

This product is a precision mechanical assembly for industrial camera lenses, integrating lens barrel, mounting flange and motorized drive to achieve accurate lens positioning and autofocus/zoom, suitable for machine vision and inspection systems.

This product is a precision lens barrel component for optical lens assemblies, providing accurate mounting and support for multiple lens elements to ensure coaxial alignment and stable imaging. It is manufactured from high‑precision machined metal materials and can be customized to match various industrial camera, projection or machine vision interfaces

This product is a flange‑mounted precision lens barrel for optical lens assemblies, providing rigid connection between the lens and the system frame or optical engine, and ensuring accurate coaxial alignment of lens elements. It is integrally machined from high‑strength aluminum alloy with high dimensional accuracy and rigidity, making it suitable for industrial cameras, projection optics and precision inspection equipment.


CNC450 MIRROR EDM MACHINE

High precision, high finish, high efficiency and low loss CNC multi-axis linkage bullhead mirror spark machine

High precision high finish high efficiency low loss automatic level control automatic lift oil tank CNC multi-axis linkage mirror EDM machine


Thermoelectric separation t copper substrate: the circuit part and the thermal layer part of the substrate are on different circuit layers, and the thermal layer part is directly in contact with the heat dissipation part of the lamp bead to achieve the best heat dissipation and heat conduction (zero thermal resistance), generally copper substrate. Thermoelectric separation of copper substrate means that a production process of copper substrate is a thermoelectric separation process, in which the circuit part and the thermal layer part of the substrate are on different circuit layers, and the thermal layer part is directly in contact with the heat dissipation part of the lamp bead to achieve the best heat dissipation and heat conduction (zero thermal resistance).

Double-sided aluminum substrate is a kind of composite material which is made of aluminum metal as the base material and double-sided copper foil and aluminum base layer laminated by epoxy resin adhesive. Its core structure is composed of a circuit layer (copper foil), a thermal insulation layer (epoxy resin substrate) and an aluminum base layer. The double-sided circuit connection is realized through the via-hole technology, and the double-sided interconnection is realized through the laser drilling and electroless copper deposition process. The diameter of the via-hole is less than or equal to 0.3mm [1]. The fabrication process consists of drilling, anodizing the aluminum substrate to form an insulating oxide film with a thickness greater than 10 μM, and press molding with a lamination process [2]. The thermal resistance of the thermal insulating layer of the material directly affects the heat dissipation efficiency of the device, and the typical parameters include a thermal conductivity of ≥ 1.0 W/m · K and a withstand voltage strength of 1000-1500 V. Compared with the traditional FR-4 material, the material can improve the power load carrying capacity by more than 60%. In 2024, the utility model patent proposed to add a heat conduction strip and a frame heat dissipation device to build a three-dimensional heat dissipation path to further improve the heat conduction efficiency. In 2021, the technical literature pointed out that the structure could reduce the thermal resistance to 1.2 ℃ · in ²/W. The test showed that the design could reduce the thermal resistance by 18%. Under the working condition of 30 W/m · K thermal conductivity, The junction temperature of the chip drops by 12 ℃ [1]. It is mainly used in high-power LED lighting modules, new energy automotive power modules and other fields. By 2025, the actual measurement of the product shows that the minimum line width spacing can reach 0.5mm, which meets the needs of complex circuit design.


K520i-5Xs five-axis machining center is developed to meet the needs of multi-surface machining of complex parts and realize five-axis linkage machining. It is mainly suitable for five-axis processing fields such as blades, turbines, complex small precision moulds, medical components, aerospace and aviation.

K-540A high-speed vertical machining center adopts natural marble gantry structure bed. After long-term natural aging, the structure is uniform and the linear expansion coefficient is small; It is mainly suitable for high precision mould, copper electrode processing and various occasions with high precision requirements.

The S800i-5X uses a one-piece mineral casting base, which has good shock resistance and prevents vibration interference from affecting the processing. A moving beam type cross beam is adopted, and the cross beam adopts a 45-degree structure, so that the center of gravity is moved backward, and the structure is more stable. Equipped with five swing axes, the swing axis and the rotation axis can rotate along the X, Y and Z axes during machining. Full closed-loop control, all axes are equipped with high-resolution grating ruler; Interpolation control is carried out by using Rhenium Sodium Gram U5E control system. It is suitable for five-axis processing fields such as complex precision moulds, automotive parts, medical parts, aerospace and so on.





