NO144301B - DEVICE FOR PRESENT TENSION OF PRIOR CIRCUITS FOR A SUBSTRATE. - Google Patents

Description

The invention relates to a device for clamping

of preferably tubular bodies for a substrate, comprising a partially enclosing pipe-enclosing fastening element and a pipe-supporting substrate element, which fastening element comprises at least one elastic yielding part and has at least one end part designed with a fastening part for engagement with an associated fastening part on the substrate element, and where the fastening part of the substrate element consists of a closed cutout formed in this element.

Devices for clamping pipes and the like, or so-called pipe clamps, are known in many different designs. Several of the types of clamps on the market today are actually incomplete clamps, as they are based on some form of additional construction to attach the clamp to the substrate. This additional construction must then be made at the installation site in each individual case by the person who will install the clamps. When clamping pipelines with such clamps, the installation costs will therefore be predominant. In other words, the production cost of the pipe clamp itself will be of secondary importance in this context.

A clamping device of the type indicated at the outset is known, for example, from US-PS 2 918 240. This known device is a cable clamp for clamping a cable to a slotted support part, where the clamp or fastening element consists of a U-shaped metal strip with a slot that extends extend in the longitudinal direction inwards from each end of the clamp and form two laterally springing leg parts. The outer edges of each of these leg parts are provided with a number of notches with contact surfaces, where the notches have sloping edges that enable the introduction of the leg parts into the support part's slot so that the clamp can be attached to the support part by engagement between its lower surface and a suitable notch on the clamp. With this device, the fastening element must be guided directly from notch to notch in order to achieve gradually increased clamping, which can present problems when it concerns clamping with a large clamping force of e.g. large diameter pipe. The known device is also not laterally stable.

The purpose of the invention is to provide a clamping device which is quick and easy to assemble and which provides stable and secure clamping with the possibility of variable clamping at the same time that the same fastening element can be used for clamping tubular bodies with different dimensions.

The above-mentioned purpose is achieved with a device of the kind indicated at the outset, which according to the invention is characterized by the fact that the cut-out of the support element has a guide edge inclined in relation to the pipe body's support plane, which is provided in a manner known per se with a number of holding parts for varying engagement with the fastening element's corresponding fastening part.

With the fastening device according to the invention, it is essential that variable fastening is achieved by means of a springy fastening element in combination with one or two slanted guide edges which are formed by corresponding closed cutouts in the base element, a fastening part on the fastening element being brought into engagement with holding parts on the guide edge in question. This solution enables clamping with a very large clamping force, which is a prerequisite for being able to use the device for clamping pipes with large dimensions, i.e. with a diameter of more than 1 meter. The closed cut-out makes it possible to insert a wedge between an end part of the substrate part's cut-out and the leg of the fastening element, so that the leg of the fastening element can be driven to the desired position by the wedge being driven in by impact.

One can thereby achieve fixed tension just by turning on the wedge from the start, without having to initially apply direct force to the fastening element. The fastening part of the fastening element, which can suitably be hook-shaped, can then move step by step along the guide surface between adjacent holding parts on the guide edge, and by impact on the wedge, a very large tension force can thereby be achieved.

With the help of the inclined guide edges with holding parts, the possibility of variable clamping with a large holding force is thus achieved, and with the help of such guiding surfaces in combination with the design of the fastening element with elastic parts, it is achieved that the same device can be used for clamping pipes with different dimensions. The fastening device is also advantageous as the elastic parts provide the opportunity to compensate for radial expansion of the clamped pipes. This can be significant in connection with plastic pipes which expand or contract particularly much when the temperature changes. The assembly can be carried out quickly and easily, and the clamping is stable and secure as it will not tend to loosen during use, e.g. due to vibrations when used on board ships or similar, or due to impact. Furthermore, the clamping device is also laterally stable.

The invention will be described in more detail in the following with the help of a number of design examples with reference to the drawings, where fig. 1 shows a front view of a first embodiment of the clamping device according to the invention, with a base element that extends parallel to the pipes to be clamped, fig. 2 shows the embodiment in fig. 1 seen from the side, fig. 3 shows a front view of a second embodiment of the clamping device according to the invention, with a support element which extends perpendicularly to the pipe bodies to be clamped, fig. 4 shows a detailed view of a hook-shaped attachment part of the attachment element in fig. 3, seen in the direction of arrow A in fig. 3, fig. 5 shows a detailed view of a fastening part design in a base element, and fig. 6 shows a front view of a third embodiment of the clamping device according to the invention, where the fastening element is provided with a fastening part only at one end and is intended for clamping cylindrical pipes with a relatively small diameter.

The clamping device described below is especially intended for clamping cylindrical pipes and cables. However, it will be clear that the device can be used for clamping other types of bodies, even if the bodies are hereinafter referred to as pipes for the sake of brevity. The fastening element of the clamping device will accordingly be referred to as a clamp.

The one in fig. 1 and 2, the embodiment of the clamping device according to the invention comprises a fastening element 22 which is clamped to a base element 23 for retaining a pipe 3. This embodiment is intended for clamping pipes which are placed on base elements which extend parallel to the pipe. As shown, the fastening element 22 is attached to a base element in the form of a channel iron 23, and the clamped pipe 3 is supported by a suitable spacer 24 placed in the channel. The fastening parts 25 are hoop-shaped end parts of the legs of the fastening element, and are adapted to be brought into engagement with the base element's fastening parts, which consist of elongated, slanted cut-outs 26 in the side walls of the channel iron 23. The cut-out 26 has upper, inclined guide edges 27 which are provided with a number of holding parts for varying engagement with the fastening parts 25 of the fastening element, and the level difference between the starting and end parts of the guiding edge causes the desired biasing of the fastening element.

The fastening element 22 is made of elastic material, e.g. spring steel, and is, as shown, provided with elastically yielding parts or parts consisting of loop-shaped parts A in the transitions between the element's step part and its legs. The elastic loop parts A will be deformed without any change in shape of the fixing parts 25. This is because the fixed tension forces act on the loop parts with a far greater moment arm than on the fixing parts, and the fixing parts are in reality exposed to an insignificant bending moment, since the distance from the point of attack for the fixing edge of the base element to the relevant leg of the fastening element 22 is negligible. Thus, the fastening element in this case can be made of e.g. round steel.

The springy parts A also have the function of enabling the use of the same fastening element for different pipe diameters. This is achieved by the step part of the element between the elastically yielding parts being designed with a curved, central part for contact with a corresponding, limited part of the pipe to be clamped.

It will be clear that the attachment parts 25, instead of being bent outwards in the direction from the step part as shown, can be bent inwards in the opposite direction, for placing the legs of the attachment element 22 on the outer sides of the channel sides. This gives greater opportunity for the use of other types of substrate profiles, and for example the channel element 23 can be turned upside down. With this design, the fastening element can be used together with spacers which are both adapted for stable support of the pipe dimension in question and are equipped with a locking device, e.g. in the form of a peg that goes through a corresponding hole in the substrate.

The in connection with fig. As mentioned, the design described in 1 and 2 is designed for clamping pipes that are placed on base elements that extend parallel to the pipes. The same clamping principle can also be used when the base elements extend perpendicular to the pipe bodies to be clamped. In this case, the fastening parts of the fastening element will be bent in a plane normal to the plane through the leg of the fastening element.

An example of a single-phase tensioning device of this type with adapted grooves in the substrate element is shown in fig. 3. As indicated in the figure, the fastening element or clip 28 is provided with fastening hooks 29 which are bent, e.g. as shown in fig. 4. As shown, the underlay element 30 is provided with an inclined cut-out or a groove 31. It will be appreciated that such grooves can be provided for only one or both ends of the clip's attachment hooks. This also applies to the grooves 26 in the embodiment according to fig. 1 and 2, in that the desired or necessary bias can be achieved using only one track. The groove or grooves in the substrate are adapted to the profile from which the clamp in question is made. The clamp can thus be made of e.g. steel with a round cross-section, or with a rectangular cross-section. In the latter case, the fastening parts can be bent into a U-shape about the longitudinal axis of the cross-section, as the lower part of the leg of the clamp can be turned or twisted 90°. so that the fastening parts lie in a plane normal to the plane through the leg of the clamp. The angle position of the track 31 can be varied according to the current need. It may also be appropriate to allow the groove to slope in the opposite direction, so that the clamp's legs must be pressed apart when the clamp is clamped to the substrate.

As indicated in fig. 5, the slot can also be designed so that the attachment hook or hooks can be in intermediate positions. The guide edge or guide surface of the groove 32 is here provided with depressions 3 3 which enable the attachment part of the clamp in question to be placed in a desired intermediate position. The slot can also be designed in the same way as in the embodiment in fig. 1-2. The groove can also be designed so that a wedge (with a curved cross-section depending on the shape of the groove) can be inserted between the clamp leg and an end part of the substrate element's cutout, so that the attachment hook can be driven to the desired position by the wedge being driven in by impact.

In certain cases, relatively large clamping forces may be necessary to ensure stable retention, and large surface pressures may then occur where the surfaces of the attachment parts abut against the attachment surfaces of the substrate element. In order to achieve the least possible surface pressure, the surfaces of the fastening parts which in the fastening element's clamped state abut against the fastening edge of the substrate can therefore be designed with a complementary surface in relation to the fastening edge surface.

The clamping device according to the invention can also be adapted especially for clamping pipes with a small diameter. Such an embodiment is shown in fig. 6. Here, only one end of the fastening element 19 is provided with a fastening part 34. The element's elastic yielding part mainly consists of a transition part 20 between the fastening part and the corresponding leg, in addition to the fact that the U-shaped part will be able to slide during the clamping along the pipe's 3 circumference. The fastening element 19 cooperates with an intermediate layer 21 to achieve suitable, initial bias and stable retention of the pipe. The underlay element is provided with a cut-out 35 which is of a similar design to that in fig. 3 and where the fastening part 34 can be displaced along the leading edge of the cut-out to achieve the desired bias.

Claims (5)

1. Device for fastening preferably tubular bodies to a substrate, comprising a partially tube-enclosing fastening element and a pipe-supporting substrate element, which fastening element comprises at least one elastically yielding part and has at least one end part designed with a fastening part for engagement with an associated fastening part on the substrate element, and where the attachment part of the substrate element (23; 30) consists of a closed cutout (26j 31) formed in this element, characterized in that the cutout has a front hold the pipe body's (3) support plane inclined guide edge (27) which is provided in a manner known per se with a number of holding parts for varying engagement with the fastening element's (22; 28) corresponding fastening part (25; 29). 2. Device according to claim 1, characterized in that the slanted guide edge (27) of the cut-out (26) lies in a plane which is essentially parallel to the axis of the tube body (3) to be clamped. 3. Device according to claim 1 or 2, where the support element (23, 24) comprises two side parts intended for placement, one on each side of and along the axis of the pipe body (3) to be clamped, characterized in that the side parts are provided with respective cutouts (26) with corresponding continuous guide edges (27). 4. Device according to claim 1, characterized in that the slanted guide edge of the cut-out (31) lies in a plane which is essentially normal to the axis of the pipe body to be clamped. 5. Device according to claim 1, 2 or 4, where only one end of the fastening element is provided with a fastening part; characterized in that the fastening element (19) has an elastic yielding part (20) in the transition between the fastening hook and the pipe-enclosing part of the fastening element, and that the support element (at 21) is adapted for lateral retention of the pipe body (3) to be clamped.