Provided are a method and a device for attaching a sound absorbing member to an inner face of a tire. In a state that an adhesive is interposed between a first face of a sound absorbing member and an inner face of the tire, the sound absorbing member is placed, and an expandable and contractible bag placed inside the tire is expanded, and the expanded bag presses a second face of the sound absorbing member to bond the first face to the inner face of the tire with the adhesive therebetween.

A tire includes a tire frame having an annular shape and containing a resin, and a resin layer that is provided on at least a part of an inner circumferential surface of the tire frame and that contains a urethane resin, the resin layer having a tensile modulus of elasticity of from 2 MPa to 50 MPa, the tensile modulus of elasticity of the resin layer being from 0.01 times to 0.50 times a tensile modulus of elasticity of the tire frame, and the resin layer having a softening point of 80 C. or higher.

A tire tread extractor used in the manufacture of treads includes a frame, a first nip roller rotatably associated with the frame, and a second nip roller rotatably associated with the frame. The first and second nip rollers are adapted to engage a tire tread at least partially resident in a mold. A driving mechanism associated with the first and/or second nip rollers operates to impart rotational motion thereto. The frame is configured for longitudinal movement along a substantial portion of a longitudinal length of the mold while maintaining the first and second nip rollers in a spaced relation to the mold.

A pneumatic tire includes film layers of thermoplastic resin or thermoplastic elastomer composition made by blending an elastomer with the thermoplastic resin, which are superposed by winding the film layer in the circumferential direction of the tire multiple times, a thickness of the film layer is in a range of 0.02 mm to 0.2 mm and a thickness of the rubber layer is in a range of 0.1 mm to 1.2 mm, and the tire wherein a rubber film is interposed between the film layers. The pneumatic tire is produced by preparing a laminated body in which the rubber layer is stuck to at least one surface of the film layer; interposing the rubber layer between the film layers by winding the laminated body in the circumferential direction of the tire multiple times; forming an uncured tire which includes the film layers and the rubber layers; and curing the tire.

The present disclosure provides a molding element for a mold used for manufacturing a tread of a tire having a plurality of contacting element, a plurality of grooves and a connecting member connecting two side faces of adjacent contacting elements, the molding element having a molding surface and a rib for forming the groove between adjacent contacting elements, at least two rib side faces, the rib having a notching portion, a guiding member made of a material different from a material of the molding element being received in the notching portion and has two opposite side faces and a top face, the material of the guiding member having a modulus at 10% elongation lower than that of the molding element, the guiding member having a guiding slit, the guiding member has a recessed area extending in a direction along the guiding slit on the top face and an outermost portion of the guiding slit is open in the recessed area.

A method of manufacturing a film for tire used in an air penetration preventing layer of a pneumatic tire, composed of a thermoplastic elastomer with an elastomer component dispersed within a thermoplastic resin includes performing heat treatment on the film for tire formed by inflation molding or cast molding in a state of being wound in a roll together with a liner material configured to regulate deformation of the film for tire, the heat treatment being at a heat treating temperature equal to or higher than a glass transition temperature of a resin with a highest glass transition temperature in the thermoplastic resin included in the film for tire.

The current embodiments provide a system for determining a parameter of a tire component. The system may have a background surface, a first measurement device configured to measure a dimension with respect to the reference surface and a support surface located at least partially between the first measurement device and the reference surface, where the support surface is configured to support the tire component. The parameter may correspond to the dimension on the background surface.

An inner mold mechanism for molding an annular structure according to an aspect of the invention comprises first inner mold segments and second inner mold segments, the first and second inner mold segments alternating with each other about a mold axis; a first axially movable actuator, the first actuator being mechanically connected to the first inner mold segments so as to move the first inner mold segments radially when the first actuator is moved axially; a second axially movable actuator, the second actuator being mechanically connected to the second inner mold segments so as to move the second inner mold segments radially when the first actuator is moved axially.

With a tire cleaning system, movement of at least a tire or laser head held on an arm is controlled by a control device, a laser beam provided from a laser oscillator is irradiated onto an inner surface of the tire while relatively moving the laser head along the inner surface of the tire, and contamination such as a mold release agent or the like adhered to the inner surface is removed.

A manufacturing method includes cutting out a sheet-like belt for one full circle of tire by cutting a master roll diagonally with respect to a longitudinal direction between a master roll table 10 and a belt table 14, moving the belt table 14 carrying the cut-out sheet-like belt to a winding position of the sheet-like belt, winding the sheet-like belt around a winding cylinder 50 at the winding position, and unwinding the sheet-like belt from the winding cylinder 50 in a place facing a molding drum 64 and forming a cylindrical belt by winding the sheet-like belt around the molding drum 64.