On September 22nd at EMO, Weida Precision Machinery and China’s Machine Tool Industry Formed a Delegation to Expand Globally!

Against the backdrop of global economic integration, China’s manufacturing industry, known as the "world’s factory," is undergoing a historic transformation from a "manufacturing giant" to a "manufacturing powerhouse." In recent years, as global supply chains rapidly restructure and digitalization and intelligent technologies surge, Chinese manufacturing enterprises are not only facing challenges from the reshaping of the global market landscape but also encountering unprecedented strategic opportunities for transformation, upgrading, brand globalization, and participation in international competition.

Shandong Weida Precision Intelligent Machinery Co., Ltd. (hereinafter referred to as Weida Precision ) is a national high-tech enterprise and a national-level "Little Giant" enterprise specializing in the manufacturing of high-end CNC machine tools. It holds 11 invention patents and 34 utility model patents. Its main products include various types of bridge-type five-axis Gantry Machining Centers, gantry-type, vertical, and horizontal machining centers, CNC milling machines, and other series.

Revolutionizing the Machining Industry: Join Us at EMO 2025

The EMO Hannover 2025, the World's Premier Metalworking Exhibition, will be held from September 22 to 26, 2025. Concurrently, the "EMO China Day—Press Conference for Chinese Pioneering Enterprises Going Global & Launch Ceremony for the Overseas Service Center for SME Excellence in Manufacturing," co-organized by Vogel Communications Group, VDW, and JVMA of MM《Modern Manufacturing》, will take place from 15:00 to 18:00 local time on September 22 in Room 13/14 of the EMO Exhibition Center Conference Hall.

On this occasion, Weida Precision will showcase its representative products, including the WMC-II 28×40 Moving Beam Fixed Column Machining Center and the DMC800u Five-Axis Machining Center.

EMO Exhibition Product Introduction

WMC-Ⅱ 28×40 Moving Beam Fixed Column Machining Center

The WMC-II 28×40 Moving Beam Fixed Column Machining Center embodies Weida Precision dedication to excellence. It boasts outstanding rigidity, superior vibration damping, a wide processing range, and exceptional stability. Capable of integrating milling, boring, drilling, and other functions, it can also be equipped with various accessory milling heads supporting both manual and automatic head-changing functions, making it well-suited for complex machining tasks.

The machining center features a scientifically optimized structural layout. The X-axis is equipped with heavy-duty linear guides, while the Y, Z, and W axes employ high-rigidity hard rails. The 1-meter square ram is ground on eight sides and hand-scraped to ensure long-term precision and durability. With a spindle power of 22/26 kW and a maximum speed of 6,000 rpm, it delivers robust cutting performance. The combination of a double-spiral chip conveyor and a transverse chain-type chip conveyor enables efficient and convenient chip removal. Its semi-enclosed protection design balances safety with operational accessibility. Widely applicable across industries such as new energy, automotive, and shipbuilding, this machining center provides strong support for high-efficiency and large-batch production.

Empowering High-End Intelligent Manufacturing with Exceptional Performance

On this occasion, Weida Precision has entered its innovative product, the DMC800u Vertical Five-Axis Machining Center, into the selection process for the "2025 Vogel Pioneering in Global Expansion Award."

The DMC800u Vertical Five-Axis Machining Center is a highly advanced and powerful CNC machine tool. Built upon the foundation of a bridge-type gantry machining center, it incorporates two additional rotary axes, allowing the workpiece-carrying table to perform rotational movements. This enables the cutting tool to approach the workpiece from virtually any angle. This structural design—where the spindle remains vertical while the workpiece table rotates—is particularly suited for machining medium to large-sized complex 3D surfaces, cavities, and irregular parts. It is widely used in high-precision industries such as aerospace, precision mold making, medical devices, energy equipment, and automotive manufacturing.

Key Technological Innovations:

The DMC800u features a highly rigid, monoblock cast bed and column structure that enhances damping characteristics, effectively absorbing and dissipating cutting vibrations and motion impacts. Combined with topological optimization design, it forms an optimal force flow path, distributing cutting forces and motion inertia more evenly and efficiently throughout the machine.

The inverted triangular and thermally symmetric bridge-type gantry saddle shortens the distance between the spindle center and the crossbeam support guide surfaces, improving the overall structural rigidity. This design places the main load-bearing area at the base of the triangle, below the mechanical neutral layer. Compared to a rectangular crossbeam, its bending stiffness is increased by 30%–50%.

An octagonal frame combined with a three-support gantry ram mechanism raises the first-order resonance frequency to >150 Hz, preventing high-speed cutting chatter and enhancing the ram’s dynamic and static rigidity.

An innovative electromagnetic direct-drive and mechanically parallel design drives the crossbeam’s movement along the columns, achieving non-contact motion that completely eliminates backlash and Coulomb friction. A centrally installed ultra-high-resolution grating scale (≤1 nm) enables full closed-loop position control with nanometer-level motion resolution.

Using FEA, a mapping relationship between the machine’s temperature field and deformation field is established. A globally configured intelligent temperature compensation function employs closed-loop control based on "sensing–modeling–prediction–compensation" to suppress geometrically induced errors caused by temperature variations to within micrometers.

A closed-loop architecture based on an inverse derivation optimization strategy collects data under actual cutting loads and temperature fields, capturing real-world operational errors. This enables the compensation model to evolve from a "static chart" to a "dynamic living system," enhancing spatial error compensation accuracy and improving machining precision.

Application Value:

By integrating technology empowerment, ecosystem collaboration, and financial innovation, Weida has developed an actionable promotion and implementation framework.

Three-Tier Market Penetration Strategy:

Top-Tier Breakthrough: Establish industry benchmarks in aerospace and defense by supplying equipment to key supply chains, driving a 300% increase in orders from private enterprises.
Mid-Tier Collaboration: Partner with leading new energy companies to develop specialized process packages for battery tray production and build a comprehensive five-axis machining database.
Grassroots Penetration: Introduce an SME-oriented sharing model by establishing a regional shared manufacturing center at the Houjie Five-Axis Shared Factory in Dongguan.

Four-Dimensional Ecosystem Development System:

Technology Ecosystem: Create a seamless manufacturing closed loop by integrating CAM software, in-machine inspection, tool management systems, and other critical production links.
Talent Ecosystem: Overcome operational barriers through an AR virtual training platform and structured industry-academia partnerships.
Service Ecosystem: Provide full life-cycle support with intelligent maintenance systems and a spare parts bank.
Financial Ecosystem: Reduce adoption barriers through innovative solutions like capacity-based leasing and equipment equity partnerships to promote the DMC800u.

Weida Precision Machinery will continue to enhance the DMC800u Vertical Five-Axis Machining Center's cost-effectiveness, expand into the SME market, deepen expertise in vertical industries such as photovoltaics, and promote five-axis precision milling solutions for silicon ingot mold manufacturing.