Draw-wire sensors under pressure

Similar documents
More Precision. mainsensor Magneto-inductive displacement sensor

More Precision. Draw-wire displacement sensors

Every movement under control: individually adapted gas struts

STI LVDT Displacement Sensors

Application Note : Comparative Motor Technologies

White paper: Pneumatics or electrics important criteria when choosing technology

Motors and Gearboxes for Warehouse Logistics. Energy efficient Compact Sustainable

Powerful, durable and quick to mount. Magnetic and cylinder sensors from ifm electronic.

Volumeter TRZ 03-K PRODUCT INFORMATION. Reliable Measurements of Gas

Sensors for Fluid Technology.... refi ned quality for optimal products

Measuring and Sensor Technology

1. Design with Composite Materials. 2. Customer Benefits. 3. New High Speed Composite Coupling Range

SIMOTICS S-1FT7 Servomotors. The Compact Servomotors for High-Performance Motion Control Applications. Motors. Edition April 2017.

LIFTING CHARTS - Crawler Cranes AMERICAN MODEL TON CAPACITY

Development of Low-Exergy-Loss, High-Efficiency Chemical Engines

Crawler Crane LR

The Cement Industry. How can Kinetrol help your business? Cement Manufacturing Process. Pneumatic Vehicle Unloading. Silo Discharge.

View thousands of Crane Specifications on FreeCraneSpecs.com. Technical data Hydraulic lift crane LR 1250

Planning and Commissioning Guideline for NORD IE4 Synchronous Motors with NORD Frequency Inverters

Input, Control and Processing elements

Motors and Gearboxes for Warehouse Logistics. Energy efficient Compact Sustainable

TECHNICAL PAPER. Magnetostrictive Position Transducers in Medical Applications. David S. Nyce. Introduction

Technical data Hydraulic crawler crane HS 895 HD

Progress as a modular system. EC-H and EC-B cranes.

R-Series Rod Model RS. Data Sheet. Model RS Rod-style sensor with IP68/IP69K Super Shield Housing. Interrogation Return wire.

Valve Technology and Special Solutions for Transmissions on Mobile Machines

The right torque in the right place

A408 GB. Pneumatic oil and diesel pumps 1:1

Temposonics Magnetostrictive, Absolute, Non-contact Linear-Position Sensors

MONO - MOTRONIC 0309 En

GEWAS 181 A. Alarm- and protection device Leak-water detector

INTELLIGENT FLANGE STRÖTER. Magnetic pulse generator

Steering column and sensor

Quiet-running family of products with the lowest torque pulsation

Technical data Hydraulic lift crane LR 1300 LR 1300

Push Type Gas Springs

Crawler Crane LR 1200 LR

Technical data Hydraulic crawler crane HS 885 HD

Technical data Hydraulic crawler crane HS 875 HD

Crawler Crane LR 1250 LR

Mobile greasing system 27846

Planning and Commissioning Guideline for NORD IE4 Motors with NORD Frequency Inverters

Pneumatic grease pump 50:1 and grease supply system

Motors and Gearboxes for Wind Turbines. Durable Environmentally Friendly Low Maintenance

Trailers and cranes for forestry and construction work

Valve Accessories. Limit switches, solenoid valves, lock-up valves, supply pressure regulators, volume boosters, quick exhaust valves, applications

Flow limiter SP/SMB3 Flow limiter SP/SMB6

Head form B Head form J Cable socket, angle type KOMBITEMP TEMPERATURE SENSOR WITH LOCAL DISPLAY. Including products with:

ERHARD is a company of. Dynamically into a new dimension the new Butterfly valve ERHARD ROCO wave

Press Information. Efficient Drive Technology for Many Applications

Technical data Hydraulic crawler crane HS 845 HD

e-motion TL All-electric, tie-bar-less

Vertical submersible pumps in the chemical and petrochemical industry

The linear motor technology for industrial applications

Level Measuring Sensor for Diesel Fuel Tanks

ARCAPRO positioner. Positioner customized for specific tasks

Temposonics. M-Series Analog. Magnetostrictive Position Sensors. Temposonics MH Measuring length mm SENSORS

The D series CONTENTS. the single-cylinder diesel engine with revolutionary technology 4. -SILENT PACK environmentally friendly perspectives 5

Traction aid cable winch Highgrade Forwarder

Measuring equipment for the development of efficient drive trains using sensor telemetry in the 200 C range

P r e s s u r e i S w i t c h e s V a c u u m i S w i t c h e s PressureiTransmitters

FlowControl. Smart & Effective. Stabilize your Process

Practical Issues Concerning Dispensing End Effectors Time Pressure

Induction Coil Design and Theory. United Induction Heating Machine Limited.

Asynchronous and synchronous motors for SINAMICS S120 1PL6 asynchronous motors Forced ventilation, IP23 degree of protection

YRTC and YRTCMA Rotary Axis Bearings with Absolute Value Angular Measuring System. Increased productivity with very high operational reliability

Hydraulic lift crane LR 1110 LR

EFFICIENCY, HYGIENE, OCCUPATIONAL HEALTH AND SAFETY FOR PHARMACEUTICAL PRODUCTION

Factor 1 Sensors: Proximity sensors that detect all metals at the same range without adjustment.

Temposonics. G-Series Analog Redundant. Magnetostrictive Position Sensors. Redundancy for enhanced safety

OTTO HYDRAULICS GmbH & Co KG SYSTEME UND KOMPONENTEN FÜR ÖLHYDRAULISCHE ANTRIEBE UND STEUERUNGEN SIEMENSSTRASSE 12/ FRIEDRICHSHAFEN

Welcome to ABB machinery drives training. This training module will introduce you to the ACS850-04, the ABB machinery drive module.

Research project of the Thüringer funding program completed successfully: Joint project achieves a hydraulic high-pressure of 25,000 bar

Servo-Hydraulic Vibration Test Equipment

The Latest Sensor Trends

EPSILON TIMBER LOADERS CUSTOMIZED SOLUTIONS - TO GROW YOUR BUSINESS

Belt Tensioning and Tracking Systems. Continuous tension and precision across the board

Free-CHP: Free-Piston Reciprocating Joule Cycle Engine

Narrow Aisle Drum Truck. Drum Handling. Three-in-one Drum Carrier. Drum Transporter and Pouring Stand. Drum Handling. Capacity 300kg UDL

CATALOGUE Opto-Electronics STRACK LIFT AUTOMATION ILGT

Pneumatic & Hydraulic SYSTEMS

Micropulse Transducers Applications

Designing Drive Systems for Low Web Speeds

High efficient electric motors with bar windings for serial production

Albany RR1000. Mechanical Installation Manual. PN: 6410T0029 Version - Rev: 04/23/2014. ASSA ABLOY Entrance Systems

Hybrid Nanopositioning Systems with Piezo Actuators

Online Gearbox-Load-Monitoring to Increase Gearbox Reliability

Demag KB conical-rotor brake motors. Drives with unique principle

Ground bearing pressure 1.14 kg/cm 2. Main boom (No xx) max. length High reach (1311.xx and 1008.xx) 83 m Luffing jib (No xx) max.

Factor 1 Sensors: The Evolutions of Metal Detection A WHITE PAPER

Product. Information. A.u.K. Müller. Flow meter turbine, with shut-off device. Series Characteristics. Applications.

Introduction. 1/2 Overview 1/3 Benefits 1/3 Application. 1/3 Order No. code. 1/4 Protection strategy

Why Alignment. Reliability starts with precision shaft alignment. Up to 50% of damage to rotating machinery is directly related to misalignment!

accidents which arise due to nonobservance and the safety information herein.

Flexible Wellen Flexible Reach Rods. Technical Information. ARMATUREN tramistec is a brand of

Piling and drilling rig LRB

6. Working radii are measured from centre of swing and under load.

Ground bearing pressure 1.08 kg/cm 2. Main boom (No xx) max. length High reach (No xx and 1309.xx)

Piling and drilling rig LRB Courtesy of Machine.Market

ANALYSIS OF COMPLEX DRIVETRAINS USING SIMPACK - A WIDE RANGE OF APPLICATIONS - Salzburg, 18 May 2011

Transcription:

Draw-wire sensors under pressure Displacement measurement in hydraulic cylinders Displacement measurement in a hydraulic cylinder is a challenging task since a reasonable solution cannot often be easily found. For example, for truck-mounted cranes a load torque limiter is required in order to comply with health and safety regulations. Previously, the crane could only be operated when the hydraulic supports were fully extended. Today, a displacement measurement on the hydraulic cylinder can enable dynamic load torque limitation. Previously, this measurement could only be resolved reliably with some reservations. Micro-Epsilon Messtechnik has provided a completely new approach to displacement measurement of hydraulic cylinders. Application example for hydraulic cylinders in mobile use. As well as the support displacement, the extending movement of the stabiliser can also be measured. The selection was previously restricted to three different methods for measuring the stroke movements of hydraulic cylinders. If the displacement measurement was already considered during the design, a magnetostrictive sensor could be integrated in the cylinder. For subsequent attachment outside on the cylinder, draw-wire sensors or magnetic or optical measuring rods or tape measures could be selected. Page 1 of 5

Previous methods Magnetostrictive sensors are designed so that the measuring element is in a tubular sensor housing. This is always somewhat longer than the respective measuring range. The evaluation electronics are located on or in the cylinder base at the rear end of the sensor. For magnetostrictive sensors, a magnet in the piston is used as the position transmitter. As these sensors are designed to be pressure-proof, they can be integrated in the cylinder. Adjusting the sensor for the application is fairly straightforward, for example, by modifying the bar length. However, a bore in the piston rod that the sensor tube can be immersed in is required for operation. The greater the stroke movement of the cylinder, the deeper this bore has to be. In the case of large cylinders, for example for hall gates, this means that a bore in the metre size range may be necessary. Vertically boring a cylinder piston in this size range and without tilting is a major challenge. Rather than an integrated displacement measurement, a drawwire sensor can be mounted on the outside of the cylinder. This method can be easily achieved, providing measuring ranges of up to a few metres. However, in harsh environments in which cylinders are frequently used, the draw-wire sensor can only be used with caution as dirt and mechanical loads may destroy the sensor over the long term. This limitation also applies when using optical or magnetic measuring rods. Here, the measuring rod is also installed on the outside of the cylinder. A grid applied to the bar is scanned optically or inductively. As this sensor is also outside on the cylinder, it is susceptible to soiling. Due to these limitations, the two companies Sensor-Technik Wiedemann from Kaufbeuren and Micro-Epsilon from Ortenburg have developed an alternative solution. Both companies have many years of experience in the field of sensor systems. Page 2 of 5

A measurement in the hydraulic cylinder is useful for many applications. Also for the tipping cylinder of trucks. Integrated draw-wire sensors During development, particular attention was paid to the sensor being suitable for harsh environments and that no significant extra costs are incurred for the integration of the sensor to larger cylinders. The co-developed solution is based on the draw-wire sensor, which is integrated inside the cylinder. Here, the sensor is completely protected from external influences. The sensor is positioned at the bottom of the cylinder and the measuring wire is attached to the bottom of the piston. A particular challenge here is the design of the sensor and the signal routing to the outside, as a bore hole in the cylinder hosuing is always a weak point. With pressures of up to 600bar in the cylinder, leakage is a risk that must be prevented. As well as the housing, the essential elements of a conventional draw-wire sensor are the spring, the drum, the measuring wire and a protractor as sensor element. A housing for the sensor can be dispensed with in this application, as the cylinder takes over this function. Each movement of the piston causes a rotation of the wire drum. The rotation movement is divided using a gearbox onto two shafts with different rotation speeds. A magnet is positioned on each shaft at the bottom of the cylinder, whose positions can be measured by external, magnetic angle sensors. Using a suitable gearbox, each combination of the Page 3 of 5

magnet positions only occurs once across the complete measuring range. The sensor therefore shows the characteristics of an absolute encoder. Micro-Epsilon was able to contribute a lot of expertise to the development of the sensor design and function of a draw-wire sensor. 3D model of the developed sensor. The complete sensor is inside the cylinder. Non-contact signal transmission Due to the high pressures, the cylinder walls consist of relatively thick metal. A magnetic signal transmission through these thick walls is not suitable for measurement requirements. Due to the experience of Sensor-Technik Wiedemann in pressure measurement technology, a solution was found for this without having to weaken the design of the cylinder. At those points where the two gearshafts reach the bottom of the cylinder, the steel is tapered and a special membrane is welded on. A magnetic signal transmission with sufficient quality is achieved using this membrane. Using FEM calculations, the minimum possible wall thickness was determined. The electronics on the outside were designed extremely flat and can easily be attached to the bottom of the cylinder. The electronics are available with cable or connector output. 4 20mA or a CAN interface are provided as output variants. Page 4 of 5

The finished sensor integrated in a cylinder. The signal is routed to the outside without contact. Application areas Due to the draw-wire sensor, the system can easily be adapted to different cylinder lengths and diameters and to many different operating conditions. The new wiresensor WDS-TZ10 is ideal for cylinders with a lifting height from 0.5m up to approx. 15m. The lubricating oil in the cylinder surrounds the draw-wire sensor. This functions as a lubricator for the sensor and provides a longer service life. This method is also suitable for cylinders without piston rods due to the hooking of the measuring wire. Cylinders with this type of displacement measurement are ideally suited to harsh environments and in mobile machines. The TZ10 is an appropriate supplement to the magnetostrictive method for short cylinder strokes. Text length about 6,300 characters including spaces Reprints free of charge; specimen copy requested. Author: Dipl.-Ing. Thomas Birchinger Product Management Draw-wire Sensors MICRO-EPSILON MESSTECHNIK GmbH & Co. KG Königbacher Str. 15, 94496 Ortenburg Tel.: 08542 168-137, Fax: 08542 168-92137 Thomas.Birchinger@Micro-Epsilon.de, www.micro-epsilon.de Page 5 of 5

2024 © autodocbox.com Privacy Policy | Terms of Service | Feedback