JP5485589B2 - Elastic track - Google Patents

Description

  The present invention relates to an elastic crawler belt embedded with a core metal, which is attached to a crawler type traveling vehicle.

  The elastic crawler belt mounted on a mini excavator or the like is formed as a large one so that the lug overlaps the entire core metal embedded in it or straddles two adjacent core bars when viewed from the grounding side. ing. Such lugs are arranged in a staggered manner on both sides in the width direction of the elastic crawler belt by shifting the lugs on one side half of the lug pitch on the other side with respect to the lugs on the other side, or the lugs are one of the core bars. May be arranged every 2 pitches.

  Further, in order to prevent mud clogging between the lugs when the crawler type traveling vehicle travels (soil removal performance), the width direction end portion of the lug is located behind the circulation direction of the elastic crawler track. In many cases, it is inclined and provided (Patent Document 1). In such an elastic crawler belt provided with a lug that is inclined so that the end in the width direction is rearward with respect to the circulation direction, the end surface of the core metal may not overlap the lug (Patent Document 2).

JP-A-3-248974 JP-A-3-42383

  In the elastic crawler belt, as disclosed in Patent Documents 1 and 2, generally, the lug extends to the end of the crawler belt in the width direction, whereas the core metal is limited to the length in the middle of the width direction. For this reason, the end of the elastic crawler belt in the width direction is bent when the end of the lug is caught by a protrusion such as a curbstone, and if this is repeated, the elastic body fatigues and cracks, and the end is missing in a U shape. It leads to damage. And if a tensile body is exposed from a damaged part, rust will generate | occur | produce in a tensile body and there exists a possibility that an elastic crawler belt may cut | disconnect in an extreme case.

Such bending of the end portion in the width direction of the elastic crawler belt also occurs when the end portion in the width direction of the elastic crawler belt rides on the protrusion.
The present invention has been made in view of the above-described problems, and an object of the present invention is to provide an elastic crawler belt whose end in the width direction is not easily bent when passing through a protrusion such as a curbstone.

Elastic crawler according to the present invention, the crawler body inwardly to the starting point end side portion of the whole or the width direction of the width direction of the crawler body is opposite to the direction of circulation during advancement of the crawler traveling vehicle An elastic crawler comprising a lug extending obliquely to one side in the circumferential direction, and a plurality of core bars embedded in the crawler belt main body with an interval in the circumferential direction , wherein the lug is in the circumferential direction A side surface facing one side of the circumferential direction is inclined to the other side in the circumferential direction, and a side surface facing the other side in the circumferential direction is inclined to the one side in the circumferential direction and projects as a projecting end surface. The width in the circumferential direction on the ground is gradually reduced from the center side to the end side in the width direction, and the one side of the lug at the inclined portion extending inclined to the one side in the circumferential direction is provided. The facing side surface is an end side portion including the end in the width direction. , Forming a line of intersection extending in the width direction intersecting with the ground plane a plane gently inclined against the flat surface that will be defined by the circumferential direction and the width direction as compared to the portion of the end side and, a side facing the other side of the inclined portions extending obliquely to said one side of the circumferential direction in the lug portion of the end side including the end of the width direction, the portion of the end side Compared to the portion excluding the portion on the end side, the end side portion including the end in the width direction is gently inclined with respect to the plane defined by the circumferential direction and the width direction as compared to the excluding portion. It is gently inclined with respect to a plane defined by the circumferential direction and the width direction , and occupies a range more than twice the distance between the tip of the core metal and the end of the elastic crawler belt in the width direction.

End side of the portion including the end of the width direction of the side facing the front SL one side is the flat surface that will be defined by the circumferential direction and the width direction than the other portion on the side facing the one side of the its roots form a line of intersection extending in front Symbol width direction, it is twisted so as to gradually face the widthwise outward due to toward the protruding end of the gently inclined and the crawler body in pairs.
The end-side portion including the end in the width direction on the side surface facing the one side and the end-side portion including the end in the width direction on the side surface facing the other side are both the circumferential direction and the width. The inclination angle with respect to the plane defined by the direction is 45 degrees or less.

When viewed the lug from the ground surface, the end side of the portion including the width direction of the end on the side facing the side of the other, the angle θa line of intersection between the ground plane with respect to the front Symbol width direction in a straight line inclined, the the base of the track body are straight lines inclined at an angle θb relative to prior Symbol width direction, the angle θb is less than the angle .theta.a.
When the elastic crawler belt according to the present invention is viewed from the ground contact surface side,
An end side including an end in the width direction on a side surface facing the other side, or an end side portion including the width direction end on a side surface facing the one side, an end portion in the width direction of the cored bar It is formed so as to overlap parts of the a in the circumferential direction.

  According to the present invention, it is possible to provide an elastic crawler belt whose end in the width direction is not easily bent when passing through a protrusion such as a curb.

FIG. 1 is a view of the elastic crawler belt when viewed from the outer peripheral side. FIG. 2 is a cross-sectional view of the lug. FIG. 3 is a view of another elastic crawler belt when viewed from the outer peripheral side. FIG. 4 is a cross-sectional view of the lug in FIG.

FIG. 1 is a view of the elastic crawler belt 1 viewed from the outer peripheral side, and FIG. 2 is a cross-sectional view of the lug 4. 2A shows a cross section taken along the line AA in FIG. 1, and FIG. 2B shows a cross section taken along the line BB in FIG.
The elastic crawler belt 1 is formed by embedding a plurality of core bars 3, 3, 3, 3 in a crawler belt body 2 and projecting a plurality of lugs 4,. Yes. In addition, the outer peripheral side in the elastic crawler belt 1 is a side that becomes an outer periphery when the elastic crawler belt 1 is attached to the crawler type traveling vehicle, and is also a side that contacts the ground (a ground side).

The crawler belt body 2 is formed in an endless belt shape by joining both ends of a thick belt-like elastic body.
The cored bar 3 has a substantially long shape as a whole, and a predetermined range is a substantially plate-like wing part 11, 11 from each end on both sides in the longitudinal direction to the inside. The metal core 3 is arranged on the entire crawler belt main body 2 with a certain interval in the circumferential direction of the elastic crawler belt 1 with its longitudinal direction coinciding with the width direction of the elastic crawler belt 1. At the center in the width direction of the crawler belt main body 2 between the core bars 3 and 3 adjacent to each other in the circumferential direction, an engagement hole 12 is provided for communicating the outer peripheral side and the inner peripheral side. The engagement hole 12 is engaged with a claw of a drive sprocket of a crawler type traveling vehicle to which the elastic crawler belt 1 is mounted, and causes the elastic crawler belt 1 to circulate by rotation of the drive sprocket.

Hereinafter, the term “circumferential direction” or “width direction” simply refers to the circumferential direction or the width direction of the elastic crawler belt 1 (crawler belt body 2). The “circumferential direction” may refer to a direction in which the elastic crawler belt 1 mounted on the crawler type traveling vehicle extends when the elastic crawler belt 1 contacts the flat ground or the like and extends straight.
The lug 4 is formed of the same elastic body as the crawler belt body 2 and is continuous with the crawler belt body 2. The lug 4 starts from the vicinity of one side of the engagement hole 12 in the width direction, and extends to the width direction for a while and then continues to the end in the width direction while tilting to one side in the circumferential direction. A portion extending in the width direction in the lug 4 is referred to as a “center portion 13”, and a portion continuing to the end in the width direction while being inclined toward one side in the circumferential direction is referred to as an “inclined portion 14”. The inclination of the inclined portion 14 in the elastic crawler belt 1 with respect to the width direction is approximately 45 degrees.

  In the two engagement holes 12 and 12 adjacent in the circumferential direction to the engagement hole 12 starting from the lug arranged on one side in the width direction, the lugs 4 and 4 starting from the vicinity in the width direction are It is arranged on the other side in the width direction. As described above, the lugs 4,..., 4 are arranged in a staggered manner on the different sides in the width direction with respect to the adjacent engagement holes 12. It can be said that the lugs 4 on both sides in the width direction are shifted from the lug 4 on one side by half the lug pitch on the other side with respect to the lug 4 on the other side.

The elastic crawler belt 1 is used for a crawler-type traveling vehicle so that the circulation direction Cd is opposite to the inclination direction of the inclined portion 14 when the crawler-type traveling vehicle travels normally (in many cases, the vehicle travels forward). Installed. Accordingly, when the elastic crawler belt 1 shown in FIG. 1 is viewed from the traveling road surface side, the traveling direction of the crawler-type traveling vehicle is a downward direction opposite to the circulation direction Cd of the elastic crawler belt 1.
The central portion 13 of the lug 4 extends from the starting point near the width direction of the engagement hole 12 toward the end in the width direction to a range of 1/6 to 1/5 of the width W of the elastic crawler belt. Is expanded to the vicinity of the engagement holes 12 and 12 adjacent to the engagement hole 12 as a starting point.

The inclined portion 14 has a gentler slope from the end in the width direction on the side surface on the circulation direction Cd side to the end (hereinafter, this portion of the side surface is referred to as “front side surface 15”) than the side surface 16 continuing from the central portion 13. It has become. The inclination angle θ1 of the front side surface 15 is the largest on the side surface 16 side and gradually decreases toward the end in the width direction.
While the inclination angle θ2 of the side surface 16 is larger than 45 degrees, the inclination angle θ1 of the front side surface 15 is designed to be 45 degrees or less over the entire range. The inclination angle θ2 of the side surface 16 is substantially the same as the inclination angle of the side surface of the lug in a conventional elastic crawler track that is generally widely used.

  The inclination angle refers to the degree of inclination of the side surface of the lug 4 with respect to the two-dimensional space (plane) defined by the circumferential direction and the width direction. Here, “inclination angle θ1” and “inclination angle θ2” are a cross-section (AA cross-section, BB cross-section perpendicular to the intersection line generated by the intersection of the front side surface 15 or the side surface 16 and the ground contact surface 17. It is defined as an angle formed by the front side surface 15 or the side surface 16 and the above-described two-dimensional space (plane) in an arrow cross section.

In the elastic crawler belt 1, the ground contact surface 17 in the lug 4 is parallel to a two-dimensional space (plane) defined by the circumferential direction and the width direction in a portion where no bending or the like occurs, and the inclination angle is the side surface of the lug 4. It can be said that the degree of inclination with respect to the ground contact surface 17 is.
In addition, the ground contact surface 17 in the lug 4 has a circumferential width L that gradually decreases from the center side to the end side in the width direction of the crawler belt body 2.

When the elastic crawler belt 1 is viewed from the outer peripheral side (FIG. 1), the front side surface 15 has an inclination with respect to the width direction of a straight line (referred to as “intersection line 18”) formed by a root that is continuous with the crawler belt body 2. When θb is defined as θb and the inclination with respect to the width direction of the intersecting line 19 with the ground plane 17 is defined as θa, θb <θa is formed.
In the elastic crawler belt 1, the range of the front side surface 15 in the width direction (direction orthogonal to the circumferential direction) is approximately one eighth of the width W of the elastic crawler belt 1. The range of the front side surface 15 in the width direction is the length (longitudinal dimension) of the core metal 3 and the width W of the elastic crawler belt 1, that is, the front end of the buried core metal 3 and the end of the crawler belt body 2 in the width direction. Determined by the distance D. The range that the front side surface 15 occupies from the end in the width direction is larger than the distance D between the tip of the core metal 3 and the end in the width direction of the crawler belt body 2, and is preferably twice or more the distance D (see FIG. 1). .

Further, as will be described later, the front side surface 15 always overlaps the wing portion 11 of any one of the core bars 3 in the circumferential direction.
The inclined portion 14 is a side surface (hereinafter referred to as “rear side surface 20”) that is distinguished from the inner side surface 22 at a portion corresponding to a corner (corner) opposite to the circulation direction Cd side at the end in the width direction. ). The rear side surface 20 is gradually twisted so that the root (intersection line 21) continuous with the crawler belt main body 2 extends in the width direction and faces the outer surface in the width direction toward the ground contact surface 17. The inclination angle of the rear side surface 20 is designed to be 45 degrees or less in any part.

Each of the lugs 4,..., 4 in the elastic crawler belt 1 has the wing portions 11 of the two core bars 3, 3 arranged in the inclined direction (opposite direction of the circulation direction Cd) from the engagement hole 12 as a starting point. 11 in the circumferential direction.
Note that “overlap in the circumferential direction” means a state in which the lugs 4 overlap when viewed from the outer peripheral side (or the inner peripheral side) (when seen through).

  As described above, the elastic crawler belt 1 is provided with the front side surface 15 having an inclination angle θ1 of 45 degrees or less on the circulation direction Cd side in the vicinity of the width direction end of the lug 4. The elastic crawler belt 1 has the front side surface 15 so that when the attached crawler type traveling vehicle moves forward (the elastic crawler belt 1 circulates in the circulation direction Cd), the end of the lug 4 is caught by a protruding object such as a curbstone. Can be avoided. The elastic crawler belt 1 can reduce the fatigue of the elastic body by reducing the chance that the lug 4 bends, and can prevent damage such as cracks of the elastic body and breakage resulting therefrom.

Similarly, when the crawler type traveling vehicle moves backward by the rear side surface 20 provided on the opposite side of the circulation direction Cd in the vicinity of the width direction end of the lug 4, the elastic crawler belt 1 is attached to the protrusion such as a curb stone. It is possible to avoid the bending of the lug 4 due to the end of the hook being caught.
In the elastic crawler belt 1, the inclination of the front side surface 15 and the rear side surface 20 near the end in the width direction of the lug 4 is gentle, and the angle between these and the ground contact surface 17 is large. Therefore, the elastic crawler belt 1 has a larger cross-sectional area in the vicinity of the intersection line 19 than a conventional elastic crawler with a steep slope such as the front side surface. The elastic crawler belt 1 has a tensile stress generated in the vicinity of the intersection 19 of the lug 4 when the end portion in the width direction of the lug 4 is bent to the inner peripheral side due to the elastic crawler belt 1 riding on a protrusion or the like. And the end of the lug 4 is less likely to crack.

The elastic crawler belt 1 can reduce fatigue due to bending of the lug 4 near the end in the width direction when the crawler type traveling vehicle moves forward and backward, and breakage of the end in the width direction is prevented.
FIG. 3 is a view of another elastic crawler belt 1B as seen from the outer peripheral side, and FIG. 4 is a cross-sectional view of the lug 4B in FIG.
The elastic crawler belt 1B includes a crawler belt body 2, core bars 3, 3, 3, 3 and lugs 4B,. The crawler belt main body 2 and the core bars 3, 3, 3, 3 in the elastic crawler belt 1B are the same as those in the elastic crawler belt 1 described above, and the description thereof is omitted.

As with the lugs 4 in the elastic crawler belt 1, the lugs 4B are alternately arranged in a staggered manner on both sides in the width direction of the elastic crawler belt 1B starting from the lateral vicinity of the engagement hole 12 in the width direction.
The lug 4B has a side surface 16 and a front side surface 15 having the same configuration as the side surface 16 and the front side surface 15 on the circulation direction Cd side of the lug 4 of the elastic crawler belt 1, respectively. Parts of the lug 4B having substantially the same configuration as the lug 4 of the elastic crawler belt 1 are given the same reference numerals as those of the elastic crawler belt 1 in FIGS. 3 and 4 and their description is omitted.

The lug 4 includes a central portion 13 and an inclined portion 14B. The central portion 13 is the same as the central portion 13 in the lug 4 described above.
The lug 4B has a rear side surface 20B that is distinguished from the inner side surface 22 at a portion corresponding to a corner (corner) opposite to the circulation direction Cd side at the end in the width direction of the inclined portion 14B.
The rear side surface 20B has a root (intersection line 21) continuous with the crawler belt main body 2 extending in the width direction and expanding toward the ground contact surface 17 while maintaining a substantially flat surface. That is, the rear side surface 20B is a substantially flat surface that is inclined at a predetermined angle (inclination angle θ3) with respect to a two-dimensional space (plane) defined by the circumferential direction and the width direction (see FIG. 4) and extends in the width direction. is there. The inclination angle θ3 of the rear side surface 20B in the lug 4B is designed to be 45 degrees or less in any part.

In the elastic crawler belt 1B, the end of the lug 4B is caught by a protruding object such as a curb when the crawler type traveling vehicle moves backward by the rear side surface 20B provided on the opposite side of the circulation direction Cd in the vicinity of the width direction end of the lug 4B. It is possible to avoid bending of the lug 4B.
Therefore, like the elastic crawler belt 1, the elastic crawler belt 1B can reduce the fatigue of bending of the lug 4B near the end in the width direction when the crawler type traveling vehicle moves forward and backward. Damage to the end of the direction is prevented.

In the above-described embodiment, the lugs 4 and 4B of the elastic crawler belts 1 and 1B do not have the central portion 13 and all of the lugs 4 and 4B in the circumferential direction from the starting point near the side of the engagement hole 12 toward the end in the width direction. You may form in the inclined part which inclines.
In addition, each structure of elastic crawler belts 1 and 1B and elastic crawler belts 1 and 1B, or the whole structure, shape, size, number, material, and the like can be appropriately changed in accordance with the spirit of the present invention.

  The present invention can be used for an elastic crawler with a mandrel embedded in a crawler type traveling vehicle.

1, 1B elastic crawler belt 3 cored bar 4, 4B lug 15 front side surface 19 (intersection of front side surface and grounding surface) intersecting line 20, 20B end side part including rear side in width direction facing one side (rear side surface) )
θ1 (front side surface) inclination angle θ2 (end side portion including the widthwise end of the side surface facing one side)

Claims (5)

Inclined to one side of the circumferential direction the crawler body inwardly to the starting point end side portion of the whole or the width direction of the width direction of the crawler body is opposite to the direction of circulation during advancement of the crawler traveling vehicle And an elastic crawler belt comprising a plurality of cored bars embedded in the crawler belt main body with an interval in the circumferential direction .
The lug is
A side surface facing one side of the circumferential direction is inclined to the other side of the circumferential direction, and a side surface facing the other side of the circumferential direction is inclined to one side of the circumferential direction and protrudes and protruded end surface The width in the circumferential direction on the ground contact surface is gradually reduced from the center side to the end side in the width direction,
The side surface of the lug facing the one side at the inclined portion extending inclined to the one side in the circumferential direction ,
The end side of the portion including the end of the width direction, a plane which slopes gently against the flat surface that will be defined by the circumferential direction and the width direction as compared with the portion except the portion of the end side Form an intersection line that intersects the ground plane and extends in the width direction,
A side surface of the lug facing the other side at an inclined portion extending inclined to the one side in the circumferential direction ,
An end portion including the end in the width direction is gently inclined with respect to a plane defined by the circumferential direction and the width direction as compared to a portion excluding the end portion , and in the width direction, An elastic crawler belt occupying a range more than twice the distance between the tip of the core metal and the end of the elastic crawler belt. End side of the portion including the end of the width direction of the side facing the front SL one side of,
Wherein forming a line of intersection extending in front Symbol width direction on the base of the track body, twisted gradually to face the widthwise outward due to toward the projecting end
The elastic crawler belt according to claim 1 . The end-side portion including the end in the width direction on the side surface facing the one side and the end-side portion including the end in the width direction on the side surface facing the other side are both the circumferential direction and the width. The elastic crawler belt according to claim 1 or 2, wherein an inclination angle with respect to a plane defined by the direction is 45 degrees or less . When looking at the lug from the ground plane side,
The end-side portion including the end in the width direction on the side surface facing the other side,
The line of intersection with the ground plane is a straight line inclined at an angle θa with respect to the width direction, and the root of the crawler belt body is a straight line inclined at an angle θb with respect to the width direction,
The elastic crawler belt according to any one of claims 1 to 3, wherein the angle θb is smaller than the angle θa . When viewed from the ground plane side,
An end side including an end in the width direction on a side surface facing the other side, or an end side portion including the width direction end on a side surface facing the one side, an end portion in the width direction of the cored bar The elastic crawler belt according to any one of claims 1 to 4, wherein the elastic crawler belt is formed so as to overlap with the portion in the circumferential direction .