Shock Absorbers and Rate Controls

* O . b 3 z o 1 0 0 6 o u o q ; N q * E 9 . " o . 5 " > 2 4 ' ;l l.:, . . o o o 2 4 6 8 1 0 1 2 1 4 1 6 1 8 2 0 TOTAL ENERGY ( nrbtc) (Tho!ends) Note: Minimum impact velocity tor PM nlodels it 4 itr/*c. 9k**k &"bs*rbers Non-Adjustable Hydraulic Series 49rc.

MB

D-K39 D-A5 D-A6 D-A59W D-F5NTL D-P5DWL Bore size (mm) A A B A B A A A A B B B B B 32 12 7 4.5 0 0.5 3.5 4 0.5 9.5 4.5 2 1 1.5 0 CJ1 40 12 7 4.5 0 0.5 3.5 4 0.5 9.5 4.5 2 1 1.5 0 50 12.5 7.5 5 0 1 4 4.5 1 10 5 2.5 1.5 2 0 CJP 63 12.5 7.5 5 0 1 4 4.5 1 10 5 2.5 1.5 2 0 80 15.5 10.5 8 2.5 4 7 7.5 4 14 9 6.5 5.5 6 2.5 CJ2 100 15.5 10.5 8 2.5 4 7 7.5 4 14 9 6.5 5.5 6 2.5 125 17.5 12.5 10 6 6

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KQ2C Caps P Plugs Q Cartridge KR Fitting Boot . . . . . . . .6 .7 .7 .7 P .8 .8 .9 .9 o 't0 1 0 1 0 1 1 1 1 1 1 1 2 Spucial [nnlhunilions Page 14 IIU lrlylon lltliltg Page 15 Bmss Phe tittittg$ pase N i p p l e s . . . . . . . . . 1 7 Cdinlinars -. -14 Bushings Aalaolers 1 8 '18 1 q Ts6s .20 .20 Pftr^q 21 SAE 45" Flares . -..22-23 .24 General Assembly..,.. lmoortant Oo's and Dont's Chemical

OMU0023

AREA A position 2 The AREA signal is output commonly for the ranges set for both the AREA A and AREA B. AREA B Set as AREA 1 AREA 2. position 1 AREA B position 2 48 - Data (Saved data) Data is sent as hexadecimal numbers.

Stainless Steel Heat

Temperature Data A or B = Series IDUS: Data A Series IDFS: Data B Air pressure Data C = 2 Calculate corrected air flow by using A or B and C. Corrected air flow = (Air flow) (Data A x Data C) Corrected air flow = (Air flow) (Data B x Data C) 3 Select a model having an air flow capacity that is higher than the corrected air flow.

Air Cylinder NCJ2 Series Miniature Stainless Steel Body

(b(smple) D-C73 ' D-C731.

Title not found

(b(smple) D-C73 ' D-C731.

IDUS/IDFS

Model Selection 1 Obtain the correction factor for the temperature from data A or B and the correction factor for the air pressure from data C. Temperature Data A or B = Series IDUS: Data A Series IDFS: Data B Air pressure Data C = 3 2 Calculate corrected air flow by using A or B and C.

Stainless Steel Heat Exchanger Type Air Dryer Series IDUS/IDFS

Temperature Data A or B = Series IDUS: Data A Series IDFS: Data B Air pressure Data C = 2 Calculate corrected air flow by using A or B and C. Corrected air flow = (Air flow) (Data A x Data C) Corrected air flow = (Air flow) (Data B x Data C) 3 Select a model having an air flow capacity that is higher than the corrected air flow.

Rotary Actuator NCRA1 Series Single Rack and Pinion

RIr-,rniTIi n"a I /'i\ v ' _ _ + _ (+) Elcrric Surue aboter D-FsBAUD-JsgW Il',A67 D-A64 D-A59W D-FsP, D.F7P, D-F7 PV D-F5PW D-F59, D-F79, O-F7NV t}F5NTL r+r B-6d Oulput @ I o Elack o L D-J51 r @ D-F59W D-F59F D-.J59, D"J79, Drr7gc, D-F7BV r l lf:r_ rlrtlH-r r-rad t l l l o{tsd OUT 1 output b Diagnoslic ouipul OUT D-472.O-472H D-480. D.A8OH fContu*-r box !

NCRAI seies

RIr-,rniTIi n"a I /'i\ v ' _ _ + _ (+) Elcrric Surue aboter D-FsBAUD-JsgW Il',A67 D-A64 D-A59W D-FsP, D.F7P, D-F7 PV D-F5PW D-F59, D-F79, O-F7NV t}F5NTL r+r B-6d Oulput @ I o Elack o L D-J51 r @ D-F59W D-F59F D-.J59, D"J79, Drr7gc, D-F7BV r l lf:r_ rlrtlH-r r-rad t l l l o{tsd OUT 1 output b Diagnoslic ouipul OUT D-472.O-472H D-480. D.A8OH fContu*-r box !

Refrigerated Air dryer Series IDU/IDF

Features 2 Model Selection 1 Obtain the correction factor for the temperature from data A or B and the correction factor for the air pressure from data C. Temperature Data A or B = Series IDU: Data A IDF1D to 240D: Data B-1 IDF 370B: Data B-2 Air pressure Data C = Series IDU and Series IDF: Data C 2 Calculate corrected air flow by using A or B and C.

This is a legacy product, and replaced byVNB401B-N25A, PROCESS VALVE *LQA, VALVE, VNA/B/C/D 2-WAY MEDIA VALVE, KA, VNA/B/C/D BODY PT >3/4NPT, 3.08000 lb

This is a legacy product, and replaced byVNB404AS-N25A-B

Size: 4 [ø25(ø16)], Valve Type: 4 [NC (Operating Pressure 1MPa)], Sealant: NBR seal, Thread: NPT, Port Size: 1, Voltage: 12VDC, Lead Wire: DIN Terminal, Manual Override: Non-locking Push Style, Bracket: Bracket, CE Compliant: CE Compliant

Size: 4 [ø25(ø16)], Valve Type: 4 [NC (Operating Pressure 1MPa)], Sealant: FPM seal, Thread: NPT, Port Size: 1, Voltage: 12VDC, Lead Wire: DIN Terminal, Manual Override: Non-locking Push Style, Bracket: Bracket, CE Compliant: CE Compliant

The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants

Size: 4 [ø25(ø16)], Valve Type: 4 [NC (Operating Pressure 1MPa)], Sealant: B (FPM seal), Thread: N (NPT), Port Size: 25A (1), Voltage: 6 (12VDC), Lead Wire: D (DIN Terminal), Manual Override: Non-locking Push Style, Bracket: B (Bracket), CE Compliant: Q (CE Compliant)

Size: 4 [ø25(ø16)], Valve Type: 4 [NC (Operating Pressure 1MPa)], Sealant: A (NBR seal), Thread: N (NPT), Port Size: 25A (1), Voltage: 6 (12VDC), Lead Wire: D (DIN Terminal), Manual Override: Non-locking Push Style, Bracket: B (Bracket), CE Compliant: Q (CE Compliant)

The VN series is a combination of process valves that can be operated with pressure differential zero and comes with many variations. The VNA series is used for controlling pneumatic systems or air-hydro circuits. The VNB series controls various fluids. VNC is used for controlling the cutting oils and coolants used in machine tools. VNH is for controlling high pressure cutting oils and coolants