RU221274U1 - Connection unit for rectilinearly arranged rectangular tubular elements - Google Patents

Abstract

The utility model relates to connections of tubular elements of various metal structures. The technical result is to increase the compactness and reliability of the connection of tubular elements, as well as to improve the appearance of the connection and the ergonomic characteristics of the connection.

The technical result is obtained by a tubular element connection unit containing a tubular element connector, on the plate of which threaded bushings are located and secured, in the inner hole of each of which a thread is made. The walls of the tubular elements are pressed against the plate by the heads of fasteners screwed into the threaded bushings of the plate. The plate with threaded bushings attached to it is located in the cavities of the connected tubular elements. Each bushing has at one end a flange and a collar, between which a plate is clamped, and the flange, plate and collar are pressed against the walls of the tubular elements by fasteners screwed into the threaded bushings, the heads of which are located outside the tubular elements. The thread of each bushing is made in its through hole, and the plate in the middle part has a width greater than the width of each end part of the plate, and expanders are formed along the length of the expanded part of the plate in its middle part.

Description

The utility model is intended for connecting tubular elements having a rectangular cross-section in metal structures for various purposes - in furniture production, construction, mechanical engineering, and electrical engineering. A connection of tubular profiles is known, containing embedded and connecting elements with holes for fasteners. The unit is formed by load-bearing elements of frame structures, interconnected by gussets using a prefabricated insert. The insert ensures fastening of the gussets to the walls of the connected profiles using friction bolted connections without access to their nuts. The nuts are fixed in the prefabricated insert and installed in it with the possibility of pressing against the inner walls of the profile using washers and a friction lining installed in the insert. The insert is installed in each of the connected profiles (RU 2423582 C1, 03/25/2010).

A connection of rectilinearly located rectangular tubular elements in cross-section is known, containing tubular elements connected end-to-end by a connector, with one side of the connector adjacent to one of the side walls of the tubular elements and on one side of it having rigidly fixed threaded bushings located in the cavity of the joined tubular elements, while threaded bushings contain threaded fasteners located in the holes of the opposite side walls of the tubular elements, with the heads of the fasteners adjacent to the opposite side walls (RU 2747631С1, 05/11/2021).

A tubular connector located in the cavity of two end-to-end pipes is known, with parts of the connector located in the pipes in the area of their connection and fixed in the pipes (Yandex.https://mail.ru/search?search_source=mailru_desktop_safe&msid=1&suggest_reqid=s.05.04.2023 ).

In the prior art, there are known connections used in a tubular system having bolts inserted into a through hole of one pipe and embedded threaded elements in another pipe into which fasteners are screwed to connect the pipes (JP 2002129600 A, 05.09.2002. US 22604342 A, 22.07 .1952).

It is known to connect two identical tubular parts, each of which has a continuous semi-supporting surface extended coaxially with respect to a continuous semi-supporting surface of a larger diameter, which form a flat supporting surface, and half of the supporting surface of a larger diameter has at the end of its free end the beginning of the flat surface and under at an angle to the generatrices of the two supporting surfaces, a shaped cutout, wherein said parts of the connection, thanks to their flat surface suitably positioned for this purpose, are installed with limited angular free rotation, which allows, under the action of a clamping force applied to the clamp, to simultaneously connect the two parts of the connection for the purpose of simultaneously clamping two pipes on two supporting surfaces (FR 2581717 A1, 11/14/1986).

Pipe connections are known from the prior art, inside which embedded threaded elements are secured for pipe connection bolts, with the connectors located between the ends of the connected pipes (DE 202014101676 U1, 06/05/2014).

Of the known connections, the connection disclosed in patent RU2747631C1 was selected as a prototype, wherein the connection contains a plate with threaded bushings vertically fixed to it, placed in the holes of profile pipes; fasteners connecting the plate to the pipes are screwed into the bushings.

The general features of the connection presented in this description and the connection disclosed in the description of the prototype characterize connections for tubular elements of a metal structure, and the connection has rectilinearly located tubular elements rectangular in cross-section and contains a straight plate located in the cavity of the joined pipes, on which threaded bushings are located and secured, in The inner hole of each of them is threaded and a fastening element connecting the tubular elements is located in it.

In the prototype, the holes of the threaded bushings are made blind, the bushings are placed in the holes of the connected pipes, the diameter of each such hole is equal to the diameter of the bushing, which significantly weakens the strength of the wall of the tubular element. The connection plate is adjacent to the outer surfaces of the tubular elements being connected. On the other opposite side of the connection, the heads of the fastening elements are adjacent to the surfaces of the tubular elements being connected, while the ends of the bushings abut the inner surfaces of the tubular elements being connected. When fastening fasteners, stress concentrations arise in the contact areas of the ends of the bushings and heads of fasteners with the corresponding surfaces of the tubular elements. The adhesive forces of the contact surfaces of the connection are reduced due to the concentration of such stresses in other compression zones, which eliminates evenly distributed compression forces of the working surfaces to provide friction forces between them. The bushings of the connector disclosed in the prototype are located in the holes of the tubular elements so that they are located in the holes of the opposite walls of each tubular element. On the opposite side of the plate, fasteners are screwed into the threaded holes of the bushings and the heads of the fasteners, adjacent to the walls of the tubular elements, compress the walls of the tubular elements from the outside in the process of screwing the fasteners into the threaded holes of the bushings. Such local compression is a significant drawback due to the fact that the force of pressing the plate against the walls of the connected pipes in this case is minimal, since the load when tightening the fasteners is concentrated in the contact areas of the heads of the fasteners with the walls of the connected elements. As a result, these features of the known connection reduce its reliability in the operation of metal structures.

Another disadvantage of the known connection disclosed in the prototype is that the connection plates are located outside the connected pipes, which significantly increases the dimensions of the connection and makes it impossible to use these connectors where the use of compact connections is necessary, for example, in furniture production. This is due to the fact that the connector plates located on the outer surface of the connected tubular elements are an obstacle to the cladding sheets of the metal furniture frame made using the connection presented in the prototype.

The technical result of the connection disclosed in this description is to increase the compactness and reliability of the connection of tubular elements. The indirect result of the connection is an increase in ergonomic performance by eliminating protruding parts of the connection, as well as improving the appearance of the connection.

The technical result is obtained by a connection unit for rectilinearly located rectangular tubular elements, containing a connector of tubular elements, on the plate of which threaded bushings are located and secured, in the internal hole of each of which there is a thread, while the walls of the tubular elements are pressed to the plate by the heads of fasteners screwed into threaded bushings of the plate, and the plate with threaded bushings fixed to it is located in the cavities of the connected tubular elements, each bushing has at one end a flange and a collar, between which the plate is clamped, and the flange, plate and collar are pressed against the walls of the tubular elements with fastening screws screwed into the threaded bushings elements, the heads of which are located outside the tubular elements, while the thread of each bushing is made in its through hole, the plate in the middle part has a width greater than the width of each end part of the plate, and expanders are formed along the length of the expanded part of the plate in its middle part.

Figure 1 shows an example of the implementation of the connection of two tubular frames of a metal structure and the connection of rectilinearly located tubular elements having a rectangular cross-section.

Figure 2 shows a junction of two tubular elements.

Figure 3 – view A in figure 2.

Figure 4 is a section B-B in Figure 3.

Figure 5 – view B in figure 4 (enlarged).

The connection unit is shown in one of the examples of its implementation in a metal structure formed by two rigid frames: a lower frame having rigidly connected and parallel arranged tubular elements 1 (Fig. 1) and an upper frame connected to the lower frame, having rigidly connected and parallel arranged tubular elements 2. Tubular elements 1 are connected to each other by cross-bars of circular cross-section, tubular elements 2 are connected to each other by cross-bars of rectangular cross-section. In this case, the tubular elements 1 and 2 located rectilinearly on the same straight line have a rectangular cross-section. From the inside and outside, each tubular element has radius curves along the radius R. Each pair of tubular elements 1 and 2 of the metal structure is fastened together by a connection shown in Fig. 2-5.

The connection of rectangular tubular elements 1 and 2 (Fig. 2) contains a rectilinear plate 3 (liner) located in the cavity of the joined pipes, in the holes 8 of which (Fig. 4) threaded bushings 4 are located and secured by press fit. In the internal hole 10 of each The threaded bushing has thread 9 along its entire length (Fig. 5). As a result of the press fit of each threaded bushing 4 in hole 8 of the plate, the end of the bushing 4 is deformed and a collar 14 is formed on it, obtained by riveting the end of the bushing.

Each bushing has a flange 5, which in connection is pressed against the connector plate 3 when fasteners 7 are screwed into the threaded bushings 4 with an interference fit. A rounded corner is formed between the walls 6 of each tubular element, made along a radius R (Fig. 2,5). In this example of the implementation of the connection, two threaded bushings 4 are fixed in the holes of the plate 3, into which two fastening elements 7 are screwed, as shown in the drawings.

The connector plate 3 in its middle part on two longitudinal sides is made with expanders 11 (Fig. 1, 2, 5), extending outward from the plate 3. The expanders are made by increasing the width of the plate in its middle part in comparison with the width of each end part plates, while the expanders are formed by the longitudinal side edges (edges) 12 of the plate as shown in Fig. 2 and Fig. 5. In another embodiment of the connection, plate 3 is made without expanders - the edges of plate 12 are made straight (not shown). Tubular elements 1 and 2 are joined along joint line 13 (Figs. 1-4).

The connection is installed as follows. One end of the connector plate 3 is inserted into the cavity of the tubular element 1 and the fastening element 7 is screwed into the threaded sleeve 4 located below the joint line 13 of the tubular elements (Fig. 1). Then the second part of the connector plate 3 is inserted into the cavity of the upper tubular element 2 and the fastening element 7 is screwed into the threaded sleeve 4 located above the joint line 13 of the tubular elements. Tighten fasteners 7 until they stop. As a result, the connection plate 3, its flange 5 and collar 14 are compressed and attracted to the walls 6 (Fig. 5) of two connected tubular elements 1 and 2.

The greater the compression force in the connection when screwing the fasteners 7 into the threaded bushings 4, the stronger the collar 13 of each threaded bushing is pressed against the wall 6 of the tubular element, and the greater the friction force arises between the collar and the wall of the tubular element. As a result, the resistance to rotation of the pressed end of the threaded bushing 4 in hole 8 of plate 3 increases.

It is important that when inserting the plate 3 into the cavity of the tubular elements being connected, the expanders 11 of the plate 3, when inserted into the cavity, first slide along the inner surfaces of the walls 6 of the tubular elements being connected, and when tightening the fasteners 7, the expanders 11 move across the tubular elements, they are attracted and pressed to the walls of each tubular element, and at the same time pressed against the angular radius surface R of the wall 6 of each tubular element (Fig. 5). In this case, the expanders, partially, within tolerances, are plastically deformed, which ensures tighter contact of the tubular elements being connected and increases the reliability of the connection without backlash in the contact areas of the connected surfaces.

The connection works as follows. When loads occur at the connection, they are perceived by the ends of the tubular elements 1 and 2, the connector plate 3 and the fasteners 7. As a result of the close interaction of the plate 3 with the internal surfaces of the tubular elements 1 and 2 due to the forces of friction and pressing of the surfaces, the indicated loads on the fasteners 7 are reduced and connection reliability increases. The reliability of the connection also increases due to pinching of the collar 13 between the wall 6 of the tubular element and the plate 3 of the connector.

The connection presented in this description reveals the location of the connector plate 3 inside the tubular elements, which protects the connection from environmental influences and significantly increases the compactness of the connection, improves the appearance of the connection, eliminates dangerously protruding parts of the connection, which has a positive effect on the ergonomics of the metal structure of the product. In the case of connecting tubular elements that have relatively thick walls (compared to thin-walled tubular elements), the heads of the fastening elements can be recessed into the wall sockets corresponding to the heads and located flush with the outer surfaces of the connected tubular elements.

The technical result of the utility model - increasing the compactness of the connection and its reliability, is achieved by the fact that, in comparison with the known connection, the plate is located in the cavities of the connected tubular elements, which reduces the size of the connection, protects the connector plate and its threaded bushings from external influences. Making the plate with expanders ensures tighter contact of the tubular elements with the connector plate, which has a positive effect on increasing the reliability of the connection of metal structures. The reliability of the connection is also increased due to the significantly increased length of the thread made in the through hole of each threaded bushing, as well as due to the pinching of the collar of the bushing between the plate and the wall of the tubular element when tightening the fastener, which has significantly increased the force of pressing the connector plate against the walls of the tubular elements. At the same time, the press fit of threaded bushings made it possible to eliminate welding and simplify the design and manufacturing technology of the connection. A metal structure assembled using connections in it is used in furniture production in the manufacture of metal frame furniture, and it is possible to use the described connection in similar metal structures for other purposes.

Claims (1)

A connection unit for rectilinearly located rectangular tubular elements, containing a connector of tubular elements, on the plate of which threaded bushings are located and secured, in the internal hole of each of which there is a thread, while the walls of the tubular elements are pressed to the plate by the heads of fasteners screwed into the threaded bushings of the plate , characterized in that the plate with threaded bushings fixed to it is located in the cavities of the connected tubular elements, each bushing has at one end a flange and a collar, between which the plate is clamped, and the flange, plate and collar are pressed against the walls of the tubular elements with fasteners screwed into the threaded bushings elements, the heads of which are located outside the tubular elements, while the thread of each bushing is made in its through hole, the plate in the middle part has a width greater than the width of each end part of the plate, and expanders are formed along the length of the expanded part of the plate in its middle part.

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