Overview
The XTZ-EL is a bracket-type large flat-panel continuous zoom microscope, which can observe clear upright images with high resolution and strong three-dimensional sense. It adopts a threaded pole, and the bracket node can be swirl/spin flexibly, which is easy to lift and adjust the angle of the observation head, and improves the observation comfort. The Microscope can be widely used in product assembly and inspection in electronics and precision machinery industries, as well as teaching, agriculture, forestry, geology, archaeology, biology and other industries. The trinocular model can be equipped with optional photography and video devices.
Features
1. Using a large field of view WF10 eyepiece, the line field of view is up to φ 20mm.
2. The observation head can be used for 360 ° swirl/spin, the binocular tube is tilted 45 °, the pupil distance adjustment range is 55~ 77mm, and the visibility adjustment is greater than +/- 5 diopters.
3. Two zoom handwheels are located on both sides of the observation head, making it easy to operate.
4. The threaded pole is adopted, and each node of the bracket can be swirled/spun flexibly, which is convenient for lifting up and down and adjusting the position angle of the observation head.
5. Optional camera device and camera device (trinocular model).
Principle
The XTZ-EL Continuous Diploidy Microscope forms a three-dimensional magnified upright image through the combination of objective lens (diploidable range 0.7X-4.5X) and eyepiece (e.g. large field of view 10X/16X/20X). Its continuous diploidation system (diploidation ratio 1:6.5) allows the user to smoothly adjust the magnification, with adjustable observation head, pupil distance and visibility, to adapt to different observation needs and working distances.
Applications
Electronics industry, precision machinery industry, teaching, agriculture, forestry, geology, archaeology, biology
Steps
1. Place the Microscope on a stable table and connect it to the power supply (if lighting is required).
2. According to the sample height, swirl/spin thread pole adjusts the overall height of the Microscope.
3. swirl/spin bracket node, adjust the observation head to the appropriate angle and position.
4. According to the user's pupil distance, adjust the binocular tube spacing (55~ 77mm).
5. Visibility compensation (greater than +/- 5 diopters) through swirl/spin eyepiece adjustment ring.
6. Place the sample on a large flat table (290x390mm).
7. Turn the zoom handwheels located on both sides of the observation head to select the desired magnification.
8. Make the image clear by adjusting or fine-tuning it.
9. For recording, a photography or video camera can be installed on the trinocular model.
Notice
• Please place the Microscope in a smooth, clean, vibration-free working environment.
• When moving or adjusting, it should be operated gently to avoid violent collisions, especially for Optical inspection parts.
• Optical inspection lens cleaning, please use special lens paper and detergent, do not wipe directly with hands or rough objects.
• When adjusting the pupil distance and vision, it should be done gently to avoid damage to the mechanism due to excessive force.
• Pay attention to the maximum height of the sample (about 200mm) to avoid collisions between the sample and the objective lens.
• After use, turn off the power (if any) and adjust the zoom hand wheel to the low magnification position.
• When not in use for a long time, it is recommended to cover it with a dust cover and store it in a drying place.
