Olympica air-jet loom
The Olympica air-jet loom is a new type of air-jet loom newly launched by Picanol (Suzhou) Fabric Machinery Co., Ltd. and suitable for China’s national conditions. The core technology of the Olympica air-jet loom all comes from Picanol’s current advanced air-jet loom OMNIpius: fully electronic control, super main motor transmission, and microcomputer-monitored weft insertion system. After some simplifications and improvements, Olympica has completed the investment intention of maximizing customer investment returns. Suitable for weaving varieties of down-proof fabrics, elastic fabrics, cotton and brocade interwoven, corduroy, glass fiber and other fabrics. Weft insertion system Olympica uses advanced and high-quality weft insertion system. The good cooperation of the weft feeder, main nozzle, auxiliary nozzle and reed ensures the weft insertion rate with extremely low failure rate. The microcomputer monitors the entire weft insertion system to ensure synchronization between different components, thus achieving low cost and high output. The Olympica air-jet loom is a new type of air-jet loom newly launched by Picanol (Suzhou) Fabric Machinery Co., Ltd. and suitable for China’s national conditions. The core technology of Olympica air-jet loom all comes from Picanol’s current advanced air-jet loom OMNIpius: fully electronic control, super main motor transmission, and microcomputer-monitored weft insertion system. After some simplifications and improvements, Olympica has completed the investment intention of maximizing customer investment returns. Suitable for weaving varieties of down-proof fabrics, elastic fabrics, cotton and brocade interwoven, corduroy, glass fiber and other fabrics. Weft insertion system Olympica uses advanced and high-quality weft insertion system. The good cooperation of the weft feeder, main nozzle, auxiliary nozzle and reed ensures the weft insertion rate with extremely low failure rate. The microcomputer monitors the entire weft insertion system to ensure synchronization between different components, thus achieving low cost and high output. Automatic correction of weft insertion parameters. Due to the fully electronic keyboard setting function, when the speed of the super motor changes, the microcomputer can immediately recalculate and correct all related weft insertion parameters, and changes in these parameters can be displayed on the display display. Electronic let-off (ELO) and electronic take-up (ETU) Electronic let-off and electronic take-up are standard configurations of Olympic looms. Precise settings can easily adjust the weft density. Electronic take-up can also weave fabrics with varying weft density. Transmission mechanism Olympica adopts brand-new transmission technology. The super main motor can directly drive the loom without clutches and brake discs. Short transmission lines improve transmission reliability and accuracy. At the same time, Olmpica also adopts electronic let-off and electronic take-up. The comprehensive application of these technologies and devices has greatly improved labor productivity, reduced weaving costs, and made fabrics of better quality. Super motor Due to the stepless speed change of the super motor, each loom can choose the best speed to operate according to different spinning yarn specifications, different heald frame pages and different organizational structures, so as to maximize the output of a single machine. The debugger of the loom sets the speed through the keyboard. These settings can be copied to other looms through the setting card, greatly saving debugging time. The speed adjustment range of the super motor is very wide, which is particularly beneficial for trial weaving of new products. Compared with traditional speed changes that require replacing a belt pulley or adding an inverter, Olympic can complete the speed change operation only on the keyboard. Super motors make it particularly easy to set or change the vehicle speed to ensure the best product quality. In addition, the fully electronically controlled super motor has extremely powerful starting torque and stable output, which is a guarantee to prevent rungs and improve cloth quality. The super motor directly drives the loom, and the motor speed adjustment is fully electronically controlled. Super motors are more energy-saving than traditional mechanical transmission methods. At the same time, super motors generate low heat, so air conditioning costs are also greatly reduced. The adoption of super motor greatly reduces the number of wearing parts. Olmpica has no electromagnetic clutch or brake disc. The transmission system is simplified, setting work and maintenance are also reduced, which will greatly save operating expenses. Electronic monitoring system The key factor why Picanol is a leader in weaving machine development lies in electronic technology, and much of this know-how has been integrated into Olympica. Olympica requires very few mechanical settings, and important mechanical parameters are monitored and managed by a microcomputer, which means simpler operation and higher productivity. Microcomputer display with menu program, easy to learn and understand. The optimal process parameters can be set particularly conveniently through the microcomputer keyboard. For example, for weft insertion parameters, the microcomputer can automatically calculate and set the appropriate opening and closing time of the solenoid valve. The setting is particularly precise, and the adjusted results can be checked immediately. When a parking situation occurs, suggestions on how to deal with it will be displayed on the screen. Lubrication system Like all other Picanol weaving machines, the Olympica uses a computer-controlled central forced circulation lubrication system. Using an ultra-fine filter with a sensor can remove all impurities and extend the working life of the lubricant. The circulation loop is protected by the pressure valve. Model description:
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