NO131855B - - Google Patents

Abstract

Screw-shaped gripping or tensioning equipment for holding linear bodies.

Description

The present invention generally relates to equipment for linear bodies and is particularly directed to a new screw-shaped gripping or tensioning device for retaining linear bodies, especially cables, and comprising a first and second leg each of which is helical to a predetermined open pitch length. The equipment is particularly beneficial for securing cables and wires in installations where only moderate forces are expected and where a simple, economical construction is desired.

Apart from the state of the art that appears from the above, there is known screw-shaped gripping or tensioning equipment which is U-shaped, and where one leg is screw-shaped with an open pitch length, and the other leg is rectilinear as shown in the applicant's Norwegian patent application 1177/71.

The purpose of the present invention is to provide a screw-shaped gripping or tensioning device which produces an even more secure grip on flexible cables or the like than is achieved with the above-mentioned equipment comprising a straight leg, the said straight leg contributing little to positive retention of the linear body, and is especially intended for linear bodies with a non-circular cross-section. The equipment has a very simple and economical construction, and is very easy to assemble. The construction is very suitable for use as a termination or relaxation support in conditions where, according to experience, only moderate forces occur, e.g. for hanging cables for telephones and the like, and it is also particularly useful for use with cables of a very flexible nature and with a non-circular cross-section.

According to the invention, this is achieved by the screw-shaped gripping or tensioning equipment known per se being given a design where the characteristic is that the second leg is screw-shaped to a predetermined rise length different from and longer than a rise-

ning length of the first leg.

In a practical embodiment of the equipment, the screw direction of the two screw-shaped legs is preferably opposite to each other, but can also be the same. It is further preferred that the equipment is produced from a flat band or strip material such as steel.

The characteristic of the present invention will also be apparent from the subsequent claims and embodiments and the invention will be discussed in the following with reference to the drawing which includes several figures and where like reference numbers refer to like elements and where

fig. 1 is a side view of a first embodiment of the present invention where the helical legs have the same helical direction;

fig. 2 shows the equipment according to fig. 1 placed on a cable to provide a stress relief support therefor;

fig. 3 is a side view of a preferred construction of the invention where the helical legs have the opposite helical direction; and

fig. 4 shows the equipment according to fig. 3 placed on a cable.

Reference is made to fig. 1, where the screw-shaped equipment 10 shown herein comprises a first screw-shaped leg 11 with a first predetermined pitch length. A second helical leg 12 with a second predetermined pitch length different from that of the first leg 11. In the present embodiment, the helical leg 11 has a pitch length approximately twice the pitch length of the helical leg 12. The construction is completed by a bending part 13 which "is at one with and connects the first and second legs 11 and 12.

As shown, the equipment 10 consists of a single element

in the form of a flat band or strip material such as steel. The person skilled in the art will see that the equipment can be made from other materials.

Furthermore, the person skilled in the art will see that the various previously known ways of making screw-shaped equipment can easily be used to effect various modifications of the equipment shown 10, which

in fact is provided for by the present invention.

For example can one. knurling or roughening of the surfaces of the equipment 10 which are intended to cooperate with the cable, be useful for effective reinforcement of the gripping effect of the equipment as shown and claimed protected in US Patent No. 3,183,658 which is assigned to the same applicant as the present invention. Furthermore, e.g. the equipment 10 instead of a flat strip of steel, consist of a simple plastic rod or an appropriate grouping of rods as shown and claimed protected in the US patent. No. 2,761,273 which is also assigned to the same applicant as the present invention.

Reference is made to fig. 2 where the equipment 10 is drawn

in the assembled state with a linear body or cable 15. The cable 15 shown is a flexible, two-wire transmission cable of the so-called figure-8 type. When placing the equipment 10 on the cable 15, the leg 11 with the largest rise length is first wound in the usual way around the cable 15 in a tight surrounding and gripping relationship with it. After the cable is locked into the leg 11 with the longest pitch length, the helical leg 12 is placed around both the cable 15 and the leg 11 in a close surrounding relationship as shown.

It has been found that a secure friction grip on the cable 15 is achieved by the combined action of the two helical legs. In particular, it has been found that the leg 11 with the largest pitch length is relatively easy to fit around the non-circular and highly flexible cable 15 to provide a body of a relatively even and more rigid contour for gripping the leg 12 windings. The leg 12 with the short pitch length also serves to clamp the surface of the leg 11 with the larger pitch length in a tight gripping relationship with the cable 15. The present construction also avoids too large local radial pressures that can occur with conventional relaxation constructions.

A modified and preferred form of the invention is shown in fig. 3. The embodiment in fig. 3 is identical to that in fig. 1 except that the screw-shaped legs 11' and 12' have opposite screw directions, i.e. that the screw shapes run in opposite directions. It has been shown from real tests that a greater holding force with less possibility of destruction of the linear body 15' is achieved when the legs have the opposite pitch as shown. As with the design example in fig. 1, the ratio between the pitches for the two legs can vary greatly in relation to the intended conditions of use. However, the difference in pitch between the legs must be such that one ensures that the leg with less pitch crosses over and grips the leg with greater pitch several times over the length of the equipment. The equipment 10' is shown applied to the cable 15' in fig.4. The assembly procedure is again the same as previously described in connection with the first embodiment.

Manufacture of the equipment 10 and 10' shown is facilitated by shaping each of the legs and the bending part separately and then uniting the three elements by welding, clamps or the like. In particular, the single element with consecutive helical legs for each piece of equipment is very suitable for continuous forming processes in that the resulting continuous strips of helical material are cut at equal intervals to provide the individual legs for the equipment. The equipment's bay sections are also very suitable for production using continuous forming techniques. In particular, a continuous and nominally straight strip of the material can be bent and then cut into suitable lengths to form the bend or bend portion of the equipment. Assembly of the equipment's three components in the aforementioned manner can also be easily achieved using known automatic techniques.

Claims (1)

Helicoidal gripping or tensioning device for retaining linear bodies, especially cables, and comprising a first and second leg each of which is helically shaped to a predetermined open pitch length, and a deflection portion connecting the two legs, characterized in that the second leg (11,11' ) is shaped to a predetermined pitch length different from and longer than the pitch length of the first leg ' (12,12').