WO2013141378A1

WO2013141378A1 - Anti-slip device for vehicle tire

Info

Publication number: WO2013141378A1
Application number: PCT/JP2013/058380
Authority: WO
Inventors: 收冨安; 芳久古田; 別府　徹; 貞次永田; 修柳本; 雅紀杉浦
Original assignee: 東洋ゴム織布株式会社
Priority date: 2012-03-23
Filing date: 2013-03-22
Publication date: 2013-09-26
Also published as: JP2013199148A

Abstract

[Problem] To provide a low-cost anti-slip device for a vehicle tire. [Solution] An anti-slip device comprises an anti-slip part (13) for covering a tread (3) of a tire (1), a first side part (15) connected to the circumferential edge of the anti-slip part (13) and disposed facing a side wall (5) on the outside of the tire (1), and a second side part (17) connected to the circumferential edge of the anti-slip part (13) and disposed facing a sidewall (7) on the inside of the tire (1). The anti-slip part (13) has a circumferential length that is shorter than the circumferential length of the tread (3) of the tire (1) when the anti-slip part (13) is not mounted to the tire (1), and the anti-slip part (13) is a textile made by combining elastic warp thread that extends along the circumferential direction of the tire (1), and weft thread that extends along the width direction of the tire.

Description

Anti-slip device for vehicle tire

The present invention relates to an anti-slip device attached to a vehicle tire in order to increase friction between the vehicle and a road surface under winter conditions.

When driving on snowy roads and icy roads, change the tires to normal ones and use anti-slip tires such as spike tires and studless tires, as well as metal or resin tire chains ( It is common to prevent slipping by attaching an anti-slip device) to the tire.

In recent years, an anti-slip device for covering the entire ground contact surface of a tire with a fabric has been proposed (for example, see Patent Document 1).

Special table 2010-517874

However, the anti-slip portion covering the tread of the tire described in Patent Document 1 is formed of a triple-structure warp knitted fabric having a slight elasticity. For this reason, there are the following problems.
(1) Since the warp knitted fabric has a triple structure, the warp knitting machine for producing the warp knitted fabric is special and not common. Therefore, there is a problem that costs are high.

(2) The length of the non-slip portion is set to 85 to 103 percent of the circumference of the tire when not attached to the tire. If it exceeds 100 percent, wrinkles are generated in the non-slip portion, and the wrinkles are struck against the road surface when the tire rotates, and are easily damaged.

Further, when it is less than 100%, the elasticity is low, and therefore the anti-slip device is not easily attached to and removed from the tire.
(3) Since the warp knitted fabric of the anti-slip portion has a triple structure, the weight per unit area becomes heavy. On the other hand, the centrifugal force that acts on the anti-slip portion during tire rotation is proportional to the mass of the anti-slip portion. Therefore, the anti-slip part may expand due to the centrifugal force acting on the anti-slip part during tire rotation, and the anti-slip device may come off the tire.

The present invention has been made in view of the above problems, and an object thereof is to provide a low-cost vehicle tire anti-slip device. Another object of the present invention is to provide an anti-slip device for a vehicle tire that is not damaged and has good tire mounting and detachability from the tire. Furthermore, it is providing the slip prevention apparatus of the tire for vehicles which is hard to remove | deviate from a tire.

In order to achieve at least one of the above problems, an anti-slip device for a vehicle tire reflecting one aspect of the present invention includes an anti-slip portion that covers a tread of the tire, and an edge in the circumferential direction of the anti-slip portion. And a second side facing the sidewall on the inside of the tire and formed on a circumferential edge of the anti-slip portion. And the anti-slip portion is set in a state where the circumferential length is shorter than the circumferential length of the tread of the tire along the circumferential direction of the tire. There is a woven fabric formed by combining warp yarn having elasticity and weft yarn along the width direction of the tire.

Other features of the present invention will become more apparent from the following detailed description and accompanying drawings.

According to the present invention, the anti-slip portion is a woven fabric formed by combining warp yarns along the circumferential direction of the tire and weft yarns along the width direction of the tire. And low cost.

In addition, since the non-slip portion is set not to be attached to the tire, the circumferential length is set to be shorter than the circumferential length of the tread of the tire. Wrinkles are struck against the road surface when the tire rotates, and there is no damage. The non-slip portion is a woven fabric formed by combining a warp yarn having elasticity along the circumferential direction of the tire and a weft yarn along the width direction of the tire, and by appropriately setting the elasticity of the warp yarn, The mounting property of the apparatus to the tire and the detachability from the tire are good.

Furthermore, since the anti-slip portion is a woven fabric formed by combining a warp yarn having elasticity and a weft yarn along the width direction of the tire, the configuration is simple and the mass per unit area is light. Therefore, the anti-slip portion is less likely to expand due to the centrifugal force acting on the anti-slip portion when the tire rotates, and the anti-slip device is unlikely to come off the tire.

It is a figure which shows the invention part of the anti-slip | skid apparatus of the vehicle tire of 1st Embodiment, and is sectional drawing in the cutting line II of FIG. It is the perspective view seen from the tire inner side with which the anti-slip | skid apparatus of the vehicle tire shown in FIG. 1 was mounted | worn. It is the figure which looked at the tire of Drawing 2 from the outside. It is a top view of the textile fabric which comprises the slip prevention part of FIG. FIG. 5 is a cross-sectional view taken along a cutting line VV in FIG. 4. It is a figure explaining other embodiment. It is a figure which shows the invention part of the anti-slip | skid apparatus of the vehicle tire of 2nd Embodiment, and is sectional drawing in the cutting | disconnection line VII-VII of FIG. It is the perspective view seen from the tire inner side with which the anti-slip | skid apparatus of the vehicle tire shown in FIG. 7 was mounted | worn. It is the figure which looked at the tire of Drawing 8 from the outside. It is a top view of the textile fabric which comprises the slip prevention part of FIG. FIG. 12 is a cross-sectional view taken along a cutting line VV in FIG. 10. It is a figure explaining attachment of the 1st inelastic strap of Drawing 7, the 2nd inelastic strap, and an elastic strap. It is a figure explaining the state of the mounting start to the vehicle tire. It is a figure explaining other embodiment.

<First Embodiment>
The vehicle tire anti-slip device of the first embodiment will be described with reference to the drawings. FIG. 1 is a diagram showing an invented portion of the vehicle tire anti-slip device according to the first embodiment, a cross-sectional view taken along the line II in FIG. 2, and FIG. 2 shows the vehicle tire anti-slip device shown in FIG. FIG. 3 is a perspective view of the tire of FIG. 2 viewed from the outside. Of the drawings describing the present embodiment, FIGS. 1 and 6 are provided with a gap between the tire and the anti-slip device in order to facilitate understanding of the structure of the anti-slip device for a vehicle tire. . In practice, at least the tire tread and the anti-slip device are in contact.

As shown in FIGS. 1 to 3, the tire 1 provided on the wheel 9 includes a tread 3 in contact with a road surface, a first sidewall 5 that is a side surface on the outside side of the tire 1, and a side surface on the inside side of the tire 1. A second side wall 7 is provided.

The anti-slip device 11 of the present embodiment is roughly divided into an anti-slip part 13, a first side part 15, and a second side part 17. The anti-slip portion 13 is made of woven fabric and covers the tread 3 of the tire 1. The first side portion 15 is made of a separate fabric from the anti-slip portion 13 and is connected to the circumferential edge of the anti-slip portion 13 by sewing, and faces the first sidewall 5 on the outside side of the tire 1. ing. The second side portion 17 is made of a separate woven fabric from the anti-slip portion 13 and is connected to the circumferential edge of the anti-slip portion 13 by sewing, and faces the second sidewall 7 on the inside side of the tire 1. Yes.

The 1st side part 15 and the 2nd side part 17 are the same shape and the same material, and are the annular | circular shape which has the opening 15a and the opening 17a in the center part.
Furthermore,

elastic bands

19 and 21 having a substantially circular cross section and attached to the first side portion 15 and the second side portion 17 are attached along the

openings

15a and 17a.

The non-slip portion 13 is set to have a circumferential length shorter than a circumferential length of the tread 3 of the tire 1 when the anti-slip portion 13 is not attached to the tire 1.
Next, the anti-slip | skid part 13 is demonstrated using FIG. 4, FIG. 4 is a plan view of the fabric constituting the anti-slip portion, and FIG. 5 is a cross-sectional view taken along the cutting line VV of FIG.

In FIG. 4, the arrow R direction is the circumferential direction of the tire 1, and the arrow W direction is the width direction. Moreover, in FIG. 5, the arrow O is a road surface side and I is a tire surface side. The anti-slip portion 13 is a woven fabric formed by combining a warp yarn 31 made of rubber fiber having elasticity along the circumferential direction of the tire 1 and a weft yarn 33 along the width direction of the tire 1 and having little elasticity.

In the present embodiment, the first side portion 15 and the second side portion 17 are a combination of a warp yarn having elasticity along the circumferential direction of the tire and a weft yarn having substantially no elasticity along the width direction of the tire. It became the textile which becomes.

In addition, the elasticity of the warp of the 1st side part 15 and the 2nd side part 17 is so that the elasticity of the circumferential direction of the 1st side part 15 and the 2nd side part 17 may become smaller than the elasticity of the circumferential direction of the anti-slip | skid part 13. Is set.

As shown in FIGS. 1 and 3, the opening 15 a of the first side portion 15 extends in the radial direction, crosses the opening 15 a, has both ends connected to the first side portion 15, and has an elastic strap 41. Is provided. In the present embodiment, two straps 41 orthogonal to each other at the opening 15a are provided.

Furthermore, in this embodiment, the center line 51 which shows the center of the width direction is formed in the anti-slip | skid part 13 along the circumferential direction.
According to such a configuration, the following effects can be obtained.

(1) The anti-slip portion 13 is a woven fabric formed by combining the warp yarn 31 along the circumferential direction of the tire 1 and the weft yarn 33 along the width direction of the tire 1. Can be manufactured at low cost.

(2) Since the non-slip portion 13 is not attached to the tire 1 and the circumferential length is set shorter than the circumferential length of the tread 3 of the tire 1, the anti-slip portion 13 is wrinkled. It does not occur and wrinkles are struck against the road surface when the tire rotates, and it does not break.

(3) The anti-slip portion 13 is a woven fabric formed by combining the warp yarn 31 having elasticity along the circumferential direction of the tire 1 and the weft yarn 33 along the width direction of the tire 1. By appropriately setting, the mounting property of the anti-slip device to the tire and the detachability from the tire are improved.

(4) Since the anti-slip portion 13 is a woven fabric formed by combining the warp yarn 31 having elasticity and the weft yarn 33 along the width direction of the tire 1, the configuration is simplified and the mass per unit area is light. Therefore, the anti-slip portion is less likely to expand due to the centrifugal force acting on the anti-slip portion when the tire rotates, and the anti-slip device is unlikely to come off the tire.

(5) Since the anti-slip portion 13 is a woven fabric formed by combining the warp yarn 31 made of elastic rubber fiber and the weft yarn 33 along the width direction of the tire 1, as shown in FIG. O has a portion where the warp yarn 31 made of rubber fiber is exposed. Therefore, durability is improved.

(6) As shown in FIG. 5, the anti-slip portion 13 is a warp yarn 31 made of rubber fiber having elasticity.
And the weft 33 along the width direction of the tire 1, and the surface on the road surface side (ground contact surface) has an uneven shape. Then, the moisture on the road surface is absorbed by the warp yarns 31 and the weft yarns 33, or collected in the recesses, and is rotated backward by centrifugal force as the tire 1 rotates. Therefore, drainage is good.

(7) As shown in FIG. 5, the anti-slip portion 13 is a woven fabric formed by combining a warp yarn 31 made of elastic rubber fiber and a weft yarn 33 along the width direction of the tire 1. There is a portion where the warp yarn 31 made of rubber fiber is exposed on this surface (grounding surface). Therefore, the slip between the anti-slip device and the road surface hardly occurs.

(8) As shown in FIG. 5, the anti-slip portion 13 is a woven fabric formed by combining a warp yarn 31 made of elastic rubber fiber and a weft yarn 33 along the width direction of the tire 1. Also on the surface in contact with the tread 3, there is a portion where the warp yarn 31 made of rubber fiber is exposed. Therefore, the slip between the anti-slip device 11 and the tire 1 hardly occurs.

(9) The anti-slip portion 13 is a combination of a warp yarn 31 made of elastic rubber fiber along the circumferential direction of the tire 1 and a weft yarn 33 along the width direction of the tire 1 that is much less elastic than the warp yarn 31. Therefore, the width direction of the tire 1 is stabilized at the time of wearing, and the anti-slip device does not fall off.

(10) The warp of the warps of the first side portion 15 and the second side portion 17 is such that the elasticity in the circumferential direction of the first side portion 15 and the second side portion 17 is smaller than the elasticity in the circumferential direction of the anti-slip portion 13. By setting the elasticity, it is easy to attach the anti-slip device 11 to the tire 1.

(11) The anti-slip portion 13 is a combination of a warp yarn 31 made of elastic rubber fiber along the circumferential direction of the tire 1 and a weft yarn 33 along the width direction of the tire 1 that is much less elastic than the warp yarn 31. The first side portion 15 and the second side portion 17 are of the same shape and the same material, and have an annular shape with an opening at the center portion. The first side portion 15 and the second side portion 17 are tires. It is possible to adapt to a plurality of tire sizes by combining a warp yarn having elasticity along the circumferential direction of the tire and a weft yarn having elasticity that is much smaller than the warp yarn along the width direction of the tire. .

Further, the entire anti-slip device can uniformly tighten the tire 1 with high torque, and air and snow do not enter between the tire 1 and the anti-slip device, and the anti-slip device from the tire 1 due to the expansion can be prevented. No slipping or slipping slip occurs.

(12) The anti-slip device is provided in the opening 15a of the first side portion 15 by extending in the radial direction, traversing the opening 15a, having both ends connected to the first side portion 15 and the elastic strap 41. Can be prevented from shifting in the width direction of the tire 1.

(13) When the first side portion 15 and the second side portion 17 have radial elasticity, when the anti-slip device is removed from the tire 1, the first side portion 15 and the second side portion 17 extend in the radial direction. Hard to remove. In the present embodiment, the first side portion 15 and the second side portion 17 have substantially no radial elasticity, so that the anti-skid device can be easily removed from the tire 1.

(14) Since the first side portion 15 and the second side portion 17 have an annular shape having the same shape and the same material and having an opening in the central portion, the productivity is good.
(15) Since the center line 51 which shows the center of the width direction along the circumferential direction is formed in the non-slip | skid part 13, it becomes a standard of mounting | wearing and attachment property improves.

In addition, this invention is not limited to the said embodiment. In the above embodiment, the anti-slip portion 13, the first side portion 15, and the second side portion 17 of the anti-slip device 11 are separate fabrics. However, as shown in FIG. 6, the anti-slip portion 113, the first side portion 115, and the second side portion 117 of the anti-slip device 101 may be formed of an integral fabric.

By comprising in this way, it is not necessary to assemble the 1st side part 115 and the 2nd side part 117 by sewing, and workability improves.
In addition, since all the portions are non-slip portions, the product compatibility range in the tire width direction is widened, the number of product numbers is reduced, and management is facilitated.
<Second Embodiment>
The vehicle tire anti-slip device of the present embodiment will be described with reference to the drawings. FIG. 7 is a diagram showing an invention portion of the vehicle tire anti-slip device according to the second embodiment. FIG. 8 is a cross-sectional view taken along section line VII-VII of FIG. 8, and FIG. FIG. 9 is a view of the tire of FIG. 8 viewed from the outside. Of the drawings for explaining the present embodiment, FIGS. 7 and 14 are provided with a gap between the tire and the anti-slip device in order to facilitate understanding of the structure of the anti-slip device for a vehicle tire. . In practice, at least the tire tread and the anti-slip device are in contact.

As shown in FIGS. 7 to 9, the tire 1 provided on the wheel 9 includes a tread 3 that is in contact with a road surface, a first sidewall 5 that is a side surface on the outside side of the tire 1, and a side surface on the inside side of the tire 1. A second side wall 7 is provided.

The anti-slip device 211 of the present embodiment is roughly composed of an anti-slip part 213, a first side part 215, and a second side part 217. The anti-slip portion 213 is made of woven fabric and covers the tread 3 of the tire 1. The first side portion 215 is made of a separate woven fabric from the anti-slip portion 213 and is connected to the circumferential edge of the anti-slip portion 213 by sewing, and faces the first sidewall 5 on the outside side of the tire 1. ing. The second side portion 217 is made of a separate fabric from the anti-slip portion 213 and is connected to the circumferential edge of the anti-slip portion 213 by sewing, and is opposed to the second sidewall 7 on the inside side of the tire 1. Yes.

The first side part 215 and the second side part 217 have the same shape and the same material, and have an annular shape in which the first opening 215a and the second opening 217a are formed in the central part.
Further, the first side portion 215 and the second side portion 217 are made of a rubber material and a first elastic band 219 having a substantially circular cross section along the first opening 215a and the second opening 217a, and the material is rubber. A second elastic band 221 having elasticity is attached.

When the anti-slip device 211 is attached to the tire 1, the first elastic band 219 is set so as to urge the first opening 215a in the direction of diameter reduction by its urging force. Similarly, when the anti-slip device 211 is attached to the tire 1, the second elastic band 221 is set so as to urge the second opening 217 a in the reduced diameter direction by its urging force.

Further, the force for reducing the diameter of the second opening 217 a of the second elastic band 221 is set to be larger than the force for reducing the diameter of the first opening 215 a of the first elastic band 219.
The non-slip portion 213 is set so that the circumferential length is shorter than the circumferential length of the tread 3 of the tire 1 when the anti-slip portion 213 is not attached to the tire 1.

Next, the anti-slip | skid part 213 is demonstrated using FIG. 10, FIG. 10 is a plan view of the fabric constituting the anti-slip portion, and FIG. 11 is a cross-sectional view taken along the cutting line XI-XI in FIG.
In FIG. 10, the arrow R direction is the circumferential direction of the tire 1, and the arrow W direction is the width direction. Moreover, in FIG. 11, the arrow O is a road surface side and I is a tire surface side. The non-slip portion 213 is a woven fabric formed by combining warp yarns 231 made of rubber fibers having elasticity along the circumferential direction of the tire 1 and weft yarns 233 along the width direction of the tire 1 and having little elasticity.

In the present embodiment, the first side portion 215 and the second side portion 217 include a warp yarn having elasticity along the circumferential direction of the tire 1 and a weft yarn having substantially no elasticity along the width direction of the tire 1. A combined woven fabric was obtained.

In addition, the elasticity of the warp yarn of the 1st side part 215 and the 2nd side part 217 so that the elasticity of the circumferential direction of the 1st side part 215 and the 2nd side part 217 may become smaller than the elasticity of the circumferential direction of the anti-slip | skid part 213. Is set.

As shown in FIGS. 7 and 9, the first opening 215 a of the first side portion 215 extends in the radial direction, crosses the first opening 215 a, and both ends are connected to the first side portion 215. A first inelastic strap 241 and a second inelastic strap 243 are provided so as to be orthogonal to each other at the center of the first opening 215a.

In the present embodiment, the length of the first inelastic strap 241 and the length of the second inelastic strap 243 are set to the same length on the first opening 215a.
Further, the second inelastic strap 243 is overlapped on the first inelastic strap 241, and the intersecting portion between the first inelastic strap 241 and the second inelastic strap 243 is sewn and joined with a thread. .

Furthermore, an elastic strap 245 is provided so as to hold the first inelastic strap 241 and the second inelastic strap 243 from the outside. The elastic strap 245 also crosses the first opening 215 a and both ends are connected to the first side portion 215. When the vehicle tire anti-slip device 211 according to this embodiment is mounted on the tire 1, the elastic strap 245 is elastically deformed, and the elastic restoring force causes the first inelastic strap 241 and the second inelastic strap 243 to move. It is designed to be pressed from the outside.

As shown in FIG. 12, a strap through 247 in which a through hole 247 a penetrating in the direction of arrow A is formed in an intermediate portion of the second inelastic strap 241 that is an inelastic strap in contact with the elastic strap 245. . The elastic strap 245 is inserted into the through hole 247a. For this reason, the strap thread 247 functions as a guide that prohibits the elastic strap 245 from separating from the second inelastic strap 241.

Furthermore, in the present embodiment, the anti-slip portion 13 is formed with a center line 251 that indicates the center in the width direction along the circumferential direction.
According to such a configuration, the following effects can be obtained.

(1) The anti-slip portion 213 is a woven fabric formed by combining the warp yarn 231 along the circumferential direction of the tire 1 and the weft yarn 233 along the width direction of the tire 1. Can be manufactured at low cost.

(2) Since the non-slip portion 213 is not attached to the tire 1 and the circumferential length is set shorter than the circumferential length of the tread 3 of the tire 1, the anti-slip portion 213 is wrinkled. It does not occur and wrinkles are struck against the road surface when the tire rotates, and it does not break.

(3) The anti-slip portion 213 is a woven fabric formed by combining the warp yarn 231 having elasticity along the circumferential direction of the tire 1 and the weft yarn 233 along the width direction of the tire 1. Is set appropriately, the mounting property of the anti-slip device 211 to the tire and the detachability from the tire are improved.

(4) Since the anti-slip portion 213 is a woven fabric formed by combining the warp yarn 231 having elasticity and the weft yarn 233 along the width direction of the tire 1, the configuration is simple and the mass per unit area is light. Therefore, the anti-slip portion is less likely to expand due to the centrifugal force acting on the anti-slip portion during tire rotation, and the anti-slip device 211 is unlikely to come off the tire.

(5) The anti-slip portion 213 is a woven fabric formed by combining the warp yarn 231 made of elastic rubber fiber and the weft yarn 233 along the width direction of the tire 1, so as shown in FIG. O has a portion where the warp yarn 231 made of rubber fiber is exposed. Therefore, durability is improved.

(6) As shown in FIG. 11, the anti-slip portion 213 is a woven fabric formed by combining warp yarns 231 made of elastic rubber fibers and weft yarns 233 along the width direction of the tire 1, and is a surface on the road surface side. The (grounding surface) has an uneven shape. Then, the moisture on the road surface is absorbed by the warp yarns 231 and the weft yarns 233, or collected in the recesses, and is rotated backward by centrifugal force as the tire 1 rotates. Therefore, drainage is good.

(7) As shown in FIG. 11, the anti-slip portion 213 is a woven fabric formed by combining a warp yarn 231 made of elastic rubber fiber and a weft yarn 233 along the width direction of the tire 1. There is a portion where the warp yarn 231 made of rubber fiber is exposed on this surface (grounding surface). Therefore, the slip between the anti-slip device and the road surface hardly occurs.

(8) As shown in FIG. 11, the anti-slip portion 213 is made of a woven fabric formed by combining warp yarns 231 made of elastic rubber fibers and weft yarns 233 along the width direction of the tire 1. Also on the surface in contact with the tread 3, there is a portion where the warp yarn 231 made of rubber fiber is exposed. Therefore, slip between the anti-slip device 211 and the tire 1 hardly occurs.

(9) The anti-slip portion 213 is a combination of a warp yarn 231 made of elastic rubber fiber along the circumferential direction of the tire 1 and a weft yarn 233 along the width direction of the tire 1 and having elasticity much smaller than that of the warp yarn 231. Therefore, the width direction of the tire 1 is stabilized at the time of wearing, and the anti-slip device 211 does not fall off.

(10) A first elastic band 219 that is provided in the first side portion 215 to reduce the diameter of the first opening 215a, and a second opening 217a that is provided in the second side portion 217 and that has a larger force than the first elastic band 219. A second elastic band 221 to be reduced in diameter, and a first inelastic strap 241 and a second inelastic strap 243 whose central portion traverses the first opening 215a and whose both ends are connected to the first side portion 215 are provided. ing. Therefore, until the movement is prohibited by the first inelastic strap 241 and the second inelastic strap 243, the anti-slip device 211 tends to move toward the inside by the second elastic band 221 having a large force for reducing the diameter of the opening. . Therefore, by setting the strap longer, it can be adapted to tires of various sizes.

(11) As shown in FIG. 13, when the vehicle tire is started to be mounted on the anti-slip device 211, the anti-slip device 211 for the vehicle tire by the first inelastic strap 241 and the second inelastic strap 243 is used. In a state where movement to the inside side is not prohibited, the first inelastic strap 241 and the second inelastic strap 243 have a margin in the radial direction (longitudinal direction) and wrinkles are generated. However, the intersecting portion of the first inelastic strap 241 and the second inelastic strap 243 is pressed by the elastic strap 245. Therefore, the first inelastic strap 241 and the second inelastic strap 243 strike the wheel 9 with a centrifugal force due to the rotation of the tire 1 or a lateral force (lateral G) acting when the vehicle corners, and noise is generated. Prevent it from occurring.

(12) A strap passage 247 through which the elastic strap 245 is inserted is provided at an intermediate portion of the first inelastic strap 241, and the first inelastic strap 241 and the second inelastic strap 243 are joined at the intersection. Thus, the elastic strap 245, the first inelastic strap 241 and the second inelastic strap 243 are integrated at the intermediate portion. Therefore, the intersecting portion of the first inelastic strap 241 and the second inelastic strap 243 is pressed by the elastic strap 245. Therefore, the first inelastic strap 241 and the second inelastic strap 243 strike the wheel 9 with a centrifugal force due to the rotation of the tire 1 or a lateral force (lateral G) acting when the vehicle corners, and noise is generated. Prevent it from occurring.

(13) The warp of the warp yarns of the first side portion 215 and the second side portion 217 is set so that the elasticity in the circumferential direction of the first side portion 215 and the second side portion 217 is smaller than the elasticity in the circumferential direction of the anti-slip portion 213. By setting the elasticity, it is easy to attach the anti-slip device 211 to the tire 1.

(14) The anti-slip portion 213 is a combination of a warp yarn 231 made of elastic rubber fiber along the circumferential direction of the tire 1 and a weft yarn 233 along the width direction of the tire 1 and having elasticity much smaller than the warp yarn 231. The first side part 215 and the second side part 217 have the same shape and the same material, and have an annular shape with an opening in the center part. The first side part 215 and the second side part 217 are tires. It is possible to adapt to a plurality of tire sizes by combining a warp yarn having elasticity along the circumferential direction of the tire and a weft yarn having elasticity that is much smaller than the warp yarn along the width direction of the tire. .

Further, the entire anti-slip device 211 can uniformly tighten the tire 1 with a high torque, and there is no intrusion of air or snow between the tire 1 and the anti-slip device 211, so that the tire 1 of the anti-slip device due to expansion. No slippage or slipping slip occurs.

(15) The opening 215a of the first side portion 215 extends in the radial direction, crosses the opening 215a, and both ends are connected to the first side portion 15, and the first inelastic strap 241 and the second inelastic strap 243 are provided. By providing, the slip prevention device 211 can be prevented from shifting in the width direction of the tire 1.

(16) When the first side portion 215 and the second side portion 217 have elasticity in the radial direction, when removing the anti-slip device 211 from the tire 1, the first side portion 215 and the second side portion 217 extend in the radial direction. Hard to remove. In the present embodiment, the first side portion 215 and the second side portion 217 have substantially no radial elasticity, so that the anti-slip device 211 can be easily removed from the tire 1.

(17) Since the first side part 215 and the second side part 217 have an annular shape having the same shape and the same material and having an opening in the central part, the productivity is good.
(18) Since the center line 251 which shows the center of the width direction is formed in the anti-slip | skid part 213 along the circumferential direction, it becomes a standard of mounting | wearing and attachment property improves.

In addition, this invention is not limited to the said embodiment. In the above embodiment, the anti-slip part 213, the first side part 215, and the second side part 217 of the anti-slip device 211 are separate woven fabrics. However, as shown in FIG. 14, the anti-slip part 313, the first side part 315, and the second side part 317 of the anti-slip device 211 may be formed of an integral fabric.

By comprising in this way, it is not necessary to assemble the 1st side part 315 and the 2nd side part 317 by sewing, and workability improves.
In addition, since all the portions are non-slip portions, the product compatibility range in the tire width direction is widened, the number of product numbers is reduced, and management is facilitated.

DESCRIPTION OF SYMBOLS 1 Tire 3

Tread

5, 7

Side wall

13, 213

Anti-skid part

15, 215

1st side part

17, 217 2nd side part 219 1st elastic band 221 2nd elastic band 241 1st inelastic strap 243 2nd inelasticity strap

Claims

An anti-slip part covering the tread of the tire,
A first side portion formed at a circumferential edge of the anti-slip portion and facing a sidewall on the outside side of the tire;
A second side portion that is formed at an edge in the circumferential direction of the anti-slip portion, and that faces the sidewall on the inside side of the tire;
Consists of
The non-slip portion is
In a state where the tire is not mounted, the circumferential length is set shorter than the circumferential length of the tire tread,
An anti-slip device for a vehicle tire, characterized by being a woven fabric formed by combining a warp yarn having elasticity along a circumferential direction of the tire and a weft yarn along a width direction of the tire.
The first side part and the second side part are:
The anti-slip of a vehicle tire according to claim 1, wherein the warp is a woven fabric having elasticity, which is a combination of a warp along the circumferential direction of the tire and a weft along the radial direction of the tire. apparatus.
The first side part and the second side part are:
The anti-skid device for a vehicle tire according to claim 2, wherein the anti-slip device has the same shape.
2. The anti-skid device for a vehicle tire according to claim 1, wherein the anti-slip portion, the first side portion, and the second side portion are made of an integral woven fabric.
The anti-slip device for a vehicle tire according to claim 1, wherein the anti-slip portion, the first side portion, and the second side portion are made of separate fabrics.
The first side part has an opening in the center part,
The anti-slip device for a vehicle tire according to claim 1, wherein the opening is provided with an elastic strap that crosses the opening and has both end portions connected to the first side portion.
There are a plurality of straps having elasticity,
The vehicle tire anti-slip device according to claim 6, wherein they intersect at the opening.
2. The vehicle tire anti-slip device according to claim 1, wherein a center line indicating a center in the width direction is provided along the circumferential direction in the anti-slip portion.
An anti-slip part covering the tread of the tire,
A first side portion formed at a circumferential edge of the anti-slip portion, facing a sidewall on the outside side of the tire, and having a first opening at a central portion;
A second side portion formed at a circumferential edge of the anti-slip portion, facing a sidewall on the inside side of the tire, and having a second opening formed at a central portion;
A first elastic band provided on the first side portion and reducing the diameter of the first opening;
A second elastic band provided on the second side portion and reducing the diameter of the second opening with a larger force than the first elastic band;
A non-elastic strap having a central portion traversing the first opening and both ends connected to the first side portion;
Have
The non-slip portion is
In a state where the tire is not mounted, the circumferential length is set shorter than the circumferential length of the tire tread,
An anti-slip device for a vehicle tire, characterized by being a woven fabric formed by combining a warp yarn having elasticity along a circumferential direction of the tire and a weft yarn along a width direction of the tire.
The inelastic strap is
A first inelastic strap;
The first inelastic strap and the second inelastic strap having the same length on the first opening and perpendicular to the center of the first opening;
The antiskid device for a vehicle tire according to claim 9, wherein the first inelastic strap and the second inelastic strap are joined at an intersecting portion.
An elastic strap is provided in which a central portion crosses the first opening, both end portions are connected to the first side portion, and an intersecting portion between the first inelastic strap and the second inelastic strap is pressed from the outside. The vehicle tire anti-slip device according to claim 10.
12. The anti-slip device for a vehicle tire according to claim 11, wherein a guide that prohibits the elastic strap from separating from the inelastic strap is provided on the inelastic strap in contact with the elastic strap.
The first side part and the second side part are:
The anti-slip of a vehicle tire according to claim 9, wherein the warp is a woven fabric having elasticity, which is a combination of a warp along the circumferential direction of the tire and a weft along the radial direction of the tire. apparatus.
The first side part and the second side part are:
The antiskid device for a vehicle tire according to claim 9, wherein the antiskid device has the same shape.
The anti-skid device for a vehicle tire according to claim 9, wherein the anti-slip portion, the first side portion, and the second side portion are made of an integral woven fabric.
The anti-slip device for a vehicle tire according to claim 9, wherein the anti-slip portion, the first side portion, and the second side portion are made of separate fabrics.
10. The vehicle tire anti-slip device according to claim 9, wherein a center line indicating a center in the width direction is provided along the circumferential direction in the anti-slip portion.