A system forms, at an end of a multifiber ribbon cable, a multifiber ribbon cable segment having an enlarged core-to-core spacing. A UV-transparent mold is mounted on top of a chassis. The mold defines a plurality of individual fiber channels corresponding to individual fibers of the existing multifiber ribbon cable and having a spacing equal to that of the enlarged core-to-core spacing. Each individual fiber channel passes through the internal cavity. The assembled mold further includes an injection system for receiving light curable, flowable material from the reservoir and pumping system and feeding it into the internal cavity, and at least one vent for allowing air to escape from the internal cavity as the light-curable, flowable material is fed into the internal cavity. The injected material is cured by exposure to a curing light.

The present invention relates to a filling injector and to a method for operating such a filling injector. The filling injector has a sensor for detecting a predetermined detection position of a closing piston unit and a counting device for counting the number of detection positions of the closing piston unit in which it is situated in the predetermined detection position. By means of this, when a predetermined number of detection positions is reached, a maintenance signal can be emitted and the maintenance interval can be adapted to the actual use of the filling injector.

The invention relates to a method for transporting foamed thermoplastic polymer particles (3) from a container (5, 9) through at least one pipe (7,9), wherein, for transporting the foamed thermoplastic polymer particles (3), a gas stream is applied through the pipe (7, 11). The foamed thermoplastic polymer particles (3) are wetted with a water comprising lubricant.

According to an aspect of the invention there is provided a mouldable material carrier for use in producing an impression of a surgical site comprising: a base having a channel passing through the base between an inlet and an outlet; and a securing portion configured to secure a flexible sheet to the base around the outlet to cover the outlet such that, when mouldable material is urged through the inlet, the mouldable material is extruded out of the outlet and contained within a volume defined by the flexible sheet and the base, such that when the mouldable material carrier is urged against a surgical site, the mouldable material within the volume forms an impression of the surgical site without making contact with the surgical site.

A device, system, and method for creating a molded crayon body are provided. In embodiments, the device includes a receiving and positioning device having a channel for receiving a wax stick. The channel may be configured to receive and position a wax stick for melting by a melting component. The device may further include a positioning and/or adjustment component that raises and lowers a mold plate with respect to a front surface of the melting component. In some embodiments, the melting component includes a nozzle having a nozzle tip configured to transfer melted portions of the wax stick from the nozzle of the melting component to a mold on a mold plate. The mold component may also include a chilling mechanism for cooling a completed, molded crayon body.

The method of producing a transdermal absorption sheet includes: preparing a mold having needle-like recessed portions and an angle of an inlet portion of 120 to 160, and a liquid feeder including an opening portion and a lip land portion; filling the needle-like recessed portions with a solution by feeding the solution to the mold and moving the liquid feeder while bringing a rear end of a lip land portion on the secondary side of the liquid feeder into contact with the mold; and forming needle portions and a sheet portion using a polymer solution. In the filling of the solution, when the rear end of the lip land portion on the secondary side matches with a secondary side inlet of the needle-like recessed portion, the shortest distance from a primary side inlet of the needle-like recessed portion to a secondary side block is 220 m or less.

A molding apparatus for molding an optical article has a reactor vessel having an interior cavity configured to receive a quantity of a flowable forming material, a mold assembly defining a mold cavity therein, a diaphragm valve disposed between the reactor vessel and the mold assembly, and a tubing connecting the diaphragm valve to the reactor vessel and the mold assembly. The diaphragm valve is operable between an open configuration to permit a flow of the flowable forming material through the tubing from the reactor vessel to the mold cavity and a closed configuration to block the flow of the flowable forming material from the reactor vessel to the mold cavity. A filter is disposed between the reactor vessel and the diaphragm valve. The tubing has an upstream tubing section between the reactor vessel and the filter and a downstream tubing section between the filter and the diaphragm valve.

The method includes the steps of: preparing a mold and a liquid filling device; and filling needle-like recessed portions with a liquid medicine by repeating the following: a filling operation in which the liquid medicine is supplied to the mold from the liquid filling device and the needle-like recessed portions are filled with the liquid medicine while a nozzle tip is brought into pressed contact with a surface of the mold; and a moving operation in which a nozzle is relatively moved with respect to the mold while the nozzle tip and the surface of the mold are in contact with each other, wherein the nozzle is held in a Z-axis drive unit configured to vertically move the nozzle while an elastic body is provided in the Z-axis drive unit, while the nozzle tip is brought into pressed contact with the surface of the mold.

The invention relates to a method for transporting foamed thermoplastic polymer particles (3) from a container (5, 9) through at least one pipe (7,9), wherein, for transporting the foamed thermoplastic polymer particles (3), a gas stream is applied through the pipe (7, 11). The foamed thermoplastic polymer particles (3) are wetted with a water comprising lubricant.

A method of injecting a sealing gel into a recess of a work piece, comprising steps of: injecting the sealing gel into the recess and stopping the injection of the sealing gel when the sealing gel reaches a first depth less than the total depth of the recess; after the sealing gel has cooled and solidified, continuing the injection of the sealing gel into the recess and stopping the injection of the sealing gel when the sealing gel reaches another depth higher than the first depth; and repeatedly performing the previous step until the cooled and solidified sealing gel in the recess has a top surface beyond a sealing interface surface of the work piece.