A method of producing a pump body for dispensing fluid product, the body having a casing with an inlet orifice which includes a valve having a ball retained in a cage, the method includes: moulding the casing by forming ribs in relief having two lateral faces which join together along an internal edge and an upper end having a free upper surface; introducing the ball into the cage below the upper ends; deforming the upper ends to form visors extending radially towards the interior of the casing to imprison the ball in the cage; with the ribs being formed with their free surface extending from one lateral edge to the other by forming a dome having a top, with the deformation of the upper ends being provided by causing a matrix to bear against the tops then via axial displacement from the matrix on a stroke for crushing domes.

A method is provided for producing a polymeric vehicle component, particularly an outer component in the form of a bumper, spoiler, sill, mud guard or the like. A polymeric shell part is first produced. Then, via a first automated process step, at least one aperture in the shell part is produced, which then defines an inner face in the shell part. Further, in a separate, second automatic process step, a radial embossing (R) is produced at a peripheral edge formed by an outer shell part surface and the inner face, in that a die with a contour corresponding to the desired radius (r) of the radial embossing (R) is pressed along the inner face against the peripheral edge. The die travels at least once along the complete peripheral edge, thus travelling along a path corresponding to the contour of the edge, such that all the peripheral edge is provided with the desired radial embossing.

Provided are a method for manufacturing a structural body and a structural body, the structural body formed of FRP and having a high degree of freedom in cross-sectional shape even at a low cost. The method for manufacturing a structural body includes a winding step of forming a cylindrical laminate body LM by winding a plurality of composite materials including reinforcing fibers and an uncured thermosetting resin around a hollow cylindrical core member CY; a compressing step of winding a tape or film around an outer circumference of the laminate body LM and compressing the same; a preheating step of heating the laminate body LM until a state prior to complete curing of the thermosetting resin; and a main heating step of arranging the laminate body LM around which the tape or film is wound and the cylindrical core member in a molding die and pressing the same to thereby heat the laminate body LM until the thermosetting resin is completely cured while deforming the cylindrical core member CY to a non-circular cross-sectional shape. Thereby, a structural body in which the cylindrical core member CY and the laminate body LM are integrated can be formed.

The invention relates to a container handling machine (1) having at least one operative unit (18) comprising first support means (21) to support a base (12) of a filled and closed container (3), second support means (24) cooperating with an end (17) of the container (3) opposite the base (12), a plunger (31) selectively moved along its axis (E) to perform a deformation operation on the base (12) of the container (3) from a first swollen configuration to a second inwardly-retracted configuration, and actuator means (35) selectively activated to move the plunger (31) along its axis (E) between a first position, detached from the base (12) of the container (3), and a second position, in which the plunger (31) defines the second configuration of the base (12); the machine (1) further comprises a control unit (41) configured to selectively activate the actuator means (35) for moving the plunger (31) along its axis (E); the second support means (24) are maintained at a constant distance from the first support means (21) during the deformation operation; the control unit (41) comprises measuring means (42) for measuring the maximum deforming force (F) exerted by the plunger (31) on the base (12) of the container (3) during the deformation operation in order to determine whether the container (3) is correctly filled.

A method for producing a semi-finished honeycomb-core product for producing a sandwich component, a method for producing a sandwich component, a semi-finished honeycomb-core product, a sandwich component, and the use thereof as a component of a motor vehicle.

The methods and apparatus disclosed in this document may be used to create parts with void features such as holes, cavities, channels, slots, and the like. In some embodiments, the void features have a large depth to width aspect ratio. In some embodiments, the void features are formed in pliable, resilient and/or elastomeric materials. In some embodiments, the void features are formed in parts comprising silicone elastomer or silicone rubber. The void features may be adapted and configured for use in medical applications, aerospace applications, electrical applications, and/or industrial applications in some embodiments.

The invention relates to a container handling machine (1) having at least one operative unit (18) comprising first support means (21) to support a base (12) of a filled and closed container (3), second support means (24) cooperating with an end (17) of the container (3) opposite the base (12), a plunger (31) selectively moved along its axis (E) to perform a deformation operation on the base (12) of the container (3) from a first swollen configuration to a second inwardly-retracted configuration, and actuator means (35) selectively activated to move the plunger (31) along its axis (E) between a first position, detached from the base (12) of the container (3), and a second position, in which the plunger (31) defines the second configuration of the base (12); the machine (1) further comprises a control unit (41) configured to selectively activate the actuator means (35) for moving the plunger (31) along its axis (E); the second support means (24) are maintained at a constant distance from the first support means (21) during the deformation operation; the control unit (41) comprises measuring means (42) for measuring the maximum deforming force (F) exerted by the plunger (31) on the base (12) of the container (3) during the deformation operation in order to determine whether the container (3) is correctly filled.

A method is provided for introducing an opening on at least one component (B) of fiber composite material. The method includes introducing an opening (7) into the component (B) placed in a mold (1; 20). A form (4; 27) then is fashioned in the same mold (1; 20) in the vicinity of the opening. The method then includes filling a vicinity of the opening with plastic. The plastic forms a surround (5, 26) around the peripheral region of the component (B) that forms the opening (7).

A container handling machine having at least one operative unit is disclosed. The container handling machine includes a plunger configured to selectively move along a longitudinal axis and to deform a base of a container from a first swollen configuration to a second inwardly-retracted configuration, and an actuator configured to selectively move the plunger along the longitudinal axis between a first position, in which the plunger is detached from the base of the container, and a second position, in which the plunger deforms the base to the second configuration. The container handling machine further includes a control unit configured to selectively activate the actuator for producing a first stroke of the plunger along the longitudinal axis between the first position and the second position, in order to deform the base of the container.

Some embodiments of the present disclosure include a mandrel system for creating a stamp on multiple receptacles. Some embodiments of the method include performing a step in the stamping process on a single receptacle while simultaneously performing another step in the stamping process on a second receptacle. The mandrel system may include a rotating mandrel system for rotating the mandrels that hold the receptacles to various positions, where the positions may be aligned with certain steps, such as heating, stamping, or cooling a portion of the receptacle. Some embodiments include a reversible lid including a fastening mechanism to fasten the lid in at least two configurations. In some embodiments, one side of the lid can be used to stack receptacles and the other side of the lid can be used to hold objects in slots and be used as a seat.