A metallic-composite joint fitting is provided. The fitting may comprise a composite structure, an integral bearing comprising a first frustoconical portion and a second frustoconical portion each having a complimentary shape to the composite structure, a sleeve comprising a third frustoconical portion coupled to a cylindrical bearing surface of the integral bearing, and a metallic end fitting coupled to the third frustoconical portion, wherein the metallic end fitting comprises a bearing portion contacted with the cylindrical bearing surface.

A metallic-composite joint fitting is provided. The fitting may comprise a composite structure, an integral bearing comprising a first frustoconical portion and a second frustoconical portion each having a complimentary shape to the composite structure, a sleeve comprising a third frustoconical portion coupled to a cylindrical bearing surface of the integral bearing, and a metallic end fitting coupled to the third frustoconical portion, wherein the metallic end fitting comprises a bearing portion contacted with the cylindrical bearing surface.

A device is provided for sterile coupling of a percutaneous surgical instrument to a rotary drive tool (5). The device has a flexible envelope (1) confining the drive tool (5), a connector piece (3) coupling to the percutaneous surgical instrument via one end, and to the drive tool (5) via its other end, by passing through the envelope via an opening (12) A tubular ring (2) is positioned on the inner surface of the envelope (1) in the area of the opening (12) and is configured to rigidly connect the envelope (1) to the body of the drive tool (5). The connector piece (3) passes through the ring and turns freely inside the ring when driven by the rotary drive tool (5). The connector piece (3), the ring, and the envelope interact in order to form a leaktight barrier between the inside and the outside of the envelope (1) in the area of the opening (12).

A device is provided for sterile coupling of a percutaneous surgical instrument to a rotary drive tool (5). The device has a flexible envelope (1) confining the drive tool (5), a connector piece (3) coupling to the percutaneous surgical instrument via one end, and to the drive tool (5) via its other end, by passing through the envelope via an opening (12) A tubular ring (2) is positioned on the inner surface of the envelope (1) in the area of the opening (12) and is configured to rigidly connect the envelope (1) to the body of the drive tool (5). The connector piece (3) passes through the ring and turns freely inside the ring when driven by the rotary drive tool (5). The connector piece (3), the ring, and the envelope interact in order to form a leaktight barrier between the inside and the outside of the envelope (1) in the area of the opening (12).

A system interconnecting units having conical shaped studs and recess for fabrication of building blocks, materials, furniture, toys, all typically having a three axis aligned array of elements. Units utilize orthogonal members having a combination of studs and recesses to allow various units to combine into combined units. Magnets can assist in attracting adjacent units together and keeping recesses and studs together. Studs and recesses are complimentary shapes, such as pyramids, cones, rounded cones, lipped pyramids, rods and cylinders.

A system interconnecting units having conical shaped studs and recess for fabrication of building blocks, materials, furniture, toys, all typically having a three axis aligned array of elements. Units utilize orthogonal members having a combination of studs and recesses to allow various units to combine into combined units. Magnets can assist in attracting adjacent units together and keeping recesses and studs together. Studs and recesses are complimentary shapes, such as pyramids, cones, rounded cones, lipped pyramids, rods and cylinders.

A high capacity radial-fit coupling bolt (or expanding sleeve bolt) has a pair of tapered sleeves about a shank of a bolt to which can be applied a tensioning load. An extrudable ring, or a compression ring, is interposed between a head nut or head flange at one end of the shank, and one end of an inner sleeve. A tensioning load is applied to the shank, the inner sleeve causing the outer sleeve to expand diametrically. At a preset load limit, the extrudable ring is extruded through at least one bore in a drive piston between the head nut and the extrudable ring, to allow shank to move relative to the inner sleeve until the tensioning load is fully applied. Alternatively, a drive member is provided between the head nut or head flange and the compression ring, and at a preset limit, the compression ring allows the shank to move relative to inner sleeve until the tensioning load is fully applied. The preset limit will typically correspond to the force required to fully expand the outer sleeve.

A high capacity radial-fit coupling bolt (or expanding sleeve bolt) has a pair of tapered sleeves about a shank of a bolt to which can be applied a tensioning load. An extrudable ring, or a compression ring, is interposed between a head nut or head flange at one end of the shank, and one end of an inner sleeve. A tensioning load is applied to the shank, the inner sleeve causing the outer sleeve to expand diametrically. At a preset load limit, the extrudable ring is extruded through at least one bore in a drive piston between the head nut and the extrudable ring, to allow shank to move relative to the inner sleeve until the tensioning load is fully applied. Alternatively, a drive member is provided between the head nut or head flange and the compression ring, and at a preset limit, the compression ring allows the shank to move relative to inner sleeve until the tensioning load is fully applied. The preset limit will typically correspond to the force required to fully expand the outer sleeve.

A non-slip reinforcing bar coupler includes a coupler body, a stopper, and a thread formed on outer surfaces thereof, a cap having an insertion hole, a cap body having a thread for screw-coupling with the coupler body, and an inclined surface formed on an inner surface of the insertion hole thereof, a locker having pressing pieces that have a cross section of an arc shape, a spike protruding from an inner surface of the pressing piece, and an outer inclined surface formed on a front outer surface of the pressing piece at the same inclination as the inclined surface of the cap, the rear side of the locker being inserted into the cap, and a support member located between the coupler body and the locker, deformed when the cap is tightened, and allowing the locker to be displaced to the coupler body by a certain displacement.

A refrigerant-channel branching component for connecting a connection pipe connected to an outdoor unit with a connection pipe directed toward a plurality of indoor units, the refrigerant-channel branching component includes: an inlet portion; and outlet portions. At least one of the plurality of outlet portions includes: a reference space into which a reference connection pipe with a predetermined outside diameter is inserted; a first space that is adjacent to the reference space and has an inside diameter greater than an inside diameter of the reference connection pipe; and a second space that is adjacent to the first space and has an inside diameter greater than the inside diameter of the first space.