KR101295755B1 - Block structure of TBR tire tread - Google Patents

Abstract

The present invention relates to a block structure of the tread design of the heavy-duty tire, and more particularly, to maximize the area of the block in contact with the road surface to minimize block deformation and to reduce the amount of wear generated at the end of the block during driving, sufficient block rigidity It relates to a block structure of a heavy-duty tire tread that can maintain a.
To this end, the present invention is a block structure of a heavy-loaded tire tread formed with continuous rectangular parallelepiped block bodies 2 and grooves 3 directly contacting the road surface 1, wherein the block body 2 is used when driving a tire. An inclined surface inclined at an angle of 10 ° to 20 ° with respect to the connecting portion 5a of the tread 5 and the imaginary vertical line V, which is the bottom 4a of the leading part 4, which is a starting end contacting the road surface 1 ( 6), the bottom 4a of the trailing portion 7, which is the end of the block body 2, which is in direct contact with the road surface 1, is referenced to the connecting portion 5b of the tread 5 and the virtual vertical line V. It is a structure consisting of a rounded inclined surface (8) rounded at an angle of 20 ° ~ 40 °.

Description

Block structure of TBR tire tread

The present invention relates to a block structure of the tread design of the heavy-duty tire, and more particularly, to maximize the area of the block in contact with the road surface to minimize block deformation and to reduce the amount of wear generated at the end of the block during driving, sufficient block rigidity It relates to a block structure of a heavy-duty tire tread that can maintain a.

The part of the tire that is in direct contact with the road surface is called a tread, and blocks and grooves are formed in a predetermined pattern to have a tread design.

Such a tread design is largely divided into a rib type pattern, a lug type design pattern, and a block type design pattern. The present invention is a technique for a double tread block structure.

Accordingly, the present invention is a block design structure that is arranged on the tread of the heavy-duty tire to improve the traction performance and grip performance in the tread width direction in the off-road driving, the steering stability on the dry road surface and the block when driving An object of the present invention is to provide a block structure of a heavy-duty tire tread capable of maximally reducing the amount of wear occurring at the end.

In order to achieve the above object, the present invention provides a block structure of a heavy-load tire tread that directly contacts a road surface in a tread formed with continuous block bodies and grooves formed in contact with a road surface, wherein the block body is in contact with a road surface when a tire is driven. The bottom of the leading part, which is the starting end, is connected to the inclined surface at an angle of 10 ° to 20 ° with respect to the connection part of the tread, and the bottom of the trailing part, which is the end of the block body directly contacting the road surface, It features a structure designed to be connected by rounded slopes rounded at an angle of 20 ° to 40 ° based on an imaginary vertical line.

The block structure of the heavy-duty tire tread according to the present invention forms a block shape of the leading zone when the tire is driven to 10 ° to 20 ° and minimizes the block shape by increasing the maximum area as soon as the tire contacts the road surface. The block shape of the ring area is angled from 20 ° to 40 ° with the road surface to minimize blocking while driving, while maintaining sufficient block strength when cornering by the rounded rounded slope.

1 is a front view of a tire to which a block according to the present invention is applied;
2 is an enlarged front view of main parts of FIG. 1;
3 is an enlarged side view showing a state in which a block of the present invention is in contact with a road surface;
4 is an enlarged perspective view of a block of the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The present invention is a block structure formed on the tire tread (5) in direct contact with the road surface (1) as shown in Figures 1 and 2, and the block body (2) of continuous rectangular parallelepiped shape directly contacting the road surface (1) and In the block structure of a heavy-duty tire tread having grooves 3 formed therein, the block body 2 has a bottom 4a of the leading portion 4 which is a starting end contacting the road surface 1 when the tire is driven. The trailing portion that is connected to the inclined surface 6 inclined at an angle of 10 ° to 20 ° based on the connecting portion 5a and the virtual vertical line V of the block body 2 directly contacting the road surface 1 ( The bottom 4a of 7) is designed to be connected to the rounded inclined surface 8 rounded at an angle of 20 ° to 40 ° with respect to the connecting portion 5b of the tread 5 and the virtual vertical line V.

Typically, a lot of slip occurs at the contact portion of the block body 2 and the road surface 1 of the tread 5 when the tire is running.

Particularly, rubber compression is generated in the leading part 4 of the block body 2 by instantaneous deformation, and in the case of the trailing part 7, slip and rolling due to tire deformation of the end of the block body 2 are performed. Slips are added to the rolls, causing a lot of wear, which increases the amount of heel and toe in the block pattern at every tire turn.

However, the block structure of the tread according to the present invention is because the leading part 4 of the block body 2 forms an angle of 10 ° to 20 ° with the road surface 1 as shown in FIGS. 3 and 4. When the bottom 4a of the portion 4 is in contact with the road surface 1, the contact area can be maximized to minimize the deformation of the block body 2.

In addition, since the trimming part 7 of the block body 2 forms an angle of 20 ° to 40 ° with the road surface 1, the slip of the bottom 4a of the trailing part 7 is minimized when the tire is driven. It has a rounded rounded slope 8 so as to minimize slip during driving and maintain sufficient block stiffness when cornering.

1: road surface, 2: block body,
3: Groove, 4: Reading part,
4a: floor, 5: tread,
6: inclined plane, 7: trailing part,
8: rounded round slope.

Claims (1)

Block bodies (2) and grooves (3) having continuous rectangular parallelepiped shape directly contacting the road surface (1) are formed, and the block body (2) is a leading portion (4) which is a starting end contacting the road surface (1) when the tire is driven. In the block structure of the tire tread, the bottom 4a of the tread is connected to the connecting portion 5a of the tread 5 and the inclined surface 6 inclined at an angle of 10 ° to 20 ° with respect to the virtual vertical line V. ,
The bottom 4a of the trailing portion 7, which is the end of the block body 2, which is in direct contact with the road surface 1, is 20 ° to 40 degrees based on the connecting portion 5b of the tread 5 and the virtual vertical line V. Block structure of the heavy-duty tire tread, characterized in that it is connected by a rounded inclined surface (8) rounded at an angle.

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