A carrying rack connecting device is provided, including a connection rod and a connection assembly. The connection rod is configured to be connected to a mounting rod. The connection assembly has a base, an urging member and an operation member. The base is positioned inside the connection rod. The base has an operation space. The urging member is movably disposed within the operation space. The urging member has a first abutting portion. The operation member is disposed through the operation space and connected with the base. The operation member has a thread portion and an enlarged portion. The thread portion is screwed to the base. The enlarged portion has a second abutting portion. The second abutting portion is configured to push the first abutting portion.

A horizontal universal joint includes a first joint member and a second joint member. The first joint member is integrally formed by a frame insertion port and a female coupling port. The second joint member is integrally formed by a frame insertion port and a male coupling port. The female coupling port of the first joint member and the male coupling port of the second joint member are removably engaged via an elastic body. Teeth rows are formed at an inner peripheral surface of the female coupling port and an outer peripheral surface of the male coupling port meshing with one another. Depending on meshing positions of both teeth rows when the male coupling port is inserted into the female coupling port, the horizontal direction where the frame insertion port of the second joint member faces relative to the frame insertion port of the first joint member is changeable.

A horizontal universal joint includes a first joint member and a second joint member. The first joint member is integrally formed by a frame insertion port and a female coupling port. The second joint member is integrally formed by a frame insertion port and a male coupling port. The female coupling port of the first joint member and the male coupling port of the second joint member are removably engaged via an elastic body. Teeth rows are formed at an inner peripheral surface of the female coupling port and an outer peripheral surface of the male coupling port meshing with one another. Depending on meshing positions of both teeth rows when the male coupling port is inserted into the female coupling port, the horizontal direction where the frame insertion port of the second joint member faces relative to the frame insertion port of the first joint member is changeable.

A coupling and related methods are disclosed herein that can provide for coupling a first object and a second object with minimal play. A coupling can include a first coupling component having a cylindrical surface with a screw and a pin extending therefrom and a second coupling component having a prismatic surface with a first and a second through-hole. The first coupling component and the second coupling component can be configured such that relative motion between the first coupling component and the second coupling component can be restricted in all six degrees of freedom when the screw is engaged with the first through-hole to secure the cylindrical surface of the first component against the prismatic surface of the second component. The pin can be configured to maintain stability of the coupling and further limit relative movement, such that positioning and/or orientation errors between the first and second components is minimized.

A coupling and related methods are disclosed herein that can provide for coupling a first object and a second object with minimal play. A coupling can include a first coupling component having a cylindrical surface with a screw and a pin extending therefrom and a second coupling component having a prismatic surface with a first and a second through-hole. The first coupling component and the second coupling component can be configured such that relative motion between the first coupling component and the second coupling component can be restricted in all six degrees of freedom when the screw is engaged with the first through-hole to secure the cylindrical surface of the first component against the prismatic surface of the second component. The pin can be configured to maintain stability of the coupling and further limit relative movement, such that positioning and/or orientation errors between the first and second components is minimized.

In the silicon core wire according to a first aspect of the present invention, a male thread part formed at one end of a first thin silicon rod and a female thread part formed at one end of a second thin silicon rod may be screwed together and fastened. In the silicon core wire according to a second aspect of the present invention, a thread part formed at one end of a first thin silicon rod and a thread part formed at one end of a second thin silicon rod may be screwed together and fastened via an adapter with thread parts formed at both ends.

The present aspects include an adhesive and mechanically bonded adapter or node. The adapter or node comprises a connection member, including: an outer wall extending in a first direction from a first proximal end to a first distal end; an inner wall extending within the outer wall, in the first direction, from a second proximal end to a second distal end; and a base wall extending from an inner surface of the outer wall to an outer surface of the inner wall between the first proximal end and the second proximal end; and wherein the outer wall, the inner wall, and the base wall define a space having a distance between the outer wall and the inner wall that varies in the first direction, wherein the space is configured to fixedly position an end portion of a tube inserted into the space such that the end portion is fixed to the inner surface of the outer wall and the outer surface of the inner wall.

The present invention is in the field of modular structures, assembled by way of fastening or attached means, whose purpose is to be used as base support structures for various applications, particularly connecting systems involving plastic or aluminum containers, recipients, bottles or vessels. Particularly, the invention comprises an omnidirectional construction system that includes connectors and terminals to be attached to containers with threaded openings or flat openings and container bases, to which various types of connectors may be attached to.

A connector (1) for releasably engaging a slot (10) in a support member (11). The connector (1) includes a body (2) in having a blind bore (20), within which is received a retaining element (3), a threaded insert (4) and a bolt (5) with a shaft (50). The threaded insert (4) provides a threaded hole (40) that receives the shaft (50). The bolt (5) has a head (51) at a first end of the shaft (50) and the retaining element (3) is secured to a second end thereof to inhibit removal of the shaft (50) from the body (2). The shaft (5) has a central threaded portion (55) between the head (51) and the retaining element (3) to engage the threaded hole (40) such that rotation of the body (2) relative to the bolt (5) draws the head (51) toward the body (2) to captivate and clamp an overhang (13) of the slot (10) in the support member (11) between the head (51) and the body (2).

A connector (1) for releasably engaging a slot (10) in a support member (11). The connector (1) includes a body (2) in having a blind bore (20), within which is received a retaining element (3), a threaded insert (4) and a bolt (5) with a shaft (50). The threaded insert (4) provides a threaded hole (40) that receives the shaft (50). The bolt (5) has a head (51) at a first end of the shaft (50) and the retaining element (3) is secured to a second end thereof to inhibit removal of the shaft (50) from the body (2). The shaft (5) has a central threaded portion (55) between the head (51) and the retaining element (3) to engage the threaded hole (40) such that rotation of the body (2) relative to the bolt (5) draws the head (51) toward the body (2) to captivate and clamp an overhang (13) of the slot (10) in the support member (11) between the head (51) and the body (2).