KR102259388B1 - Stud assembly and pneumatic tier having the same - Google Patents

Abstract

The present invention discloses a stud assembly and a pneumatic tire including the same. The present invention provides a seating portion inserted into a groove of a pneumatic tire to be seated on a bottom surface of the groove, an outer skin connected to the seating portion, a core portion inserted into the outer skin, and among the outer skin and the seating portion It protrudes from at least one outer surface and includes a sawtooth-shaped locking protrusion.

Description

Stud assembly and pneumatic tier having the same

The present invention relates to a device, and more particularly, to a stud assembly and a pneumatic tire comprising the same.

The pneumatic tire is mounted on the vehicle and rotates while the vehicle is running, thereby making the vehicle run smoothly. Such a pneumatic tire may be of various types depending on the environment in which the pneumatic tire is used. Selecting a pneumatic tire according to the environment affects the driving performance of the vehicle and is a necessary task for the safety of the user. In particular, when driving a vehicle on a road covered with ice or snow, such as in winter, the driving performance of the vehicle may be affected by the condition of the pneumatic tire or the type of the pneumatic tire.

As described above, a stud assembly may be installed in the body portion of the pneumatic tire for the driving performance of the vehicle in winter. In this case, the stud assembly may be installed in the body part of the pneumatic tire or may be separately installed in the body part of the pneumatic tire.

As described above, in the case of the stud assembly installed on the body portion of the pneumatic tire, the stud assembly may be rotated or changed in position by an external force while driving. In this case, pneumatic tires may slide on snowy or icy roads. Therefore, it is a very important problem to firmly fix the stud assembly to the body part of the pneumatic tire.

SUMMARY Embodiments of the present invention provide a stud assembly and a pneumatic tire including the same.

An aspect of the present invention provides a seating portion inserted into a groove of a pneumatic tire to be seated on a bottom surface of the groove, an outer skin connected to the seating portion, a core portion inserted into the outer skin, the outer skin and the It is possible to provide a stud assembly that protrudes from the outer surface of at least one of the seating portions, and includes a serrated engaging protrusion.

In addition, the outer surface of the locking protrusion may be a curved surface.

In addition, the locking protrusion may include a first locking protrusion protruding from the rim of the seating portion, and a second locking protrusion protruding from the outer surface of the outer skin.

Further, it includes a body portion having an insertion groove formed therein, and a stud assembly inserted into the insertion groove of the body portion, wherein the stud assembly includes a seating portion inserted into the groove of the pneumatic tire to be seated on the bottom of the groove, and the seating portion It is possible to provide a pneumatic tire including an outer skin connected to, a core part inserted into the outer skin, and a locking protrusion protruding from an outer surface of at least one of the outer skin and the seating part, and having a sawtooth shape.

In addition, the outer surface of the locking protrusion may be a curved surface.

The locking protrusion may include a first locking protrusion protruding from the rim of the seating part, and a second locking protrusion protruding from the outer surface of the outer skin.

Embodiments of the present invention can prevent the stud assembly inserted into the body from rotating inside the body. In addition, embodiments of the present invention can increase the user's stability by providing a pneumatic tire that does not slip on snowy or rainy roads.

1 is a perspective view showing a stud assembly according to an embodiment of the present invention.
2 is a cross-sectional view showing a pneumatic tire according to an embodiment of the present invention.
FIG. 3 is an enlarged cross-sectional view of part A of FIG. 2 .
4 is a plan view showing a bottom surface of the insertion groove shown in FIG. 1 .
5 is a perspective view showing a stud assembly according to another embodiment of the present invention.

The present invention will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms different from each other, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to the possessor, and the invention is only defined by the scope of the claims. Meanwhile, terms used in the present specification are for explaining embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used herein, "comprises" and/or "comprising" refers to the presence of one or more other components, steps, actions and/or elements in which the recited component, step, operation and/or element is Or does not preclude additions. Terms such as first and second may be used to describe various components, but the components should not be limited by terms. The terms are used only for the purpose of distinguishing one component from another component.

1 is a perspective view showing a stud assembly according to an embodiment of the present invention.

Referring to FIG. 1 , the stud assembly 200 may be formed of a single rigid material such as metal. As another embodiment, the stud assembly 200 may be formed to include different materials. Hereinafter, for convenience of description, the stud assembly 200 will be described in detail focusing on a case including at least two or more materials.

The stud assembly 200 may include a core part 230 and an outer skin 220 . In this case, the core part 230 may be formed of a hard material such as metal. The core part 230 may be formed in a cylindrical shape, or may have a metal rod shape. In this case, a part of the core part 230 may protrude from the outer surface of the pneumatic tire (not shown).

The outer skin 220 may be formed of an elastic material such as rubber or silicone. The outer skin 220 as described above may be disposed to surround the core portion 230 . In this case, the outer skin 220 may include a first outer skin 221 and a second outer skin 222 . The first outer skin 221 and the second outer skin 222 may have different sizes. For example, the size of the cross section of the first outer skin 221 perpendicular to the longitudinal direction of the outer skin 220 and the size of the cross section of the second outer skin 222 may be different from each other. For example, the size of the cross-section of the second outer skin 222 may be smaller than the size of the cross-section of the second outer skin 222 . In the above case, the portion where the first outer skin 221 and the second outer skin 222 are connected is formed to have a smaller cross-section, so that the outer surface may be inclined.

The stud assembly 200 may include a seating portion 210 connected to the outer skin 220 . In this case, the size of the cross section of the seating portion 210 may be different from the size of the cross section of the outer skin 220 perpendicular to the longitudinal direction of the outer skin 220 . For example, the size of the cross-section of the seating part 210 perpendicular to the longitudinal direction of the stud assembly 200 may be the largest among the cross-sections of the stud assembly 200 . In this case, the seating part 210 may prevent the stud assembly 200 from being separated from the insertion groove 118 after the stud assembly 200 is inserted into the insertion groove 118 .

The stud assembly 200 may include a locking protrusion 240 protruding from at least one of the outer skin 220 and the seating portion 210 . At this time, the locking protrusion 240 may have a sawtooth shape on the outer surface. In this case, the locking protrusion 240 may have a protrusion spaced apart from each other and a first coupling groove 243 disposed between the protrusions. In this case, the first surface S1 and the second surface S2 of the protrusion may be formed as curved surfaces. In particular, the planar shape of the first surface S1 and the second surface S2 may be curved. For example, the first surface S1 may be a curved surface protruding to the outside, and the second surface S2 may be a concave curved surface. A plurality of protrusions as described above may be provided, and the plurality of protrusions may be arranged to be continuous with each other. In this case, each protrusion may be formed in one direction.

The locking protrusion 240 as described above may prevent the stud assembly 200 from rotating after the stud assembly 200 is disposed on the pneumatic tire.

2 is a cross-sectional view showing a pneumatic tire according to an embodiment of the present invention. FIG. 3 is an enlarged cross-sectional view of part A of FIG. 2 . 4 is a plan view showing a bottom surface of the insertion groove shown in FIG. 1 .

2 to 4 , the pneumatic tire 100 may include a body part 110 and a stud assembly 200 .

The body part 110 may include a tread part 111 , a sidewall 112 , a bead part 113 , a belt layer 114 , a carcass layer 115 , and a protrusion part 119 .

The tread portion 111 is disposed on the outside in the radial direction of the pneumatic tire of the carcass layer 115 and the belt layer 114 . The tread portion 111 is a portion in contact with the ground during driving of the vehicle, and a predetermined pattern may be formed thereon.

The tread part 111 may include an upper tread 111a and a lower tread 111b. The upper tread 111a is a portion in contact with the ground, and irregularities may be formed on the surface. Specifically, a block 116 , a groove 117 , and an insertion groove 118 may be formed in the upper tread 111a. In this case, the block 116 is a region in contact with the ground when the vehicle is driven, and may be partitioned by a groove 117 . That is, the block 116 may be formed between one groove and another adjacent groove.

The groove 117 may be formed to circumferentially the tread portion 111 . A plurality of grooves 117 may be provided in the width direction of the tread portion 111 . The number of grooves 117 is not limited to a specific number, and may be selected according to the use of the pneumatic tire. However, hereinafter, for convenience of description, the six grooves 117 will be mainly described on the tread portion 111 .

A plurality of the insertion grooves 118 as described above may be provided in the tread portion 111 , and the plurality of insertion grooves 118 may be disposed to be spaced apart from each other. In this case, the insertion groove 118 may be disposed in the block 116 . In this case, one stud assembly 200 may be disposed inside the insertion groove 118 .

The sidewall 112 extends from both ends of the tread portion 111 . A carcass layer 115 may be disposed inside the sidewall 112 . The bead portion 113 is formed at the end of the sidewall 112, and is in close contact with the rim (not shown).

The belt layer 114 may improve durability of the pneumatic tire 100 and form a skeleton. The belt layer 114 may be disposed below the tread 111 and may be formed by rolling by covering a plurality of belt cords (not shown) including steel with rubber.

The carcass layer 115 (carcass) may constitute a skeleton of the pneumatic tire 100 . The carcass layer 115 may be formed by rolling and coating a plurality of carcass cords (not shown) including steel with rubber.

The stud assembly 200 may be inserted into the insertion groove 118 . The insertion groove 118 as described above may be formed to correspond to the outer surface of the stud assembly 200 . At this time, the lower surface of the insertion groove 118 may be formed so that the locking projection 240 is inserted. In this case, the bottom surface of the insertion groove 118 may be formed with a second coupling groove 118-1 and a support protrusion 118-2. The stage and the second coupling groove 118-1 may be inserted into the protrusion of the locking protrusion 240, and the support protrusion 118-2 may be inserted into the first coupling groove (not shown). At this time, the support protrusion 118 - 2 may be formed in a sawtooth shape similarly to the protrusion of the locking protrusion 240 . In this case, a plurality of support protrusions 118 - 2 may be provided, and the plurality of support protrusions 118 - 2 may be formed in the same direction.

Meanwhile, the stud assembly 200 as described above may be coupled to the body part 110 . As another embodiment, it is also possible to replace the stud assembly 200 in a state in which the insertion groove 118 is formed in the body portion 110 or to be coupled to the insertion groove 118 .

Looking at a method of inserting the stud assembly 200 into the insertion groove 118 , after the pneumatic tire 100 is prepared, the stud assembly 200 may be inserted into the insertion groove 118 . In this case, since the size of the insertion groove 118 is formed smaller than the size of the stud assembly 200 , the stud assembly 200 may be press-fitted into the insertion groove 118 . In this case, the stud assembly 200 may not be drawn out of the insertion groove 118 after being inserted into the insertion groove 118 .

When the stud assembly 200 is inserted into the insertion groove 118 , the outer skin 220 may be sequentially inserted from the locking protrusion 240 and the seating portion 210 .

When the stud assembly 200 is inserted into the insertion groove 118 as described above, the protrusions of the locking protrusions 240 may be inserted and fixed to correspond to the support protrusions 118 - 2 adjacent to each other. In addition, a part of the core part 230 may be exposed to the outside by protruding from the outer skin 220 .

After the pneumatic tire 100 is installed in a vehicle, etc., when the vehicle runs on snowy roads, the pneumatic tire 100 prevents the vehicle from sliding by the core part 230 exposed to the outside performing a role like a spike. can do. At this time, the stud assembly 200 may try to rotate inside the insertion groove 118 by an external force applied to the pneumatic tire 100 . At this time, when the stud assembly 200 rotates, the core part 230 may not accurately apply a force to the snowy road, etc., so that the pneumatic tire 100 may slide on the snowy road or the like. However, it is possible to prevent the stud assembly 200 from rotating inside the insertion groove 118 by having the locking protrusion 240 as described above. Specifically, when the locking protrusion 240 and the support protrusion 118-2 mesh with each other, the locking protrusion 240 may be completely inserted into the bottom surface of the insertion groove 118 of the pneumatic tire 100 and fixed. In this case, the protrusion of the locking protrusion 240 is formed in a curved shape as described above, so that the stud assembly 200 does not rotate by supporting the stud assembly 200 when the stud assembly 200 is about to rotate in one direction. can In addition, the protrusion of the locking protrusion 240 is inserted into the second coupling groove 118-1, and the support protrusion 118-2 is inserted into the first coupling groove 243, whereby the pneumatic tire 100 and the locking protrusion are inserted into the first coupling groove 243. It is possible to increase the bearing capacity as well as to increase the contact area between the 240 .

Therefore, the pneumatic tire 100 prevents the stud assembly 200 from rotating inside the insertion groove 118 after the stud assembly 200 is smoothly inserted into the insertion groove 118, so that the stud assembly 200 touches the ground. It is possible to accurately support

In addition, the pneumatic tire 100 may provide the user's stability in snowy roads, etc. by having the stud assembly 200 .

5 is a perspective view showing a stud assembly according to another embodiment of the present invention.

Referring to FIG. 5 , the stud assembly 200-1 may include a core part 230-1, an outer skin 220-1, a seating part 210-1, and a locking protrusion part 240-1. . At this time, since the core part 230-1, the outer skin 220-1, and the seating part 210-1 are the same as those described in FIG. 1, a detailed description thereof will be omitted.

The locking protrusion 240-1 may include a first locking protrusion 241-1 and a second locking protrusion 242-1. At this time, the first locking protrusion 241-1 may be disposed on the seating portion 210-1, and may be the same as described with reference to FIG. 1 .

The second locking protrusion 242-1 may be disposed on the outer skin 220-1. In this case, the second locking protrusion 242-1 may be disposed on the first outer skin 221-1. In this case, the second locking protrusion 242-1 may be formed in a sawtooth shape. In addition, the second locking protrusion 242-1 is formed in a direction opposite to the formation direction of the first locking protrusion 241-1, but may be similar to the shape of the first locking protrusion 241-1. That is, the second locking protrusion 242-1 may be formed to protrude from the outer surface of the first outer skin 221-1, and may be formed to be curved in one direction (eg, clockwise). The first locking protrusion 241-1 may be formed to be curved in another direction (eg, counterclockwise).

Similar to that shown in FIG. 4 , a groove may be formed in an insertion groove (not shown) in which the second locking protrusion 242-1 is disposed so that the second locking protrusion 242-1 is inserted. The shape of this groove may be formed to correspond to the outer surface of the second locking protrusion 242-1.

Meanwhile, in the above case, the stud assembly 200 - 1 may be disposed on a pneumatic tire (not shown) similarly to that described with reference to FIGS. 2 to 4 . Thereafter, when the pneumatic tire is disposed and used in a vehicle, the stud assembly 200 - 1 may prevent the pneumatic tire from slipping.

When the stud assembly 200-1 is used as described above, the stud assembly 200-1 may rotate inside the insertion groove. At this time, the first locking protrusion 241-1 and the second locking protrusion 242-1 may prevent rotation of the stud assembly 200-1 which is about to rotate in different directions. That is, the first locking protrusion 241-1 and the second locking protrusion 242-1 are formed in opposite directions to each other, so that rotation of the stud assembly 200-1 in opposite directions can be prevented, respectively.

Accordingly, the stud assembly 200-1 does not rotate inside the insertion groove, thereby improving the performance of the stud assembly 200-1. In addition, the stud assembly 200 - 1 does not rotate inside the insertion groove, so that it can be prevented from being separated from the insertion groove.

Although the present invention has been described with reference to the above-mentioned preferred embodiments, various modifications and variations are possible without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover such modifications and variations as long as they fall within the scope of the present invention.

100: pneumatic tire
110: body part
111: tread part
112: side wall
113: bead unit
114: belt layer
115: carcass layer
116: block
117: groove
118: insertion groove
200,200-1: stud assembly
210,210-1: seating part
220,220-1: outer skin
230,230-1: core part
240,240-1: locking protrusion
241-1: first locking protrusion
242-1: second locking protrusion

Claims (6)

a seating part inserted into the groove of the pneumatic tire to be seated on the bottom of the groove;
an outer skin connected to the seating part;
a core part inserted into the outer skin; and
It includes a; protruding from the outer surface of at least one of the outer skin and the seating portion, and a sawtooth-shaped locking protrusion;
The blocking protrusion
a first locking protrusion in the form of a sawtooth protruding from the rim of the seating part; and
Including; a second locking projection in the form of a sawtooth protruding from the outer surface of the outer skin;
The teeth of the first locking projection are formed to be curved in one of the clockwise and counterclockwise directions,
A stud assembly in which the teeth of the second locking protrusion are formed to be curved in the other one of a clockwise direction and a counterclockwise direction. The method of claim 1,
The outer surface of the locking protrusion is a curved stud assembly. delete a body portion having an insertion groove;
and a stud assembly inserted into the insertion groove of the body part;
The stud assembly is
a seating part inserted into the groove of the pneumatic tire to be seated on the bottom of the groove;
an outer skin connected to the seating part;
a core part inserted into the outer skin; and
It includes a; protruding from the outer surface of at least one of the outer skin and the seating portion, and a sawtooth-shaped locking protrusion;
The blocking protrusion
a first locking protrusion in the form of a sawtooth protruding from the rim of the seating part; and
Including; a second locking projection in the form of a sawtooth protruding from the outer surface of the outer skin;
The teeth of the first locking projection are formed to be curved in one of the clockwise and counterclockwise directions,
The pneumatic tire is formed so that the teeth of the second locking protrusion are curved in the other one of a clockwise direction and a counterclockwise direction. The method of claim 4,
The outer surface of the locking protrusion is a curved pneumatic tire. delete

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