An anchor device for a floor, the anchor device comprising an article securing arrangement to which an article can be secured. The article has a moveable securing mechanism. The article securing arrangement defines a cavity to receive the moveable securing mechanism, and the article securing arrangement includes a co-operating means to co-operate with the moveable securing mechanism in the cavity and secure the article to the anchor device. The anchor device has a height which is no more than 30 mm.

A component for the transmission and absorption of mechanical forces and moments includes at least one dimensionally stable component element having at least one hollow-profiled section extending along a longitudinal axis of the dimensionally stable component element, and at least one hollow-profiled component element consisting of fibre-reinforced plastic extending along a longitudinal axis of the hollow-profiled component element. The hollow-profiled component element is partially received by the hollow-profiled section of the dimensionally stable component element in a form-fitting manner. The component is produced by a method that includes the steps of inserting one end of the one hollow-profiled component element into the hollow-profiled section of the dimensionally stable component element and pressing the outer circumference (26) of the hollow-profiled component element (16) against the inner circumference (24) of the hollow-profiled section (14) by an inflatable element.

The shank (12) of a disposable rotary cutting tool (10) comprises a pipe section (16) cut from a drawn metal pipe. The tool head (14) is formed from a cut-out (18a, 18b) of a drawn metal sheet or a section of a metal tube by non-cutting machining. The pipe section (16) and the tool head (14) are advantageously attached by force fitting.

The present disclosure concerns embodiments of a badge or insert for a golf club head that can eliminate undesired gaps between the insert and the peripheral sidewall of the cavity that receives the insert. In one embodiment, a golf club head comprises a main body comprising a cavity, which defines a central surface and an inner peripheral surface at least partially surrounding the central surface. An insert comprises a central portion and a deflectable portion coupled to and extending along a peripheral edge section of the central portion. The deflectable portion has a shape corresponding to and contacting a corresponding section of the inner peripheral surface of the cavity. The deflectable portion forms a press-fit engagement with the corresponding section of the inner peripheral surface of the cavity that retains the deflectable portion in a deflected state relative to the central portion.

A fence includes first elongated tubular members, each one of which is configured to extend vertically from ends of the first elongated tubular members positionable proximate to a support surface (e.g., the ground). The fence also includes second elongated tubular members extending between the first elongated tubular members, each of which is configured to extend parallel to the support surface. The fence further includes receivers defined by apertures formed in the first elongated tubular members, each of which extends outwardly from respective first elongated tubular members so that each one of the second elongated tubular members can be fixedly attached to corresponding ones of the first elongated tubular members. In some embodiments, one or more of the first elongated tubular members and/or the second elongated tubular members can have a circular cross-section. The second elongated tubular members can be fixedly attached the first elongated tubular members with and/or without welding.

A single piece roll-formed frame comprising a first channel having a base section and one or more legs, each leg comprising an upper side extending from the base section at a first angle and a lower side extending from the upper side at a second angle, a second channel having a base section and one or more legs, each leg comprising an upper side extending from the base section at the first angle and a lower side extending from the upper side at the second angle and wherein the base section of the first channel and the base section of the second channel are formed from a single piece and intersect to form a third angle, and the upper side of each leg of the first channel overlaps the upper side of each leg of the second channel.

A method for installing a fastener by positioning a cap around the fastener, spraying a cooling agent from a sprayer of a cooling system. The fastener may have a top portion including a dielectric material. The cooling system may be configured to cool the top portion of the fastener to stiffen the top portion. A tool may be configured to install the fastener in a structure after cooling, while retaining the cooling agent within the cap.

A railing assembly may include a first railing portion including a first aperture, a second railing portion including a second aperture, a first in-rail connector disposed in the first railing portion, and a second in-rail connector disposed in the second railing portion. A baluster may extend through the first aperture and may be connected to the first in-rail connector The baluster may extend through the second aperture and may be connected to the second in-rail connector.

The invention relates to a component for absorbing and/or transmitting mechanical forces and/or moments, comprising at least one dimensionally stable component element (12, 12, 12, 2, 12), which has at least one hollow-profiled section (14), and at least one hollow-profiled component element (16) consisting of fiber-reinforced plastic, which can be partially received by the hollow-profiled section (14) of the dimensionally stable component element (12, 12, 12, 12, 12), and can be arranged in a form-fitting manner in the hollow-profiled section (14) of the dimensionally stable component element (12, 12, 12, 12, 12) by means of raised portions (32, 32) which extend radially inwards and/or depressions (38, 38), recesses or holes which extend radially outwards, wherein the inner circumference (24) of the hollow-profiled section (14) of the dimensionally stable component element (12, 12, 12, 12, 12) and the outer circumference (26) of the hollow-profiled component element (16) consisting of fiber-reinforced plastic correspond to each other or at least substantially correspond to each other. The invention further relates to a method for the production thereof and the use thereof.

A heat sink structure and a manufacturing method thereof. The heat sink includes a main body having multiple main body connection sections and multiple radiating fins each having a connection section. The main body has a first end and a second end. The first and second ends define a longitudinal direction. The multiple radiating fins are placed in a mold. A mechanical processing measure is used to high-speed impact the main body so as to thrust the main body into the mold. Accordingly, the connection sections of the radiating fins placed in the mold are high-speed thrust into the main body connection sections and moved in the longitudinal direction to the second end of the main body to tightly integrally connect with the main body.