A multifunctional soft pet paw cleaning cup includes a cup body made of a soft material. One end of the cup body is an open end. Soft spikes extending towards the center of the cup body are provided on the inner surface of the side wall and/or the inner surface of the bottom wall of the cup body, and the soft spike is made of a soft material. A mold for preparing the paw cleaning cup includes an inner mold core, an outer mold core, an upper mold and a lower mold. The outer mold core has an annular peripheral wall. A first soft spike hole is formed inside the peripheral wall. The inner mold core is provided at the inner side of the outer mold core. The lower mold is located below the outer mold core, and the inner mold core is fixed below the upper mold.

The present disclosure is directed to a mold assembly for vacuum forming a component. The mold assembly includes plurality of support plates and a plurality of mold plates removably coupled to the plurality of support plates. The plurality of mold plates is stacked and removably coupled together to form a mold configured for forming the component. Each mold plate including a first surface partially defining a top surface of the mold, a second surface spaced apart from the first surface, a third surface extending from the first surface to the second surface, and a fourth surface spaced apart from the third surface and extending from the first surface to the second surface.

The molding element has a molding surface for forming a contact face of the contacting elements and a groove forming rib portion for forming the groove. The groove forming rib portion has opposed rib side faces for forming opposed groove side faces and a rib top face connecting the rib side faces for forming a groove bottom. The groove forming rib portion provides at least one space opening to at least one of the rib side faces and/or to the rib top face and an insert is received in the space. The insert is composed of a plurality of thin plates stacked in a direction along which the rib extends and comprises at least one notched plate of thickness t1 including at least one notch for forming a flexible fence of the closing device; and comprises at least one support plate of thickness t2 without notch.

A mould tool (10) for moulding mouldable material, the mould tool comprises a tool body (12) having a plurality of tool body sections (14), at least two of which comprise an inner polymer foam core (16) within an outer skin (18) of resinous material and are stacked one above the other, the tool (10) further comprises a mould skin (20) extending over the body (12) to provide a mould surface (22) on which mouldable material can be moulded. A method of manufacturing such a mould tool and a tool body are also provided.

A modular molding device for creating a mold for a blade segment of a wind turbine blade of a wind turbine, the modular molding device including: a flexible support plate forming the mold for the blade segment, at least one bending apparatus including at least a first end and a second end, the at least one bending apparatus attached to the support plate and configured to bend the support plate from a first support plate shape to at least one second support plate shape, and at least one connection means, which is configured to removably connect the flexible support plate of the modular molding device with at least one connection of a flexible support plate of another modular molding device is provided. Moreover, a molding system and a method for creating a mold for a blade segment of a wind turbine blade of a wind turbine is also provided.

An assembly includes a first mold component defining a first portion of a mold cavity and a first slot. The first slot corresponds to a first portion of a retention channel. The assembly also includes a second mold component defining a second portion of the mold cavity and a second slot. The second slot corresponds to a second portion of the retention channel. The assembly also includes a connector having a cross-sectional shape corresponding to a cross-sectional shape of the retention channel. The connector has thermal expansion characteristics that are different from thermal expansion characteristics of the first and second mold components such that when the first and second mold components are in contact and the connector is inserted into the retention channel, heating the assembly causes differential thermal expansion of the connector and the mold components resulting in a clamping force between the mold components.

A plurality of mold sections include end caps and a plurality of inner members, some of which define features, such as projections. Inner members are fastened between the end caps and define an open channel such that the end caps and interposed inner members define a volume and opening for molding a container, i.e., a female mold. Material is placed on inner surfaces of the inner members and end caps to form a container portion, such as a base or lid. The end caps and inner members may be disassembled and reassembled with a different number of inner members and used to form a container of a different size.

Methods of fabricating a component, such as a cascade grid panel for a jet engine thrust reverser, having a plurality of cavities extending through the component, with each cavity having at least one surface with a complex contour, and related devices. A plurality of two or more mold inserts are stacked to form a mold insert stack, with the mold insert stack having a plurality of mold bosses formed by mold boss sets. The mold boss sets are each formed by a mold boss segment from each of the mold inserts. Further, the mold boss segments are affixed to respective baseplates so that the mold boss segments can be handled as a group and remain properly positioned relative to their neighboring mold boss segments.

A device for attaching a decorative film to a surface of a 3D glass, includes a vacuum chamber, an upper mould, and a lower mould. The upper mould includes an upper planar pressing portion and an upper curved portion. The lower mould includes a lower planar pressing portion and a lower curved portion, the upper planar pressing portion and the lower planar pressing portion are configured to correspond to a planar portion of the 3D glass, the upper curved portion and the lower curved portion are configured to correspond to a curved portion of the 3D glass, the upper mould is provided with a first heating block. The present disclosure further discloses a method thereof.

A mold insert and method of using a mold insert to make a composite part. The mold insert is configured to make a composite part from composite material. The mold insert is configured to be attached to a mandrel. Once attached, the composite material is applied to the mandrel over the mold insert, stringers, and bladders. The composite material is then cured on the mandrel. The mold insert can then be removed from the mandrel.