A sample cell (10) for a respired gas sensor has a single-piece injection molded main body (40) defining a gas flow path including an optical sampling bore (42), a gas inlet lumen (50) connected with the inlet end (44) of the optical sampling bore, and a gas outlet lumen (52) connected with the outlet end (46) of the optical sampling bore. The gas flow path includes at least two curved walls (100, 102, 104, 106). The sample cell may be manufactured by assembling mold pins (120, 122, 124, 126, 128) for defining the gas flow path wherein at least two mold pins (122, 124) have curved surfaces for defining the at least two curved walls of the gas flow path, and injection molding the single piece injection molded main body including removing the mold pins after defining the gas flow path including the at least two curved walls.

The linear orientation of the user combined with a straight forward sliding stroke motion of present invention presents a novel new way to strike a golf ball toward the hole/target. By utilizing a linear line of site between the user's eyes, present invention, golf ball and the cup, this modern orientation of the golfer is similar to a marksman, the rifle, aiming site/scope and the bull's-eye of his target. While transversely rotating the body 90 degrees left or right (depending on handedness) compared to what has come before and incorporating the invention presented here, a new dimension in putting is opened, more accurately matching ones natural connection between their stance and aim. In nearly every other sport, this similar stance stoke/throw/shot is linear and constant due to its recognized effectiveness.

An elastomeric fishing lure is provided having a flexible body portion having first and second ends, wherein the body portion defines an axis extending along the centerline of the body portion. The elastomeric fishing lure has at least one elongate slot in the body portion, the at least one elongate slot defining first and second ends and a slot length extending therebetween, the at least one elongate slot defining a pair of opposed sidewalls, wherein the distance between the opposed sidewalls defines a slot width, the at least one elongate slot extending through the body portion along at least a portion of the slot length.

A mold assembly, for an overhead console button carrier having a unitary body, includes a cavity side and a core side. The core side includes at least one zero draft core insert, a first buried retractor mechanism and a first slide mechanism.

This molding method has: a first step for injecting a molten resin (16) to a cavity section (13) of a molding die (1); a second step for plunging, in a state wherein the resin (16) is uncured, a punching pin (2) toward the resin (16) in the cavity section (13), said punching pin having a hollow section (5) opened at an leading end (2a); and a third step for obtaining a -molded resin article by curing the resin (16).

The invention relates to an injection mold for manufacturing an injection-molded component from plastic material. The injection mold including an outer first half-mold and an outer second half-mold, which, when joined, define an empty space, which determines an outer contour of the injection-molded component, and a core, which is located in the empty space and determines an inner contour of the injection-molded component. A wire passes through the core and the joined outer first half-mold and outer second half-mold, and plural pairs of clamping jaws fix the wire in its position. A method for manufacturing an injection-molded component is also disclosed.

Optical fiber hole forming pins configured to form optical fiber holding holes each have a first portion located adjacent to a first end surface and a second portion located adjacent to a second end surface and larger in diameter than the first portion. At least one of the plurality of optical fiber hole forming pins is different from the other optical fiber hole forming pins in position, in a first direction, of a step portion located at a boundary between the first portion configured to form a small diameter portion of each of the optical fiber holding holes and the second portion configured to form a large diameter portion of each of the optical fiber holding holes.

A molded product in which a parting line can be disposed at an inconspicuous position on the appearance of the product. The molded product includes a main body having a cylindrical shape and a hole penetrating through the main body in a radial direction, or a protrusion protruding in the radial direction from the main body, and in the molded product, a parting line corresponding to a matching surface of molds is formed in the molded product, and the parting line has a first line extending from the hole or the protrusion to one side in a circumferential direction of the main body, and a second line extending from an end point on the one direction of the circumferential direction of the first line to an end portion in an axial direction of the main body.

The present invention relates to a scoop (1) comprising a bowl (2) and a handle connected to the bowl (2) and comprising a clip (6). The clip (6) can be used for re-closing a bag containing a product to be dosed by the bowl (2). The clip (6) is delimited by a free edge (9), and there is a gap (12) between the free edge (9) of the clip (6) and handle edges (10) of regions of the handle (3) surrounding the clip (6). At least a part of the clip edge (9) and at least a part of the handle edges (10) delimiting the gap (12) are provided with teeth (13) in the form of teeth-shaped protrusions. The teeth (13) at the clip edge (9) and the teeth (13) at a proximate handle edge (10), respectively, are arranged at alternating positions along a longitudinal extension of the gap (12).

A cell of a brush making device for making at least a part of a toothbrush, having a pin unit having at least one pin, a pin holding sub-unit and a pin guiding sub-unit, the pin having a first section having a first end and a second section having a second end, the first section having a holding structure, and at least one spring section arranged between the first section and the second section, the pin holding sub-unit having a holding structure that is engaged with the holding structure of the pin for fixedly holding the pin, the pin holding sub-unit and the pin guiding sub-unit being arranged for being movable along a first direction towards and away from each other, and the pin guiding sub-unit having a channel for guiding at least a portion of the second section of the pin, the channel being inclined against the first direction.