KR102509097B1 - Tire curing apparatus and method of curing tire - Google Patents

Abstract

A tire curing apparatus according to an embodiment of the present invention includes a first side mold; a second side mold disposed to face the first side mold; a tread mold disposed between the first side mold and the second side mold to connect the first side mold and the second side mold; and a groove area formed on one area of a surface of the first side mold facing the tread mold, wherein a temperature measuring member is disposed in the groove area, and a temperature measuring member is fixed in the groove area to measure temperature. A member fixing member is disposed.

Description

Tire curing device and tire curing method {TIRE CURING APPARATUS AND METHOD OF CURING TIRE}

Embodiments of the present invention relate to a tire curing apparatus and a tire curing method.

Vehicles driven by users are composed of many parts, and among them, tires have a great influence on the operation of the vehicle, and in particular, can be said to be one of the key parts for securing the user's safety.

In particular, due to the development of the industry, the movement of logistics increases, the amount of movement due to the increase in personal workload, and the amount of automobile operation due to the increase in family life tends to increase.

Meanwhile, looking at the tire manufacturing process, it is possible to manufacture semi-finished products by mixing materials having elasticity and flexibility or other materials, and then molding the semi-finished products to manufacture green tires.

This green tire can then be vulcanized to produce a tire. For tire production, heat and pressure are required for green tires made of each rubber composition. The mold on the outside of the tire and the bladder on the inside play that role. The tire vulcanizer can be produced by fastening the container in which the tire mold is assembled to the vulcanizer, and this working process is referred to as a vulcanization process.

In the curing process, there is a change in tire quality and performance depending on the curing temperature applied during curing and the composition of the curing process step. At this time, the curing temperature is high, and temperature control is essential. To this end, the curing temperature may be measured through a temperature measuring line connected to the green tire.

However, the temperature measurement line that is connected to the green tire and comes out of the mold may be disconnected when the vulcanizer is closed due to shaking during operation, so the operator must manually hold the temperature measurement line near the vulcanizer Safety issues may arise.

The present invention is to solve the above problems, and an object of the present invention is to provide a tire curing apparatus including a device capable of fixing a temperature measuring member for measuring the curing temperature during curing.

However, these problems are exemplary, and the problem to be solved by the present invention is not limited thereto.

A tire curing apparatus according to an embodiment of the present invention includes a first side mold; a second side mold disposed to face the first side mold; a tread mold disposed between the first side mold and the second side mold to connect the first side mold and the second side mold; and a groove area formed on one area of a surface of the first side mold facing the tread mold, wherein a temperature measuring member is disposed in the groove area, and a temperature measuring member is fixed in the groove area to measure temperature. A member fixing member is disposed.

In the tire curing device according to an embodiment of the present invention, the temperature measuring member fixing member includes first and second fixing members, and the first and second fixing members may be coupled to each other to have various widths.

In the tire curing device according to an embodiment of the present invention, the first fixing member includes a first step groove portion formed by a plurality of steps, and the second fixing member includes a second step groove portion formed by a plurality of steps, , The first step groove portion and the second step groove portion may be coupled to each other.

In the tire curing device according to an embodiment of the present invention, the first step groove portion is formed with a plurality of steps in an oblique direction based on the coupling direction between the first and second fixing members, and the second step groove portion is A plurality of steps may be formed in an oblique direction based on a coupling direction between 1 and 2 fixing members, and the first step groove and the second step groove may be assembled and coupled to each other in the diagonal direction.

In the tire curing device according to an embodiment of the present invention, the number of steps between the first step groove portion and the second step groove portion may be variable.

In the tire curing device according to an embodiment of the present invention, the first fixing member includes a protruding first fixing protrusion, the second fixing member includes a protruding second fixing protrusion, and the first and second fixing members include a protruding second fixing protrusion. The fixing protrusion may protrude from both sides of the temperature measuring member to fix the temperature measuring member from a side surface.

In the tire curing device according to an embodiment of the present invention, the number of protrusions of the first and second fixing protrusions may vary.

In the tire curing device according to an embodiment of the present invention, a plurality of protrusions of the first and second fixing protrusions may be arranged in one direction.

In the tire curing device according to an embodiment of the present invention, a plurality of protrusions of the first and second fixing protrusions may be alternately arranged.

In the tire curing device according to an embodiment of the present invention, the groove area includes a side groove, the first and second fixing members include first and second side protrusions, respectively, and the first and second side protrusions The temperature measuring member fixing member may be fixed to the groove area by being inserted into the side groove of the groove area.

In the tire curing device according to an embodiment of the present invention, the first side projection of the first fixing member is slidably coupled to the side groove, and the second side projection of the second fixing member is slid into the side groove can be combined

In the tire curing device according to an embodiment of the present invention, the first fixing member and the second fixing member may be symmetrically formed.

In the tire curing device according to an embodiment of the present invention, the first and second fixing members include first and second fixing member cover parts, respectively, and the first and second fixing member cover parts cover an upper portion of the temperature measuring member can do.

In the tire curing apparatus according to an embodiment of the present invention, the first side mold includes a bottom portion and a protrusion, and the groove area corresponds to the first groove corresponding to the protrusion and the bottom portion, and the first groove and a second groove connected to the temperature measurement member, and the temperature measuring member fixing member may be disposed in the second groove.

The tire curing apparatus according to an embodiment of the present invention further includes a slide plate disposed around the first side mold and a connection groove formed on an upper surface of the slide plate, wherein the temperature measuring member fixing member is connected to the connection groove can be placed in

A tire curing method according to an embodiment of the present invention includes preparing a green tire for a test; connecting a temperature measuring member to the green tire for testing; arranging the temperature measuring member to correspond to the groove area; disposing a temperature measuring member fixing member on the temperature measuring member and the groove area to fix the temperature measuring member to the groove area; and measuring a temperature of the green tire for test through the temperature measuring member during a curing process.

Other aspects, features, and advantages other than those described above will become clear from the detailed description, claims, and drawings for carrying out the invention below.

A tire curing apparatus and a tire curing method according to an embodiment of the present invention include a temperature measuring member fixing member for fixing a temperature measuring member disposed in a mold, thereby fixing the temperature measuring member to a green tire to improve temperature measurement accuracy. can improve

In addition, in the tire curing apparatus and tire curing method according to an embodiment of the present invention, since the temperature measuring member fixing member can be varied to have various widths and can be mixed and used in various mold types, the usability of the temperature measuring member fixing member can be improved. can strengthen

1 is a cross-sectional view schematically showing a tire curing device including a temperature measuring member.
FIG. 2 is an enlarged view of a portion of FIG. 1 .
Fig. 3 is a perspective view of an alternative embodiment of Fig. 2;
FIG. 4 is a view showing a state in which a temperature measuring member is mounted on the tire curing device of FIG. 1 .
FIG. 5 is an enlarged view of a part of FIG. 4 .
6 is a perspective view illustrating a specific example of FIGS. 4 and 5;
7 is a perspective view showing a tire curing device equipped with a temperature measuring member fixing member according to an embodiment of the present invention.
8 is a view showing a state in which the width of the temperature measuring member fixing member is varied according to an embodiment of the present invention.
9 is a perspective view showing a state of a first fixing member according to an embodiment of the present invention.
10 is a front view of a first fixing member according to an embodiment of the present invention.
11 is a view showing a left side view of a first fixing member according to an embodiment of the present invention.
12 is a right side view of a first fixing member according to an embodiment of the present invention.
13 is a top view of a first fixing member according to an embodiment of the present invention.
14 is a view showing a bottom view of a first fixing member according to an embodiment of the present invention.
15 is a view showing how the number and arrangement of protrusions of a first fixing protrusion of a first fixing member according to another embodiment of the present invention vary.
16 is a view showing how the number and size of steps of a first step groove of a first fixing member according to another embodiment of the present invention are varied.
17 is a flowchart of a tire curing method according to an embodiment of the present invention.

Since the present invention can apply various transformations and have various embodiments, specific embodiments will be illustrated in the drawings and described in detail in the description of the invention. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all conversions, equivalents, or substitutes included in the spirit and scope of the present invention. In describing the present invention, even if shown in different embodiments, the same identification numbers are used for the same components.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, and when describing with reference to the drawings, the same or corresponding components are assigned the same reference numerals, and overlapping descriptions thereof will be omitted. .

In the following embodiments, terms such as first and second are used for the purpose of distinguishing one component from another component without limiting meaning.

In the following examples, expressions in the singular number include plural expressions unless the context clearly dictates otherwise.

In the following embodiments, terms such as include or have mean that features or components described in the specification exist, and do not preclude the possibility that one or more other features or components may be added.

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 those shown.

In the following embodiments, the x-axis, y-axis, and z-axis are not limited to the three axes of the Cartesian coordinate system, and may be interpreted in a broad sense including these. 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 is otherwise implementable, a specific process sequence may be performed differently from the described sequence. For example, two processes described in succession may be performed substantially simultaneously, or may be performed in an order reverse to the order described.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. In this application, the terms "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

For reference, unless specifically limited in the present specification, the driving direction may correspond to the X-axis direction, the width direction to the Y-axis direction, and the height direction to the Z-axis direction, respectively.

1 is a cross-sectional view schematically showing a tire curing module according to an embodiment of the present invention, FIG. 2 is an enlarged view of a portion of FIG. 1, and FIG. 3 is a perspective view showing an optional embodiment of FIG. 2 .

1 to 3 , the tire curing device 100 includes a first side mold 110, a second side mold 170, a tread mold TM, and a groove area GA.

During the curing process using the green tire, the first side mold 110 may be formed to correspond to the side surface of the green tire and form a side shape of the tire adjacent to the tire tread after the curing process.

Specifically, referring to FIG. 2 , the first side mold 110 includes a bottom portion 112 and a protruding portion 116 .

The bottom part 112 forms the bottom of the first side mold 110 and has a wide plate shape and is a region further away from the second side mold 170 than the protruding part 116 .

The protruding portion 116 is connected to the bottom portion 112 , protrudes from the bottom portion 112 , and specifically protrudes in a direction toward the second side mold 170 . Through this, the protruding portion 116 may face and come into contact with the green tire during the vulcanization process for the green tire. Specifically, in FIGS. 1 and 2 , the upper surface of the protruding portion 116 may have a mold surface corresponding to the shape of the side surface of the tire to form the shape of the side surface of the tire in contact with the green tire.

The second side mold 170 may be disposed to face the first side mold 110 . During the curing process using the green tire, the second side mold 170 may be formed to correspond to the side surface of the green tire and form a side shape of the tire adjacent to the tire tread after the curing process. That is, the first side mold 110 and the second side mold 170 may form one side of the tire and the other side opposite to the shape of the tire.

The tread mold TM may be disposed between the first side mold 110 and the second side mold 170 to connect the first side mold 110 and the second side mold 170 .

During the curing process using the green tire, the tread mold TM may be formed to have a mold surface corresponding to one surface of the green tire to form a tire tread shape after the curing process.

As an alternative embodiment, the tread mold TM may include a plurality of segments.

The groove area GA may be formed on one area of the surface of the first side mold 110 facing the green tire and one area of the surface of the first side mold 110 facing the tread mold TM.

As a specific example, the groove area GA may include a first groove GA1 and a second groove GA2 .

The first groove GA1 may be formed on one surface of the protrusion 116 of the first side mold 110, and for example, the first groove GA1 may be formed on the surface of the protrusion 116 of the first side mold 110. It may be formed to extend to the upper surface. As an optional embodiment, a fastening area PA may be formed on one surface of the first groove GA1, and a fastening member (not shown) for fastening with an insertion unit (not shown) may be formed in the fastening area PA. placed, and the details thereof will be described later.

The second groove GA2 is connected to the first groove GA1 and may be formed on one surface of the bottom portion 112 of the first side mold 110. It may be formed to extend to an end of the bottom portion 112 of the side mold 110, that is, to an edge of a region of the bottom portion 112 connected to the protruding portion 116 in the opposite direction.

The first groove GA1 and the second groove GA2 of the groove area GA have a length in a direction toward the edge of the first side mold 110 and a width in a direction intersecting the length. may be smaller than

Also, the first groove GA1 and the second groove GA2 of the groove area GA may be formed to have a predetermined depth. For example, the first groove GA1 and the second groove GA2 may have a shape in which a region corresponding to a portion of the thickness of the first side mold 110 is removed. As an optional example, the first groove GA1 and the second groove GA2 The groove GA2 may be formed to have a depth smaller than the total thickness of the first side mold 110 .

As an optional embodiment, the slide plate 120 may be disposed adjacent to the first side mold 110 . Specifically, the slide plate 120 is disposed around the first side mold 110, for example, it will be disposed around the bottom part 112 of the first side mold 110 to surround the bottom part 112. can

Also, a connection groove GB may be formed in the slide plate 120 . Specifically, the connection groove GB may be formed parallel to the second groove GA2.

The connection groove GB has a width, and may have the same width as the second groove GA2 as an optional embodiment.

The connection groove GB is formed to extend in one direction, for example, it may extend to the edge of the slide plate 120 . Specifically, the connection groove GB may be formed to extend to an edge of the slide plate 120 in a direction opposite to a direction toward the bottom portion 112 of the first side mold 110 .

The connection groove GB has a length in a direction toward the edge of the slide plate 120 and a width in a direction crossing the length, but the width may be smaller than the length.

Also, the connection groove GB may be formed to have a predetermined depth. For example, the connection groove GB may be formed by removing an area corresponding to a part of the thickness of the slide plate 120, and as an optional example, the connection groove GB has a depth smaller than the total thickness of the slide plate 120. It can be formed to have.

Also, as another optional embodiment, the container segment CS may be disposed around the tread mold TM and may be disposed on the slide plate 120 described above. Also, a container outer ring OR may be arranged to surround the container segment CS. At this time, the container segment CS may have various shapes, for example, it may have an inclined outer circumferential surface, and the container outer ring OR moves up and down with respect to this inclined surface, and accordingly moves to the container segment CS. Force may be applied to cause the container segment CS to move inward.

Also, as an optional embodiment, the lower plate LP may be disposed below the first side mold 110 . That is, the first side mold 110 may be disposed on the lower plate LP, and the second side mold 170 may be disposed above the first side mold 110 .

In addition, as another optional embodiment, the upper plate UP may be disposed above the second side mold 170, that is, on the opposite side of the area of the second side mold 170 facing the first side mold 110. can

4 is a view showing a state in which a temperature measuring member is mounted on the tire curing device of FIG. 1, FIG. 5 is an enlarged view of a portion of FIG. 4, and FIG. 6 explains specific examples of FIGS. 4 and 5 It is a perspective view shown to do.

Referring to FIGS. 4 to 6 , a temperature measuring member TCL is disposed in the tire curing device 100 of FIGS. 1 to 3 described above. The temperature measuring member TCL may have various types, and may be, for example, a thermocouple type.

The temperature measuring member TCL may be disposed in the groove area GA. That is, the temperature measuring member TCL may be disposed in the first groove GA1 and the second groove GA2 of the groove area GA.

Also, as an optional embodiment, when the side plate 120 is further disposed as described above, the temperature measuring member TCL may be disposed in the connection groove GB of the side plate 120 .

That is, the temperature measuring member TCL may have an elongated shape and may be disposed in the first groove GA1 , the second groove GA2 , and the connection groove GB. The aforementioned first groove GA1 , second groove GA2 , and connection groove GB have depths that can accommodate the temperature measuring member TCL.

The temperature measuring member (TCL) may be used to test the curing temperature of the curing process. Specifically, as shown in FIG. 6 , after the test green tire TT and the temperature measuring member TCL are connected, the temperature measuring member TCL has the first groove GA1 and the second groove GA2 as described above. ) and the connection groove GB so as not to protrude above the surfaces of the first side mold 110 and the side plate 120 as much as possible.

Then, a test curing process for the test green tire (TT) is performed using the tire curing device 100, and the temperature during the test curing process can be measured in real time using a temperature measuring member (TCL) there is.

Through this, it is possible to easily prepare for the actual curing process by obtaining data on precise characteristics and temperature changes of the temperature of the curing process.

The efficiency of the curing process and the characteristics of the tire after curing may be improved by performing the curing process after performing such preliminary preparation work.

A test curing process is performed on the test green tire (TT) using the tire curing apparatus 100 shown in FIGS. 4 to 6 as described above, and the temperature measuring member (TCL) is measured during the test curing process After the process of measuring the curing temperature in real time is performed using the vulcanization process, the actual curing process may be performed after removing the test green tire (TT) and the temperature measuring member (TCL).

Hereinafter, a temperature measuring member fixing member according to an exemplary embodiment of the present invention will be described with reference to FIGS. 7 to 14 . In this case, the content and description of the first fixing member 210 may include content on the second fixing member 220 .

7 is a perspective view showing a tire curing device equipped with a temperature measuring member fixing member according to an embodiment of the present invention. 8 is a view showing a state in which the width of the temperature measuring member fixing member is varied according to an embodiment of the present invention. 9 is a perspective view showing a state of a first fixing member according to an embodiment of the present invention. 10 is a front view of a first fixing member according to an embodiment of the present invention. 11 is a view showing a left side view of a first fixing member according to an embodiment of the present invention. 12 is a right side view of a first fixing member according to an embodiment of the present invention. 13 is a top view of a first fixing member according to an embodiment of the present invention. 14 is a view showing a bottom view of a first fixing member according to an embodiment of the present invention.

Referring to FIGS. 7 to 14 , the temperature measuring member TCL according to an exemplary embodiment is disposed in the groove area GA. At this time, a temperature measuring member fixing member 200 for fixing the temperature measuring member TCL is disposed in the groove area GA.

The temperature measuring member TCL may be fixed to the groove area GA through the temperature measuring member fixing member 200 . The temperature measuring member TCL connected to the green tire may be connected to an external PC through a groove portion of the mold, that is, a groove area GA. At this time, while the tire curing device operates, the temperature measuring member may be shaken while the mold presses the green tire.

In this process, conventionally, an operator manually holds the temperature measuring member in front of the tire curing device so that the temperature measuring member does not leave the groove area. However, when the temperature measuring member leaves the groove area due to a worker's negligence, there is a risk that the temperature measuring member is damaged by corners of the groove area. If the temperature measurement member is damaged, there is a concern that the accuracy of temperature measurement data is significantly reduced.

Accordingly, according to the present embodiment, the temperature measuring member fixing member 200 is disposed in the groove area GA to fix the temperature measuring member TCL so that it does not leave the groove area GA, so that the temperature measurement member 200 is not separated from the groove area GA. Accuracy of temperature data may be secured by preventing the measuring member TCL from being separated from the mold and preventing damage to the temperature measuring member TCL.

According to this embodiment, the temperature measuring member fixing member 200 may be disposed in the second groove GA2. Also, the temperature measuring member fixing member 200 may be disposed in the connection groove GB. The connection groove GB and the second groove GA2 may be connected to each other as grooves in the same direction. Accordingly, the temperature measuring member TCL may be fixed to the groove area by disposing the temperature measuring member fixing member 200 according to the present embodiment in the second groove GA2 or the connection groove GB.

A plurality of temperature measuring member fixing members 200 may be disposed. A plurality of temperature measuring member fixing members 200 may be arranged at regular intervals in each portion of the second groove GA2 or connection groove GB to fix the temperature measuring member fixing member 200 .

According to one embodiment of the present invention, the temperature measuring member fixing member 200 may include a first fixing member 210 and a second fixing member 220 . In this case, the first and second fixing members 210 and 220 may be coupled to each other to have various widths.

8 illustrates a state in which the width of the temperature measuring member fixing member 200 is varied. FIG. 8(a) shows a state in which the first and second fixing members 210 and 220 are coupled to have a first width w1. FIG. 8(b) shows a state in which the first and second fixing members 210 and 220 are coupled to have a second width w2 greater than the first width w1. 8(c) shows a state in which the first and second fixing members 210 and 220 are coupled to have a third width w3 smaller than the first width w1.

As shown in FIG. 8 , the temperature measuring member fixing member 200 may be mounted in the groove area GA to have a variable width. Through this, since the temperature measuring member fixing member 200 can be used compatible with various mold types having different groove area GA widths, usability of the temperature measuring member fixing member 200 can be enhanced.

Looking in detail at the structure of the first and second fixing members 210 and 220, the first fixing member 210 includes a first stepped groove 213 formed by a plurality of steps, and the second fixing member 220 A second stepped groove portion 223 formed of a plurality of steps may be included, and the first stepped groove portion 213 and the second stepped groove portion 223 may be coupled to each other.

At this time, the first step groove portion 213 has a plurality of steps formed in an oblique direction based on the coupling direction between the first and second fixing members 210 and 220, and the second step groove portion 223 fixes the first and second fixing members 210 and 220. A plurality of steps are formed in an oblique direction based on the coupling direction between the members 210 and 220, and the first step groove portion 213 and the second step groove portion 223 may be assembled and coupled to each other in an oblique direction. . To this end, the first and second fixing members 210 and 220 may be formed symmetrically with respect to the oblique direction.

As the first step groove portion 213 and the second step groove portion 223 are assembled and coupled in an oblique direction, the first step groove portion 213 and the second step groove portion 223 are each other among a plurality of steps. The width of the temperature measuring member fixing member 200 to which the first and second fixing members 210 and 220 are coupled may be varied by adjusting the number of interlocking steps.

According to this embodiment, the first and second fixing members 210 and 220 include first and second fixing member cover parts 214 and 224, respectively, and the first and second fixing member cover parts 214 and 224 respectively An upper portion of the temperature measuring member TCL may be covered. Through this, it is possible to prevent the temperature measuring member TCL from escaping to the open upper portion of the groove area GA.

According to this embodiment, the first fixing member 210 includes a protruding first fixing protrusion 211, the second fixing member 220 includes a protruding second fixing protrusion 221, ,2 The fixing protrusions 211 and 221 may protrude from both sides of the temperature measuring member TCL to fix the temperature measuring member TCL from the side.

Since the first and second fixing protrusions 211 and 221 fix both side surfaces of the temperature measuring member TCL, the first and second fixing member cover parts 214 and 224 prevent the temperature measuring member TCL from escaping in an upward direction. At the same time, the possibility that the temperature measuring member TCL may be shaken inside the first and second fixing member cover parts 214 and 224 may be minimized.

According to this embodiment, the groove area GA may include a side groove. In addition, the first and second fixing members 210 and 220 include first and second side protrusions 212 and 222, respectively, and the first and second side protrusions 212 and 222 are formed in the side grooves of the groove area GA. The temperature measurement member fixing member 200 may be inserted and fixed to the groove area GA.

More specifically, referring to FIG. 3 together, the connection groove side groove GBa may include a first connection groove side groove GBa1 and a second connection groove side groove GBa2. In this case, the first side protrusion 212 of the first fixing member 210 may be coupled to the connection groove first side groove GBa1. Also, the second side protrusion 222 of the second fixing member 220 may be coupled to the connection groove second side groove GBa2.

Also, the second groove side groove GA2a may include a second groove first side groove GA2a1 and a second groove second side groove GA2a2. In this case, the first side protrusion 212 of the first fixing member 210 may be coupled to the second groove first side groove GA2a1. Also, the second side protrusion 222 of the second fixing member 220 may be coupled to the second groove and the second side groove GA2a2.

In this way, the first and second side protrusions 212 and 222 formed on the first and second fixing members 210 and 220 are coupled to the grooves on both side surfaces formed in the groove area GA, so that the first and second fixing members 210, 220) may be prevented from being separated from the groove area GA, and at the same time, the first and second fixing members 210 and 220 may serve to fix the temperature measuring member TCL.

According to this embodiment, the first side protrusion 212 of the first fixing member 210 is slidingly coupled to the side groove, and the second side protrusion 222 of the second fixing member 220 is slidingly coupled to the side groove. It can be.

More specifically, referring to FIG. 3 together, the first side protrusion 212 of the first fixing member 210 extends up to the first side groove GBa1 of the connecting groove or passes through the first side groove GBa1 of the connecting groove. The second groove may be slidably coupled to the first side groove GA2a1.

In addition, the second side protrusion 222 of the second fixing member 220 extends to the second side groove of the connecting groove GBa2 or to the second side groove of the second groove GA2a2 through the second side groove of the connecting groove GBa2. Can be sliding coupled.

Hereinafter, a structure of a protrusion according to another embodiment of the present invention will be described with reference to FIG. 15 . In this case, contents and descriptions of the first fixing members 210 and 210' may include contents of the second fixing members 220 and 220'.

15 is a view showing how the number and arrangement of protrusions of a first fixing protrusion of a first fixing member according to another embodiment of the present invention vary.

Referring to FIG. 15 , in the tire curing device according to another embodiment of the present invention, the number of protrusions of the first and second fixing protrusions 211 and 221 may be varied. At this time, as shown in FIG. 15 (a), a plurality of protrusions of the first and second fixing protrusions 211 and 221 may be arranged in one direction. Also, as shown in FIG. 15(b) , a plurality of protrusions of the first and second fixing protrusions 211' and 221' of the first and second fixing members 210' and 220' may be alternately arranged. In this way, the arrangement structure of the plurality of protrusions may be formed in various ways.

Hereinafter, a stepped groove structure according to another embodiment of the present invention will be described with reference to FIG. 16 . In this case, contents and descriptions of the first fixing members 210 and 210" may include contents of the second fixing members 220 and 220".

16 is a view showing how the number and size of steps of a first step groove of a first fixing member according to another embodiment of the present invention are varied.

Referring to FIG. 16 , the number of steps between the first step groove portion 213 and the second step groove portion 223 may be varied. That is, the number of step grooves of the first and second stepped grooves 213 and 223 of FIG. 16 (a) may be greater than the number of step grooves of the first and second stepped grooves 213" and 223" of FIG. 16 (b). there is. Also, the size of the step grooves of the first and second stepped grooves 213 and 223 of FIG. 16 (a) may be smaller than that of the first and second stepped grooves 213" and 223" of FIG. 16 (b). there is.

As such, the number and size of the stepped grooves may be formed in various ways.

Hereinafter, a tire curing method according to an embodiment of the present invention will be described with reference to FIG. 17 . Details not shown in FIG. 17 may refer to FIGS. 1 to 16 .

17 is a flowchart of a tire curing method according to an embodiment of the present invention.

Referring to FIG. 17 , the tire curing method according to an embodiment of the present invention includes preparing a green tire for a test (S100), connecting a temperature measuring member to the green tire for a test (S200), and a temperature measuring member. Arranging (TCL) to correspond to the groove area GA (S300), disposing the temperature measuring member fixing member 200 on the temperature measuring member TCL and the groove area GA to set the temperature measuring member in the groove area (GA) (S400) and measuring the temperature through the temperature measuring member (TCL) during the vulcanization process of the green tire for testing.

According to the present embodiment, before performing the curing process through the tire curing apparatus 100, the test curing process is performed using the test green tire (TT) and the temperature measuring member (TCL) connected thereto, and the test curing process proceeds It is possible to measure the temperature in real time, and through this, it is possible to easily secure data for temperature setting and control during the actual curing process.

In this case, the temperature measuring member TCL may be disposed in the groove area GA in which the thickness of one area of the first side mold 110 is removed, and through this, the temperature measuring member TCL is easily disposed. And it is possible to reduce or prevent a change in curing process characteristics due to the temperature measuring member (TCL).

That is, it is possible to easily monitor the temperature characteristics of the curing process by overcoming difficulties in disposing the temperature measuring member (TCL) and process limitations according to the shape and number of the first side mold 110 and the tread mold (TM).

In addition, through the process of fixing the temperature measuring member (TCL) to the mold through the temperature measuring member fixing member (TCL), the temperature characteristics of the curing process can be monitored more precisely.

As such, the present invention has been described with reference to the embodiments shown in the drawings, but this is only an example. Those skilled in the art can fully understand that various modifications and equivalent other embodiments are possible from the embodiments. Therefore, the true technical protection scope of the present invention should be determined based on the appended claims.

Specific technical details described in the embodiments are examples, and do not limit the technical scope of the embodiments. In order to briefly and clearly describe the description of the invention, descriptions of conventional general techniques and configurations may be omitted. In addition, the connection of lines or connection members between the components shown in the drawing is an example of functional connection and / or physical or circuit connection, which can be replaced in an actual device or additional various functional connections, physical connections, or circuit connections. In addition, if there is no specific reference such as "essential" or "important", it may not necessarily be a component necessary for the application of the present invention.

"Above" or similar designations described in the description and claims of the invention may refer to both singular and plural, unless otherwise specifically limited. In addition, when a range is described in the embodiment, it includes the invention in which individual values belonging to the range are applied (unless there is no description to the contrary), and each individual value constituting the range is described in the description of the invention. same. In addition, if there is no clear description or description of the order of steps constituting the method according to the embodiment, the steps may be performed in an appropriate order. Embodiments are not necessarily limited according to the order of description of the steps. The use of all examples or exemplary terms (eg, etc.) in the embodiments is simply to describe the embodiments in detail, and unless limited by the claims, the examples or exemplary terms limit the scope of the embodiments. It is not. In addition, those skilled in the art will appreciate that various modifications, combinations and changes may be made according to design conditions and factors within the scope of the appended claims or equivalents thereof.

TCL: temperature measuring member
GA: Groove Area
GA1: 1st groove
GA2: 2nd groove
GA2a: Second groove side groove
GA2a1: second groove first side groove
GA2a2: second groove second side groove
GB: connecting groove
GBa: connecting groove side groove
GBa1: connecting groove first side groove
GBa2: connecting groove second side groove
200: temperature measuring member fixing member
210: first fixing member
211: first fixing protrusion
212: first side projection
213: first step groove
214: first fixing member cover part
220: second fixing member
221: second fixing protrusion
222: second side projection
223: second step groove
224: second fixing member cover part

Claims (16)

a first side mold;
a second side mold disposed to face the first side mold;
a tread mold disposed between the first side mold and the second side mold to connect the first side mold and the second side mold; and
A groove area formed on one area of a surface of the first side mold facing the tread mold,
A temperature measuring member is disposed in the groove area,
A temperature measuring member fixing member for fixing the temperature measuring member is disposed in the groove area,
The temperature measuring member fixing member includes first and second fixing members,
The first fixing member includes a first step groove portion formed by a plurality of steps,
The second fixing member includes a second step groove portion formed by a plurality of steps,
The first step groove portion and the second step groove portion are coupled to each other. According to claim 1,
The first and second fixing members are coupled to each other to have various widths. delete According to claim 1,
The first step groove portion is formed with a plurality of steps in an oblique direction based on the coupling direction between the first and second fixing members,
The second step groove portion is formed with a plurality of steps in an oblique direction based on the coupling direction between the first and second fixing members,
The tire curing device of claim 1 , wherein the first step groove portion and the second step groove portion are assembled and coupled to each other in the oblique direction. According to claim 1,
The tire curing device wherein the number of steps of the first step groove portion and the second step groove portion is variable. According to claim 2,
The first fixing member includes a protruding first fixing protrusion,
The second fixing member includes a protruding second fixing protrusion,
The first and second fixing protrusions respectively protrude from both sides of the temperature measuring member to fix the temperature measuring member from the side. According to claim 6,
The number of protrusions of the first and second fixing protrusions is variable. According to claim 7,
A plurality of protrusions of the first and second fixing protrusions are arranged in one direction. According to claim 7,
A tire curing device wherein a plurality of protrusions of the first and second fixing protrusions are arranged in an intersection. According to claim 2,
The groove area includes a side groove,
The first and second fixing members each include first and second side protrusions,
The first and second side protrusions are inserted into the side grooves of the groove area to fix the temperature measuring member fixing member to the groove area. According to claim 10,
The first side protrusion of the first fixing member is slidably coupled to the side groove,
The second side protrusion of the second fixing member is slidably coupled to the side groove. According to claim 2,
The first fixing member and the second fixing member are formed symmetrically. According to claim 2,
The first and second fixing members include first and second fixing member cover portions, respectively, and the first and second fixing member cover portions cover an upper portion of the temperature measuring member. According to claim 1,
The first side mold has a bottom part and a protrusion part,
The groove area includes a first groove corresponding to the protruding portion and a second groove corresponding to the bottom portion and connected to the first groove,
The temperature measuring member fixing member is disposed in the second groove. According to claim 1,
Further comprising a slide plate disposed around the first side mold and a connection groove formed on an upper surface of the slide plate,
The temperature measuring member fixing member is disposed in the connecting groove. preparing a green tire for testing;
connecting a temperature measuring member to the green tire for testing;
arranging the temperature measuring member to correspond to the groove area;
disposing a temperature measuring member fixing member on the temperature measuring member and the groove area to fix the temperature measuring member to the groove area; and
A step of measuring a temperature through the temperature measuring member during a curing process for the green tire for test,
The temperature measuring member fixing member includes first and second fixing members,
The first fixing member includes a first step groove portion formed by a plurality of steps,
The second fixing member includes a second step groove portion formed by a plurality of steps,
The first step groove portion and the second step groove portion are coupled to each other.

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