

Modular design, fast and precise positioning, three-axis, four-axis and five-axis switching clamping, 100% interchangeable compatibility, can improve clamping efficiency, reduce the cost of repeated production of fixtures, and achieve high-precision positioning production and processing.

Modular design, fast and precise positioning, three-axis, four-axis and five-axis switching clamping, 100% interchangeable compatibility, can improve clamping efficiency, reduce the cost of repeated production of fixtures, and achieve high-precision positioning production and processing.

Modular design, fast and precise positioning, three-axis, four-axis and five-axis switching clamping, 100% interchangeable compatibility, can improve clamping efficiency, reduce the cost of repeated production of fixtures, and achieve high-precision positioning production and processing.


Lighter in weight, with a larger internal space and more cost-effective. The characteristics of the Heavy-Duty Series system include thinner chain links (for all sizes) and thinner crossbars (for the HD45 and HD55 series). The Heavy-Duty Series cable chain is a representative solution with medium cost-effectiveness, specifically designed for short travel distances, suspended applications, and compact space station installations. The Heavy-Duty Series cable chain is usually the preferred choice.

Highly resistant to corrosion and pressure. In environments with hot chips, it can effectively prevent the ingress of external water, oil, and other substances into the conduit. It also protects against high-temperature metal splashes, extends the life of cables, and provides electromagnetic shielding.

The Reinforced Series Cable Chain features a snap-fit connection method, ensuring a compact and robust structure. All products offer a variety of bending radii and width options, as well as the ability for quick replacement. All products can be assembled into a semi-enclosed form according to the specific application requirements of customers. Suitable for various types of motion and travel distances, the Reinforced Series Cable Chain has a long service life under extremely high loads and harsh environmental conditions. It ensures smooth operation in various environmental and climatic conditions, with resistance to chemical erosion and wear. The outer sheath is non-stick.


The tool changing mechanism is hydraulic, which can grasp heavy and long tools, and can be used both vertically and horizontally, and can be customized. The motor is a famous brand in Taiwan and has passed the European Union 3C certification. The whole series of electronic switches adopt imported original parts with guaranteed quality.

The cylindrical cam cutting mechanism has the advantages of high cutting precision, low failure rate and high transmission efficiency. The structure is simple and the maintenance is more convenient. Separated tool arm, high concentricity, low noise, high strength, not easy to deform and easy to maintain. The motor is a famous brand in Taiwan and has passed the European Union 3C certification. The whole series of electronic switches adopt imported original parts with guaranteed quality.

The cylindrical cam cutting mechanism has the advantages of high cutting precision, low failure rate and high transmission efficiency. The structure is simple and the maintenance is more convenient. Separated tool arm, high concentricity, low noise, high strength, not easy to deform and easy to maintain. The motor is a famous brand in Taiwan and has passed the European Union 3C certification. The whole series of electronic switches adopt imported original parts with guaranteed quality.



Central elastomeric coupling Dampens vibrations and compensates for radial, angular, axial misalignments. Oil-resistant and electrical insulation Oil-resistant and electrical insulation Identical clockwise and anticlockwise rotational characteristics. Double clamping type Application:Servo motor、Step motor、Universal motor

Diaphragm couplings with keyway/shrink disc connections Zero backlash Excellent response & high torque capacity ldentical clockwise & anticlockwise rotational characteristics Stainless steel diaphragm compensates radial, angular, axial misalignments. Using in long span drive Light weight, good toughness, low noise and vibration

The TSC Ball-detent Torque Limiter delivers high-precision torque transmission with dynamic responsiveness and zero backlash. Precision Auto-Reset Ball-detent Torque Limiter with built-in micro-rollers for ±3% torque control accuracy. Ultra-fast response disengages drive components within 0.001-0.003s upon overload. Infinitely adjustable torque release setting via dial within specified range. Limit switches/sensors instantly output 24VDC signals upon overload to trigger alarms (e.g. buzzer, indicator) and cut off drive motors simultaneously. Wide-range torque adjustment: 5-1500Nm Exceptional longevity withstands unlimited overload disengagement cycles.


JH5, a domestic horizontal machining center with double exchange worktables, continues the consistent core advantages of Muye equipment, deeply integrates the three characteristics of "high rigidity, high stability and high durability" into the product gene, provides core support for enterprises in the market competition of multi-varieties and fast delivery, and helps parts manufacturing enterprises to cope with the production challenges of rapid changes in the market. JH5 is suitable for a variety of processing scenarios, which can not only be suitable for mass production scenarios, meet the large-scale processing needs of parts suppliers, but also for complex parts processing tasks in the field of general engineering machinery processing.

Makino DA500 machine tool is a high-performance 5-axis vertical machining center, designed to improve the productivity and accuracy of parts processing, which can achieve agile feed axis movement and efficient processing. Processing advantages 1 Efficient machining: Makino DA500 can significantly reduce various non-cutting time, including spindle acceleration, positioning, tool change, tool breakage detection and pallet change time, thus improving the overall machining efficiency. 2. High-precision machining: By using advanced control technology and high-precision sensors, the machine tool can achieve micron-level machining accuracy and meet the machining requirements of high-precision parts. 3 Flexibility: The machine tool is equipped with a wealth of optional specifications and equipment, which can be customized according to the specific needs of customers, such as pallet magazine specifications, turntable functions, etc., to enhance the flexibility and adaptability of processing. Field of application Makino DA500 machine tool is widely used in semiconductor equipment, medical, aerospace, automotive parts and other high-precision, high-efficiency processing fields. Its excellent processing performance and flexibility enable the machine to meet the processing needs of complex parts and improve production efficiency and product quality. In addition, the machine tool is also suitable for occasions requiring rapid production change and processing of various workpiece sizes, which is helpful for enterprises to improve overall production efficiency and competitiveness.

EDAF2i ULTRA is the latest high-precision CNC EDM machine tool launched by Makino Machine Tool. It uses Makino's newly developed micro-EDM control circuit and marble worktable to release powerful machining performance and improve the quality and efficiency of EDM surface to a new height. Processing advantages: Vdi grain surface uniformity, connector corner clearing and melting, electrode loss control, processing efficiency, etc. Applications: ultra-precision connector industry, medical industry, IC packaging industry and other industries with higher requirements for EDM


The HWR Chuck can hold products of any shape, such as round, square, rectangular, special-shaped and thin-walled parts, and can automatically find the center of the workpiece; our Chuck is designed to always hold the center, even if the claws are worn in the process, or the thickness of the workpiece is different, the claws can always find the center of the workpiece. This is a special function and construction patent for this Chuck. And that workpiece can be held safely, stably and reliably.

The vise reliably grips the workpiece in a snap-fit manner at a height of only 3 mm for five-sided machining. The jaw can be turned over in a portable manner to increase the clamping range. A middle claw can also be added to realize double-station clamping. But also can clamp a workpiece with a complex shape by use that special claw.

German HWR zero point positioning is a new type of zero point product, which is full of philosophical zero point, making clamping more convenient, flexible and safe. It can be combined with HWR Chuck and vice to achieve the effect of modular application.


This five-axis machining center has the performance characteristics of high speed, high precision and high reliability. The equipment is installed on the five-axis platform and has the function of five-axis linkage processing with the tool tip, which can clamp complex special-shaped products at one time and process them on multiple surfaces with high precision and efficiency.

The spindle speed is 4000 rpm, the maximum processing diameter is 500 mm, the Y-axis stroke is 100 mm, the maximum processing length is 450 mm, and it is equipped with Taiwan 12-station power turret, 8-inch hydraulic Chuck and tailstock.

The integrated high-density resin sand integrated casting bed ensures high rigidity, not easy to deform, stable, durable and easy to use. Equipped with power turret, C-axis, Y-axis and other complete composite functions, the machine tool can mill, drill, tap and clamp multi-surface processing in one machine, and the processing capacity is equivalent to two CNC lathes and milling machines. The processing time and the operation manpower are greatly saved, and the error caused by the movement of the workpiece between the machines is avoided.


Applied to CNC machine tools to detect tool wear, online automatic compensation to meet the needs of automated production, improve processing efficiency and reduce the generation of defective products.

Accurately prevent the occurrence of poor reproduction of CNC machine prices, prevent the production of defective products in the manufacturing process.

On-line detection of product processing size to achieve on-line compensation to prevent the generation of defective products, greatly improving the processing efficiency.


Using the radius measurement method with the workpiece rotating, the system can measure and analyze functions such as cylindricity, roundness, straightness, coaxiality, concentricity, face run-out, total face run-out, perpendicularity, parallelism, and flatness. It can also analyze surface waviness, spectral analysis, wave height analysis, adjacent disc run-out, and inter-disc step differences.

Translation: This instrument employs the Cartesian coordinate measurement method with a stylus contact approach. It can measure the following dimensions, angles, tolerances, and generate auxiliary elements, as well as perform roughness and waviness analysis: Dimensions: Horizontal distance Vertical distance Linear distance Radius Diameter Angles: Horizontal angle Vertical angle Included angle Positional Tolerances: Parallelism Perpendicularity Form Tolerances: Straightness Flatness Circular profile Auxiliary Generation: Auxiliary points Auxiliary lines Auxiliary circles Roughness Analysis: Arithmetic mean height (Ra) Root mean square height (Rq) Maximum height of the profile (Rz) Peak height (Rp) Total height of the profile (Rt) Skewness (Rsk) Mean spacing of the profile elements (Rsm) Core roughness depth (Rc) Rz (DIN standard) R3z Rz (JIS standard) Maximum peak height (Rpmax) Maximum profile peak height (Rpm) Kurtosis (Rku) Root mean square height of the profile (Rdq/RΔq) Maximum profile valley depth (RδC) Material ratio at a specified section (Mr1, Mr2) Core roughness depth (Rpk) Valley depth of the core roughness (Rvk) Core roughness depth (Rk) Reduced peak height (Rdc) Amplitude parameters (A1, A2) Maximum profile height (Rx) Maximum profile height (AR) Core roughness depth (Rpc) Maximum roughness depth (Rmax) Rz (ISO standard) Profile height (4um) Maximum profile height (Ry) Waviness Analysis: Total waviness height (Wt) Arithmetic mean waviness height (Wa) Maximum waviness peak height (Wp) Maximum waviness valley depth (Wv) Root mean square waviness height (Wq) Core waviness depth (Wc) Kurtosis (Wku) Skewness (Wsk) Maximum waviness height (W) Maximum waviness height (Wx) Maximum waviness height (Wz) Mean spacing of the waviness profile elements (Wsm) Reduced peak height (Wdc) Total waviness height (Wte) Material ratio at a specified section (Wmr) Amplitude parameter (Aw) Material ratio curve (C(Wmr)) Material ratio at a specified section (Wmr(C)) Root mean square waviness height (Wdq/WΔq) Primary Profile Analysis: Total profile height (Pt) Arithmetic mean profile height (Pa) Maximum profile peak height (Pp) Maximum profile valley depth (Pv) Root mean square profile height (Pq) Core profile depth (Pc) Kurtosis (Pku) Skewness (Psk) Root mean square profile height (Pdq/PΔq) Mean spacing of the profile elements (Psm) Reduced peak height (Pdc) Material ratio at a specified section (Pmr(c)) Maximum profile height (Pz) Material ratio at a specified section (Pmr) Material ratio curve (C(pmr))