WO2024027181A1 - Endoscope medical monitoring system - Google Patents

Abstract

Provided is an endoscope medical monitoring system comprising an endoscope (1), a display (2) provided with a touch display screen (20), and a wearable physiological parameter monitoring device (3). A host (21) electrically connected to the touch display screen (20) is arranged in the display (2), and the host (21) has an image processor (210) integrated therein and is electrically connected to an alarm module (22). Both the physiological parameter monitoring device (3) and the endoscope (1) are in detachable electrical connection and/or wireless communication connection with the display (2). The touch display screen (20) is provided thereon with a human-computer interaction interface comprising an image display area (200) arranged in the middle of the touch display screen (20) for displaying images photographed by the endoscope (1) and an interaction area (201) arranged circumferentially around the image display area (200). The system integrates the display and processing of images and the processing and display of detection data on the display (2), which simplifies the structure and enables convenient carrying; moreover, the partition display on the touch display screen (20) allows for full understanding of various parameters at the same time and easy adjustment and control of theses parameters as well.

Description

An endoscopic medical monitoring system Technical field

The invention relates to medical equipment, in particular to an endoscopic medical monitoring system.

Background technique

In the field of medical electronic endoscopes, such as bronchoscopes, ureteroscopes, otolaryngoscopes, choledochoscopes, duodenoscopes, and gastroscopes, the image SENSOR of the insertion part of the endoscope is used to obtain the inside body of the subject. The image data is then transmitted to the image processor for image processing, and finally the image data is transmitted to the display screen for imaging display for the operator to view. In the field of traditional electronic endoscopes, the endoscope system consists of a scope body, an image processor, and a display. The scope body has an operating handle and an insertion tube. There is an image chip at the front end of the insertion tube, and the insertion part can be inserted into the patient's body. Organ cavities, such as lungs, gastrointestinal, kidney, bladder, etc., to obtain images inside the patient's body, and transmit the acquired image data to the image processor for image processing through the cable connected to the image processor on the scope. The image is then transmitted to the monitor for the operator to view.

At present, the image processing device and image display device of endoscopes are separated. When using it, users generally need to connect the electronic endoscope to the image processing device for image processing, and then transmit the processed image to the display for processing. Display is to facilitate the user's observation. Products that separate the data image processing device and the image display device are high in cost, large in size, and inconvenient to carry. At the same time, the display device also needs to be controlled by external equipment, and it cannot comprehensively display various items at the same time. The monitoring results are compared to clearly understand the overall condition of the person being tested.

technical problem

In view of the existing deficiencies, the present invention provides an endoscopic medical monitoring system.

Technical solutions

The technical solution adopted by the present invention to solve the technical problem is: an endoscopic medical monitoring system, which includes an endoscope, a display equipped with a touch screen, and a wearable physiological parameter monitoring device. The display is equipped with a A host that is electrically connected to the touch screen. An image processor is integrated on the host and an alarm module is electrically connected. The physiological parameter monitoring device and the display are detachably connected electrically and/or wirelessly. The internal The endoscope and the display are removably connected electrically and/or wirelessly. The touch display screen is provided with a human-machine interactive interface. The human-computer interaction interface includes a display device disposed in the middle of the touch display screen that displays images captured by the endoscope. The image display area and the interactive area arranged circumferentially around the image display area.

Preferably, the physiological parameter monitoring device is connected to the display through wireless communication, the physiological parameter monitoring device and the display are each provided with a wireless communication module, and the wireless communication module in the display is integrated on the host computer.

Preferably, the alarm module is an audible alarm and/or a light alarm device.

Preferably, the display is provided with multiple electrical connection interfaces.

Preferably, the physiological parameter monitoring device is wirelessly connected to the display through a cloud platform.

Preferably, the display is further provided with a storage module electrically connected to the host.

Preferably, a rechargeable battery electrically connected to the host computer is provided in the display.

Preferably, the interactive area includes a monitoring data display area for data detected by the physiological parameter monitoring equipment, a device status display area, a detected person identity information area, and an adjustment control area.

beneficial effects

The beneficial effects of the present invention are: the present invention integrates the display and processing of images and the processing and display of detection data on the display, simplifies the system structure, facilitates the carrying and transfer of the instrument, and the partitions on the touch display screen The display shows that various monitoring results are contrasted, and each parameter can be comprehensively understood at the same time, so that the condition of the person being tested can be fully and accurately understood. It can also be controlled on the display screen, making it easy to manage and regulate each testing data.

Description of the drawings

Figure 1 is a schematic structural block diagram of an embodiment of the present invention;

Names and serial numbers of the components in the figure: 1-endoscope 2-display 20-touch screen 21-host 22-alarm module 23-electrical connection interface 24-storage module 25-rechargeable battery 200-image display area 201-interaction Area 210 - Image processor 2010 - Monitoring data display area 2011 - Equipment status display area 2012 - Identity information area 2013 - Adjustment control area 3 - Physiological parameter monitoring equipment.

Embodiments of the invention

In order to more clearly illustrate the purpose, technical solutions and advantages of the embodiments of the present invention, the present invention will be further described below in conjunction with the drawings and embodiments to give a clear and complete description. Obviously, the described embodiments are part of the present invention. Examples, not all examples. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without any creative effort fall within the protection scope of the present invention. In addition, the directional terms mentioned in the present invention, such as "up", "down", "front", "back", "left", "right", "inside", "outside", etc., are only for reference. The directions and terms used in the attached figures are for better and clearer explanation and understanding of the present invention, rather than indicating or implying the necessary orientation of the present invention, and therefore cannot be understood as limiting the present invention.

The embodiment of the present invention is shown in Figure 1. An endoscopic medical monitoring system includes an endoscope 1, a display 2 with a touch screen 20, and a wearable physiological parameter monitoring device 3. The endoscope 1 can Use any existing electronic endoscope to detect internal conditions and obtain image data inside the body; the touch screen of the display 2 can be easily operated on it, and its size is set according to the use requirements, such as 14 inch, 10 inch, 12 inch, etc., the display 2 is used to display the in-vivo image acquired by the endoscope 1 and the physiological parameter data detected by the physiological parameter monitoring device 3; the wearable physiological parameter monitoring device 3 is an existing Any kind of wearable smart device is easy to use because it is wearable. The smart device can monitor any one or more physiological parameters such as blood oxygen saturation, heartbeat, ECG, blood pressure, pulse, and body temperature. If worn on Smart bracelets and smart rings on your hands, finger-clip measuring instruments on your fingers, smart glasses and smart hats on your head, smart clothes on your body, smart belts around your waist, etc. The display 2 is provided with a host 21 electrically connected to the touch screen 20. The host 21 is integrated with an image processor 210 and is electrically connected to an alarm module 22. The host 21 is used to process images captured by the endoscope 1 and The physiological parameter monitoring device 3 detects the physiological parameters and transmits the processing results to the display screen for display. In this way, the display and processing of the image and the processing and display of the detection data are integrated on the host 21 in the display 2. The image Processing and image display are combined into one, which simplifies the system structure and facilitates the portability and transfer of the instrument. It is not restricted by usage scenarios and does not need to rely on traditional monitoring equipment, which greatly expands the scope of use of the endoscope 1 and scene, the alarm module 22 is used to issue an alarm when various monitoring data are abnormal. The alarm module 22 is a sound alarm and/or a light alarm device. The sound alarm device uses a speaker or a buzzer, and the light alarm device uses a flashing light. Or use light of different colors to alarm. At this time, the sound alarm device and the light alarm device can be set separately or at the same time. As for the connection between the endoscope 1, the physiological parameter monitoring device 3 and the display 2, the physiological parameter monitoring device 3 and the display 2 are connected. The parameter monitoring device 3 and the display 2 are detachably connected electrically and/or wirelessly. If the device is detachable, the physiological parameter monitoring device is connected to the display 2 through a corresponding interface and then electrically connected to the host in the display 2. Preferably Wireless communication connection with the host 21. The wireless communication connection will not be bound by cables and is more convenient to use. The wireless communication connection can be realized by using wireless communication modes such as Bluetooth and WIFI. The endoscope 1 and the display 2 can The detachable electrical connection and/or wireless communication connection facilitates the storage and carrying of the endoscope 1 and the display 2. During use, just connect the endoscope 1 to the display 2. For connection, an endoscope interface can be set on the display 2. The interface can be an endoscope interface, or other data interface, such as a USB interface, HDMI interface, etc., and a corresponding matching one can be set on the connection line of the corresponding endoscope 1. The interface is enough. When not in use, the endoscope 1 can be detached from the display 2. Similarly, wireless communication can also be used between the two to meet various usage needs. The touch screen 20 is provided with human-machine interaction. interface, the human-computer interaction interface includes an image display area 200 arranged in the middle of the touch screen 20 that displays images captured by the endoscope 1, and an interactive area 201 arranged circumferentially around the image display area 200. The image captured by the endoscope 1 After being processed by the host 21, it is displayed in the image display area 200. It is located in the middle of the touch screen 20 to facilitate people's viewing. At the same time, the image display area 200 can also be displayed in split screens according to usage requirements. The interactive area 201 is used to display various The data detected by the physiological parameter monitoring equipment 3 and the manipulation of the image and the display 2, etc., at this time, the interactive area 201 includes the monitoring data display area 2010 of the data detected by the physiological parameter monitoring equipment 3, the equipment status display area 2011, and the person being detected The identity information area 2012, the adjustment and control area 2013, and the monitoring data display area 2010 display the data detected by each physiological parameter monitoring device 3, all in digital form for convenient and intuitive viewing; the equipment status display area 2011 displays the display 2's power status, connection status with the device, storage status in the display 2, etc., such as Bluetooth connection, storage capacity, etc.; the identity information area 2012 can combine the image acquired by the detected person and the endoscope 1 and The physiological parameters detected by the physiological monitoring device 3 are matched to avoid errors; adjusting the control area 2013 can adjust and set the parameters of each device, such as the monitoring parameters and control parameters of the physiological parameter monitoring device 3, and the image acquisition parameters of the endoscope 1 mode (photography or video recording), etc., so that the partition display on the touch screen 20 forms a contrast between various monitoring results, and each parameter can be fully understood at the same time, and the condition of the person being tested can be fully and accurately understood, and the situation of the person being tested can be fully and accurately understood. Controlling on the display screen makes it easy to manage and regulate each detection data.

Further improvement, as shown in Figure 1, the physiological parameter monitoring device 3 is connected to the display 2 through wireless communication. Both the physiological parameter monitoring device 3 and the display 2 are provided with wireless communication modules. The wireless communication module in the display 2 The communication module is integrated on the host 21, that is, a wireless communication module is provided in the physiological parameter monitoring device 3, and a wireless communication module is integrated on the host 21 in the display 2. The wireless communication module uses Bluetooth, WIFI and other modules, and the two are paired and connected during use. That’s it. At the same time, the physiological parameter monitoring device 3 can also be connected to the display 2 through wireless communication through the cloud platform. The cloud platform acts as an intermediary between the two to communicate and connect, making it more convenient to use.

Further improvement, as shown in Figure 1, the display 2 is also provided with a storage module 24 electrically connected to the host 21, and the storage module 24 is used to store the acquired images and physiological parameter data, such as setting up a memory card, as described The display 2 is provided with a rechargeable battery 25 that is electrically connected to the host 21. The rechargeable battery 25 is convenient to use, does not require an external power cord, and can be easily carried and transferred. The display 2 is provided with multiple The electrical connection interface 23 and multiple electrical connection interfaces 23 facilitate the connection between the display 2 and different devices, such as the endoscope interface, HDMI interface, and USB interface. The endoscope 1 is connected through the endoscope interface, and the endoscope 1 is connected through the USB interface. Connect a charging device to charge the rechargeable battery 25 in the display 2 or connect a storage device to obtain data information stored in the display 2 .

It should be understood that those skilled in the art can make improvements or changes based on the above description, and all these improvements and changes should fall within the protection scope of the appended claims of the present invention.

Claims (8)

1. An endoscopic medical monitoring system, characterized by: including an endoscope, a display equipped with a touch display screen, and a wearable physiological parameter monitoring device, and the display is provided with a host electrically connected to the touch display screen, The host computer is integrated with an image processor and is electrically connected to an alarm module. The physiological parameter monitoring equipment and the display are removably electrically connected and/or wirelessly connected. The endoscope and the display are removably electrically connected. connection and/or wireless communication connection, the touch display screen is provided with a human-computer interaction interface, the human-computer interaction interface includes an image display area arranged in the middle of the touch display screen to display the image captured by the endoscope, and an image display area surrounding the image display area. To set the interactive area.
2. The endoscopic medical monitoring system according to claim 1, characterized in that: the physiological parameter monitoring equipment is connected to the display through wireless communication, the physiological parameter monitoring equipment and the display are both equipped with wireless communication modules, and the physiological parameter monitoring equipment and the display are both equipped with wireless communication modules. The wireless communication module is integrated on the host computer.
3. The endoscopic medical monitoring system according to claim 1, characterized in that: the alarm module is an audio alarm and/or a light alarm device.
4. The endoscopic medical monitoring system according to claim 1, wherein the display is provided with a plurality of electrical connection interfaces.
5. The endoscopic medical monitoring system according to claim 1, characterized in that: the physiological parameter monitoring equipment is wirelessly connected to the display through a cloud platform.
6. The endoscopic medical monitoring system according to claim 1, wherein the display is further provided with a storage module electrically connected to the host.
7. The endoscopic medical monitoring system according to claim 1, wherein a rechargeable battery electrically connected to the host computer is provided in the display.
8. The endoscopic medical monitoring system according to claim 1, characterized in that: the interactive area includes a monitoring data display area for data detected by physiological parameter monitoring equipment, an equipment status display area, a detected person identity information area, and an adjustment and control area. .