alignment systems english - zimmerman.com.t · micro alignment telescope accessories cctv camera...
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Height ofLOS abovebaseremainsconstant
Lines ofsight
Focusing lens
CrosslinegraticuleDisplacement
Micrometer
Displacementmicrometer
Erector lens
Focusing micrometer
Eyepiece
SOLVING PROBLEMS OF ALIGNMENTThe Micro Alignment Telescope
Since the late 1930's Taylor Hobson has sold thousands of AlignmentTelescopes to industries throughout the world. The Micro AlignmentTelescope is used to set and check alignment, squareness,straightness, flatness, parallelism, verticality and level. With its widerange of accessories the Micro Alignment Telescope forms a uniqueand comprehensive system for solving alignment problems in a widevariety of applications. The Micro Alignment Telescope system:
• Is simple and easy to use
• Is versatile and adaptable
• Enables improved product performance
• Enables reliable, accurate installation
• Reduces warranty and maintenance costs
• Is robust and reliable
• Is portable
The Micro Alignment Telescope has:
• Optical and Mechanical axes aligned to
within 3 seconds and concentric within
6µm (0.00025in)
• Achievable accuracy within 0.05mm at
30m (0.002in at 100ft)
• Field of view: 50mm at 2m (2in at 6.5ft)
600mm at 30m (24in at 100ft)
Set of 4 matched targets
Principle 3 - Flatness
PRINCIPLES OF ALIGNMENTAlignment of a refuelling system in the nuclear power industry.
Objective lens Micrometer block Cover glass
Equalheights Error
LOS
Principle 1 - Alignment
Principle 2 - Squareness
Target LOS
Target in Holder movedto top and bottom ofcolumn for squarenessand to intermediatepositions for checkingstraightness
Optical Square
90°
The basic measurement principles available with the MicroAlignment Telescope System are Alignment, Squareness,Flatness, Autocollimation and Autoreflection. The MicroAlignment Telescope generates a straight line of sight from zeroto infinity. This forms the basic reference from which allmeasurements are taken.
To measure squareness a penta prism is used to deviate thestraight line through exactly 90 degrees. A similar rotating pentaprism is used to generate a plane for flatness measurement.
The Telescope is designed to allow Autocollimation andAutoreflection, providing for squareness and angularmeasurement using reflective Mirror Targets.
There is a comprehensive range of accessories enabling theTelescope, Targets and Prisms to be mounted to the workconcerned.
Datum LOS Parallel toBed Slideway
Target
Turbine Pedestal
ForwardBearings
Mirror target
After EndBearing
Micro Alignment Telescope (112/2582) Lamphouse (112/1365),Horizontal Base (112/656), Adjusting Bracket (112/645) MountingSphere (112/376), Adjustable Height Cup (112/849), Targets.
Alignment using Autoreflection
Horizontal Flatness (Using Principle 1)
Micro Alignment Telescope (112/2582), Horizontal Base (112/656),Adjusting Bracket (112/645), Flange Cup (112/471), MountingSphere (112/376), Stride Level* (112/2315/2318).* A Talyvel Electronic Level can be used in place of a Stride Levelif greater accuracy is required.
Mounting Sphere (112/376),Sphere Clamp (112/657),Flange Cup (112/471), Target.
Tube Alignment(Using principle 1)
Micro Alignment Telescope (112/2582), AdjustingBracket (112/645), Bore Fixture (112/1168), MountingSphere (112/376), Right Angle Eyepiece (112/568).
Spider Fixture (137/1943),Target Illuminator (112/642),Target.
ENGINEERING APPLICATIONS
Typical applications for which the MicroAlignment Telescope is being successfullyused are:
• Bore alignment checks
• Machine tool straightness and alignmentchecks
• Turbine installation and maintenance
• Flatness checking and setting of bed plates
• Shipbuilding repair and maintenance
• Weapon systems alignment andharmonisation
• Alignment of rollers of process machinery
• Aircraft jig setting and control
• Tool alignment of large boring machines
• Compressor installation and maintenance
• Main bearing alignment of large engines
• Railway equipment assembly and set-up
• Earthmoving machinery and generalequipment alignment
• Portable machining system set-up andmonitoring.
Checking Aircraft jigs with Micro Alignment Telescope
• Aircraft assembly jigs
• Satellite testing
• Steam and gas turbines
• Marine propulsion machinery
• Printing presses
• Air compressors
• Cranes
• Diesel engines
• Nuclear reactors
• Coal conveyors
• Shipbuilding and repair
(Civil and Military vessels)
• Rolling mills (steel, paper, sugar etc.)
• Rod and wire mills
• Extruder barrels
• Civil engineering projects
Aligning diesel engine bearings using CCTV and Micro Alignment Telescope
Squareness with plumblines (Using principle 2)
Micro Alignment Telescope (112/2582),Horizontal Base (112/656),Adjusting Bracket (112/645),Flange Cup (112/471),Mounting Sphere (112/376),Talyvel 4 (S112/2584),Stride Base (112/2315).
Alignment - removing twist(Using principle 1)
Mounting Sphere (112/376),Sphere Clamp (112/657),Flange Cup (112/471), Target.
SOME TYPICAL APPLICATION AREAS
Micro Alignment Telescope (112/2582) 4in Offset Square (112/1130), Unimount (137/1916),
Trivet Stands (137/1904 or 1905)
13
20
19
21
22
23
24
17
16 10
9
15
14
HOW TO SELECT THE RIGHT MICRO ALIGNMENT TELESC
MICRO ALIGNMENT TELESCOPE(Code 112/2582 Metric, 112/2583 British)
Micrometerrange:
± 1.2mm (+0,05in) with 0.02mm(0001in) graduations
Barreldiameter:
57.137-57.147mm (2.2495-2.2499in)
Optical axis: Parallel to mechanical axis within 3arc seconds and concentric within6µm (0.00025in)
Field of view: From 50mm (2in) at 2m (65ft) to600mm (24in) at 30m (100ft)
Magnification: X34
Image: Erect
Accuracy: Within 0.05mm (0.002in) at 30m (100ft)and proportionally for longer orshorter distances down to about 3m.Below this distance the errors areless than the precision to which themicrometers can be read.
The Micro Alignment Telescope focuses from zeroto infinity and incorporates an optical micrometerto measure deviations from an optical line of sightin two directions at right angles to each other.
Specification:
ALIGNMENT TELESCOPE(Code 112/850)
Similar to 112/2582 but without micrometermeasuring system.
1 Micro Alignment Telescope 112/2582 or 2583
2 Right Angle Eyepiece Adaptor 112/568
3 Telescope Lamphouse 112/1365
4 Stride Base 112/2315
5 Stride Bubble 112/2318
6 Talyvel 5 Electronic Level M112/3659-01
7 Adjusting Bracket 112/645
8 Horizontal Base 112/656
9 Adjustable Height Cup 112/849
10 Flange Cup 112/471
11 Plain Cup 112/472
12 Bore Fixture 112/1168
13 Mounting Sphere 112/376
14 Trivet Stands 137/1904 or 1905
15 Unimount 137/1916
16 4in Offset Square 112/1130
17 Optical Square 142/77
18 Spider Fixture 137/1943
19 Adjustable Mirror Target Holder 112/729
20 Sphere Clamp 112/657
21 Adjustable Mirror Target Holder 112/837
22 Targets (2.25in/57mm)
23 Target Illuminator 112/642
24 Mirror Targets
25 Targets (1.5in/38mm)
1
2
3
6
78
12
13
18
25
11
10
4
5
LESCOPE SYSTEM
Select your alignment kit from theseaccessory items:To use the Micro Alignment Telescope you willneed to select from a range of accessories.Should you need any advice on the preciseaccessories and components necessary,contact Spectrum Metrology or your localTaylor Hobson outlet.
Application ReportsMany applications which have utilised the TaylorHobson range of Micro Alignment Telescopesare the subject of application reports - contactSpectrum Metrology or your local Taylor Hobsonoutlet for further details.
DIGITAL CCD SYSTEM(connects to any of the Alignment Telescopes)(Code 137/2160-01)
Available as a complete system when ordered with aTelescope, or an accessory upgrade for existing MicroAlignment Telescopes in the field.
• Clear digital output of X and Y minimises operator error
• Graphical output for professional reporting of results andstorage of measurements.
• Repeatability of measurement provided by CCD
• Rapid calculation of results for quick and easyassessment of measurement.
• Ideal for automatic remote monitoring withmeasurement time interval input from operator.
• Typical accuracies: 5µm over 3m proportionallyincreasing with distance, ie 50µm over 30m
A new high resolution CCD system with softwareautomatically senses the centre position of the targets thencalculates the displacement from a set datum to ensure afast set up time with repeatable readings, as well asdigitally outputting the result. This is particularly useful onlarge alignment projects such as aircraft jigs or largemachine tools since a single operator can makemeasurements and adjustments along the construction orfixture while the target is displayed on the monitor.
MICRO ALIGNMENT TELESCOPE ACCESSORIES
Target readings are recorded along the component and canthen be output as a graph/results table or saved for furtheranalysis. Analysis of the results can give advice on therequired precise adjustment of the component underconstruction to bring it in line quickly. Distancemeasurements can also be made to an accuracy of a fewmillimetres. The system can be connected to PC, laptop or atablet PC.
Specification:
Operating range: between 1m and 30m (less than 1m andgreater than 30m available on request)
Repetition: better than 2µm
Accuracy: Displacement using one target better than 2%of displacement or 5µm, whichever is thegreater. Displacement using two targets better than4% of displacement or 10µm , whichever is thegreater.
Typical Accuracies: 5µm over 3m and proportionally increasingwith distance, ie. 50µm over 30m
Distancemeasurementaccuracy:
20mm from 0 to 10m25mm from 10 to 20m30mm from 20 to 30m
Targets: Standard, short, long range and virtual (seethrough) targets available
* Windows is a registered trademark of Microsoft Corporation
MICRO ALIGNMENT TELESCOPE ACCESSORIES
CCTV Camera(Code 137/2161-01)
• Minimises eye fatigue
• Eliminates parallax
• Easier/more practical setting and adjustment of work byviewing from a monitor
• More comfortable viewing position of awkwardmeasurement locations through the monitor
• High magnification lens available to improve settingresolution
A miniature CCTV camera can be fitted to the telescopeeyepiece to remotely view the target when working forexample in difficult locations. By viewing the target imageon the monitor, parallax problems are eliminated and setupmade quicker, allowing the operator to adjust the machinetool, targets or fixtures that require setting, without havingto return to the Telescope each time or rely on a secondoperator for directions. It also allows a number of operatorsto observe the target image at the same time, oralternatively one operator can view a series of Telescopes.
Right-Angle Eyepiece Adaptor
(Code 112/568)
Enables the Telescope to be viewed at right angles to theline of sight. Especially useful where space is cramped orthe sighting position inconvenient.
Customised Cases
Customised cases areavailable. These arepadded and reinforcedto absorb shocks. Thecase containscompartments toaccommodate theTelescope and itsaccessories.
n MOUNTING THE TARGET
Adjusting Bracket(Code 112/645)
Provides a fine azimuth and elevation adjustment forsighting the Telescope, used with a Horizontal Base orBore Fixture.
Horizontal Base (Code 112/656)
Used for mounting theAdjusting Bracket onto eitherthe Plain, Flange orAdjustable Cup. When used onflat surfaces (plain cup), twofence pins provide a sidewayslocation.
Plain Cup(Code 112/472)
Locates the Mounting Sphere on the Horizontal Base withits centre 76mm (3in) from the base of the Cup.
Flange Cup(Code 112/471)
Locates the Mounting Sphere on the Horizontal Base withits centre 110mm (4.33in) from the base of the Cup.
Adjustable Height Cup (Code 112/849)
Similar to code 112/471, but adjustable to height 110mm+/5mm (4.33in +/-0.188in).
Left to right: Flange Cup, Plain Cup, Adjustable Height Cup
Mounting Sphere(Code 112/376)
The Mounting Sphereaccepts either the Telescopeor Target. Used on theTelescope it serves toprovide a pivot whensighting the Telescope. Theline of sight always passesthrough the Sphere centre.
A Collet Clamp key (code 116/27) serves any number ofspheres.
A shoulder ring (code 112/465) positions the pattern side ofthe Target at the centre of the sphere and is threaded totake the Target Illuminator (code 112/642).
Bore Fixture(Code 112/1168)
Used in conjunction with theAdjusting Bracket andMounting Sphere to mountthe Telescope in bores. Themounting diameter of120.625-120.637mm (4.7490-4.7495in) is concentric withthe Sphere.
Trivets(Code 137/1904 & 1905)
Used to mount the Telescoperemotely from the work.Trivet stands are either185mm (7.3in) or 85mm(3.3in) high and provide anextremely rigid mounting upto approximately 2 metres(78in) high.
Unimount(Code 137/1916)
This lightweight universal mounting system is used when using the Telescoperemotely from thecomponent to be measured.It is normally mounted onTrivet Stands to the requiredheight and provides all thefacilities for moving theTelescope through +/-2.5°elevation,+/-2° fine (360° coarse)azimuth, 100mm (3.9in)vertical, 76mm (3in)horizontal and 40mm (1.6in) sideways.
n MOUNTING THE TARGET
Sphere Clamp(Code 112/657)
Retains the sphere ontoits Mounting Cup when theSphere is used to hold aTarget.
Target Illuminator(power supply included)
(Code 112/642)
With a diffusing screenand colour filter, this accessory provides glarefreebackground illumination for ideal viewing of the Targetpattern.
The illuminator fits the sphere, shoulder ring, adjustabletarget holder and spider fixture.
A battery operated version is also available.
Adjustable TargetHolder (Code 112/837)
Normal height from baseto centre of target 76mm(3in) and a range ofvertical and horizontaladjustment ofapproximately+/-3mm (0.125in).It has magnetic feet, canbe located against fencepins and incorporatesvertical and horizontaladjustment screws. Takes 2.25in targets and is threaded to accept the target illuminator.
Spider Fixture(Code 137/1943)
Enables a target to bepositioned in the centreof bores from 200mm to1m (8-40in). Largerdiameter fittings tospecial request. Targetcentring is shown by arotating dial indicator.The spider fixture isthreaded to take theilluminator. Uses 1.5intargets.
MICRO ALIGNMENT TELESCOPE ACCESSORIES
Trivet Stand (shown here with TableTop)
n SETTING A HORIZONTAL LINE
Talyvel 4 Electronic Level (Code M112/3659-01)
with Stride Base (Code 112/2315)
By means of the stride base, Talyvel is mounted on theTelescope barrel for setting horizontal lines of sight.Talyvel is a pendulum type Electronic Level, which providesa digital reading in angular measure or gradient. Typicalaccuracy setting is 0.2 arc second; ie 1µm per metre.For further details please refer to our Talyvel brochure.
Stride Level(Code 112/2315 &112/2318)
Used for establishinghorizontal lines ofsight, this is a precisionbubble level that ismounted directly on the Telescope barrel.Accuracies of 5seconds are obtainable.
Other types of level are available on request, including methods to set truly vertical.
n OPTICAL SQUARES
These are used to deviate the Telescope's line of sightprecisely 90° within 1 arc second; ie 5µm per metre.The 4in offset square is mounted on the barrel of theTelescope. Rotated with the Telescope, it is used to sweepout planes perpendicular to the Telescope reference line ofsight.
4in Offset Square (Code 112/1130)
Has its 90° line of sight 4in (102mm) forward of itsmounting sphere and is used to sweep the full 360°. It hasa through sighting facility, enabling the reference target tobe viewed at all times.
Optical Square(Code 142/77)
This optical square enables a90° line of sight to be set upvertically or horizontally fromthe Telescope.
The height of the sightingaperture is normally 76mm (3in)corresponding to the Plain Cupmounting height for theTelescope.
Other accessories and types of squares are available onrequest such as devices for sweeping a plane.
n AUTOREFLECTION AND AUTOCOLLIMATION
When fitted with a lamphouse, the Micro AlignmentTelescope can be used for setting or checking squareness,and measuring small gradients of tilt, by autoreflection orautocollimation.
Telescope Lamphouse (power supply included)(Code 112/1365)
Inserted into theTelescope toilluminate the integralcover glass target, ithas a partiallyreflecting mirror thatdoes not obscure theline of sight.
Adjustable Mirror Target Holder (Code 112/729)
For mounting a MirrorTarget on the end of arotating spindle or shaft.The two adjustingscrews enable themirror target to be tiltedso that the spindle axiscan be aligned with theTelescope line of sight,using Autoreflection. Has a 95.25mm (3.75in)diameter locating spigotconcentric with the Target pattern.
Squaring-On Reflector(Code 112/722)
Assists in preliminary lining up of the workpiece when theAutoreflection image is initially outside the Telescope field ofview. Two images are seen through the viewing aperture andthese converge as the workpiece is brought square to the lineof sight.
n TARGETSThe targets listed below are available for various applications.Alignment targets parallel to within 20 arc seconds are normallyused, but targets having a parallelism within 2 arc seconds areavailable as intermediate targets for through sighting, minimizingpossible refraction errors. Mirror targets are used when bothalignment and squareness are checked concurrently usingautoreflection or autocollimation. Other targets are available onrequest.
TARGETS
Standard circular Long distance
Nominaldiameter
Type Pattern Parallelism UseCode
British Metric
57mm targetStandardcircular
20 sec general 112/1053 112/1059
57mm targetStandardcircular
2 secintermediate
target112/1052 112/1058
38mm targetStandardcircular
20 sec general 112/1051 112/1057
38mm targetStandardcircular
2 secintermediate
target112/1050 112/1056
57mmlong
distancelong distance
circular 20 sec25-75m
(80ft-250ft)112/856
57mmlong
distancelong distance
circular 20 sec 60-135m 112/857
57mmmirrortarget
Standardcircular
20 secFront facelocation
112/1055 112/1061
57mmmirrortarget
Standardcircular
2 secBack facelocation
112/1054 112/1060
1.5in target Diameter: 38.075-38.087mm (1.4990-1.4995in)Thickness: 9.27-9.78mm (0.365-0.385in)
2.25in target Diameter: 57.132-57.148mm (2.2493-2.2498in)Thickness: 12.45-12.95mm (0.490-0.510in)
Pattern concentric with outside circumference of target:-Long distance targets: within 0.0127mm (0.0005in). All other targets within0.0064mm (0.00025in) Special targets are available on request.
n TRAINING AND CALIBRATION
Optical Alignment Handbook
(Code 303-60)
A comprehensive manual covering all the TaylorHobson Micro Alignment Telescope mechanicalequipment. It combines a complete technicaldescription of the Telescope and its accessories,with detailed operating instructions. The theory ofOptical Alignment is discussed in detail, making thebook a valuable reference work on the subject.
TrainingDetailed training courses are available either on-site or at Spectrum Metrology’s facility in Leicester,UK. Price on application.
Telescope Calibration EquipmentIntended for users who wish to carry out their owncalibration check on their Telescopes, includingvariable focus collimator (code 137/583), rotatingTest Wedge (code 137/829) and Micro AlignmentTelescope bench (code 137/1917).
Parallelism of the Telescope line of sight withrespect to the barrel of the Telescope is checked bysighting into the Variable Focus Collimator andrevolving the Telescope through 180°.
The variable focus of the collimator simulates allfocal distances, enabling the straightness of theTelescope line of sight to be checked. Thegraduated scale target on the front of the collimatoris used for checking concentricity of the Telescopeline of sight to its barrel, and also linearity of theTelescope micrometers. The test wedge is used tomeasure the angle of parallelism.
In addition to the range of standard accessoriesshown in this brochure, equipment can be designedor manufactured to special order to meet specificapplications, for example to set the Micro AlignmentTelescope truly vertical. Contact our technicalsupport agent, Spectrum Metrology, or your localTaylor Hobson outlet for details.
UKAS CertificationMicro Alignment Telescopes can be supplied with aUnited Kingdom Accreditation Service (UKAS)certificate which gives an independent andauthoritative traceable guarantee of instrumentperformance and accuracy. Regular servicing andUKAS calibration will guarantee that theperformance specification is maintained.
MICRO ALIGNMENT LASER ALIGNMENT SYSTEM
Available to enhance the Taylor Hobson electro opticalmetrology range, the laser alignment system offersversatility and high accuracy to increase the range ofapplications offered by both the Micro Alignment Telescopeand autocollimator ranges offered by Taylor Hobson.
• Ideal for dynamic measurement
• Simple and compact design
• Easy, icon-driven software
• Digital output with clear graphical output and report
writing facilities
• Battery operated
Micro Alignment Laser is a laser measuring instrumentequipped with the latest optical and electronic componentsfor precise measuring of straightness, flatness, parallelism,perpendicularity, alignment and much more. It comprises ahighly stable laser transmitter with integrated micro-adjustment for fine alignment of the laser beam, a high-precision position sensitive device (PSD) receiver with acomplete electronicprocessing system andsoftware for use on a laptop,notebook or desktop PC. Thesoftware provides users withcomprehensive support forextensive geometricalmeasuring includingrecording of data in reports.
Typical applications include:
• Dynamic checking of
assembled machineslideways for straightnessand squareness
• Parallelism measurements
and adjustment of tracksand guides
• Monitoring of movement, deformation and deflection of
structures
The Micro Alignment Laser System comprises the followingcomponents:
Laser Transmitter: a highly stable semi-conductor laser whichincorporates a sophisticated adjustment technique for fastsetup.
Laser Receiver: Highly precise optoelectronic positionrecognition. State of the art technology ensures optimalprocessing of measuring signals, eliminating externaldisturbances such as oscillation of buildings, etc.
IR-Remote Control: can be used almost anywhere to triggeroperations such as individual measurements, adjustments ordetermining measuring point.
Software: data can be transferred to PC using either fiberoptics or radio signals to an RS232 serial interface. This user-friendly software allows real-time measurements in graphicalor numeric form.
Cableless radio link: Included as standard with the system.
A wide range of accessories is available to suit individualapplications.
Receiver
Measuring Range (X/Y) 5x5mm*
Measuring Resolution 0.1µm
Linearity )1 )2 0.4%
Reproducibility )1 )2 ±0.25µm
Power supply )3 7.2V
Dimensions (LxBxH) 156x50x50mm
Weight 0.63kg, inc. Battery
Processing
SoftwareStraightness, parallelism,rectangularity, alignment(Windows 95/98/XP/2000/NT4.0)
System
Measuring Distance )4 0.1-10m (longer distancesmay be available on request)
Temperature Range 10-35°C
Case (LxBxH) 460x350x110mm
Weight of Case & contents 4.0kg
1) Data measured at 20° C 2) Within 80% of range3) With Li-Ion Battery or mains adapter4) depend on environmental conditions
SPECIFICATION
* wider measuring range option available on request
Transmitter
Laser Power ≤ 1 mW
Laser Class 2
Laser Wave Length 630-670nm (red)
Power Supply Li-Ion Battery 7,2V
Dimensions (LxBxH) 137x50x50mm
Weight 0.73kg, inc. Battery
Micro Alignment Telescope 1G SM 02/06
Taylor Hobson SArond Point de l’Epine des Champ[s
978990 Elancourt, France
Tel: +33 1 30 68 89 30 Fax: +33 160 92 10 20
e-mail: [email protected]
Taylor Hobson GmbHPostfach 4827, Kreuzberger Ring 6
65205 Wiesbaden, Germany
Tel: +49 611 973040 Fax: +49 611 97304600
e-mail: [email protected]
Taylor Hobson S.p.A.c/o Ametek Italia Srl, Via de Barzi,
20087 Robecco Sul Naviglio (MI) Italy
Tel: +39 02946 93401 Fax: +39 02 9469 3450
e-mail: [email protected]
Taylor Hobson Liaison OfficeAustria and Eastern Europe
Cumberlandstrasse 5/6, A-1140 Vienna, Austria
Tel: +43 1877 557112 Fax: +43 1877 557116
e-mail: [email protected]
Taylor Hobson KKSankyo Meguro Bldg, 5-37, 4 Chome, Kamiosaki,
Shingawa-Ku, Tokyo 141-0021, Japan
Tel: +81 33494 5110 Fax: +81 33494 5119
e-mail: [email protected]
Taylor Hobson K INCHungkuk Life Building. 5th Floor 6-7, Soonae Dong
Pundang-Ku, Seongnam, Kyungki-Do, 463-020, Korea
Tel: +82 31 713 1371 Fax: +82 31 713 1372
e-mail: [email protected]
Taylor Hobson China OfficeUnit 814, 8/F, Tower 1, Cheungsha Wan Plaza
833 Cheung Sha, Wan Road, Kowloon, Hong Kong
Tel: +852 2526 1967 Fax: +852 2526 0225
e-mail: [email protected]
Taylor Hobson IncA division of Ametek, 1725 Western Drive,
West Chicago, IL 60185, USA.
Tel: +1 630 621 3099 Fax: +1 630 231 1739
e-mail: [email protected]
© DiskArt™ 1988
ELECTRO OPTICAL METROLOGY
Taylor Hobson has been selling electro-opticalmetrology products since the last 1930s and the rangeincludes Micro Alignment Telescopes (used for checkingand setting straightness and alignment) Autocollimators(for accurate measurement of small angular displace-ments), clinometers and "Talyvel" electronic levels.Used in a range of applications in industries such asmachine tools, aerospace, marine and steel rolling, theTaylor Hobson range combines high accuracy andrepeatability with fast response and operationalconvenience.
To provide focused technical support to all its electro-optical metrology customers, Taylor Hobson has adedicated technical support centre:
Spectrum MetrologyCustomers with electro-optical measurement needsoften require not only equipment but also advice onsolving a specific manufacturing or calibration problem.With many years experience in electro-opticalmetrology, Spectrum Metrology provides rapid technicaland application support via phone, fax, e-mail or on-sitevisits. A full demonstration and training facility isavailable either on-site or in Spectrum Metrology'sdemonstration room.
Spectrum Metrology is also the authorised repair agentto Taylor Hobson for the electro optical metrology rangeand holds a wide stock of ex-demonstration equipmentfor hire or sale.
Spectrum Metrology can be contacted on Tel: (44)(0)116 276 6262Fax: (44)(0)116 276 6868E-mail: [email protected]: http://www.spectrum-metrology.co.ukUnit 8 Ireton Avenue, Leicester, LE4 9EU, England
Taylor Hobson LimitedPO Box 36, 2 New Star Road, Leicester, LE4 9JQ, England.
Tel: +44 116 276 3771 Fax: +44 116 246 0579
e-mail: [email protected]
Internet: http://www.taylor-hobson.com
TAYLOR HOBSONA8248 ISO9001