I. Product Overview
An inverted biological microscope is a life science microscopic imaging device centered on an inverted optical structure. Its objective lens is positioned below the specimen, while the illumination and observation systems are placed above the specimen. It is suitable for long-term and stable microscopic observation of living cells, tissue sections and cultured samples. This type of microscope can directly observe samples in petri dishes, culture flasks and multi-well plates without disrupting the cell culture environment. It is widely applied in fields such as cell biology, biomedicine, drug research and development, as well as teaching and scientific research, serving as an essential basic piece of equipment in modern biological laboratories.
Technical Parameters
1. Optical Parameters
Total Magnification: 50X - 500X (Standard Configuration)
Eyepiece: WF10X, Field of View Φ22 mm
Objective Lens: 5X (NA 0.15), 10X (NA 0.30), 20X (NA 0.45), 50X (NA 0.80)
2. Observation Parameters
Binocular Head: Viewing Angle 45°, Pupil Distance 53 - 75 mm
3. Illumination Parameters
Reflected Illumination: 6V30W Halogen Lamp (110V/230V Optional), Blue + Green Filter Set
Transmitted Illumination: LED Bulb (2-hour Delayed Shutdown), Rotary Phase Contrast Condenser (Working Distance 55 mm)
4. Stage Parameters
Moving Range:
Longitudinal: 77 mm, Transverse: 134.5 mm
5. Petri Dish Adaptation Parameters
Equipped with three types of holders, compatible with circular petri dishes of different diameters
For Inverted Biological Microscope
II. Functional Features
1. Inverted Bio-Optical System: Adopts a mature inverted optical path design with objectives positioned below the stage, enabling direct observation of samples in culture vessels.
2. Support for Multiple Observation Modes: Configurable with bright field, phase contrast and other observation modes to meet the imaging requirements of different biological samples.
3. Stable and Reliable Stage and Focusing Mechanism: The stage features a large travel range and high load-bearing capacity, with smooth focusing response, suitable for long-term continuous observation.
4. Excellent Optical Imaging Quality: The optimized combination of objective lenses and illumination system ensures high definition, contrast and imaging consistency.
5. System Expansion and Upgrade Capability: Compatible with camera interfaces, digital imaging systems and automatic accessory expansions for convenient functional upgrades.
III. Application Scenarios and Fields
1. Cell morphology observation, proliferation and migration experiments in cell biology research;
2. Morphological analysis of tumor cells, stem cells and immune cells in biomedical research;
3. Cytotoxicity testing and efficacy evaluation experiments during drug research and development;
4. Long-term dynamic microscopic observation under living cell culture conditions;
5. Biological experiment teaching in universities and construction of basic scientific research platforms.
IV. Technical Advantages
1. Mature and stable structural design of inverted biological microscope. Verified by long-term application in structure and optical layout, the inverted biological microscope maintains stable imaging performance in complex experimental environments and is suitable for high-frequency experimental use.
2. Sample-friendly observation mode. Biological samples can be observed directly in the culture state without inversion or transfer, which effectively reduces the risk of sample contamination and damage and ensures the reliability of experimental results.
3. Stable imaging quality for long-term experiments. The collaborative design of the optical system and mechanical structure maintains stable focus and consistent imaging during long-term continuous observation.
4. Strong system compatibility and scalability. It supports access to various cameras, software and automation modules, and can be flexibly expanded into a digital or semi-automatic imaging system according to scientific research needs.
5. Meeting both scientific research and teaching application demands. While ensuring excellent imaging performance, it features simple operation and low maintenance cost, making it suitable for long-term use in research laboratories and university teaching.
V. Typical Application Cases
Application Fields | Typical sample | Observation Method | Application Instructions |
Cell Biology | Adherent cells, Suspension cells | Brightfield / Phase Contrast | Used for observing cell morphology and growth status |
Biomedical Research | Tumor cell sample | Brightfield / Phase Contrast | Analyze the characteristics of cell morphological changes |
Drug Research and Development | Cultured cell model | Brightfield | Used for the evaluation of drug toxicity and efficacy |
Teaching Experiment | Standard Biological Sample | Brightfield | Used for basic biological experiment teaching |
Note: The above configurations can be customized and adjusted according to users' experimental requirements.
Equipment Appearance Drawing
Morphology of Living Cells Under Inverted Biological Microscope
