EP2872695B1 - Crosswind deflector for preventing deposition - Google Patents

Description

The invention relates to a Seitenwindablenkelement with the features of the preamble of claim 1, which is used for installation in open terrain, especially at wind critical points such as mountain ridges or the like. If strong side winds occur at such locations in the terrain, there is often deposition of airborne solids, such as drift sand or snow. Such snow deposits can be a danger through the formation of snow avalanches, for example, on hilltops in winter, if the deposits are not deliberately broken down again, for example by repeated blasting. A regular blasting away of dangerous snow overhangs in the mountains, however, is costly and not always sufficient to effectively prevent the emergence of avalanches.

So far, so-called snow fences have been used in the prior art for influencing unwanted snow accumulations generated by the wind. These fences, which are set up at critical points in the field, deliberately cause snow accumulation to prevent snow or sand from being blown onto a road or similar. However, such fences are unsuitable for effectively preventing accumulation of particulate matter from the air by a strong crosswind, so-called sedimentation, in any situation. The conventional other proposed in the prior art avalanche elements for installation at critical points in the mountains have either a deflection or a refraction of outgoing snow avalanches or scree avalanches to the content. That is, they are not suitable for purposefully preventing the emergence of such scree avalanches or snow avalanches. WO82 / 01204A and CH338854A reveal side baffles with baffles for deflecting the wind.

The present invention is based thereon on the object to provide a crosswind baffle element for installation in open terrain, with which a targeted prevention of the deposition of solids from the air is possible. The Seitenwindablenkelement according to the invention is to make fire as easy as possible and be mounted in the field.

This object is achieved with a crosswind baffle element according to the features of claim 1. Advantageous embodiments and modifications of the invention are the subject of the dependent claims.

The Seitenwindablenkelement invention, which is intended for installation in open terrain for targeted prevention of deposition of snow, sands or the like, has a bottom-side base plate for anchoring in the field, a towering from the base plate central post and a plurality of mounted on the post guide plates Deflection of the wind and is characterized in that the guide plates are provided in a vertical orientation cross-shaped abkragend the post and that increases the length of the guide plates, starting from the base plate upwards. The wind deflecting and deliberately redirecting guide plates of the crosswind baffle element are thus provided projecting in a vertical orientation of the post, so that they form the largest possible attack surface for occurring crosswinds. The length of the guide plates is lower in the lower region and increases towards the top, so that a kind of trapezoidal shape is formed whose width is greater at the top than at the lower end of the crosswind deflection element. All baffles are mounted on a central, uprising post, so that the crosswind baffle can be self-supporting and freestanding without additional anchoring ropes or the like can be mounted. For the installation and installation of the crosswindow element according to the invention, a base-side base plate is provided, on which the central post is fixedly mounted. The baseplate serves to set up and anchor the element in the ground at the point in the terrain where targeted prevention of sedimentation of solids from the air is desired. As a result of the guide plates, which become longer at the top, the crosswind deflector has a surface which is enlarged toward the top and opposes the impinging wind. By this measure according to the invention, the crosswinds are targeted and reinforced intercepted and directed in a kind of nozzle effect with the formation of amplified vertebrae down. These reinforced vortices in the area of the crosswind deflector effectively prevent the deposition of particulate matter from the air, such as sand or snow. If the crosswind baffle element according to the invention is set up at critical points in the mountains, for example at mountain ridges or hilltops, the formation of avalanches due to undesirable local deposits can be prevented with comparatively simple means, since the wind entrained solids do not settle at the points of installation of crosswind deflectors, but are further carried away with the targeted deflected wind. The Seitenwindablenkelement according to the invention thus prevents the formation of undesirable deposits (sedimentation) in open terrain in a relatively simple structural design. This can either be a deposit of shifting sand or a deposit of snow. The crosswind baffle element according to the invention can preferably be set up in groups of several such crossbeam baffles at corresponding problematic terrain sites. Each of the elements is extremely robust due to the central post and can be installed freestanding. The installation and assembly of the crosswind baffles is thereby comparatively simple, since only for the central post a foundation or a counter plate in the field must be prepared in advance.

According to an advantageous embodiment of the invention, the guide plates for deflecting the crosswinds at fixed distances from one another to the post in such a form that a series of permeable spaces between the guide plates is formed. Although the wind deflectors formed by the baffles of the crosswind baffle element are thus provided comparatively large area, but have a certain permeability through the interstices. On the one hand, this has the advantage that the elements do not form a full-surface barrier and allow a look through. The intervention in nature is thus comparatively small. On the other hand, the elements are less prone to damage by very strong winds through the spaces between the baffles, which can often occur especially in the mountains. A long-term positioning and stability of the elements is guaranteed. According to an advantageous aspect in this respect, the gaps may in particular be half the width of the guide plates, so that a sufficiently large deflection surface is still ensured for the winds impinging there, which leads to the turbulences at the bottom due to the nozzle effect and a reliable prevention of local sedimentation guaranteed.

According to a further advantageous embodiment of the invention, the guide plates are at least at their free ends coupled together so that they form four sail-like from the post cross-shaped projecting wind deflectors. From Individual elements existing baffles are thus securely interconnected and coupled so that they form despite their permeability, a common, stable component for the purpose of targeted diversion of winds. A coupling of the individual guide plates can be done for example by a rigid connection such as welding with rods or profile elements. Alternatively, a coupling can also be carried out via flexible elements, such as wire ropes or the like. The coupled baffles each protrude crosswise from the central post and form a kind of trapezoidal sail, with a greater width at the top of the element than on the sides of the bottom.

According to a further advantageous embodiment of the invention, cross-shaped projecting from the post upper and lower cross member for holding and additional securing the guide plates are provided. With such upper and lower cross-shaped projecting cross beams, the laterally projecting guide plates can be securely and firmly fixed without greatly increasing the weight of the entire member. The baffles can namely be provided, for example, as very thin metal sheets, which themselves have no great intrinsic stability, but in interaction with the cross members, which may be configured for example in the form of tubular profiles, have the necessary strength against the impinging winds even in strong winds. The holder and the installation of the guide plates between the cross members can be done in different ways: by solid welding to longitudinal bars, by inserting the guide plates in recesses, by holding clamped between the cross members cables or the like.

According to a further advantageous embodiment of the invention, the base plate on which the post is mounted vertically towering, formed in two parts and provided with an erection aid, preferably of the tube-in-tube type plug-in system. The base plate may for example consist of a first element plate and a second bottom plate, wherein the element plate is firmly connected to the post and the bottom plate is provided for installation in the ground. The bottom plate may be made of metal and / or a combination of metal and a concrete material, so that a secure foundation for the deployed crosswind deflector is given. For mounting according to the invention an erection aid, for example, provided in the manner of a pipe plug system: The bottom plate has for this purpose, for example, a smaller diameter pipe on which the slightly larger diameter in the pipe the post of the Seitenwindablenkelements can be simply plugged from above. The position is thus securely fixed already at the first shutdown of the Seitenwindablenkelements, and an assembly requires only, for example, a screwing of the two plate elements of the base plate together. This facilitates above all a mounting in rough terrain via a helicopter through the air. Only a single worker on the ground is required. The necessary intervention in nature is also minimal.

According to a further advantageous embodiment of the invention, the guide plates or the four Windleitelemente formed from the guide plates are additionally secured with upper and / or lower struts at the top and / or bottom of the post. The struts can be realized for example by ropes or rods running obliquely from a free end or a central region of the guide plates or the cross member to the central post. Such bracing further increases the stability and resistance to hitting winds. Without a large increase in the weight of the element, a very robust structure for the purpose of wind diversion can be achieved. A strut may for example consist of tensioned wire ropes, which are attached to connecting flanges. However, the struts in the present context may also be in solid form, for example by welded rods executed. The advantage of the compact and comparatively lightweight construction of the crosswind baffle element is further that it can be self-erected in the field, d. H. does not require troublesome lateral anchorages by wire ropes or the like, which would require multiple anchoring points and concrete foundations or the like in each case.

According to a further advantageous embodiment of the invention consist of the wind catching and diverting guide plates made of profiled or ribbed sheets in the longitudinal direction of a metal material. In this way, the guide plates can be made of comparatively thin sheet material and are therefore very light. This leads to a total lightweight construction of the entire crosswind baffle element, which is especially for transport by means of a helicopter for installation in rough terrain advantage. The guide plates with the profiles or the reinforcing ribs in the longitudinal direction are also sufficiently stable, so that bending by high winds can be prevented.

According to a further advantageous embodiment of the invention, the guide plates are fixedly mounted in a respective peripheral frame, which in turn is attached to the post. The four, for example, laterally projecting in a cross-shape guide plates are thus each firmly assembled within a frame and form a compact unit. The frame can consist of welded tube profiles and increases the stability and strength of the element. The guide plates themselves are securely fixed in their respective frame at the desired position. The mounting of the frame itself to the central post can for example be done in a detachable manner by screw with corresponding flanges or the like.

According to an alternative embodiment of the invention, the respective guide plates of a group of guide plates, which form a common Windleitelement, connected to each other via coupling cables between the upper and lower cross members and secured in position. For example, at the free end of the guide plates, a first coupling cable between an upper and lower cross member can be stretched, and there may be in the middle region, a coupling cable or more coupling ropes, each holding the guide plates in the four directions and in the desired vertical orientation.

According to a further advantageous embodiment of the invention, a rotation lock for torsion-proof installation of the element is provided. A rotation lock can be realized for example by a pin or bolt on the bottom plate, which engages in a corresponding hole. Other means for anti-rotation are also conceivable. The anti-rotation device has the advantage that the Seitenwindablenkelement can not rotate in the position depending on the impact of the crosswinds, so that a strong turbulence of the crosswinds and a targeted discharge to the bottom side are always guaranteed.

According to a further advantageous embodiment of the invention means are provided for preventing rotation of the element during transport by helicopter or the like through the air. The crosswind deflector can thus be easily picked up by a hook from a helicopter and safely transported through the air to the mounting location. Even when lifting with a crane this prevents twisting. A means for preventing the rotation of the Elements in transit in the air can be designed, for example, in the form of a projecting rod with a windsock at the free end. The rod protrudes laterally from the Seitenwindablenkelement and has at its end the Windhose or windsock, so that the element thereby remains in the respective position and can not rotate in the air. Other means of preventing rotation of the element during airborne transport may also be provided.

According to a further advantageous embodiment of the invention, the length of the guide plates from bottom to top is increased to almost twice. That is, the bottom guide plate is approximately half the length of the top guide plate. The area for the targeted deflection of the impinging winds is thus increased relatively large from bottom to top, whereby an even better deflection, diversion and turbulence due to the aforementioned nozzle effect is achieved with the crosswindow element according to the invention. An even better prevention of the deposition of solids in the area and within the Seitenwindablenkelemente is guaranteed.

Fig. 1

eine Perspektivansicht eines erfindungsgemäßen Seitenwindablenkelements nach einem ersten Ausführungsbeispiel der Erfindung;

Fig. 2a, 2b

eine Seitenansicht und eine Draufsicht von oben des Seitenwindablenkelements gemäß dem ersten Ausführungsbeispiel der Fig. 1;

Fig. 3

eine Seitenansicht eines erfindungsgemäßen Seitenwindablenkelements gemäß einem zweiten Ausführungsbeispiel; und

Fig. 4

eine Seitenansicht eines erfindungsgemäßen Seitenwindablenkelements gemäß dem zweiten Ausführungsbeispiel im Moment der Montagesituation.

Further advantages, features and objects of the present invention will become apparent from the following description of exemplary embodiments. The invention will be described below in more detail by means of embodiments with reference to the accompanying drawings. In the drawing show:

Fig. 1

a perspective view of a crosswind baffle according to the invention according to a first embodiment of the invention;

Fig. 2a, 2b

a side view and a top view of the Seitenwindablenkelements according to the first embodiment of the Fig. 1 ;

Fig. 3

a side view of a Seitenwindablenkelements invention according to a second embodiment; and

Fig. 4

a side view of a crosswind baffle according to the invention according to the second embodiment at the moment of the mounting situation.

A first embodiment of a cross wind deflector 10 according to the invention, as shown in different views in the Fig. 1 . 2a and 2b will be explained below. The Seitenwindablenkelement 10 is used for installation in open terrain, including at the lower end of the element 10, a bottom-side base plate 1 is provided. The base plate 1 is shown here with four setscrews, which are screwed into corresponding holes with internal thread and are screwed for attachment to a (not shown) foundation at the site or a counter-plate. The Seitenwindablenkelement 10 essentially consists of a central post 2, on the laterally cross-shaped projecting guide plates 3 are mounted, which serve the targeted deflection and turbulence of winds which impinge on the element 10. The guide plates 3 are provided in this embodiment crosswise in four directions protruding from the central post 2, being mounted between upper cross members 4 and lower cross members 5. The guide plates 3 have at the bottom of a shorter length, which increases continuously towards the top. The guide plates 3 thus each form four trapezoidal wind deflectors 30, as shown in particular in the side view of Fig. 2a easy to recognize. This Windleitelemente 30 are used for targeted interception, swirling and dissipating the incident crosswinds down in the area around the Seitenwindablenkelement 10 around, so that a deposition of solids from the air, such as dry sand or snow, is specifically prevented. For the guide plates 3 of the Windleitelemente 30 upwards an increased length, creating a kind of nozzle effect with incident wind arises, which swirls down the wind together with the solids contained in the air down and transported further, without causing increased deposition around the cross wind deflector 10 comes around. Thus, if a plurality of such Seitenwindablenkelemente 10 is set up at a critical in terms of deposits point in the field (for example, on a ridge or a mountain overhang), so targeted the formation of deposits of snow can be avoided. As a result, the formation of snow avalanches can be effectively avoided, since even before the emergence of unwanted accumulations of snow due to the wind situation and the terrain situation they are safely avoided by the invention. Another field of application of such crosswind deflectors is the avoidance of sedimentation, ie a deposition of, for example, sand from the air in desert areas or on shores of waters. Again, the Seitenwindablenkelement a targeted, effective avoidance of deposits around the element 10 around by intercepting and diverting the crosswind by means of four cross-shaped projecting from the post 2 wind deflector 30, which are composed of a plurality of individual guide plates 3. In contrast to conventional fences or barriers, there are no deposits of snow or sand on the leeward side or leeward side.

In the in the Fig. 1 . 2a and 2b shown first embodiment, the guide plates 3 between upper and lower cross members 4, 5 are mounted in the form of square tube profiles by means of coupling cables 9. The coupling cables 9 are attached to mounting flanges on the tube profiles of the cross members 4, 5 and hold the respective guide plates 3 in their desired position and location. The guide plates 3, which may for example be made of a thin metal sheet, are each mounted at a distance from one another such that in each case gaps of approximately half the width of the guide plates 3 arise. The Seitenwindablenkelement 10 is thus not completely closed and allows a look through. Furthermore, the spaces between the guide plates 3 have the advantage that the elements 10 are not at risk in very strong winds, torn or damaged by the wind. In the first embodiment, the central post 2 protrudes slightly beyond the upper cross member 4, which form the conclusion of the wind deflector 30. At the upper and lower cross members 4, 5 respective struts 6, 7 are mounted between the lower and upper end of the post 2 and approximately at the center of the cross members 4, 5. The struts 6, 7, which may be designed, for example, in the form of tensioned wire ropes or iron bars, increase the stability of the crosswind deflector 10 without unduly increasing the overall weight. The struts 6, 7 are also used to hold the applied by means of the coupling cables 9 tensile stress, so that the wind deflectors 30 are clamped in the form of a kind of sail with upwardly increased width. In this embodiment, the four of the post 2 cross-shaped projecting cross member 4, 5 are each also mounted on mounting flanges and corresponding fittings. Alternatively, however, the cross members may also be fixedly connected to the post 2, for example by welding metal pipes. However, the detachable mounting on mounting flanges and fittings has the advantage that the transport of the Seitenwindablenkelemente 10 is facilitated and less volume is needed here. The cross wind deflector 10 according to the invention is provided with comparatively large surfaces for the impact, deflecting and targeted forwarding of the winds. By in four Direction of crosswise projecting guide plates 3, a deposition of solids from the air is ensured even in changing wind directions. The wind can impinge on the cross wind deflector 10 from all directions without the deposition of, for example, snow or sand at the rear (windward side), as is the case with conventional fences or the like, for stopping snow drifts, for example be set up on the edge of overland roads in winter.

In the Fig. 3 is shown in a side view of a second embodiment of the invention Seitenwindablenkelements 10. In contrast to the first embodiment described above here the guide plates 3 are mounted on a peripheral frame 8, wherein the frame 8 is then mounted by the four cross-shaped projecting wind deflectors 30 in total at the central post 2 via corresponding mounting flanges and fittings. The guide plates 3 are, for example, welded into the frame 8. Again, each upper and lower cross member 4, 5 are provided, which form the frame 8 together with a slightly thinner rod or profile at the ends of the guide plates 3. This form of Windleitelemente 30 has the advantage that the individual guide plates 3 are securely held together and fixed in position. In the Fig. 3 is shown on the left hand and right hand a variant of this embodiment. While on the left in the Fig. 3 only at the upper cross member 4, a strut 6 between the free end of the cross member 4 and the upper end of the post 2 and no lower strut is provided, in the right example, as in the first embodiment, an upper strut 6 and a lower strut 7 are present which are fixed between the post 2 and approximately the middle of the respective cross member 4, 5 and provide additional stability. Alternatively, the struts can be omitted entirely - both in this and in the first embodiment. Also in this embodiment ( Fig. 3 ), the guide plates 3 of the crosswind deflector 10 are made of a relatively thin sheet metal material. The sheet material may be provided with longitudinal profiling or struts for stiffening, so that the guide plates 3 despite the relatively thin material yet have sufficient strength to oppose different degrees of wind situations, and the desired effect by the turbulence and dissipation of the wind Provide below to prevent sedimentation. The other components of the Seitenwindablenkelements 10 may also preferably here from a Be made of metal material. The central post 2 is executed in the embodiments shown as a round tube. Alternatively, however, it may be realized as a square tube, as are the upper and lower cross beams 4, 5 in these embodiments. Again, the lower end of the post 2 is provided with a base plate 1, which is reinforced by stiffening triangular struts. The base plate 1 has holes for mounting via screws. The situation of a mounting of the crosswind baffle element 10 according to an embodiment of the invention in place is in a schematic side view of the other Fig. 4 shown.

In the Fig. 4 the situation is shown in which the crosswind deflector 10 is carried through the air by a helicopter or crane (not shown) just before being parked at the desired off-road position. For this purpose, a helicopter hook 14 is mounted at the upper end of the element 10. The cross wind deflector 10 is provided for transport with a means 11 for preventing rotation of the element 10 in the air, here shown in the form of a wind trouser or windsock 11, which is mounted over a laterally projecting from the lower cross member 5 rod. By this rotation preventing means 11, the crosswind baffle 10 is safely conveyed through the air and deposited at the desired location in the field by a simple lowering by means of the helicopter. On the side of the floor, a foundation plate 16 made of concrete was previously installed for this purpose, on which a bottom plate 13 is mounted, on which the element plate 12 of the base plate 1 is placed. To facilitate settling and erecting the crosswind baffle element 10, the bottom plate 13 is provided with a central pipe socket 15, which is somewhat smaller in diameter than the inner diameter of the central post 2. The two plates 12, 13 of the base plate 1 can thus be in the form of a pipe socket. In-tube plug-in system are placed on each other, so that the Seitenwindablenkelement is already in the correct position directly on weaning and is secured in advance. Subsequently, only a screw or other connection of the two plates 12, 13 of the base plate 1 is required to ensure a secure fixation of the freestanding crosswind baffle element 10. In this way, no lateral anchorages such as anchor ropes are required, as they are required in conventional snow fences or the like, to ensure the upright hold even in strong winds. The wind trouser preventing means 11 ensures that the element 10 is always oriented in the direction of the wind during transport, as with the arrow W in the Fig. 4 is illustrated. After settling and attachment of the Seitenwindablenkelements 10, the Windhose 11 is removed together with their attachment rod again and can be reused for further transport of another similar Seitenwindablenkelements 10, which is set up.

The invention provides an effective crosswind baffle element 10 which avoids solids deposits from the air in place, directly and safely, on a large scale due to the turbulence and targeted transmission of the wind. The cross wind deflector 10 according to the invention, due to its construction with a plurality of relatively thin guide plates 3, which project crosswise from a central post 2, a very low weight, so that a transport by helicopter is made possible. The total weight of the crosswind deflector 10 is preferably less than 550 kg. In addition, the cross wind deflector 10 according to the invention represents a relatively minor intervention in nature, since the elements must be placed only at certain points in groups and no large-scale construction measures to prevent snow avalanches, scree avalanches or deposits of blasting sand are required. The invention is not limited to the illustrated embodiments and can be modified in various ways. In particular, the shape of the baffles may vary. In the illustrated embodiments, the length of the bottom guide plate 3 in relation to the top guide plate 3 in about half so large, so that a comparatively strong broadening of the wind deflector 30 is given upwards. Alternatively, the broadening upwards can also be made smaller or stronger.

The guide plates 3 can be made with smooth or profiled sheets, ie with relatively thin sheets, which have stiffening in the longitudinal direction deformations. But the guide plates 3 can also be provided with stiffening ribs, so that the high stability is ensured despite the lightweight construction. The guide plates 3 can also be fixed differently to the central post 2 than in the illustrated embodiments with coupling ropes 9 and a peripheral frame 8, for example. The guide plates 3 can be mounted by receiving slots in the post 2 and a fixed welding. Also, the distance between the guide plates 3 to each other can be varied, for example, to selectively effect a greater permeability in certain areas: for example, the upper guide plates 3 at a greater distance from each other than the lower guide plates 3 be mounted near the ground to account for the stronger winds in the upper area.

Claims (12)

1. A crosswind deflection element (10) for erection on open ground for the specific reduction or prevention of a deposit of snow, wind-borne sand or the like, the element comprising a baseplate (1) at the bottom for anchoring into the ground, a central post (2) rising up from the baseplate (1), and a plurality of guide plates (3) mounted on the post (2), wherein the guide plates (3) are provided on the post (2) such that they project in vertical orientation in a crosswise manner, and the length of the guide plates (3) increases from the baseplate (1) upward.
2. The crosswind deflection element (10) according to claim 1, characterized in that the guide plates (3) are arranged at predetermined spacings from each other for the formation of permeable clearances.
3. The crosswind deflection element (10) according to claim 1 or 2, characterized in that the guide plates (3) are at least at their free ends coupled to each other such that they form four sail-like wind guide elements (30) that project in a crosswise manner from the post (2).
4. The crosswind deflection element (10) according to any one of the preceding claims, characterized in that upper and lower cross members (4, 5), which project from the post (2) in a crosswise manner, are provided for retaining the guide plates (3).
5. The crosswind deflection element (10) according to any one of the preceding claims, characterized in that the baseplate (1) is realized in a two-piece form, and is provided with an installation aid, in particular a plug-in system (15) of the type pipe-in-pipe.
6. The crosswind deflection element (10) according to any one of the preceding claims, characterized in that the guide plates (3) or the four wind guide elements (30) formed of the guide plates (3) are respectively additionally secured to upper and/or lower strut members (6, 7) at upper and/or lower ends of the post (2).
7. The crosswind deflection element (10) according to any one of the preceding claims, characterized in that the guide plates (3) consist of sheets of a metal material that are longitudinally profiled or corrugated.
8. The crosswind deflection element (10) according to any one of the preceding claims, characterized in that the guide plates (3) are rigidly mounted in a respective circumferential frame (8) that itself is attached to the post (2),
9. The crosswind deflection element (10) according to any one of claims 1 to 7, characterized in that the guide plates (3) are connected to each other and secured in their position by coupling ropes (9) between upper and lower cross members (4, 5).
10. The crosswind deflection element (10) according to any one of the preceding claims, characterized in that an anti-rotation device is provided for securing the element against rotation.
11. The crosswind deflection element (10) according to any one of the preceding claims, characterized in that means (11) for avoiding a rotation of the element (10) during the transport through the air by a helicopter or the like are provided, in particular in the form of a detachably mountable wind cone that projects perpendicularly and laterally from the post (2) by means of a rod.
12. The crosswind deflection element (10) according to any one of the preceding claims, characterized in that the length of the guide plates (3) increases from the bottom upward up to approximately the double.

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