V L B O W T Y P E Model Port thread Tube O.D (mm) Effective area 4 6 8 10 12 In-Out Out-Exh ASV120F-M3 M3x0.5 0.3 0.3 ASV220F-M5 M5x0.8 1.3 1.3 ASV310F-01 PT1/8 7 8 ASV310F-02 PT1/4 7 8 ASV410F-01 PT1/8 13.5 14 ASV410F-02 PT1/4 13.5 14 ASV410F-03 PT3/8 13.5 14 ASV510F-02 PT1/4 23 27 ASV510F-03 PT3/8 27 29 ASV510F-04 PT1/2 27 29 Model Applicable T H D1 D2 L1 L2 L3 L4 *A M1
H L1 L2 L3 L4 L5 L6 M1 M2 Q Model C D J E F G K 1(P)2(A) 2(A)3(R) 18 1(P) 2(A) 4 4 47.6 23.8 23.8 16.5 15.8 15.8 11 3.4 1.2 15 VHK-B1A 44.5 14.5 1 27 22 16.5 26 41 3.5 VHKl-04F-04F VHKl-06F-04F 18 6 4 6 41 48 48.6 24.3 23.7 16.5 3.5 16.8 15.8 11 5.1 1.2 15 16 VHK-B1A 44.5 14.5 1 27 22 16.5 26 VHKl-06F-06F 24.3 16.8 7.2 VHKl-08F-06F 18 8 6 8 41 50.5 52.4 26.2 24.3 16.5 3.5 18.7 16.8 11 9 1.2
.: 4, 6, 8, 1/4" 28 28 [mm] Model A C P PF2M701/702/705/710L -C4(-L) 84.4 7.6 2.8 depth 8.4 8 8 PF2M701/702/705/710/ 725/750L-C6(-L) 84.4 8 2.8 depth 8.4 2 x P 2 x P PF2M725/750L-N7(-L) 84.4 11.8 2.8 depth 8.4 PF2M711/721L-C8(-L) 88 12 2.8 depth 6.2 PF2M711/721L-N7(-L) 88 10.3 2.8 depth 6.2 19 2-Color Display Digital Flow Switch PF2M7(-L) Series Dimensions PF2M7m-m1/2(-L) 48 A Width across
M1 Weight (g) ASV220F-U10/32-03 ASV220F-U10/32-07 5/32" 1/4" 10-32 UNF 10-32 UNF 8 8 9.3 12 9.6 9.6 22.8 23.6 27.6 28.4 11.1 11.1 31.4 31.4 28.6 28.6 27.7 27.7 24.9 24.9 12.7 13.7 8 9 Reference U10/32 thread dimensions after installation.
Note 1) P Model Weight (g) W L1 L2 P M1 M2 (mm) 4 6 8 10 12 KQGU04-00 KQGU06-00 KQGU08-00 KQGU10-00 KQGU12-00 4.2 10.6 21.2 41 16.8 10.6 18 17 35 L2 M1 10.6 13 26 42.9 17 13 18.8 17.8 54 L1 25.6 15 30 47.7 18.7 15 20.9 19.9 75 18 40 36 52.8 20.5 18 23 22 114 M2 N 57.4 20.8 41.6 57.8 21.9 21 24.8 23.8 175 Note 1) D is maximum diameter.
(mm) Model H Bracket mounting dimensions Q Weight (g) 1(P) R 2(A) 2(A) R 3(R)* L1 L2 L3 L4 L5 L6 M1 M2 Bracket assembly no.
Then, replace the moment of inertia B around the shaft (A) by A, m2 + m2a22 + K 3 a12 = m1 m1 (Ex.) Refer to 7 when the shape of m2 is spherical. b a A = ( ) 2B 5 2r2 Number of teeth = b K = m2 Load Type Load type Resistance load: Tf Inertial load: Ta Static load: Ts Gravity or friction force is applied to rotating direction. Rotate the load with inertia.
ABSOLUTE POSITION DETECTION SYSTEM (Continued from preceding page) 1 1 X6 M6 Servo-on request M5 SET Servo-on switch Retry M5 Y12 M0 Y11 Servo-on output Y0 Error flag ABS communication error Servo-on request ABS check error ABS data transmission start M1 PLS M1 M6 Clearing retry counter C1 RST ABS transmission start Retry X6 Resetting ready to send ABS data M99 RST Servo-on switch Servo-on
(mm) Weight (g) 2-applicable tubing D VMG KGH04-00 32.5 4 10.4 16 5.6 4 3 6 KGH06-00 34.5 12.8 17 13.1 10.4 4 8 KGH08-00 38.5 15.2 18.5 26.1 18.0 6 10 KGH10-00 42.5 18.5 21 41.5 29.5 11 12 KGH12-00 44.5 20.9 22 58.3 46.1 14 Note) D: Max. diameter Different Diameter Straight: KGH Model L M1 Effective area (mm2) Nylon Urethane Applicable tubing O.D.
Load at end of lever + m a + K 3 a1 I = m1 12 4a2 + b I = m1 + m2 12 4a1 + b (Example) When shape of m is a 5 2r sphere refer to 7 and K = m 5. Thin rectangular plate (rectangular parallelopiped) Position of rotational axis: Through the center of gravity and perpendicular to the plate (also the same in case of a thicker plate) 10.
(mm) I Weight (g) Nylon Urethane M1 D1 D2 L1 Q L2 P M2 Part No. 9.7 11.7 8 6 35.5 40.5 6 4 KGUD06-08 KGUD04-06 10.4 18.2 16 12.8 20.3 17 12.8 15.2 10.4 12.8 21 26 17 18.5 4.2 13.4 4.2 13.4 11 19 Plug-in reducer: KGR Effective orifice(mm 2) Applicable tube O.D. (mm) Applicable fitting size d Part No.
A part z1 m1 = 20 x 3 x 4 x 2.7 x 10-6 = 6.48 x 10-4 (kg) Weight calculation m1 = a x b x c x Relative density IZ1 Inertial moment around Z1 axis IZ1 = {m1 (a2 + b2) / 12} x 10-6 = {6.48 x 10-4 x (202 + 32)/12} x 10-6 = 2.21 x 10-8 (kg.m2) = 2.21 x 10-8 + 6.48 x 10-4 x 16.42 x 10-6 = 0.20 x 10-6 (kg.m2) IA Inertial moment around Z axis IA =IZ1 + m1r12 x 10-6 z f2 z2 B part r2 = 23.5(mm)
(mm) I Weight (g) Nylon Urethane M1 D1 D2 L1 Q L2 P M2 Part No. 9.7 11.7 8 6 35.5 40.5 6 4 KGUD06-08 KGUD04-06 10.4 18.2 16 12.8 20.3 17 12.8 15.2 10.4 12.8 21 26 17 18.5 4.2 13.4 4.2 13.4 11 19 Plug-in reducer: KGR Effective orifice(mm 2) Applicable tube O.D. (mm) Applicable fitting size d Part No.
L5 (3) Weight Weight (g) (g) T D1 H (1) H (1) D2 D3 L1 L2 L3 L4 M1 Min.
Description Description Material Bracket Cross recessed round head screw Clasp 1 2 3 1 Steel strip Steel wire Steel strip 2 Series AS Dimensions L7 L8 Lock nut L6 L5 Applicable tube O.D. d D2 through D3 D4 L4 D1 L3 L2 M1 M1 L1 Metric Size MAX.
M1 Applicable tubing O.D.: 3.2, 4, 6 1/8", 5/32" Metric Size Model Applicable tubing O.D.d D1 Release button D2 D3 D4 D5 L1 L2 L3 L41 L5 L6 L7 L8 M1 Weight [g] X(X) Y Max.
Component Part Component Parts No. 1 Description Bracket Steel strip Material No. 1 2 3 Description Bracket Cross recessed round head screw Clasp Material Steel strip Steel wire Steel strip 617 AS Series Dimensions L7 L8 Lock nut L6 L5 Applicable tubing O.D. d D2 through D3 D4 L4 D1 L3 L2 M1 M1 L1 Metric Size MAX.
M1 Applicable tubing O.D.: 3.2, 4, 6 1/8", 5/32" 2 x Applicable tubing O.D. d Front view Right side view Metric Size Model Applicable tubing O.D. d D1 Release button D2 D3 D4 D5 L1 L2 L3 L41 L5 L6 L7 L8 M1 W1 W2 X1 X2 Weight [g] X(X) Y Max.
Vertical mounting: 0 (None) Data NO Confirmation of sum of load ratio to the guide unit n 1 The moment load rate must be calculated in accordance with the above formula for all types, M1 to M3. As for Wmax and Mn, refer to the maximum load mass and allowable moment table in the next section.