MODULAR CLAMPING SYSTEM FOR LINES OF DIFFERING DIAMETER AND CLAMPING PART THEREOF

Abstract

The invention relates to a modular clamping system for fixing a plurality of supply lines, for example, for tension relief in energy chains, and to a clamping part therefor. A plurality of identical clamping parts are stackable one atop the other and hold to each other, wherein each clamping part has a first clamping jaw having a clamping surface and a second opposite clamping jaw facing away, having a clamping surface. A receiving channel for a line that is to be fixed is delimited between the clamping surfaces of facing clamping jaws. According to the invention, in each clamping part, at least the first clamping jaw forms at least one recess, in which a second clamping jaw of a following, identical clamping part can penetrate, crosswise to the lead-through direction of the lines, wherein the free cross-section of the receiving channel is reduced further compared to a non-penetrating position.

Claims

1-16. (canceled)

17. A modular clamping system for fixing one or several supply lines, comprising: a plurality of identically configured clamping parts stackable one on top of another transversely to a lead-through direction and which interact in a holding manner, each clamping part of the plurality of identically configured clamping parts having a first clamping jaw with a first jaw clamping surface and, facing away therefrom, an opposite second clamping jaw with a second jaw clamping surface, wherein the first clamping jaw of each clamping part of the plurality of identically configured clamping parts is arrangeable with the second clamping jaw of each other clamping part of the plurality of identically configured clamping parts to provide facing clamping jaws of two clamping parts, wherein the two clamping parts are arrangeable to define a receiving channel for a line fixable therein extending in the lead-through direction between the first and second jaw clamping surfaces of the facing clamping jaws, and wherein the first clamping jaw of one of the two clamping parts forms at least one recess into which the second clamping jaw of another one of the two clamping parts is penetrable transversely to the lead-through direction to reduce a cross-section of the receiving channel compared to a non-penetrating position.

18. The modular clamping system according to claim 17, wherein the at least one recess of the first clamping jaw is arranged to be breaking through with respect to the first jaw clamping surface.

19. The modular clamping system according to claim 17, wherein the at least one first recess of the first clamping jaw is defined in the lead-through direction by opposite end faces which are perpendicular to the first jaw clamping surface, and the second clamping jaw has abutments that interact with the opposite end faces.

20. The modular clamping system according to claim 19, wherein sharp-edged transitions, at right angles, are provided between the opposite end faces which define the recess in the lead-through direction.

21. The modular clamping system according to claim 17, wherein the first and second jaw clamping surfaces have a concave shape and/or form a substantially V-shaped cross-section perpendicular to the lead-through direction.

22. The modular clamping system according to claim 21, wherein the first and second jaw clamping surfaces each have two planar clamping flanks arranged at an angle to each other.

23. The modular clamping system according to claim 17, wherein, in the non-penetrating position, a line having a diameter of 18 mm is receivable and fixable in the receiving channel, and wherein the second clamping jaw is penetrable into the at least one recess to reduce the cross-section of the receiving channel such that a line having a diameter of 6 mm is receivable and fixable in the receiving channel.

24. The modular clamping system according to claim 17, wherein the facing clamping jaws interact that their clamping surfaces mesh with each other.

25. The modular clamping system according to claim 17, wherein the two clamping parts are lockable together with an interlocking configuration which locks the clamping parts to each other transversely to the lead-through direction when stacked one on top of another.

26. The modular clamping system according to claim 25, wherein the interlocking configuration is provided by outwardly inclined resilient legs with toothed strips on an inner side of one of the two clamping parts, which lock with outwardly inclined outer surfaces with opposite toothed strips on an outer side of another one of the two clamping parts.

27. The modular clamping system according to claim 17, wherein the clamping parts are supported for displacement transversely to the lead-through direction on a guide and are pre-loaded against each other by a resilient tensioning device.

28. The modular clamping system according to claim 17, further comprising an additional clamping part which anchors the plurality of identically configured clamping parts when stacked one on top of another.

29. The modular clamping system according to claim 17, wherein the plurality of identically configured clamping parts are each made of a thermoplastic material.

30. The modular clamping system according to claim 17, wherein the modular clamping system provides a tension relief for the one or several supply lines.

31. The modular clamping system according to claim 17, wherein the modular clamping system is part of an energy chain.

32. The modular clamping system according to claim 18, wherein the first clamping jaw comprising a first section, a second section oppositely arranged the first section and aligned in the lead-through direction, and a narrow mid-section between the first section and the second section, and wherein the at least one recess further comprises a recess being provided between the first and second sections on each of two sides of the narrow section, respectively.

33. The modular clamping system according to claim 21, wherein a continuously concavely curved mid-surface is provided between the two planar clamping flanks of the first and second jaw clamping surfaces, respectively.

34. The modular clamping system according to claim 21, wherein the first jaw clamping surface of the first clamping jaw is designed mirror-symmetrical in cross-section to the second jaw clamping surface of the second clamping jaw.

35. Clamping parts for fixing one or several supply lines, comprising: a plurality of identically configured clamping parts each having a first clamping jaw with a first jaw clamping surface and, facing away therefrom, an opposite second clamping jaw with a second jaw clamping surface, wherein the first clamping jaw of each clamping part of the plurality of identically configured clamping parts is arrangeable with the second clamping jaw of each other clamping part of the plurality of identically configured clamping parts to provide facing clamping jaws of two clamping parts, wherein the two clamping parts are arrangeable to define a receiving channel for a line fixable therein extending in the lead-through direction between the first and second jaw clamping surfaces of the facing clamping jaws, and wherein the first clamping jaw of one of the two clamping parts forms at least one recess into which the second clamping jaw of another one of the two clamping parts is penetrable transversely to the lead-through direction to reduce a cross-section of the receiving channel compared to a non-penetrating position.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] Further details, features and advantages of the invention will become apparent from the following detailed description of a preferred embodiment with reference to the attached drawings wherein it is shown by:

[0025] FIGS. 1A-1D show an exemplary arrangement using the modular clamping system comprising three identically designed clamping parts and one lower part which together form a clamp for three lines, shown in cross-section (FIG. 1A) corresponding to the section line A-A of the plan view (FIG. 1C), and in a lateral view (FIG. 1B) and in a perspective view without clamped lines (FIG. 1D);

[0026] FIGS. 2A-2B are perspective views of the clamping part usable in a modular fashion diagonally from above (FIG. 2A) and diagonally from below (FIG. 2B);

[0027] FIGS. 3A-3B are front views of the clamping part in FIG. 2A-2B for illustrating a non-penetrating position with minimum free cross-section (FIG. 2A) and compared thereto with a reduced, in this case minimum possible free cross-section for a line to be clamped (FIG. 2B) in a completely penetrating position of a further identical clamping part shown hatched; and

[0028] FIGS. 4A-4B are a perspective and a front view of the lower part in FIG. 1A-1D.

[0029] FIGS. 1A-1D show a vertically stacked structure 1 consisting of three identical clamping parts 10 and a lower part 12, which are plugged together in a clip-like manner, as one example of use as a clamp or a tension relief. This exemplary module structure can accommodate three lines 2, 3, wherein two lines with identical line diameter and a further line 3 with a significantly smaller diameter (approximately by a factor of 3) are shown here for illustration purposes.

DETAILED DESCRIPTION OF THE DRAWINGS

[0030] For mutual fastening to one another, the clamping parts 10 have resilient legs 13 which are symmetrically inclined outwards on both sides, each with an inner toothed strip 14 and an outer toothed strip 15 with opposing teeth which interact in a latching manner to ensure gradual latching in a direction perpendicular to the lead-through direction (see plane from FIG. 1A). In this respect, the teaching of WO 00/63600 A1 is incorporated herein for reference to shorten the present description. The lower part 12, on the other hand, only has an outer toothed strip 15 on sloping side walls identical to those of the clamping parts 10. For additional securing in the longitudinal or guide-through direction of the lines 2, 3, two laterally projecting, holding blocks 6 are molded to the end face of each leg 13 between which the end faces of the legs 13 of an attached clamping part 10 are held. By means of the resilient legs 13, the toothed strips 14, 15 also allow the lines 2, 3 to be clamped without tools by locking them at the appropriate locking step.

[0031] From FIG. 2A-2B the construction of a clamping part 10 can be seen more closely. Each clamping part 10 forms a first clamping jaw 21 on the underside with a clamping surface consisting of a concave first section 21A, a second concave section 21B opposite and aligned with it in the lead-through direction, and a concave narrow mid-section 21C in between. The surfaces of the sections 21A, 21B and the narrow section 21C are approximately prismatic and, for example, generated by a line which follows an approximately V-shaped cross-section (see FIG. 1A/FIG. 3A). The boundary surface of the clamping jaw 21 generated or imagined in this way is, as illustrated in FIG. 2B, interrupted by two recesses 21D which are provided in the longitudinal direction between the two sections 21A, 21B and in the transverse direction on both sides along the narrow section 21C and extend up to the legs 13. Each of the sections 21A, 21B comprises two plane clamping flanks 23A, 23B, which are approximately at right angles to each other. Between the clamping flanks 23A, 23B, a continuously concavely curved mid-surface 23C is provided here, which continues over the sections 21A, 21B and the narrow section 21C in the lead-through direction.

[0032] On the upper side that faces away, each clamping part 10 forms a second clamping jaw 22 conjugate to the first clamping jaw which serves as a support for a line 2, 3.

[0033] As can be seen in FIG. 2A, the second clamping jaw 22 here has a clamping surface consisting of a concave central main surface 22A and two opposite smaller concave narrow surfaces 22B, 22C projecting at the front. The surfaces 22A, 22B, 22C of the second clamping jaw 22 are also generated by a line following an approximately V-shaped cross-section (see FIG. 1A/FIG. 3A) that is preferably identical but mirror-symmetrical to that of the clamping surfaces on the first jaw 21. The main surface 22A of the second clamping jaw 22 has two clamping flanks 24A, 24B, which, analogous to the clamping flanks 23A, 23B, are designed in a planar fashion with their end faces at approximately right angles to each other. Between the clamping flanks 24A, 24B there is also a connecting mid-surface 24C having a continuously concavely curved cross-section (see FIG. 3A) and extended at the end face in the lead-through direction by the narrow surfaces 22B, 22C. As can be seen further in FIG. 2, additional recesses 22D are provided on the upper side of the second clamping jaw 22 in the corner areas between the holding blocks 16 and the projections which form the narrow surfaces 22B, 22C and, on the rear side, the sections 21A, 21B, mirror-symmetrical to the longitudinal and transverse plane.

[0034] By means of the opposite mid-surfaces 23C, 24C, lines 3 with smaller diameters (see FIG. 1A above) can be clamped. The clamping flanks 23A, 23B or 24A, 24B, on the other hand, are used to clamp cables 2 with a larger diameter (see FIG. 1A in the middle/at the bottom).

[0035] FIG. 3A shows for illustration purposes a position of two clamping parts 10 plugged on top of each other, in which the clamping flanks 23A, 23B or 24A, 24B of the opposing clamping jaws 21 or 22 are only adjacent to each other and a free cross-section Q1 is left, which has a medium size compared to the larger cross-section for the lines 2 in FIG. 1A. In contrast, FIG. 3B shows a significantly reduced, minimum possible free cross-section Q2 for the intended smallest line diameter.

[0036] In particular through the recesses 21D, an attached clamping part 10 (shown hatched in FIG. 3A-3B) can be further inserted against the clamping part 10 below at right angles to the lead-through direction, since the projecting regions of the second clamping jaw 22 on the lower clamping part 10, in particular the clamping flanks 24A, 24B, can penetrate or plunge into the recesses 21D in order to further reduce the free cross-section of the receiving channel compared to a non-penetrating position, e.g. with a cross-section Q1, down to the minimum cross-section Q2. In the example shown here, the bottom-side clamping flanks 23A, 23B of the two sections 21A, 21B of the first clamping jaw 21 on the upper clamping part 10 also penetrate into the corner-side recesses 22D on the upper-side second clamping jaw 22 on the lower clamping part 10. This enables a minimum free cross-section Q2 (FIG. 3) and at the same time achieves a kind of interlocking or nesting of the cooperating opposing clamping jaws 21, 22, which further improves the tensile strength of the plug connection.

[0037] Inner end faces 21E provided on the first clamping jaw 21 which limit the receptacles 21D in the lead-through direction and interact with corresponding end abutment surfaces 22E of the second clamping jaw 22, contribute to this.

[0038] Between the end faces 21E and the flat surfaces of the two sections 21A, 21B, the clamping jaw 21 forms transition edges, here approximately at right angles, which—depending on the gap width between the end faces 21E and abutment surfaces 22E—can cause slight pinching or tilting of the sheathing of the lines 2, 3 and thus improve the fastening in the longitudinal direction of the cables 2, 3 if necessary. The same applies to the transition edges between the abutment surfaces 22E and the flat surfaces on the flanks 24A, 24B of the clamping jaw 22.

[0039] FIG. 4A-4B show the differently designed lower part 12, which has only one clamping jaw 22 on the upper side, which is essentially identical in design to the clamping jaw 22 on the clamping part 10 in order to interact with the conjugate clamping jaw 21 on the lower side of an attached clamping part 10 (see FIG. 1A-1D). Accordingly, compared to the clamping part 10, the lower part 12 has a main surface 22A with two clamping flanks 24A, 24B, two axially projecting narrow surfaces 22B, 22C as well as corner recesses 22D between the holding blocks 16 and the narrow surfaces 22B, 22C. The lower part 12 is designed with two protruding locking pins 30 to prevent rotation, for example on a mounting rail or the like, if the bottom part is attached to a support by means of a screw connection through the central screw opening 32. The clamping parts 10 and the lower part 12 according to FIG. 1-4 are designed symmetrically with respect to the vertical longitudinal center plane so that the installation direction is not important in order to simplify the installation. Concerning the fastening to a support, the teaching of WO 00/63600 is herewith incorporated by reference for shortening the present description.

[0040] Finally, it should be noted that the lower clamping jaw is designated here as the first clamping jaw 21 and the upper clamping jaw of clamping part 10 as the second clamping jaw 22, but the designation also applies vice versa. Furthermore, it is of course also conceivable that the design of the jaws 21, 22 could be reversed.

[0041] The example shows that the clamping parts in accordance with the invention can be used in a modular fashion and very flexibly according to the most varied requirements, especially for the construction of clamps in general, and of tension reliefs for energy chains in particular.

[0042] The system consists of only a small number of different parts, preferably only two components, namely a lower part and a single clamping part, both of which are suitable for inexpensive series production from plastic, e.g. as injection molded parts.

LIST OF REFERENCE SIGNS

FIG. 1A-4B

[0043] 1 clamp (or clamping system) [0044] 2, 3 supply lines [0045] 10 clamping part [0046] 12 lower part [0047] 13 leg [0048] 14, 15 toothed strips [0049] 16 holding block [0050] 21 first clamping jaw [0051] 21A, 21B partial surfaces [0052] 21C narrow surface [0053] 21D recess [0054] 22 second clamping jaw [0055] 22A main surface [0056] 22B, 22C narrow surfaces [0057] 22D recess [0058] 23A, 23B clamping flanks (of first clamping jaw) [0059] 23C mid-surface (of first clamping jaw) [0060] 24A, 24B clamping flanks (of second clamping jaw) [0061] 24C mid-surface (of second clamping jaw) [0062] 30 locking pin [0063] 32 screw hole [0064] Q1 free cross-section (medium-sized) [0065] Q2 minimum free cross-section