20 Acceleration/Deceleration [mm/s2] Acceleration/Deceleration [mm/s2] 15000 15000 Duty ratio: 50% Duty ratio: 50% 10 10 5000 5000 Duty ratio: 75% Duty ratio: 75% 0 0 0 20 5 10 15 0 30 25 10 5 20 15 Work load [kg] Work load [kg] 5 Model Selection Series LEJ Dynamic Allowable Moment Model Selection LEJS LEJB Acceleration 5,000 mm/s2 10,000 mm/s2 15,000 mm/s2 20,000 mm/s2 Orientation Horizontal
With guide l = C/H/HT Combining with another guide Note) Direct mount of load Note) Friction coefficient for combining with another guide is 0.1 or less. 1092 Model Selection Guide Tact Time Heavy load specifications (2.45 m/s2) Standard load specifications (4.90 m/s2) Medium load specifications (9.80 m/s2) Light load specifications (19.60 m/s2) 4.0 4.0 4.0 4.0 300 mm/s 300 mm/s 300 mm/s
/s2) 22 36 Work load [kg] *2 3000(mm/s2) 14 29 80 5000(mm/s2) 12 29 30 Vertical 9800(mm/s2) 8 9 Actuatr specifications Electric specifications Lock unit to 500 2300 1250 500 Max. speed *3 501 to 1000 1600 800 320 [mm/s] 1001 to 1500 900 450 180 Lead [mm] Lost motion [mm] *4 Positionimg repeatability [mm] Max. acceleration/deceleration [mm/s2] 9800 0.01 0.05 or less 50 25 10 Actuation type
Acceleration [mm/s2]: a Work load [kg]: m Work load center position [mm]: Xc/Yc/Zc z y 1. Horizontal 3. Wall x y x z x 2. Bottom 4. Vertical z y x y z Example 1. Operating conditions Model: LEKFS40 Size: 40 Mounting orientation: Horizontal Acceleration [mm/s2]: 3000 Work load [kg]: 20 Work load center position [mm]: Xc = 0, Yc = 50, Zc = 200 2.
or less, 10 to 55Hz (directions of X, Y, and Z axes) X Y: 49m/s2 Series (Note) Note.
480 320 160 750 500 250 1101 to 1200 410 270 130 630 420 210 1201 to 1300 540 360 180 1301 to 1400 470 310 150 1401 to 1500 410 270 130 Maximum acceleration / deceleration [mm/s2] 20 (Refer catalog about limit according to work load and duty rate.)
MY316 300 400 500 500 400 300 950 N Collision deceleration (m/s2) Collision deceleration (m/s2) 200 200 240 N 100 100 30 40 50 50 40 30 20 20 10 10 1 2 3 4 5 10 20 30 10 5 4 3 2 1 0.2 0.4 0.3 m1max m3max m1max m2max m3max m2max Weight (kg) Weight (kg) MY320 MY340 500 400 300 300 400 500 370 N Collision deceleration (m/s2) Collision deceleration (m/s2) 200 200 1500 N 100 100 50 40 30 30 40
P1 LED lever meter Sensor S1 S3 Red is on: Output OFF Green is on: Output ON S4 S2 + P2 Red 1 Gap too big S1, S2: Fixed orifice S3: Variable orifice (Set via adjustment knob) S4: Detection nozzle Red 2 Green 1 BEST POSITION The bridge circuit is constructed as shown in the diagram. Position the work piece in front of the nozzle (S4).
(STO switch) S2: Start switch (STO release switch) S3: On switch S4: Off switch KM1: Magnetic contactor K3: Safety relay EMG: Emergency stop switch CN3 EM1 or EM2 M Servo motor Note.
T1 T2 T3 T4 L 0.5 V (T1 + T3) V T2 = L : Stroke [mm] (Operating condition) V : Speed [mm/s] (Operating condition) a1: Acceleration [mm/s2] (Operating condition) a2: Deceleration [mm/s2] (Operating condition) 500 0.5 300 (0.1 + 0.1) 300 T1 = V/a1 [s] T3 = V/a2 [s] = P T2: Constant speed time can be found from the following equation. = 1.57 [s] T4 = 0.3 [s] T2 = [s] L 0.5 V (T1
Ambient & Fluid Temperature -10 ~ 50C A Clean Room version is available to specified Lubrication Not Required order Manual Override Non-Locking Push Type Shock Resistance/Vibration Resistance 150 / 30m/s2 Mounting Orientation Free The VQD1000 is used either on a Single SubEnclosure Dust Proof base or Manifold Mounted.
Operating tension & compressed power kgf(kN) Weight kgf Allowable eccentricity U 40 14 1.5 60 20 31 6 11 11 22 13 600(6) 0.16 0.75 5063 18 1.5 74.5 25 41 7.5 14 13.5 27 15 1100(11) 0.31 1 1.25 80 22 1.5 89.5 29 50 9.5 19 16 32 18 1800(18) 0.58 100 26 1.5 110 35 59.5 11.5 24 20 41 24 2800(28) 1.08 2 Courtesy of Steven Engineering, Inc. !
Standard item Sulfuric acid ion (SO42) [mg/L] 200 or less [mg/L] 100 or less Acid consumption amount (at pH4.8) Total hardness [mg/L] 200 or less Calcium hardness (CaCO3) [mg/L] 150 or less Ionic state silica (SiO2) [mg/L] 50 or less Iron (Fe) [mg/L] 1.0 or less Copper (Cu) [mg/L] 0.3 or less Sulfide ion (S2) [mg/L] Should not be detected.
Iron (Fe) [mg/L] 1.0 or less Copper (Cu) [mg/L] 0.3 or less Sulfide ion (S2) [mg/L] Should not be detected. Ammonium ion (NH4+) [mg/L] 1.0 or less Residual chlorine (Cl) [mg/L] 0.3 or less Free carbon (CO2) [mg/L] 4.0 or less Refrigerant R407C (HFC) IDU E Reference item *1 In the case of [Mcm], it will be 0.00125 to 0.01.
itself in the drawing below, it should be regarded as an inertial load. ( ) 100 3 20 0.4 4 20 70 2 10 1 0.2 2 10 Friction coefficient (Example) 0.1 0.2 0.3 0.4 0.5 0.7 0.6 0 0 0 0 0 F = mg 0.2 1 0.8 0.6 0.4 0.4 0.6 0 0.2 0.8 1 Mass m Operating pressure (MPa) Operating pressure (MPa) Operating pressure (MPa) Static torque calculation Movement Load Tf = F x l (Nm) Allowable Load g = 9.8 m/s2
Acceleration/deceleration time (ms) = {3000 (r/min) 60 (S) } 8 (mm) 1000 3000 (mm/s2) 133 (ms) Speed at a rated motor rotation of 3000rpm Accel/decel time (ms) = {Rated Rotation Speed (r/min) 60 (S) } Screw Lead (mm) 1000 * Note) Acceleration/deceleration speed (mm/s2) *Acceleration speed is measured in ms, so this must be calculated as (s) 1000 54 - 5.6.4 Move distance Configuration
Warning Do not drop, bump or apply excessive impacts (300m/s2 or more for reed auto switches and 1000m/s2 or more for solid state auto switches) while handling. Although the body of the auto switch may not be damaged, the inside of the auto switch could be damaged and cause malfunction. 2. Observe the proper tightening torque for mounting an auto switch.
Warning Do not drop, bump or apply excessive impacts (300m/s2 or more for reed auto switches and 1000m/s2 or more for solid state auto switches) while handling. Although the body of the auto switch may not be damaged, the inside of the auto switch could be damaged and cause malfunction. 2. Observe the proper tightening torque for mounting an auto switch.