Ultra compact high-accuracy 3D measurement touch probe for small to medium sized machining centres.http://www.renishaw.com/omp400 Renishaw wins Queen's Award for Enterprise: Innovation 2009 for the OMP400 high accuracy touch probe
Renishaw plc, a world leading supplier of engineering technologies, is delighted to announce that it has received a Queen’s Award for Enterprise 2009 in the Innovations category, the company’s thirteenth Queen’s Award since its formation in 1973, and its fourth in just six years. This prestigious Award has been granted for the company’s highly innovative OMP400 ultra compact high-accuracy touch probe which is used for 3D measurement on computer numerically controlled (CNC) machine tools. [19 kB] ‘Remarkable’ Renishaw is presented with a Queen’s Award for Enterprise: Innovation 2009
On Tuesday 8th September, Renishaw plc, a world leading supplier of engineering technologies, was presented with a Queen’s Award for Enterprise 2009 by Sir Henry Elwes, Her Majesty’s Lord-Lieutenant of Gloucestershire. This is Renishaw’s thirteenth Queen’s Award since its formation in 1973, and was granted in the Innovations category for the company’s OMP400 high-accuracy touch probe which is used for 3D measurement on computer numerically controlled (CNC) machine tools. [18 kB] Success for Olympic bobsleigh
Working with other manufacturing specialists, Siemens, Sescoi and Iscar, Renishaw used its latest measurement technologies, including the revolutionary REVO® measuring head for co-ordinate measuring machines, to deliver a blade solution that saw Kiriasis dominate the 2006-2007 FIBT season, winning both the World Cup and World Championships. [17 kB] Twin probe system
The Renishaw twin probe system allows a spindle probe and a tool setting probe to be installed on a machine with a single optical interface. [15 kB] “Throw the machining rule book away and get creative”
Boxtrees Precision Engineering use Renishaw probe systems on a Mazak Integrex in a clever fully-integrated ‘intelligent’ system that has achieved reduced unit costs, zero manual set-up times, unmanned machining, and consistent accuracy and cycle times [35 kB] RENGAGE™ technology
Conventional probes continue to fulfil a valuable role, which is why Renishaw maintains its position as market leader in the design, manufacture and support of these products.However for numerous applications the significant performance advantages offered by RENGAGE™ technology provides users with competitive superiority both now and in the future. [15 kB] Trigger Logic™
Trigger Logic™ is a method that allows the user to view and select all available mode settings in order to customise a probe to suit a specific application. [13 kB] Interfaces and transmission units
Interfaces and transmission units A Renishaw probe must be able to communicate with the control system (CNC) of the machine on which it is fitted. Page content Downloads Call your local office Contact us online Signals must pass from the probe to the machine’s controller to register contact of the probe stylus with... [13 kB] OMP40
Ultra compact touch probe with optical transmission, ideally suited to small machining centres. [18 kB] OMI-2H
Combined optical transceiver/interface, which conveys and processes signals for two different probes sequentially. [13 kB] New multi-axis development for Productivity+™ probe software
Measurement on multi-axis machine tools is set to take a great leap forward with the introduction of a new version of Renishaw’s Productivity+™ suite of PC-based probing software. A key improvement is a new multi-axis option that allows more creativity and efficiency in machining processes, which supported by Renishaw’s high accuracy Rengage™ 3D technology-based touch probes and new ultra-compact radio probes, gives process engineers and machinists a wide choice of flexible process solutions [21 kB] Machine tool probes and software
Renishaw's machine tool touch probes, laser probes and software can help reduce set-up times by up to 90% and improve your process control. Key products include touch-trigger probes, machine probes, laser toolsetters, contact toolsetters, tool recognition systems, machine tool probe software and probe styli that automate part setting, fixture setting, tool setting, broken tool detection, in-cycle gauging, part verification and on-machine verification. [21 kB]
OMP400 news release
The OMP400 from Renishaw is an innovative, ultracompact strain gauge probe for small machining centres, offering reduced set-up times, reduced scrap, reduced fixture costs, improved process control and high accuracy on-machine measurement. [525 kB] Information leaflet: Styli recommendations for strain gauge probes
Renishaw recommends that carbon fibre styli be used with the MP700, OMP400, RMP600 and MP250 strain gauge probes. Styli made from carbon fibre are preferred as their lower mass is best suited for use with the sensitive strain gauge mechanisms used within these probes. [458 kB] Boxtrees Precision case story
Boxtrees Precision Engineering use Renishaw probe systems on a Mazak Integrex in a clever fully-integrated ‘intelligent’ system that has achieved reduced unit costs, zero manual set-up times, unmanned machining, and consistent accuracy and cycle times [44 kB] Boxtrees Precision case story
Boxtrees Precision Engineering use Renishaw probe systems on a Mazak Integrex in a clever fully-integrated ‘intelligent’ system that has achieved reduced unit costs, zero manual set-up times, unmanned machining, and consistent accuracy and cycle times [199 kB] Renishaw's strain gauge probing technology - technical article
Since the invention of the touch trigger probe by Sir David McMurtry in 1972, probing has become a vital component of automated production processes on machine tools. This simple mechanism, employing a kinematic location to retain a stylus in a highly repeatable manner, has formed the basis of many Renishaw probes for [315 kB] MP3 - 360 optical transmission system data sheet
Generous probe stylus overtravel combined with the 360 optical signal transmission, makes the system very suitable for workpiece set-up and inspection on medium/large machining centres. H-2000-2210-11-E [202 kB]
OMP400- [100 x 100 pixels] [3 kB]
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OMP400 – yüksek hassasiyette dokunmalı probOMP400 küçük işleme merkezlerine uygun, yeni geliştirilmiş, çok kompakt bir ölçme probu olup, daha az ayar süreleri, daha az hurda oranı, daha az fikstür maliyeti, geliştirilmiş proses kontrol kabiliyeti ve tezgah üzerinde yüksek hassasiyette ölçme imkanlarını sağlamaktadır. - [180 x 117 pixels] [30 kB]
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Queen's Award winning OMP400Renishaw plc received a Queen’s Award for Enterprise 2009 in the Innovations category for the highly innovative OMP400 ultra compact high-accuracy touch probe - [140 x 156 pixels] [6 kB]
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OMP400 and impellersRenishaw OMP400 probe and impellers - [140 x 185 pixels] [4 kB]
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3D lobing plot for OMP400OMP400 features Rengage technology, delivering low pre-travel variation (lobing) in all probng directions. - [300 x 249 pixels] [12 kB]
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OMP400OMP400,strain gauge,RENGAGE - [180 x 270 pixels] [13 kB]
OMP400OMP400,strain gauge,RENGAGE - [540 x 810 pixels] [32 kB]
OMP400OMP400,strain gauge,RENGAGE - [1200 x 1800 pixels] [535 kB]
OMP400 close-upOMP400 ultra compacty high accuracy touch probe for small to medium sized machining centres - [1198 x 1198 pixels] [514 kB]
OMP400- [32 x 80 pixels] [15 kB]
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Steve Randerson explains 'intelligent' machining at Boxtrees Precision
Boxtrees Precision Engineering use Renishaw probe systems on a Mazak Integrex in a clever fully-integrated ‘intelligent’ system that has achieved reduced unit costs, zero manual set-up times, unmanned machining, and consistent accuracy and cycle times. [320 x 182 pixels] [9.04 MB], [480 x 274 pixels] [11.12 MB], [640 x 390 pixels] [41.37 MB] The basics of Trigger Logic
Trigger logic animation to work in-conjunction with the Quick Start Guide or Installation Guide. [720 x 404 pixels] [27.89 MB] OMP40 part set-up
Setting a component using an OMP40 inspection probe. The probing routine quickly establishes the location and orientation of the component and automatically updates the work offset. [352 x 288 pixels] [4.25 MB] OMP40 part inspection 1
An OMP40 inspection probe is used to measure features on a finished component, whilst it is still on the machine. A range of different features can be measured, including basic features like bores, bosses, webs and pockets. The resulting sizes of critical features can be used to update the diameter and le [352 x 288 pixels] [5.48 MB] OMP40 part set-up
A short part set-up sequence showing an OMP40 spindle probe measuring datum features on a component. The signal from the probe reaches the CNC via an infra-red optical transmission system. Trigger positions are used to compute feature size, location and orientation, from which are derived work offsets. These are upd [352 x 288 pixels] [1.21 MB] HPMA tool setting and OMP40 part setting
Setting tools and components using probes on CNC machines reduces setting times and automates manual processes - eliminating waste and variation [352 x 288 pixels] [4.63 MB] OMP40 part inspection 2
Inspecting features on a machined component. Measurement results can be used to adjust tool offsets, for SPC data logging, or to produce an inspection report. [352 x 288 pixels] [5.54 MB]
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