■ 제품필수정보
제조사 |
Sick |
제조사품명 |
IMB18-08BDSVU2K |
간략설명 |
Sick Inductive Barrel-Style Proximity Sensor, M18 x 1, 8 mm Detection, Normally Open Output, 10 ??30 V, IP68, |
■ 제품사양
Sensor Technology = Inductive Thread Size = M18 x 1 Output
타입 = Normally Open Detection Range = 8 mm Terminal
타입 = 2-Wire, 2 m, Cable IP Rating = IP68, IP69K Length = 40mm Width = 18mm Maximum DC Voltage = 30V
장착형태 = Quasi-Flush Switching Current = 100 mA Housing Material = Stainless Steel Reverse Polarity Protection = Yes OverviewAt a glance
타입s: M8 to M30 Extended sensing ranges: 2 mm to 20 mm Electrical configuration: DC 3-/4-wire, DC 2-wire Enclosure rating: IP 68, IP 69K Temperature range: ??0 °C to +100 °C Rugged stainless-steel housing plastic sensing face Optical adjustment indicator, IO-Link-ready Resistant to oils and cooling lubricants suitable for use outdoorsYour BenefitStraightforward product selection as fewer sensor variants are required ??one sensor suits a whole range of applications Stable processes thanks to extended, highly precise sensing ranges enabled through the use of the latest SICK ASIC technology Reduced machine downtimes thanks to longer sensor service life, even in harsh working conditions Quick and easy installation thanks to optical adjustment indicator and self-locking nuts High degree of flexibility and communication options thanks to IO-Link Easy to implement customer-specific variants within the standard product portfolioThe inductive IMB proximity sensor is a byword for reliability in harsh working conditions, whether it is in contact with cooling lubricants or being used outdoors. With its extended sensing ranges, made highly precise thanks to the use of SICK ASIC technology, the IMB ensures reliable, stable processes. Whats more, its wide-ranging specification limits allow the IMB to be used in applications where specialist devices were once the only solution ??a huge benefit when it comes to product selection and warehousing. The optical adjustment indicator and self-locking nuts save time during commissioning and help cut down on errors. Communication via IO-Link is also possible, creating more flexibility and adding more functions for automation applications. With an extensive standard product portfolio available, even special devices can be put into action quickly and easily.ApplicationsSpeed measurement Monitoring the material transportation Monitoring the valve piston openings on the central lubrication system Monitoring the position of the roll-down gate Measuring forklift heights for productive product handling with process reliability Door leaf detection on elevator doors Zone detection in elevator shafts Position determination on a revolving door Door leaf detection on automatic sliding doors Speed monitoring in escalators with inductive proximity sensors Detection and positioning tasks in balers Position and speed detection on combine harvesters Position detection on grape harvesters Detection tasks in aircraft tractors Monitoring rotary valve operation during material discharge Monitoring belt tension on the conveyor belt Movement and position control of a lance Movement and position control of internal machine parts Exhaust hood position (up, down) at a basic oxygen furnace Monitoring of tilting position on basic oxygen furnaceDetection of correct lever positioning during dust extraction Rotary valve operation at dust conveying system in the off-gas system Conveyor belt operation on dust conveying system Fan operation (RPM) at impeller axis in the off-gas system Inlet and outlet damper position at main fans Determining the position of actuator on shear during the rolling process Monitoring belt operation in carbon and sinter supply Monitoring the operation of the sinter conveyor in the sinter plant Movement and position of temperature and sample lances Movement and position control of oxygen and carbon lances Position of ladle furnace roof during second metallurgy process Position of electrode arms and electrodes at ladle furnace Roof position detection at vacuum degasser during secondary metallurgy Reactor vessel position detection at Ruhrstahl-Heraeus degasser