SBC Linear - General Catalog
124Pages

Support Unit Linear Rail System Technical Data The Types of Linear Rail System SBI High-load Linear Rail System SBI-FL/FLS/FLL SBI-SL/SLL SBI-HL/HLS/HLL SBI-CL/CLS/CLL SBI-FV SBI-SV SBG Standard Linear Rail System SBG-FL/FLL SBG-SL/SLL SBS-SL/SLL/HL/HLL SBS-FV SBS-SV SPG / SPS Spacer Linear Rail System SPG-FL/FLL SPG-SL/SLL SPS-SL/SLL/HL/HLL SPS-FV SPS-SV Miniature Linear Rail System SBM/SBML SBMW/SBMWL SBC-ROSA Roller Linear Rail System MG-LC/LL MG-SC/SL Ball Screw Technical Data SBC Precision Rolled Ball Screw STK/STC SLK MBS DIN Standard SBC Precision Rolled Ball Screw SDK SDH FK FH ZG Fixed-End Support Unit FK FK-DS(T) BK BK-DS EK AK Supported-End Support Unit FF FF-DS(T) BF BF-DS EF AF Recommended Screw End Machining Cross Roller Guide Technical Data Cross Roller Guide SCVR Type SCVR 1 SCVR 2 SCVR 3 SCVR 4 SCVR 6 SCVR 9 Cross Roller Table SCVRT Type, SCVRU Type SCVRT 1 SCVRT 2 SCVRT 3 SCVRT 1-A SCVRT 2-A SCVRT 3-A SCVRU 1 SCVRU 2 SCVRU 3 SCVRU 4 SCVRU 6 SCVRU 9

Robot Carrier Guide Technical Data Carriage (5 rollers) 905X Carriage Option a Linear Rail System Technical Data / The Types of Linear Rail System / SBI High-load Linear Rail System / SBG Standard Linear Rail System / SPG, SPS Spacer Linear Rail System / Miniature Linear Rail System / SBC-ROSA Roller Linear Rail System

Linear Rail System Technical Data Technical Data Circular-Arc raceway structure achieves the high rigidity and large permissible load. Four row circular arc groove with 2 points contact creates the same load in all directions. DF structure maintains low instrumental errors. DF structure maintains low instrumental errors. Ball Screw SBC LINEAR RAIL SYSTEM FEATURES Low frictional coefficient achieves the high energy efficiency. Easy maintenance. Improve the productivity of the machine. Support Unit Various options, Easy machine design and Longer life span. Comparison the Linear Rail System...

Linear Rail System Technical Data Technical Data Ball Screw Load Rating & Life Static Permissible Moment : Mo ( kN.m) Under normal conditions, the linear rail system can be damaged by metal fatigue as the result of repeated stress. The repeated stress causes flaking of the raceways and steel balls. The life of linear rail system is defined as the total travel distance that the linear rail system travels until flaking occurs. These load are maximum moments or torque loads that can be applied to the bearing without damaging the bearing or affecting subsequent dynamic life. Mro : Moment in...

Linear Rail System Technical Data Technical Data The procedure of selecting linear rail system The static and dynamic coefficient of friction of the SBC linear rail systems are so small that they minimize the required driving force and temperature increase. Frictional force depends on load, preload, velocity and lubrication. In general, the light load with high speed is more affected by the lubricant, while the medium or heavy load are more affected by the load and are less sensitive to lubrication selection. *Coefficient of friction for linear rail system( ) : 0.002~0.004 - Machine...

Linear Rail System Technical Data Technical Data Calculating the applied loads and life time Horizontal axis Horizontal axis with overhung Ball Screw Select the system / Model Select the appropriate guide system after considering rigidity, cost of machine and manufacturing time. 2. Select Model Support Unit Select the few models based on simple calculation, space and experience. 3. Calculate the load and life time Cross Roller Guide Judge the expected life time after calculating the load and life time and apply the model to machine design. 3-1. Calculating the applied loads Loads exerted on...

Linear Rail System Technical Data Technical Data Horizontal axis with rail movable Vertical axis with wall mounted Lateral axis Support Unit Vertical axis Ball Screw Cross Roller Guide Robot Carrer Guide Memo

Linear Rail System Technical Data Longitudinal axis Ball Screw Technical Data Horizontal axis with inertia Acceleration Cross Roller Guide Robot Carrer Guide Memo

Linear Rail System Technical Data Technical Data 3-3. Static Safety Factors (fs) Linear Rail Systems can accept normal and moment (Mro, Mpo, Myo) loads in all directions including radial, reverse-radial and lateral loads at the same time. Therefore, calculate the equivalent load accordingly. When calculating a load exerted on the linear rail system, both mean and maximum load need to be considered. Reciprocating machines create moment of inertia. When selecting the right linear rail system, consider all of loads. Radial load Reverse-radial load is large Mro Moment in rolling direction...

Linear Rail System Technical Data Technical Data Loads acting on a linear rail system can vary according to various conditions. All load conditions must be taken into consideration in order to calculate the required linear rail system capacity Ball Screw 3-4. Calculating the Mean Load 3) Loads varying sinusoidally [Equation for calculating the mean load] Pm : Mean load Ln : Length of travel carrying Pn Mean load Varying load Total length of travel Length of travel carrying Pn 2) Loads that vary linearly Pmin : Minimum load Pmax : Maximum load Cross Roller Guide Support Unit L : Total length...

Linear Rail System Technical Data Technical Data The equation of nominal life for linear rail system is shown as below. [Calculation of nominal life] When two or more blocks are used in close contact, it is hard to obtain a uniform load distribution because of mounting errors and tolerances. The basic dynamic load C should be multiplied by the contact factors fc shown here. : Contact factor Normal condtion : Temperature factor : Hardness factor : Load factor Load factor (fw) Reciprocating machines create vibrations. The effects of vibrations are difficult to calculate precisely. Refer to...

Linear Rail System Technical Data Technical Data Ball Screw The block side to side movement by vibration is called clearance. When the load is applied to Linear Rail Systems, the balls, blocks and rails experience the elastic deformation within permissible range. The ratio of displacement is known as the rigidity. The rigidity increases as the preload increases. Clearance checking In case of four way equal load type, the preload is available until the load increases to some 2.8 times the preload applied. Where rigidity is required, vibration and impact are present. Example Machining center...