CN209964170U

CN209964170U - Video output system of medical equipment and medical equipment

Info

Publication number: CN209964170U
Application number: CN201921127116.6U
Authority: CN
Inventors: 刘才军; 陈欣; 李建刚
Original assignee: Sonoscape Medical Corp
Current assignee: Sonoscape Medical Corp
Priority date: 2019-07-16
Filing date: 2019-07-16
Publication date: 2020-01-17
Anticipated expiration: 2029-07-16

Abstract

The utility model discloses a medical equipment's video output system, include: the system comprises a processor, an integrated display card, an independent display card connector, video matrix equipment and a single chip microcomputer; the processor is respectively connected with the integrated display card and the independent display card connector; the video matrix equipment is respectively connected with the integrated display card and the independent display card connector; the singlechip is connected with the video matrix equipment and is used for controlling the switching processor, the integrated display card, the independent display card connector and a channel for outputting video data by the video matrix equipment; the utility model can flexibly configure the independent display card according to the user requirement by the manufacturer through the arrangement of the independent display card connector, thereby reducing the condition of re-platemaking, fully utilizing resources and reducing the comprehensive cost of medical equipment; and through the setting of singlechip, can use the independent display card that corresponds integrated display card and/or independent display card connector connection to carry out video processing according to user's demand, improved work efficiency and problem handling capacity.

Description

Video output system of medical equipment and medical equipment

Technical Field

The utility model relates to a medical product technical field, in particular to medical equipment's video output system and medical equipment.

Background

At present, the video output mode of medical equipment (such as ultrasonic diagnostic equipment, electronic endoscopic equipment and the like) is single, and often only an integrated display card is configured to perform single-path output display, so that a user cannot select to adjust the display card for video processing in the use process, and the working efficiency is not high; and manufacturers need to re-make plates according to different user requirements (such as using an integrated display card or an independent display card), which causes waste of resources and cost.

Therefore, how to realize the flexible switching of the video cards for video processing, improve the use effect of users in different scenes, improve the work efficiency, fully utilize resources and reduce the comprehensive cost of medical equipment is a problem which needs to be solved urgently nowadays.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a medical equipment's video output system and medical equipment to the nimble switching of video processing's display card is carried out in the realization, improves work efficiency, reduces medical product comprehensive cost.

In order to solve the above technical problem, the utility model provides a medical equipment's video output system, include: the system comprises a processor, an integrated display card, an independent display card connector, video matrix equipment and a single chip microcomputer;

the processor is respectively connected with the integrated display card and the independent display card connector and is used for outputting video data to the integrated display card and/or the independent display card connected with the independent display card connector for video processing;

the video matrix equipment is respectively connected with the integrated display card and the independent display card connector, and is used for carrying out array switching on video data output by the integrated display card and/or the independent display card and outputting the video data to a connected display;

the single chip microcomputer is connected with the video matrix equipment and used for controlling and switching the processor, the integrated display card, the independent display card connector and a channel for outputting video data by the video matrix equipment.

Optionally, the system further comprises: the independent display card;

the independent display card is connected with the independent display card connector and used for carrying out video processing on the video data output by the processor.

Optionally, the independent display card is detachably connected with the independent display card connector.

Optionally, there is a multi-path connection between the independent graphics card connector and the video matrix device.

Optionally, the independent graphics card connector and the video matrix device are connected through a video splitter in a DP and HDMI.

Optionally, the independent graphics card connector and the video matrix device are further connected by a multi-path HDMI.

Optionally, there is a multi-path connection between the integrated graphics card and the video matrix device.

Optionally, the processor is connected to the independent graphics card connector in a PCIe manner.

Optionally, the video matrix device is provided with a plurality of output interfaces, and is configured to output video data to a display connected to each output interface according to an interface standard corresponding to each output interface.

Furthermore, the utility model also provides a medical equipment, include: a video output system for a medical device as claimed in any one of the preceding claims.

The utility model provides a medical equipment's video output system, include: the system comprises a processor, an integrated display card, an independent display card connector, video matrix equipment and a single chip microcomputer; the processor is respectively connected with the integrated display card and the independent display card connector and is used for outputting video data to the independent display card connected with the integrated display card and/or the independent display card connector for video processing; the video matrix equipment is respectively connected with the integrated display card and the independent display card connector, and is used for carrying out array switching on video data output by the integrated display card and/or the independent display card and outputting the video data to a connected display; the singlechip is connected with the video matrix equipment and is used for controlling the switching processor, the integrated display card, the independent display card connector and a channel for outputting video data by the video matrix equipment;

therefore, the utility model can flexibly configure the independent display card according to the user requirement through the arrangement of the independent display card connector, thereby reducing the condition of re-platemaking, fully utilizing resources and reducing the comprehensive cost of the medical equipment; and through the setting of singlechip, can use the independent display card that corresponds integrated display card and/or independent display card connector and connect to carry out video processing according to user's demand, improved work efficiency, problem processing ability and user's result of use in different scenes. Furthermore, the utility model also provides a medical equipment has above-mentioned beneficial effect equally.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a block diagram illustrating a video output system of a medical device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a video output system of another medical apparatus according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a block diagram of a video output system of a medical device according to an embodiment of the present invention. The system may include: the system comprises a processor 10, an integrated display card 20, an independent display card connector 30, video matrix equipment 40 and a single chip microcomputer 50;

the processor 10 is connected to the integrated graphics card 20 and the independent graphics card connector 30, and is configured to output video data to the independent graphics card connected to the integrated graphics card 20 and/or the independent graphics card connector 30 for video processing;

the video matrix device 40 is respectively connected with the integrated display card 20 and the independent display card connector 30, and is used for performing array switching on video data output by the integrated display card 20 and/or the independent display card and outputting the video data to a connected display;

the single chip microcomputer 50 is connected to the video matrix device 40, and is configured to control switching of channels of the processor 10, the integrated graphics card 20, the independent graphics card connector 30, and the video matrix device 40 for outputting video data.

It can be understood that the purpose of this embodiment may be to enable a manufacturer to flexibly configure an independent graphics card according to a user requirement by setting the independent graphics card connector 30, for example, an independent graphics card connected to the independent graphics card connector 30 is directly configured when the user has a use requirement of the independent graphics card, and an independent graphics card is not additionally configured when the user does not have the use requirement of the independent graphics card, so that a re-platemaking situation is reduced, resources can be fully utilized, and a comprehensive cost of a medical device is reduced; and through the singlechip 50 control switching treater 10, integrated display card 20, the passageway of independent display card connector 30 and video matrix equipment 40 output video data, can be according to user's selection, use the independent display card that integrated display card 20 and/or independent display card connector 30 are connected to carry out video processing, for example choose independent display card to show when carrying out high performance display (such as artificial intelligence AI and 3D show etc.), choose integrated display card 20 to show when carrying out general demonstration and calculation processing, the work efficiency and the problem processing ability of medical equipment have been improved, the result of use in different scenes of user has been promoted.

Correspondingly, the system provided by this embodiment may further include an independent display card connected to the independent display card connector 30, and if the user has a demand for use of the independent display card, the manufacturer may set the required independent display card to be connected to the independent display card connector 30, so that the independent display card may perform video processing on the video data received by the independent display card connector 30 and output the video data after the video processing to the video matrix device 40 through the independent display card connector 30. Correspondingly, the specific connection mode of the independent graphics card and the independent graphics card connector 30 can be set by a designer, for example, fixed connection can be adopted; the detachable connection can also be adopted to ensure that the independent display card connected with the independent display card connector 30 can be replaced by a subsequent user, and the independent display card is arranged according to the requirement of the user. The present embodiment does not set any limit to this.

Specifically, the single chip microcomputer 50 in this embodiment may control the switching processor 10, the integrated graphics card 20, the independent graphics card connector 30, and the channel through which the video matrix device 40 outputs the video data, that is, the single chip microcomputer 50 may control the switching processor 10 to output the channel through which the video data is output, and control the processor 10 to send the video data to the corresponding integrated graphics card 20 and/or the independent graphics card; the integrated display card 20 and the independent display card can be controlled to send the video data after video processing to the video matrix device 40 through the corresponding connecting lines by controlling the channel of the integrated display card 20 and the independent display card connector 30 for outputting the video data; by controlling the channel of the video matrix device 40 outputting the video data, the video matrix device 40 can be controlled to send the video data after the array switching to the display through the corresponding connection line.

It should be noted that, in order to further improve the expansibility and compatibility of video output of the medical device, the video matrix device 40 in this embodiment may be provided with a plurality of output interfaces, and is configured to output video data to the displays connected to each output interface according to the interface standard corresponding to each output interface; so that the video matrix device 40 can output video data to a plurality of displays for display. Specifically, the specific types of the plurality of output interfaces set by the video matrix device 40, that is, the respective Interface standards of the plurality of output interfaces, may be set by a designer, for example, the Interface standards of at least two output interfaces may be different from each other, so as to ensure that the video matrix device 40 may output video data to different displays, as shown in fig. 2, the Interface standards of two output interfaces may be different from each other in 4 output interfaces (DP, HDMI1, HDMI2, and HDMI3) of the video matrix device 40 (video matrix SWITCH), which are respectively DP (display port, a High Definition digital display Interface standard) and HDMI (High Definition Multimedia Interface ). The present embodiment does not set any limit to this.

Correspondingly, the integrated graphics card 20 and the independent graphics card connector 30 in this embodiment may be respectively connected to the video matrix device 40 in multiple ways, so that each connection line corresponds to one output interface of the video matrix device 40, and the workload of the video matrix device 40 is reduced. As for the specific connection mode between the integrated graphics card 20 and the independent graphics card connector 30 and the video matrix device 40 in this embodiment, the specific connection mode may be set by the designer, for example, the integrated graphics card 20 and the independent graphics card connector 30 may be directly connected to the video matrix device 40, for example, the independent graphics card connector 30 and/or the integrated graphics card 20 may be connected to the video matrix device 40 through multiple HDMI channels, for example, the independent graphics card connector 30 connected to an MXM graphics card (independent graphics card) in fig. 2 may be connected to the video matrix device 40 through an MXM HDMI-2 line and an MXM HDMI-3 line, respectively; the video matrix device 40 may also be connected by other devices, such as the separate graphics card connector 30 and/or the integrated graphics card 20 and the video matrix device 40 are multiplexed by a video Splitter, such as the separate graphics card connector 30 in fig. 2 may be connected by a video Splitter (Splitter) to the video matrix device 40 (video matrix SWITCH) through a DP connection (MXM DP) and an HDMI connection (MXM HDMI-1); the connection of the integrated graphics card 20 and the independent graphics card connector 30 to the video matrix device 40, respectively, may also be implemented in a combination of the above two ways. The present embodiment does not set any limit to this.

Specifically, the specific device types and connection modes of the processor 10 and the integrated graphics card 20 in this embodiment may be set by a designer according to practical scenarios and user requirements, for example, the method may be implemented in the same or similar manner as in the prior art, as shown in fig. 2, the processor 10 and the integrated graphics card 20 (integrated GPU) in this embodiment may be integrated in an X86CPU chip. The embodiment is not limited to this as long as the processor 10 is ensured to send the video data to the integrated graphics card 20 and/or the independent graphics card connected to the independent graphics card connector 30 for video processing according to the control of the single chip microcomputer 50. Correspondingly, as shown in fig. 2, the processor 10 may send the video data to the independent graphics card (MXM graphics card) connected to the independent graphics card connector 30 through PCIe x 16, that is, there is PCIe (peripheral component interconnect express) connection between the processor 10 and the independent graphics card connector 30.

It can be understood that, for the specific way in which the single chip microcomputer 50 controls the switching processor 10, the integrated graphics card 20, the independent graphics card connector 30, and the video matrix device 40 to Output the channels of the video data, the specific way can be set by a designer, for example, when performing applications such as artificial intelligence AI, 3D display, etc., a large amount of computation and large-capacity storage space are required due to the need of enhanced algorithm processing, the single chip microcomputer 50 can be switched to the independent graphics card channels by using a BIOS (Basic Input Output System) operation, and an appropriate display channel is selected for display Output; if general display and calculation processing is performed, the single chip microcomputer 50 can be switched to the channel of the integrated graphics card 20 by using the BIOS operation, and an appropriate display channel is selected for display output. That is, the user can select to perform BIOS flexible configuration through OSD (on-screen display), and select one or more of the multiple video signals to output and display.

Correspondingly, the system provided by the embodiment may further include an audio processing device (such as an integrated sound card and an independent sound card) so that the medical device may perform multimedia display and speech input/output processing when the user needs to interact with speech, thereby improving user experience. Correspondingly, the audio processing device may be connected to the processor 10 and the video matrix device 40, respectively, perform audio processing on the audio data output by the processor 10, and transmit the processed audio data to the video matrix device 40. That is, the video matrix device 40 in the present embodiment may be an audio-visual matrix device 40.

In this embodiment, the embodiment of the present invention, through the arrangement of the independent display card connector 30, the manufacturer can flexibly configure the independent display card according to the user requirement, thereby reducing the situation of re-making the plate, fully utilizing the resources, and reducing the comprehensive cost of the medical equipment; and through the setting of singlechip 50, can use the independent display card that corresponds integrated display card 20 and/or independent display card connector 30 and connect to carry out video processing according to user's demand, improved work efficiency, problem processing ability and the result of use of user in different scenes.

Furthermore, the embodiment of the utility model provides a medical equipment is still provided, include: the video output system of the medical device provided by the above embodiment.

As shown in fig. 2, the video output system of the medical device may be disposed in an industrial Personal Computer (PC) of the medical device.

It should be noted that the medical apparatus according to the embodiment of the present invention may be an ultrasonic diagnostic apparatus or an electronic endoscope apparatus.

The video output system of the medical equipment and the medical equipment provided by the utility model are introduced in detail. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims

1. A video output system for a medical device, comprising: the system comprises a processor, an integrated display card, an independent display card connector, video matrix equipment and a single chip microcomputer;

2. The video output system of a medical device according to claim 1, further comprising: the independent display card;

3. The video output system of a medical device according to claim 2, wherein the stand-alone graphics card is removably connected to the stand-alone graphics card connector.

4. The video output system of a medical device of claim 1, wherein there is a multi-way connection between the standalone graphics card connector and the video matrix device.

5. The video output system of the medical device according to claim 4, wherein the DP connection and the HDMI connection are performed between the independent video card connector and the video matrix device through a video splitter.

6. The video output system of the medical device according to claim 5, wherein the separate graphics card connector is further connected to the video matrix device via a multi-way HDMI connection.

7. The video output system of a medical device according to claim 1, wherein there is a multi-way connection between the integrated graphics card and the video matrix device.

8. The video output system of a medical device of claim 1, wherein a PCIe connection is made between the processor and the separate graphics card connector.

9. The video output system of the medical device according to any one of claims 1 to 8, wherein the video matrix device is provided with a plurality of output interfaces for outputting video data to the display connected to each of the output interfaces according to the interface standard corresponding to each of the output interfaces.

10. A medical device, comprising: a video output system for a medical device as claimed in any one of claims 1 to 9.