An air ejector of a resin molding device includes air passages, air outlets through which air is injected, movable valves biased by bias members to close the air outlets, accommodation spaces in which the movable valves are movably contained, an air supply path through which air is supplied from an air supply source, and a pressure sensor to detect air pressure. After completing the mold removal, the air is supplied via the air supply path to the air passages at an air pressure smaller than the bias force of the bias members, and the air pressure is detected by the pressure sensor.

There is provided a method capable of manufacturing a mold at low cost, and a method of manufacturing a biocompatible pattern sheet by using the mold. The method of manufacturing a mold having a recessed pattern includes the steps of: forming a silicone resin film by applying a silicone resin solution to a surface of a model having a protrusion pattern; defoaming the silicone resin film by reducing the silicone resin film in pressure; forming the mold by heating and curing the silicone resin film while a base plate is in contact with a face of the silicone resin film, the face being opposite to the model; and releasing the mold from the model after releasing the base plate. The method of manufacturing a pattern sheet uses the mold.

A method of manufacturing a component comprising contacting a powder with a tooling comprising a main body and a removable element, applying a manufacturing process to the powder to form the powder into a component, removing the removable element from the tooling to form a recess, and inserting a separation tool into the recess to thereby apply a force to separate the component from the main body of the tooling. A tooling for forming a component from a powder, the tooling comprising a main body and a removable element which is removable from the main body to form a recess for the insertion of a separation tool to apply a force to separate the component from the main body of the tooling.

A tie-bar-less clamping unit for a moulding machine includes a machine frame formed for absorbing clamping forces, and a fixed platen arranged stationary in relation to the machine frame. A movable platen can move relative to the machine frame, and at least one push rod is preferably arranged substantially centrally with respect to the movable platen. At least one pressure pad is arranged between the push rod and the movable platen.

The disclosure provides a two-stage molded pet toy, which consists of a hard plastic liner which is primarily molded and a flexible material mantle which is secondarily molded and sleeves the liner, wherein the liner is a hollow shell formed by mutually butting half shells of upper and lower parts, openings are formed in its two opposite ends, multiple ribs are arranged perpendicular to a length direction of the liner in the liner, nicks are formed in all of the ribs, openings are also formed in two ends of the mantle respectively, and the openings in the two ends of the mantle correspond to the openings in the two ends of the liner respectively. The pet toy is multifunctional, and has both teething and food leakage functions; and in addition, the pet toy has advantages of the hard and flexible materials, and is multifunctional.

A portable molding apparatus includes a lower portion including an extension device that is movable between an extended position and a retracted position, and a platform coupled to the extension device, an upper portion positioned above the lower portion, the upper portion including a base, a plurality of walls extending upward from the base, the plurality of walls defining a cavity bounded by the plurality of walls and the base, and a lid positioned over the cavity, a core positioned within the cavity defined by the plurality of walls, and a pin coupled to the core and extending downward from the core through the base, where the pin is spaced apart from the platform when the extension device is in the retracted position and the pin is engaged with the platform when the extension device is in the extended position.

The device for demolding negatives in thermoplastic injection molds includes an ejector (3), which comprises an ejector profile (5) for the fastening thereof to an ejector plate (2), and a figure insert (6) with a profile that is complementary to the piece (4) to be molded, wherein said ejector (3) further comprises a flexible element (7) arranged between the ejector profile (5) and the figure insert, which pushes said figure insert (6) in order to demold the negative by means of angular displacement and stretches said figure insert (6) so as to return the ejector (3) to the injection position thereof.

It makes it so molding sliders are no longer necessary, hence, these spaces, the costly sliders, and the painstaking machining processes for the installation thereof in the molds are no longer required.

A method of treating a surface of a mold for transparent resin molding. The method includes ejecting substantially spherical ejection particles against a surface of a mold employed to mold a transparent resin so as to bombard the surface. The method includes forming dimples with an equivalent diameter in a range that satisfies a condition defined by the following formula:

1+3.3e.sup.H/230W1.5+8.9e.sup.H/630

wherein W is an equivalent diameter (m) of the dimples and H is a base metal hardness (Hv) of the mold.

A three-dimensional object shaping device is a device configured to shape a three-dimensional object using a layer shaping method, the device including: an ejection head configured to eject a shaping material; a flattening roller configured to rotate and move over the shaping material ejected on a layered surface to remove an extra shaping material; and a blade configured to make contact with the flattening roller along a circumferential surface of the flattening roller to scrape off the shaping material adhered to the circumferential surface by rotation of the flattening roller, where chrome plating is coated on the surface of the flattening roller, and the blade is made of carbon tool steel.

Methods and apparatus for demolding a polymeric material from a mold are disclosed, the methods comprising the steps of placing a material within a mold, closing the mold, molding the material located within the mold, and opening the mold. The mold includes a demolding tool having a material-engaging portion that is in fluid communication with the mold portion, the demolding tool being reversibly disengagable from the first mold member. The demolding tool is disengagable from a resting position within the first mold member to translate from the first mold member the molded polymeric material associated with the material-engaging portion, thereby separating a portion of the molded polymeric material from the mold cavity. In particular embodiments, the material-engaging portion is a cavity. In other embodiments, the material-engaging portion is associated with one or more longitudinal members extending across a portion of the first mold member.