Machinery and equipment from a single source.
1 Machinery // Product range Machinery and equipment from a single source. ThyssenKrupp Bautechnik 2 3 Contents 5 High-tech products and integrated services 6 Driving, extracting, drilling and pressing technology 7 – 25 7 8 11 12 13 14 17 18 19 20 21 22 23 Solutions by MÜLLER MÜLLER Vibrators Parameters, equipment selection and operating principle MÜLLER Vibrators H-series MÜLLER Vibrators HHF-series MÜLLER Vibrators HFV-series MÜLLER Excavator-mounted vibrators MÜLLER Power packs MÜLLER Leader-mounted vibrators MÜLLER Drill drives MÜLLER Clamping devices MÜLLER Data acquisition MÜLLER Accessories MÜLLER Special equipment 26 – 39 26 27 28 29 30 31 32 33 34 35 36 Solutions by ABI / BANUT / DELMAG ABI MOBILRAM Systems ABI Telescopic leader mast ABI Fixed leader mast ABI Vibrators ABI Hydro-Press-System ABI Drilling equipment ABI Add-on auger drives ABI Clamp assemblies BANUT Fixed leader mast DELMAG Drilling rigs DELMAG Diesel hammers 37 – 39 37 Solutions by GIKEN GIKEN Silent Piler 40 – 41 40 41 Special construction machinery MENCK Free-fall hammers Telescopic crane leader 683 TP 42 – 45 42 43 44 Drilling systems Anchor drilling rigs KRUPP Hydraulic hammer drills KRUPP Double-head drilling systems and drilling rigs 46 Construction equipment online 4 5 ThyssenKrupp Bautechnik is the leading supplier of integrated systems for marine and civil engineering works – a highly regarded partner for infrastructure projects worldwide – with proven engineering skills. When it comes to mobility, urbanisation, climate change or efficient use of resources, our products and services portfolio enables us to offer bespoke, economic design solutions for the sustainable ongoing development of our environment. High-tech products and integrated services Key elements in our range of integrated system solutions are the sale and hire of steel sheet piling, machinery, anchor equipment and flood protection. As an all-round supplier, we can provide many different products from many different manufacturers. Our catalogue for engineers, developers and contractors is complemented by a comprehensive package of consulting, technical support, logistics, leasing and financing services. This broad, tailored range from one source enables us to create added value for our customers so that they can operate successfully in the market. Sustainability is a very important topic for us. Our steel products comply with the strictest environmental guidelines and have a neutral life cycle assessment. They are produced without depleting energy resources, can be installed without environmental impact, are easy to deconstruct and are almost fully recyclable. Our driving and extracting equipment is quiet and uses energy sources with low CO2 emissions. As a ThyssenKrupp company, we belong to a technology group with worldwide operations and a vast knowledge of materials. Innovative strengths, technical expertise and a global network ensure a firm foundation for our activities. 6 Driving, extracting, drilling and pressing technology. Everything technically possible. Using the right machinery and technology is the key to economic working. That is why we provide not only piling materials, but also equipment and accessories, plus a convincing engineering concept. And that adds up to a tailored, integrated portfolio suitable for the most diverse site conditions. Many different techniques can be used to install pile sections. Vibratory driving and pressing are among the most important methods. We can supply a wide range of suitable machinery in many variations and power categories to suit the requirements of the site. Vibratory driving This is one of the most important methods used in specialist civil engineering. It is based on the principle of turning the soil into a liquid state to a certain extent. This is done by vibrating the pile section. The vibrations reduce the skin friction of the pile section being installed, which achieves rapid driving progress. Vibrators can be leader-guided, suspended from a crane or mounted on an excavator. Impact driving Impact driving methods can be used in almost every type of soil. However, these methods are particularly suitable for driving the final few metres or for embedding piles in a loadbearing stratum when vibratory or pressing methods are ineffective. Impact driving allows the loadbearing capacity of the pile section to be verified. Drilling Drilling is mostly used for concrete piles. It can also be used in conjunction with soil improvement measures. Pressing This method involves exerting an exclusively static pressure on the pile section without any vibration. The noise associated with driving piles and the negative effects of vibration for neighbouring buildings and the ground are therefore avoided. Pressing equipment can be leader-guided or mounted directly on top of the sheet piles. Solutions by MÜLLER 7 MÜLLER Vibrators. Proven power “made in Germany”. Quelle: Alpha Ventus Press picture MÜLLER vibrators have a proven track record in civil engineering stretching back more than 50 years. As leading-edge vibratory products they meet all market requirements. Suitable for a wide range of applications, their reliability and constant development make them a relevant market factor. 8 Solutions by MÜLLER Parameters, equipment selection and operating principle. Ensuring top performance. Equipment selection The chart below helps users to select the right vibrator or determine the centrifugal force required depending on soil conditions, pile weight and driving depth. Choosing the right machine is crucial for the economic and technical success of vibratory driving. In order to find the most suitable equipment, we offer our customers individual support that takes into account all relevant factors, i.e. the site conditions plus the geological and engineering requirements. The use of additional equipment, e.g. water-jetting or pre-drilling units, can help to achieve much better driving performance with the same size of unit or centrifugal force of the vibrator. Parameters Selecting a suitable vibrator essentially depends on the size and weight of the pile section, the embedment depth and the type of soil. Basically, the centrifugal force and the amplitude must be chosen in such a way that the skin friction and tip resistance between the pile section and the surrounding soil can be overcome. The power pack must be powerful enough to generate the moment needed to maintain the centrifugal force of the vibrator, even in difficult ground. The drive output should be 2–3 kW for every 10 kN of centrifugal force. Our advisers use numerical simulation software for selecting equipment to suit the soil parameters and pile section data exactly. Equipment selection chart MS-10 HFV Type MS-5 HFBV MS-16 HFV MS-25 H2/H3 MS-10/17 HF (B) MS-25 HHF Centrifugal force kN MS-24 HFV MS-50 H2/H3 MS-50 HHF MS-32 HFV MS-48 HFV MS-62 HFV MS-100 HHF MS-120 HHF MS-200 HHF 200 400 600 800 1000120014001600180020002200240026002800300032003400360038004000 Centrifugal force kN 5 1 10 2 3 15 4 5 6 25 ver y de 30 me 35 loo 40 45 50 Example Weight of double pile: 3.0 t Driving depth: 17 m Vibrator selected for medium-dense soil = MS-50 HHF se so diu il ns m- es de ns oil es 7 oil (cl ay) 8 9 de ns es 10 oil 11 12 Pile weight [t] Driving depth [m] 20 Solutions by MÜLLER Operating principle of Müller vibrators (typical design) Suspension Power pack Diesel-hydraulic Vibration isolator (spring suspension unit) Elastic hose bracket Hydraulic power hoses Eccentric Exciter block Hydraulic clamping device Gdyn Pile Key vibration technology data Eccentric moment M [kgm] Total amplitude S [m] The eccentric moment is the measure of unbalance. As a determining factor for amplitude it is a key parameter for driving operations. M=G·r S = 2s = r Speed (Frequency) n [rpm] n 2 ) 30 [kg] a = s · w2 with w = π · The centrifugal force must be high enough to overcome surface friction between pile and soil. Centrifugal force plays a major part in reducing surface friction and provides impact force to overcome tip resistance. n 30 Transmission of the pile acceleration to the surrounding soil causes the displacement of the grain structure and reduces grain friction and soil resistance. Acceleration is expressed as the ratio of acceleration of the vibrator to gravity: Centrifugal force F = [N] F = M (π · [kgm] Acceleration a [m/sec2] The speed dictates the vibration frequency of the system. The vibrations are transferred via the pile to the surrounding soil, significantly reducing the surface friction between pile and soil. High frequencies counter the unwanted spread of vibrations in the soil. F = M · w2 ∑ Gdyn Together with centrifugal force, amplitude is a measure of driving performance. A large “stroke” and high “impact force” ensure good driving progress. When driving and extracting in cohesive soils, the elastic connection between pile and soil can only be broken if the amplitude is high enough. G 2 · Mstat h = a g This ratio corresponds to: The value can lie between 10 and 30. h= F · 10–1 Gdyn 9 10 Solutions by MÜLLER MÜLLER H-, HHF- or HFV-series vibrators. The right choice for every application. The H series is the “workhorse” of vibration technology. Their robust yet simple design enables these units to be used wherever there are no restrictions on the propagation of vibrations in the soil. With an eccentric moment that can be adapted to the soil conditions, the HHF series is ideal for applications with changing geological conditions. The largest units of this series are suitable for driving even the heaviest sheet piles into dense, compact soils. The eccentrics can be adjusted during driving, and so the HFV series is ideal wherever maximum restrictions on the propagation of vibrations in the soil apply, e.g. working directly adjacent to existing buildings or in urban areas. These units avoid resonant vibrations during starting and stopping and also allow the amplitude to be optimised during driving to suit the ground conditions. Principle of resonance-free starting and stopping Vibrator with variable eccentric moment Ground vibration t Vibrator with fixed eccentric moment Ground vibration Excess vibration t 2000 1000 Frequency Resonance frequencies Resonance frequencies t 0 Starting phase Operating time Driving / extracting time Total operating cycle time Stopping Solutions by MÜLLER 11 MÜLLER Vibrators H-series. With fixed eccentric moment. Müller vibrators with constant amplitude – straightforward to use and robust. That is the foundation for good results in moderately difficult driving conditions. These vibrators are fitted with eccentrics that generate a fixed eccentric moment. With force-feed lubrication and oil cooling, this series is equipped for applications in extreme climatic conditions. Applications • Soils with light to moderately difficult driving conditions • Driving and extracting tubular piles • Also in extreme climatic conditions Advantages • Extremely robust machine design • Easy handling and easy adjustment of clamping devices Type MS-25 H3 Centrifugal force MS-35 H3 MS-50 H3 MS-65 H3 1670 F (max.) kN 774 834 1430 M stat kgm 25 32,5 50 65 Speed n (max.) rpm 1680 1530 1615 1530 Frequency f (max.) Hz 28.0 25.5 26.9 25.5 F pull (max.) kN 400 400 500 500 without clamping device kg 2550 2660 3820 4200 Eccentric moment Pulling force Weight (dynamic) Weight (total) Amplitude Displacement without clamping device kg 3600 3600 8050 8200 without clamping device/pile mm 19.6 24.4 26.2 31.0 Q Motor (max.) l/min 425 463 / 386 719 680 Pressure p (max.) bar 350 350 350 350 Power consumption p (max.) kW 248 270 / 228 419 397 Dimensions Length L mm 2250 2250 2800 2800 Width B mm 777 777 678 678 Height H mm 1745 1745 2105 2105 Throat T mm 402 402 402 402 Type MS-A 260 260 420 420 200 Power pack Single clamping device Double clamping device Type MS-U 100 100 180 alternative Type MS-U 150 150 – 250 Type MS-U 2 x 54 2 x 54 2 x 90 2 x 100 alternative Type MS-U 2 x 90 / 100 2 x 100 Fixed eccentric moment F limit n limit F Centrifugal force speed n 12 Solutions by MÜLLER MÜLLER Vibrators HHF-series. Two in one. Applications • Soils with moderate to heavy driving conditions • Suitable for heavy piles The vibrator can be adapted quickly to different soil conditions by a simple system of adding or removing weights, allowing the eccentric moment to be varied. For example, if high frequency is required for work in loose sand, the additional weights can be removed simply on site to achieve high frequencies with the same centrifugal force. Type Centrifugal force Eccentric moment Advantages • Adding or removing weights • Quick changeover • Quickly adapted to different soil conditions MS-25 HHF MS-50 HHF MS-100 HHF MS-120 HHF MS-200 HHF MS-240 HHF F (max.) kN 750 1500 2500 3003 4000 5160 M stat (max.) kgm 25 50 100 116 190 240 48 / 60 / 80 / 100 80 / 94 / 110 / 116 (98)/110/150/190 151/193/218/240 kgm 12 / 15 / 20 / 25 24 / 30 / 40 / 50 Speed steps n (max.) rpm 2170 / 2113 / 2362 / 2113 / 2160 / 1920 / 1850 / 1700 / (1800) / 1800 / 1770 / 1560 / Speed steps n (max.) rpm 1830 / 1637 1830 / 1637 1670 / 1500 1570 / 1536 1560 / 1371 1470 / 1400 Frequency steps f (max.) Hz 39.3 / 35.2 / 39.3 / 35.2 / 36 / 32 / 30.9 / 28.3 / 30 / 26 / 29.5 / 26 / 24.5 / 23.4 Steps (see illustration) Frequency steps f (max.) Hz 30.5 / 27.3 30.5 / 27.3 27.8 / 25 26,2 / 25,6 22.9 F pull (max.) kN 280 500 600 1200 1200 1200 Weight (dynamic) without clamping device kg 2900 4500 7700 8900 11750 12010 Weight (total) without clamping device kg 3700 6100 10900 15500 18500 19000 Amplitude (steps) without clamping device/pile mm 8.3 / 10.3 / 10.7 / 13.3 / 12.5 / 15.6/ 18.0 / 21.1/ 16.7 / 18.7 25.1 / 32.1 / Amplitude (steps) without clamping device/pile mm 13.8 / 17.2 17.8 / 22.2 20.8 / 26.0 24.7 / 26.1 25.5 / 32.4 36.3 / 40.0 Q Motor (max.) l/min 298 / 470 610 / 964 1045 / 1286 989/1150/1534 1435 / 1680 1770 p (max.) bar 350 350 350 350 350 350 Pulling force Displacement Pressure Power consumption P (max.) kW 174 / 274 356 /562 610 / 750 577 / 671 / 895 837 / 980 1032 Dimensions Length L mm 1800 2260 2410 2300 2300 2300 Width B mm 813 888 846 1200 1430 1510 Height H mm 1885 2465 3235 4135 4170 4190 Throat T mm 360 350 500 832 832 832 Type MS-A 260 420 / 570* 700 / 840* 840 / 1050* 840 / 1050* 1050 Power pack Single clamping device Double/quadruple clamping device * Type MS-U 90 180 360 360 – – alternative Type MS-U 100 200 – – – – Type MS-U 2 x 54 2 x 90 2 x 150 2 x 180 2 x 250 4 x 180 alternative Type MS-U 2 x 70 2 x 100 2 x 180 – – 4 x 250 Combination for increased performance Stepwise variable moment F limit M stat >M stat >M stat >M stat n limit F Centrifugal force speed n Solutions by MÜLLER 13 MÜLLER Vibrators HFV-series. Variable and resonance-free. Applications • Inner-city civil engineering works • Areas sensitive to vibration • Chiefly sandy soils The vibrators of this series ensure maximum performance for minimum ground vibration and are therefore ideal for applications in inner-city civil engineering works or in areas sensitive to vibration – guaranteed by the resonance-free starting and stopping. In addition, the amplitude can be infinitely varied during operations. The natural frequency of the soil can therefore be taken into account – driving proceeds effectively and at the same time with little vibration. MS-10 HFV Type Centrifugal force MS-16 HFV Advantages • Minimal ground vibrations • Optimum adaptation to soil conditions • Technology that’s easy-going on equipment and environment MS-20 HFV MS-24 HFV MS-28 HFV MS-32 HFV MS-40 HFV MS-48 HFV MS-62 HFV F (max.) kN 610 968 1230 1480 1473 1980 2006 2960 2998 M stat (variabel) kgm 0–10 0–16 0–19,5 0–24 0–28 0–32 0–39,2 0–48 0–62 Speed n (max.) rpm 2358 2370 2400 2350 2190 2375 2160 2350 2100 Frequency f (max.) Hz 39.3 39.5 40.0 39.2 36.5 39.6 36.0 39.0 35.0 F Zug (max.) kN 180 300 300 400 500 600 600 600 800 without clamping device kg 1700 2565 2530 2900 3120 4850 4870 6520 6805 without clamping device kg 2300 3530 3600 5050 5320 7250 7280 9700 11165 without clamping device/pile mm 11.8 12.5 15.4 16.5 18.0 13.2 16.1 14.7 18.2 147 / 203 297 / 408 413 404 / 551 428 / 514 570 / 685 630/756 682 / 823 980 / 735 253 / 348 708 693 / 945 734 / 880 1045/1175 1080/1296 1170/1410 1680/1260 Eccentric moment Pulling force Weight (dynamic) Weight (total) Amplitude Power consumption Displacement P (max.) kW Q Motor (max.) l/min 508 / 699 Pressure p (max.) bar 350 350 350 350 350 350 350 350 350 Dimensions Length L mm 1635 2080 2080 1920 1920 2371 2371 2371 2371 Power pack Single clamping device Double clamping device * Width B mm 732 782 782 893 893 800 880 1123 1180 Height H mm 1530 2060 2060 2240 2240 2455 2455 2525 2525 Throat T mm 330 350 350 451 451 345 345 860 860 Type MS–A…V 170/260* 260/420* 420 420/570* 420/570* 570/700* 700/840* 700/840* 1050 Type MS-U 72 150 180 250 250 360 360 alternative Type MS-U 100 Type MS-U 2 x 54 2 x 70 2 x 90 2 x 90 2 x 90 2 x 150 2 x 150 2 x 180 2 x 180 alternative Type MS-U 2 x 70 2 x 90 2 x 100 2 x 100 2 x 100 150 180 2 x 180 Combination for increased performance Variable eccentric moment F limit F = 100 % Variable speed gears n limit F Centrifugal force F = 75 % F=0% speed n 14 Solutions by MÜLLER MÜLLER Excavator-mounted vibrators. Compact all-rounders. The compact, lightweight MÜLLER excavator-mounted vibrators can be attached to all common excavators. The power comes from the on-board hydraulics and the units are controlled by the excavator’s control levers. Various models (HFB, HFBV, HFBS) and useful accessories are available to suit the most diverse applications. Applications • General driving, extracting and compacting work (MS-2 to -9 HFB) • Suitable for sheet piling and tubular piles with a modified clamp arrangement (MS-4 -6,-7 and 9 HFB) • Installation of plastic and timber piles, lightweight sections, reinforcing cages (MS-1 HFB) • For vibration-sensitive projects or inner-city areas (MS-5 HFBV, MS-7 HFBV, MS-8 HFBV, MS-10 HFBV) • Jobs in heavy soils (MS-9 HFB, MS-17 HFB) • Pile sections can be picked up and set down directly with the clamp (MS-4 to -7 HFBS) Advantages • Small and compact • All vibrators are fitted with a safety circuit • Quiet and universal in application • Extremely low height allows driving of long piles • High push/pull forces increase driving performance • All clamps can be rotated through 90° to allow face working • Easy to attach • Option: double clamping devices can be fitted for driving tubular piles • Option: cooling system • Option: monitoring of operating data • Option: modified for operation with power pack Solutions by MÜLLER 15 Technical data at a glance. MS-HFB / MS-HFBS with fixed eccentric moment. Type Centrifugal force MS-1 HFB MS-2 HFB MS-3 HFB MS-4 HFB MS-6 HFB 464 F (max.) kN 90 245 296 374 M stat (max.) kgm 0.7 2.2 3.0 4.2 6.5 Frequency f (max.) Hz 56.0 53.1 50.0 47.5 42.5 Speed n (max.) rpm 3360 3185 3000 2850 2550 120 Eccentric moment Pulling force Push down Power consumption F pull (max.) kN 34 60 60 120 F push (max.) kN 34 40 40 80 80 P (max.) kW 60 61 70 100 119 kg 350 815 830 1230 1240 kg 230 570 585 940 950 mm 6.1 7.7 10.3 8.9 13.7 Total weight (incl. clamping device) Dyn. weight (incl. clamping device) Amplitude Displacement Q Motor (max.) l/min 102 105 120 171 204 L mm 722 1153 1153 1239 1239 Width B mm 472 623 623 742 742 Height (incl. clamping device) H mm 761 1024 1024 1249 1249 Length Width at throat T mm 230 260 260 340 340 Standard clamping device Type MS-U 12 40 40 60 60 Recommended power pack Type MS-A 110 110 Type Centrifugal force MS-7 HFB MS-9 HFB MS-17 HFB MS-4 HFBS MS-6 HFBS MS-7 HFBS 604 F (max.) kN 604 606 604 378 464 M stat (max.) kgm 7.0 8.5 17.0 4.2 6.5 7.0 Frequency f (max.) Hz 46.7 42.5 30.0 47.5 42.5 46.7 Speed n (max.) rpm 2800 2550 1800 2850 2550 2800 150 Eccentric moment Pulling force Push down Power consumption F pull (max.) kN 150 150 140 120 120 F push (max.) kN 80 80 170 80 80 80 P (max.) kW 130 133 158 100 119 130 kg 1300 1380 2208 1360 1370 1380 Total weight (incl. clamping device) Dyn. weight (incl. clamping device) kg 950 990 1453 1110 1120 1130 mm 14.7 17.2 19.8 7.7 11.6 12.4 Q Motor (max.) l/min 224 229 270 171 204 224 L mm 1239 1239 1714 1410 1410 1410 Width B mm 742 762 917 697 697 697 Height (incl. clamping device) H mm 1249 1249 1461 1250 1250 1250 Amplitude Displacement Length Width at throat T mm 340 340 340 – – – Standard clamping device Type MS-U 72 72 72 60 60 72 Recommended power pack Type MS-A 170 170 170 110 110 110 The maximum operating pressure for all excavator-mounted vibrators is 350 bar. 16 Solutions by MÜLLER Technical data at a glance. MS-HFB / MS-HFBS with variable eccentric moment. Type MS-5 HFBV* MS-7 HFBV* MS-8 HFBV* F (max.) kN 400 478 585 588 M stat (max.) kgm 0–5 0–6.7 0–8 0–9.8 f (max.) Hz 45.0 40.0 43.0 39.0 Centrifugal force Eccentric moment Frequency Speed MS-10 HFBV n (max.) rpm 2700 2400 2580 2340 F pull (max.) kN 120 120 150 150 F push (max.) kN 80 80 150 150 P (max.) kW 95 / 126 112 / 126 165 / 120 167 / 148 Total weight (incl. clamping device) kg 1580 1600 1815 1865 Dyn. weight (incl. clamping device) kg 1130 1150 1295 1340 Pulling force Push down Power consumption Amplitude (incl. clamping device) mm 8.8 11.3 12.4 14.6 Displacement five connecting hoses Q Motor (max.) l/min 162 / 216 204 / 230 283 / 206 293 / 257 Displacement three connecting hoses Q Motor (max.) mm 180 / 240 220 / 250 300 / 220 – L mm 1350 1350 1554 1554 Width B mm 707 707 761 761 Height (incl. clamping device) H mm 1423 1419 1457 1457 415 Length Width at throat T mm 390 390 415 Standard clamping device Type MS-U 60 60 72 72 Recommended power pack Type MS-A 110 V 110 V 170 V 170 V The maximum operating pressure for all excavator-mounted vibrators is 350 bar. * Option: with three or five connecting hoses Equipment selection chart 60 15 MS-17 HFB MS-10 HFBV MS-8 HFBV MS-7 HFBV MS-7 HFB / HFBS MS-5 HFBV 130 100 80 12 10 200 60 50 The relation between excavator weight and power can vary. 8 5 1 2 3 4 5 6 7 Eccentric moment (kgm) 8 9 10 30 25 17 Excavator engine power (kW) MS-2 HFB 18 MS-3 HFB 21 230 160 MS-1 HFB Excavator weight (t) 25 MS-4 HFB / HFBS 30 MS-6 HFB / HFBS 42 MS-9 HFB 300 Solutions by MÜLLER 17 MÜLLER Power packs. Power and intelligence. Power packs are needed to drive hydraulic vibrators. Inside a soundproofed housing, a diesel engine drives the hydraulic pump that ensures the necessary flow of oil (required by the hydraulic motor) via hoses to the vibrator. Every integral diesel engine is a low-noise, low-maintenance unit complying with the latest emissions regulations. Operations can be optimised and monitored via a programmable control connected via cable or a radio link. As an option, operating parameters and machine data can be called up remotely via a data modem. Advantages • Small, lightweight design with closed oil circuit • Good reliability thanks to the use of diesel engines, pumps, controls and other components all well-proved in on-site operations • Comprehensive range of accessories, e.g. teleservicing package, winter package, or bypass fine filter MS-A 110 (V)* Type Diesel motor Type Exhaust certification MS-A 170 (V)* MS-A 260 (V)* MS-A 420 (V)* MS-A 570 (V)* MS-A 570 (V)* MS-A 700 (V)* MS-A 840 (V)* MS-A 1050 (V)* MS-A 1150 (V)* 2 x CAT 2 x V-Penta CAT CAT CAT CAT CAT Volvo-Penta 2 x CAT 2 x CAT ATAAC C 4.4 C 6.6 C9 C 15 C 18 TAD 1643 VE C 13 C 15 C 18 TAD 1643 VE EU/EPA IIIA / Tier 3 IIIA / Tier 3 IIIA / Tier 3 IIIA / Tier 3 IIA / Tier 2 II / Tier 2 IIIA / Tier 3 IIIA / Tier 3 IIIA / Tier 3 Power P (max.) kW 106 168 261 433 571 565 708 866 1044 III / Tier 2 1130 Speed n (max.) rpm 2200 2200 2200 2000 1800 1850 2100 2100 2100 1850 Feed rate Q (max.) l/min 270 310 525 740 1050 1050 1180 1480 1680 2100 Operating pressure p (max.) bar 380 380 380 380 380 380 380 380 380 380 Fuel tank capacity l 400 400 550 900 1050 1050 1400 2200 2200 2200 Hydraulic tank capacity l 250 250 250 280 440 440 500 600 600 600 Hydraulics Weight without fuel Dimensions kg 4000 4000 5000 6200 8500 8500 10300 12500 13500 13800 Length L mm 3000 3000 3700 4250 4750 4750 4800 5300 5300 5300 Width B mm 1400 1400 1490 1700 2000 2000 2200 2400 2400 2400 Height H mm 2100 2100 2340 2450 2400 2370 2450 2570 2570 2595 * optionally with variable amplitude 18 Solutions by MÜLLER MÜLLER Leader-mounted vibrators. For tight spaces. MÜLLER leader-mounted vibrators are the specialists for tight corners. They are mounted on leaders and offer contractors an adjustable moment plus resonance-free starting and stopping. Applications • Driving and extracting sheet piles, tubular piles and H-sections • Foundation methods such as compacted gravel or sand columns • Driving and extracting single sheet piles with small dimensions Advantages • Compact design • Driving and extracting on cramped sites • Resonance-free starting and stopping • Minimum vibrations and emissions Type MS-16 HFMV Centrifugal force Eccentric moment Speed Frequency MS-20 HFMV MS-30 HFMV F (max.) kN 986 1160 1535 M stat kgm 0–16 0–20 0–30 n (max.) rpm 2370 2300 2160 36.0 f (max.) Hz 39.5 38.4 Pulling force F pull (max.) kN 180 180 300 Total weight incl. clamping device kg 3980 4110 5690 Dimensions Height (excl. clamping device) H mm 1710 1710 2146 Throat T mm 455 455 550 Type MS-U 150 150 180 Standard clamping device The operating pressure for all leader-mounted vibrators is max. 350 bar. Solutions by MÜLLER 19 MÜLLER Drill drives. Rounding off the range. These robust, low-noise drilling units are quickly and easily attached to the stick of an excavator. Attachment to a leader or fitting in the clamp of a vibrator are available as options. Applications • Pre-drilling to loosen and relieve the ground • Heavy soils Advantages • Various mounting options • Fast, cost-effective drilling • Powerful, robust, long life Type MS-RHA 12 3* MS-RHA 16 3* MS-RHA 24 3* MS-RHA 34 3* MS-RHA 46 3* 4600 Torque (max.) da Nm 1200 1600 2400 3400 Speed (max.) rpm 125 115 110 100 70 Oil pressure (max.) bar 350 350 350 350 350 600 Displacement (max.) l/min 260 350 460 600 Diameter smallest drilling diameter mm 200 200 400 400 400 Diameter largest drilling diameter mm 700 900 1200 1400 1600 Weight without auger/without stand approx. kg 300 360 440 600 760 Drill depth with smallest drilling diameter (max.) m 20 25 14 16 20 Drill depth with largest drilling diameter (max.) m 4 4 2 2 2 * Mounted on excavator stick Options available on request: mounted on leader, fitted in vibrator clamp 20 Solutions by MÜLLER MÜLLER Clamping devices. A safe connection. h d k b f MÜLLER clamping devices Clamping devices connect the pile section, e.g. H-sections or tubular piles, to the vibrator and transfer the vibrations. All units can be rotated through 90° for face working. Adapter plates are available to cope with different clamping arrangements. Clamps to fit over the interlocks of double piles and radial clamps for driving tubular piles are also available. Important for making the right choice: the clamping force of the clamping device must be at least 1.2 times the centrifugal force of the vibrator. g i(max.) a c Applications • As single and double clamps for U-/Z-sections, H-sections and tubular piles • As special clamping devices for specific tasks, e.g. timber piles, concrete piles and small-diameter tubular piles Arrangement of clamps Clamping devices Clamping force kN Clamping pressure bar a c d f g h i. max. IPB min Weight kg 122 260 229 195 195 223 95 – 15 120 50 MS-U 40* 370 300 548 260 400 285 175 – 40 120 190 MS-U 54** 540 350 648 270 515 694 190 730 22 180 440 MS-U 60* 600 300 640 320 480 350 220 – 40 140 260 MS-U 70** 700 350 770 340 580 529 290 820 36 180 615 Type MS-U 12* MS-U 72* MS-U 80/100 A* MS-U 90** Dimensions in mm 720 358 640 320 480 350 220 – 40 140 260 1000 350 751 330 510 350 210 – 40 280 400 900 350 770 340 580 529 290 820 28 180 620 MS-U 100 GP** 1000 350 761 345 610 534 250 780 50 280 750 MS-U 150 GP** 1500 350 892 340 640 554 309 780 45 320*** 920 MS-U 150 AP* 1500 350 902 360 660 580 319 – 40 320*** 940 MS-U 180 GP** 1800 350 903 390 745 645 325 880 80 320*** 1250 MS-U 180 AP* 1800 350 893 390 740 645 314 – 80 320*** 1130 MS-U 200 A* 2000 350 1011 380 880 800 410 – 48 450 1600 MS-U 250 G** 2500 350 1173 400 870 840 410 1150 63 450 2450 MS-U 250 A* 2500 350 1173 395 860 840 380 – 63 450 1950 MS-U 360 A* 3600 350 1255 460 1180 950 520 – 80 400 3130 * for direct bolting ** shiftable on clamping bar *** IPB 300 possible with special equipment Solutions by MÜLLER 21 MÜLLER Data acquisition. Mobile measurement, indication and recording of vibrations. The data acquisition system enables simple and reliable monitoring of the driving process to ensure that the design requirements are adhered to. The system records operating parameters such as operating frequency and vibrator oil pressure. In addition, ground vibrations can be measured via a three-axis geophone according to DIN 4150. When using water-jetting equipment to assist driving, the water pressure and flow rate can also be recorded. MS-DATA The data acquisition equipment is integrated directly into the drive’s control unit. The data can then be sent via cable to a computer on site or via modem and data transmission to an Internet server for safe storage. The data can be called up from any computer with Internet access after entering the necessary password. Bespoke record forms to suit customers’ requirements are also possible. The power pack control automatically regulates the operating parameters of the vibrator so that given vibration limits for ground or buildings are not exceeded. MS-DATA M MS-DATA M is the mobile version of the measuring system for flexible usage without a power pack. The data is transferred to a measuring unit and shown on a display. Vibration limits are easy to set on the device; if these are reached, yellow and red lamps warn the user. The system can also be fitted with a modem for saving the data to an Internet server for further processing. Advantages • Optimum system compatibility – everything from one supplier • Vibration monitoring to DIN 4150 • Constant monitoring of operating parameters • Recording of multiple parameters • Safe data storage to protect against loss • Simple records 22 Solutions by MÜLLER MÜLLER Accessories. The right extras for every application. Bracket So-called X-brackets are available in various sizes for driving large-diameter, heavy, tubular piles. MS-KX 320 / MS-200 HHF Ø 1500 mm Ø 3200 mm MÜLLER safety shackle The MÜLLER safety shackle, available in various sizes, is ideal for picking up piles quickly and safely. At the same time, it guarantees easy, safe pitching of piles. Advantages • Easy to use • Low weight • Twin fastening prevents opening under load Tensile load kN Weight kg MS-SSZ-3 B 30 15 MS-SSZ-4 B 40 24 MS-SSZ-5 B 50 26 Type MÜLLER universal connecting fork for excavator-mounted units This accessory enables MÜLLER excavator-mounted vibrators and drilling units to be attached to the majority of excavators. It is fitted with three different connecting pins. The benefits are the fast changeover from drilling unit to vibrator and the stable construction. Other connecting forks on request. Solutions by MÜLLER 23 MÜLLER winter package for power packs For use in temperatures down to –25°C. The winter package contains: • Preheaters for hydraulic oil and diesel engine cooling water, with external power supply (220–240 V) • Option: set of covers for closing off the unit’s air intakes and air outlets • A reduced air flow through the unit to help the unit reach its operating temperature faster • Operation with some air intakes and air outlets closed depending on the ambient temperature • Better economy thanks to faster deployment and fuel-savings • Furthermore, the components benefit from preheating, which improves their operational readiness and prolongs their service life. MÜLLER fine filters The bypass oil filter is a filter system that supplements the hydraulic filter already fitted. The bypass oil filter is used for the fine filtering of the hydraulic oil. The lower flow rate via the filter means that a much finer filter can be selected than is the case with standard filter elements. Therefore, much finer particles can be removed from the oil than is the case with full-flow oil filters. Bypass filters are available for all MÜLLER power packs. Advantages • Prolongs the life of the hydraulic oil and the system components • Avoids acids in the oil through absorption of water • Fewer malfunctions thanks to the improved cleanliness of the hydraulic oil • Reduced repair costs and downtimes • Reduced load on primary filters and therefore lower maintenance costs Other accessories Timber pile clamping device Stick extension (“goose neck”) Adapter plate / double clamping devices to increase usable piling length for driving tubular piles 24 Solutions by MÜLLER MÜLLER Special equipment. Special expertise. Expert consulting services often make a decisive contribution to success when special challenges have to be met. Our engineers specialised in machine design, control technology and electronics, geotechnical and foundation engineering are available to help you. MÜLLER 5-fold clamping device The adapter plate enables five clamping elements to be attached to five straight-web sections. These are arranged on a radius so that the sections can be clamped and installed simultaneously. This is an efficient way to counter buckling of the section. DYSTAFIT© Dystafit© can be used to optimise soil improvement and rehabilitation measures. It does this by simulating loading cycles, which enables valid statements to be made about the stability of a soil that is sensitive to settlement, subsidence or shifting. In addition, this method is useful for assessing the effects of higher speeds on railway lines. MÜLLER acoustic hood The newly developed acoustic hood reduces noise emissions but does not hamper servicing nor the escape of unwanted heat. Advantages • Lower noise levels • Special access openings permit maintenance and servicing without removing the hood • Additional vertical weight on spring suspension unit • Easy to store and transport Solutions by MÜLLER 25 MÜLLER MS-BDE Autonomous operating data acquisition for excavator-mounted vibrators • Acquisition, storage and read-out of operating data: date, operating hours, max. operating temperature • Helps to comply with service intervals • Easy for customers to use • Compatible with all makes MÜLLER MS-32 HFV vibrator When fitted with a special compacting plate, the MÜLLER MS-32 HFV vibrator can be used for soil compaction. It can even be used underwater. • Variable from 0 to 40 Hz • Special sensors measure r.p.m. and detect angles during the compaction process • Modified for continuous operation and underwater use • Approved for 10° gradient in all directions • Automatic compaction cycle (start/compact/stop) • Optional: radio remote control with automatic display of operating data, amplitude and static moment • Optional: graphic display via MS-DATA and webTK • Powered by MÜLLER power pack MÜLLER MS-U 160 S clamping device • Internal clamping for foundations with thin-wall tubes and very small diameters (d = approx. 120 mm, depending on wall thickness and length) • Does not damage the coating on tubes • Also suitable for use in heavy soils • Reduces the number of operations normally required 26 Solutions by ABI / BANUT / DELMAG ABI MOBILRAM Systems. Mobile in use. The ABI MOBILRAM system offers an innovative and environmentally friendly concept for sheeting and special civil engineering works. The machines excel by high mobility and flexibility as well as safe working. In addition the units are operational very fast – without extended set-up work or installation aids. All common procedures – driving and extracting, drilling, pressing and impact-driving – are practicable. In combination with the optimal attachments a high profitability and environmental compatibility is achieved at the same time. Exclusive distributor for Germany, other countries on request. 27 Solutions by ABI / BANUT / DELMAG 27 ABI Telescopic leader mast. Variable on site. The heart of the ABI MOBILRAM system is a slewable and tiltable leader mounted on a carrier. The leader is used to guide the leader attachments and is available in effective lengths of up to 25 m. The introduction of prestressing and pulling forces provides for high efficiency. Guides with a low play provide for high stability and accuracy, good vibration and noise reduction as well as low wear. Type Applications • Driving and extracting of pile sections • Drilling, pressing and impact-driving Advantages • Sturdy kinematics • Long reach • Takes up high torques • Stability • Compact transport dimensions TM 10/12,5 SL TM 11/14 SL TM 13/16 SL TM 14/17 V TM 16/20 B TM 20/25 SD TM 22 Underground lowering depth mm 2000 2450 2985 1600 2275 0 2500 Leader inclination front/rear Degree max. 4/5 4/5 4/5 4/5 4/5 4/5 4/5 Leader inclination laterally Degree max. 4 4 4 4 4 4 4 Leader slewing range Degree max. 100 ± 100 ± 100 ± 93 ± 90 ± 90 ± 95 ± Prestressing force leader cylinder kN max. 75 90 90 120 120 150 220 Extraction force leader cylinder kN max. 140 175 175 200 200 300 330 Load capacity kg max. 6000 9000 9000 10000 10000 15000 15000 daNm 3000 4500 4500 10000 12000 20000 20000 kN max. 30 50 50 50 50 50/75 50 m/min 45 35 35 35 35 35/30 35 43–47 45–50 53–58 65 90–95 72–75 10300–19200 10900–20650 12200–22700 13850–26000 16600–32050 14250–27260 Torque absorption Auxiliary winch Lifting capacity Rope speed Weight of piling equipment without attachment depending on carrier unit ca. t 33 Dimensions Height min./max. mm 9100–16600 Max. height up to rapid changing device mm 13900 16350 17830 19500 22200 27450 24700 Leader mast guide width mm 450 500 500 500 550 600 600 Leader mast width mm 40 50 50 50 50 50 60 Transport dimensions Length mm 9600 11400 12000 12800 14300 17350 14500 Height mm 3200 3400 3400 3400 3500 3900 3650 Width mm 2550 3000 3000 3000 3000 3400 3000 CAT 323 D SR 25 T SR 35 T-D SR 35 T-D SR 35 T-D SR 50 T SR 45 T-D CAT C7 Scania DC9 CAT C15 CAT C18 CAT C15 CAT C18 CAT C15 CAT C18 CAT C18 CAT C18 IIIA / Tier 3 IIIB / Tier 4i IIIA / Tier 3 IIIB / Tier 4i II / Tier 2 IIIA / Tier 3 Tier 4i 433/470 433/470 570/ 522 563 2x310, 1x125, 2x310, 1x125, 2x310, 1x125, 1 x 200/ 1 x 200/ 1 x 200/ 2 x 350, 2x370, 1x125, 2x370, 1x125, 2x370, 1x125, 1 x 200 1 x 200 1 x 200 1 x 200 2 x 415, 1 x 125, 1 x 200 2 x 570, 2 x 200 Carrier Engine / Option Exhaust certification Engine power Hydraulic flow rate Nominal operating pressure Fuel tank capacity EU Step/ US EPA IIIA / Tier 3 IIIB IIIA / Tier 3 IIIB / Tier 4i kW 187 257 433/470 l/min 2 x 200, 1 x 100 MPa 32 I max. 250 32 33 33 33 32 33 580 920 920 920 740 950 Standard / extendable extendable extendable extendable extendable 340 340 / 560 560 700 560 2300–3800 2340–3840 2300–3800 700* 700* 700* extendable Standard / extendable Pulling force kN 380 340 Track gauge mm 1900–3000 2400 / 2200 – 3300 2400 / 2300–3300 / 2200 – 3300 2200 – 3800 Track shoes width mm 650* 600* / 700 * 600* / 700 * Hydraulic extendable under carriage / Option * Track shoes width (optional): 700, 800, 900 mm 700* 28 Solutions by ABI / BANUT / DELMAG ABI Fixed leader mast. Firmly mobile. This mobile leader provides for fast progress in construction. The design is stable and sturdy at the same time – this is ideal for the application of high forces which provides good working results. The design is not only solid and safe, but also supports precise working. Applications • Driving and extracting of pile sections • Drilling, pressing and impact-driving Advantages • Compact design • Sturdy kinematics • Long reach • Takes up high torques Type SM 12/16 B SM 14/18 HD SM 18/22 HD SM 18/24 SD Underground lowering depth mm 2400 1100 800 600 Leader inclination front/rear Degree max. 4/5 4/5 4/5 4/5 Leader inclination laterally Degree max. 4 4 4 4 Leader slewing range +/–90 Degree max. +/–90 +/–90 +/–90 Prestressing force leader cylinder kN max. 135 150 150 150 Extraction force leader cylinder kN max. 300 400 400 500 Load capacitiy kg max. 12000 15000 15000 20000 daNm 12000 20000 20000 25000 kN max. 50 50 50 50 m/min 35 35 35 35 t approx. 53–58 71 80–83 95 Height mm 16800–20800 20360–24390 24000–27600 24100–29900 Max. height up to rapid changing device mm 18100 20800 24400 26300 Guide width leader mast mm 550 600 600 600 Width leader mast mm 50 50 50 50 Length mm 17400 21200 24400 24900 Height mm 3450 3600 3800 3900 Width mm 3000 3400 3400 3400 SR 50 T-D Torque absorption Auxilary winch Lifting capacity Rope speed Weight of piling equipment Dimensions Transport dimensions Carrier SR 35 T-D SR 35 T-D (HD Version) SR 50 CAT C15 / C18 CAT C18 CAT C18 CAT C18 kW 433 / 470 470 570 / 522 570 / 522 EU Step/ US EPA IIIA / Tier 3 IIIB / Tier 4i IIIB, Tier 4i II / Tier 2 IIIA / Tier 3 II / Tier 2 IIIA / Tier 3 l/min 2 x 310 / 1 x 125, 1 x 200 2 x 370 / 1 x 125, 1 x 200 2 x 370, 1 x 125, 1 x 200 2 x 300 / 1 x 320, 1 x 200 2 x 300 / 1 x 320, 1 x 200 MPa 33 33 32 32 l max. 920 920 740 740 Extendable Extendable Extendable Extendable Engine Engine power Exhaust certification Hydraulic flow rate Nominal Oil pressure Fuel tank capacity Hydraulic extendable under carriage Pulling force / Option kN 340 / 560 560 540 610 Track gauge / Option mm 2300–3300 / 2200 – 3800 2200–3800 2300–3700 2300–3840 Track shoes width / Option mm 700* 700* 700* 900 * Track shoes width (optional): 800, 900 mm Solutions by ABI / BANUT / DELMAG 29 ABI Vibrators. Always the right one. MRZV-S – with fixed static moment This machine is a proven classic among the vibrators. It works with high-frequency vibrations for good results in all pilable soils. MRZV-V – with variable static moment On the MRZV-V the static moment is variable. This variability allows for an ideal adaptation to the present soil conditions and requirements of the construction task. By adjusting the eccentric masses, oscillations occurring when running through the natural frequencies of the soils are reduced to a minimum so that no oscillation peaks are developing. MRZV-VV – with variable static moment and variable hydraulic suction volume The MRZV-VV vibrators not only have a variable static moment. The suction volume is variable as well. Thus, one vibrator covers a great variety of different driving tasks. In addition, the vibrator can make full use of the provided hydraulic power at all times. With conventional variable vibrators this often cannot be realized in practice. Applications • Driving / extracting of steel sections like sheet pile walls, steel sections and tubular piles • Alternative foundation procedures like e.g. vibro, cast-in-situ, crushed stone and sand piles MRZV 12 S Type MRZV 18 S MRZV 22 S Advantages • Adaptation to different soil conditions • Higher frequencies • Increased sheeting performance • Reduction of vibratory and noise emissions MRZV 30 S MRZV 36 S MRZV 10 V MRZV 12 V MRZV 16 V MRZV 18 V MRZV 20 V MRZV 30 V MRZV 36 V Static moment kgm 12 18 22 30 36 0–10 0–12 0–16 0–18 0–20 0–30 0–36 Nominal revolutions rpm 2135 2250 2035 2135 1950 2135 2135 2300 2160 2140 2135 2020 Centrifugal force at nominal frequency kN 600 1000 1000 1500 1500 500 600 925 925 1000 1500 1600 Static extraction force max. kN 200 200 200/270/ 200/270/ 200 300 / 380 300 / 380 180 / 200 180 / 200 200 200 200 Dynamic mass* kg 2150 2700 2745 3950 3955 2170 2180 2710 2730 2750 3950 4000 kg 3150 4060 4080 5650 5700 3200 3200 4100 4150 4150 5350 5350 mm 2375 2720 2720 3220 3220 2375 2375 2720 2720 2720 3220 3220 Total weight* Height* MRZV 17 VV Type MRZV 24 VV MRZV 30 VV MRZV 36 VV Static moment kgm 0–17 0–24 0–30 0–36 Nominal revolutions rpm 1800 1950 2140 1950 Max. revolutions rpm 2600 2600 2600 2600 kN 600 1000 1500 1500 200 / 250 200 200 / 270 / 300 / 380 200 / 270 / 300 / 380 Centrifugal force at nominal frequency Static extraction force max. kN Dynamic mass* kg 2105 2840 3995 4045 Total weight* kg 3200 4250 5450 5500 mm 2570 2870 3220 3220 Height* * with standard clamp assembly 200/270/ 200/270/ 300/380 300 / 380 30 Solutions by ABI / BANUT / DELMAG ABI Hydro-Press-System. Sensitive power. On many construction sites a vibration-free method must be used. Among them are in particular sheeting work near computing centers, historic buildings, hospitals, schools, etc. This is where the Hydro-Press-System brings its advantages to bear: The pressing or extracting is done statically. Depending on the geology and the type of sheet pile wall, performances nearly coming up to those of conventional driving methods can be achieved. Thus the system is a real alternative to soldier pile wall / Berlin-type pit lining, in particular when a high groundwater level causes problems. The Hydro-Press-System is attached to the telescopic leader or the fixed leader. Applications • All construction sites with a vibration-sensitive environment • A typical example are works on the sewerage system near buildings Advantages • Vibration-free • Low-noise HPS Hydro-Press For cold-rolled lightweight sections with an adjustable system width of 600 mm and 800 mm. Three sections can be pressed or extracted at the same time. HPU Hydro-Press For hot-rolled U-sections with a system width of 600 mm. Four sections can be pressed or extracted at the same time. HPZ Hydro-Press For hot-rolled Z-sections with a system width of 630, 670 and 700 mm. Four sections can be pressed or extracted at the same time. Type HPS HPU HPZ 630 HPZ 630/670/700 Pressing force kN 3 x 600 4 x 800 4 x 800 4 x 800 Extraction force kN 3 x 380 4 x 600 4 x 600 4 x 600 mm 3 x 450 4 x 400 4 x 400 4 x 400 l/min 360 420 420 420 MPa 32 32 32 32 kg 3900 / 4240 5700 / 6130 5530 / 6000 5680 / 6350 mm 2100 2250 2130 2400 Stroke Hydraulic flow rate max. Nominal oil pressure Total weight / transport weight Height Solutions by ABI / BANUT / DELMAG 31 ABI Drilling equipment. The right turn. Drilling procedures can be used in nearly any soils. On hard rocks in particular, rock drill heads and down-the-hole hammers are used. Auger drives MDBA The auger drives are suitable for all kinds of boreholes. Applications • Fabrication of concrete piles; soil improvement • Stress-relieving boreholes; gauge wells Advantages • Suitable for all soils Double-auger-head drilling system VDW A casing tubular pile as well as an auger flight are attached to the doubleauger-head drilling system VDW. The attachments are operated in opposite directions and, depending on the soil conditions, can be adjusted to one another by a relative stroke. Applications • Fabrication of single piles, pile groups, contiguous or secant pile walls • Soil exchange measures, partial and full displacement boreholes Advantages • Resonance-free and low-noise MDBA 2200 MDBA 2200-2 2 MDBA 3200 MDBA 3200-2 2 MDBA 4500 MDBA 4500-2 2 MDBA 7000 MDBA 7000-2 2 daNm 2200 1100 3200 1600 4400 2200 6600 3300 rpm 70 140 70 120 60 120 40 80 kN 200 200 200 200 200 200 300 300 l/min 310 310 450 380 540 540 540 520 Required hydraulic power at auger drive kW 165 165 240 200 280 280 280 270 Total weight kg Type Torque Revolutions max. Static extraction force max. Hydraulic flow rate 990 1350 1400 1800 Hexagon connection1 mm 80 80 100 120 Height / with swivel mm 1730 / 1600 2260 / 2050 2225 / 2050 2575 / 2120 1 2 SW-M as a sleeve Hydraulic motor including two-speed valve. Additional specifications refer to the high speed motion. The MDBA 7000-2 is available with two speed valve only. Type VDW 4230 Gear box 1 –casing Revolutions max. Torque Hydraulic flow rate VDW 6240 VDW 8360 Gear 1 Gear 2 Gear 1 Gear 2 Gear 1 rpm 24 48 33 66 24 48 daNm 4200 2100 6200 3100 8300 4150 l/min 200 400 Gear 2 400 Gear box 2 – auger Revolutions max. Torque Hydraulic flow rate Nominal oil pressure Total-/Transport weight rpm 33 66 24 48 33 66 daNm 3100 1550 4200 2100 6200 3100 l/min 200 200 MPa 32 32 32 3970 / 4305 4170 / 4505 4370 / 4705 kg Optional: Pick up and lay down device 90 degrees, hexagon connection SW 120 400 32 Solutions by ABI / BANUT / DELMAG ABI Add-on auger drives. Fits the excavator. The Add-on auger drives are intended for hydraulic excavators with a total weight from 10 to approx. 35 t. Combined with a casing twister (RDV) it is also possible to carry out cased drilling. The auger drive BA is available with a torque of 1200 – 3200 daNm. The through-hole auger drives DBA achieve torques of 2200 – 3200 daNm. For the fabrication of CFA piles a concreting duct can be mounted to the auger drive, so that immediate concreting is possible during the pulling operation. Applications • Stress-relieving and soil investigation boreholes • Boreholes for girder support system • Continuous flight auger boreholes • Injection boreholes • Soil improvement for foundations • Well drilling Advantages • Easy to use • Very short set-up times • Operation on cramped and difficult to access conditions on the site • Optional: auger drives can be equipped with a quick-change device Type BA 1200 BA 2200 BA 3200 DBA 2200 DBA 3200 daNm 1200 2200 3200 2200 3200 rpm 73 70 50 70 50 kN 120 200 200 200 200 l/min 220 300 300 300 300 kW 90 160 160 160 160 MPa 30 32 32 32 32 kg 430 600 / 700 980 / 1270 900 / 1000 1050 / 1340 DN 65 DN 65 Height mm 1480 1180 1950 1705 2075 Height locking to bottom mm 1290 995 1770 1470 1790 Width mm 515 710 945 760 945 Depth mm 440 510 660 655 730 Torque Revolutions Static extraction force max. Hydraulic flow rate Required hydraulic power at auger drive Nominal oil pressure Total/Transport weight Concrete swivel Inner diameter Solutions by ABI / BANUT / DELMAG 33 ABI Clamp assemblies. Getting to grips. Clamp assemblies are used to pick up, position and transmit the power to the pile element. As there are quite some different elements used for driving, we offer the appropriate clamp assembly for each of them. Since only the appropriate clamp assembly, like e.g. casing, interlock or double clamp assembly, can guarantee an effective driving operation. Due to their adjusting facilities the multi-purpose clamp assemblies of type MZK can be used in a flexible and particularly material-saving manner. Advantages • Suitable for double Z-sections, double U-sections and tubular piles • Single clamps can be rotated and displaced continuously • Adjustment without the need for tools • Clamps are locked upon closing • Adjustment is maintained when clamps are opened • Flexible use • Section-saving Dimensions For centrifugal forces up to kN Clamping force kN Clamping pressure MPa Casing inner diameter mm Width mm Height mm Depth mm Rotatable with lateral adjustment1 800 2 x 530 48 460–770 1740 865 500 1450 Lateral adjustment only 2 800 2 x 530 48 450–770 1740 710 520 1090 Rotatable with lateral adjustment1 1200 2 x 720 48 620–1090 2220 1065 510 2100 Lateral adjustment only 2 1200 2 x 720 48 620–1090 2220 925 520 1745 880 2 x 530 48 500–1100 2070 910 510 1670 880 2 x 530 48 450–1100 2070 770 520 1285 Type Weight kg Combi clamp assembly MZK 800 with EKZ 530 MZK 1250 with EKZ 720 MZK 1250 with EKZ 530 Rotatable with lateral adjustment 2 Lateral adjustment only 2 EKZ = single clamp assembly 1 Designed for clamping double Z and double U sheet piles as well as casings 2 Designed for clamping casings 34 Solutions by ABI / BANUT / DELMAG BANUT Fixed leader mast. Excellent stability. Applications • Nearly any kind of soils • Insertion of concrete and steel piles • Post-driving of pile elements • Integration of pile elements in bearing layers • For the provision of a proof of the soil bearing capacity Impact-driving into the soil demands a very high expenditure of force. In line with that fact, the requirements regarding machine power and stability are particularly high. Impact-driving procedures can be used in nearly any kind of soils. Usually diesel hammers and hydraulic free-fall hammers are used for this work. They are suitable for the post-driving of pile elements or to integrate pile elements into bearing layers. Impact-driving procedures are also indispensable when a proof of the soil bearing capacity needs to be provided. Advantages • High stability and steadiness • Inclinations of up to 18° to the side and front and 45° to the rear • High effective lengths • Careful impact-driving • Reduction of the maximum load in the pile element • High penetration depth during the driving operation The BANUT fixed leader is designed for impact-driving in particular. Precast concrete piles as well as tubular piles, steel sections, sheet pile sections and timber piles are impact-driven in the first place. Besides hydraulic free-fall hammers diesel hammers can be used as well. Exclusive distributor for Germany, other countries on request. banut Type Leader mast displacement Leader mast inclination Usable leader length upper ground under ground front/ rear mm mm mm Deg. max. Extraction force Rope speed laterally Pile weight* Torque absorption Pile winch Hammer winch Pile winch Hammer winch Deg. max. kg max. daNm kN max. kN max. m/min m/min BANUT 555 15000 +1325 –1275 18/45 14,0 6000 10000 60 120 50 50 BANUT 655 15000 +5500 –1000 18/45 18,0 8500 18000 85 120 50 50 * Weights and lengths depend on reach and leader mast inclinations Type Weight of piling equipment without attachment Dimensions Height max. width length height length width guide width approx. t mm mm mm mm mm mm mm Dimensions Transport Dimensions Leader BANUT 555 52,5 22200 3200 22370 3300 20000 500 80 BANUT 655 70,0 26500 3400 22000 3450 20000 600 80 Carrier Fixed Leader Mast Engine Engine power Hydraulic flow rate Nominal oil pressure Fuel tank capacity Pulling force Track width kW SR 40 T* BANUT 555 CAT SR 40 T* BANUT 655 l/min MPa l/max. kN mm 186 2 x 270, 1 x 320 32 500 340 2300–3300 CAT C9 261 2 x 250, 1 x 214 32 500 556 2400–3800 Impact frequency, steplessly adjustable to max. Impact energy, steplessly adjustable to max . Nominal oil pressure Hydraulic flow rate Required hydraulic power Total length max. MPa l/min kW mm * Exhaust certification for SR 40 T EU Step IIIA US EPA Tier 3 SuperRAM Weight of striking mass Total weight excl. helmet Drop height, steplessly adjustable to max. kg kg mm impacts/min kNm 5000 5060 7200 1200 100 59 28 200 93 4650 6000 6075 8210 1200 100 71 30 210 105 5320 6000 XL 6110 9700 1200 100 71 30 240 120 5190 8000 XL 8020 11610 1200 100 94 30 300 150 5190 10000 XL 10000 13600 1200 80 118 30 325 162 5190 Type Solutions by ABI / BANUT / DELMAG 35 DELMAG Drilling rigs. A fine piece of work. The modern RH series is used all over the world to install foundation and sheeting piles with or without casing. The drilling rigs are suitable for the fabrication of piles with a diameter of up to 2400 mm and a depth of up to 60 m. Drilling work is executed with different kinds of soil – from mud to rock – using appropriate drilling equipment. Drilling methods • Kelly drilling procedure • Endless soil auger drilling procedure • Full displacement drilling procedure • Partial displacement drilling procedure • Drilling with casing machines Applications • Pile foundation / fabrication of drilled piles • Fabrication of sheeting walls • Fabrication of building pit enclosures • Procedures for ground improvement • Ground investigation (sounding) • Well drilling • Exploration (deposit prospection) Advantages • Sturdy and reliable • Better performances with lower weight • Compact transport dimensions • Assembly on hydraulic carriers • Telescopic chassis • High stability and steadiness • Winch feed system • Possibility to attach casing machine Exclusive distributor for Germany, other countries on request. Rotary head Mast inclination Type Total height/ stroke m degree degree kNm rpm m mm RH 12 17.95 / 12.00 5.00 / 14.00 9.50 / 9.50 0–125 0–44 18 1450 RH 18 19.91 / 12.50 3.80 / 14.00 9.50 / 9.50 0–180 0–33 / 55 21 1600 RH 22 22.82 / 15.70 3.80 / 14.00 9.50 / 9.50 0–225 0–28 / 55 24 1830 RH 28 25.58 / 17.50 3.80 / 14.00 9.50 / 9.50 0–280 0–26 / 55 33 1960 RH 34 25.62 / 17.50 3.80 / 14.00 9.50 / 9.50 0–335 0–26 / 55 33 2200 RHV 40 29.93 / 21.00 3.80 / 14.00 4.00 / 4.00 0–400 0–25 / 50 40 2430 Carrier CAT 323 D Drilling rig Exhaust certification Power Track gauge forward/ backward EU Step / US EPA right/ left SR 25 BT torque revolutions SR 30 BT T 82 D Casing length/ with Kelly bars T 102 D Free diameter max. T 122 D RH 12 RH 18 RH 22 RH 28 RH 34 RHV 40 IIIA / Tier 3 IIIB / Tier 4i IIIB / Tier 4i IIIB / Tier 4i IIIB / Tier 4i IIIB / Tier 4i kW 187 205 257 328 / 331 403 / 405 405 / 403 mm 1900–3000 2280–3700 2300–3700 2500–3900 2600–3900 2600–3900 36 Solutions by ABI / BANUT / DELMAG DELMAG Diesel hammers. Strong and independent. Basically, diesel hammers function like a two-stroke engine. Therefore they do not need to be connected to an external energy supply and do not require any steam, compressed-air, hydraulic or electric groups to drive them. If necessary, a hydraulic starting device is used when they are mounted to leaders on hydraulic carriers. Applications • Foundation work, like e.g. driving of steel sections and prefabricated concrete piles • Integration of pile elements in bearing layers • On a pile driver ram or guided on a leader Advantages • Sturdy design • Reliable and easy to operate • Adjustable impact energy for varying soil layers • Weather-independent air cooling • Avoids damage to the pile elements • Economical due to low fuel consumption • Use of environmentally friendly fuel • Long refueling intervals Exclusive distributor for Germany, other countries on request. Type Impact weight (piston) Energy per blow Number of blows Suitable for driving piles (depending on soil and pile) Consumption diesel oil Consumption lubricant Weight Length kg kNm rpm kg l/h l/h kg mm D 6–32 600 19–9 38–52 300–2000 3.7 0.25 1620 4300 D 8–22 800 27–13 36–52 500–3000 4 0.5 1935 4700 D 12–42 1280 46–20 35–52 800–5000 4.5 0.5 2735 4770 D 16–32 1600 54–25 36–52 1000–6000 5 0.5 3620 5160 D 19–42 1820 66–29 35–52 1100–6000 7.5 0.5 3840 5160 D 25–32 2500 90–40 35–52 1600–7500 7.5 0.6 5670 5500 D 30–32 3000 103–48 36–52 2000–9000 10 1.0 6170 5500 D 36–32 3600 123–56 36–53 2500–12000 11.5 1.5 8200 5470 D 46–32 4600 166–71 35–53 3000–16000 16 1.5 9300 5470 D 62–22 6200 224–107 35–50 4000–30000 20 2.0 12250 5910 D 80–23 8000 288–171 35–45 6000–60000 25 2.6 16905 7200 D 100–13 10000 360–214 35–45 7000–100000 30 2.6 20720 7360 D 150–42 15000 512–329 36–45 12000–160000 50 4.8 28450 7490 D 200–42 20000 682–436 36–45 14000–250000 60 5.8 51800 8175 Solutions by GIKEN 37 GIKEN Silent Piler. Gentle giant. The vibrations and noise of a building site are becoming a problem in more and more locations. Conventional methods of driving cannot always comply with the demands. So a special method of installing piles is needed. Pile-supported pressing solves this challenge, and the GIKEN Silent Piler was developed to meet that challenge. It is an efficient driving system that works with little noise and no vibrations, and at the same time achieves optimum results in the most diverse subsoil and site conditions. Exclusive distributor for Germany, other countries on request. 38 Solutions by GIKEN During pressing, the GIKEN Silent Piler exerts only static pressure on the pile being driven. Therefore, the negative effects intrinsic to vibratory driving are avoided right from the start. Nevertheless, we should not be afraid of comparing the economics of pilesupported pressing with those of conventional methods because, for example, round-the-clock operations are also readily possible with this method. Applications • Installation and extraction of single U-sections up to 750 mm, single Z-sections up to 708 mm and tubular piles • Installation and extraction of double U-sections up to 1400 mm and double Z-sections up to 1416 mm • For sites where noise and vibration could be a problem • Also suitable for difficult soil conditions when used in conjunction with appropriate driving aids (super crush and water-jetting modes) Advantages • Low noise, no vibrations • No ground settlement problems, no damage to nearby structures • Can be used for night-time operations or in areas where noise must be minimised • Stable machine design • Remote control for safe, convenient operations • No working platform necessary • Simple operating principle with self-propelled travel • Requires only a small workforce • Faster operations with little effort Solutions by GIKEN 39 Technical data at a glance. Type SILENT PILER ECO700S Standard mode Max. pressing force / max. extracting force Stroke Pressing rate / extracting rate kN (t) 1100 (112) / 1200 (112) mm 1100 m/min 2.8–37.3 / 1.0–29.8 Operation Remote control Travel self-propelled Weight kg 14250 Start frame kg 2750 kg PILER ECO hose m 22 / 17 Water-jetting mode Piler jet reel Jet hose Hose length / pile length Water jet volume Water jet pressure Weight incl. hose JR22 max. l/min x 2 700 Mpa 14.7 kg 780 Super crush mode Max. pressing force kN (t) 800 (81) Max. extracting force kN (t) 1200 (122) Stroke Pressing rate / extracting rate Pile length Total pile auger weight (for 21 m pile) mm 1100 m/min 0.5–4.5 / 0.7–3.1 max. m 21 kg 11000 kN (t) 1500 (153) / 1600 (163) SILENT PILER ECO1400S Standard mode Max. pressing force / max. extracting force Stroke Pressing rate / extracting rate mm 1200 m/min 2.1–23.2 / 1.7–18.9 Operation Remote control Travel self-propelled Weight kg 21500 Start frame kg 3600 Water-jetting mode Piler jet reel JR26 Jet hose Hose length / pile length Water jet volume PILER ECO hose m 22 / 17 max. l/min x 2 700 Mpa 14.7 kg 1350 Max. pressing force kN (t) 1200 (122) Max. extracting force kN (t) 1600 (163) Water jet pressure Weight incl. hose Super crush mode Stroke Pressing rate / extracting rate Pile length mm 1200 m/min 0.5–3.1 / 0.7–3.0 max. m 21 kg 18400 Measured output in power mode kW/min –1 230 / 1800 Measured output in ECO mode Total pile auger weight (for 21 m pile) Power pack for SILENT PILER ECO EU300G3 kW/min –1 204 / 1600 Fuel tank l 500 Piler ECO oil l 630 Speed km/h 1.4 Weight kg 7780 40 Special construction machinery MENCK Free-fall hammers. Sheer gravity. The hydraulic free-fall hammer shows a powerful impact behavior with optimum sound insulation. A long service life is guaranteed due to the shape of the impact surface. It is driven either directly by the carrier or using a separate group with open circuit. Applications • Foundation work, like e.g. driving of steel sections and prefabricated concrete piles • Integration of pile elements in bearing layers • Used to determine the bearing capacity of driven piles • Can be used on the carrier or a pile driver ram Advantages • High drop body weight at low total weight • Powerful impact behavior • Optimum sound insulation, low sound emission • Different drop body weights within the series • Compact design • Easy maintenance • Control unit to control number of blows and striking energy Exclusive distributor for Germany, other countries on request. Weight of ram Hammer weight complete (excl. claws and pile helmet) Max. rated energy free fall Impact rate max. Max. inclination Oilflow kg kg kNm rpm rpm l/min 4000 6700 40 85 1:1 150 MHF 3-5 5000 7700 50 80 1:1 150 MHF 3-6 6000 8700 60 80 1:1 150 Type MHF 3-4 MHF 3-7 7000 9700 70 80 1:1 150 MHF 5-8 8000 12400 80 80 1:1 250 MHF 5-10 10000 14400 100 80 1:1 250 MHF 5-12 12000 16400 120 60 1:1 300 MHF 10-15 15000 23000 150 80 1:1 450 MHF 10-20 20000 28000 200 60 1:1 450 Special construction machinery 41 Telescopic crane leader 683 TP. Double benefit. The telescopic crane leader 683 TP is a combination of a telescopic crane and a leader in one machine. The machine can be converted from a special civil engineering equipment to a fully adequate telescopic crane within a few hours, equally maintaining functionality and ergonomics. The powerful Tier III type diesel engine supplies the required power for the different fields of application. Applications • All common pile-driving techniques • Driving and extracting of pile sections • Drilling, pressing and impact driving Advantages • Combination of telescopic crane and leader • Sturdy design • Compact dimensions • Fast installation and changeover without auxiliary crane • High flexibility through different attachments Carrier Carrier Sennebogen 683 TP telescopic crane Telescope length m Diesel engine Transport weight of carrier without counterweight 10.8–18.6 kW 186 t ca. 54 Leader Type B Leader with pile, pull head Leader length Weight of leader without hammer and accessories m 23 / 28 / 33 / 38 t ca. 22, with winches Leader inclination backwards Degree max. 3:1 / 18.4 Leader inclination forwards Degree max. 4:1 / 14.0 Leader inclination lateral Degree max. 20:1 / 2.9 mm 0–1750 Leader adjustment horizontal Leader adjustment vertical m Leader attachment 10 Rapid attachment Telescopic crane leader type B Carrier 683 TP Winch-leader slide t 2 x 16 + 1 x 7 Winch-carrier t 1 x 16 (optional) t 2 x 16 + 2 x 7 Max. hammer & pile weight t 32 Max. pull capacity (foot grounded) t 60 Telescopic boom & jib length (max.) m 34.8 Counterweight t 25.9 + 13.0 2 Service weight with leader t 116 Crawler type 1 B7 Overall dimensions Length mm Height mm 3528 Width mm 3480 1 Superstructure counterweight 1 Undercarriage counterweight both removable for transport 14181 42 Drilling systems Anchor drilling equipment. Manifold power. No construction site is like the other – that is why advanced technology is demanded which fits the field of application. We supply our anchor or geothermal drilling equipment, hammer drills as well as double-head drilling rigs in the most different variations. Each machine meets the highest demands regarding capability, precision, quality and safety. Drilling systems 43 Drilling equipment Drilling equipment with grouting station gained acceptance for tasks as foundation, stabilization, reconditioning and rehabilitation. Slide wagon drills and anchor drilling equipment is mainly used for this tasks. Installation of slide wagon drill • Support (feet) for drill carriages with power unit • Drill carriage on excavator boom and with wagon drill Applications • Foundation, stabilization, reconditioning and rehabilitation tasks Type Engine power TKB 203 TKB 502-2 Advantages • Compact and sturdy design • Optimum kinematics at low total weight • Pendulum chassis automatically compensates unevenness of the terrain in driving mode • Ergonomic control panel • Integration of all hydraulic functions at the operating stand • Ideal for cramped conditions • Appropriate for the most difficult geologies • Avoidance of field damage by means of covers TKB 504 TKB 605 TKB 609 TKB 205 MP kW 97 82 160 160 190 147 mm 740/1200 1900 2063 2500 2480 2500 mm 1200–2690 (Telescopic mast) 3350 3600 4600 4950 6300 Pull back force kN 62 50 82 100 100 200 Pull down force kN 38 50 46 100 100 100 mm 152–610 68–254 68–254 76–305 89–406 150–660 HB35 / HB45 / HB50 / HB60 HB50 / HB60 Total width Mast Stroke of rotary head Clamps and breaking unit Diameter Hydraulic Hammer, recommended HB35 / HB45 HB35 / HB45 HB35 / HB45 HB35 / HB45 / HB50 Rotary Heads, recommended HG8 / HG12 / HG19 / HG24 HG8 / HG12 HG11 / HG12 / HG19 HG24 / HG19 / HG12 / HG11 HG11 / HG12 / HG19 / HG24 HG12 / HG19 / HG24 HR40 / HR50 HR20 / HR40 HR40 / HR50 HR50 / HR60 HR50 / HR60 HR50 / HR60 6200 9000 13000 14800 21000 18500 Weight in working condition* Gesamtgewicht* kg * depending on mounted equipment KRUPP Hydraulic hammer drills Thanks to our extensive product range we can provide a solution for nearly every conceivable drilling task. Our worldwide cooperation with all leading manufacturers of drilling equipment ensures that KRUPP drilling drives can be installed on all common carriers without difficulties. Applications • Overburden drilling • Drive drilling • Anchoring Type Weight, approx. HB15 HB20 Advantages • Installation on all common carriers • Extremely small housing • Easier extraction due to the damping device • Optional: electric, hydraulic or manual shifting at drill head and percussion • Optional: external flushing head HB35 HB45 HB50 HB60 kg 150 220 330 450 810 980 No. of blows, max. rpm 3000 3000 2500 2500 2400 2400 Individual below energy, max. Nm 270 290 590 590 835 835 Torque @ 205 bar Nm 2200 4400 10100 9500 13800 25900 r.p.m. @ 170 l/min rpm 119 119 240 160 120 80 44 Drilling systems KRUPP Double-head drilling systems and drilling rigs. For geothermal drilling. In order to win geothermal energy you need top-class drilling technology. Therefore our drilling equipment for this special application meets the highest demands regarding capability, precision, quality and safety. Applications • Geothermal drilling using the double-head drilling technique in confined spaces • Appropriate for the most difficult geologies Double-head drilling systems In order to win heat from the ground in the surface-near geothermy, the drilling must usually be executed in most narrow spaces. The most frequently practiced method for obtaining geothermal energy is extraction by means of downhole heat exchangers. Geothermal probes are introduced in vertical boreholes in depths of over 300 meters. A specific procedure is used to do so – the double-head drilling system. The drilling is executed with two heads rotating in opposite directions so that the respective transmissions are positioned one behind the other. Advantages • Risk-free heat exchanger installation by driving the casing down to the final depth (ensured by high torque of up to 48,000 Nm) • Controlled discharge of cuttings via the limited annular space between the outer and inner rods and optimized blowout prevention equipment • Guaranteed heat exchanger verticality due to spot-on precision drilling with counter-rotating inner and outer rods • Optimal adaptation of the drill system to the geology due to the leading or trailing of the inner crown in relation to the outer crown (400 mm relative displacement of the two drill gears) • Drilling possible in any geological conditions thanks to the inclusion of the double-head drilling system in the rig's basic equipment • Thread-saving insertion and removal of the drilling rods via the new floating shaft integrated in the drilling rig • Safe removal of the protective casing by means of drill carriage with a pulling force of up to 400 kN • Avoidance of field damage by using rubber shoes on the crawler tracks • Optimum handling of the machine by means of remote control • Two persons required for operation Drilling equipment for geothermal boreholes Drilling equipment specifically designed for the double-head drilling technique are used even in confined spaces as well as difficult geologies. The standard equipment of the drilling equipment contains all components that are necessary to execute optimum geothermal drilling: rubber-lined crawler unit, drill carriage with a pull-back force of 100 to 400 kN, double head, 3-fold clamping and breaking device, blowout preventer, rod magazine, wireless and wire remote control, flushing pumps, rope winch with winding tower and oiler. In addition, we offer appropriate customized drilling equipment in order to provide a complete drilling system from one single source. Drilling systems 45 Equipment for geothermal boreholes Drilling systems Output Total width Weight TKB 605 GT TKB 204 GT TKB 205 GT TKB 207 GT kW 147 147 147 225 mm 2400 2100 2500 2500 kg Drill carriage 16500 13000 17200 31000 DM 200 DM 200 DM 300 4000 5000 Stroke length mm 4000 4250 4700 Max. rod length mm 2000 2000 3000 – Retraction force kN 200 100 200 400 Thrust kN 100 50 100 200 Double-head drilling systems Single head Max. torque at 205 bar Max. speed at 150 l/min Type HR55 HR55 HR55 HR65 Nm 44000 44000 44000 48000 rpm 45 45 45 45 Type HR55 / HR40 HR55 / HR40 HR55/HR40 HR65/HR45 Max. torque at 205 bar Nm 44000 / 13000 44000 / 13000 44000 / 13000 48000 / 17000 Max. speed at 150 l/min rpm 45 / 160 45 / 160 45 / 160 45 / 240 mm 68–254 68–254 68–254 68–254 Double head Clamping and breaking device Diameter range 46 Construction equipment online Construction equipment online. www.thyssenkrupp-bautechnik.com You will find the wide choice of advanced special equipment of our leasing and used machines park in our online database. This search engine always gives current, comprehensive information on used machines, in particular for marine and special civil engineering but also for any other field of application. In this way you can find out if, where and how long a certain machine is available. The online database is user-friendly so that you can find the desired solution without any advice – however, if you are in doubt, we recommend you consult our engineers before placing your order. Overview of the range: • Vibrators with power unit • Excavator mounted vibrators and drilling equipment for excavators • Driving and drilling leaders on carrier • Drilling rigs • Anchor drill carriages and drill wagons • Horizontal drilling rigs • Hydraulic hammers • Diesel hammers • Pontoons • Pumps • Tubular pile driving and pulling plants • Other driving and extracting equipment, devices and accessories 47 48 Head Office Sales Branches GERMANY AUSTRALIA, JAPAN, NEW ZEALAND POLAND Export Hollestr. 7a, 45127 Essen, Germany Phone +49 201 844-563975 Fax +49 201 844-563974 export-bautechnik@thyssenkrupp.com ThyssenKrupp Steelcom Pty. Ltd. Suite 3, 17-23 Myrtle Street NSW 2060 North Sydney, Australia Phone +61 2 94091-777 Fax +61 2 99554-298 www.tk-steelcom.com.au ThyssenKrupp Energostal S.A. Ulica Grudziadzka 159 87-100 Toruń, Poland Phone +48 56 611-9468 Fax +48 56 611-9432 www.thyssenkrupp-energostal.pl Export Eastern Europe Hollestr. 7a, 45127 Essen, Germany Phone +49 201 844-563895 Fax +49 201 844-563772 osteuropa-bautechnik@thyssenkrupp.com ThyssenKrupp Tiefbautechnik GmbH Alte Liederbacher Straße 6 36304 Alsfeld, Germany Phone +49 6631 781-131/132 Fax +49 6631 781-130 Service Hotline +49 6631 781-122 Spare Part Service +49 6631 781-126 24 Hours Hotline +49 170 6326650 tiefbautechnik@thyssenkrupp.com www.thyssenkrupp-tiefbautechnik.com BRAZIL ROMANIA ThyssenKrupp Bautechnik do Brazil Av. das Américas 3500 bloco 06, salas 407/408 CEP 22631-003 Barra da Tijuca Rio de Janeiro, Brazil Phone +55 21 32825-245 www.estacas-prancha.com ThyssenKrupp Bautechnik Romania 50 Av. Petre Cretu Street 012052 Bucharest, Romania Phone +4 021 319-2417 Fax +4 021 319-2425 office@thyssenkrupp.ro CHINA, HONG KONG, SEA, TAIWAN ThyssenKrupp Bautechnik Russia Ul. Vinogradnja 238 A, Office 11 354000 Sochi, Russian Federation Phone +7 862 290-1852 Fax +7 862 290-1853 www.tkbt.ru RUSSIAN FEDERATION ThyssenKrupp Bautechnik Hong Kong 7F, Sun Hung Kai Centre 30 Harbour Road, Wanchai Hong Kong SAR, China Phone +852 318 179-01 Fax +852 318 179-30 www.sheetpiles-asia.com KAZAKHSTAN ThyssenKrupp Bautechnik Kazakhstan 050051 Almaty Prospect Dostyk, 240, office 503, Kazakhstan Phone +7 701 736-9684 Fax +7 727 258-5712 www.tkbt.ru BALTIC STATES UAB ThyssenKrupp Baltija Minijos g. 180 93269 Klaipeda, Lithuania Phone +370 46 355-401 Fax +370 46 355-032 www.thyssenkrupp-baltija.lt OOO ThyssenKrupp Bautechnik Technischer Service Beloostrowskaya 20/B, of. 65 B 197342 St. Petersburg Russian Federation Phone +7 812 337-6510 Fax +7 812 337-6511 www.tkbt.ru UKRAINE ThyssenKrupp Bautechnik Ukraine Ul. Suvorova 4/6 Office 1104 01010 Kiev, Ukraine Phone +38 044 280-9905 Fax +38 044 280-1507 info@thyssenkrupp.in.ua www.tkbt.ru UNITED ARAB EMIRATES, IRAQ ThyssenKrupp Bautechnik GmbH P.O. Box 10 22 53 · 45022 Essen, Germany Hollestr. 7a · 45127 Essen, Germany Phone +49 201 844-562313 · Fax +49 201 844-562333 www.thyssenkrupp-bautechnik.com · bautechnik@thyssenkrupp.com Subject to alterations • TKBT • 04/2013 ThyssenKrupp Bautechnik Dubai Jebel Ali Office P.O. Box 262994, Dubai Dubai, United Arab Emirates Phone +971 4 887-1618 Fax +971 4 7059-301 www.sheetpiling.ae
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