JP2024040030A - Bladder processing apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently process a bladder.

SOLUTION: A bladder processing apparatus 1 includes a first support member 10, a second support member 20, and a gas supply device 30. The first support member 10 supports a cylindrical bladder 50 having a pair of openings 51b and 52b, and also closes one of the openings 51b of the bladder 50. The second support member 20 is opposite the first support member 10 and closes the other opening 52b of the bladder 50. The gas supply device 30 is connected to the second support member 20 and supplies gas to an inside of the bladder 50.

SELECTED DRAWING: Figure 2

COPYRIGHT: (C)2024,JPO&INPIT

Description

The present invention relates to a bladder treatment device.

Japanese Unexamined Patent Publication No. 2022-047817 discloses a method for cleaning a tire vulcanization bladder that has been repeatedly used for tire vulcanization molding. In the cleaning method disclosed in the publication, the surface layer of the outer surface of the tire curing bladder as well as dirt adhering to the outer surface are removed.

JP2022-047817A

By the way, the present inventor would like to efficiently process tire curing bladders.

The bladder processing device disclosed herein includes a first support member that supports a cylindrical bladder having a pair of openings and that closes one opening of the bladder, and a first support member that faces the first support portion and closes the other opening of the bladder. It includes a second support member that closes the opening, and a gas supply device that is connected to at least one of the first support member and the second support member and supplies gas to the inside of the bladder.

According to such a bladder processing device, a tire curing bladder can be efficiently processed.

FIG. 1 is a schematic diagram of a bladder processing device 1. As shown in FIG. FIG. 2 is a schematic diagram of the bladder treatment device 1. FIG. 3 is a schematic diagram of the second support member 20. FIG. 4 is a schematic diagram of a polishing member 40 . FIG. 5 is a schematic diagram of the polishing member 40.

Hereinafter, one embodiment of the present invention will be described based on the drawings. Note that the present invention is not limited to the following embodiments. Each drawing is schematic and does not necessarily reflect the actual product. Moreover, each drawing shows only an example and does not limit the present invention unless specifically mentioned. In addition, members and parts that have the same function are designated by the same reference numerals as appropriate, and redundant explanations will be omitted. The upward and downward directions are represented by arrows U and D, respectively, in the figure. Here, the upward and downward directions are only determined for convenience of explanation, and do not limit the present invention unless specifically mentioned.

<Bladder processing device 1>
1 and 2 are schematic diagrams of the bladder treatment device 1. FIG. FIG. 1 schematically shows a cross section of a bladder processing apparatus 1 in which a tire vulcanizing bladder 50 before being processed is placed on a first support member 10. FIG. 2 schematically shows a cross section of the bladder processing apparatus 1 in which the tire vulcanizing bladder 50 before being processed is sandwiched between the first support member 10 and the second support member 20. As shown in FIG. 1, the bladder treatment device 1 includes a first support member 10, a second support member 20, and a gas supply device 30. The bladder processing device 1 further includes a drive device 18 that rotationally drives the first support member 10.

Here, as an example, an example will be described in which the bladder treatment device 1 is used to treat burrs 50a that may be formed on a tire curing bladder (hereinafter also simply referred to as "bladder") 50 immediately after vulcanization molding. explain.

<Bladder 50>
The bladder 50 is formed into a cylindrical shape having a pair of openings 51b and 52b. Although detailed description is omitted, the portions 51a and 52a in which the openings 51b and 52b are formed are held by a clamp member when attached to a tire curing mold. Therefore, the portions 51a and 52a where the openings 51b and 52b are formed can be formed thicker than other portions of the bladder 50. Hereinafter, in this specification, the portion where the opening of the bladder is formed will also be referred to as an "opening" as appropriate.

The bladder 50 is manufactured, for example, by vulcanization molding in a bladder vulcanization mold. In this embodiment, a mold that can be opened and closed vertically is used as the bladder vulcanization mold. The bladder vulcanization mold includes a lower mold for molding a lower outer peripheral surface 51 of the bladder 50, an upper mold for molding an upper peripheral surface 52 of the bladder 50, and a core mold for molding the inner peripheral surface 53 of the bladder 50. ing. The upper mold and the lower mold have substantially symmetrical shapes. The lower mold and the upper mold are configured to be openable and closable. By closing the lower mold and the upper mold, unvulcanized rubber flows into the space within the mold. The unvulcanized rubber that has flowed into the space within the mold is vulcanized within the mold. At this time, a small gap may inevitably be formed at the interface between the closed upper mold and the lower mold. By vulcanizing the unvulcanized rubber flowing into the gap, a burr 50a may be formed on the manufactured bladder 50. The burr 50a is formed on the outer surface of the bladder 50 at the boundary between the lower part 51 and the upper part 52 to which the lower mold and the upper mold are applied, respectively. The burr 50a is formed continuously in the circumferential direction on the outer surface of the bladder 50. In addition, in this embodiment, the burr 50a is formed in the bladder 50 at a substantially intermediate portion between the pair of openings 51a and 52a. However, the burr 50a is not necessarily formed at such a position, and the position at which the burr 50a is formed may vary depending on the shape of the mold and the like. For example, if the lower mold and upper mold have asymmetrical shapes, the burr 50a may be formed on the lower or upper portion of the bladder 50.

<First support member 10>
The first support member 10 is a member that supports the bladder 50 and closes one opening of the bladder 50. In this embodiment, the first support member 10 is a member that closes the lower opening 51b of the bladder 50. The first support member 10 includes a base portion 11 and a holding portion 12. The first support member 10 also includes a rotating table 15 to which the base portion 11 is attached. The holding portion 12 has a shape corresponding to the shape of a portion 51a of the bladder 50 in which the opening 51b is formed. The base portion 11 is a portion to which the holding portion 12 is attached. The first support member 10 is a metal member. From the viewpoint of light weight and corrosion resistance, the first support member 10 made of aluminum or aluminum alloy may be used, for example.

<Base part 11>
The base portion 11 is a substantially disk-shaped metal member. A holding part 12, which will be described later, is attached to the base part 11. The base portion 11 includes an upper surface 11a on which the holding portion 12 is placed, and a mounting hole 11b formed in the upper surface 11a. The mounting holes 11b are formed at a plurality of locations on the upper surface 11a of the base portion 11 along the circumferential direction. A female thread to which the bolt 13 is attached is formed on the inner peripheral surface of the attachment hole 11b.

Although the shape of the base portion 11 is not particularly limited, the base portion 11 has a convex portion 11c that projects upward. The convex portion 11c is provided approximately at the center of the base portion 11. The convex portion 11c is formed in a substantially truncated conical shape that gradually tapers upward. A through hole 11d extending along the height direction of the protrusion 11c is formed approximately at the center of the protrusion 11c.

In this embodiment, the base portion 11 has a sealing member 11a1 on the upper surface 11a (boundary surface with the holding portion 12) on which the holding portion 12 is placed. Although not particularly limited, in this embodiment, the sealing member 11a1 is a rubber O-ring. The sealing member 11a1 is provided in an annular shape so as to surround the convex portion 11c. Although detailed illustration is omitted, a groove is formed in the upper surface 11a of the base portion 11 to accommodate the sealing member 11a1. The groove has a shape that widens in the depth direction so that the sealing member 11a1 can be accommodated therein. The groove is formed by so-called dovetail processing. This makes it difficult for the sealing member 11a1 to come off the base portion 11.

The base portion 11 is attached to a rotating table 15. The base portion 11 has a recessed portion on the surface opposite to the upper surface 11a. The rotary table 15 has a convex portion that fits into the concave portion of the base portion 11 . The position of the base portion 11 with respect to the rotary table 15 is determined by fitting the convex portion of the rotary table 15 into the recessed portion of the base portion 11. Note that the dimensions of the concave portion of the base portion 11 and the convex portion of the rotary table 15 are not particularly limited. The base portion 11 is mounted with bolts 16 while being positioned relative to the rotary table 15 . Rotary table 15 is connected to drive device 18 . As the drive device 18, for example, a motor or the like can be used. The rotating table 15 is rotationally driven by the driving device 18 . The rotation speed of the rotating table 15 can be set as appropriate. A holding portion 12 is attached to a base portion 11 attached to a rotating table 15.

<Holding part 12>
The holding portion 12 is a portion corresponding to the shape of the portion 51a of the bladder 50 in which the opening 51b is formed. In this embodiment, the holding portion 12 is a substantially disk-shaped metal member having a larger diameter than the base portion 11 . A bladder 50 is placed on the holding part 12. In this embodiment, the holding portion 12 of the first support member 10 has a first protrusion 12d corresponding to the inner circumferential surface 51a1 of the portion 51a of the bladder 50 where the opening 51b is formed. The first protrusion 12d stands upward.

The first protrusion 12d has an external shape along the inner circumferential surface 51a1 of the portion 51a of the bladder 50 where the opening 51b is formed. In this embodiment, the first protrusion 12d is formed into a substantially cylindrical shape. The first protrusion 12d formed in a substantially cylindrical shape is easier to fit into the inner circumferential surface 51a1 of the opening 51a of the bladder 50, compared to, for example, a case where the first protrusion 12d tapers upward. . Therefore, the bladder 50 is easily fixed to the holding part 12. Further, the upper end edge of the first projection 12d is rounded along the circumferential direction. In other words, the upper edge of the first protrusion 12d has rounded corners. This makes it easy to attach the bladder 50 to the first support member 10.

The holding portion 12 of the first support member 10 includes a groove 12e corresponding to the shape of a portion 51a of the bladder 50 where the opening 51b is formed. The groove 12e is a portion of the holding portion 12 of the first support member 10 that is recessed downward. The groove 12e has a size and shape that allows the opening 51a of the bladder 50 to fit therein. In this embodiment, the groove 12e is formed continuously in the circumferential direction along the outer periphery of the first protrusion 12d.

Note that the shape of the groove 12e is not particularly limited. In this embodiment, the wall surface of the groove 12e rises from the bottom of the groove 12e along the vertical direction. The inner wall surface of the groove 12e constitutes a side peripheral surface of the convex portion 12d. Moreover, the edge 12e1 of the outer peripheral portion of the groove 12e has a tapered shape that gradually becomes shallower toward the inner diameter direction. In other words, the outer peripheral edge 12e1 of the groove 12e has a chamfered shape. Thereby, the opening 51a of the bladder 50 is easily guided toward the groove 12e. Therefore, positioning of the bladder 50 with respect to the holding part 12 becomes easy.

The holding part 12 is configured to be detachable from the base part 11. The holding part 12 has a mounting hole 12b corresponding to the mounting hole 11b of the base part 11. The attachment hole 12b is formed at a position that overlaps the attachment hole 11b of the base portion 11 when the holding portion 12 is stacked on the base portion 11. The attachment hole 12b penetrates the holding part 12 along the thickness direction (vertical direction) of the holding part 12. The bolt 13 is inserted into the mounting hole 12b. The bolt 13 is attached to a female thread on the inner peripheral surface of the attachment hole 11b of the base portion 11. The mounting hole 12b has a counterbore in which the head of the bolt 13 is accommodated. The outer diameter of the head of the bolt 13 is larger than the inner diameter of the mounting hole 12b except for the portion where the counterbore is formed. Therefore, the holding part 12 is fixed to the base part 11 by tightening the bolt 13.

In addition, in this embodiment, the holding part 12 has a through hole 12c corresponding to the shape of the convex part 11c of the base part 11. By forming the through hole 12c in the holding part 12 into which the convex part 11c of the base part 11 fits, positioning of the holding part 12 with respect to the base part 11 becomes easy. Furthermore, in this embodiment, the convex portion 11c of the base portion 11 has a shape that tapers upward. The through hole 12c gradually becomes narrower from the surface 12a placed on the upper surface 11a of the base portion 11 toward the opposite surface along the shape of the convex portion 11c. Since the convex portion 11c of the base portion 11 and the through hole 12c of the holding portion 12 have such shapes, the convex portion 11c and the through hole 12c are easily aligned, and the holding portion 12 is attached to the base portion 11. It becomes easier.

<Second support member 20>
The second support member 20 is provided at a position facing the first support section 10. The second support member 20 is a member that closes the other opening 52b of the bladder 50. In this embodiment, it is a member that closes the upper opening 52b of the bladder 50. Like the first support member 10, the second support member 20 includes a base portion 21 and a holding portion 22. The second support member 20 also includes a lifting platform 28 to which the base portion 21 is attached. The holding portion 22 has a shape corresponding to the shape of a portion 52a of the bladder 50 in which the opening 52b is formed. The base portion 21 is a portion to which the holding portion 22 is attached. In this embodiment, the second support member 20 is a metal member. From the viewpoint of lightness and corrosion resistance, the second support member 20 may be made of aluminum or aluminum alloy, for example.

<Base part 21>
The base portion 21 is a substantially disk-shaped metal member. A holding section 22, which will be described later, is attached to the base section 21. The base portion 21 includes a lower surface 21a on which the holding portion 22 is mounted, and a mounting hole 21b formed in the lower surface 21a. The configuration of the attachment hole 21b formed on the lower surface 21a of the base portion 21 is similar to the configuration of the attachment hole 11b formed on the upper surface 11a of the base portion 11 of the first support member 10, so a detailed explanation will be omitted. .

Similar to the base portion 11 of the first support member 10, the base portion 21 has a convex portion 21c projecting downward. The convex portion 21c is provided approximately at the center of the base portion 21. A through hole 21d is formed from approximately the center of the convex portion 21c toward the upper surface of the base portion 21. Moreover, like the base part 11 of the first support member 10, the base part 21 has a sealing member 21a1 on the lower surface 21a on which the holding part 22 is attached. In this embodiment, the base portion 21 of the second support member 20 has the same shape as the base portion 11 of the first support member 10 . Therefore, a detailed description of the shape of the base portion 21 will be omitted.

The base portion 21 is attached to a lifting platform 28 with bolts 26. The mounting structure of the base part 21 to the lifting table 28 is the same as the mounting structure of the base part 11 to the rotary table 15, so a detailed explanation will be omitted. The lifting platform 28 is connected to the cylinder 35 via a shaft 36. The lifting platform 28 is driven up and down by a cylinder 35. The upper part of the shaft 36 is supported by a bearing 37. A holding portion 22 is attached to the base portion 21 attached to the lifting table 28.

<Holding part 22>
The holding portion 22 is a portion corresponding to the shape of the portion 52a of the bladder 50 in which the opening 52b is formed, as shown in FIG. Like the holding part 22 of the first support member 10, the holding part 22 is a substantially disk-shaped metal member having a larger diameter than the base part 21. The holding part 22 is a part that is overlapped with the bladder 50. In this embodiment, the holding portion 22 of the second support member 20 has a second protrusion 22d corresponding to the inner peripheral surface 52a1 of the portion 52a of the bladder 50 where the opening 52b is formed. The second protrusion 22d falls downward. The outer shape of the second protrusion 22d is set to be slightly narrower than the opening 52a of the bladder 50 and the inner diameter thereof.

The second protrusion 22d has a shape tapered toward the first support member 10. In other words, the second protrusion 22d has a tapered portion 22d1 that gradually tapers downward. A groove 22e is formed outward from the outer peripheral edge of the tapered portion 22d1 (that is, the outer peripheral edge of the second protrusion 22d). In other words, the holding portion 22 of the second support member 20 is provided with the groove 22e corresponding to the shape of the portion 52a of the bladder 50 in which the opening 52b is formed. The groove 22e is a portion of the holding portion 22 of the second support member 20 that is recessed upward. The groove 22e has a size and shape that allows the opening 52a of the bladder 50 to fit therein. In this embodiment, the groove 22e is formed continuously in the circumferential direction along the outer periphery of the first protrusion 12d.

Note that the shape of the groove 22e is not particularly limited. In this embodiment, the wall surface of the groove 22e falls down from the bottom of the groove 22e along the vertical direction. The heights of the inner and outer wall surfaces of the groove 22e are approximately the same. The outer peripheral edge 22e1 of the groove 22e has a tapered shape that gradually becomes shallower toward the inner diameter direction, similar to the groove 12e of the holding portion 12 of the first support member 10. Therefore, a tapered shape (tapered portion 22d1 and tapered edge 22e1) toward the groove 22e is formed on the inside and outside of the groove 22e.

The holding part 22 is configured to be detachable from the base part 21. The holding part 22 has a mounting hole 22b corresponding to the mounting hole 21b of the base part 21. In this embodiment, the base portion 21 of the second support member 20 is provided with a support bolt 25 (see FIG. 3) for supporting the holding portion 22.

FIG. 3 is a schematic diagram of the second support member 20. FIG. 3 schematically shows the support member 20 viewed from below (first support member 10 side). As shown in FIG. 3, the support bolt 25 is attached to the base portion 21. The support bolt 25 extends downward from the lower surface 21a of the base portion 21. The support bolt 25 has a shaft portion 25a extending downward from the lower surface 21a of the base portion 21, and a head portion 25b provided at the lower end of the shaft portion 25a. The outer diameter of the head 25b is larger than the outer diameter of the shaft portion 25a.

A mounting hole 24 into which a support bolt 25 is inserted is formed in the holding portion 22 . The mounting hole 24 includes a thin hole 24a into which the shaft portion 25a of the support bolt 25 is inserted, and an insertion hole 24b into which the head 25b is inserted. The small hole 24a is an elongated hole formed along the circumferential direction of the holding portion 22. The small hole 24a is formed to be wider than the diameter of the shaft portion 25a of the support bolt 25 and narrower than the diameter of the head 25b. A substantially circular insertion hole 24b is formed at one end of the thin hole 24a. The insertion hole 24b is formed wider than the diameter of the head 25b of the support bolt 25.

In this embodiment, the holding part 22 is attached to the base part 21 provided above in the following procedure. The holding part 22 is lifted and the head 25b of the support bolt 25 is inserted into the insertion hole 24b of the mounting hole 24. The holding portion 22 is rotated in the circumferential direction (in the direction indicated by the arrow in FIG. 3), and the thin hole 24a of the attachment hole 24 is moved to the position of the head 25b of the support bolt 25. As a result, the holding part 22 is supported by the head 25b of the support bolt 25, and the holding part 22 is prevented from falling. With the holding part 22 supported by the support bolt 25, the bolt 26 is attached to the mounting hole 22b of the holding part 22 and the mounting hole 21b of the base part 21. Thereby, the workability when attaching the holding part 22 to the base part 21 of the second support member 20 provided at the upper part of the bladder processing device 1 can be improved.

<Gas supply device 30>
The gas supply device 30 (see FIG. 2) is a device for supplying gas to the inside of the bladder 50. The gas supply device 30 is connected to at least one of the first support member 10 and the second support member 20. The gas supply device 30 is configured to be able to introduce air, for example. As shown in FIG. 2, the gas supply device 30 is connected to the second support member 20. Air supply paths 36a and 28a are provided inside the shaft 36 and the lifting platform 28, respectively. A rotary joint 38 is attached to the upper end of the shaft 36. A gas supply device 30 is connected to the rotary joint 38 .

<Processing of bladder 50>
Hereinafter, a procedure for processing a bladder using the above-mentioned bladder processing device 1 will be explained. As shown in FIG. 1, a vulcanized bladder 50 is mounted on the first support member 10. As shown in FIG. In this embodiment, the bladder 50 rests on the holding part 12 of the first support member 10 . At this time, the position of the opening 51a of the bladder 50 is aligned by the groove 12e and the first protrusion 12b.

When the bladder 50 is placed on the first support member 10, the opening 52b of the bladder 50 is then closed by the second support member 20. As shown in FIG. 2, the opening 52b of the bladder 50 is closed by the holding part 22 of the second support member 20. At this time, the bladder 50 is sandwiched between the first support member 10 and the second support member 20. In this embodiment, the lift platform 28 to which the second support member 20 is attached is lowered by the cylinder 35. The lifting platform 28 descends to a predetermined position. At this time, the second protrusion 22d is inserted into the opening 52b of the bladder 50. Thereby, the bladder 50 can be easily positioned with respect to the holding part 22. Further, the second protrusion 22d has a shape tapered toward the first support member 10. As a result, even if the bladder 50 is supported by the first support member 10 with a slight incline, for example, the opening 52a of the bladder 50 is guided along the tapered portion 22d1, and the second support member 20 is The supporting position becomes stable.

When the elevator platform 28 descends to a predetermined position, the bladder 50 is held between the first support member 10 and the second support member 20. Openings 51b and 52b of bladder 50 are closed by first support member 10 and second support member 20, respectively.

When the bladder 50 is sandwiched between the first support member 10 and the second support member 20 and the openings 51b and 52b of the bladder 50 are closed, gas is then introduced into the interior of the bladder 50. In this embodiment, gas is introduced by a gas supply device 30 connected to the second support member 20 . Gas is introduced into the bladder 50 from the gas supply device 30 through the air supply paths 36a and 28a. As a result, the bladder 50 expands in the outer diameter direction. At this time, the internal pressure of the bladder 50 can be adjusted to a predetermined value so that the internal pressure does not become too high.

In this embodiment, when gas is supplied into the interior of the bladder 50, the bladder 50 is then driven to rotate. The first support member 10 is rotationally driven by a drive device 18 . Note that the shaft 36 to which the second support member 20 is connected is supported by a bearing 37. The second support member 20 is connected to the first support member 10 via a bladder 50, which is a rubber member with high friction. Therefore, when the first support member 10 is rotationally driven, the second support member 20 rotates as the first support member 10 rotates. In other words, the second support member 20 rotates passively as the first support member 10 rotates. Note that, as described above, the rotary joint 38 is attached to the upper end of the shaft 36. For this reason, it is possible to continue introducing gas into the interior of the bladder 50 even when the second support member 20 is rotating.

In this embodiment, the burr 50a of the bladder 50 is removed by polishing while the bladder 50 is inflated and rotated.

<Polishing treatment of bladder 50>
4 and 5 are schematic diagrams of the polishing member 40. FIG. 4 schematically shows a plan view of the polishing member 40 viewed from above. In FIG. 4, the state in which the polishing member 40 is pressed against the bladder 50 is shown by a two-dot chain line. In FIG. 5, a side view of the polishing member 40 is schematically shown. As shown in FIGS. 4 and 5, the bladder treatment device 1 includes a polishing member 40 and a pressing member 41. As shown in FIGS. The polishing member 40 is a member that polishes the bladder 50. In this embodiment, the burr 50a on the outer surface of the bladder 50 is polished by the polishing member 40. The pressing member 41 is a member that presses the polishing member 40 against the bladder 50. In this embodiment, a cylinder 41 is used as the pressing member 41.

In this embodiment, the polishing member 40 includes a guide roller 40a and a polishing belt 40b. In this embodiment, the guide roller 40a has a rotation axis along the direction in which the first support member 10 and the second support member 20 face each other. Therefore, the rotation axis of the guide roller 40a is substantially parallel to the rotation axis of the bladder 50 that is rotationally driven by the drive device 18. In this embodiment, the polishing member 40 is provided with two guide rollers 40a. A polishing belt 40b is hung on the guide roller 40a. The polishing belt 40b is a belt-shaped endless belt. The polishing belt 40b has an abrasive on its surface. The polishing belt 40b is hung around two guide rollers 40a under a required tension. A motor 40c is connected to one of the guide rollers 40a on which the polishing belt 40b is hung. By rotationally driving one guide roller 40a, the polishing belt 40b is rotationally driven. In this embodiment, the diameter of the other guide roller 40a is slightly larger than that of the guide roller 40a to which the motor 40c is connected. As a result, the polishing belt 40b placed on the other guide roller 40a is easily pressed along the outer peripheral surface of the bladder 50.

Polishing member 40 is connected to cylinder 41 via joint 42 . The joint 42 has a bent shape in plan view (see FIG. 4). A guide 44 extending in the vertical direction is inserted through the joint 42 . Therefore, by pushing out the piston rod of the cylinder 41, the polishing member 40 is pressed toward the bladder 50.

In this embodiment, the polishing member 40 driven by the motor 40c is pressed against the bladder 50 which is rotationally driven by the drive device 18. Thereby, the burr 50a of the bladder 50 can be removed by polishing. By pulling back the piston rod of cylinder 41, polishing member 40 is separated from bladder 50. The pressure with which the polishing member 40 is pressed against the bladder 50 can be set as appropriate by adjusting the drive of the cylinder 41. Further, when processing bladders 50 of different sizes, the position at which the polishing member 40 is pressed can be adjusted by adjusting the drive of the cylinder 41.

Note that in the bladder 50 after vulcanization, the position where the burr 50a is formed may vary depending on the mold used for vulcanizing the bladder 50, the dimensions of the bladder, and the like. In this embodiment, the vertical position of the polishing member 40 is configured to be adjustable. The polishing member 40 is attached to a ball screw 45 provided parallel to a guide 44 extending in the vertical direction. The cylinder 41 attached to the ball screw 45 is configured to be movable in the vertical direction by a screw jack 46. Thereby, the position of the polishing member 40 can be adjusted in accordance with the position of the burr 50a of the bladder 50.

In this embodiment, the bladder processing device 1 includes a polishing member 40 that polishes the bladder 50 and a pressing member 41 that presses the polishing member 40 against the bladder 50. With this configuration, it is possible to remove the burr 50a of the bladder 50 by polishing. Further, the polishing member 40 includes a guide roller 40a and a polishing belt 40b placed around the guide roller 40a. Thereby, the burr 50a of the bladder 50 can be polished and removed more efficiently.

In the embodiment described above, the bladder treatment device 1 includes the first support member 10, the second support member 20, and the gas supply device 30. The first support member 10 is a member that supports a cylindrical bladder 50 having a pair of openings 51b and 52b, and closes one opening 51b of the bladder 50. The second support member 20 is a member that faces the first support portion 10 and closes the other opening 52b of the bladder 50. The gas supply device 30 is connected to the second support member 20 and supplies gas to the inside of the bladder 50. According to this bladder processing device 1, the openings 51b and 52b of the cylindrical bladder 50 can be respectively closed by the first support member 10 and the second support member 20. Thereby, the space inside the bladder 50 is sealed. Gas can be supplied to the inside of the bladder 50 by the gas supply device 30 to inflate the bladder 50. This makes it easier to treat the outer surface of the bladder 50. For example, the workability of polishing or cleaning the outer surface of the bladder 50 is improved. Note that the gas supply device 30 does not necessarily need to be connected to the second support member 20 and may be connected to the first support member 10.

Further, in the bladder processing apparatus 1, the bladder 50 can be sealed simply by sandwiching the bladder 50 between the first support member 10 and the second support member 20. Therefore, the workability when sealing the bladder 50 is good, and the bladder 50 can be processed efficiently. Furthermore, the bladder processing device 1 does not require a member for gripping the bladder 50, for example. Therefore, the bladder 50 is less likely to be loaded, and the durability of the bladder 50 can be good.

In the embodiment described above, the bladder treatment device 1 further includes a drive device 18 that rotationally drives the first support member 10. By rotationally driving the first support member 10 by the drive device 18, the bladder 50 can be efficiently processed while being rotated. Note that the drive device 18 may be connected to the second support member 20, or may be connected to both the first support member 10 and the second support member 20.

In the embodiment described above, the first support member 10 and the second support member 20 are provided with grooves 12e and 22e corresponding to the shapes of the portions 51a and 52a of the bladder 50 where the openings 51b and 52b are formed. Thereby, the bladder 50 is easily positioned with respect to the first support member 10 and the second support member 20. Further, since the portions 51a and 52a of the bladder 50 in which the openings 51b and 52b are formed fit into the grooves 12e and 22e, the position of the bladder 50 becomes difficult to shift even when gas is supplied to the inside of the bladder 50. . Such a groove is preferably provided in at least one of the first support member 10 and the second support member 20, and more preferably provided in both.

In the embodiment described above, the first support member 10 and the second support member 20 each include base portions 11 and 21 and holding portions 12 and 22. The holding parts 12 and 22 are removable from the base parts 11 and 21, and have shapes corresponding to the shapes of the parts 51a and 52a in which the openings 51b of the bladder 50 are formed. Thereby, the holding parts 12 and 22 can be replaced according to the dimensions of the bladder 50, and a wide variety of types of bladders 50 can be processed.

Note that the shapes of the base parts 11, 21 and the holding parts 12, 22 are not limited to the embodiments described above. For example, the base portion may have larger external dimensions than the holding portion. The base portion may have a surface on which the bladder rests. The holding part that can be attached to and detached from the base part may have a shape and an outer diameter dimension that follow the inner circumferential surface of the opening of the bladder. In other words, the shapes of the base part and the holding part may be set so that the upper and lower ends of the bladder come into contact with the base part, and the inner peripheral surface of the opening of the bladder is positioned and held by the holding part. .

In the embodiment described above, the polishing member 40 for removing the burr 50a by polishing is used as the member for treating the bladder 50, but the present invention is not limited to this embodiment. The bladder processing device 1 can be used for processing other than polishing the burr 50a of the bladder 50. The bladder processing device 1 may be used, for example, to clean a bladder used in vulcanization molding of a tire. For example, the bladder treatment device 1 may include an air blow nozzle for removing dirt attached to the bladder.

The bladder treatment device 1 may also be used for spraying a coating agent onto the surface of a bladder. The surface of the manufactured bladder may be coated with, for example, a coating agent or the like to improve mold releasability so that the manufactured bladders do not stick to each other. The bladder treatment device 1 may include a nozzle for applying the above-mentioned coating agent instead of the polishing member 40.

Moreover, instead of the polishing member 40, the bladder treatment device 1 may include a nozzle for applying a treatment liquid for removing dirt attached to the bladder. In this way, the bladder processing device 1 can be used for various applications in which bladders are processed while being rotated by changing the form of the member for processing the bladders (in the embodiment described above, the polishing member 40). .

Various aspects of the technology disclosed herein have been described above. However, the technology disclosed herein is not limited to the above-described form unless otherwise specified. Furthermore, the various configurations mentioned above can be combined as appropriate as long as they do not interfere with each other. Note that this specification includes the following inventions, and the following inventions are not limited to the embodiments described above.

The present invention (1) relates to a bladder processing device. The bladder treatment device in the present invention includes:
a first support member that supports a cylindrical bladder in which a pair of openings are formed and closes one opening of the bladder;
a second support member that faces the first support part and closes the other opening of the bladder;
A gas supply device is provided that is connected to at least one of the first support member and the second support member and supplies gas to the inside of the bladder.

The present invention (2) is the bladder processing device according to the present invention (1), further comprising a drive device that rotationally drives at least one of the first support member and the second support member. There is.

The present invention (3) is the bladder processing device according to the present invention (1) or (2), wherein the first support member corresponds to the inner circumferential surface of the portion of the bladder where the opening is formed. The first protrusion is provided with a first protrusion.

The present invention (4) is the bladder processing device according to any one of the present inventions (1) to the present invention (3), in which the second support member is formed with the opening of the bladder. A second protrusion corresponding to the inner circumferential surface of the portion is provided.

The present invention (5) is the bladder processing device according to the present invention (4), in which the second protrusion is tapered toward the first support member.

The present invention (6) is the bladder treatment device according to any one of the present invention (1) to the present invention (5), in which at least one of the first support member and the second support member is provided. One side is provided with a groove corresponding to the shape of the portion of the bladder where the opening is formed.

The present invention (7) is the bladder processing device according to any one of the present invention (1) to the present invention (6),
At least one of the first support member and the second support member,
The base part and
The holding part is detachable from the base part and corresponds to the shape of the portion of the bladder in which the opening is formed.

The present invention (8) is the bladder treatment device according to the present invention (7),
The base portion has a convex portion that protrudes toward the inside of the bladder,
The holding portion has a through hole into which the protrusion fits.

The present invention (9) is the bladder processing device according to the present invention (8), in which the convex portion tapers toward the inside of the bladder.

The present invention (10) is the bladder processing device according to any one of the present invention (7) to the present invention (9), in which the base part has a sealing member on the interface with the holding part. have.

The present invention (11) is the bladder treatment device according to any one of the present invention (1) to the present invention (10),
a polishing member for polishing the bladder;
The polishing device further includes a pressing member that presses the polishing member against the bladder.

The present invention (12) is the bladder treatment device according to the present invention (11),
The polishing member is
guide roller and
and a polishing belt hung around the guide roller.

1 Bladder treatment device 10 First support member 11, 21 Base portion 12, 22 Holding portion 13, 16, 26 Bolt 15 Turntable 18 Drive device 20 Second support member 24 Mounting hole 25 Support bolt 28 Lifting platform 30 Gas supply device 35 Cylinder 40 Bladder polishing member 41 Pressing member (cylinder)
50 Bladder for tire curing (bladder)
50a Burrs 51a, 52a Portions where openings are formed (openings)
51b, 52b opening

Claims (12)

a first support member that supports a cylindrical bladder in which a pair of openings are formed and closes one opening of the bladder;
a second support member that faces the first support part and closes the other opening of the bladder;
a gas supply device that is connected to at least one of the first support member and the second support member and supplies gas to the inside of the bladder;
Bladder processing equipment. The bladder processing apparatus according to claim 1, further comprising a drive device that rotationally drives at least one of the first support member and the second support member. The bladder processing device according to claim 1 or 2, wherein the first support member includes a first protrusion corresponding to an inner circumferential surface of a portion of the bladder where the opening is formed. 3. The bladder processing device according to claim 1, wherein the second support member includes a second protrusion corresponding to an inner circumferential surface of a portion of the bladder where the opening is formed. The bladder treatment device according to claim 4, wherein the second protrusion tapers toward the first support member. The bladder processing device according to claim 1 or 2, wherein at least one of the first support member and the second support member includes a groove corresponding to a shape of a portion of the bladder in which the opening is formed. . At least one of the first support member and the second support member,
The base part and
The bladder processing device according to claim 1 or 2, further comprising a holding portion that is attachable to and detachable from the base portion and that corresponds to the shape of a portion of the bladder in which the opening is formed. The base portion has a convex portion that protrudes toward the inside of the bladder,
The bladder processing device according to claim 7, wherein the holding portion has a through hole into which the convex portion is fitted. The bladder processing device according to claim 8, wherein the convex portion tapers toward the inside of the bladder. The bladder treatment device according to claim 7, wherein the base portion has a sealing member at an interface with the holding portion. a polishing member for polishing the bladder;
The bladder processing device according to claim 1 or 2, further comprising a pressing member that presses the polishing member against the bladder. The polishing member is
guide roller and
The bladder processing apparatus according to claim 11, further comprising an abrasive belt hung on the guide roller.

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