CN215502905U - Medical endoscope camera system of portable all-in-one of notebook formula - Google Patents

Abstract

The application relates to a medical endoscope camera system of a notebook type portable all-in-one machine, belonging to the technical field of medical endoscope camera systems and comprising a medical endoscope handle and a host; a camera is arranged in the handle of the medical endoscope; the host comprises an image signal processing module, an image display module and a power supply module; the image signal processing module is respectively connected with the camera and the image display module; the power supply module is used for supplying power to the medical endoscope handle and the host. This application is integrated on the host computer with a plurality of modules, has the effect of conveniently carrying.

Description

Medical endoscope camera system of portable all-in-one of notebook formula

Technical Field

The application relates to the technical field of medical endoscope camera systems, in particular to a medical endoscope camera system of a notebook type portable all-in-one machine.

Background

The medical endoscope camera system is suitable for general departments, is clinically and generally used in departments such as otorhinolaryngology, urology surgery, gynecology, ophthalmology, orthopaedics, neurosurgery, medical and aesthetic plastic surgery and the like, and is suitable for various endoscope fields such as otoscopes, nasosinusitis, nasopharyngoscope, laparoscopes, hysteroscopes, arthroscopes, transforaminal scopes, fiberbronchoscopes and the like.

The existing medical endoscope camera system generally realizes power supply through an external power supply and video display through an external display, has low integration level, and can be applied to operating rooms and outpatient examinations mostly.

In view of the above-mentioned related art, the inventor considers that the existing medical endoscope imaging system is not portable, and cannot be used in the use scene such as 120 th aid or the scene where the family doctor is present, and therefore needs to be improved.

SUMMERY OF THE UTILITY MODEL

In order to improve the integration level of a medical endoscope camera system and facilitate carrying, and therefore the application scene of the medical endoscope camera system is expanded, the application provides the medical endoscope camera system of the notebook type portable all-in-one machine.

The medical endoscope camera system of the notebook type portable all-in-one machine adopts the following technical scheme:

a medical endoscope camera system of a notebook type portable all-in-one machine,

comprises a medical endoscope handle and a host;

a camera is arranged in the handle of the medical endoscope;

the host comprises an image signal processing module, an image display module and a power supply module;

the image signal processing module is respectively connected with the camera and the image display module;

the power supply module is used for supplying power to the medical endoscope handle and the host.

By adopting the technical scheme, the image signal processing module processes the video signal collected by the camera, the image display module receives the video signal processed by the image signal processing module for displaying, the power supply module supplies power to the handle of the medical endoscope and the host, the image signal processing module, the image display module and the power supply module are integrated on the host, the integration level is high, and the carrying is convenient, so that the medical endoscope camera system can be used in the use scenes such as 120 first aid or the scene of a family doctor.

Alternatively to this, the first and second parts may,

the power supply module comprises a voltage conversion unit and a battery;

the voltage conversion unit is connected with an external power supply and the medical endoscope handle;

the battery is arranged inside the host.

Through adopting above-mentioned technical scheme, voltage conversion unit can adjust the voltage of external power supply to the suitable voltage that host computer and medical endoscope handle used, for host computer and medical endoscope handle power supply, the battery is as portable power source, can supply power for medical endoscope handle and host computer temporarily, and sets up inside the host computer, conveniently carries with medical endoscope handle and host computer together.

Alternatively to this, the first and second parts may,

the battery is a rechargeable battery;

the voltage conversion unit is connected with the battery.

By adopting the technical scheme, the battery is a rechargeable battery, the voltage conversion unit is connected with an external power supply when the endoscope is normally used, the voltage conversion unit is used for charging the battery when the host and the handle of the medical endoscope are supplied with power, and the battery can temporarily supply power for the medical endoscope when the medical endoscope system is required to be taken out, so that the normal use of the device is ensured.

Alternatively to this, the first and second parts may,

the medical endoscope handle also comprises a video signal transmission interface;

the video signal transmission interface is connected with the camera;

the video signal transmission interface is used for converting the video signal collected by the camera into a transmission signal.

By adopting the technical scheme, the video signal transmission interface converts the video signal collected by the camera into the transmission signal, so that the signal transmission is facilitated.

Alternatively to this, the first and second parts may,

the image signal processing module comprises an image signal processing unit and a signal conversion unit;

the signal conversion unit is connected with the video signal transmission interface and the image signal processing unit;

the signal conversion unit is used for converting the transmission signal into an image signal;

the image signal processing unit is used for processing the image signal.

By adopting the technical scheme, the signal conversion unit converts the transmission signal transmitted from the video signal transmission interface into the video signal so as to enable the image display module to display.

Alternatively to this, the first and second parts may,

the image display module comprises a touch display screen unit, a display screen driving unit and a touch driving unit;

the host machine also comprises a communication module;

the display screen driving unit is connected with the image signal processing unit and the touch display screen unit;

the touch driving unit is connected with the touch display screen unit and the communication module;

the communication module is connected with the image signal processing unit;

the touch driving unit is used for controlling the image signal processing unit to adjust the image signal through the communication module.

By adopting the technical scheme, the display screen driving unit drives the display screen to display the acquired video signals on the touch display screen, and the communication module controls the image signal processing unit, so that medical staff can check the videos as required.

Alternatively to this, the first and second parts may,

the host machine also comprises a cold light source module;

the cold light source module comprises a light source driving board unit and a light source unit;

the light source driving board unit is connected with the communication module and the light source unit;

the light source driving board unit is used for driving the light source unit to generate a medical cold light source;

the touch driving unit is used for controlling the light source driving board unit to adjust the medical cold light source through the communication module.

By adopting the technical scheme, the light source driving board unit drives the light source unit to generate the medical cold light source, and the medical cold light source provides illumination for the camera on the handle of the medical endoscope, so that the camera can conveniently acquire videos.

Optionally, the system further comprises a storage device module;

the storage device module is connected with the image signal processing unit.

By adopting the technical scheme, the image signal processing unit records the video data into the storage device module while processing the video signal, thereby facilitating subsequent inquiry and watching.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the multiple modules are integrated on the host, so that the integration level is high, and the whole system is lighter and thinner and is easier to carry;

2. the built-in rechargeable battery can adapt to complex electricity utilization environment;

3. the video data collected by the camera is stored, so that subsequent inquiry and watching are facilitated.

Drawings

Fig. 1 is a schematic diagram of a frame structure according to an embodiment of the present application.

Fig. 2 is a schematic diagram of a frame structure of an image signal processing module in an embodiment of the present application.

Fig. 3 is a schematic diagram of a frame interface of an image display module in an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a frame of a cold light source module in an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a frame of a power supply module in an embodiment of the present application.

Fig. 6 is a schematic view of the overall frame structure of the embodiment of the present application.

Reference numerals: 1. a medical endoscope handle; 11. a camera; 12. a video signal transmission interface; 13. a light guide unit; 14. a lens; 2. a host; 21. an image signal processing module; 211. a signal conversion unit; 212. an image signal processing unit; 22. an image display module; 221. a touch display screen unit; 222. a display screen driving unit; 223. a touch driving unit; 23. a communication module; 24. a storage device module; 241. a storage device unit; 242. a download port; 25. a cold light source module; 251. a light source driving board unit; 252. a light source unit; 253. a light outlet; 26. a power supply module; 261. a voltage conversion unit; 262. a battery.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a medical endoscope camera system of a notebook type portable all-in-one machine. Referring to fig. 1, the medical endoscope camera system of the notebook type portable all-in-one machine comprises a medical endoscope handle 1 and a host 2, wherein a camera 11 is arranged on the handle, the camera 11 is used for endoscope detection and video data signal acquisition, and the host 2 is used for receiving and processing the video signal acquired by the medical endoscope handle 1.

Referring to fig. 1, a video signal transmission interface 12 is further disposed on the handle 1 of the medical endoscope, and a video signal collected by the camera 11 is converted at the video signal transmission interface 12 into a transmission signal for transmission, and the transmission signal is transmitted to the host 2.

Specifically, in the present embodiment, in order to acquire a relatively clear video image, the camera 11 is a high-definition camera. Meanwhile, the video signal transmission interface 12 may adopt one of a high-definition multimedia interface HDMI, a DP (display port) interface, a digital video interface DVI, a video graphics array interface VGA, and the like, and since the HDMI has higher definition compared with the DVI and the VGA and is more affordable compared with the DP price, in this embodiment, the video signal transmission interface adopts the HDMI, and the HDMI adopts an HDMI2.0 protocol. The HDMI converts the video signal collected by the camera 11 into an HDMI2.0 signal, and the HDMI2.0 signal is transmitted to the host 2 in the HDMI transmission line.

Referring to fig. 1, the host 2 includes an image signal processing module 21 and an image display module 22, wherein the image signal processing module 21 is configured to receive a transmission signal transmitted by the video signal transmission module and process the transmission signal, and the image display module 22 receives and displays a signal processed by the image signal processing module 21, so as to facilitate viewing by medical staff.

Specifically, referring to fig. 2, the image signal processing module 21 includes a signal conversion unit 211 and an image signal processing unit 212, wherein the signal conversion unit 211 is configured to convert the transmission signal transmitted by the video signal transmission interface 12 into an image signal for processing by the image signal processing unit 212.

Specifically, referring to fig. 3, the image display module 22 includes a touch display screen unit 221, a display screen driving unit 222 and a touch driving unit 223, wherein the display screen driving unit 222 receives the image signal processed by the image signal processing unit 212, and drives the touch display screen unit 221 to display the image signal for medical staff to view. Meanwhile, the touch display screen unit 221 can receive a touch instruction of the medical staff, and the touch driving unit 223 issues a communication instruction based on the touch instruction.

More specifically, in the present embodiment, the touch display screen unit 221 is a display, which is integrated on the host computer 2 and displays the image signal processed by the image signal processing unit 212 in real time when in use. Meanwhile, the display has a touch screen function, a camera menu including but not limited to parameters such as pixels and a display range of the camera 11 is presented on the display, and medical staff can send a corresponding touch instruction by touching the display, for example, the display range is expanded or reduced, the touch instruction is sent to the touch driving unit 223, and the touch driving unit 223 sends a corresponding communication instruction to the host 2.

Referring to fig. 1, the host 2 further includes a communication module 23, and with reference to fig. 2 and fig. 3, the communication module 23 is connected to the touch driving unit 223 and the image signal processing unit 212, the communication module 23 receives a communication instruction sent by the touch driving unit 223 and sends an adjustment instruction to the image signal processing unit 212 based on the communication instruction, and the image signal processing unit 212 performs corresponding adjustment based on the adjustment instruction, so as to achieve the purpose of viewing by medical staff.

Specifically, for example, in order to make the affected area more clearly visible, the medical staff sends a "display range reduction" touch instruction on the display, the touch driving unit 223 receives the touch instruction and sends a communication instruction to the communication module 23, the communication module 23 sends an adjustment instruction to the image signal processing unit 212 based on the communication instruction, and the image signal processing unit 212 adjusts the focal length of the camera 11 based on the adjustment instruction, so as to achieve the purpose of reducing the display range.

Referring to fig. 1, the host 2 further includes a storage device module 24, the storage device module 24 includes a storage device unit 241 and a download port 242, the storage device unit 241 is connected to the image signal processing unit 212 through the download port 242, and stores and backs up image video data processed by the image signal processing unit 212 in real time, so as to facilitate subsequent inquiry and viewing by medical staff.

Specifically, in this embodiment, the storage device unit 241 is a USB storage device, and may adopt a U disk, a mechanical hard disk HDD, a solid state disk SSD, or the like, and since the U disk is more convenient to carry than the HDD and the SSD, the U disk is adopted as the storage device unit 241 in this embodiment, and correspondingly, the download port 242 is a USB interface. When the USB flash disk is used, the USB flash disk is inserted into the USB interface, and the image video data processed by the image signal processing unit 212 can be backed up into the USB flash disk for subsequent checking.

Referring to fig. 1 and 4, the main body 2 further includes a cold light source module 25, the cold light source module 25 includes a light source driving board unit 251, a light source unit 252 and a light outlet 253, the light source driving board unit 251 is connected with the communication module 23 and the light source unit 252, the light source driving board unit 251 drives the light source unit 252 to emit a medical cold light source, and the medical cold light source reaches the medical endoscope handle 1 through the light outlet 253 to provide a medical cold light source for the camera 11. Meanwhile, the light source driving board unit 251 receives a control instruction sent by the communication module 23, and adjusts the medical cold light source parameters sent by the light source unit 252.

Specifically, in the present embodiment, an LED lamp is employed as the light source unit 252. For example, according to the treatment requirement, the medical staff needs to turn on the medical cold light source, touch operation is performed on the touch display screen unit 221 by the medical staff, a "turn on the medical cold light source" touch instruction is sent, the touch driver receives a corresponding touch instruction and sends a communication instruction to the communication module 23, the communication module 23 receives the communication instruction and sends a corresponding control instruction to the light source drive board unit 251, and the light source drive board unit 251 receives the control instruction and adjusts the medical cold light source sent by the LED lamp, so that the medical cold light source sent by the LED lamp is turned on to meet the treatment requirement.

Referring to fig. 1, in order to make the medical cold light source accurately adapt to the shooting position of the camera 11, a light guide unit 13 and a lens 14 are arranged on the handle 1 of the medical endoscope, the camera 11 is installed in the lens 14, and the light guide unit 13 guides the medical cold light beam emitted from the light outlet 253 to the lens 14, so that the medical staff can conveniently observe the medical cold light beam.

Specifically, in the present embodiment, the light guide unit 13 is a light guide beam, one end of the light guide beam is connected to the light outlet 253, the other end of the light guide beam is connected to the lens 14, the cold medical light source emitted by the light source unit 252 reaches the light guide beam through the light outlet 253, and the light guide beam guides the cold medical light source to the lens 14, moves along with the movement of the lens 14, and is used in synchronization with the camera 11.

Referring to fig. 1 and 5, the main body 2 further includes a power supply module 26, and the power supply module 26 includes a voltage conversion unit 261 and a battery 262, where the voltage conversion unit is used for connecting an external power supply and converting the voltage of the external power supply into the voltage required by the electric equipment in the main body 2 and the electric equipment in the medical endoscope handle 1 to supply power to the equipment. The battery 262 can temporarily supply power to the system, and the application scene of the medical endoscope camera system is expanded.

Specifically, in this embodiment, the voltage conversion unit 261 is a power adapter, and an input end of the power adapter is connected to 220V mains supply, and converts 220V voltage into a voltage suitable for the medical endoscope handle 1 and the host 2, for example, converts 220V voltage into 12V voltage, so as to ensure normal operation of the device. The battery 262 can directly supply power to the electric equipment inside the host machine 2 and the electric equipment inside the medical endoscope handle 1 without being connected with an external power supply, is more convenient for outdoor use,

in the present embodiment, the battery 262 is a rechargeable battery, and the voltage conversion unit 261 is further connected to the battery 262, and generally, when the medical endoscope imaging system is used in an operating room or an emergency room, the voltage conversion unit 261 converts the voltage of the external power supply into a voltage suitable for the system and supplies power to the system, and the voltage conversion unit 261 charges the battery 262. The charged battery 262 can be used as a backup power supply to temporarily power the system in a use scene such as 120-out emergency or a home doctor-out scene.

For the convenience of the reader to understand, fig. 6 shows an overall frame structure schematic diagram of the embodiment of the present application, and shows the connection relationship among the modules, units, components, and the like in the medical endoscope handle 1 and the main frame 2.

The implementation principle of the medical endoscope camera system of the notebook type portable all-in-one machine in the embodiment of the application is as follows: the camera 11 on the handle 1 of the medical endoscope collects video signals and transmits the video signals to the host machine 2, the image signal processing module 21, the image display module 22, the communication module 23, the cold light source module 25 and the battery 262 are all integrated on the host 2, the image signal processing module 21 processes the video signal, and transmits the processed image signal to the image display module 22 for display, the cold light source module 25 provides the camera 11 with the medical cold light source required for shooting, the medical staff can perform touch operation on the image display module 22, the image signal processing module 21 and the cold light source module 25 are adjusted according to corresponding parameters to meet the requirements of a medical process, and the battery 262 can be carried along with the system to provide temporary power supply for the system.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a medical endoscope camera system of portable all-in-one of notebook formula which characterized in that:

comprises a medical endoscope handle (1) and a host (2);

a camera (11) is arranged in the medical endoscope handle (1);

the host (2) comprises an image signal processing module (21), an image display module (22) and a power supply module (26);

the image signal processing module (21) is respectively connected with the camera (11) and the image display module (22);

the power supply module (26) is used for supplying power to the medical endoscope handle (1) and the host (2).

2. The medical endoscope camera system of the notebook and portable all-in-one machine of claim 1, characterized in that:

the power supply module (26) comprises a voltage conversion unit (261) and a battery (262);

the voltage conversion unit (261) is connected with an external power supply and the medical endoscope handle (1).

3. The medical endoscope camera system of the notebook and portable all-in-one machine of claim 2, characterized in that:

the battery (262) is a rechargeable battery;

the voltage conversion unit (261) is connected to the battery (262).

4. The medical endoscope camera system of the notebook and portable all-in-one machine of claim 1, characterized in that:

the medical endoscope handle (1) also comprises a video signal transmission interface (12);

the video signal transmission interface (12) is connected with the camera (11);

the video signal transmission interface (12) is used for converting the video signal collected by the camera (11) into a transmission signal.

5. The medical endoscope camera system of the notebook and portable all-in-one machine of claim 4, characterized in that:

the image signal processing module (21) comprises an image signal processing unit (212) and a signal conversion unit (211);

the signal conversion unit (211) is connected with the video signal transmission interface (12) and the image signal processing unit (212);

the signal conversion unit (211) is used for converting the transmission signal into an image signal;

the image signal processing unit (212) is used for processing the image signal.

6. The medical endoscope camera system of the notebook and portable all-in-one machine of claim 5, characterized in that:

the image display module (22) comprises a touch display screen unit (221), a display screen driving unit (222) and a touch driving unit (223);

the host (2) also comprises a communication module (23);

the display screen driving unit (222) is connected with the image signal processing unit (212) and the touch display screen unit (221);

the touch driving unit (223) is connected with the touch display screen unit (221) and the communication module (23);

the communication module (23) is connected with the image signal processing unit (212);

the touch driving unit (223) is used for controlling the image signal processing unit (212) to adjust the image signal through the communication module (23).

7. The medical endoscope camera system of the notebook and portable all-in-one machine of claim 6, characterized in that:

the host (2) also comprises a cold light source module (25);

the cold light source module (25) comprises a light source driving board unit (251) and a light source unit (252);

the light source driving board unit (251) is connected with the communication module (23) and the light source unit (252);

the light source driving board unit (251) is used for driving the light source unit (252) to generate a cold medical light source;

the touch driving unit (223) is used for controlling the light source driving board unit (251) to adjust the medical cold light source through the communication module (23).

8. The medical endoscope camera system of the notebook and portable all-in-one machine of claim 5, characterized in that:

also includes a storage device module (24);

the storage device module (24) is connected with the image signal processing unit (212).

Images