The present disclosure provides a mold of a resin body capable of reducing the cost of manufacturing a resin body including a resin base material and a foamed resin part provided on the resin base material. This mold is a mold of a resin body including resin base material molding die parts for molding a resin base material. The mold includes: a sliding part capable of sliding inside a foamed resin part molding cavity that communicates with a resin base material molding cavity of the resin base material molding die parts. The sliding part is swingably floated in a direction perpendicular to a sliding surface on which the sliding part slides. In the process of molding the resin base material, the sliding part blocks an opening part that communicates from the resin base material molding cavity to the foamed resin part molding cavity.

An automated method and system for making painted vehicle body panel skins and vehicle body panels, such as instrument panels, are provided wherein throughput and equipment utilization are greatly improved at a relatively low cost. The method includes transferring a mold having a mold surface from an entrance station to a paint station within a dispensing area. The method further includes applying paint on the mold surface to form a layer of paint on the mold surface at the paint station. The method still further includes spraying curable polyurethane elastomer on the painted surface at a spray station within the dispensing area. The paint and spray stations may be coincident. The method still further includes, after the step of spraying and while the polyurethane elastomer is uncured, transferring the mold with the paint and the uncured polyurethane elastomer from the spray station to at least one accumulator station in a curing area to allow the polyurethane elastomer to completely cure in the mold and form the skin.

A manufacturing method for a composite member according to one aspect of the disclosure includes: a step of forming a substrate sheet by forming a coating layer on a first surface of a resin sheet and drying the substrate sheet by heat; a step of molding the substrate sheet by use of a first mold by heating the substrate sheet; and a step of forming a foaming resin layer on a second surface of the resin sheet by use of a second mold after the substrate sheet is molded, the second surface being an opposite side from the first surface of the resin sheet.

Multi-step method for producing a soundproof composite cover for internal combustion engines and product thus obtained, producing a cover made of thermoplastic material and insulating foam. The method uses a multiple mold with first and second cells, having male and female elements, the cells taking a first closed configuration and a second open configuration; the method including: closing the multiple mold and injecting the thermoplastic material through a channel from a hot chamber to the first cell; the thermoplastic material solidifies and the multiple mold is opened to move the solidified thermoplastic material from the first cell to the second cell; closing the multiple mold and, while a new injection occurs in the first cell, an insulating foam is injected into the second cell; and opening the double mold and, while the finished product is extracted from the second cell, a new transfer occurs from the first cell.

A mold for injection molding includes a design-surface-side mold which is capable of forming a design surface of a resin molded product and a non-design-surface-side mold which is capable of forming a mold cavity with the design-surface-side mold. A convex portion is provided in any one of the design-surface-side mold and the non-design-surface-side mold so as to protrude toward the other one. The mold for injection molding is configured to be capable of switching a first mold closing state in which the convex portion is present from any one of the design-surface-side mold and the non-design-surface-side mold over the other one and a second mold closing state in which the convex portion is not present from any one of the design-surface-side mold and the non-design-surface-side mold over the other one.

The present disclosure provides a resin seal member capable of reducing the cost while preventing a reduction in the sealing performance due to an influence of heat or pressure in accordance with a usage environment. The present disclosure provides a resin seal member (20) including a foamed resin part (13). This resin seal member (20) includes a convex part (12b) having a foaming ratio lower than that of the foamed resin part (13). The convex part (12b) is provided in an end part of the foamed resin part (13). The resin seal member (20) is able to reduce the cost while preventing the reduction in the sealing performance due to the influence of heat or pressure in accordance with the usage environment.

The present disclosure provides a mold of a resin body capable of reducing the cost of manufacturing a resin body including a resin base material and a foamed resin part provided on the resin base material. This mold is a mold of a resin body including resin base material molding die parts for molding a resin base material. The mold includes: a sliding part capable of sliding inside a foamed resin part molding cavity that communicates with a resin base material molding cavity of the resin base material molding die parts. The sliding part is swingably floated in a direction perpendicular to a sliding surface on which the sliding part slides. In the process of molding the resin base material, the sliding part blocks an opening part that communicates from the resin base material molding cavity to the foamed resin part molding cavity.

The present invention relates to, in a first aspect, a surfing device including a surfing device body comprised of polymer bead foam being substantially formed from at least one polymer selected from a single polymer class, and at least one at least one performance enhancing component at least partially embedded within, or integral with, the surfing device body, the at least one performance enhancing component being substantially formed from polymers selected from the single polymer class. Further aspects of the invention, directed to a performance enhancing component and to a method of forming a surfing device body, are also disclosed.

A pad main body is bonded integrally with an inner pad while covering the front side of the inner pad. A back-side reinforced fabric located on the back side of the pad main body and the inner pad is integrally bonded on the back side of the inner pad and the pad main body by impregnation of foamed synthetic resin materials constituting the inner pad and the pad main body. This allows impregnation of the foamed synthetic resin materials in the back-side reinforced fabric located on the back side of the inner pad and the pad main body. This consequently allows providing a high hardness on the back side of the inner pad while ensuring hardness on the back side of the pad main body.

A device for manufacturing a support for the human body, of the type including a mold including a lower female portion and an upper male portion capable of being coupled with one another so as to define at least one cavity between them inside which at least one material in the fluid state intended to make the support can be poured. The female portion of the mold includes at least one mobile block including at least two different surfaces suitable for making up respective different bottoms of said cavity for separate pouring steps of at least one material in the fluid state foreseen in the support. A process for manufacturing a support for the human body is moreover presented.