JP2014177067A - Bead setting ring and raw cover molding apparatus, and bead holder and bead supplying apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a bead setting ring and a raw cover molding apparatus, and a bead holder and a bead supplying apparatus which can further eliminate displacement in the position of a bead as compared to a prior art and can thereby further stabilize a cord path between beads.SOLUTION: In a bead setting ring used for molding a raw cover in the first stage of a two-stage molding method, the surface of a part brought into contact with a bead core part is subjected to surface treatment to allow the bead core part to frictionally engage therewith and thereby prevent displacement in the position of a bead. There is also provided a raw cover molding apparatus including the bead setting ring. In a bead holder of a bead supplying apparatus for supplying the bead to the bead setting ring of the raw cover molding apparatus, the surface of a part brought into contact with the bead core part is subjected to surface treatment to allow the bead core part to frictionally engage therewith and thereby prevent displacement in the position of the bead. There is also provided the bead supplying apparatus including the bead holder.

Description

  The present invention relates to a bead set ring and a raw cover molding device used when manufacturing a raw cover of a pneumatic tire, and a bead holder and a bead supply device.

  When manufacturing a raw cover, generally, a first cover is formed by setting a bead on a bead set ring of a first foamer around which various tire members are wound using a raw cover molding apparatus (1st cover automatic molding machine). After the (1st stage), a two-stage molding method is employed in which the mold is expanded and formed into a toroid shape (2nd stage).

  FIG. 4 is a perspective view showing a conventional bead set ring, and FIG. 5 is a view for explaining the setting of a bead on the bead set ring.

  As shown in FIG. 4, the bead set ring a includes a ring part a <b> 1 and a flange part a <b> 2, and has a shape that matches the inner diameter of a circularly shaped bead (creel bead).

  The bead b is delivered to a bead set ring a from a bead holder (not shown) provided in the bead supply device, and is set in close contact with the bead set ring a at the bead core as shown in FIG. Is done. As a result, the distance (code path) between the two left and right beads b is determined.

  However, conventionally, when the bead b is set on the bead set ring a, the bead core portion of the bead b may be displaced as shown in FIG.

  Due to such misalignment of the bead core portion, for example, the bead may drop from the bead set ring or set distortion may occur during delivery from the bead holder. As shown in FIG. 6, if the bead b is set to the 1st former c in a state where the bead core portion is displaced, the 1st cover in which the code path is kept constant cannot be formed.

  Thus, various techniques have been proposed to stabilize the code path when setting a bead (for example, Patent Documents 1 and 2).

JP 2012-139871 A JP 2012-139929 A

  However, the stabilization of the code path has not yet been sufficient, and further technical improvements that can more fully eliminate the bead misalignment have been demanded.

  The present invention provides a bead set ring and a raw cover molding device, and a bead holder and a bead supply device that can sufficiently eliminate the positional deviation of beads and stabilize the code path between the beads. Is an issue.

The invention described in claim 1
A bead set ring used for raw cover molding in the first stage of the two-stage molding method,
The bead set ring is characterized in that a surface treatment is applied to the surface of the portion that comes into contact with the bead core portion to frictionally engage the bead core portion to prevent a bead position shift.

The invention described in claim 2
2. The bead set ring according to claim 1, wherein a surface roughness Rz at a location where the surface treatment is performed is 15 to 50 μm.

The invention according to claim 3
The bead set ring according to claim 1 or 2, wherein the surface treatment is performed by surface blasting.

The invention according to claim 4
A raw cover molding apparatus comprising the bead set ring according to any one of claims 1 to 3.

The invention described in claim 5
A bead holder of a bead supply device for supplying beads to a bead set ring of a raw cover molding device,
The bead holder is characterized in that a surface treatment is performed on the surface of the portion that comes into contact with the bead core portion so that the bead core portion is frictionally engaged to prevent the bead from being displaced.

The invention described in claim 6
6. The bead holder according to claim 5, wherein a surface roughness Rz at a location where the surface treatment is performed is 15 to 50 μm.

The invention described in claim 7
The bead holder according to claim 5 or 6, wherein the surface treatment is performed by surface blasting.

The invention according to claim 8 provides:
A bead supply device comprising the bead holder according to any one of claims 5 to 7.

  According to the present invention, a bead set ring and a raw cover molding apparatus, a bead holder, and a bead supply apparatus that can eliminate the positional deviation of the beads and stabilize the cord path between the beads are provided. Can do.

It is a perspective view which shows the bead set ring which concerns on embodiment of this invention. It is a figure explaining the setting of the bead to the bead set ring which concerns on embodiment of this invention. It is a perspective view which shows the bead holder which concerns on embodiment of this invention. It is a perspective view which shows the conventional bead set ring. It is a figure explaining the setting of the bead to the conventional bead set ring. It is a figure explaining the state by which the bead was set to the bead set ring in the conventional raw cover molding apparatus.

  Hereinafter, the present invention will be described based on the embodiments.

1. Raw Cover Forming Device FIG. 1 is a perspective view showing a bead set ring according to an embodiment of the present invention, and FIG. 2 is a view for explaining setting of a bead on the bead set ring.

(1) Overall Configuration The raw cover molding apparatus according to the present embodiment includes a 1st former that forms a cylindrical carcass ply, and a bead set ring that contacts the bead core portion and holds the bead. The bead is formed by attaching an apex portion to a bead core portion of a creel bead wire.

(2) Bead Set Ring As shown in FIG. 1, the bead set ring 1 has a ring portion 2 and a flange portion 3 that protrudes radially outward from the outer peripheral surface of the ring portion 2.

  In the present embodiment, the surface of the portion of the ring portion 2 and the flange portion 3 that contacts the bead is subjected to a surface treatment for frictional engagement of the bead core to prevent the bead from being displaced, thereby forming the rough surface portion 4. Has been. Examples of such surface treatment means include blasting.

  Conventionally, since such surface processing has not been performed, as described above, the bead is misaligned when the bead is set, but in this embodiment, a bead core is provided on the surface in contact with the bead. Since the rough surface portion 4 is provided to prevent bead misalignment by frictional engagement, there is no misalignment or slippage when the bead is set, and the bead misalignment is prevented and the cord path between the beads is conventionally provided. Compared to, it can be much stabilized.

  As a result, the average value of the uniformity FV values (RFV value and LFV value) in the product tire is reduced, and variations thereof are also reduced, thereby providing a product tire with improved quality.

  In addition, since no slippage or slippage occurs during bead setting, temporary line stop (so-called chocolate stop) due to the occurrence of bead drop or slippage is reduced, which can greatly contribute to the improvement of productivity.

  The surface roughness Rz (the maximum height of the unevenness of N = 10) in the rough surface portion 4 may be any surface roughness that can prevent the bead from being displaced by frictionally engaging the bead core. The roughness Rz (the maximum height of the unevenness of N = 10) is preferably 15 to 50 μm (triangle symbol ▽). When Rz is smaller than 15 μm (triangle symbol ▽ ▽ ▽), the grip action with the bead core portion of the bead becomes weak and slippery. On the other hand, when it is larger than 50 μm (triangle symbol ▽), the surface area of contact of the bead with the bead core portion is reduced, so that it becomes slippery and the grip action is lost.

  In addition, as the above blasting process, a processing process using iron powder can be employed in the same manner as a general blasting process performed to prevent adhesion with a rubber material. In addition, as an abrasive used for a blast process, an alumina grain, a SUS grain, a glass bead, a silica sand etc. can be mentioned besides the said iron powder.

2. 1. Bead supply device (1) overall configuration The bead supply device includes a bead holder for holding the bead and delivering the bead to the bead set ring of the raw cover molding device, and a moving means for moving the bead from the bead holder to the bead set ring. I have.

(2) Bead Holder FIG. 3 is a perspective view showing a bead holder according to the present embodiment. As shown in FIG. 3, the bead holder 5 is subjected to a surface treatment on the surface in contact with the bead core portion in order to prevent bead misalignment by frictionally engaging the bead core, similarly to the bead set ring. The rough surface portion 6 is formed.

  As the surface treatment means, blasting can be mentioned as in the case of the bead set ring. Moreover, as surface roughness Rz of the formed rough surface part 6, it is preferable that it is 15-50 micrometers similarly to a bead set ring.

  The bead holder 5 is originally subjected to surface processing (tack-free) in order to prevent adhesion with the apex portion of the bead. However, since the rough surface portion formed by this processing is too rough, it cannot be said that it is sufficient to prevent the occurrence of bead misalignment.

1. Production of test tires Using a conventional green cover molding apparatus having a bead set ring in which no rough surface portion is formed, 100 test tires (195 / 65R15) of Experimental Example 1 are produced, and Rz shown in Table 1 100 test tires of Experimental Examples 2 to 7 were produced in the same manner using a raw cover molding apparatus provided with a bead set ring in which the rough surface portion was formed.

2. Evaluation About each produced test tire, RFV and LFV were measured, average value N and standard deviation (sigma) of RFV and LFV were calculated | required, and evaluation was performed. In addition, the number of chocolate stops per day was counted and evaluated.

  The results are shown in Table 1.

  As shown in Table 1, compared with the result of Experimental Example 1 in which the rough surface portion is not formed, in Experimental Examples 3 to 5, N and σ of LFV and N and σ of RFV are both small, and the number of stoppages is zero. It has become. From this result, it is possible to improve the uniformity of the tire by forming a rough surface portion with an appropriate Rz in order to prevent bead misalignment by frictionally engaging the bead core, and also improve productivity without a choke stop. It can be seen that it can contribute.

  On the other hand, in Experimental Example 2 where Rz is small, Experimental Example 6 and Experimental Example 7 where Rz is large, N and σ of LFV and N and σ of RFV are both larger than the result of Experimental Example 1. At the same time, there is also a chocolate stop. This is presumably because, as described above, Rz 12 μm has little effect of preventing bead misalignment by frictionally engaging the bead, and 60 μm and 100 μm, on the other hand, easily slides the bead core.

  From the above results, it was confirmed that Rz in the formed rough surface portion was preferably 15 to 50 μm.

  In the above, an experiment was performed on the bead set ring, but similar results were obtained for the bead holder.

  As mentioned above, although this invention was demonstrated based on embodiment, this invention is not limited to said embodiment. Various modifications can be made to the above-described embodiment within the same and equivalent scope as the present invention.

DESCRIPTION OF SYMBOLS 1, a Bead set ring 2, a1 Ring part 3, a2 Flange part 4 Rough surface part (bead set ring) 5 Bead holder 6 Rough surface part (bead holder) b Bead c 1st former

Claims (8)

A bead set ring used for raw cover molding in the first stage of the two-stage molding method,
A bead set ring characterized in that a surface treatment is performed on a surface of a portion that comes into contact with the bead core portion so as to frictionally engage the bead core portion to prevent a bead position shift.   2. The bead set ring according to claim 1, wherein a surface roughness Rz at a location where the surface treatment is performed is 15 to 50 μm.   The bead set ring according to claim 1, wherein the surface treatment is performed by surface blasting.   A raw cover molding apparatus comprising the bead set ring according to any one of claims 1 to 3. A bead holder of a bead supply device for supplying beads to a bead set ring of a raw cover molding device,
A bead holder characterized in that a surface treatment is performed on a surface of a portion that comes into contact with the bead core portion so that the bead core portion is frictionally engaged to prevent the bead from being displaced.   The bead holder according to claim 5, wherein a surface roughness Rz at a location where the surface treatment is performed is 15 to 50 μm.   The bead holder according to claim 5 or 6, wherein the surface treatment is performed by surface blasting.   A bead supply device comprising the bead holder according to any one of claims 5 to 7.

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