The present invention relates to a method of coating a metal filament as a constituent of, for example, a cord for reinforcing a rubber article, with rubber, a method of producing a cord by twisting metal filaments as constituents of a cord by a filament twisting machine, a cord formed by twisting rubber-coated metal filaments by a filament twisting machine, a rubber coating apparatus for coating a metal filament with rubber, and a cord producing apparatus.
Various characteristics are required of a cord for reinforcing a rubber article, in particular, a cord serving for reinforcing a tire. A cord for reinforcing a tire is required, above all, to be capable of suppressing deterioration of cord durability, which deterioration is due to growth of corrosion caused by moisture which has entered inside the tire.
Specifically, when moisture enters the inside of a tire from an external damage of the tire and the moisture reaches a cord, the cord suffers from corrosion due to the moisture. In this situation, if there exists a clearance inside the cord, the moisture travels in the longitudinal direction of the cord via the clearance, thereby enlarging a corrosion area along the cord. As a result, durability of the cord deteriorates due to this corrosion.
Accordingly, in order to suppress corrosion of a cord, it is necessary to sufficiently fill a clearance inside the cord with rubber and prevent moisture from travelling along the longitudinal direction of the cord.
In view of this, JP 2002-302884 and JP 2002-302885 each propose a technology of coating respective filaments with unvulcanized rubber in an unvulcanized rubber coating machine; then parting the respective filaments coated with unvulcanized rubber by a line-parting machine (a guide) and supply the parted filaments to a buncher twisting machine; and simultaneously twisting these filaments coated with unvulcanized rubber by using the buncher twisting machine, to produce a cord.
Further, JP 2002-266266 proposes a technology of coating the periphery of a core as plural twisted filaments with unvulcanized rubber by using a rubber extruder; and twining by using a buncher twisting machine plural filaments, which are to form a sheath, around the core coated with unvulcanized rubber, to form a cord.
However, in the technologies disclosed in JP 2002-302884 and JP 2002-302885, since respective filaments are to be coated with unvulcanized rubber individually, unvulcanized rubber tends to come off from the filaments when the filaments coated with unvulcanized rubber are brought into contact with a guide during a process of converging the filaments through the guide, whereby the filaments end up with a state where they are not sufficiently coated with unvulcanized rubber. Further, since the unvulcanized rubber which has come off clogs the guide, there arises a possibility that the filaments may not be able to pass through the guide.
Further, in the case of the technology of JP 2002-266266, the twist originated by the buncher twisting machine is transmitted to the filaments which are to form a core when the periphery of the core is coated with rubber by the rubber extruder. For example, when three filaments are used, a core is coated with unvulcanized rubber in a state where the core has a twisted structure of 1×3. As a result, there arises a problem that a closed space, which is not filled with unvulcanized rubber, is generated in the core portion of the filaments.
In view of the problems above, an object of the present invention is to make it possible to provide a cord, in particular, a cord for reinforcing a rubber article in which rubber permeation properties are improved by coating filaments as constituents of the cord with rubber in a reliable and stable manner.
As a result of a keen study of means for achieving the aforementioned object, the inventors of the present invention have discovered that filaments can be coated with rubber in a reliable and stable manner by laying the filaments horizontally and coating these filaments with rubber at a time when the filaments are coated with rubber and suppressing twisting of the filaments originated by a twisting machine when the filaments are twisted to a cord, to complete the present invention.
Specifically, the gist of the present invention is as follows:
According to the present invention, plural metal filaments can be coated with rubber in a reliable and stable manner by juxtaposing plural metal filaments in a mouthpiece of an extruder and coating these juxtaposed metal filaments with rubber at a time. As a result, the metal filaments can be twisted to form a cord without experiencing the rubber peeling off therefrom. Further, twisting of a metal filament can be suppressed by eliminating on the outlet side of the mouthpiece a twist transmitted from a filament twisting machine to the metal filament, whereby the filament can be coated with rubber in a reliable and stable manner. As a result, a cord having excellent durability can be obtained.
1 Metal filament
1
a Metal filament coated with rubber
1
b Metal filament which is to form sheath
2 Rubber coating apparatus
3 Rubber
4 Twist eliminating apparatus
5 Guide
6 Converging portion
7 Filament twisting machine
8 Cord
9 Mouthpiece
10 Multiple groove pulley
11 Spool
The present invention will be described in detail hereinafter. A method of coating metal filaments with rubber of the present invention will be described with reference to the drawings. First,
Herein, a process of coating the metal filament 1 with rubber will be described in detail with reference to
By juxtaposing the metal filaments 1 within the mouthpiece 9, coating the metal filaments 1 with rubber 3 and extruding the metal filaments 1a coated with rubber 3 as described above, the metal filaments 1a can be linearly supplied along a pass line linking the rubber coating apparatus 2 and the filament twisting machine 7 when the metal filaments 1a are supplied to the filament twisting machine 7, whereby the metal filaments 1a can be prevented from making contact with the guide 5. As a result, since contact of the metal filament 1a with the guide 5 is prevented, the rubber 3 does not come off from the metal filament 1a, whereby the metal filaments 1a each reliably coated with rubber can be supplied to the filament twisting machine 7.
Further, since metal filaments 1a travel without making contact with the guide 5, it is very unlikely that rubber which has come off from the metal filaments 1a clogs a through hole of the guide. Accordingly, a situation in which the rubber 3 clogs the through hole of the guide 5 such that the metal filaments 1a can no longer pass through the through hole of the guide 5 can be prevented from occurring.
Next, a procedure for producing a cord by twisting the metal filaments 1a coated with rubber according to the aforementioned method will be described. First, plural metal filaments 1 are juxtaposed in the mouthpiece 9 and extruded together with rubber. It is important that, when the metal filaments 1a are supplied to the filament twisting machine 7 to produce a cord, twist transmitted from the filament twisting machine 7 to the metal filament 1a is eliminated on the outlet side of the mouthpiece 9. Specifically, the metal filaments 1a are supplied to the filament twisting machine 7 via the twist-eliminating machine 4 for eliminating twist transmitted from the filament twisting machine 7, in particular, a buncher twisting machine to the respective metal filaments 1a, and the metal filaments 1a are twisted to produce a cord 8 by the filament twisting machine 7, whereby a cord inside of which is reliably filled with rubber can be produced.
Since twist transmitted from the filament twisting machine 7 to the metal filaments is eliminated, the metal filaments 1 are not twisted with each other when the metal filaments 6 are coated with rubber 3 within the mouthpiece 9. In other words, the metal filaments can be coated with rubber 3 without entangling with each other to create a closed space at the core thereof. As a result, the peripheries of the respective metal filaments 1 can be each reliably coated with the rubber 3, whereby, for example, in a case where a cord having 1×3 structure is produced by using three metal filaments, the three metal filaments are coated with rubber in advance and thus a cord of which center portions between the filaments are sufficiently permeated with rubber can be produced. Accordingly, growth of corrosion by moisture described above is suppressed and thus a cord having excellent durability can be produced.
In the present embodiment, in a case where the filament twisting machine used for twisting the metal filaments 1a each other in the cord production is a buncher-type machine, twist is inevitably generated in the metal filaments and thus application of the present invention is especially effective. The cord produced as described above will be a cord having a twisted single layered structure such as 1×n (n≧3).
Further, another cord according to the present invention can be produced as shown in
In short, in a case of a cord having a double layered structure, a cord structure where the inside of the core thereof is completely filled with rubber without voids can be realized by using the aforementioned metal filaments 1a as the core of a cord of a single twist double layered structure.
Further, it is acceptable to once wind up a cord produced by a series of processes as shown in
The apparatus for coating plural metal filaments 1 with rubber 3 includes an extruder and a mouthpiece 9 as described above. It is essential that the mouthpiece 9 has a width which allows plural metal filaments 1 to be disposed in a juxtaposed manner in the mouthpiece 9.
Specifically, plural metal filaments 1 can be juxtaposed within the mouthpiece 9 and thus these metal filaments 1 can be coated with rubber 3 at a time because the mouthpiece 9 has a width which allows the plural metal filaments 1 can be disposed in a juxtaposed manner therein. As a result, the metal filaments 1 can avoid making contact with the guide 5 and thus a situation in which the rubber 3 comes off from the metal filaments 1a can be prevented from occurring.
In the present embodiment, the mouthpiece 9 in which plural metal filaments 1 can be disposed in a juxtaposed manner preferably has a width W calculated by formula (1) below. “A” in the formula (1) is a value calculated by formula (2) below in consideration B shown in
Note:
Width W (mm)=diameter t (mm) of metal filament×(number of metal filaments to be coated with rubber−1)+t×A (1); and
A: (clearance B×2+diameter t of metal filament)/diameter t of metal filament (2)
(A is preferably equal to or larger than 1.2)
Further, its is important to provide, on the outlet side of the rubber coating apparatus 2, the twist-eliminating machine 4 for eliminating transmission of twist from the filament twisting machine 7 in a cord producing apparatus including the rubber coating apparatus 2, having the extruder and the mouthpiece, and the filament twisting machine 7. Twist transmitted from the filament twisting machine 7 to the metal filaments can be eliminated by providing on the outlet side of the rubber coating apparatus 2 the twist-eliminating machine 4 for eliminating transmission of twist. As a result, each respective metal filament 1 is coated with rubber 3 in a state where the metal filament is not twisted in the process of coating the metal filament 1 with rubber 3 by the rubber coating apparatus 2, whereby coating with rubber can be effected in a reliable and stable manner.
The twist-eliminating machine 4 for eliminating twist transmitted from the filament twisting machine 7 to the metal filaments can eliminate twist from the filament twisting machine 7 as long as the machine 4 is provided between the outlet side of the rubber coating apparatus 2 and the guide 5. Therefore, the disposition of the twist-eliminating machine 4 is not restricted to the position shown in
As the twist-eliminating machine as described above, multiple groove pulleys as shown in
Cords each having 3+9×022 (mm) structure were produced by using mouthpieces having widths calculated by substituting the A values shown in Table 1 for A in formula (1), respectively, by the cord producing process as show in
Permeation properties of rubber were evaluated by observing a rubber-coated area in a section of each cord cut in a direction orthogonal to the axial direction thereof.
From the results of Table 1, it is understood that permeation properties of rubber of the cords of Present Examples significantly improve as compared with those of Conventional Example.
Number | Date | Country | Kind |
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2007-243968 | Sep 2007 | JP | national |
This application is a divisional of U.S. application Ser. No. 12/679,136, filed Apr. 15, 2010, which is a National Stage of International Application No. PCT/JP2008/067008 filed Sep. 19, 2008, claiming priority based on Japanese Patent Application No. 2007-243968, filed Sep. 20, 2007, the contents of all of which are incorporated herein by reference in their entirety.
Number | Name | Date | Kind |
---|---|---|---|
885219 | Bayne et al. | Apr 1908 | A |
2040105 | Ritzert | May 1936 | A |
2105812 | Gordon et al. | Jan 1938 | A |
2563113 | Hindin et al. | Aug 1951 | A |
2601394 | Hansen | Jun 1952 | A |
3143786 | Jones et al. | Aug 1964 | A |
3908351 | Carroll | Sep 1975 | A |
4143209 | Gerspacher et al. | Mar 1979 | A |
4274821 | Kiemer | Jun 1981 | A |
4277642 | Piper et al. | Jul 1981 | A |
4471527 | Nishijima | Sep 1984 | A |
5084221 | Matsuno et al. | Jan 1992 | A |
6958102 | Imamiya | Oct 2005 | B2 |
7056110 | Abdallah | Jun 2006 | B2 |
7665290 | Ueda et al. | Feb 2010 | B2 |
20020134482 | Takagi | Sep 2002 | A1 |
20020160213 | Imamiya et al. | Oct 2002 | A1 |
20050147702 | Higashi | Jul 2005 | A1 |
20070190260 | Imamiya et al. | Aug 2007 | A1 |
Number | Date | Country |
---|---|---|
1341179 | Mar 2002 | CN |
0 619 170 | Oct 1994 | EP |
1 172 476 | Jan 2002 | EP |
52-33087 | Mar 1977 | JP |
53-51804 | May 1978 | JP |
08-103972 | Apr 1996 | JP |
9-137392 | May 1997 | JP |
2001-336076 | Dec 2001 | JP |
2002-266266 | Sep 2002 | JP |
2002-302884 | Oct 2002 | JP |
2002-302885 | Oct 2002 | JP |
2004-277923 | Oct 2004 | JP |
2005-193494 | Jul 2005 | JP |
2006-291424 | Oct 2006 | JP |
2006112395 | Oct 2006 | WO |
Entry |
---|
Chinese Office Action, dated Mar. 14, 2013, issued in corresponding Chinese Application No. 200880113218.0. |
U.S. Office Action, dated Apr. 4, 2013, issued in parent U.S. Appl. No. 12/679,136. |
European Office Action issued in European Application No. 08832452.0 dated Sep. 18, 2014. |
Extended European Search Report, dated Feb. 24, 2014, issued in European Patent Application No. 08832452.0. |
Japanese Office Action dated Oct. 18, 2011 issued in Japanese Application No. 2007-243968 with English translation (6 pages). |
Chinese Office Action issued in Chinese Application No. 200880113218.0 dated Jul. 13, 2012. |
Search Report from the Chinese Examiner of Chinese Application No. 200880113218.0. |
International Search Report of PCT/JP2008/067008 dated Dec. 16, 2008, 4 pages. |
Number | Date | Country | |
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20130219850 A1 | Aug 2013 | US |
Number | Date | Country | |
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Parent | 12679136 | US | |
Child | 13853611 | US |