JP2007098788A - Manufacturing apparatus of air bladder for safety tire and manufacturing method of air bladder of safety tire - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a manufacturing apparatus of an air bladder for a safety tire capable of enhancing both of production efficiency and the safety of a worker, and a manufacturing method of the air bladder for the safety tire. <P>SOLUTION: The manufacturing apparatus 1 of the air bladder for the safety tire is equipped with a molding part 2 for molding a ring-shaped tension support member 4 wherein the central part of its width cross section is larger than each of both end parts thereof in diameter and a bonding part 3 for holding the tension support member 4 detached from the molding part 2 from its outer surface. The bonding part 3 can be reversed by 180° centering around the direction B crossing the axial line A of the tension support member 4 at a right angle and the tension support member 4 can be revolved at least by 180° in its peripheral direction. The tension support member 4 is placed on the bonding part 3 and a vulcanized tube 5 is inserted while these are revolved in the peripheral direction of them to bend one end part of the tension support member 4. The bonding part 3 is reversed by 180° and the other end part of the tension support member 4 is bent while revolving the tension support member 4 and the tube 5 in the peripheral direction to surround the whole of the tube 5 in a close contact state by the tension support member 4. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  TECHNICAL FIELD The present invention relates to an apparatus and method for manufacturing a pneumatic tire pouch for a safety tire comprising a gas-impermeable tube and a tension support layer that tightly surrounds the entire outer surface of the tube. To improve efficiency and safety.

  Reinforcing members such as a reinforcing tube, reinforcing rubber, and reinforcing belt, or a foam, elastic body, medium, and the like as a safety tire that can travel a certain distance even in a run-flat state in which the tire internal pressure has suddenly decreased due to puncture or the like There are known tires that support the load of the tire on the shoulder, tires that are coated or filled with a sealant agent, block damaged parts such as holes formed in the tire, and prevent a decrease in internal pressure, and the like. However, these conventional safety tires have a complicated manufacturing method and often have a difficulty in handling during mounting.

  In order to solve such a problem, for example, Patent Document 1 includes an air-impermeable tube and an annular support that tightly surrounds the entire outer surface of the tube, and expands and deforms as the internal pressure of the tire decreases. A hollow-cylindrical pneumatic tire for a tire that supports the load from the tire is described.

JP 2005-178596 A

  In manufacturing such a hollow tubular air bladder, as described in FIGS. 3 and 4 of Patent Document 1, a ring-shaped sheet for an annular support whose central portion of the width cross section is larger in diameter than both ends. A tube is inserted into the inner surface of the tube, and the side portion of the ring-shaped sheet is bent along the outer surface of the tube so that the entire outer surface of the tube is tightly surrounded by the ring-shaped sheet. Conventionally, this operation has been performed on a conveying device that takes out a ring-shaped sheet from a forming drum, and each one worker arranged on both sides of the conveying device is responsible for bending one side. ing. However, the lower half of the ring-shaped sheet is relatively easy to bend, but the upper half of the bend is inevitably performed upward, so that the workability is poor. In addition, work by two people causes an increase in manufacturing cost, and if one person tries to do this, the worker transports them after finishing the folding work on one side and before starting the other folding work. Since it is necessary to move to the opposite side of the apparatus, the workability is also poor. In addition, the bending work on the transport device is a work in the vicinity of other movable parts such as a molding drum, which may be dangerous. For this reason, there is a need for an apparatus and method for producing a pneumatic bladder that can be bent in a safe area and that changes the working posture relatively little.

  An object of the present invention is to solve such problems of the prior art, and an object of the present invention is to provide a safety tire air that can improve both manufacturing efficiency and worker safety. Another object is to provide a manufacturing apparatus and a manufacturing method.

  In order to achieve the above object, a safety tire air bladder manufacturing apparatus according to the present invention comprises a gas-impermeable tube and a safety tire air comprising a tension support layer that tightly surrounds the entire outer surface of the tube. In the apparatus for manufacturing an agate, the apparatus includes a molding part for molding a ring-shaped tension support member having a central portion of the width cross section larger in diameter than both ends, and the tension support removed from the molding part. A sticking portion that supports the member from the outer surface, and the sticking portion can be turned 180 degrees around the direction orthogonal to the axis of the tension support member as a central axis, and the tension support member is at least 180 in the circumferential direction. It is characterized in that it can be rotated at a time.

  In order to move the tension support member from the molding part to the sticking part, the molding part may move toward the sticking part, and the tension support member may be handed over to the sticking part. The tension support member may be removed from the molding unit, and a transfer unit that removes the tension support member from the molding unit and transfers it to the sticking unit may be further provided.

  In order to facilitate the rotation of the tension support member, the sticking portion preferably includes a plurality of rollers arranged so that the axes are parallel to each other.

  The method for producing a pneumatic tire for a safety tire according to the present invention is a method for producing a pneumatic tire for a safety tire comprising a gas-impermeable tube and a tension support layer that tightly surrounds the entire outer surface of the tube. In this, a ring-shaped tension support member having a central portion of the width cross section having a larger diameter than both end portions is molded, and a vulcanized tube is inserted into the inner surface side of the center portion of the tension support member. And one end of the tension support member is bent along the outer surface of the tube while rotating the tube in the circumferential direction, and the tube half is tightly surrounded by the tension support member, and the axis of the tension support member The tension support member into which the tube is inserted is inverted 180 degrees with the direction orthogonal to the center axis as the center axis, and the other end of the tension support member is connected to the tube while rotating the tension support member and the tube in their circumferential direction. Along the outside Folded so to form a circular tubular body made in close contact surrounding the whole tube at a tension support member, and wherein the obtaining the air bladder to the circular tubular body by vulcanization molding.

  According to the present invention, since the bending work can be performed in a safe area and the working posture is relatively little changed, both the production efficiency and the safety of workers during the production of the air bladder are improved.

  Next, embodiments of the present invention will be described with reference to the drawings. FIG. 1 schematically shows an entire typical manufacturing apparatus for a pneumatic tire bladder (hereinafter referred to as “air bladder”) according to the present invention.

  The apparatus 1 shown in FIG. 1 includes a molding portion 2 on which a central portion of the width section has a larger diameter than both ends, that is, a ring in which the central portion bulges radially outward. A shaped tension support member is molded. In addition, although the center area | region of the shaping | molding part 2 expanded to the radial direction outer side from before shaping | molding of the tension support member in FIG. 1, the center area | region and both sides area | region of the shaping | molding part 2 are substantially the same before shaping | molding. It is also possible to use a mode in which the central region expands radially outward when the tension support member is molded. In the former case, the molding part 2 is a so-called hard core, and a tension supporting member having a desired outer contour shape is molded by winding a narrow strip on the molding part 2. In the latter case, the molding part 2 is a so-called drum, a wide sheet is pasted thereon, the central region of the molding part 2 is expanded and the central part of the sheet is expanded, so that a desired outer contour shape is obtained. A tension support member having In addition, it is preferable that the shaping | molding part 2 can be expanded / contracted to radial direction, in order to make easy removal of the tension | tensile_strength support member shape | molded on it.

  Moreover, the apparatus 1 shown in FIG. 1 is provided with the sticking part 3 which supports the tension | tensile_strength support member removed after being shape | molded by the shaping | molding part 2 from an outer surface. The sticking part 3 can be rotated 180 degrees with the direction perpendicular to the axis of the tension support member, in the embodiment shown in FIG. Moreover, the sticking part 3 is comprised so that the tension | tensile_strength support member can be rotated at least 180 degree | times to the circumferential direction on it, Preferably it is 360 degree | times or more.

  Next, a method for manufacturing an air bladder using the manufacturing apparatus 1 configured as described above will be described. First, as shown in FIG. 2, a ring-shaped tension support member 4 having a desired outer contour shape is molded on the molding portion 2 by any of the procedures described above. The tension support member 4 should be an air bladder tension support layer, and is used as a conventional air bladder tension support layer or reinforcement layer such as a nonwoven fabric, a composite of nonwoven fabric and rubber, and a resin sheet. Consists of materials. Thereafter, the tension support member 4 is removed from the molding part 2 and moved to the sticking part 3. In this aspect, as shown in FIG. 3, after the molding part 2 moves toward the sticking part 3 and the tension support member 4 is placed on the sticking part 3, the diameter of the molding part 2 is reduced. This is pulled out from the tension support member 4, and the tension support member 4 is delivered to the sticking part 3.

  In this embodiment, a worker (not shown) is arranged on the right side of the sticking part 3. The vulcanized tube 5 is inserted into the inner surface side of the central portion of the tension support member 4 in which a part of the outer surface is supported by the sticking portion 3 as described above. This tube 5 can be a tube used for a conventional air bladder such as a butyl rubber tube. Next, one end portion of the tension support member 4, in FIG. 5, the right end portion is bent along the outer surface of the tube 5. At this time, in consideration of workability, the bending work is first performed on, for example, the lower half of the tension support member 4, and then the tension support member 4 and the tube 5 are placed on the sticking portion 3 with the symbol A in FIG. When the tension support member 4 is rotated 180 degrees around the axis of the tension support member 4 shown in the circumferential direction, the unfolded portion of the tension support member 4 becomes the lower half. When bent, as shown in FIG. 6, the bending operation of one end of the tension support member 4 is completed without greatly changing the working posture, and the right half of the tube 5 is tightly surrounded by the tension support member 4. . In addition, if the range in which the tension support member 4 can be rotated is less than 180 degrees, it is inevitably necessary for the worker to be in an upward posture and bend, so that the manufacturing efficiency is reduced and the burden on the worker is reduced. However, it is possible to eliminate the work in the upward posture by configuring it to be able to rotate 180 degrees or more.

  From the standpoint of minimizing changes in working posture and further improving manufacturing efficiency, it is preferable to reduce the folding range in a single operation, and to perform bending and rotation alternately little by little. Further, it is more preferable to perform the rotation. In such a case, it is preferable that the tension support member can be rotated once (360 degrees) in the circumferential direction.

  Next, when the sticking portion 3 is inverted 180 degrees with the direction B perpendicular to the axis A of the tension support member 4 as the central axis, the tension support member 4 is placed on the right side where the worker is present as shown in FIG. The other end where the pasting operation is not completed is located. If the other end portion is sequentially bent in the same manner as described above, the bending operation of the other end portion of the tension support member 4 is completed without the operator moving, and the entire tube 5 is completely attached to the tension support member 4. As shown in FIG. 8, an unvulcanized circular tubular body 6 is formed.

  If this circular tubular body 6 is removed from the apparatus 1 and vulcanized in a vulcanization mold (not shown), a gas-impermeable tube and a tension support layer that tightly surrounds the entire outer surface of the tube are provided. A hollow air bladder is obtained.

  Thus, according to the manufacturing apparatus and the manufacturing method of the present invention, an operator who performs bending of the tension support member completes the bending work without moving through the apparatus and without significantly changing the working posture. Therefore, the bending work can be efficiently performed by one worker. Further, usually, in parallel with the bending work, a molding work of a tension support member for use in the next folding work is performed on the molding part 2, and the core or drum of the molding part 2 is rotating, The strip or sheet feeding device is moving. For this reason, there is a risk of being caught or caught in the work in the vicinity of the molding part 2, but according to the manufacturing apparatus and the manufacturing method of the present invention, the sticking part 3 is arranged in a safe area, and the worker Can be safely operated without such danger.

  In the above description, the mode in which the molding part 2 moves toward the sticking part 3 is taken as an example. However, as shown in FIGS. 9 and 10, the sticking part 3 moves toward the molding part 2. You may comprise so that it may move. In this case, after moving the sticking part 3 to a position where the tension support member 4 is placed thereon, the diameter of the molding part 2 is reduced, and the sticking part on which the tension support member 4 is placed in this state. The tension support member 4 is removed from the molding part 2 by moving the landing part 3 in a direction away from the molding part 2. And after returning the sticking part 3 to a work area | region, it bends similarly to the above.

  Moreover, you may fix the shaping | molding part 2 and the sticking part 3. FIG. In this case, if the tension support member is relatively small and light, an operator may remove the tension support member 4 from the molding portion 2 and attach it to the sticking portion 3. A transfer part that can reciprocate between the sticking part 3 and the sticking part 3 may be provided. FIGS. 11 to 15 show an example of a device 1 comprising such a transfer unit 7. In this example, the transfer unit 7 grips the tension support member 4 molded on the molding unit 2 from the outer surface, removes the tension support member 4 from the molding unit 2, and tension gripped by the removal unit 8. The support member 4 is held from the inner surface, and is configured with an expandable / retractable attachment means 9 that attaches the support member 4 to the attaching portion 3.

  First, the tension support member 4 is molded on the molding part 2 in the same manner as described above. Next, the removing means 8 is moved on the outer periphery of the molding part 2 to grip the tension support member 4. After the diameter of the molding part 2 is reduced, the removing means 8 is moved away from the molding part 2 and the attachment means 9 is arranged inside the tension support member 4 held by this as shown in FIG. To do. Next, the diameter of the attachment means 9 is increased until it abuts against the inner surface of the tension support member 4, one or both of the removal means 8 and the attachment means 9 are moved, and as shown in FIG. The support member 4 is held. As shown in FIG. 14, the attachment means 9 is further moved, and after placing the tension support member 4 in the sticking portion 3, the attachment means 9 is reduced in diameter and moved in a direction away from the sticking portion 3. Then, the tension support member 4 is handed over to the sticking part 3. Then, as shown in FIG. 15, the vulcanized tube 5 is inserted on the inner surface side of the central portion of the tension support member 4. The subsequent folding operation is as described above.

  FIG. 16 is a perspective view of one embodiment of the sticking part 3. In this embodiment, the adhering portion 3 includes a plurality of rollers 10, and these rollers 10 have axes that are parallel to each other, and the support surface formed by these rollers 10 is a desired tension support member. It arrange | positions so that an outer contour shape may be followed, and it has become what is called a roller conveyor shape. Thus, if the sticking part 3 is provided with the roller 10, it is advantageous at the point which rotation of a tension | tensile_strength supporting member becomes smooth and there is no possibility of damaging a tension | tensile_strength supporting member at the time of rotation. Each roller may be a so-called free roller that is not connected to power, and an operator may manually rotate the tension support member, but at least one roller is connected to power such as a motor to automatically The tension support member can also be rotated. In addition, although not shown in the figure, a so-called belt conveyor shape in which a belt is stretched between rollers may be used.

  In addition, a weighing unit such as a load cell can be incorporated in the sticking unit 3 and / or the transfer unit 7. According to this, by measuring the mass of the tension support member 4, it is possible to detect over-applying or forgetting to attach the components of the air bladder, which is useful for quality assurance.

  Furthermore, a lifting / lowering means such as a hydraulic cylinder can be incorporated in the lower part of the sticking part 3 so that the height of the bending work area of the sticking part 3 can be configured to be movable in the vertical direction. According to this, since it is possible for the worker to select the most comfortable height when performing the bending work, the manufacturing efficiency is further improved and the burden on the worker is reduced.

  Note that the above description shows only a part of the embodiment of the present invention, and these configurations can be combined with each other or various modifications can be made without departing from the gist of the present invention. .

1 is a schematic overall view of a typical production apparatus for a safety tire pneumatic bladder according to the present invention. It is a figure for demonstrating the process of forming an air bladder using the apparatus shown in FIG. It is a figure for demonstrating the process of forming an air bladder using the apparatus shown in FIG. It is a figure for demonstrating the process of forming an air bladder using the apparatus shown in FIG. It is a figure for demonstrating the bending operation | work of a tension support member. It is a figure for demonstrating the bending operation | work of a tension support member. It is a figure for demonstrating the bending operation | work of a tension support member. It is a figure for demonstrating the bending operation | work of a tension support member. It is a schematic whole view of the manufacturing apparatus of the other pneumatic tire for safety tires according to this invention. It is a figure for demonstrating the process of forming an air bladder using the apparatus shown in FIG. It is a schematic whole view of the manufacturing apparatus of the other pneumatic tire for safety tires according to this invention. It is a figure for demonstrating the process of forming an air bladder using the apparatus shown in FIG. It is a figure for demonstrating the process of forming an air bladder using the apparatus shown in FIG. It is a figure for demonstrating the process of forming an air bladder using the apparatus shown in FIG. It is a figure for demonstrating the process of forming an air bladder using the apparatus shown in FIG. It is a perspective view of one embodiment of a sticking part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Safety tire pneumatic apparatus 2 Molding part 3 Adhering part 4 Tension support member 5 Tube 6 Circular tubular body 7 Transfer part 8 Removal means 9 Attachment means 10 Roller

Claims (6)

In an apparatus for producing a pneumatic tire pouch for a safety tire comprising a gas-impermeable tube and a tension support layer that tightly surrounds the entire outer surface of the tube,
The apparatus includes a molding portion for molding a ring-shaped tension support member having a central portion of a width cross section larger in diameter than both end portions, and a sticking for supporting the tension support member removed from the molding portion from an outer surface. With parts,
The attaching portion is capable of reversing 180 degrees around a direction orthogonal to the axis of the tension supporting member as a central axis, and capable of rotating the tension supporting member at least 180 degrees in the circumferential direction. Air pouch manufacturing equipment.   The manufacturing apparatus according to claim 1, wherein the molding part moves toward the sticking part and delivers the tension support member to the sticking part.   The manufacturing apparatus according to claim 1, wherein the sticking portion moves toward the molding portion and removes the tension support member from the molding portion.   The manufacturing apparatus according to claim 1, further comprising a transfer unit that removes the tension support member from the molding unit and transfers the tension support member to the sticking unit.   The said sticking part is a manufacturing apparatus as described in any one of Claims 1-4 which provides the some roller arrange | positioned so that an axis line may become mutually parallel. In a method of manufacturing a safety tire pneumatic bladder comprising a gas-impermeable tube and a tension support layer that tightly surrounds the entire outer surface of the tube,
Molding a ring-shaped tension support member in which the center of the cross section is larger in diameter than both ends,
Insert a vulcanized tube on the inner surface side of the central portion of the tension support member,
While turning the tension support member and the tube in their circumferential direction, bend one end of the tension support member along the outer surface of the tube, and tightly surround the half of the tube with the tension support member,
With the direction perpendicular to the axis of the tension support member as the central axis, the tension support member into which the tube is inserted is inverted 180 degrees,
A circular tube formed by bending the other end of the tension support member along the outer surface of the tube while rotating the tension support member and the tube in the circumferential direction, and tightly enclosing the entire tube with the tension support member Form the body,
A manufacturing method characterized by vulcanizing and molding this circular tubular body to obtain an air bladder.

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