Our classic for extreme parallel offset: Standard S series. The Schmidt-Kupplung compensates variable parallel Symbiosis of performance, com-

Similar documents
Backlash-free Torque Limiting Clutches

Backlash-free Safety Couplings. pioneer in innovation

Lightweight. Geislinger Gesilco

Backlash-free Safety Couplings

Precision Ball Screw/Spline

The perfect Torque Limiting Clutch for

T20WN. Data Sheet. Torque transducers. Special features. Installation example with bellows couplings. B en

ZF Maschinenantriebe GmbH Industrial Drives. Planetary gearboxes Economy Series for Servomotors

Lexium integrated drives

SIZING AND SELECTION. According to DIN 740 part 2 SIZING

APEX DYNAMICS, INC. Staianless

AE / AER Series. AER Series

Linear guide drives. Synchronous shafts The use of synchronous shafts enables several linear axes to be operated with one drive.

SOLUTION (17.3) Known: A simply supported steel shaft is connected to an electric motor with a flexible coupling.

CONTENTS INDEX P. 2 P. 3-4 PRODUCT FEATURES P. 5-6 PRODUCT STRUCTURE P. 7-8 PRODUCT APPLICATIONS PRODUCT SELECTION P P. 11 MODEL LIST P.

2. Polar moment of inertia As stated above, the polar second moment of area, J is defined as. Sample copy

TSCHAN S US Elastische Kupplungen Flexible Couplings TNS Flexible Couplings. Partner for Performance

ROTARY MOTION CONTROL

Front flange FLV. Max. [knm/stroke]

Torsion Stresses in Tubes and Rods

Parameter Design of High Speed Coupling for 6 MW Wind Turbine Considering Torsional Vibration

Couplings. highly-flexible ring coupling

HPG xxx 030 C1 C2 C3. High performance angle gearboxes. Output. Input. Drawings. C with option motor flange. View x. Centering View y.

US Safety Couplings. Partner for Performance

BSD MODULFLEX R Torsionally Rigid Couplings

D a t a s h e e t. F o r c e T r a n s d u c e r. S e r i e s K. ( 4 k N k N ) Benefits/Application. Options/Accessories

Vane Type Rotary Actuators Series Variations

WORCESTER POLYTECHNIC INSTITUTE

1. About Linear Ball Bearing

High-Performance Universal Joint Shafts

APEX DYNAMICS, INC. Staianless

Improvement in the Design & Manufacturing of Twin Worm Self Locking Technique and applications

The basic dynamic load rating C is a statistical number and it is based on 90% of the bearings surviving 50 km of travel carrying the full load.

Formulae and examples of calculation

BEARINGS Pillow Blocks

Theory & Practice of Rotor Dynamics Prof. Rajiv Tiwari Department of Mechanical Engineering Indian Institute of Technology Guwahati

Members Subjected to Combined Loads

Serie B2.1. Flanged ductile iron ball valve. made in. Application fields. Shut-off valves E U R O P E. 18

PES Institute of Technology

Compendium Screw Jacks

EMA 3702 Mechanics & Materials Science (Mechanics of Materials) Chapter 3 Torsion

Identification system for short product names. Changes/amendments at a glance. 2 Bosch Rexroth AG OBB omega modules R ( )

CLUTCHES AND BRAKES. Square-jaw clutch

HRN/HRN-C Series Hydraulic Vane Rotary Actuators

Product Description. Further highlights. Outstanding features. 4 Bosch Rexroth Corporation Miniature Linear Modules R310A 2418 (2009.

Theory & Practice of Rotor Dynamics Prof. Rajiv Tiwari Department of Mechanical Engineering Indian Institute of Technology Guwahati

Benefits/Application. Very high-cycle fatigue resistant up to 80 % of nominal load. Easy assembling, lots of possibilities. Options/Accessories

Shaft Locking Devices

Gearhead variations M = Motor attachment gearhead S = Separate version. Reduced specification available on request. Gearhead variations.

Dimensional drawing face mount flange radial. R = bending radius min. 40 mm. Dimensional drawing face mount flange axial

H a r m o n i c P l a n e t a r y

Design of Mechanical Drives for a Parabolic Radio Antenna

Selection table for guided systems (crank driven)

The SKF model for calculating the frictional moment

RV SeRieS S P E C I F I C A T I O N S

INPUT DATA FOR TORSIONAL VIBRATION CALCULATIONS (TVC)

UNI EN ISO 9001:2008 UNI EN ISO 14001:2004 BS OHSAS 18001:2007 EC DIRECTIVE 2014/34/EU (ATEX) CERTIFIED MANAGEMENT SYSTEM

Replacement of Grid Coupling with Bush Pin Coupling in Blower

Product description. Compact Modules. Characteristic features. Further highlights

R13. II B. Tech I Semester Regular Examinations, Jan MECHANICS OF SOLIDS (Com. to ME, AME, AE, MTE) PART-A

Digital AC Motors MHD

STATIC AND DYNAMIC ANALYSIS OF A PUMP IMPELLER WITH A BALANCING DEVICE PART I: STATIC ANALYSIS

Final Exam, Second Semester: 2015/2016 Electrical Engineering Department

A 954 C HD. Technical Description Hydraulic Excavator. Machine for Industrial Applications

Rotary modules.

Locking Assemblies for use with bending loads

Rotation. Rotational Variables

LAWS OF GYROSCOPES / CARDANIC GYROSCOPE

Stress Transformation Equations: u = +135 (Fig. a) s x = 80 MPa s y = 0 t xy = 45 MPa. we obtain, cos u + t xy sin 2u. s x = s x + s y.

Stress Analysis Lecture 3 ME 276 Spring Dr./ Ahmed Mohamed Nagib Elmekawy

Laboratory Exercise M-2 Power measurements


E6C-N. Ideal for Out-of-step Detection of Stepping Motors and Position Control of Rotors and Unloaders

Features of the Jergens Zero-Point Mounting System

These two values are determined by the application (see calculation example on pages 52-53).

Welcome to where precision is. Large Ball Screws Diameter mm

Benefits/Application. Very high-cycle fatigue resistant up to 100 % of nominal load. Extremely robust against side forces and bending moments

2. Determine the deflection at C of the beam given in fig below. Use principal of virtual work. W L/2 B A L C

4. SHAFTS. A shaft is an element used to transmit power and torque, and it can support

NR ROTARY RING TABLE: FLEXIBLE IN EVERY RESPECT

Classic Mini ( ) Transmission Bearing Load Estimates During Service

Mechanical Design. Design of Shaft

Stromag TRI-R Highly-Flexible Ring Coupling

MECHANICS OF MATERIALS

QUESTION BANK SEMESTER: III SUBJECT NAME: MECHANICS OF SOLIDS

THE NEW 1.1 MN m TORQUE STANDARD MACHINE OF THE PTB BRAUNSCHWEIG/GERMANY

Steel Post Load Analysis

Siemens AG Rated Rated current 1FK7 Compact. I rated (15.4) 11.5 (25.4) (2.9) 3.3 (4.4)

Selection Calculations For Linear & Rotary Actuators

XR Series. Introduction. Design Features. Availability. Applications

Application example. Measuring Force Sensors Rigid. Six series Nano, Mini, Gamma, Delta, Theta, Omega. Range of measurement, force ± 36 N..

Complex strategy for a development of highly elastic couplings

DISC-O-FLEX COUPLING

HELICAL BUCKLING OF DRILL-STRINGS

Members Subjected to Torsional Loads

Miniature Slide Guide Series with Retained Ball now Offers Complete Selection

3 Hours/100 Marks Seat No.

CTV series CHARACTERISTICS LINEAR UNITS

MEASUREMENT UNCERTAINTY OF ROTATING TORQUE TRANSDUCERS WHEN USED IN PARTIAL LOAD RANGES

INSULATORS INSULATORS

Transcription:

Schmidt-Kupplung Power Plus SK_PP_/0 The Schmidt-Kupplung series Schmidt-Kupplung Our classic for extreme parallel offset: Standard S series The Schmidt-Kupplung compensates variable parallel Symbiosis of performance, com- shaft offset without side loads in a very compact pact design and generous offset envelope. The Schmidt-Kupplung is the ideal precision capacity component for small envelopes and a better alternative Bore diameter up to 0 mm to long cardan shafts. Torque (TKN) Nm to.75 Nm Power Plus P series Power Plus P series Offers more torque transmission in a More torque transmission while when space is limited. retaining Bore diameter up to 5 mm Torque (TKN) Nm to.0 Nm Offset Plus V series Extreme parallel shaft offset while retaining Bore diameter up to 0 mm Torque (TKN) Nm to 3. Nm

Schmidt-Kupplung Power Plus 0, 5 5 47 5, 4,,0 5 47 5, P 5,, 0, P 5.0,,5 0, P 3 3.00 4 3,7 3,5 4 5 7,, P 3.00 4 5 33, 3,3 5 7, P 5.00 7 3,, 7, 3, 35, standard bore diameters,7 ØP 0 K W X L Kw ( ) ØR Ka.00 Kr 3.00 5 Kr min 0 0 nmax (/min) P 0 TK max P TKN Kv CT (knm/rad) Hub version 3: locking-assembly P 5 4 3 0,4 5, 7, 3, 35, P 3 3 0.00 7 7 5,,3 7, 3, 35, P 355 3 0 4 7,, 7, 3, 35, P.55., 5 7 0 35, P 55.55.00 00 4 7,5 5 7 0 35, P.35 5, 0 0 5 4,, P 5.35.000 00 4 5 3, 0 0 5 4,, P 00.00.0.0 7 5 4 4 4 4,, P 05.00.0 7 4 7 50 7,5 4 4 4 4,, P 50.50 3.05.0 355.0,5 0 4 0 55, 0 P 5.50 3.05.0 7 4 355.00 0 4 0 55, 0 P 0.0 5.0..0 7 55 0, P 3 3. 7.0 00 5 0 4. 5 7 55 0, P 335 3. 7.0.000 0 4. 7 55 0,

Schmidt-Kupplung Power Plus Hub version 3: locking-assembly T KN T K max n max (/min) K v K r min K r K a K w ( ) C T (knm/rad) ØR L X W K ØP standard bore diameters P 400 4.00.30 00 5.075 5.000 3, 75, 0 P 405 4.00.30.000.075 4.0 55 3, 75, 0 P 0.0. 00 5 0,.43 7.575 73, 0 P 5.0..000 0,.43 7.0 73, 0 Order Example : P 3.33 Ø Ø Order Example : P 55.33 Ø35 Ø P 55 33 Ø35 Ø Type Schmidt-Kupplung Power Plus P 55 both sides locking-assembly bore diameters To ensure the correct selection of the Schmidt-Kupplung please use the TD Calculator of the column Schmidt-Kupplung or please use our selection procedure and legend area to download the required information.

Schmidt-Kupplung Power Plus CT (knm/rad) 0, 0,4 5 35 4xM 3, 0, 4xM P 5,,3 7 5xM P 5.0, 0, 7 5xM P 3 3.00 4, 4,5 4xM P 3.00 4 5 5,5 7 5xM P 5.00 7 3 3 3,5 4xM P 5 4 3,,5 4xM P 3 3 0.00 7 7 5 3,,5 00 5xM P 355 3 0 4 7 3 3,5 00 5xM P 40 40.0 00 4 0 05 5 0 7 0 0 4xM P.55. 7, 7 0 4xM P 55.55.00 00 4 75,3 7 0 4xM P.35 5 4 0 7 0 0 0 4xM L Skg ØF Ød H.00 ØR 3.00 5 Kw ( ) 0 0 Kr P 0 Kv P TKN Ka Kr min nmax (/min) TK max Hub version 5: flange-mounting P 5.35.000 00 4 5 7,4 0 7 0 0 0 4xM P 00.00.0.0 7 40, 4 4 0 0 4xM P 05.00.0 7 4 7 475 4 4 0 0 4xM P 50.50 3.05.0 355 0 4 5xM P 5.50 3.05.0 7 4 355 0 7,5 4 5xM P 0.0 5.0. 33 0 4xM0 P 3 3. 7.0 00 5 0 3.7 4 33 00 xm0 P 335 3. 7.0.000 0 3. 4 33 00 xm0

Schmidt-Kupplung Power Plus Hub version 5: flange-mounting T KN T K max n max (/min) K v K r min K r K a K w ( ) C T (knm/rad) ØR H L Ød ØF Skg P 400 4.00.30 00 5.075 4.00 33 00 0xM0 P 405 4.00.30.000.075 4.000 43 33 00 0xM0 P 0.0. 00 5 0,.43. 5 33 0 xm0 P 5.0..000 0,.43 5.00 43 33 0 xm0 Order Example : P 3.55 Order Example : P 55.55 P 55 55 Type Schmidt-Kupplung Power Plus P 55 both sides flange-mounting To ensure the correct selection of the Schmidt-Kupplung please use the TD Calculator of the column Schmidt-Kupplung or please use our selection procedure and legend area to download the required information.

Schmidt-Kupplung Power Plus 0,3 0, 5 0 P 0 0 5.00 4,3 0, 0 0 3 P 5,3, 7 P 5.0,7,4 7 P 3 3.00 4 3,5 3, 4 04 5 7,5 3 P 3.00 4 5,, 5 04 5 7,5 3 P 5.00 7 3, 4,3 04 7,5 P 5 4 3 7, 4, 04 7,5 P 3 3 0.00 7 7, 4,5 04 7,5 P 355 3 0 4 7 3,3 4,3 04 7,5 P 40 40.0 00 4 0 7, 0 43 3 P.55. 7,3 43 0 3 P 55.55.00 00 4 05 7, 43 0 3 P,4 5 0, 0 5 0 4 P 5.35.000 00 4 5 33, 0 43 0 3 P 00.00.0.0 7 5 4,5 4 0 0 P 05.00.0 7 4 7 4 4 0 0 P 50.50 3.05.0 355.05 55 P 5.50 3.05.0 7 4 355.0,5 55 P 0.0 5.0..00 33 P 3 3. 7.0 00 5 0 4. 4 0 0 P 335 3. 7.0.000 0 4.0 47 0 0 TK max Ød max K ØP L ØR Kw ( ) Ka 3.00 Kr 0 Kv nmax (/min) P TKN Kr min CT (knm/rad) Hub version : standard hub

Schmidt-Kupplung Power Plus Hub version : standard hub T KN T K max n max (/min) K v K r min K r K a K w ( ) C T (knm/rad) ØR L ØP K Ød max P 400 4.00.30 00 5.075 4.5 5 7 0 73 0 P 405 4.00.30.000.075 4.3 7 0 73 0 P 0.0. 00 5 0,.43 7.4 3 5 P 5.0..000 0,.43 7.0 7 3 5 Order Example : P 3. Ø35 Ø35 Order Example : P 55. Ø Ø P 55 Ø Ø Type Schmidt-Kupplung Power Plus P 55 both sides standard hub bore diameters To ensure the correct selection of the Schmidt-Kupplung please use the TD Calculator of the column Schmidt-Kupplung or please use our selection procedure and legend area to download the required information.

Schmidt-Kupplung Selection procedure and legend. Calculation of the design torque. Please multiply your continuos torque by the required performance factor (table ) and the required service factor (table ) to get the design torque. An alternative: simply use under www.schmidt-kupplung.com the TD Calculator of the column Schmidt-Kupplung Table : performance factor speed range /min service life (h) performance factor 0-0 5.000, 0-0 0.000,3 0-0 0.000, 0-.000 5.000,3 0-.000 0.000, 0-.000 0.000 3,5.000-.000 5.000,.000-.000 0.000 3,.000-.000 0.000 4,4.000-3.000 5.000 3,.000-3.000 0.000 4.000-3.000 0.000 4, and angular misalignment capabilities. Be certain that the combined percentages of each do not exceed 00%. Legend Performance T KN T K max n max K V K r K r min K a continuous torque rating of the coupling maximum torque capacity of the coupling maximum speed of the coupling (/min) maximum linear range of the coupling maximum radial offset capacity minimum radial offset capacity maximum axial misalignment capacity K w maximum angular misalignment capacity ( ) C T torsional stiffness (knm/rad) J moment of inertia (kg cm ) m Gewicht (kg) Table : service factor uniform light shocks,5 medium shocks heavy shocks,5. Select a coupling size that has a continuos torque rating grater than your calculated design torque. 3. Make sure that the peak torque of the application does not exceed the maximum torque rating of the coupling. 4. Please check the coupling maximum speed to be sure it is within the rated maximum speed. 5. Make sure that the misalignment capability is sufficient. There is a trade-off between the radial, axial Dimension ØR swing diameter H disc thickness L coupling length X mounting space W coupling basis ØP hub diameter K total hub length Ød bore diameter ØF bolt circle diameter Skg number of counter bores x bolt size

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback