CN218570332U - High-definition electronic endoscope image processor - Google Patents

Abstract

The utility model discloses a high-definition electronic endoscope image processor, which relates to the technical field of medical instruments and comprises a shell and an image processor main body arranged inside the shell, wherein the shell is provided with a high-definition touch screen for selecting functions, setting parameters and displaying endoscope image pictures in real time by a touch screen; different video output interfaces are also installed, and single or multiple monitors can be simultaneously connected to synchronously output images. The utility model discloses the design of high definition touch-sensitive screen changes traditional button operation into touch-control operation, and function selection, parameter setting are more convenient, also can show the image picture in real time simultaneously, and medical personnel can decide whether to connect the monitor to use according to actual conditions, can use alone, also can connect the monitor to show on the same screen, make the image display mode more nimble; and the image processor main body supports an ultra-high definition 4K architecture scheme, so that 4K ultra-high definition resolution output is realized, and clinical diagnosis of pathological changes of patients is facilitated.

Description

High-definition electronic endoscope image processor

Technical Field

The utility model relates to the technical field of medical instrument, more specifically the utility model relates to a high definition electron endoscope image processor that says so.

Background

The endoscope is a common medical instrument for diagnosing and treating body cavity diseases, is also a conventional medical device for minimally invasive treatment, and integrates traditional optics, ergonomics, precision machinery, modern electronics, mathematics and software into a whole. The endoscope can be used for seeing the pathological changes which can not be displayed by X-ray, and assisting doctors to diagnose and treat diseases.

In the prior art, images acquired by an endoscope are displayed by an electronic endoscope image processor. In the traditional electronic endoscope image processor, an operation interface is of a key type, when function selection and parameter setting are carried out, a main menu key is usually required to be pressed first, after the main menu interface is accessed, the function selection and the parameter setting are realized through the cooperation of an upper direction key, a lower direction key, a left direction key and a right direction key and a confirmation key, and meanwhile, an external monitor is required to display an image, so that the operation is complex and inconvenient; and the traditional electronic endoscope image processor usually supports standard definition or high definition, and most of the traditional electronic endoscope image processor does not support ultra-high definition 4K resolution output.

Therefore, an urgent need exists in the art for a high-definition electronic endoscope image processor that is easy to operate and has a more flexible image display mode.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a high definition electron endoscope image processor.

In order to realize the purpose, the utility model adopts the following technical scheme:

a high-definition electronic endoscope image processor comprises a shell and an image processor main body arranged in the shell;

a high-definition touch screen is arranged on the shell; the high-definition touch screen is used for selecting functions and setting parameters through a touch screen and displaying images of the endoscope in real time; the high-definition touch screen is electrically connected with the image processor main body;

the shell is also provided with different types of video output interfaces; the video output interface is used for simultaneously connecting single or a plurality of monitors to synchronously output images.

Preferably, the shell consists of a front panel, a rear panel, a bottom cover and an upper cover, the front panel and the rear panel are respectively arranged at the front end and the rear end of the bottom cover, and the upper cover is arranged at the top end of the bottom cover and is simultaneously connected with the front panel and the rear panel;

preferably, the high-definition touch screen is arranged on the front panel, and the front panel is also provided with a power-on/off key, a video socket and a USB interface; wherein the video socket is used for connecting an endoscope plug; the USB interface is used for externally connecting a USB flash disk and storing pictures and videos shot in the operation process;

the video output interface is arranged on the rear panel and is also provided with an equipotential terminal and a power socket.

The power-on and power-off button, the video socket, the USB interface and the high-definition touch screen are sequentially installed and fixed on the front panel from left to right. The video socket is connected with the endoscope cable plug for use, and the image processor supplies power to the endoscope front end LED lamp and the camera through the video socket. The LED lamp lights to provide illumination after the power is on, the camera collects images and converts optical signals into electric signals, the electric signals are transmitted to the image processor to be processed after passing through the cable, the endoscope cable plug and the video socket, the image processor restores the electric signals into image signals, the image signals are output to the monitor through the video interface to be displayed, and the images are synchronously displayed on the self-contained high-definition touch screen.

Preferably, the video output interface comprises an HDMI interface, and the HDMI interface supports 4K resolution output; the system also comprises a BNC interface and a DVI interface.

Preferably, the image processor main body supports a high-definition 4K architecture scheme, and meets 4K image processing and transmission display.

Preferably, the bottom cover is provided with the decoration parts, and the decoration parts are arranged on the left side and the right side of the bottom cover.

Preferably, four symmetrical anti-skid foot pads are distributed at the four corners of the bottom cover.

According to the technical scheme, compare with prior art, the utility model discloses a high definition electron endoscope image processor, high definition touch-sensitive screen's design has replaced traditional button operating panel, and the function is selected, the operation of parameter setting is more convenient, also can show the image picture in real time simultaneously, and medical personnel can decide whether to connect the monitor to use according to actual conditions, but the exclusive use, also can connect the monitor and show with the screen, and the image display mode is more nimble. The utility model provides an image processor has 3 kinds of general video output interfaces, 1 BNC interface, 2 DVI interfaces, 1 HDMI interface, can support single or a plurality of monitor synchronous connection output image simultaneously. The image processor main body is designed by adopting a scheme supporting ultra-high definition 4K architecture, so that 4K image processing, transmission and display are met, ultra-high definition 4K resolution, high-fidelity color restoration and rich color levels are realized, and clinical diagnosis of pathological changes of patients is facilitated.

Drawings

Fig. 1 is a schematic structural perspective view of a high-definition electronic endoscope image processor according to the present invention;

fig. 2 is a schematic front structural view of a high-definition electronic endoscope image processor according to the present invention;

fig. 3 is a schematic diagram of a back side structure of the image processor of the high-definition electronic endoscope according to the present invention;

fig. 4 is a connection diagram of the image processor of the high-definition electronic endoscope and the cable plug of the endoscope of the present invention.

Fig. 5 is a connection diagram of the image processor of the high-definition electronic endoscope and each external device according to the present invention.

The names of the parts indicated by the numbers in the drawings are as follows: 1-startup and shutdown key; 2-a video socket; 3-USB interface; 4-high definition touch screen; 5-HDMI interface; 6-DVI interface; 7-BNC interface; 8-equipotential terminals; 9-power socket; 10-a rear panel; 11-anti-skid foot pads; 12-a front panel; 13-a bottom cover; 14-a decorative piece; 15-upper cover; 16-endoscope cable plug.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The embodiment of the utility model discloses a high-definition electronic endoscope image processor, which comprises a shell and an image processor main body arranged in the shell;

as shown in fig. 1, the housing is composed of a front panel 12, a rear panel 10, a bottom cover 13 and an upper cover 15, wherein the front panel 12 and the rear panel 10 are respectively installed at the front end and the rear end of the bottom cover 13, and the upper cover 15 is installed at the top end of the bottom cover 13 and is connected with the front panel 12 and the rear panel 10;

with reference to fig. 2 and 3, the front panel 12 is sequentially provided with a power on/off key 1, a video socket 2, a USB interface 3, and a high-definition touch screen 4 from left to right; meanwhile, the rear panel 10 is provided with 1 power socket 9, 1 equipotential terminal 8, 1 BNC interface 7, 2 DVI interfaces 6, and 1 HDMI interface 5.

Four symmetrical anti-skid pad feet 11 are distributed at the four corners of the bottom cover 13, and the left side and the right side of the bottom cover 13 are provided with decorating parts 14.

In the specific implementation process, the video socket 2 is used for connecting an endoscope plug, and the connection schematic diagram is shown in fig. 4; the USB interface 3 is used for externally connecting a USB flash disk and storing pictures and videos shot in the operation process; the high-definition touch screen 4 is used for touching a screen to select functions, setting parameters and displaying an endoscope image picture in real time; video output interfaces (a BNC interface 7, a DVI interface 6 and an HDMI interface 5) installed on the rear panel 10 are used for simultaneously connecting single or multiple monitors to synchronously output images; the image processor main body supports a high-definition 4K architecture scheme and meets the requirements of 4K image processing and transmission display.

The utility model discloses a concrete installation procedure does:

1. firstly, the on-off key 1, the video socket 2, the USB interface 3 and the high-definition touch screen 4 are sequentially arranged on the front panel 12 from left to right.

2. Secondly, respectively installing a front panel 12, an anti-skid pad 11 and 2 decorating parts 14 on the left side and the right side of a bottom cover 13; and then the upper cover 15 is mounted on the lower cover 13.

3. The HDMI interface 5, the 2 DVI interfaces 6, the BNC interface 7, the equipotential terminal 8, and the power outlet 9 are sequentially mounted on the rear panel 10 from left to right again.

4. And finally, the rear panel 10 with the interface installed is respectively connected with the upper cover 15 and the bottom cover 13 through 2 screws.

When the image processor is used, the standard three-plug power line is inserted into the power socket 9, and then the adaptive video output interface is selected according to the monitor to support multi-path display and one-screen output, or the monitor is not connected to directly observe the image displayed by the image processor with the high-definition touch screen 4. Finally, the endoscope cable plug 16 is inserted into the video socket 2, the power-on button 1 is pressed to start the power-on, the endoscope can be used, the connection of all parts is completed, the endoscope is powered off and then the endoscope cable plug 16 is pulled out, as shown in fig. 5.

When the video socket 2 is connected with the endoscope cable plug 16 for use, the image processor supplies power to the endoscope front end LED lamp and the camera through the video socket 2. The LED lamp lights to provide illumination after the power is on, the camera collects images and converts optical signals into electric signals, the electric signals are transmitted to the image processor to be processed after passing through the cable, the endoscope cable plug 16 and the video socket 2, the electric signals are processed and restored into image signals by the image processor, the image signals are output to the monitor through the video interface to be displayed, and images are synchronously displayed on the self-contained high-definition touch screen 4.

In the present specification, the embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. A high-definition electronic endoscope image processor is characterized in that the processor comprises a shell and an image processor main body arranged inside the shell;

a high-definition touch screen (4) is arranged on the shell; the high-definition touch screen (4) is used for touching a screen to select functions, setting parameters and displaying an endoscope image picture in real time; the high-definition touch screen (4) is electrically connected with the image processor main body;

the shell is also provided with different types of video output interfaces; the video output interface is used for simultaneously connecting single or a plurality of monitors to synchronously output images.

2. The high-definition electronic endoscope image processor according to claim 1, characterized in that the housing is composed of a front panel (12), a rear panel (10), a bottom cover (13) and an upper cover (15), the front panel (12) and the rear panel (10) are respectively installed at the front end and the rear end of the bottom cover (13), and the upper cover (15) is installed at the top end of the bottom cover (13) and is connected with the front panel (12) and the rear panel (10).

3. The high definition electronic endoscope image processor of claim 2,

the high-definition touch screen (4) is arranged on the front panel (12), and the front panel (12) is also provided with a power-on and power-off key (1), a video socket (2) and a USB interface (3); wherein the video socket (2) is used for connecting an endoscope plug (16); the USB interface is used for externally connecting a USB flash disk and storing pictures and videos shot in the operation process;

the video output interface is arranged on the rear panel (10) and is also provided with an equipotential terminal (8) and a power socket (9).

4. The high-definition electronic endoscope image processor according to claim 2, characterized in that four symmetrical anti-skid foot pads (11) are distributed at four corners of the bottom cover (13).

5. The high definition electronic endoscope image processor according to claim 1, characterized by that, the video output interface comprises an HDMI interface (5).

6. The high definition electronic endoscope image processor of claim 1, wherein said image processor body supports a high definition 4K architecture scheme.

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