A deployable clasping system is configured to be deployed from a component and securely clasp and release an object. The deployable clasping system includes a cable that is deployable from the transit vehicle. A clasp assembly is coupled to the cable. The clasp assembly is configured to securely clasp the object. A propulsion sub-system is coupled to one or both of the cable and the clasp assembly. The propulsion sub-system is configured to maneuver the clasp assembly to the object.

A multifunctional suspension device for mechanical engineering, relating to mechanical engineering equipment. The multifunctional suspension device includes a supporting base, wherein guide rods are symmetrically arranged on the left and right sides of the upper surface of the supporting base, the ends, away from the supporting base, of the guide rods are fixedly connected with a top plate, a first screw rod is arranged between the guide rods on the left and right sides, the upper and lower ends of the first screw rod are rotatably connected with the top plate and the supporting base, a first driving motor is arranged in the supporting base, second nuts drive arc-shaped clamps on the two sides to move inwards at the same time through push rods and clamping rods to clamp and fix a tubular part

A multifunctional suspension device for mechanical engineering, relating to mechanical engineering equipment. The multifunctional suspension device includes a supporting base, wherein guide rods are symmetrically arranged on the left and right sides of the upper surface of the supporting base, the ends, away from the supporting base, of the guide rods are fixedly connected with a top plate, a first screw rod is arranged between the guide rods on the left and right sides, the upper and lower ends of the first screw rod are rotatably connected with the top plate and the supporting base, a first driving motor is arranged in the supporting base, second nuts drive arc-shaped clamps on the two sides to move inwards at the same time through push rods and clamping rods to clamp and fix a tubular part

This invention concerns a coupling device including a detachable member 20 that can be attached to and detached from a grille, a first coupling member 21 and a second coupling member 22 provided on the detachable member 20, and a connecting member 23 provided on the detachable member 20 so as to connect the first coupling member 21 and the second coupling member 22, wherein the first coupling member 21 and the second coupling member 22 respectively include elongated holes, arc-shaped portions 51a, 51b provided on respective outer peripheral lower portions of the first coupling member 21 and the second coupling member 22, and semicircular arc portions that can be coupled to the grille, and the connecting member 23 includes a fixing shaft 24 that extends in a horizontal direction and is inserted into the respective elongated holes in the first coupling member 21 and the second coupling member 22.

This invention concerns a coupling device including a detachable member 20 that can be attached to and detached from a grille, a first coupling member 21 and a second coupling member 22 provided on the detachable member 20, and a connecting member 23 provided on the detachable member 20 so as to connect the first coupling member 21 and the second coupling member 22, wherein the first coupling member 21 and the second coupling member 22 respectively include elongated holes, arc-shaped portions 51a, 51b provided on respective outer peripheral lower portions of the first coupling member 21 and the second coupling member 22, and semicircular arc portions that can be coupled to the grille, and the connecting member 23 includes a fixing shaft 24 that extends in a horizontal direction and is inserted into the respective elongated holes in the first coupling member 21 and the second coupling member 22.

Disclosed herein is an apparatus and method for carrying a plurality of elongate construction elements such as pipes. The apparatus comprises opposing side members and a joining member. Each of the side members is elongate in width and comprises one or more couplings and attachment points. The couplings are configured to receive thereat corresponding couplings of a lifting machine. The attachment points are spaced along the width of the side member and configured to receive construction element engaging members thereat. The joining member is between the side members and has a length that is adjustable to define a separation between the side members which corresponds to a length of the construction element.

A tire transport apparatus includes at least three arms each having an arm main body and a protrusion disposed to protrude outward at a lower part of the arm main body to lift the tire; an arm extension/retraction mechanism configured to move the at least three arms in a horizontal extension/retraction direction; a lift mechanism configured to raise and lower the at least three arms; at least three optical reflection sensors disposed on an outer side of a circle including distal ends of the protrusions when the at least three arms are above the tire and in a retracted state to detect an object below; and a controller configured to determine that one or more arms among the at least three arms are in an inappropriate position, if one or more optical reflection sensors among the at least three optical reflection sensors detect the tire.

A hook assembly includes a first hook having a first open end and a second hook having a second open end. The first hook is parallel to the second hook where the first open end is adjacent to the second open end. Extensions extend from each of the first hook and the second hook. The extensions extend perpendicular to a hook plane of the first hook and the second hook members. The first hook is a mirror image of the second hook. A hinge connects the first hook to the second hook. The hinge is located at an opposite end of the hook from where the extensions are located. A resilient member exerts a constant force at the hinge to bias the first hook and the second hook toward an open position.

A hook assembly includes a first hook having a first open end and a second hook having a second open end. The first hook is parallel to the second hook where the first open end is adjacent to the second open end. Extensions extend from each of the first hook and the second hook. The extensions extend perpendicular to a hook plane of the first hook and the second hook members. The first hook is a mirror image of the second hook. A hinge connects the first hook to the second hook. The hinge is located at an opposite end of the hook from where the extensions are located. A resilient member exerts a constant force at the hinge to bias the first hook and the second hook toward an open position.

There is disclosed a cutting tool handling assembly (10) including a scissor linkage (12) having a lifting end (14) and a cutting tool end (16). The cutting tool handling assembly (10) further includes a tool gripping assembly (26) located at the cutting tool end (26) of the scissor linkage (12). The tool gripping assembly is operatively adapted to grip a cutting tool (17). The cutting tool handling assembly (10) further includes a rotation actuation assembly (18) operatively connected to the scissor linkage (12) at the lifting end (14). The rotation actuation assembly (18), in turn, includes a coupling assembly (20) operatively adapted to couple the scissor linkage (12) to a hoisting assembly.