SEPARATOR FOR AN ENERGY CHAIN

Abstract

A separating web for an energy chain for arranging between two cross webs. The separating web has recesses for mounting a respective compartment base. Each recess is flanked by a rigid continuous support region on one side and by an insertion opening on the other side for inserting a compartment base, and each recess is provided with an elastic tongue element for partly closing the insertion opening and for securing the compartment base. According to the invention, the elastic tongue element extends from the insertion opening to the opposing support region. One end of the tongue element is connected to the edge of the insertion opening, and the other end is connected to the support region. The tongue element side facing away from the recess is equipped with a free area into which the elastic tongue element can be deflected when inserting and removing a compartment base.

Claims

1-12. (canceled)

13. At least one separator for an energy guiding chain comprising a plurality of pivotably interconnected chain links which each have two side plates, wherein at least one of the plurality of chain links comprises two transverse bars and defines a guide passage for at least one line, in which the at least one separator is arrangeable between the transverse bars and is arrestable at at least one of the transverse bars and at least one plate-like compartment bottom is arrangeable substantially perpendicularly to the at least one separator, wherein the at least one separator has a plurality of recesses in each of which the at least one compartment bottom is holdable, respectively, and wherein provided at a lateral end of each recess is a continuous rigid support region and at an opposite lateral end of each recess is a respective insertion opening to insert the at least one compartment bottom and wherein each respective insertion opening is provided with a respective resilient tongue element to partially close the respective insertion opening and to secure the at least one compartment bottom, wherein each respective tongue element extends substantially from the respective insertion opening to the support region of the at least one separator, wherein one end of each respective tongue element is connected to an edge of the respective insertion opening and an other end of each respective tongue element is connected to the support region, and wherein on a side of each respective tongue element that is facing away from the recess is a respective free space into which the respective tongue element is elastically deflectable upon insertion and removal of the at least one compartment bottom.

14. The at least one separator according to claim 13, wherein the at least one separator comprises plastic.

15. The at least one separator according to claim 14, wherein the at least one separator is in the form of a one-piece part.

16. The at least one separator according to claim 15, wherein the one end of each respective tongue element is integrally formed at the edge of the respective insertion opening and the other end of each respective tongue element is integrally formed at the support region.

17. The at least one separator according to claim 13, wherein each recess is defined by a respective delimiting wall, arranged opposite to the respective tongue element, which is adapted to an external contour of the at least one compartment bottom.

18. The at least one separator according to claim 13, wherein on a side of each respective tongue element that is facing towards the recess, the respective tongue element has a respective projecting nose.

19. The at least one separator according to claim 18, wherein the respective projecting nose on each respective tongue element is arranged near an inner end of the respective insertion opening.

20. The at least one separator according to claim 19, wherein when the at least one compartment bottom is inserted in one of the recesses, the respective projecting nose on the respective tongue element bears against the at least one compartment bottom under a prestressing in a region of a side of the at least one compartment bottom that is facing towards the respective insertion opening.

21. The at least one separator according to claim 13, wherein the respective insertion opening of each recess opens towards a same side of the at least one separator.

22. The at least one separator according to claim 13, wherein, in a longitudinal direction of the chain, a main dimension of the respective free space is larger than a corresponding main dimension of the respective recess.

23. The at least one separator according to claim 22, wherein, in the longitudinal direction of the chain, the main dimension of the respective free space is at least 60% of a dimension of the at least one separator.

24. The at least one separator according to claim 13 wherein, on a side of each respective tongue element that is facing towards the recess, the respective tongue element has a latching projection to secure the at least one compartment bottom in a direction transversely relative to a longitudinal direction of the chain.

25. An energy guiding chain comprising: a plurality of pivotably interconnected chain links which each have two side plates, wherein at least one of the plurality of chain links comprises two transverse bars and defines a guide passage for at least one line, a plurality of vertical separators which are arranged between the transverse bars and are arrested at at least one of the transverse bars, wherein each of the vertical separators has a plurality of recesses, a plurality of horizontal plate-like compartment bottoms which are each holdable in one of the recesses of each of the vertical separators, respectively, wherein provided at a lateral end of each recess of each vertical separator is a continuous rigid support region and at an opposite lateral end of each recess of each vertical separator is a respective insertion opening to insert the respective compartment bottom and wherein each respective insertion opening is provided with a respective resilient tongue element to partially close the respective insertion opening and to secure the respective compartment bottom, and wherein at least one vertical separator of the plurality of vertical separators further comprises each respective tongue element extends substantially from the respective insertion opening to the support region of the at least one vertical separator, one end of each respective tongue element is connected to an edge of the respective insertion opening and another end to the support region, and on a side of each respective tongue element that is facing away from the recess is a respective free space into which the respective tongue element is elastically deflectable upon insertion and removal of one of the compartment bottoms.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] The invention is illustrated by way of example in the drawing and is described in detail hereinafter with reference to the drawing in which:

[0021] FIG. 1 shows a section through an embodiment of an energy guiding chain;

[0022] FIG. 2 shows a section along line II-II in FIG. 1;

[0023] FIG. 3 shows a view of the separator shown in isolation;

[0024] FIG. 4 shows a perspective view of the separator of FIG. 3;

[0025] FIG. 5 shows a similar view of the separator to FIG. 3, illustrating insertion of the compartment bottoms;

[0026] FIG. 6 shows a perspective view of FIG. 5;

[0027] FIG. 7 shows a view of the separator with completely inserted compartment bottoms; and

[0028] FIG. 8 shows a perspective view of FIG. 7.

DETAILED DESCRIPTION OF THE DRAWINGS

[0029] FIG. 1 of the drawing is a cross-section through an embodiment of an energy guiding chain 1 according to the invention in the region of a chain link. Each chain link has two side plates 2 and 3 connected together by two transverse bars, more specifically by an upper transverse bar 4 and a lower transverse bar 5. The side plates 2 and 3 and the transverse bars 4 and 5 form a guide passage 7 for receiving and guiding flexible lines like for example cables, hoses and the like. The transverse bars 4, 5 can be so-called opening bars (here equivalent to transverse bar) or for example can be produced in one piece with a side plate 2, 3. An opening bar can be mounted for example pivotably to a side plate 2, 3 and can be latchable to the other side plate 2, 3 or can be releasably latched to both side plates 2, 3.

[0030] For internal division it is known, as shown in FIG. 1, to use vertical separators 7 and horizontal compartment bottoms 8. The vertical separators are disposed between the transverse bars 4 and 5 and are held thereto. The horizontal compartment bottoms 8 which are of a plate-like configuration and are arranged parallel to the transverse bars 4 and 5 are held in recesses 9 in the separators 7, as can be seen from FIGS. 2 and 5 to 8.

[0031] Each separator 7 has two holding regions for respective holding purposes at the respective transverse bar 4, 5. In the illustrated examples the holding regions are a holding foot 18 and a holding head 19. The holding foot 18 is designed for arresting or latching at a transverse bar 5, in particular also to prevent displacement in the transverse direction along the transverse bar 5, as shown in FIG. 2. In the installed state of the separator 7 the holding head 19 lies held in the longitudinal direction at the transverse bar 4, without latching. If the energy guiding chain has opening bars it is advantageous if the separator 7 is so installed that the holding head 19 bears against an opening bar so that the opening bar can be opened in uncomplicated fashion for maintenance purposes. The holding foot 18 and the holding head 19 hold the respective separator 7 in the installation state, that is to say with the chain link closed in the longitudinal direction captively at the oppositely disposed transverse bars 4, 5.

[0032] Each separator 7 has a plate-like central region which has the recesses 9 in the form of through openings extending continuously transversely relative to the main plane. The width direction and the height direction of the separator 7 lie in the main plane of the separator 7 (see FIG. 2/FIG. 3), wherein the width direction corresponds to the longitudinal direction of the energy guiding chain 1 and the height direction corresponds to the direction perpendicular thereto and perpendicular to the transverse direction. Provided at one of the lateral ends of the recesses 9 is a continuous vertical rigid support region 10 which extends over the entire height of the separator 7 and which is substantially not flexible. Provided at the opposite lateral end of the respective recess 9 is a respective insertion opening 11 which is connected to the recess 9 and which serves for insertion of a compartment bottom 8. The lateral insertion openings 11 are respectively combined with a resilient tongue element 12 which partially closes the respective insertion opening 11 and provides that the respective inserted compartment bottom 8, after lateral insertion through the insertion openings 11, fits tautly in the respective recess 9 in the separators 7.

[0033] The resilient tongue element 12 extends from the insertion opening 11 to the opposite rigid support region 10 of the separator 7, wherein the one end of the tongue element 12 is connected to the edge of the respective insertion opening 11 and the other end is connected in one piece to the rigid support region 10.

[0034] Provided on that side of the tongue element 12 that is remote from the recess 9 is a free space 13, into which the resilient tongue element 12 can elastically deflect upon insertion and removal of the respective compartment bottom 8, and which in the inserted state of the respective compartment bottom 8 holds same fixedly in the recess 9.

[0035] The separators 7 are made from elastically deformable highly stable plastic. In that way the separators can each be in the form of a one-piece portion, wherein the elastic tongue elements 12 can also be formed integrally directly at the material of the separator 7. The one end of the respective tongue element 12 is formed at the edge of the respective insertion opening 11 and the other end at the vertical support region 10. The separators 7 can be produced in particular in an injection moulding method.

[0036] The delimiting wall 14 of the respective recess 9, that is opposite to the resilient tongue element 12, is adapted to the external contour of the plate-shaped compartment bottom 8 to be inserted so that the compartment bottoms fit firmly and securely in the recesses 9 and are stably and non-losably secured in the recesses by means of the resilient tongue elements 12.

[0037] In the embodiment illustrated in the drawing the resilient tongue elements 12 are disposed above the compartment bottoms 8 to be inserted. It will be appreciated that alternatively it would also be possible to reverse the relative position of the tongue elements 12 with respect to the compartment bottoms 8, especially as when the energy guiding chain changes direction in the direction-changing arc and moves into the opposite direction, up and down are interchanged. In the illustrated embodiment the resilient tongue elements 12 are arranged at the side of the respective recess 9, that is towards the holding head 19.

[0038] The resilient tongue elements 12 each have on the side towards the respective recess 9 a projecting nose 15 which additionally stabilises the inserted compartment bottoms in the recesses.

[0039] The projecting noses 15 provided on the tongue elements 12 are arranged near the inner end of the insertion opening 11 so that the fit of the compartment bottoms 8 in the recesses 9 is additionally secured thereby so that this acts against the compartment bottoms 8 accidentally slipping out of the recesses 9 in the longitudinal direction of the energy guiding chain 1. That additional security is afforded in particular by virtue of the fact that the projecting nose 15 bears against the compartment bottom 8 under a prestressing in the region of the end of the compartment bottom 8, that is towards the insertion opening 11.

[0040] As can be particularly clearly seen from FIG. 3 the tongue element on the side towards the recess 9 has a latching projection 16 which can hold an inserted compartment bottom 8 in a direction transversely relative to the longitudinal direction of the chain or in a direction perpendicular to the main plane of the separator 7. What is essential in regard to the described energy guiding chain according to the invention is the novel configuration of the separators which serve to subdivide the guide passage 6 and form a particularly reliable holding action for the compartment bottoms 8 extending perpendicularly to the separators 7.

[0041] Insertion of the compartment bottoms 8 into the recesses 9 of the separators 7 can be effected without using tools in a very simple fashion by the compartment bottoms 8 being pressed through the insertion openings 11 into the recesses 9 in the separators 7 without the entire separator 7 having to be elastically bent. In that way it is possible to use a very strong stable material for the separators.

[0042] Removal of the compartment bottoms 8 is also very simple and can be effected without the use of tools by the compartment bottoms 8 being simply pulled by hand out of the recesses 9 through the insertion openings 11, in which case only the respective resilient tongue element 12 is deformed and deflects back into the free space 13 behind it.

[0043] The insertion openings 11 are displaced upwardly with respect to the main axis of the recesses 9 so that the insertion opening 11 opens eccentrically into the recess 9 and thereby forms a latching edge 17. The latching edge 17 cooperates with the latching nose 15 to prevent the compartment bottoms 8 from accidentally slipping out of the recesses 9 in the longitudinal direction of the energy guiding chain 1. The insertion openings 11 steadily taper towards the recesses 9 and involve a tilted orientation inclinedly upwardly at an angle of about 10°-25° to the horizontal. This facilitates fitment of the compartment bottoms from a predetermined side of the energy guiding chain 1, wherein the transverse bar 4, 5 is in the form of an opening bar at least at that side.

[0044] The terms vertical and horizontal are not to be interpreted restrictively in the present case, but equivalent to parallel to the longitudinal direction of the chain (=horizontal) or perpendicular to the longitudinal direction of the chain (=vertical) of the energy guiding chain.

LIST OF REFERENCES

[0045] 1 energy guiding chain [0046] 2 side plate [0047] 3 side plate [0048] 4 upper transverse bar [0049] 5 lower transverse bar [0050] 6 guide passage [0051] 7 separators [0052] 8 compartment bottoms [0053] 9 recesses (in separators 7) [0054] 10 support region [0055] 11 insertion opening [0056] 12 resilient tongue element [0057] 13 free space [0058] 14 delimiting wall [0059] 15 projecting nose [0060] 16 latching projection [0061] 17 latching edge [0062] 18 holding foot [0063] 19 holding head