If you’re looking for a probe machine, you’ve come to the right place. In this article, we’ll discuss the features of Renishaw’s OMP40 spindle probe machine, MicroCraft’s EMMA probe machine, and Pioneer’s BLUM optical probe system. Listed below are the pros and cons of each of these machines. If you’re not sure which one is right for you, check out our buying guide!
The OMP40 spindle probe machine from Renishaw brings in-cycle gaging and automated part set-up to small and high-speed machining centers. Using probing for inspection
will significantly reduce set-up time, fixtures costs and improve process control. It features a 40 mm diameter and 50 mm length. Its patented optical signal transmission system makes it easy to install and operate. The new machine continues Renishaw’s extensive line of machining center probes, measuring a range from 0.1 mm to ten mm.
The RLP40 features a compact design and secure frequency hopping spread spectrum communications. It can operate in a variety of environments and uses a globally recognised 2.4 GHz frequency band. Its various activation methods include adjustable trigger force, a programmable trigger, and a flexible spring force. The LP2H probe features a longer stylus and higher spring force for greater resistance to machine vibration.
The MicroCraft EMMA probe machine offers a high level of versatility and performance. It has an industry-leading speed of ten thousand test points per minute. In addition to its fast speed, the EMMA allows quick tip changes and pressure knob adjustment. The machine features eight probes for high-throughput testing. Here are some key features of MicroCraft’s EMMA probe machine. Read on to learn more.
Featuring a type-6 cartridge design and a touch-down sensor, MicroCraft’s EMMA probe machine provides the lowest witness marks in the industry. This model is capable of testing Flex-circuits and highly warped PCBs. It can also test cavities and different heights of surfaces. And for added productivity, MicroCraft’s EMMA probe machine comes with jetprint, which provides fast and easy double-sided printing.
The BLUM probe system is a powerful tool in CNC machining centres. It provides precise, fast tactile tool setting and breakage detection. The advanced optical components and sophisticated electronics used in the BLUM probe system ensure precise measurement results and minimize downtime. BLUM offers several types of probe systems for CNC machining centres. Each is equipped with its own advantages and benefits. These machines are ideal for both small and large-scale manufacturing operations.
This probe system was made up of the probe itself and the supporting equipment that remained attached to the orbiting spacecraft. The latter includes electronics to track the probe’s position and descent, as well as processing and delivering data to the orbiter and down to Earth. Italian space agency provided all of these systems. Pioneer also developed a radio probe system. BLUM probe system features the same technology as the other Pioneer probe systems.
Renishaw’s OPS-30 optical probe system
Renishaw’s OPS-30 optical transmission probe system comprises a touch-trigger OP510 optical infrared probe and an OSI-20 receiver. The probe transmits an optical signal to the receiver, which measures the workpiece. This system is primarily used in drilling and machine center specifications, but it can also be used in smaller machines where automatic tool changes are required. Its versatile features include a universal adjustment feature and touch-trigger capability.
The OPS-30’s unique design enables manufacturers to save time by reducing set-up time by up to 90 percent. The system offers several features to make set-up simpler, including automatic offset updates, tool-set-up, and broken tool detection. In addition, it offers a variety of other benefits, including process control and cost savings. The OPS-30 provides a high level of precision for a wide range of applications.
Renishaw’s WRSP60 probe system
Marposs announces the availability of its WRSP60 high-accuracy scanning probe. The system checks part profile in real-time, eliminating the need to send parts to a measurement lab for analysis. The system also eliminates the need to reload parts, enhancing process efficiency and cycle time. The WRSP60 has an easy-to-use touchscreen interface that displays information such as the deviation between the actual part profile and a linear trajectory.
The WRSP60 uses 2.4 GHz radio transmission to prevent interference. Its DSSS
security system ensures maximum security. Its 15-meter operating range allows it to monitor multiple parts at once. It is ideal for manufacturing and inspection operations that require high-precision measurements. The system has an optional integrated camera to monitor and analyze part quality. The WRSP60 system can also be used to detect part quality and compensate misalignment. The probes also allow for surface deformation checks, providing compensation information to the cutting program.
The RMI-QE interface allows for easy setup and communication with the system. The RMI-QE interface meets FCC guidelines and is future-proofed to support the next-generation of Renishaw sensors and smart devices. Its wireless design utilises industry-proven 2.4 GHz frequency-hopping spread spectrum radio transmission technology for interference-free signal transmission. The system is equipped with an RMI interface/receiver, and features an M-code or spinning switch to trigger probe activation.