Rotary offset automatic printing machine for curved surfaces
**Features** ● Flexible automation and integration into lines By attaching a work supply mechanism, it allows for standalone automation or integration into lines and automatic machines, enabling high-speed, clear printing on curved surfaces of cylindrical parts using a rotary offset method. ● Rotary scraper type automatic ink supply system Our pride, the "ultra-high precision rotary scraper type automatic ink supply system," ensures precise ink adjustment through a double fine screw, guaranteeing one-touch, clear, high-quality marking. ● Stepless variable speed mechanism with one-touch lever Equipped with a zero-max type transmission motor, it allows for one-touch variable speed from 0 to 360 pieces per minute. ● High-precision rubber relief plates interchangeable one character at a time High-precision rubber relief plates and zinc alloy plates with uniform height, created through engraved molds, allow for interchangeable one character at a time due to precise cutting. ● Fast-drying, indelible Matthews ink Utilizing "Matthews ink," which boasts strong adhesion, solvent resistance, and heat resistance to all materials, compliant with U.S. MIL standards. ● Free on-site demonstrations available nationwide.
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basic information
We perform high-speed automatic offset (transfer) printing on curved surfaces of cylindrical parts made of various materials.
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【Main Specifications】 Printing Area: 30W x 150L mm Printing Speed: 0 to 360 pieces/min, Zero Max Variable Speed Drive Installation: Desktop or inline flexible Power Supply: 100VAC, 200W, motor with variable speed, 50/60 Hz Machine Dimensions: 500W x 300H x 345D mm Weight: 20kg
Company information
With 45 years of extensive experience in the marking field and the introduction of cutting-edge overseas technology, we contribute to diverse needs by providing "total marking solutions" based on advanced technology, addressing the increasingly challenging marking issues in the era of "short, small, light, and thin" through both hardware and software.