JP2002172624A - Method and apparatus for vulcanizing large-size tire - Google Patents
Method and apparatus for vulcanizing large-size tireInfo
- Publication number
- JP2002172624A JP2002172624A JP2000373134A JP2000373134A JP2002172624A JP 2002172624 A JP2002172624 A JP 2002172624A JP 2000373134 A JP2000373134 A JP 2000373134A JP 2000373134 A JP2000373134 A JP 2000373134A JP 2002172624 A JP2002172624 A JP 2002172624A
- Authority
- JP
- Japan
- Prior art keywords
- jacket
- platens
- tire
- pair
- vulcanizing apparatus
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Moulds For Moulding Plastics Or The Like (AREA)
- Heating, Cooling, Or Curing Plastics Or The Like In General (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】この発明は、大型タイヤ加硫
装置、より詳細には建設車両用タイヤなどの大型タイヤ
加硫装置に関し、特に、複数個(複数面)の加硫金型を
横置きで縦積みし金型周囲に高温ガス、例えば高温スチ
ームを充てんし、金型内部の未加硫タイヤを加硫成形す
る多面式オートクレーブ加硫装置を用いる場合に比し、
加硫成形後のタイヤのより一層の品質向上と、装置の簡
素化とを実現することができる大型タイヤ加硫装置に関
する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a large tire vulcanizing apparatus, and more particularly to a large tire vulcanizing apparatus such as a tire for a construction vehicle. In comparison with the case of using a polyhedral autoclave vulcanizing device for vertically stacking and filling high temperature gas around the mold, for example, filling high temperature steam, and vulcanizing and molding an unvulcanized tire inside the mold,
The present invention relates to a large-sized tire vulcanizing apparatus capable of further improving the quality of a vulcanized tire and simplifying the apparatus.
【0002】[0002]
【従来の技術】建設車両用タイヤ、なかでも超大型建設
車両用タイヤの加硫成形には、複数面数の加硫金型を横
置きにして縦積みする多面式オートクレーブ加硫装置を
用いている。この種の加硫装置は、大型(圧力)容器内
に複数面の割りモールド及びそのコンテナを縦積みで収
容した後、容器内に高温ガス、例えば120〜130℃
の高温スチームを導入し、このスチームにより割りモー
ルド及びそのコンテナを加熱し、割りモールド内の未加
硫タイヤに加硫を施すものである。2. Description of the Related Art For vulcanization of tires for construction vehicles, especially tires for super-large construction vehicles, a multi-face autoclave vulcanization apparatus is used in which a plurality of vulcanizing dies are placed horizontally and stacked vertically. I have. In this type of vulcanizing apparatus, after a plurality of split molds and a container are vertically stacked in a large (pressure) container, a high-temperature gas, for example, 120 to 130 ° C. is stored in the container.
Is used to heat the split mold and its container, thereby vulcanizing the unvulcanized tire in the split mold.
【0003】[0003]
【発明が解決しようとする課題】オートクレーブ加硫装
置は、1回の加硫に当り、複数面乃至多数面の加硫金型
を収容し、複数本乃至多数本のタイヤに加硫成形を施す
ところに有用性をもつものであり、1回の加硫成形に供
する未加硫タイヤは同一タイヤ種類とは限らず、寧ろ異
なる種類の未加硫タイヤに加硫成形を施す場合が多い。An autoclave vulcanizing apparatus accommodates a plurality of vulcanizing dies in one vulcanization and vulcanizes and molds a plurality of tires. However, it has utility, and the unvulcanized tires to be subjected to one vulcanization molding are not limited to the same tire type, but rather vulcanization molding is often performed on different types of unvulcanized tires.
【0004】このとき、加硫時間は、一系統の上記高温
ガス(スチーム)雰囲気の下、最も加硫時間が長い未加
硫タイヤに合わせて設定するのは当然であり、その結
果、元来、加硫時間がより短くて済む未加硫タイヤは、
長い加硫時間に合わせるべく、温度、加硫時間などの加
硫条件の複雑な調整を余儀なくされる。At this time, it is natural that the vulcanization time is set according to the unvulcanized tire having the longest vulcanization time under a high-temperature gas (steam) atmosphere of one system. , Unvulcanized tires that require less vulcanization time,
In order to adjust to a long vulcanization time, complicated adjustment of vulcanization conditions such as temperature and vulcanization time is required.
【0005】また、1本のタイヤで見ても、建設車両用
タイヤは、他の種類のタイヤと異なり、ビード部からサ
イドウォール部を経てトレッド部に至る過程のゲージが
著しく異なる特徴を有しているため、ゲージが薄い部
位、例えばビード部からサイドウォール部に至る部位で
は加硫度が高く、ゲージが厚い部位、例えばトレッド部
位では加硫度が低くなり、各部位間で加硫度にばらつき
が生じ、これもタイヤ品質を低下させる一因となる。[0005] In addition, even when viewed with a single tire, construction vehicle tires have a feature that, unlike other types of tires, the gauge in the process from the bead portion to the tread portion through the sidewall portion is significantly different. Therefore, the degree of vulcanization is high in a part where the gauge is thin, for example, a part from the bead part to the sidewall part, and is low in a part where the gauge is thick, for example, the tread part, and the degree of vulcanization is low between the parts. Variations occur, which also contributes to poor tire quality.
【0006】上述した品質低下を回避するためには、加
硫金型を1面のみ装着する加硫装置、例えば開閉蓋式の
マクニール加硫装置を用い、各部位の加硫度を一様に揃
えるため、金型を介し未加硫タイヤ各部位に相応しい温
度の熱源を供給する必要がある。これをマクニール加硫
装置に適用する場合、要求品質を満たすため金型に割り
モールドの使用が不可避であるから、装置が巨大かつ複
雑になり過ぎ、製作困難な上、製造コストが著しく高額
になり、工場スペースを広く過ぎる問題が生じ、実用化
に至らないのが現状である。In order to avoid the above-mentioned deterioration in quality, a vulcanizing apparatus in which only one vulcanizing mold is mounted, for example, a MacNeil vulcanizing apparatus with an open / close lid, is used to uniformly cure the degree of vulcanization of each part. In order to align them, it is necessary to supply a heat source at an appropriate temperature to each part of the unvulcanized tire via a mold. When this is applied to a McNeill vulcanizing apparatus, it is inevitable to use a mold to divide the mold to meet the required quality, so the apparatus becomes too large and complicated, it is difficult to manufacture, and the manufacturing cost becomes extremely expensive. At present, there is a problem that the factory space is too large, so that it cannot be put to practical use.
【0007】従って、この発明の請求項1〜12に記載
した発明は、上記諸問題を全面的に解決し得る加硫装置
を提供すること、すなわち、未加硫タイヤ1本宛の加硫
が可能であり、しかも、未加硫タイヤの各部位を最適温
度で加硫することが可能である、簡単かつ小型な機構を
有する大型タイヤ加硫装置及び大型タイヤ加硫方法を提
供することを目的とする。Therefore, the inventions described in claims 1 to 12 of the present invention provide a vulcanizing apparatus capable of completely solving the above-mentioned problems, that is, vulcanization for one unvulcanized tire is performed. An object of the present invention is to provide a large tire vulcanizing apparatus and a large tire vulcanizing method having a simple and small mechanism capable of vulcanizing each part of an unvulcanized tire at an optimum temperature. And
【0008】[0008]
【課題を解決するための手段】上記目的を達成するた
め、この発明の請求項1に記載した発明は、一対のサイ
ドモールドと、これらの外周部に係合する周方向複数個
分割のトレッドセグメントとを有するタイヤ加硫成形用
割りモールドを横置き装着する大型タイヤ加硫装置にお
いて、一対のサイドモールドそれぞれを固定し加熱する
一対の加熱源プラテンと、これらプラテンの間でその中
心軸線に関し放射方向内外に移動自在な、各トレッドセ
グメント取付用セクタと、各セクタそれぞれの、下方に
先細りのテーパ外周面を係止し、かつ、該外周面と摺動
係合するテーパ内周面を備える環状加熱源ジャケット
と、ジャケットを昇降動作させる複数個の昇降手段と、
下部プラテン中央空間部に設け、装填未加硫タイヤ内部
に加圧流体を供給する手段とを有し、上部プラテンは、
床面に固定の下部プラテンに対し昇降自在な構成を有
し、上部プラテン及びジャケットのいずれか一方は他方
に対する案内固定手段を備えることを特徴とする大型タ
イヤ加硫装置である。In order to achieve the above object, an invention according to claim 1 of the present invention comprises a pair of side molds and a plurality of circumferentially divided tread segments which engage with the outer peripheral portions thereof. In a large tire vulcanizing apparatus in which a split mold for tire vulcanization molding is horizontally placed and mounted, a pair of heating source platens for fixing and heating each of a pair of side molds, and a radial direction between the platens with respect to a central axis thereof. An annular heating device having a tread segment mounting sector movable in and out, and a tapered inner peripheral surface which locks a tapered outer peripheral surface of each sector downward and which is slidably engaged with the outer peripheral surface. Source jacket, a plurality of lifting means for raising and lowering the jacket,
A means for supplying a pressurized fluid to the inside of the loaded unvulcanized tire is provided in a lower platen central space portion, and the upper platen has
A large tire vulcanizing apparatus having a configuration in which the lower platen fixed to the floor surface can be raised and lowered, and one of the upper platen and the jacket is provided with guide fixing means for the other.
【0009】請求項1に記載した発明に関し、請求項2
に記載した発明のように、一対のプラテンそれぞれとジ
ャケットとは、それぞれの内部に加熱媒体を収容する環
状空間を有し、各プラテンとジャケットとは、それぞれ
の環状空間に対し異なる温度の加熱媒体供給源を備え
る。According to the invention described in claim 1, claim 2 is provided.
As in the invention described in the above, each of the pair of platens and the jacket has an annular space for accommodating a heating medium inside each of the pair of platens, and each platen and the jacket have a heating medium having a different temperature with respect to the respective annular space. Provide a source.
【0010】請求項1、2に記載した発明に関し、請求
項3に記載した発明のように、一対のプラテンそれぞれ
は、複数個の環状空間を有し、請求項1〜3に記載した
発明に関し、請求項4に記載した発明のように、ジャケ
ットは、複数個の環状空間を有し、そして、請求項1〜
4に記載した発明に関し、請求項5に記載した発明のよ
うに、複数個のセクタそれぞれは、1個以上の内部空間
を有する。According to the first and second aspects of the invention, as in the third aspect of the invention, each of the pair of platens has a plurality of annular spaces, and the first to third aspects of the invention relate to the first to third aspects of the invention. As in the invention described in claim 4, the jacket has a plurality of annular spaces, and
According to the invention described in claim 4, as in the invention described in claim 5, each of the plurality of sectors has one or more internal spaces.
【0011】請求項1〜5に記載した発明に関し、請求
項6に記載した発明のように、一対のプラテンそれぞれ
は、上記放射方向外側対向面に各セクタそれぞれの放射
方向摺動面を備える。According to the first to fifth aspects of the present invention, as in the sixth aspect of the present invention, each of the pair of platens has a radial sliding surface of each sector on the radially outer facing surface.
【0012】請求項1〜6に記載した発明に関し、請求
項7に記載した発明のように、各セクタそれぞれは、放
射方向内側で内方に突出する、上下一対の爪部を有し、
一対のプラテンそれぞれは、各セクタそれぞれの一対の
爪部に嵌まり合う凹部を備え、請求項7に記載した発明
に関し、請求項8に記載した発明のように、上記爪部と
上記凹部とは、各セクタそれぞれの一対のプラテンに対
するロック機構を構成して成り、ロック時の各凹部は各
爪部それぞれに対し間隙を形成する寸法を有する。According to the first to sixth aspects of the present invention, as in the seventh aspect of the invention, each sector has a pair of upper and lower claws projecting inward in the radial direction,
Each of the pair of platens is provided with a concave portion that fits into the pair of claw portions of each sector. According to the invention described in claim 7, as in the invention described in claim 8, the claw portion and the concave portion are different from each other. And a lock mechanism for a pair of platens of each sector, and each recess at the time of locking has a dimension for forming a gap with respect to each claw.
【0013】請求項1〜8に記載した発明に関し、請求
項9に記載した発明のように、上部プラテンは、別途の
昇降手段による吊り下げとそれからの解放とが可能な被
吊り具を備える。According to the first to eighth aspects of the present invention, as in the ninth aspect of the present invention, the upper platen includes a suspended member that can be suspended by a separate lifting means and released therefrom.
【0014】また、前記目的を達成するため、この発明
の請求項10に記載した発明は、請求項1〜9のいずれ
か一項に記載した加硫装置を用い、ジャケットの下降位
置でトレッドセグメントの開状態の下で未加硫タイヤを
モールドに装填し、上部プラテンを下降させつつジャケ
ットに上部プラテンを固定し、ジャケットを上昇させて
開状態のトレッドセグメントを閉状態としてトレッドセ
グメントと上下プラテンとを相互にロック状態とし、該
ロック状態下で未加硫タイヤに加硫成形を施すことを特
徴とする大型タイヤ加硫方法である。According to a tenth aspect of the present invention, there is provided a vulcanizing apparatus as set forth in any one of the first to ninth aspects, wherein the tread segment is provided at a lower position of the jacket. The unvulcanized tire is loaded into the mold under the open state, the upper platen is lowered, the upper platen is fixed to the jacket, the jacket is raised, the open tread segment is closed, and the tread segment and the upper and lower platens are closed. Are locked to each other, and vulcanization molding is performed on the unvulcanized tire under the locked state.
【0015】請求項10に記載した発明に関し、請求項
11に記載した発明のように、上下プラテンの加熱温度
を、ジャケットの加熱温度に比しより低温度として未加
硫タイヤに加硫成形を施し、そして、請求項10、11
に記載した発明に関し、請求項12に記載した発明のよ
うに、モールドを加硫装置に組付けた状態でセクタ内側
の爪部と、上下プラテンに設ける凹部との間に隙間を形
成させ、モールドに装填した未加硫タイヤ内部に所定ゲ
ージ圧の加圧加硫媒体を充てんしたときモールドの内面
形状を正規化し、この正規化したモールドで未加硫タイ
ヤに加硫成形を施す。According to the invention described in claim 10, as in the invention described in claim 11, vulcanization molding is performed on an unvulcanized tire by setting the heating temperature of the upper and lower platens lower than the heating temperature of the jacket. Claims 10 and 11
According to the invention described in (12), as in the invention described in claim 12, a gap is formed between the claw portion inside the sector and the concave portion provided in the upper and lower platens in a state where the mold is assembled to the vulcanizing device, When a pressurized vulcanizing medium having a predetermined gauge pressure is filled in the unvulcanized tire loaded in the above, the inner shape of the mold is normalized, and the unvulcanized tire is subjected to vulcanization molding with the normalized mold.
【0016】[0016]
【発明の実施の形態】以下、この発明の実施の形態を図
1〜図4に示す例に基づき説明する。図1は、割りモー
ルドを装着したこの発明の大型タイヤ加硫装置の稼働時
における断面図であり、図2は、上サイドモールドを固
定する上部プラテンを上昇離隔させた図1に示す装置の
断面図であり、図3は、ジャケットを下降させ分割セク
タを放射方向外側に移動させた図1に示す装置の断面図
であり、図4は、図1に示す装置のA部拡大断面図であ
る。DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to the examples shown in FIGS. FIG. 1 is a cross-sectional view of a large tire vulcanizing apparatus according to the present invention with a split mold installed during operation. FIG. 2 is a cross-sectional view of the apparatus shown in FIG. 1 in which an upper platen for fixing an upper side mold is raised and separated. FIG. 3 is a cross-sectional view of the apparatus shown in FIG. 1 in which the jacket is lowered and the divided sectors are moved radially outward, and FIG. 4 is an enlarged cross-sectional view of a portion A of the apparatus shown in FIG. .
【0017】図1〜図3において、1面の割りモールド
1は、一対のサイドモールド2、3と、これらサイドモ
ールド2、3の外周部に係合する複数個のトレッドセグ
メント4とを有する。各トレッドセグメント4は、平面
で見て扇形状を有し、割りモールド1の稼働時には相互
に合体して環状をなし、かつ、サイドモールド2、3の
外周部と係合し、二点鎖線で示すタイヤTの主としてト
レッド部を加硫成形する。この意味でトレッドセグメン
ト4は、周方向に複数個、例えば6〜9個に分割した形
状を有する。その一方で、サイドモールド2、3は、タ
イヤTの残余部位、すなわちトレッド部の両側に連なる
一対のサイドウォール部及び一対のビード部を加硫成形
する。サイドモールド2、3は、ビード部を加硫成形す
るビードリング5、6を備える。1 to 3, a split mold 1 on one surface has a pair of side molds 2 and 3 and a plurality of tread segments 4 which engage with the outer peripheral portions of the side molds 2 and 3. Each tread segment 4 has a fan shape when viewed in a plane, and when the split mold 1 is operated, it is combined with each other to form an annular shape, and engages with the outer peripheral portions of the side molds 2 and 3, and is indicated by a two-dot chain line. The tread portion of the tire T shown is mainly vulcanized. In this sense, the tread segment 4 has a shape divided into a plurality of pieces, for example, 6 to 9 pieces in the circumferential direction. On the other hand, the side molds 2 and 3 vulcanize and mold the remaining portions of the tire T, that is, a pair of sidewall portions and a pair of bead portions connected to both sides of the tread portion. The side molds 2 and 3 include bead rings 5 and 6 for vulcanizing and forming a bead portion.
【0018】図1〜図3において、大型タイヤ加硫装置
(以下加硫装置と言う)100 は、図示するように1面の
割りモールド1を横置きで装着する。加硫装置100 は、
上下一対のプラテン101 、102 を有する。上部プラテン
101 は上サイドモールド2を、下部プラテン102 は下サ
イドモールド3をそれぞれ固定し、プラテン101 、102
それぞれ自体が加熱源となり、サイドモールド2、3を
加熱する。1 to 3, a large tire vulcanizing apparatus (hereinafter referred to as a vulcanizing apparatus) 100 has a split mold 1 on one side mounted horizontally as shown in the figure. The vulcanizing device 100
It has a pair of upper and lower platens 101 and 102. Upper platen
101 fixes the upper side mold 2 and the lower platen 102 fixes the lower side mold 3, respectively.
Each of them becomes a heating source and heats the side molds 2 and 3.
【0019】また、加硫装置100 は、各トレッドセグメ
ント4を固定して取付ける複数個のセクタ103 を有す
る。各セクタ103 それぞれは、図1に示す加硫装置100
の稼働時に、一対のプラテン101 、102 の間で、各トレ
ッドセグメント4を伴い、中心軸線CLに関し放射方向
内外に移動自在である。この移動を円滑に行うため、一
対のプラテン101 、102 それぞれは、放射方向外側対向
面に各セクタ103 の放射方向内外摺動面101S、102Sを備
える一方で、各セクタ103 それぞれは、下方に向け先細
りのテーパ外周面103Sを備える。The vulcanizing apparatus 100 has a plurality of sectors 103 to which each tread segment 4 is fixedly attached. Each of the sectors 103 is a vulcanizer 100 shown in FIG.
During operation, the pair of platens 101 and 102 is movable with respect to the central axis CL in and out of the radial direction with each tread segment 4 between the pair of platens 101 and 102. In order to perform this movement smoothly, each of the pair of platens 101 and 102 has radially inner and outer sliding surfaces 101S and 102S of each sector 103 on the radially outer facing surface, while each of the sectors 103 faces downward. The tapered outer peripheral surface 103S is provided.
【0020】また、加硫装置100 は、各セクタ103 を介
して各トレッドセグメント4を加熱する環状ジャケット
104 を有する。ジャケット104 は、各セクタ103 それぞ
れのテーパ外周面103Sと摺動係合するテーパ内周面104S
を備える。内周面104Sは外周面103Sのテーパ面と同じテ
ーパ面形状を有する。ジャケット104 は、各セクタ103
の外周面103Sを係止する。その係止手段は、例えば、各
セクタ103 の外周面103S側に設けるあり溝103Aに嵌まる
T字状突起104Tを内周面104Sに設ける。ジャケット104
はそれ自体が加熱源であり、先に述べた一対のプラテン
101 、102 の加熱源とジャケット104 の加熱源とは互い
に独立させ、これらの加熱源は、高温ガス又は高温水な
どの高温流体、電熱などの発熱体のいずれでも可とす
る。The vulcanizing apparatus 100 has an annular jacket for heating each tread segment 4 via each sector 103.
104. The jacket 104 has a tapered inner peripheral surface 104S slidingly engaged with the tapered outer peripheral surface 103S of each sector 103.
Is provided. The inner peripheral surface 104S has the same tapered surface shape as the tapered surface of the outer peripheral surface 103S. The jacket 104 consists of each sector 103
Locks the outer peripheral surface 103S. The locking means is provided on the inner peripheral surface 104S with, for example, a T-shaped projection 104T provided on the outer peripheral surface 103S side of each sector 103 and fitted in the dovetail groove 103A. Jacket 104
Is the heating source itself, and the pair of platens
The heating sources 101 and 102 and the heating source of the jacket 104 are independent from each other, and these heating sources may be any of a high-temperature fluid such as high-temperature gas or high-temperature water and a heating element such as electric heating.
【0021】また、加硫装置100 は、ジャケット104 を
昇降動作させる複数個、図示例では2個の昇降手段105
を有する。昇降手段105 は、加圧流体(加圧気体、加圧
液体)アクチュエータ、電磁式アクチュエータ、機械式
(例えばボールねじ式)アクチュエータなど、ジャケッ
ト104 を昇降動作させる手段であれば方式を問わない。
昇降手段105 は、動作軸の先端部105Pを固定具106 によ
りジャケット104 に連結固定する。The vulcanizing apparatus 100 includes a plurality of, in the illustrated example, two elevating means 105 for elevating and lowering the jacket 104.
Having. The lifting means 105 may be of any type, such as a pressurized fluid (pressurized gas or pressurized liquid) actuator, an electromagnetic actuator, or a mechanical (for example, ball screw) actuator, as long as it moves the jacket 104 up and down.
The elevating means 105 connects and fixes the distal end portion 105P of the operation shaft to the jacket 104 by the fixture 106.
【0022】ここに、下部プラテン102 は床面FLに支
持部材107 により固定し、上部プラテン101 は、上サイ
ドモールド2を固定した状態で下部プラテン102 に対し
昇降自在に構成する。この昇降動作と相互の心出しとの
ため、上部プラテン101 及びジャケット104 のいずれか
一方は、他方に対する案内固定手段を有するものとす
る。Here, the lower platen 102 is fixed to the floor surface FL by a support member 107, and the upper platen 101 is configured to be movable up and down with respect to the lower platen 102 with the upper side mold 2 fixed. For this vertical movement and mutual centering, one of the upper platen 101 and the jacket 104 has guide fixing means for the other.
【0023】図1〜図3に示す案内手段の例では、上部
プラテン101 が、それに固定するピン108 を有し、ジャ
ケット104 が、その放射方向外側で突出する案内部材10
9 にピン108 を案内する穴109Hを有し、ピン108 は案内
溝109H壁面に沿って下降・上昇する。また、図1〜図3
に示す固定手段の例では、ピン108 の先端部に設けるね
じに締結具110 、例えばナット110 を螺合し、ナット11
0 を案内部材109 に締結する。これら案内固定手段によ
り、上サイドモールド2を固定した上部プラテン101 の
加硫装置100 からの切り離しと加硫装置100 への簡便な
装着とが可能となる。これ以外に、図示は省略したが、
ピン108 を部材109 に固定し、上部プラテン101 にピン
108 の案内穴を設け、ピン108 の上端部を上部プラテン
101 に固定してもよい。In the example of the guide means shown in FIGS. 1 to 3, the upper platen 101 has a pin 108 fixed thereto, and the jacket 104 has a guide member 10 projecting radially outside thereof.
9 has a hole 109H for guiding the pin 108, and the pin 108 descends and rises along the wall surface of the guide groove 109H. 1 to 3
In the example of the fixing means shown in (1), a fastener 110, for example, a nut 110 is screwed into a screw provided at the tip of the pin 108, and the nut 11
0 is fastened to the guide member 109. By these guide fixing means, the upper platen 101 to which the upper side mold 2 is fixed can be separated from the vulcanizing apparatus 100 and can be easily mounted on the vulcanizing apparatus 100. Other than this, illustration is omitted,
Secure the pin 108 to the member 109, and
The guide hole of the pin 108 is provided, and the upper end of the pin 108 is
It may be fixed to 101.
【0024】また、加硫装置100 は、加硫対象の未加硫
タイヤGT内部に所定ゲージ圧の加圧流体、例えば加圧
ガス(加圧空気、加圧窒素ガスなど)を供給する手段11
1 を有する。加圧流体供給手段111 は下部プラテン102
の中央空間部に取付ける。加圧流体供給手段111 は、図
2に示すブラダ112 の内部に加圧流体を供給する他に、
未加硫タイヤ内部に直接に加圧流体を供給する手段とし
てもよい。。The vulcanizing apparatus 100 supplies a pressurized fluid having a predetermined gauge pressure, for example, a pressurized gas (pressurized air, pressurized nitrogen gas, etc.) into the unvulcanized tire GT to be vulcanized.
With one. The pressurized fluid supply means 111 is a lower platen 102
To the center space of The pressurized fluid supply means 111 supplies the pressurized fluid to the inside of the bladder 112 shown in FIG.
A means for supplying a pressurized fluid directly into the unvulcanized tire may be used. .
【0025】以上述べた加硫装置100 の動作を以下簡単
に説明する。まず、図2において、各昇降手段105 の動
作軸と先端部105Pとを下降させてジャケット104 を下降
させ、これにより、各セクタ103 と各トレッドセグメン
ト4とを放射方向外方に移動させ、各トレッドセグメン
ト4の開状態下で成形完了の未加硫タイヤGTを装填す
る。The operation of the vulcanizing apparatus 100 described above will be briefly described below. First, in FIG. 2, the operating axis of each lifting / lowering means 105 and the tip 105P are lowered to lower the jacket 104, thereby moving each sector 103 and each tread segment 4 outward in the radial direction. With the tread segment 4 open, an unvulcanized tire GT that has been completely formed is loaded.
【0026】次に、加硫装置100 から取外して別の場所
に一旦保管している上サイドモールド2固定の上部プラ
テン101 を下部プラテン102 の真上に位置させる。上部
プラテン101 の昇降及び搬送には、加硫装置100 が超大
型の場合は天井走行クレーンなど重量物搬送に適する別
途の昇降・移動手段を用い、他の場合は電動ホイストな
どの昇降手段を用いる。そのため、上部プラテン101
は、ワイヤーロープを掛ける複数個の被吊り具115 、例
えばアイボルト115 を備えるのが好ましい。Next, the upper platen 101 fixed to the upper side mold 2 once removed from the vulcanizing apparatus 100 and stored in another place is positioned just above the lower platen 102. For raising and lowering and transporting the upper platen 101, if the vulcanizing apparatus 100 is very large, use separate lifting / lowering / moving means suitable for transporting heavy objects such as an overhead traveling crane; otherwise, use lifting / lowering means such as an electric hoist . Therefore, the upper platen 101
It is preferable to provide a plurality of hanging members 115 for hanging a wire rope, for example, eyebolts 115.
【0027】次に、図3において、上部プラテン101 を
下降させつつ、併せて各昇降手段105 を同時に稼働させ
て動作軸の先端部105Pと固定具106 とを上昇させつつ、
上部プラテン101 の各ピン108 を案内部材109 の案内溝
109Hに嵌め合わせつつ上部プラテン101 の下降を継続
し、上部プラテン101 をジャケット104 に固定して、開
状態の各セクタ103 と各トレッドセグメント4とを放射
方向内方に移動させ各トレッドセグメント4を環状に合
体させ閉状態とする。このとき、加圧流体供給手段111
のブラダ112 の噛み込み防止のため、上部プラテン101
の下降前に、ブラダ112 内部に所定ゲージ圧の低内圧を
充てんしてブラダ112 をシェーピング動作により未加硫
タイヤGT内部に収めておく。この状態を図2に示す。Next, referring to FIG. 3, while lowering the upper platen 101 and simultaneously operating the lifting / lowering means 105 to raise the tip 105P of the operating shaft and the fixture 106,
Each pin 108 of the upper platen 101 is connected to the guide groove of the guide member 109.
The lowering of the upper platen 101 is continued while being fitted to 109H, the upper platen 101 is fixed to the jacket 104, each sector 103 in the open state and each tread segment 4 are moved inward in the radial direction, and each tread segment 4 is moved. The ring is united and closed. At this time, the pressurized fluid supply means 111
Upper platen 101 to prevent the bladder 112
Before lowering, the bladder 112 is filled with a low internal pressure of a predetermined gauge pressure, and the bladder 112 is housed in the unvulcanized tire GT by a shaping operation. This state is shown in FIG.
【0028】次に、図1において、ナット110 を案内部
材109 に締結する。その後、加圧流体供給手段111 を介
し、未加硫タイヤGT内部に所定ゲージ圧の内圧を充て
んし、割りモールド1の内面に未加硫タイヤGTを押圧
する。この押圧開始と少なくとも同時に、好ましくは押
圧以前に、一対のプラテン101 、102 とジャケット104
との加熱源を動作させ、これら加熱源により割りモール
ド1を加熱し、未加硫タイヤGTに加硫成形を施し、製
品タイヤTを得る。加硫成形終了の後は上述のプロセス
の逆を辿り、製品タイヤTを加硫装置100 から取出す。Next, in FIG. 1, the nut 110 is fastened to the guide member 109. Thereafter, the inside of the unvulcanized tire GT is filled with a predetermined gauge pressure via the pressurized fluid supply means 111, and the unvulcanized tire GT is pressed against the inner surface of the split mold 1. At least at the same time as the start of pressing, and preferably before pressing, a pair of platens 101 and 102 and a jacket 104
The split mold 1 is heated by these heat sources, and the unvulcanized tire GT is vulcanized to obtain a product tire T. After the vulcanization molding is completed, the product tire T is removed from the vulcanization apparatus 100 by following the above process in reverse.
【0029】以上述べたように、この加硫装置100 は、
(1)1面の割りモールドを装着するので、当該未加硫
タイヤGTを最適の加硫温度及び加硫時間の条件下で加
硫成形することができ、その結果、適正加硫度の下でタ
イヤ品質を向上させる効果と、(2)一対のプラテン10
1 、102 の加熱温度とジャケット104 の加熱温度とを個
々に調整することができ、その結果、厚ゲージ部位、す
なわちトレッド部位は高温度で加硫し、薄ゲージ部位、
すなわちサイドウォール部からビード部に至る部位は低
温度で加硫し、タイヤ全体にわたる各部位の加硫度を一
様にすることが可能となり、タイヤの品質を大幅に向上
させる効果とを奏し、かつ、(3)主として、従来タイ
プの割りモールド1と一対のプラテン101 、102 との組
合わせであり、強いて言えば、一対のプラテン101 、10
2 とジャケット104 とに加熱源を付け加える程度であ
り、既設の搬送装置を利用するので、装置構成は簡素
で、低コストであり、装置が占める床面積も僅かで省ス
ペースで済む効果と、(4)操作が簡便で作業性に優れ
る効果とを奏する。As described above, this vulcanizing apparatus 100
(1) Since the one-side split mold is installed, the unvulcanized tire GT can be vulcanized and formed under the optimum vulcanization temperature and vulcanization time. And (2) a pair of platens 10
1, 102 and the heating temperature of the jacket 104 can be individually adjusted, so that the thick gauge portion, i.e., the tread portion, is vulcanized at a high temperature, and the thin gauge portion,
That is, the portion from the sidewall portion to the bead portion is vulcanized at a low temperature, and the degree of vulcanization of each portion over the entire tire can be made uniform, and the effect of significantly improving the quality of the tire is achieved. (3) It is mainly a combination of the conventional split mold 1 and a pair of platens 101, 102. In other words, a pair of platens 101, 10
2 and a jacket 104 are added to the heating source, and the existing transport device is used. Therefore, the configuration of the device is simple, low cost, the floor space occupied by the device is small, and the space can be saved. 4) The operation is simple and the workability is excellent.
【0030】ここに、この加硫装置100 の要となる別種
加熱源に関し、一対のプラテン101、102 それぞれとジ
ャケット104 とは、それぞれの内部に加熱媒体を収容す
る環状空間を有し、かつ、各プラテン101 、102 とジャ
ケット104 とは、それぞれの環状空間に対し異なる温度
の加熱媒体供給源(図示省略)を有するものとする。加
熱媒体は、高温気体、高温液体などの高温流体又は電熱
体のいずれも可とする。Here, with respect to another type of heating source which is the main component of the vulcanizing apparatus 100, each of the pair of platens 101 and 102 and the jacket 104 have an annular space for accommodating a heating medium therein, and Each of the platens 101 and 102 and the jacket 104 have a heating medium supply source (not shown) having a different temperature for each annular space. The heating medium may be any of a high-temperature fluid such as a high-temperature gas and a high-temperature liquid or an electric heating element.
【0031】図1〜図3に示す一対のプラテン101 、10
2 それぞれとジャケット104 との加熱媒体は、高温スー
チム又は他の高温ガスの例である。すなわち、上部プラ
テン101 は、その内部に複数個、図示例では2個の環状
空間120 、121 を有し、下部プラテン102 は、その内部
に複数個、図示例では2個の環状空間122 、123 を有
し、ジャケット104 は、その内部に複数個、図示例では
2個の環状空間124 、125 を有する。なお、図示は省略
したが、複数個のセクタ103 それぞれも、内部に1個以
上の内部空間を設けることもできる。A pair of platens 101, 10 shown in FIGS.
2 The heating medium of each and the jacket 104 is an example of a hot steam or other hot gas. That is, the upper platen 101 has a plurality of, in the illustrated example, two annular spaces 120, 121, and the lower platen 102 has a plurality of, in the illustrated example, two annular spaces 122, 123. The jacket 104 has a plurality of, in the illustrated example, two, annular spaces 124, 125 therein. Although not shown, each of the plurality of sectors 103 may have one or more internal spaces.
【0032】少なくとも、環状空間120 〜123 と環状空
間124 、125 とには、温度が異なる高温スーチム又は高
温ガスを、別種の供給源から供給する。また、環状空間
120、121 相互間、環状空間122 、123 相互間及び環状
空間124 、125 相互間それぞれで温度が異なる高温スー
チム又は高温ガスを、別種の供給源から供給することも
できる。図示を省略した複数個のセクタ103 それぞれの
内部空間に、他と異なる高温スーチム又は高温ガス、或
いは環状空間124 、125 に供給する高温スーチム又は高
温ガスと同じスーチムやガスを供給する。供給する高温
スーチム又は高温ガスの温度は、工場内部の室温変化に
合わせて変えるが、超大型タイヤTの場合に通常、環状
空間120 〜123 で90℃前後、環状空間124 、125 で1
20℃前後であり、一対のプラテン101 、102 の加熱源
温度は、ジャケット104 の加熱源温度より30℃程度低
く設定する。これで、タイヤTの加硫度は全体にわたり
一様となる。At least high-temperature soot or high-temperature gas having different temperatures is supplied to the annular spaces 120 to 123 and the annular spaces 124 and 125 from different kinds of sources. Also, an annular space
Hot steam or hot gas having different temperatures between 120, 121, between annular spaces 122, 123 and between annular spaces 124, 125 can also be supplied from different sources. A high-temperature steam or a high-temperature gas different from the others, or a high-temperature steam or the same steam or high-temperature gas supplied to the annular spaces 124 and 125 is supplied to the internal space of each of the plurality of sectors 103 (not shown). The temperature of the high-temperature steam or high-temperature gas to be supplied is changed according to the change in room temperature inside the factory.
The heating source temperature of the pair of platens 101 and 102 is set at about 30 ° C. lower than the heating source temperature of the jacket 104. Thus, the degree of vulcanization of the tire T is uniform throughout.
【0033】図4において、加硫装置100 の組立作業性
を向上させるため、各セクタ103 それぞれは、放射方向
内側で内方に突出する、上下一対の爪部126 、127 を有
し、一対のプラテン101 、102 それぞれは、各セクタ10
3 それぞれの一対の爪部126、127 に嵌まり合う環状凹
部128 、129 を備える。In FIG. 4, in order to improve the workability of assembling the vulcanizing apparatus 100, each of the sectors 103 has a pair of upper and lower claws 126, 127 protruding inward on the inside in the radial direction. Each of the platens 101 and 102 has 10 sectors
3 It has annular recesses 128, 129 that fit into the respective pair of claws 126, 127.
【0034】これら一対の爪部126 、127 と凹部128 、
129 とは、各セクタ103 それぞれの一対のプラテン101
、102 に対するロック機構を構成する。但し、ロック
時の各凹部128 、129 は、各爪部126 、127 それぞれに
対し間隙を形成する寸法を有するように寸法を設定す
る。これにより、各セクタ103 が周方向に移動する際に
ロックが容易となり、その結果、各セクタ103 の放射方
向出入りが容易となり、未加硫タイヤGTに所定のゲー
ジ圧の内圧を印加したとき、正規のモールド1の内面形
状とすることができ、この正規のモールド1の内面形状
で未加硫タイヤGTに加硫成形を施す。The pair of claws 126, 127 and the recess 128,
129 means a pair of platens 101 for each sector 103
, 102 to form a locking mechanism. However, the dimensions of the recesses 128, 129 at the time of locking are set so as to have a dimension for forming a gap with respect to each of the claws 126, 127. This facilitates locking when each sector 103 moves in the circumferential direction. As a result, each sector 103 can easily enter and exit in the radial direction, and when an internal pressure of a predetermined gauge pressure is applied to the unvulcanized tire GT, The inner shape of the regular mold 1 can be used, and the uncured tire GT is vulcanized and formed with the regular inner shape of the mold 1.
【0035】[0035]
【発明の効果】この発明の請求項1〜12に記載した発
明によれば、1面の割りモールドを用い、この割りモー
ルドの一対のサイドモールドと、複数個分割のトレッド
セグメントを放射方向に移動させる環状ジャケットとを
別個の加熱源とすることにより、加硫済タイヤの加硫度
を最適化し、併せてタイヤ全体の加硫度を一様化してタ
イヤ品質を向上させることが可能な、簡単構造の大型タ
イヤ加硫装置及び大型タイヤ加硫方法を提供することが
できる。According to the inventions described in the first to twelfth aspects of the present invention, a split mold having one surface is used, and a pair of side molds of the split mold and a plurality of divided tread segments are moved in the radial direction. It is possible to optimize the degree of vulcanization of the vulcanized tire by using a separate heating source for the annular jacket to be vulcanized and to improve the tire quality by uniformizing the degree of vulcanization of the entire tire. A large-sized tire vulcanizing apparatus and a large-sized tire vulcanizing method having a structure can be provided.
【図1】 割りモールドを装着したこの発明の大型タイ
ヤ加硫装置の稼働時における断面図である。FIG. 1 is a cross-sectional view of a large tire vulcanizing apparatus of the present invention equipped with a split mold during operation.
【図2】 上サイドモールドを固定する上部プラテンを
上昇離隔させた図1に示す装置の断面図である。FIG. 2 is a cross-sectional view of the apparatus shown in FIG. 1 in which an upper platen for fixing an upper side mold is raised and separated.
【図3】 ジャケットを下降させ分割セクタを放射方向
外側に移動させた図1に示す装置の断面図である。FIG. 3 is a cross-sectional view of the apparatus shown in FIG. 1 in which a jacket is lowered and a divided sector is moved outward in a radial direction.
【図4】 図1に示す装置のA部拡大断面図である。FIG. 4 is an enlarged sectional view of a portion A of the device shown in FIG.
1 割りモールド 2 上サイドモールド 3 下サイドモールド 4 トレッドセグメント 5、6 ビードリング 100 加硫装置 101 上部プラテン 101S 放射方向内外摺動面 102 下部プラテン 102S 放射方向内外摺動面 103 セクタ 103S テーパ外周面 104 ジャケット 104S テーパ内周面 104T T字状突起 105 昇降手段 105P 動作軸先端部 106 固定具 107 支持部材 108 ピン 109 案内部材 109H 案内穴 110 ナット 111 加圧流体供給手段 112 ブラダ 115 アイボルト 120 、121 上部プラテンの環状空間 122 、123 下部プラテンの環状空間 124 、125 ジャケットの環状空間 126 、127 爪部 128 、129 凹部 CL 中心軸線 1 Split Mold 2 Upper Side Mold 3 Lower Side Mold 4 Tread Segment 5, 6 Bead Ring 100 Vulcanizer 101 Upper Platen 101S Radial Inner / Outer Sliding Surface 102 Lower Platen 102S Radial Inner / Outer Sliding Surface 103 Sector 103S Tapered Outer Surface 104 Jacket 104S Tapered inner peripheral surface 104T T-shaped projection 105 Elevating means 105P Operating shaft tip 106 Fixture 107 Support member 108 Pin 109 Guide member 109H Guide hole 110 Nut 111 Pressurized fluid supply means 112 Bladder 115 Eye bolts 120, 121 Upper platen Annular spaces 122, 123 Lower platen annular space 124, 125 Jacket annular space 126, 127 Claws 128, 129 Recess CL Central axis
───────────────────────────────────────────────────── フロントページの続き (72)発明者 西村 道彦 東京都小平市小川東町3−1−1 株式会 社ブリヂストン技術センター内 Fターム(参考) 4F202 AA45 AH20 CA21 CB01 CU01 CU03 CU14 CY02 CY21 4F203 AA45 AH20 DA11 DB01 DC02 DL10 DM23 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Michihiko Nishimura 3-1-1, Ogawa-Higashi-cho, Kodaira-shi, Tokyo F-term in Bridgestone Technology Center (reference) 4F202 AA45 AH20 CA21 CB01 CU01 CU03 CU14 CY02 CY21 4F203 AA45 AH20 DA11 DB01 DC02 DL10 DM23
Claims (12)
部に係合する周方向複数個分割のトレッドセグメントと
を有するタイヤ加硫成形用割りモールドを横置き装着す
る大型タイヤ加硫装置において、 一対のサイドモールドそれぞれを固定し加熱する一対の
加熱源プラテンと、 これらプラテンの間でその中心軸線に関し放射方向内外
に移動自在な、各トレッドセグメント取付用セクタと、 各セクタそれぞれの、下方に先細りのテーパ外周面を係
止し、かつ、該外周面と摺動係合するテーパ内周面を備
える環状加熱源ジャケットと、 ジャケットを昇降動作させる複数個の昇降手段と、 下部プラテン中央空間部に設け、装填未加硫タイヤ内部
に加圧流体を供給する手段とを有し、 上部プラテンは、床面に固定の下部プラテンに対し昇降
自在な構成を有し、 上部プラテン及びジャケットのいずれか一方は他方に対
する案内固定手段を備えることを特徴とする大型タイヤ
加硫装置。1. A large tire vulcanizing apparatus in which a tire vulcanization molding split mold having a pair of side molds and a plurality of circumferentially divided tread segments engaged with the outer peripheral portions thereof is mounted horizontally. A pair of heating source platens for fixing and heating each side mold, a tread segment mounting sector movable between the platens in a radial direction with respect to a center axis thereof, and a tapered downward of each sector. An annular heating source jacket provided with a tapered inner peripheral surface which locks the tapered outer peripheral surface and slidably engages with the outer peripheral surface; a plurality of elevating means for elevating the jacket; and a lower platen provided in a central space portion Means for supplying a pressurized fluid into the loaded unvulcanized tire, wherein the upper platen is vertically movable with respect to a lower platen fixed to the floor surface. A large tire vulcanizing apparatus comprising: an upper platen and a jacket provided with a guide fixing means for the other.
は、それぞれの内部に加熱媒体を収容する環状空間を有
し、各プラテンとジャケットとは、それぞれの環状空間
に対し異なる温度の加熱媒体供給源を備える請求項1に
記載した加硫装置。2. A platen and a jacket each have an annular space for accommodating a heating medium therein, and each platen and a jacket provide a heating medium supply source having a different temperature for each annular space. The vulcanizing apparatus according to claim 1, further comprising:
状空間を有する請求項1又は2に記載した加硫装置。3. The vulcanizing apparatus according to claim 1, wherein each of the pair of platens has a plurality of annular spaces.
る請求項1〜3のいずれか一項に記載した加硫装置。4. The vulcanizing apparatus according to claim 1, wherein the jacket has a plurality of annular spaces.
内部空間を有する請求項1〜4のいずれか一項に記載し
た加硫装置。5. The vulcanizing apparatus according to claim 1, wherein each of the plurality of sectors has one or more internal spaces.
向外側対向面に各セクタそれぞれの放射方向摺動面を備
える請求項1〜5のいずれか一項に記載した加硫装置。6. The vulcanizing apparatus according to claim 1, wherein each of the pair of platens has a radial sliding surface of each sector on the radially outer facing surface.
方に突出する、上下一対の爪部を有し、一対のプラテン
それぞれは、各セクタそれぞれの一対の爪部に嵌まり合
う凹部を備える請求項1〜6のいずれか一項に記載した
加硫装置。7. Each of the sectors has a pair of upper and lower claws projecting inward in the radial direction, and each of the pair of platens has a concave portion fitted to the pair of claw portions of each sector. A vulcanizing apparatus according to any one of claims 1 to 6.
ぞれの一対のプラテンに対するロック機構を構成して成
り、ロック時の各凹部は各爪部それぞれに対し間隙を形
成する寸法を有する請求項7に記載した加硫装置。8. The claw and the recess constitute a locking mechanism for a pair of platens of each sector, and each recess at the time of locking has a dimension to form a gap for each claw. Item 7. A vulcanizing apparatus according to item 7.
吊り下げとそれからの解放とが可能な被吊り具を備える
請求項1〜8のいずれか一項に記載した加硫装置。9. The vulcanizing apparatus according to claim 1, wherein the upper platen is provided with a suspended member that can be suspended by a separate lifting means and released therefrom.
た加硫装置を用い、ジャケットの下降位置でトレッドセ
グメントの開状態の下で未加硫タイヤをモールドに装填
し、 上部プラテンを下降させつつジャケットに上部プラテン
を固定し、 ジャケットを上昇させて開状態のトレッドセグメントを
閉状態としてトレッドセグメントと上下プラテンとを相
互にロック状態とし、 該ロック状態下で未加硫タイヤに加硫成形を施すことを
特徴とする大型タイヤ加硫方法。10. An unvulcanized tire is loaded into a mold using the vulcanizing apparatus according to any one of claims 1 to 9 with the tread segment open at the lower position of the jacket, and the upper platen is removed. Fix the upper platen to the jacket while lowering it, raise the jacket to close the open tread segment, lock the tread segment and the upper and lower platens with each other, and vulcanize the unvulcanized tire under the locked condition A large tire vulcanizing method characterized by performing molding.
トの加熱温度に比しより低温度として未加硫タイヤに加
硫成形を施す請求項10に記載した加硫方法。11. The vulcanizing method according to claim 10, wherein the unvulcanized tire is subjected to vulcanization molding by setting the heating temperature of the upper and lower platens lower than the heating temperature of the jacket.
セクタ内側の爪部と、上下プラテンに設ける凹部との間
に隙間を形成させ、モールドに装填した未加硫タイヤ内
部に所定ゲージ圧の加圧加硫媒体を充てんしたときモー
ルドの内面形状を正規化し、この正規化したモールドで
未加硫タイヤに加硫成形を施す請求項10又は11に記
載した加硫方法。12. A gap is formed between the claw portion inside the sector and a concave portion provided on the upper and lower platens in a state where the mold is mounted on the vulcanizing apparatus, and a predetermined gauge pressure is applied inside the unvulcanized tire loaded in the mold. The vulcanization method according to claim 10 or 11, wherein the inner surface shape of the mold is normalized when the pressurized vulcanization medium is filled, and the unvulcanized tire is vulcanized with the normalized mold.
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JP2004058340A (en) * | 2002-07-26 | 2004-02-26 | Mitsubishi Heavy Ind Ltd | Tire vulcanizing apparatus |
WO2005108038A1 (en) * | 2004-05-06 | 2005-11-17 | Bridgestone Corporation | Tire vulcanizing method and tire vulcanizing process setting method |
WO2008146359A1 (en) * | 2007-05-29 | 2008-12-04 | Hirata Corporation | Mold container and tire vulcanization apparatus |
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JP2015182268A (en) * | 2014-03-24 | 2015-10-22 | 東洋ゴム工業株式会社 | tire vulcanizing mold and tire manufacturing method |
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