JP2004360373A - Snow removing equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce worker's burden when performing snow removing work and improve snow removing property. <P>SOLUTION: In this snow removing equipment, auger blades 62, 63 are constituted by two bars, respective auger blades 62, 63 are attached by deviating their phases by substantially 180 degrees, an auger 61 composed of these auger blades 62, 63 of two bars is provided in a front part of a frame 11, and a first recessed and projecting saw blade 65 is provided in the first auger blade 62 and a second recessed and projecting saw blade 71 formed by deviating for the first saw blade 65 by half pitch is provided in the second auger blade 63 among the auger blades 62, 63 of two bars. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a snow removal machine having a snow removal operation unit such as an auger for snow removal provided at a front portion of a body.
[0002]
[Prior art]
There is a snowplow equipped with an auger as a snowplow for removing snow on a road surface, a parking lot, or the like (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-59-88509 (pages 2-3, FIG. 4)
[0004]
FIG. 13 is a front view of FIG. 4 of Patent Document 1. In addition, the code has been renumbered.
The auger device 200 includes an auger 202 at the center in the width direction of the auger housing 201, and extends auger shafts 203, 203 from the auger 202 in the left-right direction, and the left and right augers 204, 204 are respectively attached to the left and right auger shafts 203, 203. Is provided.
According to the auger device 200, the auger 202 is driven by a drive shaft (not shown), and the left and right augers 204 are rotated by rotating the left and right auger shafts 203 with the auger 202.
[0005]
By rotating the left and right augers 204, 204, the snow mass is cut by the cutting blades of the left and right augers 204, 204, the cut snow mass is transferred to the center by the auger, and the snow mass transferred to the center is blower housing ( (Not shown), and is kicked up by a blower (not shown) toward the shooter 205, and snow is thrown from the shooter 205 to a desired location.
Here, the left and right augers 204 are symmetric members, and the left auger 204 will be described below, and the description of the right auger 204 will be omitted.
[0006]
The auger 204 is formed by spirally forming two auger blades 206 and 207 and attaching the auger blades 206 and 207 with a phase shift of about 180 °.
The spirally formed auger blades 206 and 207 are provided with saw blades 206a... 207a.
[0007]
FIG. 14 is a side view for explaining a state in which a snow lump is cut by a conventional auger device.
By providing the saw blades 206a... 207a... On the outer periphery of the auger blades 206 and 207, the saw blades 206a. .., 207a... Are efficiently cut into the snow lump 209, and the snow lump 209 is cut well.
[0008]
[Problems to be solved by the invention]
By the way, the conventional auger device has an uneven auger 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) are formed at the same pitch as the uneven saw blades 207a formed on the outer periphery of the 207.
According to this auger device, since the saw blades 206a... 207a... Are formed at the same pitch on the outer periphery of the front and rear auger blades 206 and 207, a problem as shown in the following figure occurs.
[0009]
FIGS. 15A and 15B are views as viewed from the direction indicated by the arrow 15 in FIG. For easier understanding, the lower auger blade will be described as a front auger blade 206 and the upper auger blade will be described as a rear auger blade 207.
In (a), by rotating the auger 204 as shown by the arrow, the snow block 209 is cut by the saw blade 206a of the front auger blade 206 of the two auger blades 206, 207.
As a result, a concave portion 212... Is formed in the snow lump 209 on the snow removing surface 211 by the convex portion of the saw blade 206 a, and a convex portion is formed in the snow lump 209 on the snow removing surface 211 by the concave portion of the saw blade 206 a. 213 are formed.
[0010]
In (b), by rotating the auger 204 by 180 ° as shown by the arrow, the rear auger blade 207 bites into the snow chunk 209.
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 concave portions 212 of the snow clump 209, and the concave portions of the saw blades 207a are located in the convex portions 213.
In addition, since the auger 204 is kept at the same height, the rear auger blade 207 cannot cut the snow lump 209 on the snow removing surface 211. Therefore, the projections 213... Of the snow chunk 209 remain on the snow removal surface 211 as they are.
[0011]
Since the protrusions 213 remain on the snow mass 209, it is necessary to remove the protrusions 213 remaining on the snow mass 209 by a scraper 215 (see FIG. 12) provided behind the auger 204. is there.
When the scrapers 215 remove the protrusions 213, resistance is applied, and there is a possibility that slippage may occur in the running section or the straightness of the snow removing machine may be impaired. This state tends to occur remarkably when the snow mass is hard, and a heavy load is imposed on the worker during the snow removal work.
[0012]
FIGS. 16 (a) and 16 (b) are views as viewed from the direction of arrow 16 in FIG.
In (a), by rotating the auger 204 as shown by the arrow, the snow block 209 is cut by the saw blade 206a of the front auger blade 206 of the two auger blades 206, 207.
Thereby, the concave portions 216... Are formed in the snow clump 209 at the protruding portions of the saw blades 206 a, and the convex portions 217.
[0013]
In (b), the auger 204 is rotated by 180 ° while moving forward as indicated by the arrow a, so that the rear auger blade 207 is located on the snow block 209 side.
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 .. Enter into the concave portions 216 of the snow chunk 209.
[0014]
The entire convex portion of the saw blade 207a contacts the concave portion 216 of the snow mass, and the entire concave portion of the saw blade 207a contacts the convex portion 217 of the snow mass. .., 217... Of the snow mass are simultaneously cut by the cutting allowance S1.
Therefore, the resistance when the saw blade 207a... Bites into the snow clump 209 is increased, and this state is remarkably exhibited when the snow clump is hard.
For this reason, it is difficult to sufficiently secure the biting properties of the saw blades 207a..., Which has hindered the enhancement of snow removal.
[0015]
Therefore, an object of the present invention is to provide a snow remover that can reduce the burden on an operator during snow removal work and can improve snow removal performance.
[0016]
[Means for Solving the Problems]
In order to achieve the above object, a first aspect of the present invention is to form an auger blade with two strips, attach each of the auger blades with a phase shift of about 180 °, and attach an auger including these two auger blades to a front portion of the fuselage. In the snow remover provided, of the two auger blades, one of the auger blades is provided with an uneven first saw blade, and the other auger blade is provided with an uneven shape shifted by a half pitch with respect to the first saw blade. The second saw blade is provided.
[0017]
Of the two auger blades, one of the auger blades is provided with an uneven first saw blade, and the other auger blade is provided with an uneven second saw blade shifted by a half pitch with respect to the first saw blade. Was.
The tip of the first saw blade is satisfactorily cut into the snow mass on the snow removal surface, and the snow mass is efficiently cut by the first saw blade. The cut surface cut by the first saw blade becomes uneven. The projection of the second saw blade is cut into the projection of the cutting surface to remove the projection of the cutting surface.
Therefore, the protrusion of the cut surface can be crushed into a small flat shape just by moving the snow blower straight forward. Thereby, it is possible to save the trouble of removing the protrusion remaining on the cut surface on the snow removal surface by using a scraper provided behind the auger.
[0018]
On the other hand, when cutting a snow lump in front of the auger, the tip of the first saw blade is satisfactorily cut into the snow lump, and the snow lump is efficiently cut with the first saw blade. The cut surface cut by the first saw blade becomes uneven. The convex portion of the second saw blade is satisfactorily cut into the convex portion of the cut surface, and the convex portion of the cut surface is efficiently removed.
In this way, by shifting the second saw blade by half pitch with respect to the first saw blade, both the first and second saw blades can be properly sunk into the snow mass, and the auger can use the snow mass with the auger. Can be efficiently cut.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of the present invention will be described below with reference to the accompanying drawings. Here, “front”, “rear”, “left”, and “right” follow the directions viewed from the worker. The drawings should be viewed in the direction of reference numerals.
FIG. 1 is a side view showing a snow blower (first embodiment) according to the present invention.
The snow blower 10 has left and right running parts 12, 12 on the left and right sides of a frame 11 as an airframe, an engine 13 mounted on the frame 11, a transmission 14 provided on a front part of the engine 13, and a forward part of the transmission 14. An auger device 20 is provided, a drive pin 22 is connected to a rear end 21 a of a 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 an 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 a rear end side of the frame 11, and a handle 18 is provided on an upper end portion of the handle post 17. .
[0020]
The auger device 20 has a tubular blower housing 25 attached to a front portion of the frame 11, an auger housing 27 attached to a front end portion of the blower housing 25, and a drive pin 22 rotatably attached to a rear wall 26 of the blower housing 25. The rear end 21a of the drive shaft 21 is connected to the drive pin 22, the front end 21b of the drive shaft 21 is extended to the auger housing 27 via the blower housing 25, and the blower 30 is mounted near the rear end 21a of the drive shaft 21. .
[0021]
Further, the auger device 20 includes a worm reduction mechanism (hereinafter referred to as “auger mission”) 32 at a front end of the drive shaft 21, and stores the auger mission 32 in an auger mission case 33, and Auger shafts 34, 34 (the right side is not shown) are connected, and left and right augers 35, 35 are attached to the left and right auger shafts 34, 34, respectively.
[0022]
According to the snow remover 10, the engine 13 drives the auger device 20, and at the same time, drives the left and right running units 12, 12 to drive the snow remover 10.
The auger device 20 rotates the first pulley 23 with the belt 24 by driving the engine 13, and rotates the blower 30 by rotating the drive shaft 21 with the first pulley 23, and the auger transmission 32 and the left and right The left and right augers (augers) 35, 35 are rotated via the auger shafts 34, 34.
[0023]
Thus, the left and right augers 35, 35 collect the snow, guide the collected snow from the auger housing 27 into the blower housing 25, bounce the snow guided into the blower housing 25 by the blower 30, and shoot the bounced snow. Guide at 36 and throw snow outside.
[0024]
FIG. 2 is a cross-sectional view showing an auger device of the snow blower (first embodiment) according to the present invention.
In the auger device 20, the auger housing 27 is attached to the front end of the blower housing 25, the drive pin 22 is rotatably attached to the rear wall 26 of the blower housing 25, and the rear end 21a of the drive shaft 21 is connected to the drive pin 22. Then, the front end 21b of the drive shaft 21 extends to the auger housing 27 via the blower housing 25, and the blower 30 is attached near the rear end 21a of the drive shaft 21.
[0025]
Further, the auger device 20 forms a worm at the front end portion 21b of the drive shaft 21 and meshes the worm with a worm wheel 31 to form a worm reduction mechanism (hereinafter, referred to as an "auger mission") 32. The auger mission 32 is housed in the auger mission case 33, the left and right auger shafts 34, 34 are attached to the worm wheel 31, and the left and right auger shafts 34, 34 are extended from the left and right sides of the auger mission case 33. , 34 with left and right augers 35, 35, respectively.
[0026]
The left and right augers 35 are symmetric 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 the first auger blade 37 in a spiral shape, arranges the first auger blade 37 so as to be wound around the auger shaft 34, and forms the 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 substantially 180 ° with respect to the first auger blade 37, and the first and second auger blades 37, 38 are provided with stays 39. (... indicate a plurality) and 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 circumference from one end 37a to the other end 37b.
The second auger blade 38 has a flat flat blade 42 continuously formed along the outer circumference from one end 38a to the other end 38b.
The annular plate 43 is fixed to the auger shaft 34 by supporting rods 44 at the outer end of the auger shaft 34.
[0029]
FIG. 3 is a side view showing an auger of the snow blower (first embodiment) according to the present invention.
The first and second auger blades 37 and 38 are attached to the auger shaft 34 with stays 39... In this state, the first and second auger blades 37 and 38 rotate about the auger shaft 34 in the direction of the arrow.
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 rotation 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 one pitch (1P).
[0030]
The protruding portion 46 of the saw blade 41 extends the blade portion 46a radially outward from the base end 46b of the diameter (trough diameter) D1 to the distal end 46c of the diameter (peak diameter) D2, and extends the outer periphery 46d from the distal end 46c of the blade portion 46a. It extends on a circular arc with a mountain diameter D2, and extends an inclined surface 46f toward the inside of the first auger blade 37 from the rear end 46e of the outer periphery 46d to the base end 46b of the adjacent blade portion 46a.
[0031]
The concave portion 47 of the saw blade 41 is a concave 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 the arrow, the blade portion 46a of the convex portion 46 is satisfactorily cut 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 42a formed with the same mountain diameter D2 as the outer periphery 46a of the projection 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 forming the saw blade 41 are located on an arc having the same mountain diameter D2.
[0033]
Next, the operation of the snow blower 10 according to the first embodiment will be described with reference to FIGS.
FIG. 4 is a first operation explanatory view showing the operation of the snow blower (first embodiment) according to the present invention.
The auger 35 including the first and second auger blades 37 and 38 is rotated about the auger shaft 34 as shown by the arrow (1), and the auger device 20 is advanced as shown by the arrow (2).
[0034]
By moving the auger 35 forward while rotating, the auger 35 cuts the snow lump 52 on the snow removal surface 51 and also cuts the snow lump 53 in front of the auger 35.
Hereinafter, an example in which the auger 35 cuts the snow lump 52 on the snow removal surface 51 is shown in FIG. 5, and an example in which the snow lump 53 in front of the auger 35 is cut will be described with reference to FIG. 6.
[0035]
FIGS. 5A and 5B are second operation explanatory diagrams showing the operation of the snow blower (first embodiment) according to the present invention, and show an example in which an auger 35 cuts a snow lump 52 on a snow removal surface 51. Show.
In (a), the snow lump 52 is cut by the saw blades 41 of the first auger blade 37 by rotating the auger 35 as indicated by the arrow (1).
Thereby, the concave portions 52a... Are formed in the snow chunk 52 on the snow removing surface 51 by the convex portions 46 of the saw blades 41. The projections 52b are formed on the snow mass 52 on the snow removal surface 51.
[0036]
In (b), by rotating the auger 35 by 180 ° as indicated by the arrow (1), the second auger blade 38 moves to the snow lump 52. The flat blades 42 of the second auger blade 38 bite into the convex portions 52b... Of the snow mass 52, and the flat blades 42 remove the convex portions 52a.
Therefore, the snow lump 52 on the snow removal surface 51 can be cut into the flat surface 54.
[0037]
Thus, 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 (see FIG. 1) straight forward.
Therefore, it is not necessary to remove the projections 52a... Of the snow chunk 52 with the scraper 55 (see FIG. 4) provided behind the auger 35, so that the burden on the worker during the snow removal operation can be reduced. Can be.
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 increases the burden on the worker. It plays a role in making it smaller.
[0038]
FIGS. 6A to 6C are third operation explanatory diagrams showing the operation of the snow blower (first embodiment) according to the present invention, and show an example of cutting a snow lump 53 in front of the auger 35.
In (a), the auger 35 is rotated as shown by the arrow (1) and the auger device 20 is advanced as shown by the arrow (2), so that the saw blade 41 of the first auger blade 37. Of the snow mass 53 is cut.
Thereby, the concave portions 53a are formed in the snow mass 53 in front of the auger 35 with the convex portions 46 of the saw blades 41, and the concave portions 47 of the saw blades 41 are formed. A projection 53b is formed in the snow lump 53 in front of the auger 35.
At this time, the protruding portions 46 of the saw blades 41 are cut into the snow mass 53, so that even when the snow mass 53 is hard, the snow mass 53 can be crushed by the saw blades 41 well. Can be.
[0039]
In (b), the auger 35 is rotated by 180 ° as shown by the arrow (1) while the auger device 20 is advanced as shown by the arrow (2), so that the second auger blade 38 moves to the snow mass 53. The flat blades 42 of the second auger blade 38 bite into the convex portions 53a... Of the snow mass 53, and the flat blades 42 remove the convex portions 53a.
Therefore, the cutting surface 56 of the snow lump 53 can be cut flat.
Here, since the snow lump 53 cut by the flat blades 42 is formed in an uneven shape by the saw blades 41..., The flat blades 42 can be sunk into the snow lump 53 satisfactorily. 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 auger 35 is further rotated by 180 ° as shown by the arrow (1) while the auger device 20 is advanced as shown by the arrow (2), so that the first auger blade 37 moves to the snow mass 53. With the saw blades 41 of the first auger blade 37, the flat cutting surface 56 of the snow mass 53 in front of the auger 35 is cut.
[0041]
Thereby, the concave portions 53a are formed in the snow mass 53 in front of the auger 35 by the convex portions 46 of the saw blades 41, and the concave portions 53a are formed in front of the auger 35 by the concave portions of the saw blades 47. Are formed on the snow chunk 53 of FIG.
Here, since the cutting surface 56 is formed flat, the projections 46 of the saw blades 41 can stably bite into the flat cutting surface 56. Therefore, even when the snow mass 53 is hard, the snow mass 53 can be crushed favorably by the saw blades 41.
Hereinafter, the operations (a) to (c) are sequentially repeated.
[0042]
As described above, when cutting the snow lump 53 in front while advancing the auger 35, the snow lump 53 is cut into an uneven shape with the saw blade 41, and then the uneven cutting is performed with the flat flat blade 42. By shaving off the protruding portions 53b from the surface, the saw blades 41 can always bite into the flat cutting surface 56.
[0043]
Therefore, the snow chunks 53 can be crushed favorably by the convex portions 46 of the saw blades 41 and the cutting performance of the saw blades 41 can be made uniform.
Thereby, the snow chunk 53 can be efficiently cut by the auger 35, and the snow removal performance can be improved.
[0044]
Next, a snow blower according to a second embodiment will be described with reference to FIGS. 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.
FIG. 7 is a cross-sectional view illustrating an auger device of a snow blower (second embodiment) according to the present invention.
The auger device 60 is the same as the first embodiment except that the left and right augers 61 are provided instead of the left and right augers 35 of the first embodiment.
Note that, similarly to the first embodiment, the left and right augers 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 so as to be wound 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 substantially 180 ° with respect to the first auger blade 37, and the first and second auger blades 61, 62 are provided with stays 39,. (... indicate a plurality) and 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 circumference 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 circumference from one end 63a to the other end 63b.
[0047]
FIG. 8 is a side view showing an auger of a snow blower (second embodiment) according to the present invention.
The first and second auger blades 62 and 63 are attached to the auger shaft 34 with stays 39... In this state, the first and second auger blades 62 and 63 rotate about the auger shaft 34 in the direction of the arrow.
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 first saw blade 65 (the protrusion 66 and the recess 67) is one pitch (1P).
[0048]
The convex portion 66 of the first saw blade 65 extends the blade portion 66a radially outward from the base end 66b of the diameter (trough diameter) D3 to the distal end 66c of the diameter (peak diameter) D4, and extends from the distal end 66c of the blade portion 66a to the outer periphery. 66d is extended on a circular arc with a mountain diameter D4, and an inclined surface 66f is extended inward of the first auger blade 62 from a rear end 66e of the outer periphery 66d to a base end 66b of the adjacent blade portion 66a.
[0049]
The concave portion 67 of the first saw blade 65 is a concave formed by the inclined surface 66f and the adjacent blade portion 66a.
According to the first saw blade 65, when the auger 61 is rotated as shown by the arrow, the blade 66a of the convex portion 66 is satisfactorily cut into the snow mass, and the snow mass can be efficiently crushed.
[0050]
The saw blade 71 of the second auger blade 63 has 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 second saw blade 71 (the protrusion 72 and the recess 73) is one pitch (1P).
[0051]
The convex portion 72 of the second saw blade 71 extends the blade portion 72a radially outward from the base end 72b of the diameter (trough diameter) D3 to the distal end 72c of the diameter (peak diameter) D4, and extends from the distal end 72c of the blade portion 72a to the outer periphery. 72d is extended on a circular arc with a peak diameter D4, and an inclined surface 72f is extended toward the inside of the second auger blade 63 from the rear end 72e of the outer periphery 72d to the base end 72b of the adjacent blade portion 72a.
[0052]
The concave portion 73 of the second saw blade 71 is a concave 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 protruding portion 72 is satisfactorily cut 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 in a state shifted by (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]
FIG. 9 is a diagram illustrating an auger of a snow blower (second embodiment) according to the present invention.
By rotating the auger 61 about the auger shaft 34 in the direction of the arrow, the first auger blade 62 cuts the snow mass 53. As shown in (a), a concave portion 76 and a convex portion 77 are formed on the cutting surface of the snow lump 53 by the convex portion 66 and the concave portion 67 of the first saw blade 65. The height of the convex portion 77 at this time is defined as 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 form the concave portion 78 and the convex portion on the cutting surface of the snow mass 53 as shown in FIG. The part 79 is formed. The height of the projection 79 at this time is defined as 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 uneven portions cut by the first saw blade 65. It is shifted by half a pitch from 76 and 77.
Therefore, after the snow mass 53 is cut by the first auger blade 62 as shown in FIG. 2A, the cut surface is cut by the second auger blade 63 so that the convex portion 77 shown in FIG. 63 is cut at the convex portion 72.
Thereby, the height of the convex portion 82 of the cutting surface 81 can be reduced from H1 shown in (a) and (b) to H2 as shown in (c).
[0056]
Next, the operation of the snow blower 60 according to the second embodiment will be described with reference to FIGS.
FIG. 10 is a first operation explanatory view showing the operation of the snow blower (second embodiment) according to the present invention.
The auger 61 composed of the first and second auger blades 62 and 63 is rotated about the auger shaft 34 as shown by the arrow (3), and the auger device 60 is advanced as shown by the arrow (4).
By moving the auger 61 forward while rotating, the auger 61 cuts the snow lump 52 on the snow removal surface 51 and also cuts the snow lump 53 in front of the auger 61.
Hereinafter, an example in which the auger 61 cuts the snow lump 52 on the snow removing surface 51 is shown in FIG. 11, and an example in which the snow lump 53 in front of the auger 61 is cut will be described with reference to FIG.
[0057]
FIGS. 11A and 11B are second operation explanatory diagrams showing the operation of the snow blower (second embodiment) according to the present invention, and show an example in which an auger 61 cuts a snow lump 52 on a snow removal surface 51. Show.
In (a), the snow lump 52 is cut by the first saw blade 65 of the first auger blade 62 by rotating the auger 61 as shown by the arrow (3).
Thereby, the concave portions 84a are formed in the snow chunk 52 on the snow removing surface 51 by the convex portions 66 of the first saw blades 65, and the concave portions 67 of the first saw blades 65 are formed. .. Are formed on the snow lump 52 on the snow removal surface 51 to form projections 84b.
[0058]
In (b), the second saw blade 71 of the second auger blade 63 moves to the snow lump 52 by rotating the auger 61 by 180 ° as indicated 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 protrusion 72 of the second saw blade 71 bites into the protrusion 84b of the snow mass 52, and the protrusion 72 of the second saw blade 71 forms part of the protrusion 84b of the snow mass 52. 84c ... are removed.
Therefore, the unevenness of the cutting surface 85 of the snow lump 52 on the snow removing surface 51 can be crushed to a small size to make it substantially flat.
[0060]
Thus, simply by moving the snow blower 10 (see FIG. 1) straight forward, the unevenness of the cutting surface 85 on the snow removing surface 51 can be reduced to make it substantially flat.
Therefore, it is not necessary to remove the protrusions 84b... Of the snow chunk 52 with the scraper 55 (see FIG. 10) provided behind the auger 35, so that the burden on the worker during the snow removal operation can be reduced. Can be.
In particular, when the snow mass 52 is hard, the operation of removing the protrusions 84b... Of the snow mass 52 with the scraper 55 becomes more difficult, and removing the operation by the scraper 55 increases the burden on the operator. It plays a role in making it smaller.
[0061]
FIGS. 12A to 12C are third operation explanatory diagrams showing the operation of the snow blower (second embodiment) according to the present invention, and show an example of cutting a snow lump 53 in front of an auger 61.
In (a), the auger 61 is rotated by the auger 61 as shown by the arrow (3) and the auger device 60 is advanced by the arrow (4), so that the first saw blade 65 of the first auger blade 37. Is cut off the snow lump 53 in front of.
[0062]
As a result, the projections 66 of the first saw blades 65 form recesses 86a in the snow lump 53 in front of the auger 61, and the recesses 67 of the first saw blades 65. .. Are formed on the snow mass 53 in front of the auger 61 to form projections 86b.
At this time, the projections 66 of the first saw blades 65 are made to bite into the snow lump 53, so that even when the snow lump 53 is hard, the snow lump 53 is favorably formed by the first saw blades 65 ... Can be crushed.
[0063]
In (b), the auger 61 is rotated 180 ° as indicated by the arrow (3) while the auger device 60 is advanced as indicated by the arrow (4), so that the second auger blade 63 moves to the snow mass 53.
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 protrusions 72 of the second saw blade 71 are satisfactorily bite into the protrusions 86b of the snow mass 53, and the protrusions 72b of the snow mass 53 are formed by the protrusions 72 of the second saw blade 71. .. Can be efficiently crushed.
As a result, concave portions 87a are formed on the cutting surface of the snow mass 53, and the concave portions 86a shown in FIG.
[0065]
In (c), the auger 61 is further rotated by 180 ° as indicated by the arrow (3) while the auger device 60 is advanced as indicated by the arrow (4), so that the first auger blade 62 moves to the snow mass 53.
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 protrusions 66 of the first saw blade 65 are satisfactorily bite into the protrusions 86a of the snow mass 53, and the protrusions 66a of the snow mass 53 are formed by the protrusions 66 of the first saw blade 65. Can be efficiently crushed.
.. Are formed on the cut surface of the snow mass 53, and the concave portions 87a shown in FIG.
Hereinafter, the operations (a) to (c) are sequentially repeated.
[0067]
As described above, when cutting the front 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 cut surface cut by the first saw blade 65 has an irregular shape. The projections 72 of the second saw blade 71 are satisfactorily cut into the projections 86b of the cutting surface, and the projections 86b of the cutting surface are efficiently crushed.
[0068]
By shifting the second saw blade 71 by a half pitch with respect to the first saw blade 65 in this manner, both the first and second saw blades 65 and 71 can satisfactorily bite into the snow lump 53 respectively. it can. This effect can be similarly obtained even when the snow mass 53 is hard.
Therefore, the snow chunk 53 can be efficiently crushed by the auger 60, and the snow removal performance can be improved.
[0069]
In the first embodiment, the saw blades 41... Of the first auger blades 37 have been described using the shape shown in FIG. 3 as an example, but the shape of the saw blades 41. The point is that it is only necessary to be formed in an uneven shape so as to easily penetrate the snow mass 53.
[0070]
In the second embodiment, the first and second saw blades 65..., 71... Provided on the first and second auger blades 62 and 63 have the shape shown in FIG. , But the shapes of the first and second saw blades 65..., 71. The point is that it is only necessary to be formed in an uneven shape so as to easily penetrate the snow mass 53.
[0071]
【The invention's effect】
The present invention has the following effects by the above configuration.
The first auger blade is provided with an uneven first saw blade on one of the auger blades, and the second auger blade is provided with an uneven first saw blade shifted by a half pitch with respect to the first saw blade. Two saw blades were provided.
The tip of the first saw blade is satisfactorily cut into the snow mass on the snow removal surface, and the snow mass is efficiently cut by the first saw blade. The cut surface cut by the first saw blade becomes uneven. The projection of the second saw blade is cut into the projection of the cutting surface to remove the projection of the cutting surface.
[0072]
Therefore, the protrusion of the cut surface can be crushed into a small flat shape just by moving the snow blower straight forward.
Thus, it is not necessary to remove the convex portion remaining on the cut surface on the snow removing surface by a scraper provided at the rear of the auger, so that the burden on the operator during the snow removing operation can be reduced.
[0073]
On the other hand, when cutting a snow lump in front of the auger, the tip of the first saw blade is satisfactorily cut into the snow lump, and the snow lump is efficiently cut with the first saw blade. The cut surface cut by the first saw blade becomes uneven. The convex portion of the second saw blade is satisfactorily cut into the convex portion of the cut surface, and the convex portion of the cut surface is efficiently removed.
[0074]
In this way, by shifting the second saw blade by a half pitch with respect to the first saw blade, both the first and second saw blades can satisfactorily bite into the snow clump, respectively.
This allows the auger to efficiently cut a snow lump, thereby improving snow removal.
[Brief description of the drawings]
FIG. 1 is a side view showing a snow blower (first embodiment) according to the present invention; FIG. 2 is a sectional view showing an auger device of the snow remover (first embodiment) according to the present invention; FIG. 4 is a side view showing an auger of the snow remover (first embodiment). FIG. 4 is a first operation explanatory view showing the operation of the snow remover according to the present invention (first embodiment). FIG. 5 is a snow remover according to the present invention. FIG. 6 is a second action explanatory view showing the operation of the first embodiment. FIG. 6 is a third action explanatory view showing the operation of the snow remover according to the present invention (first embodiment). FIG. 7 is a snow remover according to the present invention. FIG. 8 is a cross-sectional view showing an auger device according to a second embodiment. FIG. 8 is a side view showing an auger of a snow blower according to the present invention (second embodiment). FIG. 9 is a snow remover according to the present invention (second embodiment). FIG. 10 is a first operation explanatory view showing the operation of the snow blower (second embodiment) according to the present invention. FIG. FIG. 12 is a second operation explanatory view showing the operation of the snow blower (second embodiment). FIG. 12 is a third operation explanatory view showing the operation of the snow remover (second embodiment) according to the present invention. Fig. 14 is a front view of Fig. 4. Fig. 14 is a side view for explaining a state of cutting snow chunks by a conventional auger device. Fig. 15 is a view as seen from arrow 15 in Fig. 14. Fig. 16 is a view as seen from arrow 16 in Fig. 14. Description]
DESCRIPTION OF SYMBOLS 10 ... Snow removal machine, 11 ... Frame (body), 20, 60 ... Auger device, 35, 61 ... Left and right augers (Auger), 37, 62 ... 1st auger blade (one auger blade), 38, 63 ... No. 2 auger blades (the other auger blades), 41 saw blades, 42 flat blades, 65 first saw blades, 71 second saw blades.

Claims (1)

An auger blade is composed of two strips, each auger blade is attached with a phase shift of about 180 °, and an auger made up of these two auger blades is provided at the front of the fuselage.
Of the two auger blades, one of the auger blades is provided with an uneven first saw blade, and the other auger blade is provided with an uneven second saw blade shifted by a half pitch with respect to the first saw blade. A snowplow characterized by being provided.

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