Apexel Machine Vision Lens: The Smart Helper in Automated Production

Apexel Machine Vision Lens: The Smart Helper in Automated Production

Machine vision lens is used by various machine vision systems to produce an image that would be processed by the systems. All machine vision systems rely on producing an image of acceptable quality to allow the relevant measurements to be produced.

To be more precise, the lens or lens combinations utilized in the vision system significantly impact the image quality. It has an influence on precision and the repeatability as well as dependability of downstream analysis. In this article, we will explore the various features and applications of the Apexel machine vision lens.

Features of the Apexel Machine Vision Lens

The Apexel machine vision lens comes with a variety of features. The Apexel machine vision lens consists of either a sensor size of 1/1.8”, 2/3”, or 1”. The focal length of the lens range from 6mm to 75mm, allowing for a wide range of angle of view.

Boasting a high resolution of 3-5 megapixels and super-low distortion, it’s guaranteed that the Apexel machine vision lens would provide your machine vision systems with the most precise images. To allow for easy adjustment, the Apexel machine vision lens has precise iris and focus scales and locking sets for focus and iris to prevent movement caused by vibration or shock.

The Apexel machine vision lens is versatile and has many useful applications, e.g., material inspection, object recognition, pattern recognition, electronic component analysis, let alone the recognition of signatures, optical characters, and currency.

How Apexel Machine Vision Lens Helps Meet Goals?

You might wonder how Apexel machine vision lenses are helpful in practical applications and how they help meet goals in particular applications. Below are some of the goals that are met by the Apexel machine vision optics:

  1. Higher Quality: The machine vision lens help provide higher quality imaging which is immensely useful in inspection, measurement, gauging, and assembly verification.
  2. Increased Productivity: With the introduction of a machine vision system handling repetitive tasks, which are previously done manually, productivity is vastly improved.
  3. Production Flexibility: Flexibility in production can be seen in various applications such as measurement and gauging, robot guidance, and prior operation verification.
  4. Reduced Machine Downtime and Setup Time: The machine vision system is very efficient and allows change-overs to be programmed in advance
  5. More Detailed Information and Tighter Process Control: Machine vision systems can be used to record manual tasks and provide feedback in computer data.
  6. Lower Capital Equipment Costs: Incorporating a machine vision lens into a machine improves the overall performance and reduces overall costs.
  7. Lower Production Costs: A machine vision system is less prone to make mistakes than a handful of operators. A machine vision system would detect flaws earlier in the process and, in turn, would lower production costs.
  8. Scrap Rate Reduction: Employing a machine vision system helps reduce the scrap rate, especially during inspection, measurement, and gauging.
  9. Inventory Control: Inventory control is possible with the help of a machine vision system. Optical character recognition and identification help the machine vision system record and store inventory in the database.
  10. Reduced Floor Space: A machine vision system takes up minimal space compared to an operator. As a result, employing a machine vision system would reduce floor space, which could be allocated to other uses.

Final Thoughts

Apexel machine vision lens is highly accurate with a sensor size of 1/1.8″, 2/3″ and 1″ and focal length ranging from 6mm to 75mm. The lens has a high quality of 3-5 megapixels and super low distortion. A multitude of applications can be highly improved with the introduction of a machine vision system, i.e., material inspection, object recognition, pattern recognition, electronic component analysis, accompanying the recognition of signatures, optical characters, and currency.

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