The equipment for the production of slabs in mineral grits bound with resins, comprises: a support frame, at least one lower plate, locked together with the frame, comprising at least one positioning zone for at least one mold having at least one forming cavity, open at the top, to contain a mix comprising the materials necessary to obtain the slabs, at least one pressing assembly comprising an upper plate movable, with respect to the frame, from an upper position of loading/unloading the mold in/from the positioning zone, to a lower position of pressing the mix inside said forming cavity, vibrating means associated at least with the lower plate, and an airtight chamber, communicating with suction means, adapted to reduce the pressure to a value lower than the atmospheric pressure, containing the mold, where the chamber is interposed between the lower plate and an upper closing element opposite the lower plate.

The equipment for the production of slabs in mineral grits bound with resins, comprises: a support frame, at least one lower plate, locked together with the frame, comprising at least one positioning zone for at least one mold having at least one forming cavity, open at the top, to contain a mix comprising the materials necessary to obtain the slabs, at least one pressing assembly comprising an upper plate movable, with respect to the frame, from an upper position of loading/unloading the mold in/from the positioning zone, to a lower position of pressing the mix inside said forming cavity, vibrating means associated at least with the lower plate, and an airtight chamber, communicating with suction means, adapted to reduce the pressure to a value lower than the atmospheric pressure, containing the mold, where the chamber is interposed between the lower plate and an upper closing element opposite the lower plate.

An insulated structural cabinet for an appliance includes outer walls that are attached together to define a structural envelope that is operable from an expanded state that includes an expanded interior volume of the interior cavity, to a final state that includes a contracted interior volume of the interior cavity, wherein the contracted interior volume is less than the expanded interior volume. An insulating material disposed throughout the interior cavity in the expanded state. Operation of the structural envelope to the final state densifies the insulating material. Operation of the structural envelope to the final state is performed by a vacuum pump that expresses air from the interior cavity. The structural envelope is also operable from a performed state to the expanded state via an expanding device, and subsequently operable from the expanded state to the final state.

An insulated structural cabinet for an appliance includes outer walls that are attached together to define a structural envelope that is operable from an expanded state that includes an expanded interior volume of the interior cavity, to a final state that includes a contracted interior volume of the interior cavity, wherein the contracted interior volume is less than the expanded interior volume. An insulating material disposed throughout the interior cavity in the expanded state. Operation of the structural envelope to the final state densifies the insulating material. Operation of the structural envelope to the final state is performed by a vacuum pump that expresses air from the interior cavity. The structural envelope is also operable from a performed state to the expanded state via an expanding device, and subsequently operable from the expanded state to the final state.

A composite molded cargo body panel including a core, an interior skin secured to a first side of the core having a thickness, and exterior skin secured to a second side of the core, and a plurality of recesses. The plurality of recesses are dispersed along a first direction at intervals in the interior skin, with the core thickness at each of the plurality of recesses being reduced compared to a maximum core thickness, and each of the plurality of recesses defines a support surface. A pocket is formed in each of the plurality of recesses, with the core thickness at the pocket being less than the core thickness at each of the plurality of recesses. A plurality of logistics inserts are attached to the respective support surfaces of the plurality of recesses so that, at each of the plurality of recesses, the logistics insert extends across the pocket.

A tool and a method for manufacturing a bypass in an injection device are disclosed. The preforms of the injection device are inserted into a tool. A partial region of the cylindrical portion is heated by a heat source. The heated partial region of the cylindrical portion is plastically deformed with a male die part of the tool, so that the bypass channel is formed.

A tool and a method for manufacturing a bypass in an injection device are disclosed. The preforms of the injection device are inserted into a tool. A partial region of the cylindrical portion is heated by a heat source. The heated partial region of the cylindrical portion is plastically deformed with a male die part of the tool, so that the bypass channel is formed.

A resin layered body includes a polycarbonate-based resin (A); a thermoplastic resin (B) on at least one surface of the polycarbonate-based resin (A); and a hard coating layer on a surface of the thermoplastic resin (B) on at least one side, wherein the polycarbonate-based resin (A) has a glass-transition temperature from 115° C.-140° C., the thermoplastic resin (B) includes a methacrylic resin (C) and a styrene copolymer (D), a content of the methacrylic resin (C) is from 5-70 parts by mass and a content of the styrene copolymer (D) is from 95-30 parts by mass based on 100 parts by mass of a total content of the methacrylic resin (C) and the styrene copolymer (D), and the styrene copolymer (D) includes a vinyl aromatic monomer unit (d1) in an amount of from 68-84 mass % and a cyclic acid anhydride monomer unit (d2) in an amount of from 16-32 mass %.

A lamination workpiece molding device 1 includes a first mold 20 and a second mold 30. A second mold 30 includes a through-hole 32 that extends to be opened and positioned at a peripheral edge of a workpiece body 42, the through-hole 32 is connected to a first suction device 51 that sucks a sheet material 44, the lamination workpiece molding device 1 includes a control unit that sets suction forces of the first suction device 51 and a second suction device 52, the second mold 30 includes a box body 81 communicating with the through-hole 32, the first suction device 51 communicates with the through-hole 32 via the box body 81, and the box body 81 is configured to be able to prevent movement of gas between inside and outside of the box body 81 excluding a connection portion with the through-hole 32 and the first suction device 51.

A lamination workpiece molding device 1 includes a first mold 20 and a second mold 30. A second mold 30 includes a through-hole 32 that extends to be opened and positioned at a peripheral edge of a workpiece body 42, the through-hole 32 is connected to a first suction device 51 that sucks a sheet material 44, the lamination workpiece molding device 1 includes a control unit that sets suction forces of the first suction device 51 and a second suction device 52, the second mold 30 includes a box body 81 communicating with the through-hole 32, the first suction device 51 communicates with the through-hole 32 via the box body 81, and the box body 81 is configured to be able to prevent movement of gas between inside and outside of the box body 81 excluding a connection portion with the through-hole 32 and the first suction device 51.