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NTN-SNR LINEAR AXIS AXC Series Manual

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Summary of Contents for NTN-SNR LINEAR AXIS AXC Series

  • Page 1 NTN-SNR LINEAR MOTION: LINEAR AXIS www.ntn-snr.com With You...
  • Page 2 NTN-SNR leads you towards reliability and performance. NTN-SNR does not acknowledge any liability for any errors and omissions deficiencies occurring - despite our great care – with reference to the publication of this technical catalog. We are entitled to make any complete or partial changes to products or characteristics/data in/of this document in accordance to our continous research and development policy, without prior notice.
  • Page 3 NTN-SNR Linear Axis are universally applicable modules that accommodate the steadily growing requirements for the automation of installation and manufacturing processes. NTN – SNR produce one of the widest ranges of Linear Axis in the market. The Linear Axis are used in many different applications, such as: •...

  • Page 4: Table Of Contents

    Table of contents Technical basics Linear Axis ________ ..........7 1.1 ________ Product features .
  • Page 5 4.10 _______ Wear part sets ..............45 NTN-SNR Linear Axis ________ .
  • Page 6 5.5.1.1 ____ Structure ............... . . 103 5.5.1.2 ____ Dimensions / Technical data .
  • Page 7 6.1.5 ______ Cross connection ..............171 6.1.6 ______ Gantry connection .

  • Page 9: Technical Basics Linear Axis

    Product features NTN-SNR – Linear Axis are compact components which contain a combination of guiding and driving elements. The modular design and the ability to combine Linear Axis within a product line and various product lines allow the user to design a simple, time-saving and economical solution for linear movements.
  • Page 10 Figure 1.12 __ Slider unit with laterally placed grease nipples Figure 1.13 Slider unit with grease nipples on the front side The product range of NTN-SNR - Linear Axis provides a variety of benefits: • Versatile applications by a complete product range from miniature •...

  • Page 11: Driving Systems

    Figure 1.14 __ Toothed belt clamping Figure 1.15 Toothed belt tension The setting of the correct toothed belt tension is made by a NTN-SNR - measuring device with which the exact tension will be adjusted with the help of a force sensor (Figure 1.16).
  • Page 12 Screw drive Linear Axis with screw drive can be equipped with ball screws (Figure 1.17) and with trapezoidal screws. Screw drives are especially suitable for high requirements for positioning accuracy and repeatability in combination with high rigidity of the driving element. The drive adaption can be done directly by coupling and coupling cone or with a deflection belt drive.
  • Page 13 Rack and pinion drive Linear Axis with rack and pinion drive are characterized by a very high reliability and are therefore particularly suitable for vertical applications. It is possible to line up any number of rack segments (Figure 1.19). The inductive hardened racks and pinions (Figure 1.20) ensure a very long service life.

  • Page 14: Guiding Systems

    NTN-SNR - Linear Axis of all series are equipped with linear guides with ball chain technology (Figure 1.22). By the arrangement of raceways at a 45° angle, the NTN-SNR - Linear guides can be used universally and have equal load ratings in all main load directions.
  • Page 15 Figure 1.24 __ NTN-SNR – Linear Axis with polymer track roller guide The polymer track rollers are connected with the slider unit by sliding bearings. Linear Axis with this guiding system can be used even in wet areas, in areas with heavy contamination or in contact with aggressive media.

  • Page 16: Selection Criteria

    Selection criteria Description of the application Selection of the drive element Toothed belt Screw drive Rack and pinion Linear motor Selection of the series Preliminary selection of the size Description of the static load of the the guiding and drive system Determining of the equivalent static load of the the guiding and drive system Check-up of the static load capacity of the the guiding and drive system Description of the dynamic load of the the guiding and drive system...

  • Page 17: System Technology

    The starting torque is the required drive torque which is necessary to overcome the static friction of the BALL SCREWS system and to start the motion. For the selection of NTN-SNR - Linear Axis our sales and application engineers with years of experience are also available. Declaration of incorporation for partly completed machinery (Machinery directive 2006/42/EG) The manufacturer SNR WAELZLAGER GMBH, Friedrich-Hagemann-Straße 66, D-33719 Bielefeld, Germany hereby declares that the...

  • Page 18: Safety Instructions

    Intended use NTN-SNR - Linear Axis and NTN-SNR- Linear tables are The manufacturer assumes no liability for resulting damages. fundamentally designated for linear movement as occurs during The user bears sole responsibility for all risks.

  • Page 19: Static Load Capacity

    20 000 10 000 Dynamic load capacity [%] Figure 2.3 ___ Nominal life time In case of higher dynamic loads, please contact at on our NTN-SNR application engineers or use for complex loads our calculation service. 2.7.2 Influence factors For a calculation of the nominal life, it is often very difficult, to determine the real acting loads exactly.

  • Page 20: Rigidity

    The rigidity is an important parameter for the selection of the Linear Axis because the rigidity values are changing depending on the type and version of the NTN-SNR - Linear Axis. Essentially, the rigidity of the Linear Axis is determined by the rigidity of the aluminum profile.

  • Page 21: Dynamic Operating Load

    The most common requirement in applications of Linear Axis is the repeatability. These values are in the data tables for all NTN-SNR - Linear Axis specified. More details are only available in the data tables for the NTN-SNR precision axis AXBG made on steel base.

  • Page 22: Gearbox Selection

    2.11 Gearbox selection For the selection of the gearbox for a Linear Axis the following should be considered: • Maximum operating speed • Maximum acceleration torque • Nominal torque on the drive These parameters are manufacturer information which take into account the mechanical and thermal limits of the gearbox and that are not allowed to be exceeded.

  • Page 23: Drive Calculation

    • NTN-SNR assumes no warranty for the calculation of the provided drive. • Calculations of drives are carried out exclusively by the respective drive manufacturer. • The reason for this is that NTN-SNR does not have all necessary calculation tools and basic data of these drives. 2.13 Selection of Linear Axis with toothed belt drive for 90 °...

  • Page 24: Mounting And Start-Up

    For a parallel installation, the Linear Axis of the AXC and AXF series are mainly suitable. If the parallel installation of Linear Axis from other series is necessary, please contact for the selection process our NTN-SNR application engineers.
  • Page 25 The mounting surfaces of the Linear Axis, as well as for the cross traverse should be machined in the assembly area in a single setup or should be adjustable. It should be aimed for the straightness transverse to the moving direction (Figure 3.1) of the mounting surfaces base tolerances e and the parallelism tolerances e of the Linear Axis from Table 3.2.

  • Page 26: Mounting Instruction

    Other machine parts should be designed so that they do not lie in the resonance range of the Linear Axis. NTN-SNR Linear Axis of the AXC and AXDL series can be fastened by sliding blocks or mounting strips at plane surfaces or other Linear Axis from the NTN-SNR product range.

  • Page 27: Mounting Of Parallel Linear Axis

    Linear Axis of the AXBG series can be screwed from above through the U - shaped rail profile (Figure 3.6). Figure 3.6 ___ Mounting AXBG The Linear Axis of the AXF series can be mounted at plane surfaces or other Linear Axis by usage of fastening elements (Figure 3.7) or hammer screws or hammer nuts (Figure 3.8).

  • Page 28: Start-Up Of Linear Axis

    Start-up of Linear Axis Linear Axis can travel at high velocity with a large degree of force. Slider fittings can lead to bodily injury or material damage upon collision. Start-up should thus be performed with the utmost caution. Furthermore, it should be ensured upon start-up that the permissible loads are not exceeded and the slider fittings are securely fastened.

  • Page 29: Drive Assembly

    Drive assembly 3.7.1 Drive assembly on Linear Axis with toothed belt drive and coupling cone The assembling of drives on Linear Axis with toothed belt drive and coupling cone is carried out according to the following steps (Figure  3.10): 1. The axis side coupling hub with the elastomeric gear rim is always assembled on the Linear Axis on delivery.
  • Page 30 Table 3.4 ____ Tightening torque oft he clamping screws Clamping screw Gearbox version P_ Gearbox version E_ Gearbox version S_ Gearbox version T_ Type Tightening Tightening Tightening Tightening Wrench size Wrench size Wrench size Wrench size torque torque torque torque [mm] [mm] [mm]...

  • Page 31: Drive Assembly On Linear Axis And Linear Tables With Screw Drive

    3.7.3 Drive assembly on Linear Axis and Linear Tables with screw drive The assembling of drives on Linear Axis and Linear Tables with screw drive and coupling cone is carried out according to the following steps (Figure 3.13): 1. Insert the coupling hub on the drive or gearbox shaft.

  • Page 32: Assembly Of A Deflection Belt Drive On Linear Axis And Linear Tables With Screw Drive

    Attach the toothed belt with a metal pin and measure the eigenfrequency with a frequency measuring device (accout the user manual). When the values from Table 3.5 are reached, the correct toothed belt tension is achived. c. By the NTN-SNR measuring device for the toothed belt tension Assemble the measuring device on the drive adapter .
  • Page 33 1 650 105,0 TN4007 NTN-SNR measuring device for the toothed belt tensioning Value results in a toothed belt tensioning force with 25% safety Toothed belt tensioning by a frequency measunring device Maximum permittet drive torque = Table value / ratio Table 3.6 ____ Tightening torques clamping hub...

  • Page 34: Maintenance And Lubrication

    In general the compatibility of the lubricants must be checked with each other or with the corrosion protection oil. Table 4.1 provides an overview of the lubricants used by NTN-SNR for linear guides and ball screws. The use of greases containing...
  • Page 35 Table 4.1 ____ Lubricants for linear guides and ball screws Description Base oil / NLGI- Worked Basic oil viscosity Density [mg/ Propertie Application area Type of penetration DIN 51562 at classe soap DIN ISO 2137 at 40°C [mm DIN51818 25°C [0,1mm] SNR LUB Mineral oil / ca.

  • Page 36: Lubrication Methods

    The hardened steel shafts and the rollers of the track roller guides are oil lubricated under normal conditions. The lubricating oils have to correspondi to the specification ISO VG460. NTN-SNR usees as standard oil Shell Omala 460. Table 4.2 provides an overview of the lubricanting oils used by NTN-SNR for track roller guides.

  • Page 37: Automatic Electro-Mechanical Lubricator Drive Booster

    An automatic lubricator allows constant and regular lubrication of the drive elements of the Linear Axis. Automatic electro-mechanical lubricators are at NTN-SNR Linear Axis suitable and in use only for the lubrication of the rack and pinion drive. The lubricator type DRIVE BOOSTER 120 (Figure 4.2) is used here.

  • Page 38: Lubrication Points

    Lubrication points NTN-SNR Linear Axis has depending on the series a different number of lubrication points in different positions. AXC / AXF Series The Linear Axis of the AXC and AXF series are equipped on both sides with grease nipples to guarantee the best possible access.
  • Page 39 AXLT Series The Linear Axis of the AXLT series have separate lubrication points for each carriage and for the screw drive. These are arranged on both sides of the slider unit (Figure 4.7). The lubrication points are marked with "F" for the linear guide and "S" for the screw drive. Per lubrication interval the amounts of the lubricant indicated in Chaper 4.6 have to be introduced in each of the four carriages and in the screw drive individually.

  • Page 40: Amounts Of Lubricant

    Amounts of lubricant Linear guides, track roller guides, ball screws and trapezoidal screws require different lubricants (Chapter 4.2) and amounts of lubricant. The following tables contain the information to the corresponding amounts of lubricant for re-lubrication with the standard lubricant for the respective guiding and drive elements.
  • Page 41 Guiding system of the Linear Axis from the series AXC and AXDL with Track roller guides (Guiding system L und M) For Linear Axis of the AXC series in tilted position, the lubrication amount increases by a factor specified in Table 4.4. In the overhead position, this factor is to be applied only for the first re-lubrication.
  • Page 42 Ball screws of the Linear Axis from the series AXC, AXF, AXDL and AXLT (Drive version SN and SV) The necessary lubrication amount of the ball screw drives depends on diameter and pitch. Table 4.6 ____ Lubrication amount of the ball screw drives (Lubrication points with the marking „S“) Lubrication amount per lubrication point [cm³] Type S__05...

  • Page 43: Lubrication Intervals

    Delivery condition NTN-SNR Linear Axis have already an initial lubrication on delivery. After assembly, the Linear Axis should be lubricated by the in the operating manual described lubrication points with the amounts indicated in the operation manual. For an optimal grease distribution in the system, this process should take place in two to three steps with intermediate movement over a longer stroke.
  • Page 44 Track roller guides of the series AXC and AXDL We recommend a re-lubrication interval of 5,000 km or once a year. An oil with a kinematic viscosity of 460 mm² / s according to DIN51562 at 40 ° C is to be used for re-lubrication. Ball screws of the series AXC, AXF, AXDL and AXLT Ball screws have the advantage of long travel distances without being re-lubricated.

  • Page 45: Brush Wiper Replacement

    Brush wiper replacement Linear Axis of the series AXC can be equipped with brush wipers. To replace the brush wipers, remove the fastening screws replace the brush wipers and fix them with the fastening screws again (Figure 4.11). Figure 4.11 __ Fastening of the brush wipers The brush wipers are included in the wear part sets (Capter 4.9.3, Table 4.6) of the respective Linear Axis.
  • Page 46 Figure 4.13 __ Cover strip fastening for screw drive axis Figure 4.14 __ Cover strip fastening fortoothed belt axis Figure 4.15 __ Cover strip deflection Figure 4.16 __ Cover strip cross section To perform these maintenance corresponding wear part sets (Capter 4.9.3, Table 4.6) can be ordered. The wear part sets contain the brush wipers including the fastening screws and the guiding and pressure rollers with the shafts.

  • Page 47: Cover Strip Repalcement For Linear Axis Of The Series Axdl

    4.9.2 Cover strip repalcement for Linear Axis of the series AXDL For the replacement of the cover strip for Linear Axis of the series AXDL, the following steps in accordance to Figure 4.17 must be observed: 1. Disassemble grease nipple .

  • Page 48: Ntn-Snr Linear Axis

    5.1.1 Series NTN-SNR offers one of the widest product ranges on Linear Axis on the market. The Linear Axis combine user-oriented product development and high quality standards. The user, through arising individual configurability, obtains optimal solutions for requirements from all sectors of industry.
  • Page 49 Compact Axis AXF • Specially optimized design for applications in the food, pharmaceutical and semiconductor industry • Smooth surfaces for optimal cleaning and prevent deposits and residues on profile • Light and highly rigid aluminum profile as base material • 1 Standard size with 104 mm profile wide •...
  • Page 50 Linear Table Axis AXLT • Linear Tables for high loads in moment direction • Various combinations possible within AXLT - series by standard connecting elements • Aluminum profile with profile grooves or aluminum plates as base material • Steel made as special version possible •...
  • Page 51 Linear Motor Axis AXLM • Linear Motor Axis for high loads in moment direction as well the highest demands on positioning accuracy, repeatability and dynamics • Aluminum profile with profile grooves or aluminum plates as base material • 3 standard sizes from 155 mm up to 325 mm table wide •...
  • Page 52 System Program Axis AXS • System Program Axis for highest loads • Telescopic Axis for horizontal and vertical use (Figures • Variants as telescopic, lifting and gantry axis 5.15 up to 5.17) • High rigid aluminum profile as base material •...

  • Page 53: Main Parameters

    5.1.2 Main parameters Linear Axis with toothed belt drive Table 5.1 ____ Main parameters Linear Axis toothed belt drive Type Axis cross Feed constant Allowable Guiding system Maximum Maximum total Maximum dynamic load capacity Maximum dynamic load moments section dynamic velocity length [mm/rev.]...
  • Page 54 Linear Axis with screw drive Table 5.3 ____ Main parameters Linear Axis screw drive Type Axis cross Ball screw drive Trapezoidal screw drive Sliding screw drive Guiding Maximum dynamic Maximum dynamic load moments section system load capacity [mm] Pitch Maximum Pitch Maximum Pitch...
  • Page 55 Telescopic Axis Table 5.6 ____ Main parameters Telescopic Axis Type Level Axis cross Mounting Drive system Feed Allowable Guiding Maximum Maximum Maximum dynamic Maximum dynamic load moments section position constant dynamic system velocity total length load capacity [Nm] (without [mm/rev.] operating [m/s] gearbox)

  • Page 56: Axc Compact Axis

    AXC Compact Axis 5.2.1 AXC_Z Compact Axis with toothed belt drive 5.2.1.1 Structure Figure 5.21 __ Structure AXC_Z Drive unit Toothed belt Guiding system Cover strip (optional) Slider unit Profile Deflection pulley...

  • Page 57: Dimensions / Technical Data

    5.2.1.2 Dimensions / Technical data AXC40Z T = Table length S = Stroke L = T + S + 74 mm Technical data Guiding system Track roller guide - L Table length T Drive element Toothed belt 16AT3 Maximum velocity m/min Allowable dynamic operation load Stroke per revolution...
  • Page 58 AXC60Z T* = Table length S = Stroke L = T + S + 100 mm (50mm with cover strip) Re-greasing possibility on both sides Recommended position for fitting bore Ø5H7 (optional to specify as special option Technical data Linear guide Track roller guide Guiding system Table length T...
  • Page 59 AXC80Z T = Table length S = Stroke L = T + S + 160 mm Re-greasing possibility on both sides Technical data Linear guide Linear guide Track roller guide Guiding system Table length T Drive element Toothed belt 32AT5 Maximum velocity m/min Allowable dynamic operation load...
  • Page 60 AXC100Z T = Table length S = Stroke L = T + S + 140 mm * Guiding system B, D, L Re-greasing possibility on both sides ** Guiding system C Technical data Linear guide Linear guide Linear guide Track roller guide Guiding system Table length T Drive element...
  • Page 61 AXC120Z T = Table length S = Stroke L = T + S + 220 mm Re-greasing possibility on both sides Technical data Linear guide Linear guide Track roller guide Track roller guide Guiding system Table length T ≤ 340 mm L1 ≤...

  • Page 62: Maximum Static Load Capacity

    5.2.1.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] AXC40Z 4 860 9 650 AXC60Z 7 900 16 000 AXC80Z 7 900 16 000 3 400 2 300 11 200 16 500 11 200 16 500 2 100 1 260 AXC100Z 23 750...

  • Page 63: Axc_S / T Compact Axis With Screw Drive

    5.2.2 AXC_S / T Compact Axis with screw drive 5.2.2.1 Structure Figure 5.22 __ Structure AXC_S / AXC_T Fixed bearing unit Screw drive Guiding system Cover strip (optional) Slider unit Profile Floating bearing unit...

  • Page 64: Dimensions/ Technical Data

    5.2.2.2 Dimensions/ Technical data AXC40S / AXC40T T = Table length S = Stroke n x SA = Number of screw drive support units L = T + S + 51 mm (+ n x SA x 30 mm) Re-greasing possibility on both sides Technical data Type SN1205...
  • Page 65 rotational Allowable rotational speed of the ball screw 7 000 Ball screw without support unit 6 000 Ball screw with one support unit set 5 000 4 000 3 000 2 000 1 000 1 250 1 750 2 250 2 750 Stroke [mm] Allowable rotational speed of the trapezoidal screw...
  • Page 66 AXC60S / AXC60T T = Table length S = Stroke n x SA = Number of screw drive support units L = T + S + 70 mm (+ n x SA x 40 mm) Re-greasing possibility on both sides Recommended position for fitting bore Ø5H7 (optional to specify as special option) Technical data Type...
  • Page 67 Allowable rotational speed of the ball screw Ball screw without support unit (standard bearings) 7 000 Ball screw without 6 000 support unit (reinforced bearings) 5 000 Ball screw with one 4 000 support unit set 3 000 Ball screw with two support unit sets 2 000 Ball screw with three...
  • Page 68 AXC80S / AXC80T T = Table length S = Stroke n x SA = Number of screw drive support units L = T + S + 60 mm (+ n x SA x 50 mm) Re-greasing possibility on both sides Technical data Type SN/SV2005...
  • Page 69 Allowable rotational speed of the ball screw Ball screw without support unit (standard bearings) 7 000 Ball screw without support unit (reinforced 6 000 bearings) 5 000 Ball screw with one support unit set 4 000 Ball screw with two 3 000 support unit sets 2 000...
  • Page 70 AXC100S / AXC100T T = Table length S = Stroke n x SA = Number of screw drive support units L = T + S + 80 mm (+ n x SA x 50 mm) Re-greasing possibility on both sides Technical data Type SN2505...
  • Page 71 Allowable rotational speed of the ball screw Ball screw without support unit Ball screw with one 6 000 support unit set 5 000 Ball screw with two support unit sets 4 000 Ball screw with three support unit sets 3 000 Ball screw with four support unit sets 2 000...
  • Page 72 AXC120S / AXC120T T = Table length S = Stroke n x SA = Number of screw drive support units L = T + S + 100 mm (+ n x SA x 60 mm) Re-greasing possibility on both sides Technical data Type SN3205...
  • Page 73 Allowable rotational speed of the ball screw Ball screw without support unit Ball screw with one 4 500 support unit set 4 000 Ball screw with two 3 500 support unit sets 3 000 Ball screw with three 2 500 support unit sets 2 000 1 500...

  • Page 74: Maximum Static Load Cacpacity

    5.2.2.3 Maximum static load cacpacity Load Load moment Type Guiding system [Nm] AXC40S AXC40T 2 430 3 950 AXC60S 4 860 9 650 AXC60T 7 900 12 400 AXC80S 7 900 16 000 1 350 AXC80T AXC100S 15 900 15 900 1 600 1 600 AXC100T...

  • Page 75: Axc_A Compact Axis With Toothed Belt / Ω - Drive

    5.2.3 AXC_A Compact Axis with toothed belt / Ω - drive 5.2.3.1 Structure Figure 5.23 __ Structure AXC_A Toothed belt clamping Toothed belt Guiding system Operating head Profile Toothed belt tension unit...
  • Page 76 5.2.3.2 Dimensions / Technical data AXC40A T = Table length S = Stroke L = T + S + 60 mm Re-greasing possibility on both sides Groove dimension as AXC40Z Technical data Linear guide Guiding system Table length T Drive element Toothed belt 16AT3 Maximum velocity m /min...
  • Page 77 AXC60A T = Table length S = Stroke L = T + S + 80 mm Re-greasing possibility on both sides Technical data Linear guide Track roller guide Guiding system Table length T Drive element Toothed belt 25AT5 Maximum velocity m /min Allowable dynamic operation load Stroke per revolution...
  • Page 78 AXC80A T = Table length S = Stroke L = T + S + 125 mm Re-greasing possibility on both sides Technical data Linear guide Track roller guide Guiding system Table length T Drive element Toothed belt 32AT5 Maximum velocity m /min Allowable dynamic operation load Stroke per revolution...
  • Page 79 AXC120A T = Table length S = Stroke L = T + S + 210 mm Re-greasing possibility on both sides Technical data Linear guide Track roller guide Guiding system Table length T Drive element Toothed belt 50AT10 Maximum velocity m /min Allowable dynamic operation load 2 500...

  • Page 80: Maximum Static Load Capacity

    5.2.3.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] AXC40A 9 650 9 650 AXC60A 16 000 16 000 AXC80A 3 400 3 400 28 500 28 500 2 750 2 750 AXC120A 5 100 5 100 5.2.3.4 Dynamic load capacity The dynamic load capacities of the guiding systems are based on a nominal life time of 50 000 km.

  • Page 81: Structure

    AXF Compact Axis 5.3.1 AXF_Z Compact Axis with toothed belt drive 5.3.1.1 Structure Figure 5.24 __ Structure AXF_Z Drive unit Toothed belt Guiding system Cover strip (optional) Slider unit Profile Deflection pulley...

  • Page 82: Dimensions / Technical Data

    5.3.1.2 Dimensions / Technical data AXF100Z K*** (≥ 85) J*** (≥ 134) T = Table length S = Stroke L = T + S + 140 mm *Guiding system B, D, P Re-greasing possibility on both sides **Guiding systemC ***optional, Measures to specify as special option Technical data Polymer - Linear guide...

  • Page 83: Maximum Static Load Capacity

    5.3.1.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] 11 200 16 500 11 200 16 500 2 100 1 260 AXF100Z 23 750 23 750 1 100 1 100 13,5 19,5 10,0 5.3.1.4 Dynamic load capacity The dynamic load capacities of the guiding systems are based on a nominal life time of 50 000 km for he guiding systems B, C and D and 10 000 km for the guiding system P.

  • Page 84: Axf_S / Axf_T / Axf_G Compact Axis With Screw Drive

    5.3.2 AXF_S / AXF_T / AXF_G Compact Axis with screw drive 5.3.2.1 Structure Figure 5.25 __ Structure AXF_S / AXF_T / AXF_G Fixed bearing unit Screw drive Guiding system Cover strip (optional) Slider unit Profile Floating bearing unit...

  • Page 85: Dimensions / Technical Data

    5.3.2.2 Dimensions / Technical data AXF100S / AXF100T / AXF100G T = Table length S = Stroke n x SA = Number of screw drive support units L = T + S + 80 mm (+ n x SA x 50 mm) * Optional, Measures to specify as special option Re-greasing possibility on both sides **For drive element G and T...
  • Page 86 Type TN2405 GN2030 GN2060 GN2090 Guiding system Linear guide D Polymer - Track roller guide P Table length T Drive element Trapezoidal screw Sliding screw Screw diameter Pitch / Pitch direction 5 / right 30 / right 60 / right 90 / right Maximum velocity m /min...

  • Page 87: Maximum Static Load Capacity

    Allowable rotational speed of the trapezoidal screw 1 400 Trapezoidal screw without support unit 1 200 Trapezoidal screw with one support unit set 1 000 Trapezoidal screw with two support unit sets Trapezoidal screw with three support unit sets Trapezoidal screw with four support unit sets 1 500 2 500...

  • Page 88: Axdl Parallel Axis

    AXDL Parallel Axis 5.4.1 AXDL_Z Parallel Axis with toothed belt drive 5.4.1.1 Structure Figure 5.26 __ Structure AXDL_Z Drive unit Toothed belt Guiding system Cover strip Slider unit Profile Deflection pulley (AXDL110Z with defection pulley head)

  • Page 89: Dimensions / Technical Data

    5.4.1.2 Dimensions / Technical data AXDL110Z T = Table length S = Stroke L = T + S + 105 mm Re-greasing possibility on both sides Technical data Linear guide Guiding system Table length T Distance of the sliding blocks L1 ≤...
  • Page 90 AXDL160Z T = Table length S = Stroke L = T + S + 100 mm * Guiding system D:optional hole pattern, note dimensions as a special specification Re-greasing possibility on both sides ** Guiding system L: optional hole pattern, note dimensions as a special specification *** Optional, note dimensions as a special specification Technical data Linear guide...
  • Page 91 AXDL240Z T = Table length S = Stroke L = T + S + 120 mm * Optional, note dimensions as a special specification Re-greasing possibility on both sides Technical data Linear guide Linear guide Track roller guide Guiding system Table length T Distance of the sliding blocks L1 ≤...

  • Page 92: Maximum Static Load Capacity

    5.4.1.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] AXDL110Z 7 900 7 900 32 000 32 000 1 600 1 650 1 650 AXDL160Z 1 200 1 200 42 500 42 500 3 550 3 900 3 900 51 440 51 440...

  • Page 93: Axdl_S / T Parallel Axis With Screw Drive

    5.4.2 AXDL_S / T Parallel Axis with screw drive 5.4.2.1 Struture Figure 5.27 __ Structure AXDL_S / AXDL_T Fixed bearing unit Screw drive Guiding system Slider unit Profile Cover strip Floating bearing unit...

  • Page 94: Dimensions / Technical Data

    5.4.2.2 Dimensions / Technical data AXDL110S / AXDL110T T = Table length S = Stroke n x SA = Number of screw drive support units L = T + S + 15 mm (+ 44 mm with 3 x SA / + 88 mm with 4 x SA) Re-greasing possibility on both front sides Technical data Type...
  • Page 95 Allowable rotational speed of the ball screw Ball screw without support unit Ball screw with one 7 000 support unit set 6 000 Ball screw with two support unit sets 5 000 Ball screw with three 4 000 support unit sets 3 000 Ball screw with four support unit sets...
  • Page 96 AXDL160S / AXDL160T T = Table length S = Stroke n x SA = Number of screw drive support units L = T + S + 20 mm (+ 50 mm mit 2 x S / + 150 mm mit 3 x SA / + 250 mm mit 4 x SA) * Optional, note dimensions as a special specification Re-greasing possibility on both front sides Technical data...
  • Page 97 Allowable rotational speed of the ball screw Ball screw without support unit Ball screw with one 7 000 support unit set 6 000 Ball screw with two support unit sets 5 000 Ball screw with three 4 000 support unit sets 3 000 Ball screw with four support unit sets...
  • Page 98 AXDL240S / AXDL240T T = Table length S = Stroke n x SA = Number of screw drive support units L = T + S + 24 mm (+ 50 mm with 2 x S / + 150 mm mit 3 x SA / + 250 mm with 4 x SA) * Optional, note dimensions as a special specification Re-greasing possibility on both front sides Technical data...
  • Page 99 Allowable rotational speed of the ball screw Ball screw without 5 000 support unit 4 500 Ball screw with one support unit set 4 000 3 500 Ball screw with two support unit sets 3 000 Ball screw with three 2 500 support unit sets 2 000...

  • Page 100: Maximum Static Load Capacity

    5.4.2.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] AXDL110S 7 900 7 900 AXDL110T AXDL160S 32 000 32 000 1 600 2 200 2 200 AXDL160T 42 500 42 500 3 550 3 950 3 950 AXDL240S AXDL240T 51 000...

  • Page 101: Axdl_A Parallel Axis With Toot Belt / Ω - Drive

    5.4.3 AXDL_A Parallel Axis with toot belt - Ω - drive 5.4.3.1 Structure Figure 5.28 __ Structure AXDL_A Toothed belt clamping Toothed belt Guiding system Operating head Profile Toothed belt tension unit...

  • Page 102: Dimensions / Technical Data

    5.4.3.2 Dimensions / Technical data AXDL160A T = Table length S = Stroke Guiding system D: L = T + S + 67 mm - Guiding system L: L = T + S + 87 mm * Optional, note dimensions as a special specification Re-greasing possibility on both sides Technical data Linear guide...
  • Page 103 AXDL240A Adaption to AXS280 Adaption to AXDL240Z T = Table length S = Stroke L = T + S + 27 mm Re-greasing possibility on both sides Technical data Linear guide Track roller guide Guiding system Table length T Table width W 330 at adaptation to AXDL240Z / 460 at adaptation to AXS280 Drive element Toothed belt 70STD8...

  • Page 104: Maximum Static Load Capacity

    5.4.3.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] 32 000 32 000 1 600 1 650 1 650 AXDL160A 1 200 1 200 42 500 42 500 3 550 3 900 3 900 AXDL240A 2 600 2 600 5.4.3.4 Dynamic load capacity...

  • Page 105: Axlt Linear Table Axis

    AXLT Linear Table Axis 5.5.1 AXLT_S / T Linear Table Axis with screw drive 5.5.1.1 Structure Figure 5.29 __ Structure AXLT_S / AXLT_T Fixed bearing unit Guiding system Spindel Base plate Inductive switch, inside placed (optional) Table unit Bellow (optional) Floating bearing unit Mechanical switch, outside placed (optional)

  • Page 106: Dimensions / Technical Data

    5.5.1.2 Dimensions / Technical data AXLT155S / AXLT155T T = Table length S = Stroke B = Bellow block dimension L = T + S + 58 mm + 2 x B * omitted for steel version Separately lubrication connections for the carriages on both sides Lubrication connections for the screw drive Calculation bellow block dimension B: Number of folds = round up (S / 16.5)
  • Page 107 Allowable rotational speed of the ball screw Ball screw without 7 000 support unit 6 000 5 000 4 000 3 000 2 000 1 000 1 000 1 500 2 000 2 500 Stroke [mm] Allowable rotational speed of the trapezoidal screw Trapezoidal screw without support unit 1 200...
  • Page 108 AXLT225S / AXLT225T T = Table length S = Stroke B = Bellow block dimension L = T + S + 70 mm + 2 x B * omitted for steel version Separately lubrication connections for the carriages on both sides Lubrication connections for the screw drive Calculation bellow block dimension B: Number of folds = round up (S / 27)
  • Page 109 Allowable rotational speed of the ball screw Ball screw without 6 000 support unit 5 000 4 000 3 000 2 000 1 000 1 000 1 500 2 000 2 500 Stroke [mm] Allowable rotational speed of the trapezoidal screw 1 000 Trapezoidal screw without support unit...
  • Page 110 AXLT325S / AXLT325T T = Table length S = Stroke B = Bellow block dimension L = T + S + 90 mm + 2 x B Separately lubrication connections for the carriages on both sides Lubrication connections for the screw drive Calculation bellow block dimension B: Number of folds = round up (S / 27) Technical data...
  • Page 111 Allowable rotational speed of the ball screw Ball screw without 5 000 support unit 4 000 3 000 2 000 1 000 1 250 1 750 2 250 2 750 Stroke [mm] Allowable rotational speed of the trapezoidal screw Trapezoidal screw without support unit 1 250 1 750...
  • Page 112 AXLT455S / AXLT455T T = Table length S = Stroke B = Bellow block dimension L = T + S + 96 mm + 2 x B Separately lubrication connections for the carriages on both sides Lubrication connections for the screw drive Calculation bellow block dimension B: Number of folds = round up (S / 34.5) Technical data...
  • Page 113 Allowable rotational speed of the ball screw Ball screw without 4 000 support unit 3 000 2 000 1 000 1 250 1 750 2 250 2 750 Stroke [mm] Allowable rotational speed of the trapezoidal screw Trapezoidal screw without support unit 1 250 1 750...

  • Page 114: Maximum Static Load Capacity

    5.5.1.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] AXLT155S 19 000 19 000 1 000 AXLT155T 19 000 19 000 1 000 1 150 1 150 AXLT225S 32 000 32 000 2 500 2 250 2 250 AXLT225T 32 000 32 000...

  • Page 115: Axbg Precision Axis

    AXBG Precision Axis 5.6.1 AXBG Precision Axis with screw drive 5.6.1.1 Structure Figure 5.30 __ Structure AXBG_S Fixed bearing unit Guiding rail Screw drive Carriage Floating bearing unit Dust cover Cover plate (optional)

  • Page 116: Dimensions / Technical Data

    5.6.1.2 Dimensions / Technical data AXBG15__A / AXBG15__B *on both sides **Lubrication hole AXBG15__A / AXBG15__B with cover plate *on both sides **Lubrication hole...
  • Page 117 Technical data Type SN0601 SN0602 Drive element Ball screw Screw diameter Pitch / Pitch direction 1 / right 2 / right Maximum velocity m /min 11,1 22,2 Maximum drive torque 0,016 0,064 Maximum axial operating load Moment of inertia Kgcm 0,00083 Geometrical moment of inertia (profile) I 0,12...
  • Page 118 AXBG20__A / AXBG20__B *on both sides **Grease nipple AXBG20__A / AXBG20__B with cover plate *on both sides **Lubrication hole...
  • Page 119 Technical data Type SN0601 SN0605 Drive element Ball screw Screw diameter Pitch / Pitch direction 1 / right 5 / right Maximum velocity m /min 11,2 55,5 Maximum drive torque 0,05 0,16 Maximum axial operating load Moment of inertia Kgcm 0,00083 Geometrical moment of inertia (profile) I 0,65...
  • Page 120 AXBG26__A / AXBG26__B *on both sides **Grease nipple AXBG26__A / AXBG26__B with cover plate *on both sides **Grease nipple...
  • Page 121 Technical data Type SN0802 SN0805 Drive element Ball screw Screw diameter Pitch / Pitch direction 2 / right 5 / right Maximum velocity m /min 16,8 41,6 Maximum drive torque 0,16 0,40 Maximum axial operating load Moment of inertia Kgcm 0,0271 Geometrical moment of inertia (profile) I 1,69...
  • Page 122 AXBG33__A / AXBG33__B *on both sides **Grease nipple AXBG33__A / AXBG33__B with cover plate *on both sides **Grease nipple ***Bore holes from the bottom side...
  • Page 123 AXBG33__C / AXBG33_ D *on both sides **Grease nipple AXBG33__C / AXBG33__D with cover plate *on both sides **Grease nipple ***Bore holes from the bottom side...
  • Page 124 Technical data Type SN1005 SN1010 SN1220 Drive element Ball screw Screw diameter Pitch / Pitch direction 5 / right 10 / right 20 / right Maximum velocity m /min Maximum drive torque 0,8 (0,6*) 1,3 (0,6*) 3,2 (1,6*) Maximum axial operating load 1 000 (700*) 800 (400*) 1 000 (500*)
  • Page 125 AXBG46__A / AXBG46__B *on both sides **Grease nipple AXBG46__A / AXBG46__B with cover plate *on both sides **Grease nipple ***Bore holes from the bottom side...
  • Page 126 AXBG46__C / AXBG46__D *on both sides **Grease nipple AXBG46__C / AXBG46__D with cover plate *on both sides **Grease nipple ***Bore holes from the bottom side...
  • Page 127 Technical data Type SN1510 SN1520 Drive element Ball screw Screw diameter Pitch / Pitch direction 10 / right 20 / right Maximum velocity m /min 44,4 88,8 Maximum drive torque 2,9 (1,4*) 5,7 (4,1*) Maximum axial operating load 1 800 (900*) 1 800 (1 300*) Moment of inertia Kgcm...
  • Page 128 AXBG55__A / AXBG55__B *on both sides **Grease nipple AXBG55__A / AXBG55__B with cover plate *on both sides **Grease nipple ***Bore holes from the bottom side...
  • Page 129 Technical data Type SN2020 Drive element Ball screw Spindle diameter Pitch / Pitch direction 20 / right Maximum velocity m /min 67,2 Maximum drive torque 7,3 (5,4*) Maximum axial operating load 2 300 (1 700*) Moment of inertia Kgcm 1,12 Geometrical moment of inertia (profile) I 22,9 Geometrical moment of inertia (profile) I...

  • Page 130: Load Ratings

    5.6.1.3 Load ratings Guiding system Dynamic Static Type Permissible static moments load rating load rating [kN] [kN] [kNm] [kNm] [kNm] [kNm] [kNm] AXBG15_A 2,42 4,76 0,051 0,017 0,092 0,020 0,110 AXBG20_A 4,27 7,89 0,101 0,035 0,199 0,042 0,237 AXBG26_A 7,87 14,98 0,255 0,099...

  • Page 131: Maximum Stroke Length

    5.6.1.4 Maximum stroke length Coded in [mm] Type Profile length L Guiding system AXBG15 AXBG20 AXBG26 AXBG33 AXBG46 1 040 1 140 1 009 1 045 1 240 1 109 1 000 1 145 1 072 1 080 AXBG55 1 180 1 034 1 280 1 134...

  • Page 132: Precision Classes

    5.6.1.5 Precision classes Profile Position Type Repeatability Running parallelism Backlash Starting moment Length accuracy [µm] [µm] [µm] [µm] [µm] [µm] [µm] [µm] [Nm] [Nm] AXBG15 ±3 ±1 0,01 0,012 AXBG20 ±3 ±1 0,01 0,012 AXBG26 ±3 ±1 0,015 0,04 ±1 0,15 AXBG33 ±3...

  • Page 133: Axs System Program Axis

    AXS System Program Axis 5.7.1 AXS_TA Telescopic Axis with toothed belt / Ω - drive 5.7.1.1 Structure Figure 5.31 __ Structure AXS_TA Deflection unit Toothed belt 1 Guiding level 1 Toothed belt 2 Operating head Slider unit Guiding level 2 Profile...

  • Page 134: Dimensions / Technical Data

    5.7.1.2 Dimensions / Technical data AXS110TA S = Stroke L = S/2 + 310 mm S = Stroke L = S/2 + 310 mm Technical data Guiding level 1 Guiding level 2 Guiding system Linear guide D Drive element Toothed belt 25STD5 Toothed belt 16AT3 Maximum velocity m /min...

  • Page 135: Maximum Static Load Capacity

    Mass Guiding system Linear guide D Guiding level 1 Guiding level 2 Basic mass (including slider mass) Mass per 100 mm stroke Slider mass 5.7.1.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] 42 500 42 500 1 700 7 000 7 000...

  • Page 136: Axs_M Lifting And Gantry Axis With Rack And Pinion Drive

    5.7.2 AXS_M Lifting and Gantry Axis with rack and pinion drive 5.7.2.1 Structure Lifting Axis Guiding system Toothed rack Profile Pinion Slider unit Gearbox Figure 5.32 __ Structure AXS_M Lifting Axis Gantry Axis Shock absorber Toothed rack Pinion Gearbox Slider unit Guiding system Profile Figure 5.33 __ Structure AXS_M Gantry Axis...

  • Page 137: Dimensions / Technical Data

    5.7.2.2 Dimensions / Technical data AXS200MB Lifting Axis (for combination with Gantry Axis AXS280MP) Dimensions ØL5and L6 from Capter 7.3, Table 7.2 Dimensions Ød, Øb und e from Chapter 6.2.1, Table 6.17 S = Stroke L = S + 490 mm Technical data Guiding system Linear guide D...
  • Page 138 AXS200MP / AXS200MS Lifting Axis Dimensions ØL5and L6 from Capter 7.3, Table 7.2 Dimensions Ød, Øb und e from Chapter 6.2.1, Table 6.17 S = Stroke Guiding system D: L = S + 545 mm Guiding system E: L = S + 725 mm Technical data Guiding system Linear guide D...
  • Page 139 AXS230MB Lifting Axis (for combination with Gantry Axis AXS280MP and AXS460MP) Dimensions ØL5and L6 from Capter 7.3, Table 7.2 Dimensions Ød, Øb und e from Chapter 6.2.1, Table 6.17 S = Stroke Guiding system D: L = S + 515 mm Guiding system E: L = S + 653 mm Technical data...
  • Page 140 AXS280MB Lifting Axis (for combination with Gantry Axis AXS460MP) Dimensions ØL6 and L7 from Capter 7.3, Table 7.2 Dimensions Ød, Øb und e from Chapter 6.2.1, Table 6.17 S = Stroke L = S + 690 mm Technical data Guiding system Linear guide D Table length T Drive element...
  • Page 141 AXS280MP Gantry Axis Gearbox dimension from Chapter 6.2.1, Table 6.17 * X1 and X2 must be specified ** Shock absorber fixation optional in the end plate or in a traverse (X1, X2 ≥ 165 mm) S = Stroke Guiding system D: L = S + 908 mm (Minimum length for shock absorber fixation in the end plate) Guiding system E: L = S + 1 030 mm (Minimum length for shock absorber fixation in the end plate)
  • Page 142 AXS460MP Gantry Axis Gearbox dimensions from Chapter 6.2.1, Table 6.17 * Shock absorber fixation on the profile (X1, X2 ≥ 145 mm, from the profile end different positions must be specified) ** Mounting surfaces for wall fastening (flat lying), dimensions Y1…Y6 must be specified) *** Mounting surfaces fastening on gantry support legs S = Stroke L = S + T + X1 + X2...

  • Page 143: Maximum Static Load Capacity

    5.7.2.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] AXS200MB 57 000 57 000 4 300 7 000 7 000 57 000 57 000 4 300 3 900 3 900 AXS200MP AXS200MS 57 000 57 000 4 300 8 250 8 250 57 000...

  • Page 144: Axs_T Horizontal And Vertical Telescopic Axis With Rack And Pinion Drive / Toothed Belt Drive

    5.7.3 AXS_T Horizontal and vertical Telescopic Axis with rack and pinion drive / toothed belt drive 5.7.3.1 Structure Horizontal Telescopic Axis Guiding level 1 Toothed rack Base plate Pinion Slider unit Guiding level 2 Figure 5.34 __ Structure AXS_TH Horizontal Telescopic Axis Profile Toothed belt Vertical Telescopic Axis...

  • Page 145: Dimensions / Technical Data

    5.7.3.2 Dimensions / Technical data AXS120TH Horizontal Telescopic Axis Gearbox dimensions from Chapter 6.2.1, Table 6.17 S = Stroke L = S/2 + 514 mm L1 ≤ 340 mm (recommended 220 mm) Technical data Guiding level 1 Guiding level 2 Guiding system Linear guide D Drive element...
  • Page 146 AXS120TV Vertical Telescopic Axis Gearbox dimensions from Chapter 6.2.1, Table 6.17 S = Stroke L = S/2 + 397 mm Technical data Guiding level 1 Guiding level 2 Guiding system Linear guide D Toothed rack, module 2 Toothed belt 50AT10 Drive element Maximum velocity m/min...
  • Page 147 AXS240TH Horizontal Telescopic Axis *Guiding system E Gearbox dimensions from Chapter 6.2.1, Table 6.17 S = Stroke L = S/2 + 490 mm Guiding system D: Guiding system E: L = S/2 + 620 mm Technical data Guiding level 1 Guiding level 2 Guiding system Linear guide D...
  • Page 148 AXS280TH Horizontal Telescopic Axis Gearbox dimensions from Chapter 6.2.1, Table 6.17 S = Stroke L = S/2 + 770 mm Technical data Guiding level 1 Guiding level 2 Guiding systema Linear guide D Drive element Toothed rack, module 3 Toothed belt 75AT10 Maximum velocity m /min Allowable dynamic operation load...
  • Page 149 AXS280TV Vertical Telescopic Axis Gearbox dimensions from Chapter 6.2.1, Table 6.17 S = Stroke L = S/2 + 500 mm Technical data Guiding level 1 Guiding level 2 Guiding system Linear guide D Toothed rack, module 4 Toothed belt 75AT10 Drive element Maximum velocity m/min...

  • Page 150: Maximum Static Load Capacity

    5.7.3.3 Maximum static load capacity Load Load moment Type Guiding system Guiding level [Nm] 42 500 42 500 1 700 7 000 7 000 AXS120TH 28 500 28 500 2 600 2 600 42 500 42 500 1 700 7 000 7 000 AXS120TV 28 500...

  • Page 151: Axs_Y Gantry Axis With Lateral Toothed Belt Drive

    5.7.4 AXS_Y Gantry Axis with lateral toothed belt drive 5.7.4.1 Structure Figure 5.36 __ Structure AXS_Y Defection unit Slider unit Guiding system Toothed belt Profile Shock absorber Drive unit...

  • Page 152: Dimensions / Technical Data

    5.7.4.2 Dimensions / Technical data AXS280Y Gearbox dimensions from Chapter 6.2.1, Table 6.17 Dimension X always on the drive side S = Stroke L = S + T + X and X must be specified) Technical data Guiding system Linear guide D Linear guide E Table length T Hole seaparation C...

  • Page 153: Maximum Static Load Capacity

    5.7.4.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] 82 000 82 000 9 900 11 000 11 000 AXS280Y 82 000 82 000 9 900 19 000 19 000 5.7.4.4 Dynamic load capacity The dynamic load capacities of the guiding systems are based on a nominal life time of 50 000 km. Load Load moment Type...

  • Page 154: Axs_Z Gantry Axis With Toothed Belt Drive

    5.7.5 AXS_Z Gantry Axis with toothed belt drive 5.7.5.1 Structure Figure 5.37 __ Structure AXS_Z Drive unit Shock absorber assembled in a traverse Toothed belt Slider unit Guiding system Shock absorber assembled in the end plate Deflection unit Profile...

  • Page 155: Dimensions / Technical Data

    5.7.5.2 Dimensions / Technical data AXS280Z Gearbox dimensions from Chapter 6.2.1, Table 6.17 * X1 and X2 must be specified ** Shock absorber fixation optional in the end plate or in a traverse (X1, X2 ≥ 165 mm) S = Stroke L = S + 560 mm (Minimum length for shock absorber fixation in the end plate) Technical data Guiding system...

  • Page 156: Maximum Static Load Capacity

    5.7.5.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] 82 000 82 000 9 900 11 000 11 000 AXS280Z 82 000 82 000 9 900 19 000 19 000 5.7.5.4 Dynamic load capacity The dynamic load capacities of the guiding systems are based on a nominal life time of 50 000 km. Load Load moment Type...

  • Page 157: Axlm Linear Motor Axis

    AXLM Linear Motor Axis 5.8.1 AXLM_EA / AXLM_EW 5.8.1.1 Structure Figure 5.38 __ Structure AXLM_EA / AXLM_EW Shock absorber Secondary component Guiding system Slider unit Primary component Measuring system Energy chain Base profile...

  • Page 158: Dimensions / Technical Data

    5.8.1.2 Dimensions / Technical data AXLM155EA / AXLM155EW T = Table length S = Stroke L = S + T + 2xX (+ 2xB)* Maximum length (one-piece): 6 000 mm * For configuration version F (bellow) B = Bellow block dimension Calculation bellow block dimension B: Number of folds = round up (S / 16.5) B = Number of folds x 3 + 5 mm...
  • Page 159 AXLM225EA / AXLM225EW T = Table length S = Stroke L = S + T + 2xX (+ 2xB)* Maximum length (one-piece): 6 000 mm * For configuration version F (bellow) B = Bellow block dimension Calculation bellow block dimension B: Number of folds = round up (S / 27) B = Number of folds x 3 + 5 mm Type...
  • Page 160 AXLM325EA / AXLM325EW T = Table length S = Stroke L = S + T + 2xX (+ 2xB)* Maximum length (one-piece): 6 000 mm * For configuration version F (bellow) B = Bellow block dimension Calculation bellow block dimension B: Number of folds = round up (S / 27) B = Number of folds x 3 + 5 mm Type...

  • Page 161: Maximum Static Load Capacity

    5.8.1.3 Maximum static load capacity Load Load moment Type Guiding system [Nm] AXLM155E_0330 15 700 16 450 14 950 1 130 1 130 AXLM155E_0400 15 700 16 600 14 800 1 120 1 120 AXLM155E_0650 15 700 17 150 14 240 2 330 2 330 AXLM155E_0800...

  • Page 162: Feeding Force

    5.8.1.5 Feeding force Feeding force AXLM155E Permissible peak force Permanent force Velocity Type by F [m/s] AXLM155EA0330 AXLM155EW0330 AXLM155EA0400 AXLM155EW0400 AXLM155EA0650 AXLM155EW0650 5,0* AXLM155EA0800 AXLM155EW0800 AXLM155EA0980 AXLM155EW0980 AXLM155EA1200 1 200 AXLM155EW1200 *Maximum velocity with bellows 2 m/s Feeding force AXLM225E Permissible peak force Permanent force Velocity...

  • Page 163: Force –Velocity - Characteristic

    5.8.1.6 Force - Velocity - Characteristic F (N) Permissible motor peak force Permanent force of the motor with air cooling (130° winding temperature) Permanent force of the motor with water cooling (130° winding temperature) Maximum velocity with F Nominal velocity with F Nominal velocity with F V (m/s Overload operation...

  • Page 164: Current Consumption

    5.8.1.7 Current consumption The following values are based on a standard winding with a direct current link voltage of U = 560V. Deviating windings for other direct current link voltage are available on request. = Peak current at the peak force F = Continuous current / rated current at permanent force F = Value of the feeding current, if exceeded the magnets will be demagentized = Power dissipation at permanent force F...

  • Page 165: Motor Interface

    BLACK 2 BLACK 3 Circular connector M40 x 1,5 Thermo switch WHITE Thermo switch BROWN not configurated not configurated NTN-SNR can supply the AXLM Axis with pre-assembled motor connection cables on request. For more information please contact our NTN-SNR application engineers.

  • Page 166: Accessories

    Fastening and connecting elements For the assembly of NTN-SNR - Linear Axis is a perfectly matched range of fastening elemets available. Sliding blocks, fastening strips and an extensive range of connecting elements offer manifold possibilities to fix the axis on mounting surfaces or to combine axis.
  • Page 167 Figure 6.2 ___ Dimensions fastening strips AXC / AXDL Table 6.1 ____ Fastening strips AXC / AXDL Type Designation ID number [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] AXC40 AXC40-Fastening strip 108663 AXC60 AXC60-Fastening strip 108579 AXC80 AXC80-Fastening strip...

  • Page 168: Sliding Blocks

    6.1.2 Sliding blocks Sliding blocks (Figure 6.4) are available for Linear Axis of the series AXC, AXDL, AXLT and AXS. The distance between the sliding blocks should be selected depending on the load and the required straightness and the rigidity. Four different designs of sliding blocks are available.
  • Page 169 Table 6.3____ Sliding blocks Type Designation ID number Design type max. tensil force [mm] [mm] [mm] Sliding block.5ST M3 109066 Sliding block.5ST M4 109073 Sliding block.5ST M4 A2 289073 AXC40 AXC60 Sliding block.5ST M5 109070 Sliding block.5ST M5 A2 139275 Sliding block.5Zn M3 103758 Sliding block.6ST M4...

  • Page 170: Hammer Screws

    6.1.3 Hammer screws Hammer screws (Figure 6.7) and hammer nuts are used for mounting the Linear Axis of the AXF series. For this purpose the closed profile grooves must be opened at positions defined by the user. Figure 6.7 ___ Linear Axis AXF with hammer screws Hammer screws and hammer nuts are available in different sizes and lengths.

  • Page 171: Direct Connection

    6.1.4 Direct connection Direct connections (Figures 6.9 and 6.10) are connecting sets which contain all the essential connecting elements such as adapter plates, fastening strips, screws. Figure 6.9 ___ Direct connection AXC / AXC Figure 6.10___Direct connection AXDL / AXDL The type codes and ID number of direct connections are shown in Table 6.5.
  • Page 172 The linear tables of the AXLT series are designed that they can be combined in the simplest way to cross tables (Figure 6.10). Depending on the size, an adapter is not necessary. In cross tables with the arrangement base plate on tabletop either linear tables of the same size or the next smaller size can be mounted on the tabletop.

  • Page 173: Cross Connection

    6.1.5 Cross connection Cross connections (Figure 6.11) are connecting elements for the mounting of 2 – axis systems in which the tabletops of the respective axis are assembled together. The cross connections include all necessary connecting elements inclusive the screws. Figure 6.11 __ Cross connection AXC / AXC and AXC / AXDL Alignment by cylindrical pin or Mounting edge...
  • Page 174 Table 6.7 ____ Cross connection AXC / AXDL Designation ID number [mm] [mm] [mm] [mm] AXC-Cross connection-60-40 382276 AXC-Cross connection-60-60 160635 AXC-Cross connection-80-60 158840 AXC-Cross connection-80-80 253556 AXC-Cross connection-100-80 382277 AXC-Cross connection-120-80 187419 AXC-Cross connection-120-120 311633 AX-Cross connection-110-40 382278 AX-Cross connection-110-60 252537 AX-Cross connection-160-60 265455...

  • Page 175: Gantry Connection

    6.1.6 Gantry connection Gantry connections (Figure 6.14) are connecting elements for the mounting of X – Y -axis systems in where the Y – axis will be assembled in 90° position. Gantry connections contain all the essential connecting elements including screws. Figure 6.14 __ Gantry connection AXC / AXC and AXC / AXDL Switches available on both sides The type codes and dimensions including ID number of the gantry connections are shown in Figure 6.15 and Table 6.9.

  • Page 176: A – Standard Connection

    Table 6.9 ____ Gantry connection AXC / AXDL X - Axis Y - Axis Designation ID number [mm] [mm] [mm] [mm] [mm] [mm] [mm] AXC40 AXC60 AXC-Gantry connection-40-60 305211 -11,0 AXC80Z 10,0 AXC-Gantry connection-60-80 160364 AXC80S/T/A 22,0 AXC60 AXDL110 AX-Gantry connection-60-110 230361 AXDL160 AX-Gantry connection-60-160...
  • Page 177 The type codes and dimensions including ID number of the A - standard connections are shown in Figure 6.17 and Table 6.10. Adaptor set pre-assembled on the Z – axis Upper end position Fixed position Figure 6.18 __ A – Standard connection AXC / AXDL Table 6.10 ___ A –...

  • Page 178: Angle Connection

    6.1.8 Angle connection Angle connections provides a variety of possibilities for the combination of Linear Axis of the AXDL series to 2 – axis – systems in X – Y or Y – Z arrangement (Figures 6.19 up t9 6.22). Combinations of Linear Axis with the same size and with a different of one size are possible.
  • Page 179 Y – Z – Axis – System, profile assembly Figure 6.21 __ Angle connection Y – Z – Axis – System, profile assembly Table 6.13 ___ Angle connection Y – Z – Axis – System, profile assembly X - Axis Y - Axis Designation ID number...

  • Page 180: Drive Options

    Drive options 6.2.1 Plug-in shaft Plug-in shafts are common variants of the form-fitting drive adaption (Figure 6.23), which is available for Linear Axis of the AXC_Z, AXC_A, AXDL_Z and AXDL_A series. For optimal alignment of the fastening elements for the drive, it is necessary to specify the mounting side for the machining of the profile.

  • Page 181: Couplings And Connecting Shafts

    6.2.2 Couplings and connecting shafts Parallel arranged Linear Axis can be linked via a connecting shaft (Figure 6.25). The necessary drive torque is distributed evenly across all axis. As connecting shafts galvanized hollow shafts are used. The use of couplings with clampimg hub on the connecting shaft allows precise adjustment of the Linear Axis.
  • Page 182 Figure 6.28 shows the maximum speed depending on the center distance of the Linear Axis. The basis of the limits here are 50% of the critical speed. If there are higher requirements, please contact our NTN-SNR - application engineers. AXC120...

  • Page 183: Gearboxes

    6.2.3.1 Version ZS and ZT – Plug-in planetary gearbox The versions ZS and ZT represent the simplest versions of the mounting of a planetary gearbox at NTN-SNR Linear Axis with toothed belt drive of the series AXC. Here, the gearbox shaft with feather key is form-fitted inserted positively into the hollow shaft of the drive pulley.
  • Page 184 Table 6.18 ___ Technical data for plug-in planetary gearbox versions ZS and ZT Type Gearbox Gear ratio Gearbox Nominal Maximum Permissible Maximum Backlash Mass Maximum Mass Maximum Flange designation version torque at the acceleration input speed input speed diameter moment of length dimension drive...

  • Page 185: Version Ze And Zp - Integrated Planetary Gearbox

    6.2.3.2 Version ZE and ZP - Integrated planetary gearbox NTN-SNR Linear Axis of the series AXC, AXF (Figure 6.29), AXDL (Figure 6.30) and AXS280Y could be equiped with an integrated planetary gearbox. By the direct mounting account coupling cone, plug-in shaft and coupling, thus resulting in extremely compact dimensions.
  • Page 186 Table 6.19 ___ Technical data integrated planetary gearbox version ZE Type Gear ratio Gearbox Nominal Maximum Permissible Maximum Backlash Mass Maximum Mass Length Flange version torque at the acceleration input speed input speed diameter moment of 2, 3 dimension drive moment of the drive inertia...
  • Page 187 Table 6.20 __ Technical data integrated planetary gearbox version ZP Type Gear Gearbox Nominal Maximum Permissible Maximum Backlash Mass Diameter of the Mass moment of inertia Length Flange dimension ratio version torque at acceleration input speed input speed drive shaft 2, 3, 4 the drive moment...

  • Page 188: Mounted Gearboxes

    Depending on the type different gearbox types (Table 6.21) can be used with a variety of gear ratios. The gearbox is configured for the respective application. For more information please contact our NTN-SNR application engineers. Table 6.21 __ Gearboxes for Linear Axis AXS with rack and pinion drive and telescopic axis...
  • Page 189 A universal version is an adaptation via integrated coupling in combination with a coupling cone. Here, the coupling half on the axis side is screwed to the drive pulley and offers by the force-fitted torque transmission even under high dynamic optimal reliability. For usual market drives with a standard B5 flange is a wide range of coupling cones available.

  • Page 190: Linear Axis With Screw Drive, Coupling And Coupling Cone

    6.2.4.2 Linear Axis with screw drive, coupling and coupling cone For Linear Axis with screw drive, the drive is normally connected via a coupling and coupling cone with the Linear Axis (Figure 6.34). Figure 6.34 __ Drive adaption via coupling and coupling cone with screw drive axis...
  • Page 191 Power is transmitted via pluggable elastomer coupling. It is possible to use drives with smooth shaft (force-fitted connection) as well as drives with shafts with feather key (force- and form-fitted connection). Table 6.24 contains the limit sizes for the drives of the respective axis of the series AXC, AXF, AXDL and AXLT which are characterized in Figure 6.35.
  • Page 192 Table 6.25 __ EN Limit sizes of coupling cones for AXC_S_G, AXF_S_G, AXDL_S_G, AXLT_S_G Centering b [mm] Shaft diameter d [mm] Shaft without feather key Code numbe Shaft with feather key Pitch circle e1 [mm] 70 / 95 115 130 When using a deflection belt drive Thread...

  • Page 193: Linear Axis With Screw Drive And Integrated Coupling

    Table 6.27 __ Dimensions of the coupling for AXBG_S_G Type Coupling designation Tightening Torsional Moment of Nominal Mass 2min 2max torque rigidity inertia torque screw [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] [Nm] [Nm/rad] [gcm [Nm] AXBG15S AX-MK2-5-25-3-(D 3,0 12,0 0,43 AXBG20S...

  • Page 194: Deflection Belt Drive

    6.2.5 Deflection belt drive The use of a deflection belt drive allows the reducing of the total length from Linear Axis with screw drive significantly. This gives the possibility of using in restricted spaces and an optimal utilization of the available installation space. Deflection belt drives are available for Linear Axis oft he series AXC, AXF, AXDL, AXLT und AXBG (Figure 6.38).
  • Page 195 AXC120 AXDL240 AXLT325 AXLT455 The dimensions of the deflection belt drives are shown in Figure 6.40 and Table 6.30. Drive assembly by NTN-SNR Individual drive adapter, code number see Chapter 6.2.4.2 Linear Axis with screw drive optional feather key Figure 6.40 __ Dimensions of deflection belt drives Table 6.30 __ Dimensions of deflection belt drives...

  • Page 196: Switches

    Switches 6.3.1 Switch versions For position detection, depending on the requirement, mechanical switches in different protection classes as well as inductive proximity switches Figure 6.41 with the usual output circuits are available. Figure 6.41 __ Linear Axis with a set of mechanical limit switches and inductive proximity switch For the emergency shutdown of the drives before the mechanical end position damper be achieved, mechanically actuated switches are usually used.

  • Page 197: Cable Guiding

    Depending on series and size a variety combination and assembly options of limit switches are possible, which are summarized in Table 6.31. The most common combinations can be encoded on the type code. An overview of these options contains Table 6.36 in Chapters 6.3.7. Table 6.31 __ Switch mounting on NTN-SNR – Linear Axis Inductive proximity switches (I1) AXC40Z...
  • Page 198 Mechanical (M1)und inductive proximity switches (I2) AXC100Z_D AXC100S_D Mechanical (M1), AXC initiator and inductive proximity switches (I2) AXC120Z AXC120S AXC120T AXC – Initiator Cable guide Slider moved Profile moved Mechanical (M1)* and inductive proximity switches (I2) Mechanical (M1)* and inductive proximity switches (I2) AXC_A * M2 for AXC40A * M2 for AXC40A...
  • Page 199 AXDL Mechanical (M2) and inductive proximity switches (I1) AXDL110Z AXDL100S AXDL110T Mechanical (M1) and inductive proximity switches (I1) AXDL160Z AXDL160S AXDL160T AXDL240Z AXDL240S AXDL240T Mechanical (M1) and inductive proximity switches (I2) AXDL160A AXDL240A AXLT Mechanical (M3) and inductive proximity switches (I1, I3) AXLT_S AXLT_T M1 only for AXLT455...
  • Page 200 AXBG Inductive proximity switches (I1) Inductive proximity switches (I1) AXBG_S Mechanical switches (M4) AXS200M_ AXS230MB AXS280MB AXS110TA AXS120TH AXS120TV AXS240TH AXS280TH AXS280TV Mechanical switches (M4) AXS280MP AXS460MP...
  • Page 201 Mechanical (M5) and inductive proximity switches (I1) AXS280Z Mechanical (M4) and inductive proximity switches (I1) AXS280Y AXLM Magnetic encoded position measuring system (T1…T4) AXLM...

  • Page 202: Dimension

    6.3.4 Dimensions For the assembly of limit switches consist of Linear Axis of the series AXC, AXDL, AXLT, AXBG and AXLM depending on size, different mounting versions (Figure 6.43) and from this resulting interference contours. Mounting version 1 Mounting version 2 Mounting version 3 Mounting version 4 Mounting version 5...
  • Page 203 Table 6.32 __ Dimensions for the limit switch monting Type Switch Mounting version [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] [mm] AXC40Z AXC40S 28,0 AXC40T Slider moved 28,0 AXC40A 18,0 21,00 Profile moved 18,0 16,00 22,0 19,5 11,5 AXC60Z AXC60S 20,0 12,5...

  • Page 204: Line Splitter

    6.3.5 Line splitter For the field installation of the inductive switches, Linear Axis of the AXC, AXDL and AXLT series can be equipped with line line splitters. Depending on the number of required switches, Y line splitter for two or sensor boxes for four switches are available. Line splitters have to be specified as special options of the Linear Axis and will be delivered with fully wired limit switches.

  • Page 205: Possible Switch Combinations

    6.3.7 Possible switch combinations Table 6.37 __ Possible switch combination Mechanical switches Inductive proximity switches * RP = Reference point signal **only on the drive side possible not in combination with A – Standard connections possible. Choose in this case code number 01 on both sides (combinations 01 + 26 / 29 / 32 also possible) x Option possible...
  • Page 206 Magnetic encoded Mechanical switches Inductive proximity switches position measuring system * RP = Reference point signal **only on the drive side possible not in combination with A – Standard connections possible Choose in this case code number 01 on both sides (combinations 01 + 26 / 29 / 32 also possible) Initiator mounted on the right side on the top;...

  • Page 207: Energy Chains

    Energy chains Complete Linear Axis systems from NTN-SNR can be offered including assembled energy chains. Depending on the type, size and requirements are different types of energy chains available (Table 6.38). The versions differ in the number of separating strips, which are included in every second chain link. The connecting elements of the energy chains (except for type 390 and 410) are prepared for the attachment of cables and wires with cable ties.

  • Page 208: Gantry Support Legs

    Figure 6.44 __ NTN-SNR – Linear Axis system with gantry support legs Table 6.39 shows the dimensions of the gantry support legs and the different versions. The limit dimensions and combination possibilities...
  • Page 209 Table 6.39 __ Dimensions and versions of gantry support legs AX-GSL-180-… Version A Version B Type 01 Type 02 Type 01 Type 02 Type 03 Type 04 Type 03 Type 04 AX-GSL-300-…-01… Version L Version M...

  • Page 210: Groove Inserts

    AX-GSL-300-L-… 1 800 5 000 AX-GSL-300-M-… 1 400 5 000 maximum recommended length, please contact NTN-SNR for longer gantry support legs Assembly via AX-Portal connection-120-240 Example type code of a gantry support leg: AX - GSL - 2500 RAL7032 -...

  • Page 211: Connection For Sealing Air Or Air Suction

    Connection for sealing air or air suction NTN-SNR - Linear Axis of the AXC and AXDL series are equipped with a connection for sealing air or for air suction. The description and dimensions of these connections are summarized in Figure 6.47 and Table 6.42. The configuration version and the associated specification of the Linear Axis in which the connection is useful are described in Chapter 8.2.1.

  • Page 212: Balance Cylinder

    Balance cylinder At high vertical moving masses, the Linear Axis AXC120A, AXS120TV, AXDL240A and AXS280TV can be equipped to relieve the toothed belt with a balance cylinder (Figure 6.48). Balance cylinder can not be chosen in combination with the option "Safety break".

  • Page 213: Safety Breaks

    Safety breaks Lifting axis, designed for higher loads, can optionally be equipped with a safety brake as a safety option (Chapter 8.3.2). The safety brakes have the following characteristics: • Operating pressure 4…6 bar • Pressureless active • 2 000 breaking cycles respectively 5 000 000 clamping cycles life time •...

  • Page 214: Lubrication Connections

    6.10 Lubrication connections The existing grease nipple of the linear axis of the AXC, AXDL, AXLT and AXS280Z series can be replaced if necessary by different types of grease nipples or by push-in fittings in accordance with the Tables 6.45 and 6.46. Table 6.45 __ Dimensions of the lubrication connections Type Designation...

  • Page 215: Multi - Axis - Systems

    Multi – Axis - Systems NTN-SNR standard axis systems allow the user to create modular two and three axis systems with very small design effort. Various combinations of the Linear Axis of the AXC, AXDL and AXS series to standard axis systems are possible.
  • Page 216 X – Axis AXC_Z Y – Axis AXC_Z Z – Axis AXC_S AXC – Gantry connection AXC- Cross connection optional: AXC-Fastening strips Energy chain direct to the Z-Axis Energy chain X-Axis Figure 7.2 ___ 3-Axis–System AXC_Z – AXC_Z – AXC_S (for AXC40 mounting direct on the machine frame) X –...

  • Page 217: Standard Combinations Axs – Axc - Axdl

    Standard combinations AXS – AXC - AXDL Y – Axis AXDL_Z Z – Axis AXC_A optional: Support for the energy chains in case of long strokes Figure 7.4 ___ 2-Axis–System AXDL_Z – AXC_A X – Axis AXC_Z Y – Axis AXDL_Z Z –...
  • Page 218 X – Axis AXC120Z* Y – Axis AXS280Y Z – Axis AXS200M AXC – Gantry connection- 120C-280 optional: Angular gearbox for wider spacings of the axis optional: Safety break *AXC_A for very large travel ranges • if several carriages should moved independently •...

  • Page 219: Standard Combinations Axs

    Standard combinations AXS Figure 7.8 ___ Standard combination AXS – Lifting Axis with AXS – Gantry Axis with toothed belt drive Figure 7.9 ___ Standard combination AXS – Lifting Axis with AXS – Gantry Axis with rack and pinion drive...
  • Page 220 Table 7.1 shows the possible standard combinations for AXS Linear Axis. Table 7.1 ____ AXS – Standard combinations Y - Axis Toothed belt drive Rack and pinion drive AXS280YG___ AXS280ZG___ AXS280MP__ AXS460MP__ AXS200MP__ AXS200MS__ AXS200MB__ Lifting Axis AXS230MB__ Z - Axis AXS280MB__ AXS120TV__ Telescopic Axis...
  • Page 221 Table 7.2 ____ Dimensions AXS – Standard combinations Y - Axis Z - Axis Z - Axis version AXS200MP__-E AXS280Y____-D Lifting Axis AXS200MS__-E AXS280Y____-E* AXS230MB__-D Lifting Axis AXS280Y____-D AXS120TV__-D Telescopic Axis AXS280Y____-E* AXS280TV__-D Telescopic Axis AXS200MP__-E AXS280Z____-D Lifting Axis AXS200MS__-E AXS280Z____-E* AXS230MB__-D Lifting Axis...

  • Page 222: Systematic

    8. Systematic Type code single axis AXC 80 SN G 2005 - B - 1000 - 1440 - A 2 - 00 00 - A - A 9 10 11 13 14 Series Size Drive type Toothed belt / Ω - drive Linear motor drive Sliding screw drive Rack and pinion drive...
  • Page 223 Drive version for screw drives Coupling cone G: Cupling cone + coupling (not for AXBG) integrated drive adaption including coupling (only for AXDL) Deflection belt drive Drive version for rack and pinion drives with bevel gearbox without mounted gearbox with planetary gearbox with spur gearbox Drive version for linear motor drives Motor with air cooling...
  • Page 224 Drive adaption no drive adaption A…Z: see Chapter 6.2.3, 6.2.4 Special version without special options A…Z: According to drawing or text description (Index (A... Z) is given from NTN-SNR) Index for special options at all positions in the type code...

  • Page 225: Type Code Axis Systems

    Special version without special options A…Z: According to drawing or text description (Index (A...Z) is given from NTN-SNR) ….. List of type code of all components and the description of all single components Axis systems contain all spezified Linear Axis and accessories.

  • Page 226: Options

    Options 8.3.1 Configuration versions For NTN-SNR - Linear Axis are a variety of configuration versions (Table 8.1) available, which can be specified by the type code. Table 8.1 ____ Configuration versions Index Appication conditions Operational area Configuration version Low level of pollution...
  • Page 227 The possible configuration versions of the Linear Axis are depending on series, size, driving and guiding system. In the Tables 8.2 to 8.4 are the possible versions summarized. The standard versions marked with "S" are the basic versions and must be specified in the type code of the respective Linear Axis. Table 8.2 ___ Configuration versions AXC / AXF Guiding Type...
  • Page 228 A, B, C, D AXBG55 A, B AXLM155 D, E AXLM225 D, E AXLM325 D, E AXS110 D, E AXS280 D, E Standard version Special option possible (x): Option conditionally possible, please contact NTN-SNR Option not possible without cover strip...

  • Page 229: Safety Options

    Safety break (Chapter 6.9) for vertical axis (Figure 8.1) • Collision protection for vertical axis with ball screw drive Figure 8.1 ___ Lifting - Axis with safety break This options can only be selected after consultation from one of our NTN-SNR application engineers.

  • Page 230: Special Solutions

    Special solutions In addition to the standard program, a varity customized special solutions could be realized with the NTN-SNR – Linear Axis. Our application and desingn engineers develop together with the customers high quality solutions with high efficiency and high user benefits.
  • Page 231 Linear Axis with in the oposite direction moving sliders (Figure 8.4) Figure 8.4 ___ AXC_Z with in the oposite direction moving sliders With this solution it is possible to move and position two sliders in opposite directions by one toothed belt. The solution is suitable for example for loading and unloading of two parallel conveyor belts.
  • Page 232 Linear Axis with ball bushings (Figure 8.6 and 8.7) Figure 8.6 ___ AXLB_T Ball bushing table with trapezoidal screw drive At low loads ball bushings tables are a cost-efficient alternative to linear tables. As drive element is the use of ball screws or trapezoidal screws possible.

  • Page 233: Type List

    10. Type list Page AX – GSL – Gantry support leg 206 - 208 AX – VBW – … Connecting shaft 179 - 180 AX...-Cross connection-… Cross connection 171 - 172 AX.. -Direct connection… Direct connection 169 - 170 AX...-Fastening stripe Fastening strip 164 - 165 AX-A-Standard connection-…...

  • Page 234: Fits

    11. Fits Shaft tolerance [µm] over up to -117 -142 -100 -100 -174 -106 -120 -120 -207 -126 -140 -145 -245 -148 -100 -160 -170 -100 -285 -172 -115 -185 -190 -110 -320 -191 -108 -130 -210 -210 -125 -214 -119 -140 -230...
  • Page 235 over up to + 2.5 - 2.5 + 4.5 - 4.5 + 5.5 -110 - 5.5 + 4.5 + 6.5 -130 - 4.5 - 6.5 + 5.5 -160 - 5.5 + 6.5 + 9.5 -190 - 6.5 - 9.5 + 7.5 -220 - 7.5 + 12.5...

  • Page 236: Guide To Queries

    12. Guide to queries Company __________________________________________________________________ Date _______________________________ Contact person ______________________________________________________________ Offer valid until _______________________________ Position/department __________________________________________________________ Address ___________________________________________________________________________________________________________________ __________________________________________________________________________________________________________________________ Phone __________________________________ Fax _________________________ E-mail ____________________________________________________________________ Project description ____________________________________________________________________________________________________________ Unique needs __________________________ Number of items ______________________ Series product _________________________ Items / year __________________________ Requested delivery date for: ______________ items _________________ calendar week New design _____________________ yes / no...
  • Page 237 Annex for axis: please tick / record as appropriate Drive type Guiding system Ball screw Linear guides Trapezoidial screw Track roller guides Sliding screw Polymer track roller guides Toothed belt No guiding system Toothed belt / Ω - Drive Rack and pinion Telescopic axis Linear motor Without drive...
  • Page 238 Mounting position angular gearbox ____________________________________________________________________________ Monting position Linear Axis ___________________________ Position drive connections _____________________________ Axis position: Table up Viewing direction: on the drive shaft...

  • Page 239: Index

    13. Index A - Standard connection ______________________________ 174,175 Compact Axis ____________________________ 46, 47, 54 - 85 Accessories _________________________________164 - 212 Compact Axis with ball screw drive ___________46, 47, 61 - 72, 82 - 85 A - Standard connection _________________________ 174,175 Compact Axis Adapter _____________________________ 186, 187, 191, 193 with sliding screw________________________ 47, 82 - 85...
  • Page 240 Lubrication ______________________________________ 32 - 42 Gantry Axis __________37, 50, 134 - 141, 149 - 154, 217 - 219 Lubricants __________________________________ 32 - 34 Gantry Axis with lateral toothed belt drive _____149 - 151 Lubrication amount __________________________ 38 - 40 Gantry Axis with rack and pinion drive Lubrication intervals ___________________________41, 42 ________________________ 37, 50, 134 - 141, 149 - 154 Lubrication methods __________________________34, 35...
  • Page 241 Rack and pinion drive Telescopic Axis ____________ 37, 38, 50, 131 - 133, 142 - 148 __7, 9, 11, 17, 34, 35, 37, 40, 42, 50, 52, 142 - 148, 186 Telescopic Axis with rack and Rigidity ______________________________________ 10, 11, 18 pinion drive / toothed belt drive, horizontal.
  • Page 242 Notes...
  • Page 243 More information concerning our NTN-SNR products for linear motion is provided in our catalogues. WE GET YOU MOVING! www.ntn-snr.com With You NTN-SNR LINEAR MOTION: Ball SplineS BALL BUSHINGS NTN-SNR Linear Motion NTN-SNR Linear Motion NTN-SNR Linear Motion Linear Guides Ball bushings...
  • Page 244 NTN-SNR ROULEMENTS shall not be held liable for any errors or omissions that may have crept into this document despite the care taken in drafting it. Due to our policy of continuous research and development, we reserve the right to make changes without notice to all or part of the products and specifications mentioned in this document.

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