CN209962008U - Operation microscope integrated electronic camera shooting device - Google Patents

Abstract

The utility model discloses an integrated electron camera shooting device of operating microscope, it includes CMOS camera etc, and the CMOS camera is located one side of a curve section of thick bamboo, and the regulating spindle is located a curve section of thick bamboo, and the prism of falling the image is located the opposite side of a curve section of thick bamboo, and second beam splitter prism is located one side of the prism of falling the image and is located first beam splitter under, and the relay lens is installed in the lens cover, and the lens cover imbeds in a curve section of thick bamboo, and hand-assistant mirror and assistant mirror interface connection. The hand-assisted mirror interface is positioned right above the first beam splitter prism, the HDMI output interface is connected with the CMOS camera, the HDMI output interface is connected with the LED display through an HDMI cable, and the USB recording interface is positioned on the side surface of the HDMI output interface. Compare with traditional microscope camera device, the utility model discloses reduced the volume, alleviateed weight, the cost is reduced, and the installation is simple, convenient to use.

Description

Operation microscope integrated electronic camera shooting device

Technical Field

The utility model relates to an operation microscope especially relates to an integrated electron camera shooting device of operation microscope.

Background

The operation microscope is mainly suitable for animal dissection, fine blood vessel and nerve suture in teaching experiments and other fine operations or examinations needing to be carried out by means of the microscope. The operation microscope is composed of two large objective lens type double four-eye operation microscopes, and the purpose that two persons can simultaneously observe one target is achieved. As shown in fig. 1, the conventional surgical microscope integrated electronic photographing device adopts a first optical splitter 21, a first video interface 22, a first CMOS camera 23 and other components which are separated, and has a complex structure, many components, high requirements for installation and debugging specialties, and difficulty in maintenance.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an integrated electronic camera shooting device of operation microscope is provided, with components such as beam splitter, video interface, CMOS camera integrated as an organic whole, it has reduced the volume, has alleviateed weight, the cost is reduced, the installation is simple, convenient to use.

The utility model discloses a solve above-mentioned technical problem through following technical scheme: an integrated electronic camera shooting device of an operating microscope is characterized by comprising an MOS camera, an adjusting shaft, a curve cylinder, a first beam splitter prism, a hand-assistant mirror, an assistant mirror interface, a second beam splitter prism, an inverted image prism, a lens sleeve, a relay lens, an HDMI output interface, a USB recording interface, an HDMI cable and an LED display, wherein the CMOS camera is positioned at one side of the curve cylinder, the adjusting shaft is positioned on the curve cylinder, the inverted image prism is positioned at the other side of the curve cylinder, the second beam splitter prism is positioned at one side of the inverted image prism and is positioned under the first beam splitter prism, the relay lens is arranged in the lens sleeve, the lens sleeve is embedded in the curve cylinder, the assistant mirror is connected with the assistant mirror interface, the assistant mirror interface is located right above the first beam splitter prism, the HDMI output interface is connected with the CMOS camera, the HDMI output interface is connected with the LED display through an HDMI cable, and the USB recording interface is located on the side face of the HDMI output interface.

Preferably, the first light splitting prism is a ninety-degree light splitting prism, and the second light splitting prism is a one-hundred-eighty-degree light splitting prism.

Preferably, the CMOS camera, the adjusting shaft, the curve cylinder, the first beam splitter prism, the second beam splitter prism, the inverting prism, the lens sleeve, and the relay lens are all located in one housing, and the helper mirror interface, the HDMI output interface, and the USB recording interface are all located on the housing.

Preferably, the hand-assisted mirror is bent.

Preferably, the first beam splitter prism and the second beam splitter prism form an integrated beam splitter with dual functions of image pickup and observation.

The utility model discloses an actively advance the effect and lie in: the utility model discloses integrateed spectrometer, video interface and CMOS camera are as an organic whole, have reduced the volume, have alleviateed weight, the cost is reduced, and the installation is simple, convenient to use.

Drawings

Fig. 1 is a schematic structural diagram of an integrated electronic photographing device of a conventional surgical microscope.

Fig. 2 is a schematic structural view of the integrated electronic camera of the operation microscope of the present invention.

Detailed Description

The following provides a preferred embodiment of the present invention with reference to the accompanying drawings to explain the technical solutions of the present invention in detail.

As shown in fig. 2, the integrated electronic camera device of the present invention comprises a CMOS camera 1, an adjusting shaft 2, a curved tube 3, a first beam splitter 4, an assistant mirror 5, an assistant mirror interface 6, a second beam splitter 7, an inverted prism 8, a lens cover 9, a relay lens 10, an HDMI output interface 11, a USB recording interface 12, an HDMI cable 13, and an LED display 14, wherein the CMOS camera 1 is located on one side of the curved tube 3, the adjusting shaft 2 is located on the curved tube 3, the inverted prism 8 is located on the other side of the curved tube 3, the second beam splitter 7 is located on one side of the inverted prism 8 and is located right under the first beam splitter 4, the relay lens 10 is installed in the lens cover 9, the lens cover is embedded in the curved tube 3, the assistant mirror 5 is connected with the assistant mirror interface 6, the assistant mirror interface 6 is located right above the first beam splitter 4, the HDMI output interface 11 is connected with the CMOS camera 1, the HDMI output interface 11 and the LED display 14 are connected by an HDMI cable 13, and the USB recording interface 12 is located on the side of the HDMI output interface 11.

The first light splitting prism is a ninety-degree light splitting prism, and the second light splitting prism is a one-hundred-eighty-degree light splitting prism, so that the use is convenient.

The CMOS camera 1, the adjusting shaft 2, the curve barrel 3, the first beam splitter prism 4, the second beam splitter prism 7, the inverted image prism 8, the lens sleeve 9 and the relay lens 10 are all located in one shell 15, and the assistant lens interface 6, the HDMI output interface 11 and the USB recording interface 12 are all located on the shell, so that the installation and the use are convenient.

The hand-assisted mirror is bent, so that observation is convenient.

The first light splitting prism and the second light splitting prism form an integrated light splitter with double functions of shooting and observing, so that light splitting is convenient.

The first beam splitter prism and the second beam splitter prism are respectively installed according to the central distance of the operating microscope, the inverted image prism, the relay lens 10 and the CMOS camera 1 are respectively installed on a central shaft perpendicular to the second beam splitter prism, the relay lens 10 is installed in a lens sleeve 9, the lens sleeve is precisely embedded in a curve cylinder 3, and the adjusting shaft 2 is adjusted by hand to enable the relay lens to move back and forth in the curve cylinder, so that the purpose of focal length adjustment is achieved. The image signal is transmitted to the LED display 14 through the HDMI output port 11 and the HDMI cable 13 of the CMOS camera 1. The USB recording interface 12 can record video and photo images. The first beam splitter prism 4 transmits the image through a helper mirror interface 6 onto a helper mirror 5. The utility model discloses carry out the operation microscope main beam path all the way after 90 beam split, through the positive image of falling the negative image of image prism with microscope, form images by CMOS behind the relay lens focus. When the microscope is used, the imaging focal length can be adjusted through the adjusting knob, and a clear microscopic image is obtained.

The utility model discloses integrateed optical splitter, video interface (be HDMI delivery outlet) and CMOS camera are as an organic whole, have reduced the volume, have alleviateed weight, the cost is reduced, and the installation is simple, convenient to use.

The above-mentioned embodiments further explain the technical problems, technical solutions and advantages of the present invention in detail, it should be understood that the above-mentioned embodiments are only examples of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (5)

1. An integrated electronic camera shooting device of an operating microscope is characterized by comprising a CMOS camera, an adjusting shaft, a curve cylinder, a first beam splitter prism, a hand-assistant mirror, an assistant mirror interface, a second beam splitter prism, an inverted image prism, a lens sleeve, a relay lens, an HDMI output interface, a USB recording interface, an HDMI cable and an LED display, wherein the CMOS camera is positioned at one side of the curve cylinder, the adjusting shaft is positioned on the curve cylinder, the inverted image prism is positioned at the other side of the curve cylinder, the second beam splitter prism is positioned at one side of the inverted image prism and is positioned under the first beam splitter prism, the relay lens is arranged in the lens sleeve, the lens sleeve is embedded in the curve cylinder, the assistant mirror is connected with the assistant mirror interface, the assistant mirror interface is located right above the first beam splitter prism, the HDMI output interface is connected with the CMOS camera, the HDMI output interface is connected with the LED display through an HDMI cable, and the USB recording interface is located on the side face of the HDMI output interface.

2. The surgical microscope integrated electrophotographic apparatus of claim 1, wherein the first beam splitter prism is a ninety degree beam splitter prism and the second beam splitter prism is a one-hundred-eighty degree beam splitter prism.

3. The surgical microscope integrated electrophotographic apparatus of claim 1, wherein the CMOS camera, the adjustment shaft, the curved barrel, the first beam splitter prism, the second beam splitter prism, the inverting prism, the lens housing, and the relay lens are all located in a single housing, and the helper lens interface, the HDMI output interface, and the USB recording interface are all located on the housing.

4. The surgical microscope integrated electrophotographic apparatus of claim 1, wherein the hand-lens is bent in shape.

5. The surgical microscope integrated electrophotographic apparatus of claim 1, wherein the first beam splitter and the second beam splitter form an integrated beam splitter for both imaging and observation.

Images