JP2020093698A - Elastic crawler and crawler travelling device - Google Patents

Abstract

To provide a novel elastic crawler having excellent durability, and to provide a crawler travelling device.SOLUTION: An elastic crawler 1A includes: a crawler body 2 formed into an endless belt shape and made of an elastic material; a protrusion 3 arranged at an inner peripheral surface 21 of the crawler body 2 and including an elastic material; and a swollen part 311 extending in a crawler width direction from a proximal part of the protrusion 3 and made of a resin material. A crawler travelling device 100 includes the elastic crawler 1A and a rotor 130.SELECTED DRAWING: Figure 5A

Description

The present invention relates to an elastic crawler and a crawler traveling device.

As a conventional elastic crawler, a rubber protrusion is disposed on the inner peripheral surface of the crawler body and a resin is attached to the rubber protrusion for the purpose of coping with contact with a rotating body such as a rolling wheel around which the elastic crawler is wound. There is a rubber crawler in which a member (low wear member) is embedded (for example, refer to Patent Document 1).

JP 2004-306651 A

However, since the rubber crawler described in Patent Document 1 can contact the rubber projections together with the resin member, the durability of the projections arranged on the inner peripheral surface of the crawler body and the durability of the elastic crawler are still maintained. There is room for improvement in sex.

An object of the present invention is to provide a novel elastic crawler having excellent durability and a crawler traveling device including the elastic crawler.

An elastic crawler according to the present invention is an elastic crawler, which is formed in an endless belt shape and includes a crawler main body made of an elastic material, and a protrusion including an elastic material arranged on an inner peripheral surface of the crawler main body. A bulging portion made of a resin material and extending in the crawler width direction from the base of the protrusion. In the elastic crawler according to the present invention, the base of the protrusion means a portion of a region from the lowermost end of the protrusion to an arbitrary height. In other words, the height of the base portion is the height of the bulging portion. The elastic crawler according to the present invention is a novel elastic crawler having excellent durability.

In the elastic crawler according to the present invention, the protrusion includes a resin member, and the resin member includes the bulging portion and a crawler width direction side wall portion connected to the bulging portion, and the resin member includes: The crawler width direction side wall portion preferably constitutes a crawler width direction side wall portion of the protrusion. In this case, it is possible to improve the durability of the protrusion as well as the bulging portion, and thus the durability of the elastic crawler.

In the elastic crawler according to the present invention, the resin member includes a top wall portion connected to the crawler width direction side wall portion of the resin member, and the top wall portion of the resin member is a top wall portion of the protrusion. It is preferably configured. In this case, the durability of the protrusion together with the resin member, and thus the durability of the elastic crawler, can be further improved.

Further, in the elastic crawler according to the present invention, the other side with which the bulging portion can come into contact can be the main body of the rotating body. In this case, the durability of the protrusion, and thus the elastic crawler, can be further improved.

Further, in the elastic crawler according to the present invention, the other side with which the bulging portion can come into contact may be a covering portion provided on the outer peripheral surface of the main body of the rotating body. In this case, it is possible to further improve the durability of the bulging portion, and thus the elastic crawler.

Further, in the elastic crawler according to the present invention, the shape of the crawler circumferential direction lower end corner surface arranged between the crawler circumferential direction side surface of the bulging portion and the lowermost end of the bulging portion, when viewed in the crawler width direction, It may be an outwardly convex curve. In this case, the durability of the crawler body, and eventually the elastic crawler, can be further improved.

A crawler traveling device according to the present invention includes any of the elastic crawlers described above, and a rotating body around which the elastic crawler is wound. According to the crawler traveling device of the present invention, a novel elastic crawler having excellent durability while having a bulge extending in the crawler width direction from a protrusion arranged on the inner peripheral surface of the crawler body is provided. It becomes a crawler traveling device.

According to the present invention, it is possible to provide a novel elastic crawler having excellent durability and a crawler traveling device including the elastic crawler.

1 is a side view schematically showing an example of a crawler traveling device to which an elastic crawler according to an embodiment of the present invention can be applied. It is a perspective view showing an elastic crawler concerning one embodiment of the present invention in a partial section. It is a partial top view which expands and shows the inner peripheral surface of the elastic crawler of FIG. FIG. 4 is a sectional view taken along line AA of FIG. 3. FIG. 4 is a sectional view taken along line BB of FIG. 3. It is an expanded sectional view of Drawing 5A. It is a top view which shows the other example of the resin member applicable to the protrusion which concerns on the elastic crawler of FIG. FIG. 4 is a cross-sectional view of a main part schematically showing another example of the protrusion that can be adopted in the elastic crawler of FIG. 1 in a cross section corresponding to the BB cross section of FIG. 3. FIG. 4 is a cross-sectional view of a main part schematically showing another example of the protrusion that can be adopted in the elastic crawler of FIG. 1 in a cross section corresponding to the BB cross section of FIG. 3. It is a side view which shows schematically an example of the resin member which comprises a part of protrusion of the elastic crawler of FIG. FIG. 9B is a side view showing an example of a protrusion formed on the crawler body using the resin member of FIG. 9A. FIG. 9B is a side view showing another example of the protrusion formed on the crawler body using the resin member of FIG. 9A. It is a side view which shows schematically the other example of the resin member which comprises a part of protrusion of the elastic crawler of FIG. It is a side view which shows an example of the protrusion formed in the crawler main body using the resin member of FIG. 10A. It is a side view which shows the other example of the protrusion formed in the crawler main body using the resin member of FIG. 10A.

Hereinafter, elastic crawlers according to various embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a side view schematically showing an example of a crawler traveling device 100 to which an elastic crawler 1A according to an embodiment of the present invention can be applied. The crawler traveling device 100 is used by being mounted on, for example, an agricultural machine (tractor, combine, etc.), a construction machine (mini excavator, etc.) and the like.

In this example, the crawler traveling device 100 includes a drive wheel (sprocket) 110, a driven wheel (idler) 120, and a roller wheel 130, which are rotary members attached to a vehicle (not shown). Is. In this example, the drive wheels 110 are cage sprockets. The cage sprocket has a plurality of pins 110P arranged at the same pitch around the rotation axis O. Further, in this example, the crawler traveling device 100 includes two driven wheels 120 and three rolling wheels 130, but these can be changed according to the configuration of the crawler traveling device 100. .. That is, each of the driving wheel 110, the driven wheel 120, and the rolling wheel 130 can be at least one. Further, in the crawler traveling device 100 of the present example, the pin 110P is configured in a columnar shape extending in the crawler width direction, but the configuration of the pin 110P can be appropriately changed.

In addition, the crawler traveling device 100 includes the elastic crawler 1A according to this embodiment. The elastic crawler 1A is wound around the drive wheel 110, the driven wheel 120, and the rolling wheel 130. The elastic crawler 1</b>A is formed in an endless band shape, and is arranged on the outer peripheral surface of the crawler main body 2, the crawler main body 2 made of an elastic material, the protrusion 3 including the elastic material arranged on the inner peripheral surface of the crawler main body 2. And a lug 4 made of an elastic material. In this example, the elastic materials are all rubber. The protrusion 3 and the lug 4 can be integrally molded with the crawler body 2 and can be vulcanized and bonded to the crawler body 2.

FIG. 2 shows the elastic crawler 1A in a partial cross section. In the present specification, the “crawler inner circumferential side”, “crawler outer circumferential side”, “crawler circumferential direction”, “crawler width direction”, and “crawler thickness direction” refer to the inner circumferential side and outer circumferential side of the crawler body 2, respectively. Side, circumferential direction, width direction, thickness direction. In the figures, for convenience, the circumferential direction is indicated by arrow CD, the width direction is indicated by arrow WD, and the thickness direction is indicated by arrow TD.

The elastic crawler 1A according to this embodiment is a coreless rubber crawler. In the present embodiment, the crawler main body 2 includes a steel cord layer 5 embedded inside the crawler main body 2 and one or a plurality of layers (three layers in the illustrated example) of a reinforcing ply 6.

As shown in FIG. 2, the plurality of protrusions 3 respectively protrude from the inner peripheral surface 21 of the crawler body 2 toward the inner peripheral side of the crawler. The plurality of protrusions 3 are arranged at regular intervals in the crawler circumferential direction. In the present embodiment, each of the protrusions 3 is arranged at the center of the crawler body 2 in the crawler width direction. In this embodiment, the inner peripheral surface 11 of the elastic crawler 1A is composed of the inner peripheral surface 21 of the crawler body 2 and the surface of the protrusion 3.

Each of the plurality of lugs 4 projects from the outer peripheral surface 22 of the crawler body 2 to the crawler outer peripheral side. The shape and the arrangement of the lug 4 are not limited to those shown in each figure, and any shape and arrangement can be adopted. In this embodiment, the outer peripheral surface 12 of the elastic crawler 1A is composed of the outer peripheral surface 22 of the crawler body 2 and the surface of each lug 4.

Each of the steel cord layers 5 is composed of a plurality of steel cords 5a extending parallel to the crawler circumferential direction. Each reinforcing ply 6 is arranged closer to the outer circumference of the crawler than the steel cord layer 5. The reinforcing ply 6 includes, for example, a plurality of cords that are inclined with respect to the crawler circumferential direction. Further, the reinforcing ply 6 can be omitted.

FIG. 3 shows an enlarged inner peripheral surface 11 of the elastic crawler 1A. As shown in FIG. 3, in the present embodiment, the protrusion 3 includes a top surface 3a and a side surface 3b. The top surface 3a is an end surface of the outer surface of the protrusion 3 that is located on the crawler inner peripheral side of the protrusion 3. The side surface 3b is an outer surface of the protrusion 3 other than the top surface 3a. In the present embodiment, the side surface 3b is configured by a crawler width direction side surface (crawler width direction side surface of the protrusion 3) 3b1 and a crawler circumferential direction side surface (crawler circumferential direction side surface of the protrusion 3) 3b2. In the present embodiment, rolling wheel passage surfaces 11a, which will be described later, are provided outside the protrusions 3 in the crawler width direction. The rolling wheel passage surfaces 11 a are provided on the inner peripheral surface 21 of the crawler body 2, respectively.

FIG. 4 is a sectional view taken along line AA of FIG. In FIG. 4, the elastic crawler 1A is shown in a cross section including the crawler thickness direction along the crawler circumferential direction. The crawler traveling device 100 of FIG. 1 is configured as a traveling device for a tractor. When the drive wheel 110 rotates about the rotation axis O as shown by an arrow D in FIG. 1, each pin 110P is crawled on the protrusion 3 of the elastic crawler 1A corresponding to the pin 110P as shown in FIG. It is configured to sequentially contact the circumferential side surface 3b2. The protrusion 3 has a function of transmitting the driving force from the pin 110P to the crawler body 2 when the pin 110P of the drive wheel 110 contacts the crawler circumferential side surface 3b2 of the protrusion 3.

5A is a sectional view taken along line BB of FIG. In FIG. 5A, the elastic crawler 1A is shown in a section including the crawler thickness direction along the crawler width direction. As shown in FIG. 5A, in the crawler traveling device 100 of the present example, the rolling wheels 130 include two main body portions 131 that are arranged at intervals in the crawler width direction, and a connecting shaft 132 that connects the main body portions 131. Further, the outer peripheral surface of the main body 131 is covered with a cover 133 made of an elastic material. In the crawler traveling device 100 of the present example, each of the rollers 130 is configured to roll on the roller passage surface 11a (FIGS. 3 and 5A). That is, the elastic crawler 1A is configured to pass over the rolling wheels 130 during traveling.

In addition, in the crawler traveling device 100 of this example, the protrusions 3 of the elastic crawler 1A are configured to be arranged inside the two main body portions 131 in the crawler width direction. The protrusion 3 has a function of guiding the rolling wheels 130 in the crawler width direction by the crawler width direction side surface 3b1 of the protrusion 3. As a result, the derailment of the elastic crawler 1A (the elastic crawler 1A is disengaged from the rotating body such as the rolling wheel 130) is suppressed. In addition, in this example, the driven wheel 120 is also configured in the same manner as the wheel 130. As a result, the removal of the elastic crawler 1 from the drive wheel 110 or the driven wheel 120 is also suppressed. The elastic crawler 1A according to the present embodiment can be adopted in a crawler traveling device having an arbitrary configuration different from the crawler traveling device 100 shown in FIG.

In the elastic crawler 1A according to this embodiment, the protrusion 3 includes a resin member 31 and an elastic protrusion 32. The elastic protrusion 32 is an elastic protrusion provided on the inner peripheral surface 21 of the crawler body 2. The elastic projections 32 are arranged at regular intervals in the crawler circumferential direction. In the present embodiment, the elastic protrusion 32 projects from the inner peripheral surface 21 of the crawler body 2 toward the inner peripheral side of the crawler.

In the elastic crawler 1A according to the present embodiment, the elastic protrusion 32 is a rubber protrusion made of rubber that absorbs an external impact. On the other hand, the resin member 31 is provided to reinforce the elastic protrusions 32 and to prevent the elastic protrusions 32 from being worn or damaged. Examples of the resin material forming the resin member 31 include a resin material having higher rigidity (for example, strength) and a lower friction coefficient than the rubber material forming the elastic protrusions 32. In the present embodiment, the protrusion 3 is formed, for example, by adhering the resin member 31 to the elastic protrusion 32, or by molding the elastic protrusion 32 with unvulcanized rubber using the resin member 31 as an insert. Can be formed.

The elastic crawler 1A according to the present embodiment includes a bulging portion 311 extending from the base portion 30 of the protrusion 3 in the crawler width direction. The bulging portion 311 is a stopper that can contact the rotating body around which the elastic crawler 1A is wound.

As shown in FIG. 5B, in the elastic crawler 1A according to the present embodiment, the base portion 30 of the protrusion 3 refers to a portion of a region from the lowermost end 3e of the protrusion 3 to an arbitrary height h1. In other words, the height h1 of the base portion 30 of the protrusion 3 is the height of the bulging portion 311 (hereinafter, also referred to as “height h1 of the bulging portion 311”). As shown in FIG. 5B, the height h1 of the bulging portion 311 is the height in the crawler thickness direction. In the present embodiment, the height h1 of the bulging portion 311 is the height from the lowermost end 3e of the protrusion 3. Here, the lowermost end 3e of the protrusion 3 is a boundary surface between the protrusion 3 and the crawler body 2. As shown by broken lines in FIG. 5B and the like, in the present embodiment, the lowermost end 3e of the protrusion 3 is a virtual coupling surface of the protrusion 3 that matches the inner peripheral surface 21 of the crawler body 2.

The height h1 of the bulging portion 311 is, for example, the diameter of the rotating body such as the rolling wheel 130, the thickness of the covering portion 133, the size of the protrusion 3 occupying the crawler body 2, the rotating body, and the elastic crawler. It can be appropriately set according to the dimensional standard of the part, the application of the elastic crawler 1A, and the like. For example, the height h1 of the bulging portion 311 can be set to a ratio in the range of 40 to 50 mm with respect to the height H of the protrusion 3 (see FIG. 5A). Specific examples of the height h1 of the bulging portion 311 include 10 to 20 mm. A specific example of the length W of the bulging portion 311 in the crawler width direction is 10 to 20 mm. Further, the height h1 of the bulging portion 311 can be set by the relationship between the main body portion 131 of the roller 130 and the covering portion 133.

In the elastic crawler 1A according to this embodiment, the bulging portion 311 has a top surface 311a having a height h1. As shown in FIG. 5B, in the present embodiment, the crawler width direction side surface 311b1 of the bulging portion 311 is connected to the crawler width direction outer end edge of the top surface 311a of the bulging portion 311. In the present embodiment, the crawler width direction side surface 311b1 of the bulging portion 311 is a stopper surface that can contact the crawler width direction side surface 130b1 of the rolling wheel 130. In the present embodiment, the crawler width direction side surface 130b1 of the rolling wheel 130 includes the crawler width direction side surface 131b1 of the main body 131 and the crawler width direction side surface 133b1 of the covering portion 133.

In the elastic crawler 1</b>A according to this embodiment, the other side with which the bulging portion (stopper) 311 can come into contact is the main body portion 131 of the rolling wheel 130. As shown in FIG. 5B, in this embodiment, the height h1 of the bulging portion 311 is higher than the height h2 of the covering portion 133. As a result, the other side with which the bulging portion 311 can contact becomes the main body portion 131 of the rolling wheel 130. In the present embodiment, for example, the side surface 311b1 of the bulging portion 311 in the crawler width direction can function as a stopper surface in the crawler width direction. On the other hand, as a counterpart stopper surface with which the bulging portion 311 can come into contact, for example, a crawler width direction side surface of the main body portion 131 (hereinafter, referred to as “main body portion”, which is arranged inside the main body portion 131 in the crawler width direction. It is also referred to as the “side surface of 131 in the crawler width direction”.) 131b1 can function as a stopper surface on the other side.

In the elastic crawler 1A according to the present embodiment, the crawler width direction inner side surface 131b1 of the main body 131 is substantially parallel to the crawler width direction side surface 311b1 of the bulging portion 311. In the present embodiment, the inclination angle of the crawler width direction side surface 311b1 of the bulging portion 311 with respect to the wheel passing surface 11a is A1 (0°<A1<180°), and the crawler width direction inner side surface 131b1 of the main body 131 is When the inclination angle with respect to the wheel passing surface 11a is A2 (0°<A2<180°), the inclination angle A1 and the inclination angle A2 are the same. However, the tilt angle A1 and the tilt angle A2 may be different angles.

According to the elastic crawler 1A of the present embodiment, since the bulging portion 311 extends in the crawler width direction from the base portion 30 of the protrusion 3, as shown in FIG. 5B, the crawler width direction side surface of the bulging portion 311. 311b1 is arranged at a position outside the crawler width direction side surface 3b1 of the protrusion 3 in the crawler width direction. Therefore, for example, even if the rolling wheel 130 approaches the projection 3, the rolling wheel 130, for example, the crawler width direction inner side surface 133b1 of the covering portion 133, becomes the projection 3, for example, the crawler width direction side surface 3b1 of the projection 3. Prior to contacting the bulging portion 311, for example, the crawler width direction side surface 311b1 of the bulging portion 311. As a result, according to the elastic crawler 1A of the present embodiment, it is possible to prevent the wheel 130 from coming into contact with the side surface 3b of the protrusion 3, for example, the side surface 3b1 of the protrusion 3 in the crawler width direction. Therefore, according to the elastic crawler 1A of the present embodiment, it is possible to improve the durability of the protrusions 3 arranged on the crawler body 2, and thus the elastic crawler.

Further, as shown in FIG. 5B, according to the elastic crawler 1A of the present embodiment, the bulging portion 311 extends in the crawler thickness direction from the base portion 30 of the protrusion 3, that is, the lowermost end 3e of the protrusion 3. By being present, it can be fixed to the crawler body 2 or can be brought into contact with the crawler body 2. For this reason, even when the wheel 130 contacts the bulging portion 311, the bulging portion 311 is held by the crawler body 2, so that the possibility of damage that may occur in the bulging portion 3 is greatly suppressed. be able to. Therefore, according to the elastic crawler 1A of the present embodiment, it is possible to improve the durability of the bulging portion 311 that protects the protrusion 3 and thus the elastic crawler. In addition, according to the elastic crawler 1A of the present embodiment, since the bulging portion 311 is made of resin, it is possible to improve the durability of the bulging portion 311 as compared with the case where the bulging portion 311 is made of rubber. You can

As is clear from the above, according to the elastic crawler 1A of this embodiment, the elastic crawler 1A is provided with the bulging portion 311 extending in the crawler width direction from the protrusion 3 arranged on the inner peripheral surface 21 of the crawler body 2. Thus, the contact with the elastic protrusion 32 is prevented, the durability of the protrusion 3 is excellent, and the bulging portion 311 is not damaged, and the durability of the bulging portion 311 is excellent. Therefore, the elastic crawler 1A according to the present embodiment is a novel elastic crawler having excellent durability.

By the way, the main body 131 of the wheel 130 is generally made of a material harder than the elastic protrusion 32 of the protrusion 3, for example, metal. For this reason, it is preferable that the possibility that the main body 131 of the hard wheel 130 contacts the protrusion 3, for example, the side surface 3b1 of the protrusion 3 in the crawler width direction, is suppressed as low as possible.

On the other hand, in the elastic crawler 1A according to the present embodiment, the other side with which the bulging portion 311 can contact is the main body portion 131 of the rolling wheel 130. In this case, even if the roller 130 approaches the protrusion 3, the bulging portion 311, for example, the side surface 311b1 in the crawler width direction of the bulging portion 311 becomes the side surface of the protrusion 3, for example, the side surface 3b1 in the crawler width direction of the protrusion 3. Prior to this, the main body 131 of the roller 130, for example, the inner side surface 131b1 of the main body 131 in the crawler width direction is brought into contact with the main body 131. Accordingly, in this embodiment, it is possible to prevent the main body portion 131 of the wheel 130 from coming into contact with the side surface 3b of the protrusion 3, for example, the side surface 3b1 of the protrusion 3 in the crawler width direction. Therefore, according to the present embodiment, it is possible to further improve the durability of the protrusions 3 arranged on the crawler body 2, and by extension, the elastic crawler 1A. In addition, in this embodiment, the height H of the protrusion 3 is H=62 mm. In this case, the height h1 of the bulging portion 311 is 10 mm higher than the height h2 of the covering portion 133.

In addition, according to the elastic crawler 1A of the present embodiment, as another example, the mating side with which the bulging portion (stopper) 311 can come in contact with the elastic crawler is provided on the outer peripheral surface of the main body 131 of the roller 130. The covering portion 133 made of a material can be used. In this example, the height h1 of the bulging portion 311 is higher than the height h2 of the covering portion 133. As a result, the other side with which the bulging portion 311 can come into contact is the covering portion 133 made of an elastic material. When examined with reference to FIG. 5B, in this example, for example, the crawler width direction side surface 311b1 of the bulging portion 311 can function as a crawler width direction stopper surface. On the other hand, as a mating stopper surface with which the bulging portion 311 can come into contact, for example, a crawler width-direction side surface of the covering portion 133 (hereinafter referred to as “covering portion”, which is arranged inside the covering portion 133 in the crawler width direction). Also referred to as the “side surface of the crawler in the crawler width direction”.) 133b1 can function as a stopper surface on the other side.

Even when the covering portion 133 of the rolling wheel 130 is the other side with which the bulging portion 311 can contact, the crawler width direction inner side surface 133b1 of the covering portion 133 is substantially parallel to the crawler width direction side surface 311b1 of the bulging portion 311. Can be a face. For example, when the inclination angle of the crawler width direction inner side surface 133b1 of the covering portion 133 with respect to the wheel passing surface 11a is A3 (0°<A3<180°), the inclination angle A1 and the inclination angle A3 are the same angle. However, the tilt angle A1 and the tilt angle A3 can also be different angles.

When the covering part 133 provided on the outer peripheral surface of the main body 131 of the rolling wheel 130 is the other side to which the bulging part 311 can come into contact, even if the rolling wheel 130 approaches the protrusion 3, the bulging part 311 is Instead of contacting the main body 131 of the roller 130, the cover 133 made of an elastic material comes into contact. The covering portion 133 of the roller 130 is generally made of a softer material than the main body 131 of the roller 130, for example, rubber. That is, when the rolling wheel 130 approaches the protrusion 3, the bulging portion 311 comes into contact with the covering portion 133 that is softer than the main body portion 131 of the rolling wheel 130. Therefore, in this example, it is possible to improve the durability of the bulging portion 311 and thus the elastic crawler 1A.

By the way, in the elastic crawler 1A according to the present embodiment, one resin member 31 is embedded in each elastic protrusion 32. In this embodiment, the outer surface of the resin member 31 constitutes the outer surface of the protrusion 3.

Specifically, as shown in FIG. 5A, in the elastic crawler 1A according to this embodiment, the bulging portion 311 is configured as a part of the resin member 31. That is, in this embodiment, the resin member 31 includes the bulging portion 311. In the present embodiment, the resin member 31 includes two bulging portions 311 and the two bulging portions 311 are arranged at intervals in the crawler width direction. In this embodiment, the bulging portion 311 is fixed to the inner peripheral surface 21 of the crawler body 2. As shown in FIG. 5B, in the present embodiment, the lowermost end 311e of the bulging portion 311 coincides with the inner peripheral surface 21 of the crawler body 2.

Further, as shown in FIG. 5A and the like, in the elastic crawler 1A according to the present embodiment, a part of the resin member 31 is exposed on the crawler width direction side surface 3b1 of the protrusion 3 and the crawler width direction side surface 3b1 of the protrusion 3 is exposed. I am configuring.

In the elastic crawler 1A according to the present embodiment, the resin member 31 includes the crawler width direction side wall portion 312 arranged in the crawler width direction. In the present embodiment, the resin member 31 includes two crawler width direction side wall portions 312, and the two crawler width direction side wall portions 312 are arranged at intervals in the crawler width direction. As shown in FIG. 5B, the crawler width direction side wall portion 312 of the resin member 31 constitutes the crawler width direction side wall portion of the projection 3 and is connected to the bulge portion 311.

In the elastic crawler 1A according to the present embodiment, the crawler width direction side wall portion 312 of the resin member 31 is fixed to the crawler width direction side surface 32b1 of the elastic protrusion 32. In the present embodiment, the crawler width direction side wall portions 312 of the resin member 31 are bonded or embedded in the crawler width direction side surfaces 32b1 of the elastic protrusions 32, respectively. That is, in the present embodiment, the crawler width direction side surface 312b1 of the crawler width direction side wall portion 312 of the resin member 31 is exposed to the crawler width direction side surface 3b1 of the protrusion 3 as a part of the resin member 31, and the crawler of the protrusion 3 is exposed. The width direction side surface 3b1 is configured. The crawler width direction side wall portion 312 of the resin member 31 can prevent the roller wheel 130 from contacting the crawler width direction side surface 32b1 of the elastic protrusion 32. In this way, by making the crawler width direction side wall portion 312 of the resin member 31 the crawler width direction side wall portion of the protrusion 3, the durability of the protrusion 3 can be further improved.

Further, as shown in FIG. 5A and the like, in the elastic crawler 1A according to the present embodiment, the other part of the resin member 31 is exposed at the top surface 3a of the protrusion 3 and constitutes the top surface 3a of the protrusion 3. ing.

In the elastic crawler 1A according to the present embodiment, the resin member 31 includes the top wall portion 313 arranged on the inner peripheral side of the crawler. As shown in FIG. 5A, the top wall portion 313 of the resin member 31 constitutes the top wall portion of the protrusion 3 and is connected to the crawler width direction side wall portion 312 of the resin member 31. In the present embodiment, the top wall portion 313 of the resin member 31 has two crawler width direction end edges, and the crawler width direction side wall portion 312 of the resin member 31 is connected to each of the crawler width direction end edges. ..

In the elastic crawler 1A according to this embodiment, the top wall portion 313 of the resin member 31 is fixed to the top surface 32a of the elastic protrusion 32. In the present embodiment, the top wall portion 313 of the resin member 31 is bonded or embedded in the top surface 32 a of the elastic protrusion 32. That is, in the present embodiment, the top surface 313a of the top wall portion 313 of the resin member 31 is exposed to the top surface 3a of the protrusion 3 as another part of the resin member 31, and the top surface 3a of the protrusion 3 is configured. doing. The top wall portion 313 of the resin member 31 can prevent the rolling wheel 130 from coming into contact with the top surface 32 a of the elastic protrusion 32. Thus, by using the top wall portion 313 of the resin member 31 as the top wall portion of the protrusion 3, the durability of the protrusion 3 can be further improved.

In addition, as shown in FIG. 4, in the elastic crawler 1A according to the present embodiment, still another part of the resin member 31 is exposed on the crawler circumferential side surface 3b2 of the projection 3, and the crawler circumferential direction of the projection 3 is exposed. It constitutes the side surface 3b2.

In the elastic crawler 1A according to the present embodiment, the resin member 31 includes the crawler circumferential side wall portion 314 arranged in the crawler circumferential direction. In this embodiment, the resin member 31 includes two crawler circumferential side wall portions 314 sandwiching the elastic protrusion 32, and the two crawler circumferential side wall portions 314 are arranged at intervals in the crawler circumferential direction. ing. As shown in FIG. 4, the crawler circumferential side wall portion 314 of the resin member 31 constitutes the crawler circumferential side wall portion of the protrusion 3 and is connected to the top wall portion 313 of the resin member 31. In the present embodiment, the top wall portion 313 of the resin member 31 has two crawler circumferential edge portions, and the crawler circumferential side wall portion 314 of the resin member 31 is connected to each of the crawler circumferential edge portions. ..

In the elastic crawler 1A according to the present embodiment, the crawler circumferential side wall portion 314 of the resin member 31 is fixed to the crawler circumferential side surface 32b2 of the elastic protrusion 32. In the present embodiment, the crawler circumferential side wall portions 314 of the resin member 31 are bonded or embedded in the crawler circumferential side surfaces 32b2 of the elastic protrusions 32, respectively. That is, in the present embodiment, the crawler circumferential side surface 314b2 of the crawler circumferential side wall portion 314 of the resin member 31 is exposed on the crawler circumferential side surface 3b2 of the projection 3 as a part of the resin member 31, and the crawler of the projection 3 is exposed. It constitutes the circumferential side surface 3b2. The crawler circumferential side wall portion 314 of the resin member 31 can prevent the rolling wheel 130 from contacting the crawler circumferential side surface 32b2 of the elastic protrusion 32. In this way, by making the crawler circumferential side wall portion 314 of the resin member 31 the crawler circumferential side wall portion of the protrusion 3, the durability of the protrusion 3 can be further improved.

Further, as shown in FIG. 3, in the elastic crawler 1A according to the present embodiment, the bulging portion 311 is connected to the crawler width direction side wall portion 312 of the resin member 31. In this embodiment, the top surface 311a of the bulging portion 311 is connected to the crawler width direction side surface 312b1 of the crawler width direction side wall portion 312 of the resin member 31. In this case, as shown in FIG. 3, between the top surface 311a of the bulging portion 311 and the crawler width direction side surface 312b1 of the resin member 31, the crawler circumferential direction end edge of the protrusion 3 extending in the crawler circumferential direction is provided. A crawler circumferential ridge 31L1 extending in the circumferential direction is formed. In this way, if at least one of the crawler width direction side wall portions 312 of the resin member 31 and the bulging portion 311 are connected and configured as a part of the resin member 31 which is one rigid body, for example, the bulging portion The force that 311 receives from the crawler width direction by the rolling wheels 130 and the like can be received by the crawler width direction side wall portion 312, and further, the rolling wheels 130 can be prevented from contacting the crawler width direction side surface 32b1 of the elastic projection 32. it can. By thus connecting the bulging portion 311 to the crawler width direction side wall portion 312 of the resin member 31, it is possible to further improve the durability of the protrusion 3 together with the bulging portion 311.

Therefore, like the elastic crawler 1A according to the present embodiment, the bulging portion 311 is connected to the crawler width direction side wall portion 312 of the resin member 31, and the crawler width direction side wall portion 312 of the resin member 31 is connected to the crawler width direction of the protrusion 3. If configured as a side wall portion, it is possible to improve the durability of the protrusion 3 and the bulging portion 311 and thus the durability of the elastic crawler 1A.

As shown in FIG. 3, in the elastic crawler 1A according to the present embodiment, the crawler thickness between the crawler width direction side surface 311b1 of the bulging portion 311 and the crawler circumferential side surface 311b2 of the bulging portion 311. The crawler width direction corner 311c of the bulging portion 311 is formed in a curve that is outwardly convex when viewed in a direction. In the present embodiment, the convex curve of the crawler width direction corner 311c of the bulge 311 is formed with a radius of curvature r. Further, as shown in FIG. 3, in the present embodiment, the crawler circumferential side surface 311b2 of the bulging portion 311 corresponds to the crawler circumferential side surface 314b2 of the crawler circumferential side wall portion 314 of the resin member 31 when viewed in the crawler thickness direction. Match. In the present embodiment, the crawler circumferential side surface 311b2 of the bulging portion 311 and the crawler circumferential side surface 314b2 of the resin member 31 extend in the crawler width direction.

Further, as shown in FIG. 3, in the elastic crawler 1A according to the present embodiment, the crawler width direction side wall portion 312 of the resin member 31 is connected to the top wall portion 313. In the present embodiment, the crawler width direction side surface 312b1 of the crawler width direction side wall portion 312 of the resin member 31 is connected to the top surface 313a of the top wall portion 313 of the resin member 31. In this case, as shown in FIG. 3, between the crawler width direction side surface 312b1 of the resin member 31 and the top surface 313a of the resin member 31, as the crawler circumferential direction edge of the protrusion 3 extending in the crawler circumferential direction, A crawler circumferential ridge line 31L2 extending in the crawler circumferential direction is formed. Thus, if at least one of the crawler width direction side wall portions 312 of the resin member 31 and the top wall portion 313 of the resin member 31 are connected to each other and configured as a part of the resin member 31 that is one rigid body. For example, the top wall portion 313 of the resin member 31 can receive the force that the crawler width direction side wall portion 312 of the resin member 31 receives from the crawler width direction, and the rolling wheels 130 further include the elastic protrusions 32 in the crawler width direction. It is possible to prevent contact with the side surface 32b1 and the top surface 32a of the elastic protrusion 32. Thus, by connecting the crawler width direction side wall portion 312 of the resin member 31 to the top wall portion 313 of the resin member 31, the durability of the resin member 31 and the protrusions 3 can be further improved. In particular, if the top wall portion 313 of the resin member 31 connects the two crawler width direction side wall portions 312 of the resin member 31 arranged at intervals in the crawler width direction as in the present embodiment, For example, a force that one of the two crawler width direction side wall portions 312 of the resin member 31 receives from the crawler width direction is transmitted via the top wall portion 313 of the resin member 31 to the other crawler width direction side wall of the resin member 31. Part 312 can receive. As described above, according to the present embodiment, greater resistance to the force received from the crawler width direction can be obtained, and thus the durability of the resin member 31 and the protrusions 3 can be further improved.

Therefore, like the elastic crawler 1A according to the present embodiment, the crawler width direction side wall portion 312 of the resin member 31 is connected to the top wall portion 313 of the resin member 31, and the top wall portion 313 of the resin member 31 of the protrusion 3 is formed. If configured as the top wall portion, the durability of the protrusion 3 together with the resin member 31, and thus the durability of the elastic crawler 1A can be improved.

Similarly, as shown in FIG. 3, in the elastic crawler 1A according to the present embodiment, the crawler circumferential side wall portion 314 of the resin member 31 is connected to the top wall portion 313 of the resin member 31. In the present embodiment, the crawler circumferential side surface 314b2 of the crawler circumferential side wall portion 314 of the resin member 31 is connected to the top surface 313a of the top wall portion 313 of the resin member 31. In this case, as shown in FIG. 3, between the crawler circumferential side surface 314b2 of the resin member 31 and the top surface 313a of the resin member 31, a crawler width direction end edge of the protrusion 3 extending in the crawler width direction is formed. A crawler width direction ridgeline 31L4 extending in the width direction is formed. In this way, if at least one of the crawler circumferential direction side wall portions 314 of the resin member 31 and the top wall portion 313 of the resin member 31 are connected and configured as a part of the resin member 31 that is one rigid body, For example, the force received by the crawler circumferential side wall portion 314 of the resin member 31 from the crawler circumferential direction can be received by the top wall portion 313 of the resin member 31, and the rolling wheel 130 further has the crawler circumferential side surface of the elastic protrusion 32. It is possible to prevent 32b2 and the top surface 32a of the elastic protrusion 32 from coming into contact with each other. By thus connecting the crawler circumferential side wall portion 314 of the resin member 31 to the top wall portion 313 of the resin member 31, the durability of the resin member 31 and the protrusions 3 can be further improved. Particularly, as in the present embodiment, if the top wall portion 313 of the resin member 31 connects the two crawler circumferential side wall portions 314 of the resin member 31 arranged at intervals in the crawler circumferential direction, For example, the force that one of the two crawler circumferential side wall portions 314 of the resin member 31 receives from the crawler circumferential direction is transmitted through the top wall portion 313 of the resin member 31 to the other crawler circumferential side wall of the resin member 31. It can be received in part 314. As described above, according to the present embodiment, greater resistance to a force received from the crawler circumferential direction can be obtained, and thus the durability of the resin member 31 and the protrusion 3 can be further improved.

Therefore, like the elastic crawler 1A according to the present embodiment, the crawler circumferential side wall portion 314 of the resin member 31 is connected to the top wall portion 313 of the resin member 31, and the top wall portion 313 of the resin member 31 is connected to the protrusion 3. If configured as the top wall portion, the durability of the protrusion 3 together with the resin member 31, and thus the durability of the elastic crawler 1A can be improved.

Further, as shown in FIG. 3, in the elastic crawler 1A according to the present embodiment, the crawler width direction side wall part 312 of the resin member 31 and the crawler circumferential direction side wall part 314 of the resin member 31 are connected. In this embodiment, the crawler circumferential side surface 314b2 of the crawler circumferential side wall portion 314 of the resin member 31 is connected to the crawler width side surface 312b1 of the crawler width side wall portion 312 of the resin member 31. In this case, as shown in FIG. 3, between the crawler width direction side surface 312b1 of the resin member 31 and the crawler circumferential direction side surface 314b2 of the resin member 31, the crawler thickness direction end of the protrusion 3 extending in the crawler thickness direction. A crawler thickness direction ridge line 31L3 extending in the crawler thickness direction is formed as an edge. As described above, among at least one of the crawler width direction side wall portions 312 of the resin member 31, at least one of the crawler width direction side wall portions 312 of the resin member 31 and the crawler circumferential side of the resin member 31. If it is connected to the circumferential side wall portion 314 and configured as a part of the resin member 31 which is one rigid body, for example, the force that the crawler width direction side wall portion 312 of the resin member 31 receives from the crawler width direction is applied to the resin member. It can be received by the crawler circumferential side wall portion 314 of 31 and can further prevent the rolling wheel 130 from contacting the crawler width side surface 32b1 of the elastic protrusion 32 and the crawler circumferential side surface 32b2 of the elastic protrusion 32. By thus connecting the crawler width direction side wall portion 312 of the resin member 31 to the crawler circumferential direction side wall portion 314 of the resin member 31, it is possible to further improve the durability of the resin member 31 and the protrusions 3. In particular, if the two crawler circumferential side wall parts 314 of the resin member 31 and the two crawler width direction side wall parts 312 of the resin member 31 are connected to each other as in the present embodiment, for example, the resin The force received by one of the two crawler width direction side wall portions 312 of the member 31 from the crawler width direction is transmitted via the crawler circumferential direction side wall portion 314 of the resin member 31 to the other crawler width direction side wall portion 312 of the resin member 31. Can be received at. As described above, according to the present embodiment, greater resistance to the force received from the crawler width direction can be obtained, and thus the durability of the resin member 31 and the protrusions 3 can be further improved.

Therefore, like the elastic crawler 1A according to the present embodiment, if the crawler width direction side wall portion 312 of the resin member 31 is connected to the crawler circumferential direction side wall portion 314 of the resin member 31, durability of the protrusion 3 together with the resin member 31, As a result, the durability of the elastic crawler 1A can be improved.

By the way, in the elastic crawler 1A according to the present embodiment, the resin member 31 is configured as a covering member that covers the outer surface of the elastic protrusion 32. In this way, when the outer surface of the elastic protrusion 32 is covered with the resin member 31, when the pin 110P of the drive wheel (sprocket) 110 engages with the elastic protrusion 32, the resin member 31 rubs more than rubber. Since the coefficient is small, driving with the pin 110P is good. However, the resin member 31 is not limited to the covering member shown in FIGS.

FIG. 6 is a plan view showing another example of the resin member 31 applicable to the protrusion 3 of the elastic crawler 1A. In this example, the resin member 31 is a member in which two crawler width direction side wall parts 312 arranged at intervals in the crawler width direction are connected by a top wall part 313. In this example, the crawler circumferential side wall portion 314 of the resin member 31 is connected to a part of the crawler width direction side wall portion 312 and the top wall portion 313 of the resin member 31, and is removed at the crawler width direction central portion. .. In this case, since the resin member 31 covers the rubber (the elastic protrusion 32), the durability of the protrusion 3 is improved and the protrusion 3 can be made hard to break.

FIG. 7 is a cross-sectional view schematically showing another example of the protrusion 3 that can be adopted in the elastic crawler 1A, in a cross section corresponding to the BB cross section in FIG. In this example, the protrusion 3 is composed of only the resin member 31. Therefore, in this example, the elastic protrusion 32 is not included in the protrusion 3.

FIG. 8 is a cross-sectional view schematically showing another example of the protrusion 3 that can be adopted in the elastic crawler 1A, in a cross section corresponding to the BB cross section in FIG. In this example, the protrusion 3 has a two-layer structure including a resin member 31 and an elastic protrusion 32. In this example, the resin member 31 constitutes the lower layer portion of the protrusion 3, and the elastic protrusion 32 constitutes the upper layer portion of the protrusion 3. Specifically, the resin member 31 includes a top surface 311a, a crawler width direction side surface 311b1 and a crawler circumferential direction side surface 311b2 of the bulging portion 311, and a part of the crawler width direction side surface 3b1 and the crawler circumferential direction side surface 3b2 of the protrusion 3. The elastic projection 32 constitutes the remaining portion of the crawler width direction side surface 3b1 and the crawler circumferential direction side surface 3b2 of the projection 3 and the top surface 3a of the projection 3. In this case, the resin member 31 becomes difficult to come off from the elastic protrusion 32. This improves durability.

By the way, when the elastic crawler 1A according to the above-described embodiment and its modification is wound around the rotating body such as the rolling wheel 130, the crawler body 2 has a lower end corner of the crawler circumferential side surface 311b2 of the bulging portion 311. By bending the portion at the base point, it can be wound around the rotating body. Therefore, in the crawler body 2, stress concentration due to bending of the crawler body 2 may occur in the vicinity of the lower end corner of the crawler circumferential side surface 311b2 of the bulging portion 311. Such stress concentration affects the durability of the crawler body 2, and thus the elastic crawler 1A.

On the other hand, in the elastic crawler 1A according to the present embodiment, as shown in FIG. 9A, the crawler circumference disposed between the crawler circumferential side surface 311b2 of the bulging portion 311 and the lowermost end 311e of the bulging portion 311. The shape of the direction lower end corner surface 311d may be a curve that is outwardly convex when viewed in the crawler width direction. In this example, the lowermost end 311e of the bulging portion 311 is the lowermost end 3e of the protrusion 3. In this example, the lowermost end 311e of the bulging portion 311 is a flat surface. In this example, as shown in FIG. 9B, the lowermost end 311e of the bulging portion 311 is a virtual joint surface of the projection 3 that matches the inner peripheral surface 21 of the crawler body 2. The convex curve forming the lower end corner surface 311d in the crawler circumferential direction is formed with a radius of curvature R1. That is, in this example, the lower end 311f of the bulging portion 311 includes two crawler circumferential lower end corner surfaces 311d formed with a radius of curvature R1 and a lowermost end 311e extending in the crawler circumferential direction when viewed in the crawler width direction. It is configured.

On the other hand, the crawler main body 2 includes a convex portion 211 that projects from the inner peripheral surface 21 of the crawler main body 2 in the crawler inner peripheral direction. In this example, the convex portions 211 of the crawler body 2 are arranged at intervals in the crawler circumferential direction. Further, in this example, the convex portion 211 has a curved surface 211d that is formed by a curved line that is concave inward when viewed in the crawler width direction. The shape of the concave curved line that forms the curved surface 211d matches the shape of the lower end corner surface 311d of the bulging portion 311 in the crawler circumferential direction. In the present embodiment, the curved surface of the curved surface 211d formed by forming the convex portion 211 of the crawler body 2 is also formed by the radius of curvature R1.

On the other hand, as shown in FIG. 9C, the lower end 311f of the bulging portion 311 may be embedded in the inner peripheral surface 21 of the crawler body 2 with respect to the crawler body 2. In this example, the lower end 311f of the bulging portion 311 and, by extension, the lower end corner surface 311d of the crawler circumferential direction are embedded closer to the crawler outer peripheral side than the inner peripheral surface 21 of the crawler main body 2.

When the shape of the lower end corner surface 311d of the bulging portion 311 in the crawler circumferential direction is a curve that is outwardly convex when viewed in the crawler width direction, it occurs on the lower end corner surface of the bulging portion 311 in the crawler circumferential direction in the crawler body 2. It is possible to relieve stress concentration. Therefore, in this case, the durability of the crawler body 2 and thus the elastic crawler 1A can be further improved.

FIG. 10A is another example of the case where the shape of the lower end corner surface 311d of the bulging portion 311 in the crawler circumferential direction is an outwardly convex curve when viewed in the crawler width direction. Also in this example, as shown in FIG. 10A, the shape of the crawler circumferential lower end corner surface 311d disposed between the crawler circumferential side surface 311b2 of the swollen portion 311 and the lowermost end 311e of the swollen portion 311 is: When viewed in the crawler width direction, the curve is outwardly convex. In this example, the convex curve of the lower end corner surface 311d in the crawler circumferential direction has a radius of curvature R2 when viewed in the crawler width direction. Further, in this example, the lowermost end 311e of the bulging portion 311 is a connection point of the two lower end corner surfaces 311d in the crawler circumferential direction. That is, in this example, the lower end 311f of the bulging portion 311 is an outwardly convex curve formed with a radius of curvature R2 when viewed in the crawler width direction. Further, in this example, as shown in FIG. 10B, the lowermost end 311e of the bulging portion 311 coincides with the inner peripheral surface 21 of the crawler body 2.

On the other hand, the crawler main body 2 includes a convex portion 212 that protrudes from the inner peripheral surface 21 of the crawler main body 2 in the crawler inner peripheral direction. In this example, as shown in FIG. 10B, the convex portion 212 of the crawler main body 2 has a curved surface 212d that is formed as a curve that is concave inward when viewed in the crawler width direction. The shape of the concave curve that forms the curved surface 212d matches the shape of the lower end 311f of the bulging portion 311 and, by extension, the lower end corner surface 311d of the crawler circumferential direction. In the present embodiment, the curved surface of the curved surface 212d formed on the convex portion 212 of the crawler body 2 is also formed with the radius of curvature R2.

On the other hand, as shown in FIG. 10C, the lower end 311f of the bulging portion 311 may be embedded in the inner peripheral surface 21 of the crawler body 2 with respect to the crawler body 2. In this example, the lower end 311f of the bulging portion 311 and, by extension, the lower end corner surface 311d of the crawler circumferential direction are embedded closer to the crawler outer peripheral side than the inner peripheral surface 21 of the crawler main body 2.

Also in these examples, the shape of the lower end corner surface 311d of the swelling portion 311 in the crawler circumferential direction is a curve that is outwardly convex when viewed in the crawler width direction. It is possible to reduce stress concentration that may occur on the lower end corner surface in the circumferential direction. Therefore, in this case, the durability of the crawler body 2 and thus the elastic crawler 1A can be further improved.

Further, the crawler traveling device 100 according to the present embodiment includes any one of the elastic crawlers 1A described above and the rotating body around which the elastic crawler 1A is wound. According to the crawler traveling device 100 according to the present embodiment, as described above, the crawler traveling device including the novel elastic crawler 1A having excellent durability is provided.

Therefore, according to the elastic crawler 1A according to the present embodiment, the above-described examples applicable to the elastic crawler 1A, and the crawler traveling device 100, a novel elastic crawler having excellent durability and a crawler traveling including the elastic crawler are provided. A device can be provided.

The above description discloses only some embodiments of the present invention, and various modifications can be made according to the claims. For example, various configurations adopted in the above-described embodiment and each example can be used in combination with each other. The various configurations adopted in the above-described embodiment and each example can be appropriately replaced with each other.

1A: elastic crawler, 2: crawler main body, 3: protrusion, 3a: top surface of protrusion, 3b: side surface of protrusion, 3b1: side surface of protrusion in crawler width direction, 3b2: side surface of protrusion in crawler circumferential direction, 3e: maximum of protrusion Lower end, 4; Lug, 31: Resin member, 311: Swelling part, 311e: Bottom end of the swelling part, 311a: Top surface of the swelling part, 311b1: Crawler width side surface of the swelling part, 311b2: Swelling 311c: Crawler width direction corner of bulging portion, 311d: Crawler width lower end corner surface of bulging portion, 312: Crawler width side wall portion of resin member, 312b1: Crawler width of resin member Crawler width side surface of the direction side wall portion, 313: top wall portion of the resin member, 311a: top surface of the top wall portion of the resin member, 314: crawler circumferential side wall portion of the resin member, 314b2: crawler circumferential side wall of the resin member Crawler circumferential side surface, 32: elastic projection, 32a: top surface of elastic projection, 32b1: crawler width side surface of elastic projection, 32b2: crawler circumferential side surface of elastic projection, 100: crawler traveling device, 110: drive wheel (Rotating body), 110P: pin, 120: driven wheel (rotating body), 130: rolling wheel (rotating body), 131: body of rolling wheel, 133: covering portion of rolling wheel, H: height of protrusion 3 , H1: the height of the base of the protrusion, h2: the height of the coating

Claims (7)

It is shaped like an endless belt, and a crawler body made of elastic material,
A protrusion including an elastic material disposed on the inner peripheral surface of the crawler body,
An elastic crawler comprising:
An elastic crawler including a bulge made of a resin material and extending in the crawler width direction from the base of the protrusion. The protrusion includes a resin member, and the resin member includes the bulging portion and a crawler width direction side wall portion connected to the bulging portion,
The elastic crawler according to claim 1, wherein the crawler width direction side wall portion of the resin member constitutes a crawler width direction side wall portion of the protrusion. The resin member includes a top wall portion connected to the crawler width direction side wall portion of the resin member,
The elastic crawler according to claim 2, wherein the top wall portion of the resin member constitutes a top wall portion of the protrusion. The elastic crawler according to any one of claims 1 to 3, wherein a mating side with which the bulging portion can contact is a main body portion of the rotating body. The elastic crawler according to any one of claims 1 to 3, wherein the other side with which the bulging portion can come into contact is a covering portion made of an elastic material, which is provided on the outer peripheral surface of the main body of the rotating body. .. The shape of the crawler circumferential direction lower end corner surface arranged between the crawler circumferential side surface of the bulging portion and the lowermost end of the bulging portion is a curve that is outwardly convex when viewed in the crawler width direction, Item 6. The elastic crawler according to any one of items 1 to 5. An elastic crawler according to any one of claims 1 to 6,
A crawler traveling device, comprising: a rotating body around which the elastic crawler is wound.

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