EP1676050A1

EP1676050A1 - Link plate, chain link, energy guiding chain, and intermediate piece for an energy guiding chain, provided with locking means coupled by torsion for connecting a flight to a link plate

Info

Publication number: EP1676050A1
Application number: EP04765734A
Authority: EP
Inventors: Herbert Wehler; Erwin Eckl; Heiner Samen
Original assignee: Kabelschlepp GmbH
Current assignee: Kabelschlepp GmbH
Priority date: 2003-10-08
Filing date: 2004-10-01
Publication date: 2006-07-05
Also published as: US7634900B2; US20080256922A1; CN100580273C; TW200513606A; TWI327196B; CN1864017A; KR20060116811A; JP2007508513A; WO2005036025A1; DE10346653A1

Abstract

The aim of the invention is to simplify the creation of a connection between a flight (14) and a link plate for a chain link (1) of an energy guiding chain. To this end, the link plate comprises a fixing means (4) that is defined in such a way as to detachably connect the link plate to a flight. Said fixing means comprises at least one locking means (5). Furthermore, at least one torsion element (6) is provided. Said torsion element is coupled to the fixing means and to a wall of the link plate in such a way that it can be deflected essentially about a longitudinal axis of the link plate. According to the invention, the at least one torsion element is essentially twisted about a longitudinal axis of the link plate, at least in order to release a flight. The inventive embodiment of a link plate enables a secure and reliable connection to be created between the link plate and a flight.

Description

Chain link, chain link and energy chain, as well as intermediate piece for an energy chain, with torsion-coupled locking means for connecting the cross bar and chain link

The invention relates to a link plate of an energy chain, a chain link of an energy chain, an energy chain and an intermediate piece for an energy chain.

Energy supply chains are often used when a movable component, in particular a component that essentially moves on predetermined tracks, has to be supplied, for example with electricity, water, consumables or the like. In this case, lines must be routed from a fixed point to the component in such a way that the component can move along its predetermined movement paths without the lines being damaged.

An energy guide chain consists of chain links which are connected to one another in an articulated manner, the energy guide chain being moved along a predetermined path. Here, the lines in the energy chain are practically routed in a predetermined manner, so that the lines are exposed to very little, if any, wear.

A chain link has two link plates which define the lateral boundaries of the chain link and at least one crossbar which forms the upper and / or lower limit of the chain link. The chain links are designed so that one chain link can be connected to at least one adjacent chain link and / or at least one end piece in order to build up the energy chain. In most cases, this connection takes place via corresponding connecting means, which are formed correspondingly in adjacent link plates. Chain link and crossbar can be formed in one piece, for example made of a plastic, in particular injection molded, but it is just as common to design crossbars and chain links so that they can be releasably connected to one another. A detachable connection of the chain link with at least one crossbar has the advantage that access to the lines is easy, so that insertion or removal of the lines from the chain and possible access to the lines for maintenance purposes is easily possible.

Various possibilities are known from the prior art for forming a releasable connection between the cross bar and the chain link. From WO 00/63586 AI, for example, a snap connection between the cross bar and chain link is known, which can be released by hand without the use of tools. Such a connection can easily lead to an unwanted loosening of the connection.

From WO 98/34040 AI an energy supply chain is known in which the crossbar has end sections for connecting the crossbar to the link plate, which enables pivoting of the crossbar about pivot axes in both end sections.

From US 4,807,432 an energy guide chain is known, in which one cross bar per chain link is detachably connected to the link plates. Here, the connection to both link plates is provided by locking lugs, which are each formed on the crossbars. The disadvantage here is that the width of the chain links, that is, the length of the crossbars, must be known already when the crossbars are manufactured, since the latching lugs must be formed when the crossbars are formed. Proceeding from this, it is an object of the invention to provide a chain link, a chain link, an energy guide chain and a fastening means for an energy guide chain, which enables a connection between cross bar and chain link which can be produced in a simple manner and which is nevertheless so firm that unintentional opening of the Connection is excluded.

This object is achieved by a chain link with the features of claim 1, a chain link with the features of claim 13, an energy chain with the features of claim 21 and an intermediate piece with the features of claim 22.

For a simplified manner of establishing a connection between a cross bar and a chain link for a chain link of an energy guiding chain, it is proposed that the chain link have a fastening means which is suitable and intended for the releasable connection of the chain link to a cross link. The fastening means has at least one locking means. Furthermore, at least one torsion element is provided. This is connected to the fastening means and a wall of the link plate in such a way that it can be deflected substantially about a longitudinal axis of the link plate. At least to release a crossbar, the at least one torsion element is twisted essentially around a longitudinal axis of the link plate. This configuration of a link plate according to the invention enables a secure and reliable connection of the link plate to a crossbar.

In a preferred embodiment of the chain link, the fastening element does not protrude beyond the edge of the chain link, so that an inadvertent loosening of a crossbar connected to the chain link is avoided. Safety can also be further increased by the fact that the upper side of the crosspiece is essentially flush with the fastening element or lies above the fastening means. With one Design of the link plate, the fastening means preferably has a tool engagement area into which a tool, for. B. a screwdriver, can be inserted. Using the tool, a torsional moment is introduced into the torsion element via the fastening means. If the torsional moment is sufficiently high, the fastening element is pivoted so that the crossbar is released. The fastener is automatically returned to its rest position by the torsion element when the crossbar has been removed. The usable cross section of an energy chain is also determined by the distance between the link plates. In order to design the usable cross section of an energy guiding chain as effectively as possible, it is proposed according to an advantageous embodiment of the chain link that the fastening means is arranged in a receptacle which extends at least from an inner wall in the direction of an outer wall of the chain link. The receptacle and the fastening means are preferably dimensioned such that the fastening means is essentially completely integrated in the receptacle. This is not absolutely necessary. There is also the possibility that at least one sealing means is formed above the inner wall. This is not critical if the locking means protrudes into the crossbar.

The receptacle in the wall of the link plate can also be designed in the form of an opening. In such an embodiment, fastening means and the chain link are made in several pieces. The fastener is preferably non-detachably connected to the link plate. It has corresponding fasteners which enable the fastener to be fastened to the chain link in the receptacle. This can be, for example, barbs formed in the wall of the link plate in the area of the receptacle, which interact with appropriately designed means of the fastening means, hu concrete It is proposed that torsion elements are provided on both sides of the fastening means, which are designed accordingly, so that these torsion elements partially protrude into the gaps formed in the wall of the link plate. The multi-piece design of the link plate has the advantage that, if necessary, different fastening means can be used depending on the intended use. For example, one type of fastener can be used for different link plates if these link plates have receptacles of essentially the same design. The fastening means can also be connected to the receptacle in a positive and / or non-positive manner.

In order to avoid increased assembly effort which occurs when handling multi-piece link plates, it is proposed according to yet another advantageous embodiment of the link plate according to the invention that the fastening means and the link plate are formed in one piece. Such a one-piece design is particularly advantageous if the link plate is made of a plastic.

The wall and or the at least one fastening means are preferably made of at least one plastic, at least one elastomeric plastic, a renewable raw material and or metal.For example, there is the possibility that the wall and the fastening means are made of one or more plastics, while the at least one Torsion element is formed from a metal. Such a configuration is particularly advantageous if there is a risk of the torsion element breaking in the case of relatively thin walls of the link plate.

A chain link is known from WO 98/34050, which can be connected to a crossbar in such a way that the crossbar can be pivoted about a longitudinal axis of the chain link. This has the advantage that, in the case of a chain link, the crossbar of one chain link while maintaining the connection to the other Chain link can be released. This ensures that the crossbar is not lost. In order to avoid the loss of a crossbar, it is proposed according to a further advantageous embodiment of the chain link according to the invention that at least one swivel axis receiver is designed to receive a swivel axis of a crossbar and / or an intermediate piece. The swivel axis holder and the fastening means represent functional units which are independent of one another, so that in the chain link according to the invention there is the possibility of connecting the chain link either with crossbars which are pivotable or not pivotable.

In order to substantially prevent a relative movement of the crossbar in the direction essentially transverse to the longitudinal axis of the chain link when the link plate is connected to a cross bar, cross locking means are provided. This measure ensures that, in the case of an energy guide chain which is composed of chain links which have at least one chain link according to the invention, during operation of the energy guide chain, the crossbar does not detach from the chain link according to the invention.

To further increase safety, it is proposed that the chain link according to the invention have longitudinal locking means which, when the chain link is connected to a crossbar, substantially prevent relative movement of the crossbar in a direction essentially parallel to the longitudinal axis of the chain link.

It has been explained above that the torsion element is subjected to a torsional moment in order to release a crossbar from the invention

Allow chain link. In order to prevent the applied torsional moment from exceeding a maximum permissible torsional moment, it is proposed that means for limiting a deflection of the fastening means are provided.

According to a further idea according to the invention, a chain link for an energy guide chain with two chain links, connected to one another by at least one transverse web, is proposed that at least one chain link is designed according to one of Claims 1 to 11.

According to an advantageous embodiment of the chain link, it is proposed that a crossbar interacts with at least one fastening means. It is advantageous here if at least one locking means interacts with a locking receptacle of the crossbar. An embodiment of the chain link is preferred in which the locking means and locking receptacle can be connected to one another by a force fit and / or a form fit. The locking receptacle is preferably formed in an end face of the crossbar. A corresponding profiling of the crossbar can also be realized in the locking device. The crossbar can then be designed as a profile. An embodiment of the crossbar made of a metal or a plastic is preferred. The crossbar can be deflected from an extruded semi-finished product with the appropriate profile design.

In order to ensure that an unintentional release of a crossbar from the chain link does not take place or when forces are exerted during the operation of an energy chain with a chain link according to the invention, it is proposed that a minimum force is required to release the crossbar and fastening means, in particular locking means and locking receptacle , This minimum force can have different values depending on the design of the chain link and the use of the chain link. One is preferred Design of the chain link, in which the minimum force is not so high that a manual opening of the crossbar by an operator is possible.

According to yet another advantageous embodiment of the chain link according to the invention, it is proposed that longitudinal and or cross-locking receptacles are formed on the crossbar, which can be brought into engagement with the longitudinal and / or cross-locking means, in a form-fitting and or non-positive manner. In order to realize a pivotable connection of a cross bar to a chain link on the chain link, it is proposed that at least one pivoting means is formed on at least one connection side between the cross link and chain link on the cross link, which can be brought into engagement with the pivot axis receptacle.

Alternatively or additionally, the chain link can also be designed in such a way that at least one intermediate piece is provided, one side of which receives the connecting side of the crossbar and the other side has at least one pivoting means which can be brought into engagement with the pivoting axis receptacle of the chain link.

The chain link can also be an end link for an energy chain. Such an end link has two link plates, each of which can have only one joint area. In addition, the chain link can have a device by means of which the end link can be connected to a fixation on the stationary of the movable connection.

After yet another inventive thought, a

Energy chain with at least one chain link according to one of claims 13 to 20 proposed. Such an energy chain is characterized in that it is easy and simple to manufacture. Beyond that unintentional loosening of the crossbars from the link plates safely and reliably avoided.

According to yet another inventive concept, a fastening means which is suitable and intended for the releasable connection of the chain link to a crossbar is proposed, the fastening means having at least one locking element connected to at least one torsion element. The at least one torsion element can be connected to a wall of the chain link, so that the fastening means can be deflected substantially about a longitudinal axis of the chain link.

An embodiment of the fastening means is preferred in which the torsion element is designed as at least one torsion bar. The term rod contains different cross-sectional shapes of the torsion element. The torsion element can have a rectangular cross section. Substantially circular cross sections of the torsion element are also possible. The torsion element can be an integral part of the fastening means. The fastening means can also be designed in several parts, the locking element forming a part, the at least one torsion element forming a further part, and the locking means being preferably non-detachably connected to the torsion element.

According to a preferred embodiment of the fastening means, it is proposed that the locking means be arranged between two torsion elements.

Further details and advantages of the invention are explained on the basis of the exemplary embodiments illustrated in the drawing, without the subject matter of the invention being restricted to these specific exemplary embodiments. Show it: 1 is a chain link in a front view,

2 is a sectional view along the section line A-A. 1 FIG. 3 is a perspective view from the front of an area of a link plate with a fastener,

3 in a perspective view from behind, FIG. 5 a section of a chain link in connection with a crossbar,

6 is a perspective view of an intermediate piece,

7 shows the intermediate piece according to FIG. 6 in a perspective view from below,

8 shows a section of a link plate with a crossbar which is connected to an intermediate piece,

Fig. 9 is a perspective view of the crossbar of FIG. 8 in the pivoted position.

Fig. 1 shows an embodiment of a link plate 1 for a chain link of an energy chain. The chain link 1 has articulated areas 2, 3 formed opposite one another. The articulated areas 2, 3 are preferably complementary to one another, so that link plates can be connected to one another in an articulated manner. There are numerous possibilities for the design of the joint regions 2, 3, which the person skilled in the art can fall back on. The chain link 1 has a fastening means 4 for the releasable connection of the chain link to a crossbar. The design of the fastening means can be seen in particular from FIGS. 3 and 4. The fastening means 4 has a locking means 5. Furthermore, the fastening means 4 has two torsion elements 6, which are connected to the link plate. In the exemplary embodiment shown, the torsion elements 6 are essentially rectangular in cross section. They are connected on the one hand to the fastening means 4 and on the other hand to an edge area of a receptacle 7. The receptacle 7, in which the fastening means 4 is located, extends from an inner wall 8 in the direction of an outer wall 9 of the link plate. The receptacle 4 also extends from an edge 10 in the direction of the opposite edge of the tab. In the exemplary embodiment shown, the fastening means 4 is formed in one piece with the link plate 1. The fastening means is connected to the edge region of the receptacle 4 via the torsion elements 6. FIG. 4 shows that the fastening means 4 is detached from the chain link by an essentially U-shaped free space 11. A tool engagement area 12 is provided in the upper part of the fastening means 4. In the exemplary embodiment shown, the tool engagement area is essentially rectangular in cross section, so that, for example, a screwdriver can be inserted into the tool engagement area. By pivoting the tool, which is not shown, the fastening means 4 is essentially deflected about a longitudinal axis of the link plate 1. In Figure 3, the deflection movement of the fastener is shown by the arrow A when a crossbar, not shown, is to be released.

The locking means 5 has an insertion bevel 13 which extends in the direction of the inner wall 8. There is a free space below the locking means 5 provided, in which an end portion of a crosspiece engages. During the formation of a connection between the link plate 1 and a crosspiece, a force is exerted on the crosspiece, for example, which extends transversely to the longitudinal direction of the plate. The edge of the crossbar slides on the insertion slope 13, whereby the fastener 4 is pivoted. The locking means 5 pivots back when it engages in a cavity formed in the end face of the crossbar. Fig. 5 shows a connection of a link plate 1 with a cross bar 14. The cross bar 14 is designed as a longitudinal profile. It has a cavity 15 which extends in the longitudinal direction of the crossbar. This is not absolutely necessary. It is sufficient if the cavity 15 is dimensioned so that the locking element 5 can engage in it.

A stop 16 (FIG. 1) is provided below the fastening means in order to limit the pivoting movement of the fastening means, in particular when dismantling the crossbar from the chain link.

In the exemplary embodiment shown, the torsion elements 6 are essentially rectangular in cross section. This is not absolutely necessary. There is the possibility that the torsion elements also have different and different cross sections or shapes. There is also the possibility that the fastening element is connected to the chain link via a plurality of torsion elements 6.

The transverse web 15 shown in FIG. 5 has openings 17 at its end regions. In the assembled state, pins 18 pass through the openings 17. The pins 18 are arranged on projections 19. The projections 19 are substantially perpendicular to the inner wall 8. The projections 19 are profiled. They engage in corresponding areas 20 of the crosspiece 14. One is preferred Design in which the regions 20 form a positive or non-positive connection with the projections 19.

The pegs 18 and the projections 19 form transverse or longitudinal locking means with the correspondingly designed transverse webs. The transverse locking means essentially prevents relative movement of the crossbar in the direction essentially transverse to the longitudinal axis of the chain link when the link plate is connected to a crosspiece. The longitudinal locking means are designed in such a way that when the link plate is connected to a cross bar, they essentially prevent a relative movement of the cross bar in a direction essentially parallel to the longitudinal axis of the link plate.

The link plate also has a pivot axis receptacle 21 which is suitable and intended for receiving a pivot axis of a crosspiece and / or an intermediate piece 22. The configuration of an intermediate piece is shown in FIGS. 6 and 7. The intermediate piece 22 has two hinge pins 23. The hinge pins 23 are spaced apart. They are suitable for being inserted into corresponding hinge pin receptacles of the pivot axle receptacle 21, the connection between the chain link and the intermediate piece being designed in such a way that the intermediate piece 22 cannot be detached from the chain link or only when an increased force is applied. The distance between the hinge pins 23 is dimensioned such that the possibility of movement of the fastening means 4 is not hindered. The hinge pins 23 are connected to connecting elements 24. The connecting element 24 has a projection 25 which engages in a correspondingly designed recess 28 in the crosspiece 14. In addition, each connecting element 24 has a wrap-around 26 which encompasses the longitudinal edge region 27 of the transverse web 14. The connecting elements 24 are connected to one another via a web 29. 8 and 9 show the intermediate piece 22 in connection with a cross bar 14 which is connected to a chain link.

The projections 25 of the intermediate piece 22 engage in the recesses 28 of the crossbar 14. The wraps 26 encompass the longitudinal edge regions 27 of the crossbar 14. The hinge pins 23 are arranged in the corresponding recesses of the pivot axis holder 21. From the illustration in FIG. 8 it can further be seen that the pins 18 extend through the openings 17. The pins 18 are designed such that when the crossbar 14 is pivoted it does not hinder the pivoting process. 9, the crossbar is shown in a pivoted position.

LIST OF REFERENCE NUMBERS

Chain link Articulated area Articulated area Fastening means Locking element Torsion element Intake inner wall Outer wall Edge Free space Tool engagement area Entry slope Cross bar

cavity

attack

perforation

spigot

head Start

Area

Schwenkachsenaufhahme

connecting piece

hinge pins

connecting element

head Start

throwing

Longitudinal edge area

recess

web

Claims

claims

1. chain link (1) for a chain link of an energy chain with at least one fastening means (4) which is suitable and intended for the releasable connection of the chain link (1) to a crossbar (14), the fastening means (4) having at least one locking means (5 ), and at least one torsion element (6) is provided, which is connected to the fastening means (4) and a wall of the chain link (1) in such a way that it can be deflected substantially about a longitudinal axis of the chain link (1).

2. chain link (1) according to claim 1, characterized in that the fastening means (4) is arranged in a receptacle (7) formed in the wall, which is at least from an inner wall (8) towards an outer wall (9) of the chain link (1) extends.

3. chain link according to claim 1 or 2, characterized in that fastening means (4) and the chain link (1) are integrally formed.

4. Chain link according to claim 1 or 2, characterized in that fastening means (4) and the chain link (1) are made in several pieces.

5. Chain link according to claim 4, characterized in that the fastening means (4) is releasably connectable to the receptacle (7), preferably can be latched, positively and / or non-positively connected.

6. Chain link according to one of the preceding claims, characterized in that the torsion element (6) is designed as at least one torsion bar.

7. Chain link according to one of the preceding claims, characterized in that the wall and or the at least one fastening means are formed from at least one plastic, preferably an elastomeric plastic, a renewable raw material and or metal.

8. Chain link according to one of the preceding claims, characterized in that at least one swivel axis receptacle is designed to receive a swivel axis of a crosspiece and / or an intermediate piece.

9. Chain link according to one of the preceding claims, characterized in that cross locking means are formed which, when the link plate is connected to a cross bar, substantially prevent a relative movement of the cross bar in a direction substantially transverse to the longitudinal axis of the link plate.

10. Chain link according to one of the preceding claims, characterized in that longitudinal locking means are formed which substantially prevent a relative movement of the cross link in a direction substantially parallel to the longitudinal axis of the link plate when the link plate is connected to a cross bar.

11. Chain link according to one of the preceding claims, characterized in that means for limiting the deflection are formed which limit the deflection of the fastening means.

12. Chain link according to one of the preceding claims, characterized in that the fastening means (4) has at least one tool engagement area (12).

13. Chain link for an energy chain with two link plates which are connected to one another by at least one crossbar (14), at least one link plate being designed according to one of claims 1 to 12

14. Chain link according to claim 13, characterized in that a crossbar (14) cooperates with at least one fastening means (4).

15. Chain link according to claim 14, characterized in that at least one locking means (5) cooperates with a locking receptacle of the crossbar (14).

16. Chain link according to claim 15, characterized in that the locking means and locking receptacle can be connected to one another by a force fit and / or a form fit.

17. Chain link according to one of claims 13 to 16, characterized by a minimum force for releasing the crossbar and fastening means, in particular locking means and locking receptacle.

18. Chain link according to one or more of the preceding claims 13 to 17, characterized in that longitudinal and or cross-locking receptacles are formed on the crossbar, which can be brought into engagement with the longitudinal and or cross-locking means, in positive engagement and / or in positive engagement.

19. Chain link according to one of claims 13 to 18, characterized in that at least one pivot means is formed on at least one connecting side between the cross bar and chain link on the cross bar, which can be brought into engagement with the pivot axis receptacle.

20. Chain link according to one of claims 13 to 19, characterized in that at least one intermediate piece is provided, one side of which receives the connecting side of the crossbar and the other side has at least one pivoting means which can be brought into engagement with the pivoting axis receptacle of the chain link.

21. Energy chain comprising at least one chain link according to one of claims 13 to 20.

22. Fastening means which is suitable and intended for the releasable connection of the chain link to a crossbar, wherein the fastening means has at least one locking means connected to at least one torsion element, wherein the at least one torsion element can be connected to a wall of the chain link in such a way that it essentially extends by one Longitudinal axis of the link plate can be deflected.

23. Fastening device according to claim 22, characterized in that the torsion element is designed as at least one torsion bar.

24. Fastening means according to claim 22 or 23, characterized in that the locking means is arranged between two torsion elements.