rock fall protection avalanche protection rock and
Transcription
rock fall protection avalanche protection rock and
ROCK FALL PROTECTION AVALANCHE PROTECTION ROCK AND SLOPE STABILISATION PRODUCT CATALOG 1 Contact 2 General Information 3 Rock-fall Protection 4 Avalanche Protection 5 Rock and Slope Stabilisation 6 Gabions 7 Single Components 8 Invitation of Tender Texts 9 Brochure 10 Contakt TRUMER SCHUTZBAUTEN GMBH Project Office Weißenbach 106 A-5431 Kuchl Tel.: Fax: +43 6244 20325 +43 6244 20325-11 E-Mail: office@trumerschutzbauten.com Web: www.trumerschutzbauten.com Headquarter Maria-Bühelstraße 7 A-5110 Oberndorf Production Handelsstraße 6 A-5162 Obertrum am See SAFETY BY COMPETENCE General Information Development of the company Trumer Schutzbauten GmbH was founded in 1991. Since January 2004 the company’s head office has been in Oberndorf near Salzburg. Up to 1996 the company was trading in well-known products which were used for avalanche and rockfall protection systems. In 1996 Trumer Schutzbauten GmbH started the development of the Omega-net. The production of this protection system started in the same year. In 1996 the company applied for the patent on this net in Switzerland and shortly after, in 1997, for the European patent. Since 1997 the company has been producing the Omega-net in Obertrum. Due to a constantly rising demand, an expansion of the production plant was necessary in 2001. Product Spectrum Since the late 1990s, Trumer Schutzbauten GmbH has been offering various protection systems in the sector of avalanche and rockfall protection. Due to their modular configuration, these systems are easy to install and easy to adapt to topographical features. The great flexibility of the systems allows the absorption and reduction of great kinetic energies. The Omega-net is also used as a preventive measure for slope and rock stabilisation and for special devices (e.g. afforestation nets). Furthermore, gabions and various mesh and wire netting products add to the wide spectrum. Test Site Erzberg Trumer Schutzbauten GmbH is always interested in the further development of their products. Rockfall protection systems are developed and tested on the Styrian “Erzberg”, in close cooperation with institutes of the University of Leoben. For this purpose, a test site was created. It allows the carrying out of in-field tests and, presently, energy impacts up to 1000 kJ. The test site is also available for the testing of products of other companies. SAFETY BY COMPETENCE Appendix – General Information SAFETY BY COMPETENCE Omega-net in rock-fall protection system Product Description Omega-net The Omega-net by Trumer Schutzbauten GmbH consists of single, wave-like forebent wire ropes which are intertwined. The ropes are made of thickwired, galvanised spiral ropes which touch each other at the cross points but which are not connected with each other as no clamps are used. This condition makes the Omeganet very flexible yet due to the stiffness the ropes also absorb high energy impacts. As experience shows, the system is easy to install and to maintain: ¾ The product is delivered in compact packages ¾ The net installation can be carried out quickly, easily and without further aids ¾ The flexibility of the net allows an ideal adaptation to the area ¾ Defective ropes can be replaced on the spot with the help of simple aids For rockfall nets a spiral rope of 7 or 19 wires with diameters of 6.0mm, 7.5mm, 9.0mm or 12.5mm is used, according to standards. The curve diameter of the forebending is 125 to 300mm. The tightness of the mesh is adapted to the features of the location. SAFETY BY COMPETENCE Rockfall protection system for an energy impact of 500kJ Product Description Rock-fall Protection Systems Area of Application Rock-fall Protection Systems serve as secondary protection in possible deposit areas of rock falls and rock avalanches. They are used for the protection of inhabited areas and highways. Basis Experience gained in decades of international work on rock-fall protection and in-field tests form the basis of this kind of protection system. National standards and international regulations are fulfilled by our system. Installation Rock-fall Protection Systems by Trumer Schutzbauten GmbH consist of an interception and a support or retaining structure. The interception structure is formed by the Omega-net with its outstanding deformability, flexibility and energy absorption. The support or retaining structure consists of posts, bearing ropes, retaining ropes and brake elements. The Omega-net is stretched by the upper and lower bearing rope. Via the posts, both ropes are led to the brake elements at the edge of the system. The occurring rope forces, which are limited by the brake elements, are led to the ground via anchors. SAFETY BY COMPETENCE Energy reduction is partly reached by plastic deformation of the Omega-net and by energy-absorbing brake elements. The remaining energy is led to the ground via anchors. This is done with the help of a connection structure (bearing ropes, retaining ropes). Characteristics Due to their modular configuration, rockfall protection systems by Trumer Schutzbauten GmbH are easy to adapt to topographical features. The easy installation of the net packages, the alternatively swimming position of the bases of the posts (no foundation necessary) and the modular configuration mentioned above make the installation of rock-fall protection systems by Trumer Schutzbauten GmbH easier, shorten the time of installation and therefore reduce the installation costs up to 30 percent. Method of Construction The protection system consists of single parts which are combined like a modular construction system. The length of one part is normally 8 to 12 metres. System rows can be of any length, but generally intermediate retentions are installed in intervals of approximately 50 metres if longer rows are used. Characteristics Base of the Post The base of the post can be flexible or fixed. If the flexible version is chosen, you can distinguish between a solid position reached with a construction of anchors and micro- posts and a swimming position with a retention of the base of the post with the help of retaining ropes which are lying on the ground. The swimming position does not require a foundation at the base of the post. For the installation the base of the post is secured with an installation anchor Gewi diameter 25mm. After the installation, the anchor nut is slightly loosened to guarantee full mobility of the base of the post. Installation The light elements of the rockfall protection systems by Trumer Schutzbauten GmbH and the easily installable construction elements make an easy and therefore time and money sparing installation possible, even under difficult conditions. SAFETY BY COMPETENCE At present, testing has been completed for the following systems: Rock fall protection system Energy level Energy impact at test TS-100oA 100 123 kJ TS-150 TS-150ZD 150 167 kJ TS-300-oA 300 348 kJ TS-500 500 487 kJ SNT-500 TS-500ZD 500 553 kJ TS-500-oA 500 606 kJ TS-750 TS-750ZD 750 774 kJ TS-1000 TS-1000ZD 1000 1061 kJ SAFETY BY COMPETENCE Rock fall fences with diagonal wire netting 50/50/4,6 Rock fall fences with diagonal wire netting 50/50/4,6 ensure effective protection against rock falls with low energy requirements. The diagonal wire netting 50/50/4,6 passed testing at the Styrian Erzberg with 167kJ (impact mass 545 kg, speed 89km/h). It may also be mounted on to existing posts. Tensile strength: lengthwise: min. 173 KN/m crosswise: min. 173 KN/m Mesh number: horizontal: 26 m-1 vertical: 26 m-1 Mesh type: rectangular mesh size: 50x50 mm Wire quality: diameter: 4,6 mm tensile strength: 400-500 N/mm² Corrosion prevention: thick galvanized: 250 g/m² Weight: appr. 5,6 kg/m² Delivery size: reel width: 1,50m / 1,75m / 2,00m / 2,25m / 2,75m / 3,00m reel length of reel: 6,00 m SAFETY BY COMPETENCE APPENDIX – Rock-fall Protection Systems SAFETY BY COMPETENCE Falling rock protection kit TS-100-oA SAFETY BY COMPETENCE ". - *0 1 #$2 +, - " #$ *0 1 #$2 % ! / Allgemeintoleranzen: Gez. Gepr. Ges. Zust. Änd.-Nr. Datum '* '* Name Werkstoff: Rohteil: Halbzeug: Benennung: )%' 2D-CAD TS Schutz - Technik Ers. f.: Zchng. Nr.: Gewicht: Norm & Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Datum Maßstab: #$ '' " ' '' '' ( Ers. d.: Format Blatt D von Bl. ! Allgemeintoleranzen: Datum Gez. Gepr. Ges. Zust. Änd.-Nr. 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Datum +" Name Gewicht: Werkstoff: Rohteil: Halbzeug: Benennung: Norm Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Datum Maßstab: 2D-CAD TS Ers. f.: Schutz - Technik Zchng. Nr.: 3 Ers. d.: Format Blatt D von Bl. ! % Allgemeintoleranzen: ! " #$ % & ' ' , $ #$ ( $) %* + Datum Gez. Gepr. Ges. Zust. Änd.-Nr. Datum & - 2D-CAD TS Ers. f.: Schutz - Technik Gewicht: .% Werkstoff: Rohteil: Halbzeug: Benennung: Norm / #$ 0 % 1, Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor -% -% -% -% Name Maßstab: Zchng. Nr.: %% %% 2 Ers. d.: Format Blatt C von Bl. ! % Allgemeintoleranzen: ! "#$ % & ' ' , $ #$ ( $) %* + Datum Gez. Gepr. Ges. Zust. Änd.-Nr. Datum & - 2D-CAD TS Schutz - Technik Ers. f.: .% Werkstoff: Rohteil: Halbzeug: Benennung: / Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor -% -% -% -% Name Maßstab: Zchng. Nr.: Gewicht: Norm #$ 0 '-12 #$ %% %% 3 Ers. d.: % 1, Format Blatt C von Bl. 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Datum " , " , Name ' 2D-CAD TS Schutz - Technik Ers. f.: -, Werkstoff: Rohteil: Halbzeug: Benennung: Zchng. Nr.: Gewicht: Norm .* / % 01 .* Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Datum Maßstab: ," ,, ,, 2 Ers. d.: ,, ( Format Blatt C von Bl. Falling rock protection kit TS-500 SAFETY BY COMPETENCE * !"# , 1 ! " % $! # 0 23 !"# $! * ()* - " $! # % ! ! $! * ! & $! ' +, " % " $! . 0 # * 1 Allgemeintoleranzen: Datum Name Gez. Gepr. Ges. # % ! ! $! , Zust. Änd.-Nr. Datum /! Gewicht: Werkstoff: Rohteil: Halbzeug: Benennung: Norm Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Maßstab: 2D-CAD TS Schutz - Technik Ers. f.: Zchng. Nr.: 4 Ers. d.: Format Blatt D von Bl. ) , $ !"# $ % # # & '( )* ) + , - !' ) - !' *.# Allgemeintoleranzen: Datum Gez. Gepr. Ges. Zust. Änd.-Nr. Datum % Werkstoff: Rohteil: Halbzeug: Benennung: " 2D-CAD TS Schutz - Technik Ers. f.: Zchng. 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Datum ' 2D-CAD TS Schutz - Technik Ers. f.: Gewicht: -* Werkstoff: Rohteil: Halbzeug: Benennung: Norm ** Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor ** * ** * Name Maßstab: Zchng. Nr.: .+ / ( % 01 .+ * ** ** 2 Ers. d.: Format Blatt C von Bl. Falling rock protection kit TS-750 SAFETY BY COMPETENCE %" ' ! " , ! "#$ 2 # & $ 1 34 ! "#$ %" , *+,( . ! # %" ! $ & " " %" , "! () ! %" # # & %" / 1 $ , Allgemeintoleranzen: Gez. Gepr. Ges. ! $ & " " %" Zust. Änd.-Nr. Datum 0" Name Gewicht: Werkstoff: Rohteil: Halbzeug: Benennung: Norm Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Datum Maßstab: 2D-CAD TS Schutz - Technik Ers. f.: Zchng. Nr.: ( ( (5 Ers. d.: Format Blatt D von Bl. $ &' $ & ' (!) $ *+ $ + # $ # & ' + ,( $! # !( $ , ! " $ " " *-#$, . / $ 0 $ 1& + & ' + ,( $ 1& + & ' (!) $ # /2" ' $ + # ! ! , ! Allgemeintoleranzen: Datum Name Gez. Gepr. Ges. Zust. Änd.-Nr. 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Datum Datum Name Maßstab: Gewicht: Werkstoff: Rohteil: Halbzeug: Benennung: Norm Name file 2D-CAD TS Schutz - Technik Ers. f.: Zchng. Nr.: 6 Ers. d.: 7 Format Blatt D von - Bl. ' ' # () # () *+ '# ,# - " # " ( ) - .* # " * # . # # /( ( ) - .*! ! ,0" . 1 2 # 3 # " 24! )% '# - " 3 . # ! ! " ,0" . 1 2 # 3 5! .. 6 # ! ! ,0" . 1 2 # 3 Allgemeintoleranzen: Datum Name Gez. Gepr. Ges. Zust. Änd.-Nr. Datum Gewicht: Werkstoff: Rohteil: Halbzeug: Benennung: Norm ! ! "# #$% Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Maßstab: 2D-CAD TS Schutz - Technik Ers. f.: Zchng. Nr.: # # #& Ers. d.: Format Blatt C von Bl. ) ) # *+ # *+ ,)# ./ # / " # " * + / ', # " , # ' # # 0* / * + / ',! ! .1" ' 2 3 # 4 # " 35! +% )# / " 4 ' # ! ! " .1" ' 2 3 # 4 6! '' 7 # ! ! .1" ' 2 3 # 4 Allgemeintoleranzen: Datum Name Gez. Gepr. Ges. Zust. Änd.-Nr. Datum Gewicht: Werkstoff: Rohteil: Halbzeug: Benennung: Norm ! "# #$% $& ! ' Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Maßstab: 2D-CAD TS Schutz - Technik Ers. f.: Zchng. Nr.: # # #( Ers. d.: Format Blatt C von Bl. Avalanche Protection System using Omega-Net Product Description Avalanche Protection System using Omega-Net Area of Application Avalanche Protection Systems using Omega-Net by Trumer Schutzbauten GmbH, prevent avalanches in their first stage of occurrence. The nets are nearly invisible in the area concerned and therefore preserve the scenery. In scenically sensitive areas they are an aesthetic alternative to traditional snow bridges or snow grill systems. Basis Static calculations are carried out in accordance with the Swiss guide lines of the BUWAL and the WSL (“Richtlinien für den Lawinenverbau im Anbruchgebiet“). Since April 2004 there there have been opportunities to carry out static calculations for the Avalanche Protection Systems in the company. The systems are tested in the field in cooperation with the WLV Schwaz. Installation For Avalanche Protection Systems by Trumer Schutzbauten GmbH, the Omega-net is used in rectangular and triangular form. The net is stretched by the upper and lower bearing rope. The lower bearing rope is led to the edge of the system via anchors, the upper bearing rope is stretched individually from post to post. The posts are in a swimming position and are tied back on the mountain side with ropes which are lying on the ground. A ball-and-socket joint forms the base of the post. The head of the post is fixed on the valley side with two retaining ropes. SAFETY BY COMPETENCE Characteristics Due to their modular configuration, the Avalanche Protection Systems by Trumer Schutzbauten GmbH are easy to adapt to topographical features. The easy installation of the net packages, the swimming position of the bases of the posts (no foundation necessary) and the modular configuration mentioned above make the installation of Avalanche Protection Systems by Trumer Schutzbauten GmbH easier, shorten the time of installation and therefore reduce the installation costs up to 30 percent. Advantages One advantage in comparison with conventional triangular nets is the high flexibility of the net which ensures an additional rock-fall protection. The optimal mesh size makes an additional mesh layer redundant. For avalanche protection systems a 7 wired spiral rope is used which has a diameter of 6.0 or 7.5 mm and which is forebent with a curve diameter of approximately 125 to 150 mm. Due to the flexible choice of the anchor points, a low-cost installation is possible, even under most difficult conditions. Slight irregularities in the area can also be managed easily as the net functions as a strong spring between the bearing rope at the head and the bearing rope at the base. The compact net package and the functional support system with the retaining ropes allow easy work on the flight preparations and on the installation. SAFETY BY COMPETENCE APPENDIX – Avalanche Protection Systems SAFETY BY COMPETENCE ,, ,, / / , 1 2 ,, / / , / / / ,, Allgemeintoleranzen: !"# Datum Gez. Gepr. Ges. !"# Zust. Änd.-Nr. Datum /. . 0, TS- Schutzbauten 2D-CAD Ers. f.: Gewicht: Norm $ &% Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor ., ., ., ., Name Maßstab: Werkstoff: Rohteil: Halbzeug: Benennung: Zchng. Nr.: ,, ,, Ers. d.: $ ( % ' # )*+ ), Format Blatt C von Bl. # & ' # ) ! " # $ & ' ) ! % ! % % ( % ( *+ % $ ! % ! ( %$ ! Allgemeintoleranzen: Gez. Gepr. Ges. Zust. Änd.-Nr. Datum Name Norm Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Datum Gewicht: Maßstab: Werkstoff: Rohteil: Halbzeug: Benennung: TS- Schutzbauten 2D-CAD Ers. f.: Zchng. Nr.: Format Blatt D von Ers. d.: Bl. Rock and Slope Stabilisation Product Description Rock and Slope Stabilisation For Rock and slope stabilisation Trumer Schutzbauten GmbH offers solutions with the following nets and wire nettings: • • • • • Omega-net (wire diameter: 4,5mm, 6,0mm; 7,5mm; 9mm) High performance netting 50/50/4,6 Rectangular nettings 50/50/2,5; 60/60/3,1 Hexagonal nettings 50/70/2,5; 60/80/2,7; 80/100/2,7 Other nettings can be manufactured in other wire diameters and mesh sizes on request. For the connection of nets or nettings and ropes with bar anchors we can offer solutions with clamping and spike plates. These plates allow a non-positive and technically correct connection of the described components. SAFETY BY COMPETENCE Clamping plate without rope connection Clamping Plates Clamping plates ensure lasting and non-positive connection of wire nettings, nets and ropes to bar anchors. The wire netting or net is held in place by being sandwiched between a counter plate screwed to the anchor plate. Clamping the cables to the anchor plate with clips provides the power point. Clamping plate with connection for two ropes Designs: Clamping plate with connection for one rope # Clamping plate without rope connection # Clamping plate with connection for one rope # Clamping plate with connection for two ropes SAFETY BY COMPETENCE Spike plates without rope connection Spike Plates Spike plates are our rock and slope safety solution, which are quick and easy to assemble. Additionally, anchors can be drilled and set through already mounted nets or wire nettings. Corner spikes and welded-on rounds ensure optimum interlocking with nets or wire netting. Clamping the ropes to the spike plate with clips provides the power point. Bottom side of spike plate without rope Designs: Spike plate with one rope connection # Spike plate without rope connection # Spike plate with one rope connection # Spike plate with two rope connections SAFETY BY COMPETENCE APPENDIX – Rock and Slope Stabilisation SAFETY BY COMPETENCE & ( )* ( & ' ( ' Allgemeintoleranzen: Datum Gez. Gepr. Ges. Zust. Änd.-Nr. Datum $" %" Gewicht: Werkstoff: Rohteil: Halbzeug: Benennung: Norm Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor !"#" !"#" Name Maßstab: 2D-CAD TS Schutz - Technik Ers. f.: ! ! Bl. Zchng. Nr.: Format Blatt C von Ers. d.: " $ %& $ " # $ # Allgemeintoleranzen: Datum Gez. Gepr. Ges. Zust. Änd.-Nr. Datum Gewicht: Werkstoff: Rohteil: Halbzeug: Benennung: Norm ! Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Name Maßstab: 2D-CAD TS Schutz - Technik Ers. f.: Zchng. Nr.: Format Blatt C von Ers. d.: Bl. !" # $ Allgemeintoleranzen: Datum Name Gez. Gepr. Ges. Zust. Änd.-Nr. Datum Gewicht: Werkstoff: Rohteil: Halbzeug: Benennung: Norm Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Maßstab: 2D-CAD TS Schutz - Technik Ers. f.: Zchng. Nr.: Format Blatt C von Ers. d.: Bl. " $ $ # %& ' " $ # Allgemeintoleranzen: Gez. Gepr. Ges. Zust. Änd.-Nr. Datum Name Gewicht: Werkstoff: Rohteil: Halbzeug: Benennung: Norm ! Name file Für diese Zeichnung behalten wir uns alle Rechte nach DIN 34 vor Datum Maßstab: 2D-CAD TS Schutz - Technik Ers. f.: Zchng. Nr.: Format Blatt C von Ers. d.: Bl. Gabion System Product Description Gabions Trumer Schutzbauten GmbH sell gabions in various designs. The gabion baskets are made of spot-welded mats or six-meshed double drilled wire nets. Galvanised Mat Baskets Galvanised mat baskets are made of standardized wires (diameter 3.5mm and 4.5mm, also available diameter 5.0mm, 6.0mm or others / mesh size 50x50mm, 50x100mm and 100x100mm, other sizes available). The tensile strength of the wires is approximately 650 – 800 N/mm²) The mats are produced in different sizes (e.g. 1x1, 1x0.5, 1x2, 1x2.5, 1x3, 1x3.5, 1x4). They are connected with joint spirals, the tensile rods guarantee additional stability. The mat baskets can be easily and quickly installed. SAFETY BY COMPETENCE Product Description Single components SAFETY BY COMPETENCE Omega-Net The Omega-Net consists of individual, pre-wave formed and interwoven strands of rope. The strands are made of thick galvanized spiral ropes, which - although meeting at intersecting points - are not connected to each other, since no clamps are used. Delivery is in compact packages, which can be pulled apart like a curtain, to protect against e.g. falling rocks or avalanches. Parameters Strand diameter [mm] Sheet diameter [mm] Mesh size [mm] Tensile strength of one strand [N/mm²] Material mass [kg/m²] 4,5/100 4,5 110 ~100 1700 ~2,6 6/135 6 135 ~120 1700 ~3,6 7,5/135 7,5 135 ~120 1700 ~5,6 9/185 9 185 ~170 1640 ~6,0 Corrosion prevention Thick galvanisation: Zinc layer appr. 250g/m² Sizes The Omega-Net is usually custom-made for individual projects. This enables clients to specify lengths and widths at the time of placing an order. Additionally, Omega nets can be manufactured, in other rope diameters and mesh sizes on request. SAFETY BY COMPETENCE High Performance Netting 50/50/4,6 Technical Details High Performance Netting 50/50/4,6 DIN 1548 Tensile strength: lengthwise: min. 173 KN/m crosswise: min. 173 KN/m Mesh number: horizontal: 26 m-1 vertical: 26 m-1 Mesh type: rectangle Mesh size: 50x50 mm Wire quality: diameter: 4,6 mm tensile strength: 400-500 N/mm² Corrosion prevention: thick galvanised: 250 g/m² Tensile Standard: DIN 177 Weight: appr. 5,6 kg/m² Delivery sizes: Reel width: 1,50m, 1,75m, 2,00m, 2,25m, 2,50m, 2,75m, 3,00m Reel length: 6,00m Testing Under the control of the Institute for Mining Engineering at the University of Leoben, the diagonal wire netting 50/50/4.6 was tested successfully for energy impacts up to 167kJ. The diagonal wire netting took those energy impacts without a breaking of wires. SAFETY BY COMPETENCE Rectangular Nettings Details Mesh size Wire thickness Tensile strength Length Width 50/50/2,5 50x50mm 2,5mm 400-550N/mm² 25,0m 2,0m 60/60/2,5 60x60mm 2,5mm 400-550N/mm² 25,0m 2,0m 60/60/3,1 60x60mm 3,1mm 400-550N/mm² 25,0m 2,0m Corrosion prevention Normal galvanisation: Thick galvanisation: Zinc layer appr. 60-80g/m² Zinc layer appr. 250g/m² Special sizes In case of demand, all mesh layers can also be delivered with different width, length, mesh size or wire thickness. SAFETY BY COMPETENCE Hexagonal Nettings Details 60/80/2,7 80/100/2,7 60x80mm 80x100mm Mesh size 2,7mm 2,7mm Wire thickness Tensile strength 400-550N/mm² 400-550N/mm² 50,0m 50,0m Length 2,0m 2,0m Width Corrosion Prevention Thick galvanisation: Zinc layer appr. 250g/m² Special sizes In case of demand, all nets can be delivered with different width, length, mesh size or wire thickness. SICHERHEIT DURCH KOMPETENZ Game Protection Wire Netting Light Game Protection Wire Netting Node nets can be used in many different ways. Various mesh sizes and fence hights are available. Due to special winded nodes and the waving of the lengthway wires, the light game protection wire netting can be easily installed and stretched. Heavy Game Protection Wire Netting The heavy game protection wire netting is a nearly indestructible node net that is mainly used when extremely strong and durable fences are needed. Please ask for measures and prices SICHERHEIT DURCH KOMPETENZ Brake Element AVT-phx SAFETY BY COMPETENCE Wire Pack Anchor WPA Wire pack anchors are used anchoring bearing and retaining ropes in falling rock and avalanche protection systems, in which the direction of the anchor - for drilling and/or systems reasons - does not correspond with cable forces. In the event of loading, this causes bending of the anchoring loop, where it exits the borehole. Wire pack anchor design Wire pack anchors consist of a bundle of parallel leading contoured wires, diameter 6 mm, which at a distance of 1.0 to 1.5 m are spread and at the same time spaced from the bore hole wall by means of a spacer (outside diameter 65 mm). This results in optimum adhesion to the cement mortar. The wire bundle is characterized by rodlike rigidity for relocation. The wire bundle loop, covered with a corrosion-proof steel tube may be angled up to 45° around a rock edge, without reducing the wire bundle anchor’s breaking force. SAFETY BY COMPETENCE Spacing of wires Wire pack anchor loop 500, 30° Spreading of wires Corrosion prevention The cement-filled, corrosion proofed steel tube ensures the wire bundle’s optimum protection against corrosion in the loop area. Inside the borehole the wire bundle is protected against corrosion by the cement mortal. To increase corrosion proofing, the wire bundle may be placed inside a corrugated PE jacket tube (outside diameter 65 mm), which has been preinjected with cement mortar at the plant or is directly filled inside the borehole. To create distance towards the wall of the borehole, wall cleat band spacers (outside diameter 85 mm) are mounted at a distance of 1.0 to 1.5 m, which together with the exterior injection duct measuring 16 x 12 mm, results in a maximum anchor diameter of 95 mm. Wire pack anchor WPA 500 with PE jacket tube and cleat band spacers SAFETY BY COMPETENCE Proven performance The bearing capacity and the fitness of use of the wire pack anchors was demonstrated in several tests supervised by the Swiss Federal Laboratory for Materials Testing and Research, the “EMPA.” (EMPA confirmation no. 434,797 dated July 9, 2004.) The breaking load of the loop at deflection and point of force is greater than the breaking strength of the wire bundle itself. Wire pack anchor WPA 500 45° deflection, breaking of wire bundle at tensile load of 500 kN. No reduction of breaking strength at deflection point or attachment location of loop Shipment Standard production of wire bundle anchors for mounting and connecting technology occurs in breaking strengths measuring between 300 to 800 kN, in 100 kN intervals, installation lengths of 3 to 8 m and integrated injection duct measuring 16 x 12 mm. Loop casing measurements: • Wire pack anchor WPA 300 and wire pack anchor WPA 400: tube 26.9 x 2.6 mm, outside diameter of loop, 110 mm • Wire pack anchor WPA 500 to wire pack anchor WPA 800: tube 33.7 x 3,2 mm, outside diameter of loop 135 mm The loop can be shipped straight or pre-bent at 45°. Installation The mounting depth is marked red on the loop (loop projection 250 mm). At the loop end, wire bundle anchors for mounting and connecting technology are marked in colour for each unit of force: SAFETY BY COMPETENCE WPA 300 white WPA 400 blue WPA 500 yellow WPA 600 green WPA 700 black WPA 800 orange Table of forces Cross section Number Type Mass of wires DBA DBA Ø 6mm As [mm²] m [kg/m] Yield load Break load Fsk [kN] Fpk [kN] WPA 300 6 170 1,35 258 300 WPA 400 8 226 1,80 344 400 WPA 500 10 283 2,20 430 500 WPA 600 12 340 2,75 517 600 WPA 700 14 396 3,10 602 700 WPA 800 16 453 3,55 689 800 Mass table Mass [kg] WPA 300 WPA 400 WPA 500 WPA 600 WPA 700 WPA 800 2m 8,0 9,0 10,0 11,0 12,0 13,0 3m 9,5 11,0 12,5 14,0 15,5 17,0 4m 11,0 13,0 15,0 17,0 19,0 21,0 Length 5m 12,5 15,0 17,5 20,0 22,5 25,0 S AFETY BY COMPETENCE 6m 14,0 17,0 20,0 23,0 26,0 29,0 7m 15,5 19,0 22,5 26,0 29,5 33,0 8m 17,0 21,0 25,0 29,0 33,0 37,0 Advantages • • • • Flexibility comparable to cable bolt with bends up to 45° Can also be shipped pre-bent up to 45° Rigidity comparable to bar anchor when changing location Short anchor length due to optimum adhesion of profiled wires Graduated strengths in 100 kN levels from 300 to 800 kN breaking load S AFETY BY COMPETENCE Screwable Eyelet Frame S AFETY BY COMPETENCE