RU93099U1 - NODE CONNECTION OF RODS OF SPATIAL FRAME - Google Patents

Abstract

 1. Nodal connection of the rods of the spatial frame, containing a ring representing a segment of the cylinder, rods, characterized in that at the end of each rod there is a transverse groove that engages the rod with the ring according to the hook principle, in which the ring is located in the grooves of the rods interacting with it while the rods are connected to the ring with the possibility of rigidly fixing the position of the rods relative to each other. ! 2. Nodal connection according to claim 1, characterized in that the rods are fixed relative to each other by means of a welded connection of each rod with the ring.

Description

The utility model relates to the field of construction, in particular to the construction of frame structures and structures of various functional purposes and can be used to connect the rods of spatial frames.

Known nodal connection of the rods of the spatial frame according to the patent of the Russian Federation No. 72708 for a utility model - analogue. Known nodal connection contains a nodal element having threaded holes, each of which contains a bolt connected by a fastener - a pin with a drive sleeve, the other end of which is attached to the rod by means of a connecting element installed inside the rod, characterized in that the nodal element is made in in the form of a solid ball, the connecting element is made in the form of a cover, the smaller diameter of which is equal to the inner diameter of the rod, and the larger is equal to the outer diameter of the rod, one hole is made on the sleeve TIFA threaded the pin and the bolt bearing surface on the sleeve in a groove under the pin.

The disadvantage of an analogue is the complexity of the design.

Known is the nodal connection of the rods of the spatial framework according to the patent of the Russian Federation No. 38184 for a utility model consisting of a cylinder in which grooves are placed having corrugated walls, the tips of the rods pressed in the shape of grooves, two covers and a coupling bolt, characterized in that the tips are made in one whole with a core. This nodal connection is selected as a prototype.

The disadvantage of the prototype is the inability to adjust the relative position of the frame elements during the assembly process, which can lead to a skew of the entire structure as a whole.

The technical result achieved by the utility model is the possibility of adjusting the relative position of the frame elements during the assembly process and ensuring the reliability and stability of the structure as a whole, simplifying the design of the nodal connection.

The technical result achieved is achieved due to the fact that in the nodal connection of the rods of the spatial frame containing the ring, which is a segment of the cylinder, the rods, according to the utility model, a transverse groove is made at the end of each rod, which engages the rod with the ring according to the hook principle, at which the ring is located in the grooves of the rods interacting with it, while the rods are connected to the ring with the possibility of rigidly fixing the position of the rods relative to each other.

The rods are fixed relative to each other by welding each rod to the ring.

The inventive nodal connection has a simple design that provides easy assembly of the spatial frame, eliminating its distortions, providing stability and reliability of the frame.

A joint is formed around the central ring. The central ring is a part (segment) of the cylinder. The height of the ring is determined by the dimensions of the spatial frame. With large sizes of the frame, the height of the ring is chosen correspondingly large, with smaller values of the frame, the height of the ring also decreases. The diameter of the ring is also determined by the geometry of the frame, the number of rods suitable for the ring.

Each rod is an elongated element, the shape of which is not fundamental. The main thing is that the rod must have a thickness that allows the groove to be made at the end of the rod. The width of the groove is selected from the condition of ensuring placement in the groove of the ring. The depth of the groove is selected from the condition of ensuring reliable engagement of the ring and the rod. The engagement of the ring and the rod is carried out according to the “hook” principle, in which the rod hangs on the ring.

The spatial framework is formed of a plurality of rods connected to respective rings. Depending on the configuration of the frame (for example, spherical), in different parts of it different numbers of rods are suitable for different rings.

After the frame as a whole is assembled, in order to eliminate various small distortions of the structure, to evenly distribute the loads on the frame, it is as if “shaken”, i.e. the frame is shaken. As a result of this action, the rods, which are first loosely mounted on the rings, occupy a position corresponding to the most stable position of the entire frame structure as a whole. Those. as a result of this effect, a uniform distribution of loads on all elements of the frame occurs.

After the position of each rod relative to the respective rings is formed, the rods are fixed relative to each other to ensure reliability and stability of the frame. To fix the position of the rods relative to each other, the most convenient and optimal way is to attach each rod to the ring in the place of their interaction using a welded joint.

The proposed connection is advisable to use for frames having a complex spatial shape, for example, for spherical frames. Spherical frames are very difficult to assemble. The slightest inaccuracy allowed when joining a number of rods of a spherical frame (non-observance of the angle between the two rods, inaccuracy in the geometry of the rod itself, etc.) will lead to the fact that it will be impossible to provide a spherical shape of the frame when it is fully assembled, or may lead to impossibility assembly of a spherical frame.

The proposed connection allows you to compensate for small inaccuracies in the geometry of the structural elements of the frame, eliminates the need for accurate observance of the angles between adjacent rods. All inaccuracies and errors will be compensated after that. as the assembled frame is shaken, after which the frame will take the necessary shape, the rods will take the required position, and all the loads will be distributed evenly over the frame elements.

After the frame is assembled, the location of each rod will be determined, fix the position of each rod relative to each other in any way possible. The most convenient is the connection of the rods with the ring by means of a welded joint.

The proposed connection allows you to quickly assemble the frame of any shape, including the most complex - spherical; The connection is simple and reliable. Using the proposed connection will provide quick and reliable assembly of any frames, as well as provide further reliability and stability of the frames assembled using the proposed connection.

Figure 1 shows the proposed nodal connection - top view.

Figure 2 shows the proposed nodal connection is a transverse section.

Figure 3 shows the core of the frame.

Figure 4 shows a spherical frame assembled using the proposed connection.

The inventive connection contains a Central ring 1, which is a segment of the cylinder and the rod 2. At the end of the rod 2 there is a transverse groove 3, providing the possibility of connecting the rod with the ring on the hook principle.

After the frame is assembled, the rods 2 are connected to the ring 1 by means of a welded joint. When assembling the spherical frame, the rods 2 need to be tilted a little, for this the appropriate width of the groove 3 is chosen. When the rods 2 are tilted, they abut against the ring 1, providing the necessary stability of the connection.

Claims (2)

1. Nodal connection of the rods of the spatial frame, containing a ring representing a segment of the cylinder, rods, characterized in that at the end of each rod there is a transverse groove that engages the rod with the ring according to the hook principle, in which the ring is located in the grooves of the rods interacting with it while the rods are connected to the ring with the possibility of rigidly fixing the position of the rods relative to each other. 2. Nodal connection according to claim 1, characterized in that the rods are fixed relative to each other by means of a welded connection of each rod with the ring.