OpitX Intelligent Imaging System

-Software-defined optical system, with built-in 2 ³ ² lighting modes, fully adapted to different types of defect lighting requirements -High-speed imaging: the brightness is 100 times higher than that of traditional light source, supporting 50 lighting modes per second, and the flying speed of 1.0 M/S -Output 2D/2.5D high resolution defect imaging

CorteX Deep Learning & AI Inference System

Based on deep learning and image segmentation algorithm, defect features are identified and located in real time, and OK/NG judgment results are output in real time. -Zero foundation, easy to use Quickly create models through an intuitive UI interface -Fast training model The model can be trained with only 5 samples for each defect type -Adjustable threshold parameters Accurate detection of pixel-level defect and adjustment of threshold parameter can be realized -Scale across plant level It can realize the large-scale deployment of AI model in the global production line.

FleX-Gen

FleX-Gen is an image generation platform based on generative AI, which can simulate the generation of various rare and difficult-to-collect defect images to enrich the training data set, accelerate the iteration of model development, and continuously improve the accuracy and robustness of the detection model: -Defect generation: Only 3 defect samples are needed to create a high-precision AI model -Applied in all walks of life, it can achieve the effect of reducing the missed detection rate by 9 times. -Support for quick model change: in the high hybrid production mode, the model can be quickly changed to adapt to product model changes. -3x faster system deployment and full integration in less than a week -Save up to 30% on testing related costs in the first quarter -Deeply integrated with CorteX and deployable as a standalone product

High-Precision Vertical Paper Band Filter System

This device consists of a liquid tank, a sludge collection tank, filter paper, a reducer, a transmission mechanism, a signal mechanism, and a supply pump, among other components. During operation, it uses filter paper to separate fine chips and impurities from the coolant. When contaminated liquid enters the filtration chamber through the inlet and passes through the filter paper, fine chips and impurities are adsorbed onto the surface of the paper, gradually accumulating until the paper becomes clogged. At this point, the contaminated liquid level rises, causing a float to lift and triggering the signal mechanism. The reducer then drives the mesh chain to move, discharging the impurities and dirty filter paper into the sludge collection tank, thereby achieving automatic filter paper replacement. Once the filter paper is renewed, the contaminated liquid level drops, the reducer stops operating, and the device enters the next work cycle, with all operations controlled automatically. The filtered clean liquid is transported to the main machine by the supply pump. This device extends the service life of the supply pump and coolant, improves the surface precision of machined parts, occupies a small footprint, and achieves a filtration accuracy of 20–30 μm.

Vacuum Circulating Filter Device

The vacuum circulating belt filtration unit is primarily used in high-precision grinding fields such as gear grinding machines, CNC thread grinding machines, and honing machines, delivering excellent performance and economic benefits. This device achieves breakthrough innovations in high-flow, high-precision filtration within limited space, synchronized operation under unified CNC machine control, and more. It utilizes a double-layer woven filter belt as the filtration medium, employs negative pressure suction to separate solids from liquids, and dries the filter cake under vacuum to reduce cutting fluid loss. With a filtration flow rate of 3 m³/min per square meter—approximately 100 times that of traditional filtration methods—the filter cake exhibits a moisture content below 5%, and filtration accuracy reaches 20–30 μm. The system offers advantages such as high-flow filtration, no consumables, high precision, compact footprint, and ease of on-site installation. Its technology meets international advanced standards and possesses independent intellectual property rights, realizing efficient autonomy and localization of suction circulating belt filtration units. This promotes the recycling of machine tool cutting fluid resources and plays a significant role in energy conservation, emission reduction, and resource saving in the machining industry.

Self-Cleaning Chip Conveyor and Filter Device

This chip conveyor and filtration device is suitable for various special-purpose machines and machining centers that require high precision in coolant filtration. It is used for the separation of short chips such as aluminum chips and cast iron chips, as well as the filtration of coolant. The device mainly consists of several key modules: a scraper/magnetic scraper conveyor, a drum filter, an oil-water separator, a liquid level detection unit, an electrical control system, a coolant tank, and a fine filter. Its features include automatic drum cleaning, continuous filtration, high filtration accuracy, maintenance-free operation, and no consumable parts, fully meeting the filtration requirements for chip flushing, spindle internal cooling, and tool cooling in machining centers. Since both special-purpose machines and machining centers have strict requirements regarding chip removal volume, coolant filtration accuracy, as well as coolant pump flow rate and pressure, users are advised to provide relevant technical parameters when placing an order to ensure proper design adaptation.

Punching and cutting compound machine

Product advantages: (1) The material utilization rate reaches 90% ~ 95%, which greatly reduces the waste of plates. And (2) that proces flow is simplified, and the proces of punching, forming, contour cutting, tap and the like can be completed by programming once. And (3) that noise pollution is small, the Stam forming and lase cutting processes are reasonably distributed, and the proces technology is optimized. And (4) that flexible proces capacity of the equipment is improved, and the purchase cost of the mould is reduce. (5) It is more convenient to integrate with automatic equipment such as three-dimensional warehouse, automatic loading and unloading, automatic sorting device, etc.

Intelligent flexible bending center

Intelligent flexible bending center is a high-tech product developed and produced for the sheet metal industry to improve production efficiency, reduce labor intensity, reduce labor costs and enhance corporate image. It has been widely used in file cabinets, electrical cabinets, doors, tool cabinets, kitchen utensils, ventilation, air conditioning, purification, education, laboratory equipment and other industries. Applicable to a wide range of materials, mainly stainless steel, carbon steel, copper, aluminum and so on.

Pure electric servo numerical control bending machine

▶ New industrial design with simple style, beautiful and elegant appearance ▶ Better parameter ratio, better core configuration, stable performance and easy operation High rigidity frame, worktable mechanical deflection compensation automatic control, to achieve precision bending processing ▶ Advanced assembly technology, more rigorous standards, stable quality control of the whole process

Aluminum alloy forgings

Aluminum alloy products made by numerical control processing after forging

CNC aluminum alloy parts customization

Aluminum alloy products processed by CNC or turn-milling to ensure that the product size meets the precision requirements.

Encoder

It is equipped with ASIC phased array chip, super-parallel optical element and direct reading code disc signal. High reliability, long service life, strong anti-interference ability; conical shaft design ensures firm connection without slipping. Equipped with six-channel signal outputs (A, B, Z and U, V, W), compatible with standard line driver (26LS31) RS422, capable of providing 12 output signals. Compatible TTL circuit output interface with optional space-saving wiring (must be specified when ordering). Adapt to needs. Shaft holes of φ6 and φ6.35 are also available.

Magnetic PCBA-MS7681 Series

The MS7681 series is a six-channel magnetic encoder solution designed for stepper motors, DC motors, etc. Outer diameter 43, suitable for 80 motors, with the company's special magnet, typical model MS7681R can output 4096 pulse A, B, Z, U, V, W signals, can be used for CNC machine tools, automation equipment.

Photoelectric encoder module

The RS91/RS90 series are high performance, optical triple channel incremental encoder modules. A precise grating phase matrix receiving chip and a light source are integrated in the module, and the module can sense the position information and the speed information of the rotation by cooperating with a code disc. [Features] -Opto-electronic matrix technology -Operating temperature -40 ° C-+ 100 ° C -Multiple CPR options -Multiple linear LPI options -C-type construction for ease of use -Output TTL compatible -5V power supply

Microwave photonic devices and products

Applied to medical PET/CT/MRI optical RF transmission and high-precision time-frequency, SERDES phase-stabilized transmission, optical fiber slip ring

Planetary Gearbox

Hollow rotating platform