YUKA stainless steel industrial filters are designed for critical compressed air and gas applications in high tech manufacturing, food processing, caustic, marine or any aggressive environments.
The YUKA stainless steel filters are fabricated from polished 304 or 316 stainless steel for critical compressed air and gas applications in the high tech manufacturing, food processing and beverage industries.
The range of industrial stainless steel filters encompasses fifteen models with connections from RC1/2" to 3" and rated flows from 35 to 1313.16scfm.Flange connection is acceptable.
Specifically designed to provide efficient and effective contaminant removal in caustic environments, these filters are ideally suited for process applications such as food and beverage facilities.
The unique interchangeable sodium borosilicate microfiber glass filter elements incorporate stainless steel support media and a positive double o-ring click-lock seal to ensure optimal filtration integrity.
High pressure and harsh working environment required different material air filter, stainless steel air filter with 304,316 and 316L for material options.
Working pressure from 2 to 250 barg, double mesh support mesh for air filtere element, strong construction an ensure filtration peroformance. PF/AO/AA/AX enjoy over 4000 hours lifespan under the rate working condition.
Stainless Steel Filter,Stainless Steel Compressed Air Filter,Stainless Steel 304 Air Filter,Stainless Steel Air Filter Housing Hongrijia Depurate Facility Science & Technology Co.,Ltd. , https://www.yukafilter.com
Smart System Performs Reciprocating Motion & Force Sensing Without a PLC or External Sensors
Automation plays a crucial role in streamlining repetitive tasks like those encountered in manufacturing or testing environments. For instance, consider a scenario where a push button needs to be pressed repeatedly for 10,000 cycles to test its durability. Traditionally, this involves integrating multiple components, including an actuator, motor, driver, sensors, and often a PLC, to ensure the motion repeats accurately and efficiently. However, there might be a simpler and more cost-effective solution.
In this post, we'll explore how to achieve reciprocating motion—up-and-down cycles—using a system that doesn't require a PLC or external sensors. This approach can significantly reduce design time and costs, making it an attractive option for engineers looking to speed up their development processes.
Imagine a setup where a test fixture is designed to press a red button repeatedly for 10,000 cycles. To accomplish this, an actuator must move up and down in a precise, automated manner. Conventionally, this requires an external pressure sensor or presence sensor to signal the actuator when to stop pressing and return to its starting position. Additionally, a PLC is typically needed to manage these input-output signals. This complexity increases the number of components, the level of technical expertise required, and overall project expenses.
Now, let’s explore a different approach using Oriental Motor’s innovative solutions. Their EAC Series motorized cylinders come equipped with advanced features that simplify the design process. These include built-in stored data operations, allowing for automatic sequential actions without the need for a PLC. Furthermore, their AlphaStep hybrid control technology ensures seamless switching between open-loop and closed-loop operation, providing reliable position control.
One particularly interesting feature is the built-in absolute encoder, which eliminates the need for external home and limit sensors, as well as a separate absolute encoder and backup battery. This not only reduces the number of components but also simplifies installation and maintenance. Moreover, the push motion function can replace traditional pressure or torque sensors, offering a more straightforward solution for detecting when the actuator should retract after pressing the button.
To program the motion data and configure system parameters, engineers can utilize Oriental Motor’s MEXE02 universal product support software. This tool makes it easy to set up the necessary sequences for reciprocating motion, ensuring smooth operation without the need for additional programming expertise.
The advantages of using the EAC Series extend beyond just simplifying the design process. The pre-assembled components save valuable time and labor, while the high-efficiency design ensures long-term reliability. Additionally, the built-in loop programming capability removes the necessity for a PLC, further reducing costs and complexity.
By adopting this approach, engineers can focus their efforts on enhancing other aspects of their designs rather than getting bogged down in the intricacies of motion control. This results in simpler designs, lower costs, and faster time-to-market—a win-win situation for any project.
To see how easy it is to set up the EAC Series for reciprocating motion, check out the video demonstration below. It showcases the simplicity and effectiveness of this solution in action. For more detailed insights into other applications, such as push motion settings or palletizing operations, consider exploring Oriental Motor’s extensive library of training videos.
In conclusion, by leveraging Oriental Motor’s EAC Series motorized cylinders, engineers can achieve complex motion tasks with minimal components and effort. This not only streamlines the design process but also offers significant cost savings and operational benefits. Whether you’re working on endurance testing or other repetitive tasks, this solution provides a powerful and efficient alternative to traditional methods.
Let us know your thoughts or experiences with similar systems in the comments below. We’d love to hear how automation is helping you overcome challenges in your projects!