EP1500747A1 - Supported energy absorbing structure - Google Patents

Abstract

An alpine safety barrier consists of an upright net at that is presented transverse to the anticipated direction from which falling objects may arrive. The net is suspended between a series of upright posts in-line. The posts are in turn retained by a horizontal array of equidistantly spaced cables (7) that converge after the outer posts into a ground anchorage point (8). The post upper end are linked by cable (6) to anchorage points (9) uphill.

Description

The invention relates to a supporting Energy absorbing structure for flexible protective structures against Rockfall, felling, avalanches or the like after the Preamble of claim 1.

Such an energy absorbing structure is known from EP-A 484 563 known.

It is opposite to this known energy absorbing structure Technical object of the present invention, a efficient energy reduction of protective barriers against To reach rockfall, felling, avalanches, or the like, where possible, smaller overall system deformations and a smaller dimensioning of elements of the intercept, Connection and support structure and their anchoring with the To reach underground.

The solution to this problem is provided by the features of Claim 1.

This will u.a. achieved that the interception structure after Assembly of the support structure like a curtain and pulled up can be, what the assembly of the overall arrangement considerably simplified.

The invention particularly relates to a supporting Energy absorbing structure for flexible protective structures against falling rocks, felling, avalanches or the like, the integrated directly into the interception structure of the protective barrier is, so much of the energy input, introduced by a falling, rolling or jumping Rock body or the like already by the combination Capture structure and supporting energy absorbing structure can be reduced.

The invention preferably provides that in addition Connecting elements such as steel cables or the like via an entire field length or multiple fields up to the total length of the protective barrier construction in certain Distances to the carrying ropes (edge ropes) approximately parallel to be integrated into the interception structure. To do this the fasteners either directly with the used Interception structure (for example: ring network, omega network or the like) and / or associated with their braid. These Connection can be made via conventional fasteners, such as For example: terminals, shackles or the like are generated, or For example, the fasteners may be connected to the interception structure (e.g. Ring network, omega network or the like) and / or their Braid pad sewn or looped. That's it not necessary, all stitches or ring elements or Similar to the scavenging structure in the compound involve. It is recommended, however, one over the entire field length or installation length constant connection of the Abfangstruktur and / or their braid with the used fasteners without larger Regions of the scaffold of this compound excluded. Only when guiding the fasteners it is recommended to use the elements of the support structure Connection of the supporting energy absorbing structure in the Area of the support structure with the interception structure for a small area does not perform to freedom of movement the capture structure is not affected.

The number of fasteners used, called in a further consequence middle ropes, and their distance from the support cables is the Schutzverbauung used, or adapt their energy intake class.
If the middle ropes are guided over only one field of the protective structure, they are fastened either directly to elements of the support structure in combination with energy absorbing elements or guided on the support structure via guide elements (eg: shackle, guide saddle or the like), which in turn can be supported by energy absorbing elements and directly in combination with energy absorbing elements connected to the ground (by means of rock anchors or the like).

In a Mittelseilführung over several fields, the Middle ropes over guide elements (for example: shackles, Guide saddle or the like), which also with Energieabsorbierungselementen may be equipped at the Support structure led into the neighboring field and there again connected to the interception structure in the manner mentioned above. The final attachment of the middle ropes takes place as in Installation same over each only one field length. At a Mittelseilführung over several fields but can also on a Guiding the middle ropes in the area of individual carriers of the Support structure are omitted, so that e.g. a middle rope without intermediate guidance over elements of the support structure over two or more field lengths associated with the interception structure.

1) Durch Kombination der unterstützenden Energieabsorbierungsstruktur mit der Abfangstruktur und/oder deren Geflechtsauflage über die gesamte Feldlänge (bzw. Verbaulänge) und eine (für den erwarteten Energieeintrag) günstig gewählte Anzahl von Mittelseilen und dementsprechend gewählten Abständen der eingebauten Mittelseile zu den Tragseilen, ist die Abfangstruktur der Schutzverbauung über deren gesamte Fläche durch die unterstützende Energieabsorbierungsstruktur gleichmäßig (symmetrisch) unterstützt.

2) Da im Einschlagbereich eines Gesteinskörpers oder ähnlichem in die Schutzverbauung die größte Systemverformung (aufgrund der Elastizität der verwendeten Abfangstruktur) entsteht, werden die Mittelseile, die diesen Bereich abdecken sofort mit Zugkräften belastet und können diese sofort an die mit ihnen verbundenen Energieabsorbierungselemente weitergeben. So werden durch einen raschen Energieabbau sämtliche Systemkomponenten (vor allem aber die Verbindungsstruktur) wesentlich entlastet.

3) Bei sehr hoch erwarteten Systemverformungen (bis 6 m) können Energieabsorbierungselemente zum Einsatz gebracht werden, die schon bei geringer Kraftwirkung ausgelöst werden, dafür aber große Verformungen zulassen bzw. können derzeit verwendete Energieabsorbierungselemente in Serie geschaltet werden. So kann Energie über einen längeren Weg abgebaut werden, ohne dass die Funktion des Gesamtsystems (z.B.: Erhaltung einer gewissen Restnutzhöhe nach einen Einschlag) dadurch negativ beeinflusst wird.

4) Ganz im Gegenteil wird durch die Entlastung der Verbindungsstruktur (Tragseile und Rückhalteseile), die in den meisten Fällen durch den Einbau von Energieabsorbierungselemente unterstützt wird, das Erreichen einer vorgegebenen Restnutzhöhe wesentlich verbessert.

5) Aufgrund der sofortigen Bremswirkung und der durch die Kombination der unterstützenden Energieabsorbierungsstruktur mit der Abfangstruktur entstehenden Versteifung der Abfangstruktur, wird eine wesentliche Verringerung der Gesamtsystemverformung erreicht, das heißt, der einfallende Gesteinkörper oder Ähnliches kann auf kürzerem Wege gestoppt werden. Die Verbausysteme können in Folge näher an zu schützende Objekte herangebaut werden.

6) Ein Großteil der heute angebotenen Verbausysteme gegen Steinschlag, Holzschlag, Lawinen oder ähnlichem können mit dieser unterstützenden Energieabsorbierungsstruktur ohne größeren technischen oder wirtschaftlichen Aufwand ausgestattet oder nachgerüstet werden.

The invention is characterized in particular by the following advantages:

1) By combining the supporting energy absorbing structure with the interception structure and / or their braiding over the entire field length (or length) and a (selected for the expected energy input) favorably selected number of middle ropes and correspondingly selected distances of the built center cables to the support cables, the Supporting structure of Schutzverbauung over its entire surface by the supporting energy absorption structure uniformly (symmetrically) supported.

2) Since in the impact area of a rock body or the like in the Schutzverbauung the largest system deformation (due to the elasticity of the intercepting structure used), the middle ropes covering this area are immediately charged with tensile forces and can pass them immediately to their affiliated Energieabsorbierungselemente. Thus, all system components (but especially the connection structure) are significantly relieved by a rapid energy reduction.

3) In the case of highly expected system deformations (up to 6 m), it is possible to use energy-absorbing elements that are already triggered with little force, but allow large deformations, or that currently used energy-absorbing elements can be connected in series. Thus, energy can be dissipated over a longer path, without the function of the entire system (eg: preservation of a certain residual utility height after impact) is negatively affected.

4) On the contrary, by relieving the connection structure (suspension ropes and restraint ropes), which in most cases is supported by the incorporation of energy absorbing elements, the achievement of a given residual utility height is substantially improved.

5) Due to the instantaneous braking effect and the stiffening of the interceptor structure caused by the combination of the supporting energy absorbing structure with the intercepting structure, a substantial reduction of the overall system deformation is achieved, that is, the incident rock body or the like can be stopped in a shorter way. The Verbausysteme can be grown closer in sequence to be protected objects.

6) A large part of today offered Verbäherysteme against stone chipping, felling, avalanches or the like can be equipped with this supporting energy absorbing structure without major technical or economic effort or retrofitted.

The dependent claims have advantageous developments of Invention to the content.

Fig. 1

eine Seitenansicht einer ersten Ausführungsform der erfindungsgemäßen Energieabsorbierungsstruktur, und

Fig. 2

eine schematisch stark vereinfachte Frontansicht einer zweiten Ausführungsform der erfindungsgemäßen Energieabsorbierungsstruktur.

Further details, features and advantages of the invention will become apparent from the following description of exemplary embodiments with reference to the drawing. It shows:

Fig. 1

a side view of a first embodiment of the energy absorbing structure according to the invention, and

Fig. 2

a schematically greatly simplified front view of a second embodiment of the energy absorbing structure according to the invention.

Fig. 1 shows the side view of a first embodiment a protective barrier against stone chipping, felling, avalanches or similar. The Schutzverbauung has a support structure 1, the is shown schematically by a dashed line. It is in the example case by an upper suspension cable 2 and a lower support cable 3 with the elements of a support structure 10th connected.

Usually, the modular structure of such Protection systems in a capture structure, a Connecting structure, a supporting structure, its anchoring and, if necessary, a foundation.

The interception structure 1 preferably has coarse-meshed Network elements 1 (e.g., ring network, omega network, etc.) on, the partially by applying kleinmaschiger Braided pads are supported to penetrate to prevent small impact body. The task of Intercepting structure 1 is, as the name suggests, in the interception the impactor. By plastic deformation of the Mesh elements become part of the impact body introduced kinetic energy degraded.

The interception structure 1 is achieved by means of a connection structure connected to the support structure. The connection structure points one (or more) upper suspension cable (s) 2 and one (or more) Lower suspension rope (s) 3, also called edge ropes, of Column head to Column head (or from Column foot to Column foot) be stretched over one (or more) system field (s). The Supporting cables 2, 3 are either attached to elements of the support structure or by rock anchor 9 attached to the ground. They stretch with the support structure on the interception structure.

Other elements of the connection structure are restraint ropes 6, the head sides of the support structure elements (e.g. a version as pendulum supports) on the mountain side with the Substrate by means of anchoring (eg rock anchor) 9 connect and hold in a statically determined position. are the main elements of the support structure not with rock anchors or similar directly connected to the ground (for example: at floating storage), are also in the foot area the support elements retaining ropes attached.

The components of the connection structure (suspension cables 2,3 and Restraining ropes 6) are preferably by energy absorbing elements 8 supported. Alternatively, the leadership of the Carrying ropes "braked" executed, that is, that the Connection of the suspension cables with the support structure or their Guiding on the support structure by means of energy absorbing elements is performed. By the mentioned Energieabsorbierungselemente is about plastic and / or elastic deformation or by friction, a majority of Entry energy dissipated.

The support structure has carriers 10 whose length (Installation height) and their horizontal distance (field lengths) from expected energy input can be determined. In general are Field lengths of about 10 m usual.

The storage of the carrier 10 is preferably carried out over Floor panels 5. The connection of the carrier 10 to the Floor panels 5 is done either via a pendulum joint (Pendulum support) or as a fixed connection (welded, screwed or the like). The bottom plate 5 becomes with the underground directly over Felsanker or the like connected or floating and with Retaining ropes withheld on the mountain side. In one execution as a pendulum support, the head portion of the carrier 10 with Retaining ropes 6 retained on the mountain side and so in static held certain position.

As already mentioned, a large part of the entry energy is due to Energieabsorption 8 different types and Function degraded. The energy absorbing elements 8 are preferably closely related to the Connection structure used. They are combined with the retaining ropes 6, 2.3 supporting cables and / or their leadership installed in the area of the supporting structure. It is also possible To provide energy absorbing elements, which via a Connecting structure (for example: steel cables) punctually with the Interception structure are connected. This will be the Trap structure by energy absorbing elements directly supported.

The supports 10 of the support structure are referred to Base plates 5, preferably via a pendulum joint stored. The bottom plates 5 are with rock anchors 9 on the ground attached. The carrier 10 are with retaining ropes 6 am Head restrained on the mountain side and so in position held. The retaining ropes 6 are in the range of their Anchoring 9 by energy absorbing elements 8 supported.

The Verbausystem shown is in the illustrated Embodiment with two middle ropes 7 in different Height equipped. These cables 7 are in the illustrated case with the interception structure 1 over its entire length (except in Area of the carrier 10 connected. In the area of the carrier or the support structure 10, the ropes by cable guides (here shackles) led, laterally they are through Energy absorbing elements 8 supported and with rock anchors 9 attached to the ground.

In Fig. 2 is a second embodiment of shown energy absorbing structure according to the invention, in which all parts of the embodiment according to the Fig. 1 correspond to the same reference numerals Marked are. Accordingly, on the previous versions.

However, in the illustrated second embodiment, there are three Central ropes 7 ', 7' ', 7' '' provided. As Fig. 2 illustrates, these are preferably parallel to one another and also parallel to the upper support cable 2 and lower Carrying rope 3.

As with the embodiment of FIG. 1 does this Embodiment during the assembly of the overall arrangement curtain-like mounting of the interception structure 1 between the Carriers 10 possible, the interception structure 1 before assembly folded on one or more of the carrier 10th can be arranged.

Claims (11)

Supportive energy absorption structure for flexible protection against rockfall, logging, avalanches or the like, with a trapping structure (1); and with a support structure (10) which is connected to the interception structure (1) by means of a connection structure (2, 3), marked by a connecting element structure (7; 7 ', 7'',7''') which extends over an entire field length or fields, preferably as far as the entire length of the protective barrier, except in areas of necessary guidance via the supporting structure (10), is connected to the interception structure (1) and / or their braid overlay. Supportive energy absorbing structure for flexible protective structures against stone chipping, felling, avalanches or the like according to claim 1, characterized in that the connecting element structure at least one, preferably a plurality, in particular parallel, middle cables (7; 7 ', 7'', 7 "'), which is guided approximately parallel to supporting cables (2, 3) of the connecting structure. Supportive energy absorbing structure for flexible rockfall, logging, avalanche or the like, according to claim 1 or 2, characterized in that the connecting element structure (7; 7 ', 7'',7''') in the region of its attachment to the support structure (10) or subsurface supported by energy absorbing elements (8). Supportive energy absorbing structure for flexible protection against rockfall, logging, avalanches or the like according to one of claims 1 to 3, characterized in that the connection of the connecting element structure (middle cables 7; 7 ', 7'',7''') with the interception structure (1 ) and / or their braid is performed by conventional fasteners such as shackles, clamps or the like, but also sewn or looped. Supportive energy absorbing structure for flexible protection against stone chipping, felling, avalanches or the like according to one of claims 1 to 4, characterized in that the number of connecting elements (middle cables 7; 7 ', 7'',7''') and their distance from the Support cables (2,3) is freely selectable. Supportive energy absorbing structure for flexible protective structures against rockfall, logging, avalanches or the like according to one of claims 1 to 5, characterized in that connecting elements (7; 7 ', 7'',7''') are guided over only one field. Supportive energy absorbing structure for flexible protective structures against stone chipping, felling, avalanches or the like according to one of claims 1 to 5, characterized in that the connecting elements (7; 7 ', 7'',7''') are guided over more than one field. Supportive energy absorbing structure for flexible protection against stone chipping, felling, avalanches or the like according to claim 7, characterized in that the guidance of the connecting elements (7; 7 ', 7'',7''') in the region of the support structure by shackles, guide saddle or the like he follows. Supportive energy absorbing structure for flexible protective structures against rockfall, logging, avalanches or the like according to claim 7, characterized in that the guidance of the connecting elements (7; 7 ', 7'',7''') takes place in the region of the support structure directly via energy absorbing elements or the cable guide elements in turn are connected via energy absorbing elements with the support structure. Supportive energy absorbing structure for flexible protective structures against stone chipping, felling, avalanches or the like according to one of claims 1 to 9, characterized in that when fastening the connecting elements (7; 7 ', 7'',7''') on elements of the support structure (10 ) or in the ground by rock anchors (9) or the like via energy absorbing elements (8), which may be of conventional design and, if necessary, may be connected in series or in parallel. Supportive energy absorbing structure for flexible protection against stone chipping, felling, avalanches or the like according to one of claims 1 to 10, characterized in that the energy absorbing elements (8) directly into the connecting elements (7; 7 ', 7'',7''') installed are and are thus integrated into the interception structure.

Images