The original photomicroscope was a simple device with a camera obscura mounted above the eyepiece of an ordinary microscope
Specialized photomicroscopes began to appear in the 1930s. The structure and function of photographic microscopes in the 1950s were much more complex. The control performance of its luminous flux and exposure time has been greatly improved. The photographic microscopes in the 1970s included simple photographic microscopes and multi-functional special photographic microscopes. There are also multifunctional research microscopes that can be equipped with 1-3 dark boxes at any time for microphotography.
Break through the limitations of traditional microscopes "using objects as mirrors", approach the object to be tested in various situations and angles, perform real-time microscopic inspection on site and simultaneously shoot and preview the images seen, "shoot as soon as you see it" to", allowing users to carry it easily. It is an innovative product that integrates high-magnification microscope modules with excellent optical system design, patented tube light source modules, cutting-edge digital camera technology and integrated cutting-edge technology.
Photography microscope, also called camera microscope, converts the physical image seen by the microscope into digital-to-analog format so that it can be imaged on the computer. It is composed of a general optical microscope coupled with a microscopic imaging system, which is what many people now call a microscope camera, and then connected to a computer. Please look at the picture on the right
As can be seen from the picture on the right: The difference between a digital microscope and a general optical microscope is that it is equipped with a microscopic imaging system, so that it can be previewed synchronously on the computer and realize microscopy. Take photos and process images.
Digital microscopes can produce upright three-dimensional images when observing objects. It has a strong three-dimensional sense, clear and wide imaging, long working distance, and is a conventional microscope with a very wide range of applications.
In addition, the photographic microscope is easy to operate, intuitive, and has high verification efficiency. It is suitable for the inspection of electronic industry production lines, the verification of printed circuit boards, and the detection of welding defects (printing misalignment, edge collapse, etc.) in printed circuit assemblies. Verification, single-board PC verification, vacuum fluorescent display VFD verification, etc. It enlarges the image of the physical object and displays it on the computer screen. The image can be saved, enlarged, and printed. Equipped with measurement software, various data can be measured. We all know that a long time ago, when there was no concept of digital in the microscope industry, microscopes could only be observed by the human eye. This often caused the eyes to overwork and made microscope users very painful. Moreover, the observed microscopic pictures cannot be saved and can only be drawn step by step by hand. On the one hand, the work efficiency is low, and on the other hand, there are large errors, resulting in unnecessary mistakes. Well, the current digital microscope is a high-tech product that is successfully developed by perfectly combining cutting-edge optical microscope technology, advanced photoelectric conversion technology, and ordinary televisions. As a result, we can reproduce the research on the microscopic field from traditional ordinary binocular observation to the monitor, thereby improving work efficiency and reducing errors. Therefore, it is not an exaggeration to say that microscopy imaging systems have brought microscopy into the digital age.
Due to the advancement of science and technology, various products have become increasingly sophisticated and compact in recent years. As a result, when manufacturing these products, production personnel are faced with the dilemma of being unable to inspect problems with the naked eye. They are also required to: enlarge the product to detect problems. Problems; exchange opinions on problems with colleagues or vendors in real time; record problems and formulate documents; use documents to complete internal or external communication, etc.; adapt to user needs, integrate existing cutting-edge technology and innovate, on-site photography microscope: can quickly Easy to set up and use to get fast, real-time images, providing an easy workflow that meets the needs of professionals, delivering maximum versatility and cost-effectiveness.