NO133759B - - Google Patents

Description

Connecting device for connecting structural elements.

The present invention relates to a coupling device for connecting tubular, rod-like or other structural elements. According to the invention, the construction elements can be connected either at an angle to each other or in a longitudinal direction. Tubular or rod-like structural elements can be connected together in a much simpler way than with the previously known methods, such as by welding or cumbersome clamping devices. The invention is particularly applicable to the production of tubular furniture, ladders, shelves and all types of frame structures, such as e.g. construction scaffolding.

The coupling device according to the invention is of the type that comprises at least one grip-forming part arranged to grip tightly around at least one structural element to be connected and at least two arm-like parts arranged to be able to be pressed into a tube-shaped end part of another structural element to be connected, wherein the arm-like parts are attached to the gripping part in such a way that, when they are pressed into the tubular part and during the pressing into the tubular part they are arranged to subject the gripping part to a stretch sdm providing a firm gripping effect on the first structural element, and characterized by both of the arm-like parts having cooperating edges in the longitudinal direction arranged to, at the beginning when the second structural element is introduced onto the free ends of the arm-like parts, between each cooperating pair to form a tapering space, which edges are brought to abut against hin-' other when the tubular end part of the second structural element is pressed in over the arm-like parts to limit ning of the tension the gripping part is subjected to within the tensile limit of the material from which the coupling device is made.

A coupling device which can be attached to a cylindrical part, e.g. a tube, according to the invention consists of a slotted, round part with two arms which extend from the central part of the device on either side of the slot opening and essentially in line with each other. The slotted, round clamping part must be flexible or springy in order for it to be able to be introduced over the cylindrical surface which it is to enclose. The extended arms have, when they are intended to be introduced into a tube which has a cylindrical shape, a section which is sector-shaped, the outer surfaces corresponding exactly to the surface of the round closing part, so that the clamping part is subjected to tension so that it is pressed around the pipe which it must retain when the arms are pressed together.

The clamping part of the coupling device is arranged in such a way that it fits the outside of a pipe that has specific outer and inner dimensions, the two arms having a sector shape that corresponds to the hole in the pipe or another pipe hole with a specific inner dimension.

The invention is particularly suitable for connecting tubular or cylindrical structural elements, but the invention can also be used to connect structural elements or

parts that have a square, oval, triangular or other non-circular cross-section, by changing the cross-section of the clamping parts or parts. Construction elements with different shapes can be connected together by the cross-section of the clamping part and the arms

fit the various parts that must be held together.

A single slotted clamping member may have one or more pairs of arms extending from the clamping member either at right angles or at acute angles to the member.

In an alternative embodiment of a connecting device according to the invention, the clamping part, instead of consisting of one piece, can be produced in the form of two cooperating parts, with at least one pair of arms protruding from the sides of the part in essentially opposite directions, so that the clamping parts, when the structural elements inserted over each pair of arms, will grasp a third element inserted between them.

In another alternative embodiment, the arms are arranged in such a way that they protrude from one end of a slotted clamping part; construction elements can then be connected longitudinally and coaxially

Although the gripping force of the clamping part or parts can be great enough to prevent a relative sliding movement, stronger interconnections can be achieved by the overlapping parts of the coupling device having a number of smaller protruding parts, by passing rivets or bolts through suitable holes or by spot welding the parts in a couple of places. However, the invention is intended to be used without the use of rivets, bolts or spot welding.

The connecting parts are advantageously produced by pressing metal sheets, e.g. of mild steel, and are produced in standard sizes that fit the standard dimensions of the structural elements.

The invention will be described in the following with reference to the drawing, where fig. 1 shows a side view of a connection device for tubular parts in its simplest form, fig. 2 a front view of the wiring device according to fig. 1 at the beginning of the connection, fig. 3 a similar drawing as fig. 2, where two pipes are partially connected, and fig. 4 in a similar manner to fig. 2 the final position of a coupling device when connecting two pipes at right angles; fig. 5 shows a coupling device which consists of two parts for connecting two oppositely directed pipe ends to a pipe which is arranged at right angles to these, fig. 6 in perspective of an alternative embodiment of a coupling device according to fig. 1-4, fig. 7 in perspective of a coupling device for connecting two pipes in the longitudinal direction and fig. 8 a coupling device for connecting three pipe ends forming 90° to each other; fig. 9 shows a diagram of a coupling for connecting the end of a pipe with another pipe, where the pipes form an acute angle with each other, fig. 10 is a diagram of a coupling device for connecting three pipe ends which are in the same plane, and fig. 11 an alternative embodiment of a coupling device according to fig. 5; fig. 12 and 13 show plans of two other embodiments of a coupling device according to fig. 1-4, fig. 14 is a plan view of a coupling device of the type shown in fig. 9 for attaching two pipe ends to the middle of a third pipe, and fig. 15 shows a section of a construction element's massive end which is arranged to close a coupling device according to the invention; fig. 16 shows in perspective a coupling device according to fig. 5 and 11, which are particularly suitable for connecting structural elements with a square shape, fig. 17 in perspective, a connecting device for connecting tubular construction elements with square-shaped ends that form a right angle with each other and with a third construction element with a square shape, fig. 18 is a perspective view of a connecting device for connecting the ends of four structural elements with a fifth structural element which forms a right angle with the four elements, and fig. 19 in perspective a connecting device for connecting tubular parts with a flat rod-like part.

Fig. 1, 2, 3 and 4 show a connecting device 1 for connecting two pipes, consisting of a molded part which is made from a metal tin blank with an essentially rectangular shape;

its middle part is bent up relative to the main axis of the workpiece to form the clamping part 2. This clamping part is shaped in such a way

that it forms a split collar, which can be inserted over a tube, while the end parts are semi-circular in order, when they are brought towards each other, to form a round hollow, projecting part across the slotted collar-like clamping part 2. The end parts form arm-shaped extensions 3 which can expose the clamping part 2 to large tensile stresses so that it is brought to fit tightly around the circumference of the pipe when the end part (3) is clamped together.

The device according to fig. 1-4 are intended to be used to connect two identical pipes 4 and 5 in such a way that the pipe 5 forms a right angle with the pipe 4. The outermost ends of the arms 3 have beveled edges at 6, so that they can be more easily inserted into the pipe 5. The transition parts between the clamping part 2 and the arms 3 form shoulders 7 which improve the appearance of the device when the pipe 5 is brought in over the device. When the coupling device comes from the factory, the arms 3 are preferably arranged so that they converge, so that the clamping part 2 will then take an extended position, so that it can easily be inserted over the pipe 4. Since the clamping part 2 must be flexible and elastically, a coupling device 1 can also be attached to a pipe 4 by first bending the diverging parts 3 of the arms away from each other and placing them over the pipe and then bending them together, after which the clamping part is subjected to pressure.

When the arms 3 assume the normal converging position, they are held by the spring in the clamp part 2 in such a position that the arms always have an outward force which facilitates the attachment of the coupling device; this will be explained in more detail below.

The ends of the arms 3 are fed into a pipe end 5. This can only happen by forcing the ends of the arms together, so that the edges of the arms form wedge-shaped gaps 8, as shown in fig. 2. The widest part of the gap is formed where the arms pass into the clamping part 2, while the edges butt against each other at the free end of the arms. When the pipe 5 is pressed in over the arms 3, the outer surface of the arms is exposed to a great deal of pressure, so that the clamping part, which now acts as a tensioning device, is exposed to a force which causes the clamping part 2 to gradually stretch and wrap around the pipe 4, which it thereby grips about. The special shape of the arms causes them to act like a wedge or an inclined plane. Each of the inclined planes formed by the outer surfaces of the arms has an inclined position which can be expressed so that half the distance of the gap at the clamping end corresponds to each of the inclined positions of the arms. When the tube 5 is forced in along the arms 3, a large mechanical holding force is obtained. The length of the gap must be such that it allows stretching of the material of the clamping part, and it therefore depends on the properties of the material and on the pipe's dimensions, but it must also be taken into account that the pipe will not be destroyed due to too great a load.

Another important feature of a coupling device according to the invention is that the V-shaped gap 8 is adapted in such a way that the clamping part only has sufficient space to be stretched within the elastic limit, so that the stretching effect cannot negate the gripping effect required to hold the element.

A further action in addition to the outward pressure inside the tube 5 helps to hold the tube 5 and the arms 3. This action consists of the spring force that occurs in the clamping part 2 which normally affects the arms in an outward direction. Although these forces are very small compared to the force arising from the wedge action, an outward pressure of this kind, not only because of the clamping part's spring action, but also because of the clamping part's natural attempt to regain its original shape, will keep the arms in good contact with the inner surface of the tube 5 over their entire length rather than only at the widest point of the arms. The tube 4 is clamped at the same time by the clamping part. These opposing forces produce a connection that is equally strong at all points.

The above-mentioned effect, together with the other forces, gives a stronger clamping effect in the clamping device, which would otherwise have no advantage over the ordinary pressure fastening. The holding power of the tube 5 on the arms 3 is further increased by the tube and the convex surfaces of the arms 3 being rough, and this also prevents twisting. As the coupling device according to the invention is particularly usable together with welded pipes, the inner welding seam of such pipes will cut into the arms along the entire length of the arms and thus produce a large holding effect, even if the seam is very small and difficult to see. The holding effect will also be increased if the contact surfaces corrode to such an extent that the elements can hardly be separated.

The beveled edges 6 of the arms 3 facilitate the insertion of the arms into the pipe 5, and an outward force on the pipe increases when the arms 3 are moved further and further into the pipe 5.

It has been established that the pipes and the coupling device according to the invention are equally strong when the coupling device is made of the same material and the same material dimensions as the pipes. A welded connection, on the other hand, will provide a stronger connection, but the welding will also produce a weak point where the pipe has been heated and annealed. The need to clean the welding connection can also make the connection weaker, as the cleaning is most often carried out by non-specialized people, so that grinding or filing can weaken the connection. A coupling device according to the invention is intended to be used instead of a welding connection. The connecting device can also be placed with the help of simple tools, and unskilled people can easily set up a number of constructions, such as e.g. gates, fences, supports, tables, shelves and the like.

In the alternative embodiment of a coupling device shown in fig. 6, the clamping part 2 is designed so that its end parts extend past the sides of the arms 3, whereby a relatively long slotted collar is created which provides a larger gripping surface against the pipe 4. This extended clamping part 2 can also be used to connect two pipes 4 which are flush with each other. The parts that form the shoulder 7 have been removed in the simplified version of a coupling device shown in fig. 12. In fig. 13, the clamping part 2 is extended in one direction, so that a corner connection of the pipes 4 and 5 can be formed.

The connecting device according to fig. 9 is substantially similar to that shown in FIG. 1-4 and 12, the arms 3a here form an acute angle with the clamping part 2 instead of, as previously, a right angle with this. The pipe end which is pushed in over the arms 3a is denoted by 5a. In the case of failure according to fig. 14, the clamping part 2 has two such inclined arm grooves 3a, so that the ends of the two tubes 5b can close the device and thereby clamp a tube 4, the tubes 5b being placed at sharp angles to the tube 4.

In the embodiment according to fig. IO1 connects a coupling device lb together two tube 4 ends which are placed at right angles to each other, the arms 3 being inserted into a third tube 5c which is placed diagonally in relation to the tube 4.

The connecting device ld shown in Fig. 8 can be used to connect three pipe ends 10, 11 and 12 which all form a right angle with each other. The connecting device has two clamping parts 2a at right angles to each other in the same plane and two perpendicular arms 3c which, however, cover different large sectors, so that the binding parts can thereby be placed in line with the slits 13 and the clamping part 2a.

The connecting device 1e which is shown in fig. 7, is an alternative embodiment of the above-mentioned coupling devices and makes it possible to fasten two pipe ends 4a flush with each other. In this embodiment, the pipe 4a is placed over the slotted part 3b, which in turn is fixed at one end of the slotted clamping part 2b over a shoulder 7.

The coupling devices described above consist of a single piece of sheet metal which is pressed in one piece, but the invention also includes coupling devices which consist of two parts, as shown in fig. 5, 11, 16, 17 and 19. The connecting devices according to fig. 5, 11 and 16 are particularly adapted for connecting two flush pipes with a third pipe at right angles to them and in the same plane.

In the device according to fig. 5, each part consists of an essentially semi-cylindrical clamping part 2a and arms 3 which protrude from its opposite sides across the axis of the clamping part 2a. The two parts 2a are identical and are placed so that the tapering slits 8a occur between the edges of the arms 3. The ends of these arms are beveled at 6; shoulders 7 are advantageously used in this construction.

In a device according to fig. 11, the clamping parts 2a are shaped in such a way that they extend a good distance past the sides of the arms 3, and the shoulder-forming part is omitted to simplify the construction. The connecting device according to fig. 16 is substantially similar to that shown in FIG. 11, but is made for connecting structural elements with a square cross-section.

A coupling device according to fig. 17 is particularly suitable for connecting square structural elements, but can easily be constructed for cylindrical pipes. The outer clamping part 20 extends somewhat less than 270° around the pipe or element which it is to hold, the inner clamping part 2d extending over an angle which is somewhat less than 90°, each clamping part being equipped with two arms 3. When the arms 3 is introduced into a pipe or a sleeve-like end of a structural element, the clamp parts 2c and 2d, if a pipe or the like is inserted between the clamp parts, will be pulled tightly around the pipe.

The coupling device according to fig. 18 consists of four equal parts 2c, each of which covers an angle of slightly less than 90° and has two arms 3. The ends of four structural elements can be connected to each other in the same plane and to an element that is perpendicular to this by means of this coupling device plan. The connecting device according to fig. 18, when adapted for pipes, will be able to hold four pipe ends when they are arranged in one plane, but the coupling cannot withstand tension and can therefore only hold the four pipes in position in relation to the central pipe.

The connecting device according to fig. 19 is particularly intended for connecting a pipe or a structural element at right angles to a flat rod. This coupling device consists of two parts, each of which has a clamping part 2f and an arm 3 which can be inserted into an element in such a way that the clamping parts 2f are clamped tightly around the sides of the rod.

When it is desired to connect the end of a solid rod or a similar element with another structural element, e.g. a pipe, by means of a coupling device according to the invention, is supplied to the end of the rod 14, fig. 15, with an axial bore 15 which can be inserted over the arms 3 in the same way as a tube.

Claims (8)

1. Connecting device for pipes, rods and similar structural elements of the kind that consists of at least one grip-forming part (2) arranged to grip tightly around at least one structural element to be connected and at least two arm-like parts (3) arranged to be able to be pressed into a tubular end part of another structural element to be connected, which arm-like parts (3) are attached to the gripping part (2) in such a way that when they are pressed into the tubular part and during the pressing into the tubular part they are aligned in order to subject the gripping part (2) to a stretch which provides a firm gripping effect on the first structural element, characterized in that both of the arm-like parts (3) have interacting edges in the longitudinal direction arranged at the beginning when the second structural element is introduced onto the free ends of the arm-like parts (3), between each cooperating pair to form a tapered space (8), the edges of which are brought to abut against each other when the second structural element's tubular ended el is pressed in over the arm-like parts to limit the stretch the gripping part is exposed to within the tensile limit of the material from which the coupling device is made. 2. Coupling device according to claim 1, characterized in that the arm parts (3a) are arranged at an angle to the axis of the gripping part (2) and project in the same direction (fig. 9, 14). 3. Connecting device according to claim 1, for connecting three structural elements, characterized in that the gripping part (2) is provided with two pairs of arm parts (3a) (fig. 14). 4. Coupling device according to claim 4, characterized in that the gripping part (2a) consists of two parts, each of which is provided with two arm parts (3) which go in different directions to form two pairs of cooperating arm parts (fig. 5, 16, 17). 5. Coupling device according to claim 5, characterized in that the two pairs of arm parts are arranged in mutually opposite directions and have their axes arranged essentially in line with each other (fig. 5, 16). 6. Connecting device according to claim 5, characterized in that the two pairs of arm parts (3) have their axes arranged in a common plane which is perpendicular to the axis of the clamp parts (2c, 2d), and that they are arranged at an angle to each other (fig. 17 ). 7. Connecting device according to claim 1, for connecting three structural elements, characterized in that the gripping part (2a) is designed so that it grips tightly around the end parts of two structural elements and is provided with a pair of arm parts (3c) which are arranged to be able to be inserted into a third construction element's tubular end part (fig. 6, 8, 10, 12). 8. Connecting device according to claim 1, for connecting more than three structural elements, characterized in that the gripping part (2c) consists of more than two parts, each part being provided with two arm-like parts (3) that go in different directions, so that thereby forming more than two pairs of cooperating arm parts which can be placed in a corresponding number of structural elements' tubular end parts (fig. 18).