convex portion from the uneven cutting surface with the flat flat blade By cutting off, the saw blade can always bite into a flat cutting surface, so that the snow mass can be crushed well by the convex part of the saw blade, and the cutting performance of the saw blade is made uniform I can do things. Thereby, it becomes possible to cut a snow lump efficiently with an auger, and snow removal property can be improved.
[Brief description of the drawings]
FIG. 1 Snow removal according to the present inventionMachineSide view
FIG. 2 Snow removal according to the present inventionMachineSectional view showing auger device
FIG. 3 Snow removal according to the present inventionMachineSide view showing an auger
FIG. 4 Snow removal according to the present inventionMachineFirst action explanatory diagram showing action
FIG. 5: Snow removal according to the present inventionMachineSecond action explanatory diagram showing action
FIG. 6: Snow removal according to the present inventionMachineThird action explanatory diagram showing the action
[Fig. 7]Reference exampleSnow removalMachineSectional view showing auger device
[Fig. 8]Reference exampleSnow removalMachineSide view showing an auger
FIG. 9Reference exampleSnow removalMachineIllustration explaining the auger
FIG. 10Reference exampleSnow removalMachineFirst action explanatory diagram showing action
FIG. 11Reference exampleSnow removalMachineSecond action explanatory diagram showing action
FIG.Reference exampleSnow removalMachineThird action explanatory diagram showing the action
13 is a front view of FIG. 4 of Patent Document 1. FIG.
FIG. 14 is a side view for explaining a state in which a snow block is cut with a conventional auger device.
15 is a view taken along arrow 15 in FIG.
16 is a view taken along arrow 16 in FIG.
[Explanation of symbols]
  DESCRIPTION OF SYMBOLS 10 ... Snow remover, 11 ... Frame (machine body), 20, 60 ... Auger device, 35, 61 ... Left and right augers (auger), 37, 62 ... First auger blade (one auger blade), 38, 63 ... First 2 auger blades (the other auger blade), 41 ... saw blade, 42 ... flat blade, 65 ... first saw blade, 71 ... second saw blade.

Claims (1)

In the snowplow that consists of two auger blades, each auger blade is mounted with a phase shift of approximately 180 °, and an auger composed of these two auger blades is provided at the front of the machine body.
Of the two auger blades , one auger blade is provided with an uneven saw blade over the entire outer periphery from one end to the other end, and the other auger blade is flat and flat from one end to the other end. Provided a blade,
The outer periphery of the flat blade is the same diameter as the outer periphery of the convex portion constituting the saw blade,
A snowblower characterized by that .

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