Shock Absorbers and Rate Controls 90,000 t5,000 25 45 2,700 15.5 0Eill3.0tllx3.5I.50 3.5 12,170 35,000 5,7i0,000 t5,000 15 45 2,700 20.0 0tffl3.0lllx5 1.50 5.0 t2-170 50,000 8,260,000 15,000 t6 45 1,700 24.0 0ff{I3.011x5.51.50 6.5 l2.tI0 65,00{ 10,750,000i5,000 2,700 30.0 0tl{l4.0lllx2 2.00 2.0 r2.170 34,000 r3,300.00025,000 50 0 ) 4,800 33.0 0tl{14.0l|l4 2.00 4.0 l2-170 68,000 16,000.000 25,000 35 65 4,800 40.0 0fftt4.0itx5
45 3 3 330.2 330.2 330.2 42 20 8 8 6.5 counter bore 5.5 (Same on the opposite side) 3.4 through 2-M3 x 0.5 through 3 3 6.5 45 45 M4 x 0.7 x 14.5L (Hexagon bolt) and M4 x 0.7 (Hexagon nut) M3 x 0.5 x 10L (Hexagon socket head cap bolt) 2-M4 x 0.7 through Steel ball Steel ball (14+ST) (16) 4 2-M3 x 0.5 through 6 (mm) ST 10 20 30 40 50 14+ST 24 34 44 54 64 17+ST 27 37 47 57 67 49.5+ST 59.5 69.5
, 63 50, 63 28 14 14 22 22 56 18 40 M18 x 1.5 16 20 56 20 25 50.6 40 44 16 20 M18 x 1.5 IY-G05SUS + 0.070 0 I-G08SUS Y-G08SUS 80 80 38 18 18 28 28 71 21 50 M22 x 1.5 21 27 71 23 35 64 50 56 21 27 M22 x 1.5 IY-G08SUS + 0.5 + 0.3 + 0.084 0 I-G10SUS Y-G10SUS 100 100 45 22 22 32 32 79 21 55 M26 x 1.5 24 31 79 24 40 72 55 64 24 31 M26 x 1.5 IY-G10SUS Knuckle Joint Pin Pivot Bracket Material: Stainless
, 63 50, 63 28 14 14 22 22 56 18 40 M18 x 1.5 16 20 56 20 25 50.6 40 44 16 20 M18 x 1.5 IY-G05SUS + 0.070 0 I-G08SUS Y-G08SUS 80 80 38 18 18 28 28 71 21 50 M22 x 1.5 21 27 71 23 35 64 50 56 21 27 M22 x 1.5 IY-G08SUS + 0.5 + 0.3 + 0.084 0 I-G10SUS Y-G10SUS 100 100 45 22 22 32 32 79 21 55 M26 x 1.5 24 31 79 24 40 72 55 64 24 31 M26 x 1.5 IY-G10SUS Knuckle Joint Pin Pivot Bracket Material: Stainless
Description POM Valve 19033 19014 19024 e Stainless steel Spring 19037 19015 19025 r NBR O-ring 20 x 17 x 1.5 t NBR Ring 19016 19026 y Brass, NBR Seat ring 19013 19023 u Dimensions Model Port size L1 H B AK2000-01/02 22 25 1/8, 1/4 50 AK4000-02/03/04 36 36 1/4, 3/8, 1/2 67 AK6000-06/10 50 50 3/4, 1 95 Caution Be sure to read before handling.
52 26 8.5 12.5 70 2.3 35 186.9 155.6 153.9 149.6 154.1 169.6 174.1 AF40-06-A 3/4 75 149.1 20 35.5 38.4 40 35.5 50 52 25 8.5 12.5 70 2.3 34 188.9 157.6 155.9 151.6 156.1 171.6 176.1 AF50-A 3/4, 1 90 220.1 24 45 30 45 70 66 35 11 13 90 3.2 47 259.9 228.6 226.9 222.6 227.1 242.6 247.1 AF60-A 1 95 234.1 24 47.5 30 47.5 70 66 35 11 13 90 3.2 47 273.9 242.6 240.9 236.6 241.1 256.6 261.1 50 AF10
117 29 1/8 44 111 27 1/8 38 104 26 21 18 15 32 24 22 18 6.6, 11 counterbore depth 7 9, 14 counterbore depth 9 11, 17.5 counterbore depth 12 38 32 46 41 50 1/4 64 161 63 Up to 300 35 32 32 27 20 11 45 2 7 72 76.6 50 Up to 300 35 32 30 12 12 27 20 45 11 2 7 39 33 18 18 58 64.5 M18 x 1.5 M18 x 1.5 44 1/4 12 12 114 108 62 19 17 155 14, 20 counterbore depth 14 18, 26 counterbore depth 18 (mm)
, 15% ethylene glycol aqueous solution, Deionized water Operating temperature range1 oC 5 to 35 Cooling capacity3 50/60Hz kW 17.5 / 20.5 Heating capacity4 50/60Hz kW 3.3 / 5.3 Temperature stability5 oC 1 Rated flow rate (Outlet) L/min 45 ( 0.31 / 0.45 MPa) Pump capacity 50/60Hz Maximum flow rate L/min 110 / 130 Maximum lifting height m 36 / 50 Circulating fluid system Minimum operating flow
) 31 (45) 30 24.5 27 27.5 29 24 27 25.5 27.5 20 30 27 27 27.5 29 24 29.5 25.5 30 25 31 30.5 28 28.5 30 25 33 26.5 33.5 32 35.5 35 32.5 33 34.5 29.5 37.5 31 38 40 43 40.5 40 40.5 42 37 43 38.5 43.5 50 43 47.5 40 40.5 42 37 50 38.5 50.5 63 49.5 46.5 48 59 80 49.5 46.5 48 69.5 100 ( ): Long stroke, bore size 20 to 100, Double rod Auto Switch Mounting Bracket and Surface St: Stroke (mm)
53 58 22.5 26.5 29 22 27 31 52 62 67 26 31 33.5 30 35 40 47.5 50 52.5 36.5 45 50.5 23 25.5 28 42.5 51 56.5 C8, C10 C10, C12 Replacement Parts DIN Connector Part No.
B M5 x 0.8 M4 xO.7 5-30 '11 20 32 2 6 7 8 1 7 2A 1 6 . 5 1 M5 x 0-8 N45 x 0.8 5-50 1 4 26 40 3 8 I 8 20 1 9 21 M5 x 0.8 N.45 x 0.8 5-50 t l ) . 5 1 8 32 50 4 1 0 1 0 1 0 20 22 43.5 22 1/8 (PT) 1i8 (PT) 5-50 1 9 5 22 40 5 1 l 1 2 24 29 5 1 . 5 22 23 i il : lModel I l ] H : H A L J KI L Mt\4 NA NB oP Q ] . , R i l : : S I sl L', . l Y r l lrye f Kqgq'l 26 5 1 4 M4 xO.7 5 M5 x 0.8 6 1 8 4.5
B M5 x 0.8 M4 xO.7 5-30 '11 20 32 2 6 7 8 1 7 2A 1 6 . 5 1 9 M5 x 0-8 N45 x 0.8 5-50 1 4 26 40 3 8 I 8 20 1 9 21.5 M5 x 0.8 N.45 x 0.8 5-50 t l ) . 5 1 8 32 50 4 1 0 1 0 1 0 20 22 43.5 22 1/8 (PT) 1i8 (PT) 5-50 1 9 5 22 40 5 1 l 1 2 24 29 5 1 . 5 22 23 i il : lModel I l ] H : H A L J KI L Mt\4 NA NB oP Q ] . , R i l : : S I sl L', . l Y r l lrye f Kqgq'l 26 5 1 4 M4 xO.7 5 M5 x 0.8 6 1 8
With arm Port side M With Arm Rotary direction: R During unclamping (Extension end) Rotary direction: L During unclamping (Extension end) Model (mm) N N O P U V AD 18 18 22 22 MKB32-Z MKB40-Z MKB50-Z MKB63-Z 67 67 88 88 45 45 65 65 20 20 22 22 M8 x 1.25 M8 x 1.25 M10 x 1.5 M10 x 1.5 15 to 25 15 to 25 30 to 40 30 to 40 10 mm Clamp stroke M Rod state Model O P 10 50 mm 85.5 150.5 93 158 103
Hz, 4.2/60 Hz 100 VAC: 45/50 Hz, 42/60 Hz 200 VAC: 22.5/50 Hz, 21/60 Hz Made to Order Specifications (For details, refer to page 4-6-46.)
Rz 12.5 45 Female thread size Chamfered dimension D (Recommended value) M5 5.1 to 5.4 10-32UNF 5.0 to 5.3 2. Use G external threads with G internal threads. D For Uni Thread 45 Tightening method 1.
55000 12 16 19 22 25 32 80 90 19 25 30 38 47 58 79 89 30 42 52 56 70 80 96 116 11.5 14 17.5 23 28 35 45 55 0.09 0.18 0.36 0.61 1.09 2.03 6.4 10 6.6 9 11 11 14 16 18 22 24.5 28.5 35.5 44.5 53 65 67.5 78 7 8 11 13.5 16 20 22 24 13 17 22 27 32 41 46 55 Option Pneumatic: Up to 1 MPa Hydraulic: Up to 3.5 MPa 20 25 32 30, 40 40 30, 40 50 50, 63 80 100 100 125 160 JAL20-8-100 JAL25-10-150 JAL32
55000 12 16 19 22 25 32 80 90 19 25 30 38 47 58 79 89 30 42 52 56 70 80 96 116 11.5 14 17.5 23 28 35 45 55 0.09 0.18 0.36 0.61 1.09 2.03 6.4 10 6.6 9 11 11 14 16 18 22 24.5 28.5 35.5 44.5 53 65 67.5 78 7 8 11 13.5 16 20 22 24 13 17 22 27 32 41 46 55 Option Pneumatic: Up to 1 MPa Hydraulic: Up to 3.5 MPa 20 25 32 30, 40 40 30, 40 50 50, 63 80 100 100 125 160 JAL20-8-100 JAL25-10-150 JAL32
It is determined to be 45%. 50 2. Next, in the required specification example, the viscosity is 100mPas and the discharge rate is 2.7l/min. Since this is equivalent to 45% of the discharge rate for fresh water, 2.7l/min 0.45 = 6l/min, indicating that a discharge rate of 6l/min is required for fresh water. 3.
It is determined to be 45%. 50 2. Next, in the required specification example, the viscosity is 100mPas and the discharge rate is 2.7l/min. Since this is equivalent to 45% of the discharge rate for fresh water, 2.7l/min 0.45 = 6l/min, indicating that a discharge rate of 6l/min is required for fresh water. 3.