PART NO.: CK-TO134105-TPDT CK-TO134105-TPDT IP65 316L Stainless Steel Mobile Industrial Touchpad with 3 Mouse Buttons The CK-TO134105-TPDT is a high-performance mobile desktop rugged touchpad meticulously crafted for extreme corrosive and harsh industrial environments. Adopting premium 316L brushed stainless steel and certified with authoritative IP65 waterproof and vandal-resistant rating, this fully sealed industrial touchpad delivers exceptional comprehensive resistance against salt mist, chemical corrosion spray, industrial oil, disinfectants, dust, dirt, splashing water, ice and low temperatures. Featuring a one-piece internal rubber sealing structure, high-sensitivity mutual capacitance sensing technology and portable desktop movable design, it serves as a zero-maintenance, long-lifespan and cost-effective cursor control solution for marine consoles, mining equipment, military and industrial automation systems. Different from traditional fixed embedded input devices, this touchpad adopts a unique movable desktop design, offering flexible and free placement for diverse operation scenarios without complicated installation procedures. Built with an integral full rubber internal sealing structure, it achieves complete internal isolation, effectively blocking water, dust and fine particle intrusion. Supporting 100% full humidity resistance, it maintains stable and consistent working performance in long-term humid, wet, saline and corrosive harsh environments, avoiding malfunction, sensitivity degradation or premature aging caused by severe environmental erosion. Equipped with professional mutual capacitance sensing technology, the industrial touchpad features a high 40 counts/mm X/Y positioning resolution and a maximum tracking speed of 1016mm/sec, ensuring ultra-smooth, precise and jitter-free cursor control. Boasting an ultra-long service life of over 10 million sliding cycles, it maintains stable and sensitive operation after years of intensive heavy-duty use. Integrated with a practical 3-button mouse module including left-click, right-click and scroll functions, it realizes full-featured independent cursor operation without extra peripheral devices, greatly simplifying on-site equipment layout and improving operational efficiency. Matching high-quality carbon connecting key switches, the mouse buttons adopt an ergonomic design with 2.0mm standard key travel and stable 0.6N±0.1N actuation force, delivering uniform and crisp tactile feedback for fatigue-free long-duration operation. All functional characters and letters are processed via advanced laser etching and special ink-filling technology, effectively resisting long-term friction and abrasion to prevent lettering rub-off, ensuring lifelong clear identification. The built-in industrial PCB further enhances overall operational stability and anti-interference capability for complex industrial scenarios.

Factory: No.68, Jinniu Road, Economic Development Zone, Taojiang, Yiyang, Hunan, P.R.China. Zip Code: 413400 Office: Building No.2, Science and Technology New Park, East No.6 Road, Xingsha Economic Development District, Changsha, Hunan, P.R.China. Zip Code: 410126 Engineered with superior environmental adaptability, the CK-TO134105-TPDT operates stably in a wide temperature range of -20°C to +60°C, with safe long-term storage temperature ranging from -30°C to +70°C. It has passed rigorous IEC 60512-6 authoritative reliability tests, including 96-hour salt mist resistance, 21-day damp heat endurance...

Durable Carbon Key Mechanism: 2.0mm standard key travel & 0.6N stable actuation force deliver crisp tactile feedback and low-fatigue long-term operation -Permanent Wear-Proof Laser Markings: Professional laser etching and ink-filling technology resist long-term abrasion, maintaining lifelong clear character display -Extreme Harsh Environment Resistance: Verified by salt mist, damp heat and dry heat tests, stable in corrosive, low-temperature and high-humidity complex scenarios -Ultra-Low Power & High Reliability: Low power consumption design with high MTBF and low failure rate, realizing long-term...