Fully Automatic Microscope

I. Product Overview

The fully automatic microscope is a software-based microscopic imaging platform integrating electric focusing, motorized objective lens switching, motorized stage, automatic illumination control and intelligent imaging analysis. Equipped with high-precision electric actuators and automatic control algorithms, it realizes automatic positioning, focusing, scanning and imaging of samples. Capable of microscopic observation and data acquisition for large batches of samples with unattended operation or minimal manual intervention, it is widely applied in life sciences, medical research, material analysis, industrial inspection and other fields.

1. Optical Parameters

Eyepiece: Wide-field achromatic SW10X, Φ22 mmObjective lens: Infinite long-working-distance plan achromatic objectives, including LMPlan 5X/0.12 DIC (working distance: 15 mm) and other models with varied numerical apertures and working distances.

2. Observation System

DIC observation system, compatible with partial objectives30° inclined trinocular tubeBinocular viewing head

3. Illumination Parameters

Episcopic illumination: 12V 50W halogen lamp with adjustable brightness and lamp position, built-in field diaphragm and other accessories.Transmitted illumination: Halogen lamp with built-in field diaphragm; filter slides are vertically adjustable.

4. Effective Vertical Travel: 10–70 mm

5. Base Dimensions: 427 × 204 mm

6. Illumination Mode: 6V 20W halogen lamp, brightness adjustable

7. Monitors: 15.6-inch + 21.5-inch

8. Lenovo Host Configuration: Intel i5-7500T, 16GB RAM, 256GB storage; equipped with 2 × DP to HDMI adapters

9. Bracket: One set of matched vertical bracket

II. Functional Features

1. Fully motorized microscope platform with coordinated control of motorized focusing, motorized objective turret and motorized stage.

2. Auto-focus system adapts to samples of different heights and surface morphologies for fast and accurate focusing.

3. Supports multi-mode imaging, compatible with brightfield, fluorescence, phase contrast and other observation methods.

4. Large-range automatic scanning enables image stitching and panoramic viewing of sample areas.

5. Intelligent illumination and exposure control ensure uniform image brightness across different magnifications.

6. Software-based operation interface supports parameter presetting, automated workflows and data management.

III. Application Scenarios & Fields

1. Life science research: For automated imaging and quantitative analysis of cells, tissues and biological samples.

2. Medical and pathological research: Suitable for slide scanning, pathological image acquisition and auxiliary diagnosis.

3. Materials science analysis: For automatic detection of material surface morphology, defects and microstructures.

4. Semiconductor and industrial inspection: For efficient screening of surface defects on wafers and components.

5. Teaching and laboratory management: Applied to teaching demonstrations and execution of standardized experimental procedures.

IV. Technical Advantages

1. Combined with multi-axis motorized control and automated algorithms, the system achieves a highly automated microscopic workflow, greatly improving imaging efficiency and reducing human errors.

2. The high-precision motorized stage works in tandem with the focusing system to maintain consistent positioning and focusing during large-area scanning and multi-point imaging.

3. Imaging parameters are automatically adapted to different magnifications and observation modes, delivering stable image brightness, contrast and clarity.

4. The software platform supports batch tasks and process control, ideal for long-term continuous operation and data acquisition of large sample volumes.

5. Featuring strong expandability, the system can flexibly integrate analysis modules and database interfaces to meet diverse application demands in scientific research and industrial fields.

V. Typical Application Case

Note: The above configurations can be customized and adjusted according to users' experimental requirements.

Pathological section analysis

Working Principle Diagram