KR102118106B1 - Tire curing mold set and tire curing apparatus - Google Patents

Abstract

One embodiment of the present invention relates to a set of tire vulcanization molds formed for use in a vulcanization process for green tires, the tread mold base having at least a first tread mold base segment and a second tread mold base segment disposed adjacent to each other. The first and second tread mold cavity segments corresponding to the first tread mold cavity segment and disposed inside the first tread mold cavity segment and the inside of the second tread mold cavity segment corresponding to the second tread mold cavity segment Disclosed is a tire vulcanizing mold set comprising a tread mold cavity portion having a second tread mold cavity segment being disposed thereon.

Description

Tire curing mold set and tire curing apparatus

Embodiments of the present invention relate to tire vulcanization mold sets and tire vulcanization devices.

The vehicle operated by users consists of many parts, among which the tire substantially affects the driving of the vehicle, and in particular, can be said to be one of the key parts for securing the safety of the user.

In particular, due to the development of the industry, the number of automobiles due to the increase in the movement of logistics, the increase in movement due to the increase in personal workload, etc., and the increase in family life are increasing.

On the other hand, looking at the tire manufacturing process, it is possible to make a green tire by mixing a material having elasticity and flexibility or other material to make a semi-finished product and molding the semi-finished product.

Then, the green tire can be vulcanized to manufacture the tire.

The vulcanization process includes a step of applying a pressure to a green tire at a predetermined temperature for a certain period of time, for example, putting green tires between molds, and pressing in the mold direction from the inside of the green tires to form the mold or the surface of the mold. A corresponding tire can be produced.

Through this process, a desired pattern can be formed on the surface of a tire, for example, a tread.

However, the process of vulcanizing such a tire is a precise process, and thus it is not easy to form a precise tire tread through control, and in particular, there is a limitation in that it is not easy to control a vulcanizing apparatus and a vulcanization method for forming different patterns of treads according to various tires .

Embodiments of the present invention provides a tire vulcanization mold set and a tire vulcanization device that can improve the convenience and efficiency of the tire vulcanization process.

One embodiment of the present invention relates to a set of tire vulcanization molds formed for use in a vulcanization process for green tires, the tread mold base having at least a first tread mold base segment and a second tread mold base segment disposed adjacent to each other. The first and second tread mold cavity segments corresponding to the first tread mold cavity segment and disposed inside the first tread mold cavity segment and the inside of the second tread mold cavity segment corresponding to the second tread mold cavity segment Disclosed is a tire vulcanizing mold set comprising a tread mold cavity portion having a second tread mold cavity segment being disposed thereon.

In this embodiment, the tread mold cavity portion may be formed to be mounted and detachable from the tread mold base portion.

In this embodiment, the first tread mold base segment or the second tread mold base segment may include a groove formed therein.

In this embodiment, the first tread mold cavity segment or the second tread mold cavity segment may be arranged to correspond to the groove.

In this embodiment, the first tread mold cavity segment or the second tread mold cavity segment includes a corresponding surface formed on the opposite side of the surface facing the groove when disposed to correspond to the groove, and the corresponding surface is the green Curing process using tires It may include a form corresponding to the tread of the main tire.

In this embodiment, the tread mold base portion and the tread mold cavity portion may be formed to move relative.

In this embodiment, the tread mold cavity portion is formed to be replaceable with respect to the tread mold base portion, and a vulcanization process may be performed using a tread mold cavity portion having a different shape.

Another embodiment of the present invention relates to a tire vulcanizing device formed to perform a vulcanization process for a green tire, a tire vulcanization mold set disposed to face one surface of the green tire during the vulcanization process, and one side of the tire vulcanization mold set A first side mold disposed on the other side of the tire vulcanization mold set, and a second side mold disposed opposite to the first side mold, wherein the tire vulcanization mold set is disposed at least adjacent to each other. A tread mold base portion having a base segment and a second tread mold base segment, and a first tread mold cavity segment and the second tread corresponding to the first tread mold cavity segment and disposed inside the first tread mold cavity segment. Disclosed is a tire vulcanizing apparatus comprising a tread mold cavity portion having a second tread mold cavity segment corresponding to a mold cavity segment and disposed inside the second tread mold cavity segment.

Other aspects, features, and advantages other than those described above will become apparent from the following drawings, claims, and detailed description of the invention.

The tire mold set and tire vulcanization apparatus according to the present embodiment can improve the convenience and efficiency of the tire vulcanization process.

1 is a front view showing a tire vulcanization mold set according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along line II-II of FIG. 1.
3 is a cross-sectional view taken along line III-III of FIG. 1.
4 is a cross-sectional view taken along line IV-IV of FIGS. 2 and 3.
5A to 5D are views for illustrating the use of the tire vulcanization mold set of FIG. 1 by way of example.
FIG. 6 is a diagram illustrating an alternative embodiment of the tire curing mold set of FIG. 1.
7 is a front view showing a tire vulcanization mold set according to another embodiment of the present invention.
8 is a cross-sectional view taken along the line VII-VII in FIG. 7.
9 is a cross-sectional view taken along the line VII-VII in FIG. 8.
10 is a view showing an alternative embodiment of the tire curing mold set of FIG.
11 is a view for illustratively illustrating the use of the tire curing mold set of FIG.
12 is a front view showing a tire vulcanization mold set according to another embodiment of the present invention.
13 is a view seen from the direction A of FIG. 12.
14 is a cross-sectional view taken along line XIV-XIV in FIGS. 12 and 13.
15 is a front view showing a tire vulcanization mold set according to another embodiment of the present invention.
16 is a cross-sectional view taken along line XVI-XVI of FIG. 15.
17 is a view seen from K of FIG. 16.
18 is a view showing an alternative embodiment of the tire curing mold set of FIG. 15.
19 is a view for illustratively explaining the use of the tire vulcanization mold set of FIG.
20 is a view seen from the direction L of FIG. 18.
21 is a view showing an alternative embodiment of the tire curing mold set of FIG. 15.
22 is a view schematically showing a tire vulcanizing apparatus according to an embodiment of the present invention.

The present invention can be applied to various transformations and may have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail in the detailed description. Effects and features of the present invention and methods for achieving them will be clarified with reference to embodiments described below in detail with reference to the drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various forms.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the same or corresponding components will be denoted by the same reference numerals, and redundant description thereof will be omitted. .

In the following examples, terms such as first and second are not used in a limited sense, but for the purpose of distinguishing one component from other components.

In the following embodiments, the singular expression includes the plural expression unless the context clearly indicates otherwise.

In the examples below, terms such as include or have are meant to mean the presence of features or components described in the specification, and do not preclude the possibility of adding one or more other features or components in advance.

In the drawings, the size of components may be exaggerated or reduced for convenience of description. For example, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to what is shown.

In the following embodiments, the x-axis, y-axis, and z-axis are not limited to three axes on the Cartesian coordinate system, and can be interpreted in a broad sense including them. For example, the x-axis, y-axis, and z-axis may be orthogonal to each other, but may refer to different directions that are not orthogonal to each other.

When an embodiment can be implemented differently, a specific process order may be performed differently from the described order. For example, two processes described in succession may be performed substantially simultaneously, or may be performed in an order opposite to that described.

1 is a front view showing a tire vulcanization mold set according to an embodiment of the present invention, FIG. 2 is a cross-sectional view taken along line II-II of FIG. 1, and FIG. 3 is taken along line III-III of FIG. It is a cut-away section. 4 is a cross-sectional view taken along line IV-IV of FIGS. 2 and 3.

1 to 4, the tire vulcanization mold set 100 of this embodiment may include a tread mold base portion 110 and a tread mold cavity portion 120.

The tire vulcanization mold set 100 may be used in a vulcanization process using a green tire, for example, may be formed to correspond to a green tire to form a tire tread portion after the vulcanization process.

The tread mold base portion 110 may include a first tread mold base segment 111 and a second tread mold base segment 112 disposed at least adjacent to each other. That is, the tread mold base portion 110 may include at least two tread mold base segments arranged to be adjacent to each other.

The first tread mold base segment 111 and the second tread mold base segment 112 are separated from each other and may be disposed to be close to or close to each other by applying pressure during a curing process.

As an optional embodiment, the tread mold base portion 110 may include three or more tread mold base segments. For example, as shown in Figure 1 may include eight tread mold base segments, specifically the first tread mold base segment 111, the second tread mold base segment 112, the third tread mold base segment 113, the fourth tread mold base segment 114, the fifth tread mold base segment 115, the sixth tread mold base segment 116, the seventh tread mold base segment 117 and the eighth tread mold base segment (118).

As an optional embodiment, the tread mold base portion 110 may be provided with a plurality of tread mold base segments to have an overall shape similar to a circle, for example, having a radius r based on a center point, and a circumferential direction (RT) It can have the edge of the circle in the extended form.

Referring to FIG. 2, the first tread mold base segment 111 of the tread mold base portion 110 may include a groove 111a on an inner surface, and the groove 111a may include the tread mold cavity portion 120. It may include the facing side. As an optional embodiment, the groove 111a may include an area in contact with a region of the tread mold cavity portion 120.

The groove 111a is formed to have a depth so that the tread mold cavity portion 120 can be stably formed and countered.

The first tread mold base segment 111 may include side portions 111b on both sides based on the groove 111a.

The side portions 111b on both sides may be formed to define both edges of the groove 111a as a boundary on both sides of the groove 111a.

Referring to FIG. 3, the second tread mold base segment 112 of the tread mold base portion 110 may include a groove 112a on the inner surface, and the groove 112a may include the tread mold cavity portion 120. It may include the facing side. As an optional embodiment, the groove 112a may include an area in contact with a region of the tread mold cavity portion 120.

The groove 112a is formed to have a depth so that the tread mold cavity portion 120 can be stably formed and countered.

The second tread mold base segment 112 may include side portions 112b on both sides based on the groove 112a.

The side portions 112b on both sides may be formed to define both edges of the groove 112a as boundaries on both sides of the groove 112a.

The tread mold cavity portion 120 may include at least a first tread mold cavity segment 121 and a second tread mold cavity segment 122.

The first tread mold cavity segment 121 and the second tread mold cavity segment 122 may be arranged to be close to each other or to be in close contact with each other by applying pressure during a vulcanization process in a form of being separated from each other.

The first tread mold cavity segment 121 may correspond to the first tread mold base segment 111 and the second tread mold cavity segment 122 may correspond to the second tread mold base segment 112.

Also, the first tread mold cavity segment 121 and the second tread mold cavity segment 122 may be disposed to be adjacent to each other.

As an optional embodiment, the tread mold cavity portion 120 may include three or more tread mold cavity segments. For example, as shown in FIG. 4, it may include eight tread mold cavity segments, specifically, the first tread mold cavity segment 121, the second tread mold cavity segment 122, and the third tread mold cavity segment. 123, fourth tread mold cavity segment 124, fifth tread mold cavity segment 125, sixth tread mold cavity segment 126, seventh tread mold cavity segment 127 and eighth tread mold cavity segment (128).

As an optional embodiment, the tread mold cavity portion 120 may be provided with a plurality of tread mold cavity segments to have an overall shape similar to a circle, for example, having a radius based on a center point and extending in a circumferential direction (RT). It can have the edge of a circular shape.

In addition, at this time, the maximum radius of the tread mold cavity portion 120 may have a value smaller than the maximum radius of the tread mold base portion 110.

Referring to FIG. 2, the first tread mold cavity segment 121 of the tread mold cavity portion 120 corresponds to the first tread mold base segment 111, and specifically, the groove of the first tread mold base segment 111 ( 111a).

As an optional embodiment, the first tread mold cavity segment 121 may be arranged so as not to exceed the side portion 111b of the first tread mold base segment 111.

The first tread mold cavity segment 121 may include a corresponding surface 121a on the inner surface, and the corresponding surface 121a may have a shape for forming a surface corresponding to the tread of the tire to be formed after the curing process. Can be. For example, the corresponding surface 121a may include a curved surface.

As an optional embodiment, the corresponding surface 121a may include various patterns to be formed on the tread.

Further, as another example, the corresponding surface 121a may have a shape without a pattern.

The first tread mold cavity segment 121 may include side portions 121b on both sides based on the corresponding surface 121a.

The side portions 121b on both sides may be formed to correspond to the side portions 111b of the first tread mold base segment 111, for example, the side portions 121b may be side portions 111b of the first tread mold base segment 111 ).

The second tread mold cavity segment 122 of the tread mold cavity portion 120 corresponds to the second tread mold base segment 112 and specifically to correspond to the groove 112a of the second tread mold base segment 112. Can be deployed.

As an optional embodiment, the second tread mold cavity segment 122 may be disposed so as not to exceed the side portion 112b of the second tread mold base segment 112.

The second tread mold cavity segment 121 may include a mating surface 122a on the inner surface, and such mating surface 122a may have a shape for forming a surface corresponding to the tread of the tire to be formed after the curing process. Can be. For example, the corresponding surface 122a may include a curved surface.

As an optional embodiment, the corresponding surface 122a may include various patterns to be formed on the tread.

Further, as another example, the corresponding surface 122a may have a shape without a pattern.

The second tread mold cavity segment 122 may include side portions 122b on both sides based on the corresponding surface 122a.

The side portions 122b on both sides may be formed to correspond to the side portions 112b of the second tread mold base segment 112, for example, the side portions 122b may be side portions 112b of the second tread mold base segment 112. ).

5A to 5D are views for illustrating the use of the tire vulcanization mold set of FIG. 1 by way of example.

The tire vulcanization mold set 100 of this embodiment may be equipped with a tread mold cavity portion 120 on the tread mold base portion 110, and may also be separated. For example, a vulcanization process may be performed while the tread mold cavity portion 120 is mounted on the tread mold base portion 110.

For example, as shown in FIGS. 5A and 5B, the first tread mold cavity segment 121 of the tread mold cavity portion 120 is mounted on the first tread mold base segment 111 of the tread mold base portion 110. Can be, can be separated.

For example, as shown in FIG. 5B, in a state where the first tread mold cavity segment 121 of the tread mold cavity portion 120 is mounted on the first tread mold base segment 111 of the tread mold base portion 110. The vulcanization process may be performed, and after the vulcanization process, the first tread mold cavity segment 121 may be selectively separated from the first tread mold base segment 111 as illustrated in FIG. 5A.

At this time, the mounting process may be performed without a separate fixing member, and as an optional embodiment, a fixing member or fastening for stable placement of the first tread mold base segment 111 and the first tread mold cavity segment 121 during the curing process It may further include a member.

Further, the tire vulcanization mold set 100 of this embodiment of the present embodiment may be selectively mounted with a tread mold cavity part 120 having various corresponding surfaces on the tread mold base part 110, and may also be separated.

For example, as illustrated in FIGS. 5C and 5D, the first tread mold cavity segment 121 of the tread mold cavity portion 120 corresponds to the first tread mold base segment 111 of the tread mold base portion 110. One tread mold cavity segment 121" having a corresponding surface 121Z having a different shape from the surface 121a may be mounted or detached.

Without replacing the tread mold base portion 110, a tread mold cavity portion having various corresponding surfaces can be mounted or separated to perform a vulcanization process to easily form various tires including tread portions of various types.

It can be selectively applied to all embodiments described below using the tread mold cavity having various corresponding surfaces of FIGS. 5A to 5D.

FIG. 6 is a diagram illustrating an alternative embodiment of the tire curing mold set of FIG. 1.

Specifically, FIG. 6 may be a perspective view schematically showing the tire vulcanization mold set 100 ′.

Referring to FIG. 6, the tire curing mold set 100 ′ may include a tread mold base part 110 ′ and a tread mold cavity part 120 ′.

As an optional embodiment, the tire vulcanization mold set 100 ′ may include a tire-like shape, for example, an edge having a radius about a center point and extending in a circumferential direction.

The tread mold cavity portion 120 ′ may be disposed inside the tread mold base portion 110 ′.

The tread mold base portion 110' includes eight tread mold base segments 111', 112', 113', 114', 115', 116', 117', 118' arranged adjacent to each other along the circumferential direction. It can contain.

In addition, the tread mold cavity portions 120' are eight tread mold cavity segments 121', 122', 123', 124', 125 arranged adjacent to each other along the circumferential direction to correspond to the tread mold base portion 110' ', 126', 127', 128').

The tire curing mold set of the present embodiment may include a tread mold base portion and a tread mold cavity portion, the tread mold base portion has a plurality of tread mold base segments adjacent to each other, and the tread mold cavity portion includes a plurality of tread molds adjacent to each other. Cavity segments may be provided.

In addition, the tread mold cavity segment may be disposed on the tread mold base segment to perform a vulcanization process.

Through this, the tread vulcanization mold set can be easily assembled during the vulcanization process to proceed.

In addition, the tread mold cavity segment can be easily separated and mounted without replacing the tread mold base segment of the tread vulcanization mold set, thereby improving the convenience of the process.

In addition, at this time, the tread mold cavity segment having various corresponding surfaces can be replaced and mounted on the tread mold base segment to carry out a vulcanization process, through which the vulcanization process for various types of tires having various types of treads can be easily performed. This can increase the convenience and efficiency of the tire vulcanization process.

7 is a front view showing a tire vulcanization mold set according to another embodiment of the present invention, FIG. 8 is a cross-sectional view taken along the line VII-VII of FIG. 7, and FIG. 9 is taken along line VII-VII of FIG. It is a cut-away section.

7 to 9, the tire vulcanization mold set 200 of this embodiment may include a tread mold base portion 210 and a tread mold cavity portion 220. For convenience of description, description will be made focusing on differences from the above-described embodiments.

The tire vulcanization mold set 200 may be used in a vulcanization process using a green tire, for example, may be formed to correspond to the green tire to form a tire tread portion after the vulcanization process.

The tread mold base portion 210 may include a first tread mold base segment 211 and a second tread mold base segment 212 disposed at least adjacent to each other. That is, the tread mold base portion 210 may include at least two tread mold base segments arranged to be adjacent to each other.

The first tread mold base segment 211 and the second tread mold base segment 212 may be disposed to be close to each other or to be in close contact with each other by applying pressure during a vulcanization process.

As an optional embodiment, the tread mold base portion 210 may include three or more tread mold base segments. For example, as shown in FIG. 1, it may include eight tread mold base segments, specifically, the first tread mold base segment 211, the second tread mold base segment 212, and the third tread mold base segment. 213, 4th tread mold base segment 214, 5th tread mold base segment 215, 6th tread mold base segment 216, 7th tread mold base segment 217, and 8th tread mold base segment (218).

As an optional embodiment, the tread mold base portion 210 may be provided with a plurality of tread mold base segments to have an overall shape similar to a circle, for example, having a radius r based on a center point, and a circumferential direction (RT) It can have the edge of the circle in the extended form.

Referring to FIG. 8, the first tread mold base segment 211 of the tread mold base portion 210 may include a groove 211a on an inner surface, and the groove 211a may include the tread mold cavity portion 220. It may include the facing side. As an optional embodiment, the groove 211a may include an area in contact with a region of the tread mold cavity portion 220.

The groove 211a is formed to have a depth so that the tread mold cavity portion 220 can be stably formed and countered.

The first tread mold base segment 211 may include side portions 211b on both sides based on the groove 211a.

The side portions 211b on both sides may be formed to define both edges of the groove 211a as boundaries on both sides of the groove 211a.

The tread mold base portion 210 may include one or more side guide portions 211c.

The side guide portion 211c may be formed to face the tread mold cavity portion 220 on the side portion 211b, for example, on both sides. As an optional embodiment, it may be formed on only one side.

In addition, one side guide portion 211c may be formed on one side portion 211b, and as an optional embodiment, two or more side portions 211b may be formed.

The side guide portion 211c may have a groove shape. As an optional embodiment, the side guide portion 211c may have a protrusion shape.

Although not shown, the second tread mold base segment 212 of the tread mold base portion 210 can be applied by modifying the same as or similar to the first tread mold base segment 211 shown in FIG. 8. Omitted.

The tread mold cavity portion 220 may include at least a first tread mold cavity segment 221 and a second tread mold cavity segment (not shown).

The first tread mold cavity segment 221 and the second tread mold cavity segment (not shown) may be arranged to be close to each other or to be in close contact with each other by applying pressure during a curing process.

The first tread mold cavity segment 221 may correspond to the first tread mold base segment 211.

Also, the first tread mold cavity segment 221 and the second tread mold cavity segment (not shown) may be disposed to be adjacent to each other.

As an optional embodiment, the tread mold cavity portion 220 may include three or more tread mold cavity segments. For example, it may include eight tread mold cavity segments.

As an optional embodiment, the tread mold cavity portion 220 may be provided with a plurality of tread mold cavity segments to have an overall shape similar to a circle, for example, a circle having a radius based on a center point and extending in a circumferential direction. Can have an edge of

In addition, at this time, the maximum radius of the tread mold cavity portion 220 may have a value smaller than the maximum radius of the tread mold base portion 210.

The first tread mold cavity segment 221 of the tread mold cavity portion 220 corresponds to the first tread mold base segment 211 and specifically to the groove 211a of the first tread mold base segment 211 Can be deployed.

As an alternative embodiment, the first tread mold cavity segment 221 may be disposed so as not to exceed the side portion 211b of the first tread mold base segment 211.

The first tread mold cavity segment 221 may include a mating surface 221a on the inner surface, and such mating surface 221a may have a form for forming a surface corresponding to the tread of the tire to be formed after the curing process. Can be. For example, the corresponding surface 221a may include a curved surface.

As an optional embodiment, the corresponding surface 221a may include various patterns to be formed on the tread.

Further, as another example, the corresponding surface 221a may have a shape without a pattern.

The first tread mold cavity segment 221 may include side portions 221b on both sides based on the corresponding surface 221a.

The side portions 221b of both sides may be formed to correspond to the side portions 211b of the first tread mold base segment 211, for example, the side portions 221b of the side portions 211b of the first tread mold base segment 211 ).

The tread mold cavity portion 220 may include one or more side guide counterparts 221c.

The side guide correspondence portion 221c is formed on the side portion 221b and may be formed to face the side guide portion 211C of the tread mold base portion 210 and correspond to the side guide portion 211C.

For example, the side guide counter parts 221c may be formed on both side parts 221b. As an optional embodiment, it may be formed on only one side.

In addition, one side guide corresponding portion 221c may be formed on one side portion 221b, and as an optional embodiment, two or more side portions 221b may be formed.

The side guide counterpart 221c may have a shape of a protrusion. For example, it may have a protrusion having a shape corresponding to the side guide portion 211C.

As an optional embodiment, when the side guide portion 211c has a protrusion shape, the side guide counter portion 221C may have a groove shape.

The first tread mold cavity segment 221 with respect to the first tread mold base segment 211 through the side guide portion 211C and the corresponding side guide corresponding portion 221C can stably move, and Separation can easily proceed.

In addition, the side guide portion 211C may have a long elongated shape. For example, as shown in Figure 9, both ends of the first tread mold base segment 211, specifically, both ends of the first tread mold base segment 211 based on the circumferential direction of the tread mold base portion 210 The side guide portion 211C may have an elongated shape to reach to.

In addition, the side guide corresponding portion 221C may have an extended shape to correspond to the side guide portion 211C.

As an optional embodiment, the side guide portion 211C and the side guide counter portion 221C may have a curved shape in the longitudinal direction.

The second tread mold cavity segment (not shown) of the tread mold cavity portion 220 corresponds to the second tread mold base segment 212, specifically, the same as or similar to the first tread mold cavity segment 221 As it can be applied, detailed description is omitted.

FIG. 10 is a view showing an alternative embodiment of the tire vulcanization mold set of FIG. 7, and FIG. 11 is a view for exemplarily illustrating the use of the tire vulcanization mold set of FIG. 10.

The first tread mold cavity segment 221 ′ may be mounted on the first tread mold base segment 211 ′ of the tire vulcanization mold set 200 ′ and may be separated. For example, the first tread while the first tread mold base segment 211' and the first tread mold cavity segment 221' move in the first direction MD1 and the opposite second direction MD2. The first tread mold cavity segment 221 ′ may be mounted on the mold base segment 211 ′ and may be separated.

A groove 211a' may be formed on the inner surface of the first tread mold base segment 211' and a first tread mold cavity segment 221' having a corresponding surface 221a' may be disposed.

The side guide portion 211c' is formed on the side portion 211b', and the side guide correspondence portion 221c' is formed to face the side guide portion 211C' on the side portion 221b', and the side guide portion 211c' The first tread mold base segment in the first direction MD1 and the second opposite direction MD2 by using') and the side guide counterpart 221c', e.g., using a form such as a guide rail. The first tread mold cavity segment 221 ′ may be mounted to the first tread mold base segment 211 ′ while the 211 ′ and the first tread mold cavity segment 221 ′ are relatively moved, and may be separated. have.

For example, as illustrated in FIG. 10, a vulcanization process may be performed in a state where the first tread mold cavity segment 221 ′ is mounted on the first tread mold base segment 211 ′, and optionally after the vulcanization process. As shown in the figure, the first tread mold cavity segment 221' can be separated from the first tread mold base segment 211'.

At this time, the mounting process can be performed without a separate fixing member. In addition, the first tread mold cavity segment 221' is separated or separated from the first tread mold base segment 211' during the curing process using the side guide portion 211c' and the side guide counter portion 221c'. Things can be reduced or prevented.

As an optional embodiment, a fixing member or a fastening member for stable placement of the first tread mold base segment 211' and the first tread mold cavity segment 221' during the curing process may be further included.

The tire curing mold set of the present embodiment may include a tread mold base portion and a tread mold cavity portion, the tread mold base portion has a plurality of tread mold base segments adjacent to each other, and the tread mold cavity portion includes a plurality of tread molds adjacent to each other. Cavity segments may be provided.

In addition, the tread mold cavity segment may be disposed on the tread mold base segment to perform a vulcanization process.

Through this, the tread vulcanization mold set can be easily assembled during the vulcanization process to proceed.

In addition, by forming a side guide portion in the tread mold base segment of the tread mold base portion and corresponding thereto, a side guide counter portion is formed in the tread mold cavity segment of the tread mold cavity portion, and thus the tread mold base segment and tread mold are formed along the side guide portion and the side guide counter portion. The cavity segment can move relatively. Through this, the tread mold cavity segment can be easily placed or separated in the tread mold base segment.

In addition, the side guide portion and the side guide counterpart may be a locking jaw to reduce or prevent the tread mold cavity segment from being separated from or separated from the tread mold base segment during the vulcanization process, and accordingly, the tread mold cavity segment during the vulcanization process. It is possible to improve the efficiency of the vulcanization process by enabling a stable position.

In addition, the tread mold cavity segment can be easily separated and mounted without replacing the tread mold base segment of the tread vulcanization mold set, thereby improving the convenience of the process.

In addition, at this time, the tread mold cavity segment having various corresponding surfaces can be replaced and mounted on the tread mold base segment to carry out a vulcanization process, through which the vulcanization process for various types of tires having various types of treads can be easily performed. This can increase the convenience and efficiency of the tire vulcanization process.

12 is a front view showing a tire vulcanization mold set according to another embodiment of the present invention, FIG. 13 is a view seen from the direction A of FIG. 12, and FIG. 14 is taken along the line IVIV-XIV in FIGS. 12 and 13 It is a cut-away section.

12 to 14, the tire vulcanization mold set 300 of the present embodiment may include a tread mold base portion 310 and a tread mold cavity portion 320. For convenience of description, description will be made focusing on differences from the above-described embodiments.

The tire vulcanization mold set 300 may be used in a vulcanization process using a green tire, for example, may be formed to correspond to a green tire to form a tire tread portion after the vulcanization process.

The tread mold base portion 310 may include a first tread mold base segment 311 and a second tread mold base segment 312 disposed at least adjacent to each other. That is, the tread mold base portion 310 may include at least two tread mold base segments arranged to be adjacent to each other.

The first tread mold base segment 311 and the second tread mold base segment 312 may be disposed to be close to each other or in close contact with each other by applying pressure during a vulcanization process.

As an optional embodiment, the tread mold base portion 310 may include three or more tread mold base segments. For example, as shown in Figure 1 may include eight tread mold base segments, specifically the first tread mold base segment 311, the second tread mold base segment 312, the third tread mold base segment 313, fourth tread mold base segment 314, fifth tread mold base segment 315, sixth tread mold base segment 316, seventh tread mold base segment 317, and eighth tread mold base segment 318.

As an optional embodiment, the tread mold base portion 310 may be provided with a plurality of tread mold base segments to have an overall shape similar to a circle, for example, having a radius r based on a center point, and a circumferential direction (RT) It can have the edge of the circle in the extended form.

Referring to FIG. 14, the first tread mold base segment 311 of the tread mold base portion 310 may include a groove 311a on an inner surface, and the groove 311a may include a tread mold cavity portion 320. It may include the facing side. As an optional embodiment, the groove 311a may include an area in contact with a region of the tread mold cavity portion 320.

The groove 311a is formed to have a depth so that the tread mold cavity portion 320 can be stably formed and countered.

The first tread mold base segment 311 may include side portions 311b on both sides based on the groove 311a.

The side portions 311b on both sides may be formed to define both edges of the groove 311a as a boundary on both sides of the groove 311a.

The tread mold base portion 310 may include one or more through portions 311H.

The through portion 311H may be formed to face the groove 311a, and the through portion 311H may be disposed to overlap the tread mold cavity portion 320.

One or more through-holes 311H may be formed on one tread mold base segment 311, for example, two, and another example may be formed.

Through the through portion 311H, the mounted state of the tread mold cavity portion 320 can be visually confirmed.

In addition, the air between the tread mold base part 310 and the tread mold cavity part 320 is discharged through the through part 311H, and the precise arrangement between the tread mold base part 310 and the tread mold cavity part 320 Mounting may be possible.

Although not shown, the through portion 311H can be selectively applied to the above-described embodiments and embodiments to be described later.

Although not shown, the second tread mold base segment 312 of the tread mold base portion 310 can be modified and applied to the same or similar to the first tread mold base segment 311 shown in FIG. 14. Omitted.

The tread mold cavity portion 320 may include a plurality of adjacent tread mold cavity segments, and the tread mold cavity portion 320 of FIG. 14 shows one of the first tread mold cavity segments 321 Can be.

The first tread mold cavity segment 321 may correspond to the first tread mold base segment 311.

As an optional embodiment, the tread mold cavity portion 320 may include three or more tread mold cavity segments. For example, it may include eight tread mold cavity segments.

As an optional embodiment, the tread mold cavity portion 320 may be provided with a plurality of tread mold cavity segments to have an overall shape similar to a circle, for example, a circle having a radius based on a center point and extending in a circumferential direction. Can have an edge of

In addition, at this time, the maximum radius of the tread mold cavity portion 320 may have a smaller value than the maximum radius of the tread mold base portion 310.

The first tread mold cavity segment 321 may be arranged to correspond to the first tread mold base segment 311 and specifically to the groove 311a of the first tread mold base segment 311.

As an optional embodiment, the first tread mold cavity segment 321 may be disposed not to exceed the side portion 311b of the first tread mold base segment 311.

The first tread mold cavity segment 321 may include a mating surface 321a on the inner surface, and such mating surface 321a may have a form for forming a surface corresponding to the tread of the tire to be formed after the curing process. Can be. For example, the corresponding surface 321a may include a curved surface.

As an optional embodiment, the corresponding surface 321a may include various patterns to be formed on the tread.

Further, as another example, the corresponding surface 321a may have a shape without a pattern.

The tread mold cavity segment 321 may include side portions 321b on both sides based on the corresponding surface 321a.

The side portions 321b on both sides may be formed to correspond to the side portions 311b of the first tread mold base segment 311, for example, the side portions 321b may be side portions 311b of the first tread mold base segment 311. ).

The tire curing mold set of the present embodiment may include a tread mold base portion and a tread mold cavity portion, the tread mold base portion has a plurality of tread mold base segments adjacent to each other, and the tread mold cavity portion includes a plurality of tread molds adjacent to each other. Cavity segments may be provided.

In addition, the tread mold cavity segment may be disposed on the tread mold base segment to perform a vulcanization process.

Through this, the tread vulcanization mold set can be easily assembled during the vulcanization process to proceed.

Further, at least one through portion may be formed in the tread mold base segment of the tread mold base portion, and the through portion may overlap with the tread mold cavity portion corresponding to the groove.

Through this, it may be easy to check whether the tread mold cavity portion is normally mounted on the tread mold base portion, and if necessary, the tread mold cavity portion may be mounted on the tread mold base portion or detached using a long tool.

In addition, it is possible to correct an abnormal pressure state by discharging air that may occur between the tread mold base portion and the tread mold cavity portion.

In addition, the tread mold cavity segment can be easily separated and mounted without replacing the tread mold base segment of the tread vulcanization mold set, thereby improving the convenience of the process.

In addition, at this time, the tread mold cavity segment having various corresponding surfaces can be replaced and mounted on the tread mold base segment to carry out a vulcanization process, through which the vulcanization process for various types of tires having various types of treads can be easily performed. This can increase the convenience and efficiency of the tire vulcanization process.

15 is a front view showing a tire vulcanization mold set according to another embodiment of the present invention, FIG. 16 is a cross-sectional view taken along line XVI-XVI in FIG. 15, and FIG. 17 is a view seen from K in FIG. .

15 to 17, the tire vulcanization mold set 400 of the present embodiment may include a tread mold base portion 410 and a tread mold cavity portion 420. For convenience of description, description will be made focusing on differences from the above-described embodiments.

The tire vulcanization mold set 400 may be used in a vulcanization process using a green tire, and may be formed to form a tire tread portion after the vulcanization process, for example, corresponding to the green tire.

The tread mold base portion 410 may include a first tread mold base segment 411 and a second tread mold base segment 412 disposed at least adjacent to each other. That is, the tread mold base portion 410 may include at least two tread mold base segments arranged to be adjacent to each other.

The first tread mold base segment 411 and the second tread mold base segment 412 may be disposed to be close to each other or in close contact with each other by applying pressure during a vulcanization process in a form of being separated from each other.

As an optional embodiment, the tread mold base portion 410 may include three or more tread mold base segments. For example, as shown in Figure 1 may include eight tread mold base segments, specifically the first tread mold base segment 411, the second tread mold base segment 412, the third tread mold base segment 413, fourth tread mold base segment 414, fifth tread mold base segment 415, sixth tread mold base segment 416, seventh tread mold base segment 417, and eighth tread mold base segment (418).

As an optional embodiment, the tread mold base portion 410 may be provided with a plurality of tread mold base segments to have an overall shape similar to a circle, for example, having a radius r based on a center point, and a circumferential direction (RT) It can have the edge of the circle in the extended form.

Referring to FIG. 16, the first tread mold base segment 411 of the tread mold base portion 410 may include a groove 411a on the inner surface, and the groove 411a may include the tread mold cavity portion 420. It may include the facing side. As an optional embodiment, the groove 411a may have an area in contact with a region of the tread mold cavity portion 420.

The groove 411a is formed to have a depth so that the tread mold cavity portion 420 is stably formed and corresponding.

The first tread mold base segment 411 may include side portions 411b on both sides based on the groove 411a.

The side portions 411b on both sides may be formed to define both edges of the groove 411a as boundaries on both sides of the groove 411a.

The tread mold base portion 410 may include one or more side guide portions 411c.

The side guide portion 411c may be formed to face the tread mold cavity portion 420 on the side portion 411b, for example, may be formed on both sides. As an optional embodiment, it may be formed on only one side.

In addition, one side guide portion 411c may be formed on one side portion 411b, and as an optional embodiment, two or more side portions 411b may be formed.

The side guide portion 411c may have a groove shape. As an optional embodiment, the side guide portion 411c may have a protrusion shape.

The tread mold base portion 410 may include one or more bottom guide portions 411d.

The bottom guide portion 411d may be formed on the main surface of the groove 411a. For example, when placing the green tire, the bottom guide portion 411d may be formed in an area corresponding to the tread portion.

The bottom guide portion 411d may be formed to face the tread mold cavity portion 420 in the groove 411a, for example, may include two bottom guide portions 411d spaced apart from each other.

Also, as an optional embodiment, one or three bottom guide portions 411d may be formed.

The bottom guide portion 411d may have a protrusion shape. As an optional embodiment, the bottom guide portion 411d may have an inclined protruding shape, for example, may be formed to have a larger width as it protrudes from the surface of the groove 411a. Through this, it is possible to easily guide the slide motion in the circumferential direction (RT) than the guide through the bottom guide counterpart 421d and the vertical motion, which will be described later.

As an optional embodiment, the bottom guide portion 411d may have a protrusion shape.

Although not shown, the second tread mold base segment 412 of the tread mold base portion 410 can be modified and applied to the same or similar to the first tread mold base segment 411 shown in FIG. 16. Omitted.

The tread mold cavity portion 420 may include at least a first tread mold cavity segment 421 and a second tread mold cavity segment (not shown).

The first tread mold cavity segment 421 and the second tread mold cavity segment (not shown) may be disposed to be close to each other or to be in close contact with each other by applying pressure during a curing process.

The first tread mold cavity segment 421 may correspond to the first tread mold base segment 411.

Also, the first tread mold cavity segment 421 and the second tread mold cavity segment (not shown) may be disposed to be adjacent to each other.

As an optional embodiment, the tread mold cavity portion 420 may include three or more tread mold cavity segments. For example, it may include eight tread mold cavity segments.

As an optional embodiment, the tread mold cavity portion 420 may be provided with a plurality of tread mold cavity segments to have an overall shape similar to a circle, for example, a circle having a radius based on a center point and extending in a circumferential direction. Can have an edge of

In addition, at this time, the maximum radius of the tread mold cavity portion 420 may have a value smaller than the maximum radius of the tread mold base portion 410.

The first tread mold cavity segment 421 of the tread mold cavity portion 420 corresponds to the first tread mold base segment 411 and specifically to correspond to the groove 411a of the first tread mold base segment 411 Can be deployed.

As an optional embodiment, the first tread mold cavity segment 421 may be disposed so as not to exceed the side portion 411b of the first tread mold base segment 411.

The first tread mold cavity segment 421 may include a mating surface 421a on the inner surface, and such mating surface 421a may have a shape for forming a surface corresponding to the tread of the tire to be formed after the curing process. Can be. For example, the corresponding surface 421a may include a curved surface.

As an optional embodiment, the corresponding surface 421a may include various patterns to be formed on the tread.

Further, as another example, the corresponding surface 421a may have a shape without a pattern.

The first tread mold cavity segment 421 may include side portions 421b on both sides based on the corresponding surface 421a.

The side portions 421b on both sides may be formed to correspond to the side portions 411b of the first tread mold base segment 411, for example, the side portions 421b may be side portions 411b of the first tread mold base segment 411 ).

The tread mold cavity portion 420 may include one or more side guide counterparts 421c.

The side guide correspondence portion 421c is formed on the side portion 421b and may be formed to face the side guide portion 411C of the tread mold base portion 410 and correspond to the side guide portion 411C.

For example, the side guide counter parts 421c may be formed on both side surfaces 421b. As an optional embodiment, it may be formed on only one side.

In addition, one side guide corresponding portion 421c may be formed on one side portion 421b, and as an optional embodiment, two or more side portions 421b may be formed.

The side guide counterpart 421c may have a shape of a protrusion. For example, a protrusion having a shape corresponding to the side guide portion 411C may be provided.

As an optional embodiment, when the side guide portion 411c has a protrusion shape, the side guide counter portion 421C may have a groove shape.

The first tread mold cavity segment 421 can move stably with respect to the first tread mold base segment 411 through the side guide portion 411C and the corresponding side guide corresponding portion 421C. Separation can easily proceed.

In addition, the side guide portion 411C may have a long elongated shape. For example, as shown in Figure 9, both ends of the first tread mold base segment 411, specifically, both ends of the first tread mold base segment 411 based on the circumferential direction of the tread mold base portion 410 The side guide portion 411C may have an elongated shape to reach to.

In addition, the side guide corresponding portion 421C may have an extended shape to correspond to the side guide portion 411C.

As an optional embodiment, the side guide portion 411C and the side guide counter portion 421C may have a curved shape in the longitudinal direction.

The tread mold cavity portion 420 may include one or more bottom guide counterparts 421d.

The bottom guide counter portion 421d may be formed on a surface facing the counter surface 421a. For example, when placing the green tire, the bottom guide portion 411d may be formed in an area corresponding to the tread portion.

The bottom guide counterpart 421d may be formed to face the tread mold base segment 411, for example, may include two bottom guide counterparts 412d spaced apart from each other, and the bottom guide counterpart 421d ) May be disposed corresponding to the bottom guide portion 411d.

In addition, the bottom guide counterpart 421d may have a groove shape. For example, a groove having a shape corresponding to a protruding shape of the bottom guide portion 411d may be provided.

As an optional embodiment, when the bottom guide portion 411d has a groove shape, the bottom guide counter portion 421d may have a protrusion shape.

The first tread mold cavity segment 421 can move stably with respect to the first tread mold base segment 411 through the bottom guide portion 411d and the corresponding bottom guide correspondence portion 421d. Separation can easily proceed.

In addition, the bottom guide portion 411d may have a long elongated shape. For example, as shown in Figure 17, both ends of the first tread mold base segment 411, specifically, both ends of the first tread mold base segment 411 based on the circumferential direction of the tread mold base portion 410 The bottom guide portion 411d may have an elongated shape to reach to.

In addition, the bottom guide corresponding portion 421d may also have an extended shape to correspond to the bottom guide portion 411d.

As an optional embodiment, the bottom guide portion 411d and the bottom guide counter portion 421d may have a curved shape in the longitudinal direction.

The second tread mold cavity segment (not shown) of the tread mold cavity portion 420 corresponds to the second tread mold base segment 412, and specifically, is the same as or similar to the first tread mold cavity segment 421 As it can be applied, detailed description is omitted.

18 is a view showing an alternative embodiment of the tire vulcanization mold set of FIG. 15, FIG. 19 is a view for exemplarily illustrating the use of the tire vulcanization mold set of FIG. 18, and FIG. 20 is an L direction of FIG. It is the figure seen from.

The first tread mold cavity segment 421 ′ may be mounted on the first tread mold base segment 411 ′ of the tire vulcanization mold set 400 ′ and may be separated. For example, the first tread while the first tread mold base segment 411' and the first tread mold cavity segment 421' move in the first direction MD1 and the opposite second direction MD2. The first tread mold cavity segment 421 ′ may be mounted to the mold base segment 411 ′ and may be separated.

A groove 411a' may be formed on the inner surface of the first tread mold base segment 411' and a first tread mold cavity segment 421' having a corresponding surface 421a' may be disposed.

The side guide portion 411c' is formed on the side portion 411b', and the side guide correspondence portion 421c' is formed to face the side guide portion 411C' on the side portion 421b', and the side guide portion 411c The first tread mold base segment in the first direction MD1 and the second opposite direction MD2 by using') and the side guide counterpart 421c', for example, using a shape such as a guide rail. The first tread mold cavity segment 421' may be mounted to and detached from the first tread mold base segment 411' while the 411' and the first tread mold cavity segments 421' move relatively. have.

For example, as illustrated in FIG. 18, a vulcanization process may be performed while the first tread mold cavity segment 421 ′ is mounted on the first tread mold base segment 411 ′, and optionally after the vulcanization process. As shown in the figure, the first tread mold cavity segment 421' can be separated from the first tread mold base segment 411'.

At this time, the mounting process can be performed without a separate fixing member. In addition, the first tread mold cavity segment 421' is separated or separated from the first tread mold base segment 411' during the curing process using the side guide portion 411c' and the side guide counter portion 421c'. Things can be reduced or prevented.

As an optional embodiment, a fixing member or a fastening member for stable placement of the first tread mold base segment 411' and the first tread mold cavity segment 421' during the curing process may be further included.

In addition, by using the bottom guide portion 411d' and the bottom guide counterpart 421d', for example, using a shape such as a guide rail, the first direction MD1 and the opposite second direction MD2 are used. As the first tread mold base segment 411 ′ and the first tread mold cavity segment 421 ′ are relatively moved, the first tread mold cavity segment 421 ′ is mounted on the first tread mold base segment 411 ′. Can be, can be separated.

As an optional embodiment, the first tread mold in the first direction MD1 and the second opposite direction MD2 opposite thereto by having an inclined shape to increase in width based on the direction in which the bottom guide portion 411d' protrudes. While the base segment 411' and the first tread mold cavity segment 421' move relatively stably, the first tread mold base segment 411' and the first tread mold cavity segment 421' are in an undesired direction. It is possible to reduce or prevent deviation, separation, or abnormal movement.

In addition, as an optional embodiment, the first tread mold base segment is formed in the first direction MD1 and the second opposite direction MD2 by forming the through portion 411H' in the first tread mold base segment 411'. The relative movement of the 411' and the first tread mold cavity segment 421' can be easily confirmed, and if necessary, the support tool is inserted into the through portion 411H' to form the first tread mold base segment 411' and The relative movement of the first tread mold cavity segment 421' may be assisted.

The tire curing mold set of the present embodiment may include a tread mold base portion and a tread mold cavity portion, the tread mold base portion has a plurality of tread mold base segments adjacent to each other, and the tread mold cavity portion includes a plurality of tread molds adjacent to each other. Cavity segments may be provided.

In addition, the tread mold cavity segment may be disposed on the tread mold base segment to perform a vulcanization process.

Through this, the tread vulcanization mold set can be easily assembled during the vulcanization process to proceed.

In addition, by forming a side guide portion in the tread mold base segment of the tread mold base portion and corresponding thereto, a side guide counter portion is formed in the tread mold cavity segment of the tread mold cavity portion, and thus the tread mold base segment and tread mold are formed along the side guide portion and the side guide counter portion. The cavity segment can move relatively. Through this, the tread mold cavity segment can be easily placed or separated in the tread mold base segment.

In addition, the side guide portion and the side guide counterpart may be a locking jaw to reduce or prevent the tread mold cavity segment from being separated from or separated from the tread mold base segment during the vulcanization process, and accordingly, the tread mold cavity segment during the vulcanization process. It is possible to improve the efficiency of the vulcanization process by enabling a stable position.

Meanwhile, a tread mold cavity segment can be easily disposed or separated in a tread mold base segment by forming a bottom guide portion in the tread mold base segment of the tread mold base portion and forming a bottom guide counter portion in the tread mold cavity segment of the tread mold cavity portion. have.

In addition, the bottom guide portion and the bottom guide counterpart may be a locking jaw to reduce or prevent the tread mold cavity segment from being separated from or separated from the tread mold base segment during the vulcanization process, and accordingly, the tread mold cavity segment during the vulcanization process. It is possible to improve the efficiency of the vulcanization process by enabling a stable position.

In addition, the tread mold cavity segment can be easily separated and mounted without replacing the tread mold base segment of the tread vulcanization mold set, thereby improving the convenience of the process.

In addition, at this time, the tread mold cavity segment having various corresponding surfaces can be replaced and mounted on the tread mold base segment to carry out a vulcanization process, through which the vulcanization process for various types of tires having various types of treads can be easily performed. This can increase the convenience and efficiency of the tire vulcanization process.

21 is a view showing an alternative embodiment of the tire curing mold set of FIG. 15.

Specifically, FIG. 21 may be a perspective view schematically showing a tire vulcanization mold set 400".

Referring to FIG. 21, the tire vulcanization mold set 400 ″ may include a tread mold base 410 ”and a tread mold cavity 420 ”.

As an alternative embodiment, the tire vulcanization mold set 400" may include a tire-like shape, for example, an edge having a radius about the center point and extending in a circumferential direction.

The tread mold cavity portion 420" may be disposed inside the tread mold base portion 410".

The tread mold base portion 410" includes eight tread mold base segments 411", 412", 413", 414", 415", 416", 417", 418" arranged adjacent to each other along the circumferential direction. It can contain.

In addition, the tread mold cavity portions 420" are eight tread mold cavity segments 421", 422", 423", 424", 425 arranged adjacent to each other along the circumferential direction to correspond to the tread mold base portion 410". ", 426", 427", 428").

As an optional embodiment, the tread mold base portion 410" may include a through portion 415H", for example, eight mold base segments 411", 412", 413", 414", 415", 416 ", 417", 418") may be formed through each of the through portion (415H").

22 is a view schematically showing a tire vulcanizing apparatus according to an embodiment of the present invention.

Referring to FIG. 22, the tire vulcanization apparatus 1000 includes a tire vulcanization mold set 100, a first side mold 1160, and a second side mold 1170.

The first side mold 1160 may be formed to correspond to a side surface of the green tire during the curing process using the green tire, for example, an area of the side wall, to form a tire side shape adjacent to the tire tread after the curing process.

As an optional embodiment, the slide plate 1180 may be disposed adjacent to the first side mold 1160. Specifically, the slide plate 1180 may be disposed around the first side mold 1160, for example, may be disposed to surround the bottom portion around the bottom portion of the first side mold 1160, and optionally the first side It may be connected to the mold 1160.

The second side mold 1170 may be disposed to face the first side mold 1160. The second side mold 1170 may be formed to correspond to a side surface of the green tire during the vulcanization process using the green tire and form a tire side shape adjacent to the tire tread after the vulcanization process. That is, the first side mold 1160 and the second side mold 170 may form a shape of one side of the tire and the other side facing the tire.

The tire curing mold set 100 may be disposed between the first side mold 1160 and the second side mold 1170 to connect the first side mold 1160 and the second side mold 1170.

The tire vulcanization mold set 100 may include a tread mold base portion 110 and a tread mold cavity portion 120. For example, the tire vulcanization mold set 100 may be the tire vulcanization mold set 100 of FIG. 1 described above.

It is a matter of course that the tire vulcanization apparatus 1000 as an optional embodiment can apply various tire vulcanization mold sets and variations thereof.

In the vulcanization process using the green tire, the tread mold cavity portion 120 of the tire vulcanization mold set 100 corresponds to one surface of the green tire and corresponds to the tire tread after the vulcanization process, and corresponds to the tread of the tire after the vulcanization process. It can be formed to have a mold surface.

In addition, as another alternative embodiment, the container segment CS may be disposed around the tire vulcanization mold set 100, and may be disposed on the slide plate 1180, for example. In addition, the container outer ring OR may be disposed to surround the container segment CS. At this time, the container segment CS may have various shapes, for example, may have an outer circumferential surface of an inclined shape, and the container outer ring OR moves up and down with respect to such an inclined surface and accordingly to the container segment CS The container segment CS can be moved inward by applying a force.

In addition, as an optional embodiment, the lower plate LP may be disposed under the first side mold 1160. That is, the first side mold 1160 may be disposed on the lower plate LP, and the second side mold 1170 may be disposed on the first side mold 1160.

In addition, as another alternative embodiment, the upper plate UP may be disposed on the opposite side of the upper side of the second side mold 1170, that is, the area of the second side mold 1170 facing the first side mold 160. Can be.

The tire vulcanization apparatus of the present embodiment includes a tire vulcanization mold set, and the tire vulcanization mold set may include a tread mold base portion and a tread mold cavity portion. The tread mold base portion may include a plurality of adjacent tread mold base segments, and the tread mold cavity portion may include a plurality of adjacent tread mold cavity segments.

The tread mold base portion and the tread mold cavity portion of the tread mold set can facilitate vulcanization of the tire including the desired shape of the tread. In addition, the tread mold cavity portion having a variety of corresponding surfaces can be easily replaced and mounted, whereby the vulcanization process for various types of tires can be easily performed, and the vulcanization process is reduced by reducing the number of replacement parts and components of the vulcanization device. To improve efficiency.

As described above, the present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. . Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

The specific implementations described in the embodiments are examples, and do not limit the scope of the embodiments in any way. For brevity of the specification, descriptions of conventional electronic configurations, control provision methods, software, and other functional aspects of the provision methods may be omitted. In addition, the connection or connection members of the lines between the components shown in the drawings are illustrative examples of functional connections and/or physical or circuit connections. In the actual device, alternative or additional various functional connections, physical It can be represented as a connection, or circuit connections. In addition, unless specifically mentioned, such as "essential", "important", etc., it may not be a necessary component for the application of the present invention.

In the specification (especially in the claims) of the embodiment, the use of the term “above” and similar indicating terms may be in both singular and plural. In addition, in the case where a range is described in the embodiment, as including the invention to which individual values belonging to the range are applied (if there is no contrary description), it is the same as describing each individual value constituting the range in the detailed description. . Finally, if there is no explicit or contradictory description of steps constituting the method according to the embodiment, the steps may be performed in a suitable order. The embodiments are not necessarily limited to the order in which the steps are described. The use of all examples or exemplary terms (eg, etc.) in the embodiments is merely for describing the embodiments in detail, and the scope of the embodiments is limited due to the examples or exemplary terms unless defined by the claims. It is not. In addition, those skilled in the art can recognize that various modifications, combinations, and changes can be configured according to design conditions and factors within the scope of the appended claims or equivalents thereof.

100, 200, 300, 400: Tire curing mold set
110, 210, 310, 410: tread mold base portion
120, 220, 320, 420: tread mold cavity part
111, 211,311,411: tread mold base segment
121, 221,321,421: tread mold cavity segment

Claims (8)

A set of tire vulcanization molds formed for use in a vulcanization process for green tires,
A tread mold base portion having a first tread mold base segment and a second tread mold base segment disposed at least adjacent to each other; And
A first tread mold cavity segment corresponding to the first tread mold base segment and disposed inside the first tread mold base segment and a second tread mold base segment corresponding to the first tread mold base segment and disposed inside the second tread mold base segment It comprises a tread mold cavity portion having a second tread mold cavity segment,
The first tread mold base segment and the first tread mold cavity segment have widths on both sides based on a direction crossing the circumferential direction of the green tire,
The width of the first tread mold base segment has a value greater than the width of the first tread mold cavity segment,
The first tread mold base segment includes a tire vulcanization mold set including one formed to surround both sides of the first tread mold cavity segment based on the width direction. According to claim 1,
The tread mold cavity portion is a tire vulcanization mold set formed to be mounted and detachable from the tread mold base portion. According to claim 1,
The first tread mold base segment or the second tread mold base segment is a tire vulcanization mold set comprising a groove formed therein. According to claim 3,
The set of tire vulcanization molds wherein the first tread mold cavity segment or the second tread mold cavity segment is disposed to correspond to the groove. According to claim 4,
The first tread mold cavity segment or the second tread mold cavity segment includes a corresponding surface formed on the opposite side of the surface facing the groove when disposed to correspond to the groove,
The corresponding surface is a tire vulcanization mold set comprising a shape corresponding to the tread of the vulcanization process main tire using the green tire. According to claim 1,
A tire vulcanization mold set formed to make relative movement of the tread mold base portion and the tread mold cavity portion. According to claim 1,
A set of tire vulcanization molds capable of performing a vulcanization process using a tread mold cavity portion having a different shape by being formed to be replaceable with respect to the tread mold base portion. A tire vulcanizing apparatus formed to perform a vulcanization process for a green tire,
A tire vulcanization mold set disposed to face one surface of the green tire during the vulcanization process;
A first side mold disposed on one side of the tire curing mold set; And
A second side mold disposed on the other side of the tire curing mold set to face the first side mold,
The tire curing mold set,
A tread mold base portion having a first tread mold base segment and a second tread mold base segment disposed at least adjacent to each other; And
A first tread mold cavity segment corresponding to the first tread mold base segment and disposed inside the first tread mold base segment and a second tread mold base segment corresponding to the first tread mold base segment and disposed inside the second tread mold base segment It comprises a tread mold cavity portion having a second tread mold cavity segment,
The first tread mold base segment and the first tread mold cavity segment have widths on both sides based on a direction crossing the circumferential direction of the green tire,
The width of the first tread mold base segment has a value greater than the width of the first tread mold cavity segment,
The first tread mold base segment comprises a tire vulcanizing device including one formed to surround both sides of the first tread mold cavity segment based on the width direction.

Images