TWM596945U - Medical image processing device - Google Patents

Abstract

This disclosure is related to a medical image processing device, wherein the medical image processing device includes a screen and a main body. The main body of the medical image processing device is provided with a main controller, a first PCI device, a second PCI device and a power supply device. The main controller is electrically coupled with the screen, the first PCI device is electrically coupled with the main controller and further disposed on the right side of the main controller. The second PCI device is electrically coupled with the main controller and further disposed on the left side of the main controller. Furthermore, the first PCI device includes a first A high-speed PCI device combined with a first B high-speed PCI device. This disclosure can be connected to a lot of different types of external image capture devices to expand and connect different medical peripheral devices. This disclosure is satisfied the various engineering specifications and conditions of medical-type devices, meanwhile this disclosure also has the effect of anti-radiation, anti-static and anti-interference of electrical data processing.

Description

Medical image processing device

The present invention relates to a medical image processing device, in particular to a medical image processing device which can flexibly use various external connection cards and has a flexible and expandable connection structure with multiple PCI insertions.

In the prior art, medical image display devices are required to have high-speed calculation processing, high image resolution, and be able to use various external connection cards with flexibility, and also need to have a variety of PCI (external component connection bus Row) flexible and expandable connection structure, so that the image display device for medical use can be connected with various medical peripheral equipment or medical devices with different functions for image connection, transmission and image processing operations. Preferably, if the medical image display device has a central computing processor that can be applied to different brands, it will be more able to meet the needs of the current market. However, there is currently no medical image display device capable of installing multiple PCI flexible expansion terminals and meeting the requirements of the medical use environment, which needs to be improved.

This creation discloses a medical image processing device. In view of the above-mentioned existing shortcomings, it proposes a device capable of multiple PCI expansion connections, which can be plugged into a variety of different types of external image capture to expand and connect different medical peripheral devices; and An image processing device with high-resolution and high-speed operation and a medical device with multiple images processing simultaneously meet various engineering specifications and conditions of medical devices. In addition, this creation is not only suitable for central computing processors of different brands, but also has the effects of electrical data processing of anti-radiation, anti-static and anti-interference. Since this creation can be applied to a variety of high-speed computing processing brand central microprocessors, the medical image processing device described in this creation can be used as a medical image processing device with AI function or big data processing.

The medical image processing device of the present invention, wherein the medical image processing device includes a screen and a body, the screen is disposed on the front of the body, and the main area of the front of the body is the screen, so that the front of the body Only the frame area is left; the body of the medical image processing device is provided with: a main controller, which is electrically coupled to the screen, and the main controller mainly performs arithmetic processing for the medical image processing device And a control circuit; a first PCI device electrically coupled to the main controller, the first PCI device is disposed on the right side of the main controller; the first PCI device includes a first PCI Express device And a first b high-speed PCI device; a second PCI device electrically coupled to the main controller, the second PCI device is located on the left side of the main controller; a power supply device is located at The right side of the first PCI device is electrically coupled to the main controller. The power supply device is an input mains power supply, and the power supply device is a power source for supplying the operation of the medical image processing device.

In order to further understand the characteristics and technical content of this creation, please refer to the following detailed description and drawings of this creation. However, the drawings provided are for reference and explanation only, and are not intended to limit this creation.

The present invention is to disclose a medical image processing device with multiple PCI expansion connections, which can be plugged into a variety of different types of external image capture to expand and connect different medical peripheral devices. Furthermore, the medical image processing device proposed in this creation is a medical image processing device with AI artificial intelligence. This is because this creation not only has the ability to add various PCI (Peripheral Component Interconnect or Personal Computer Interface) External devices connected to the bus related devices, such as various high-speed network cards, optical fiber network cards, image display capture cards, various HDMI image capture cards, HD-SDI image capture cards, and a variety of connector styles ( Such as: USB-type C, mini USB, micro USB) USB2.0, 3.0 specification ports, that is, this creation can achieve fast calculation processing and high-resolution image processing specifications to meet various engineering specifications of medical devices With conditions. In addition, this creation is not only suitable for central computing processors of different brands, but also has the effects of electrical data processing of anti-radiation, anti-static and anti-interference.

In the following, reference will be made to the accompanying drawings in order to more fully describe the various exemplary embodiments, and some exemplary embodiments are shown in the accompanying drawings. However, the concept of this creation may be embodied in many different forms and should not be interpreted as being limited to the exemplary embodiments set forth herein. Specifically, the provision of these exemplary embodiments makes this creation detailed and complete, and will fully convey the scope of this creation concept to those skilled in the art. In the drawings, the relationship between the size of a certain element, part, object or image and the relative size and connection or coupling can be exaggerated for clarity; in addition, similar numbers always indicate similar elements.

It should be understood that although the terms above or below, left or right, etc. may be used herein, these terms are used to clearly distinguish the relationship between the position of an element and the relative position of the element, or to distinguish between an element and another element The difference in position or the relative positional relationship between different components is not intended to limit the sequence relationship presented by the text serial number. Therefore, the left (or front) elements discussed below can be referred to as right (or back) elements without departing from the teaching of this creative concept; and there is not necessarily a continuity or order relationship in words or numbers; in addition, this article may The term "plurality" is used to describe having multiple elements, but these multiple elements are not limited to the implementation of two, three, or four and more than four elements. The above is described first.

Referring to FIGS. 1 and 2, this is a schematic perspective view of a medical image processing device 10 created. The medical image processing device 10 includes a screen 16 and a body 12 and a housing cover 14. In an embodiment, the housing The cover 14 is mounted on the back of the body 12, as shown in FIG. Through the combination of the screen 16, the body 12 and the cover 14, a whole medical image processing device 10 is formed. On the other hand, the cover 14 can also be designed as a part extending from the structure of the body 12 itself or as two components different from the body 12. The screen 16 is disposed on the front surface of the body 12, and the main area of the front surface of the body 12 is the screen 16. As shown in FIG. 2, only one frame area is left on the front surface of the body 12, in one embodiment, the The border area mentioned is a narrow border area.

Referring to FIG. 3, the body 12 of the medical image processing device 10 is provided with: a main controller 20, a first PCI device 40, a second PCI device 50, and a power supply device 74. As shown in FIG. 2, at this time, the installation position of the aforementioned screen 16 is at the bottom of the body 12, so the screen 16 is not shown in FIG. Among them, the main controller 20 is electrically coupled to the screen 16, and during this period, a display control circuit 29 provided inside the main controller 20 is used as a connection circuit for electrical coupling (as shown in FIG. 5). The controller 20 is a circuit within the entire medical image processing device 10 that is mainly responsible for performing all calculation processing and overall image display, medical image transmission, image resolution, and other related control. The first PCI device 40 is electrically coupled to the main controller 20. In the assembly of the actual device, the first PCI device 40 is disposed on a right side of the main controller 20; the first The second PCI device 50 is electrically coupled with the main controller 20, and at the same time, the second PCI device 50 is disposed on a left side of the main controller 20 in terms of the actual location. The power supply device 74 is disposed on the right side of the first PCI device 40 and is electrically coupled to the main controller 20. In addition, the power supply device 74 is for inputting a commercial power supply, that is, AC power for general households, and the power supply device 74 is mainly for supplying the power supply source required by the medical image processing device 10 when performing operations and calculations.

Please refer to FIG. 4. In the main body 12, on both sides of the main controller 20, a first PCI device area 124 and a second PCI device area 126 are respectively provided. The first PCI device area 124 is used to install The aforementioned first PCI device 40 is provided; the second PCI device area 126 is used for installing the aforementioned second PCI device 50. 4 shows that the component content of the first PCI device 40 is composed of a first a-speed PCI device 40a and a first b-speed PCI device 40b (as shown in FIG. 4). Furthermore, the first a-speed PCI device 40a and the first b-speed PCI device 40b constitute a double-slot PCI Express for High End Graphics (Double Slot PCI Express for High End Graphics). In addition, the second PCI device 50 is composed of a single-slot high-speed PCI device (the actual device is PCI Express[x1] Slot) and a multi-slot high-speed PCI device (the actual device is PCI Express[x4] Slot). to make.

In FIG. 4, the main controller 20 further includes a housing 21 which is mainly used as an outer cover of the main controller 20. A side of the main controller 20 further includes a fan 22 for dissipating the heat generated by the main controller 20 during operation. At the same time, the body 12 further includes an AC power quick release device 72, an overcapacity storage device 70, an anti-radiation device 76 and an anti-static device 78. The AC power quick release device 72 is provided in the interface element connected to the power device 74, as shown in FIG. 4, the AC power quick release device 72 is provided below the power device 74, and the AC power quick release device 72 is actually manufactured The upper part is an AC Inlet module. The super-capacity storage device 70 is provided on a left side of the second PCI device 50. In practical use, the super-capacity storage device 70 is a dual hard disk storage module, which is combined into an ultra-high capacity Data storage device.

The medical image processing device 10 of the present invention further includes an anti-radiation device 76. The anti-radiation device 76 is not shown in FIG. 4, but there is a block diagram of the anti-radiation device 76 in FIG. It is connected with the main controller 20. The anti-radiation device 76 of the present invention can be provided on the inner surface of the housing 21 in the main controller 20, that is, the anti-radiation device 76 is attached to the inner surface of the housing 21 and has anti-interference In practical applications, the anti-radiation device 76 is implemented with a polyester film (Mylar). The medical image processing apparatus 10 further includes an anti-static device 78. The anti-static device 78 is not shown in FIG. 4, but there is a block diagram of the anti-static device 78 in FIG. The main controller 20 has a connected relationship. The anti-static device 78 is disposed on the inner surface of a housing 21 in the main controller 20, and the anti-static device 78 is attached to the inner surface of the housing 21 and has an anti-interference effect . On the other hand, the anti-static device 78 can also be installed at the connector end of the cable of various signal lines, and covered with an anti-static electromagnet for the anti-static purpose.

Referring to FIG. 5, it is a block connection diagram for further illustrating the internal characteristic circuit structure of the authoring main controller 20. The main controller 20 includes: a high-speed computing processor 30, a first PCI device interface circuit 23, a second PCI device interface circuit 24, a USB signal interface circuit 25, an isolated LAN interface circuit 27, a The HDMI interface circuit 26, a power interface circuit 28 and a display control circuit 29. The high-speed arithmetic processor 30 is the core element in the main controller 20 that is mainly responsible for arithmetic processing and control. The first PCI device interface circuit 23 is electrically coupled to the high-speed computing processor 30 as an interface electrically coupled to the aforementioned first PCI device 40; the second PCI device interface circuit 24 is also electrically coupled Connected to the high-speed computing processor 30, the second PCI device interface circuit 24 functions as an interface circuit electrically coupled to the second PCI device 50. The USB signal interface circuit 25 is electrically coupled to the high-speed computing processor 30 and serves as an interface for plugging in with external USB components. The HDMI interface circuit 26 is electrically coupled to the high-speed computing processor 30 as an interface for plugging in an external HDMI signal line. The isolated LAN interface circuit 27 is also electrically coupled to the high-speed computing processor 30, and is used as an interface circuit for a plug-in network. The power interface circuit 28 is electrically coupled to the high-speed computing processor 30, and is mainly used to interface with the power supply device 74. The power supply device 74 is further electrically coupled to the AC power quick release device 72. Therefore, in FIG. 5, it is represented by a dotted connecting line. The display control circuit 29 is electrically coupled to the high-speed computing processor 30 and electrically coupled to the screen 16 at the same time, mainly as a control function corresponding to the image display on the screen 16.

Furthermore, the high-speed arithmetic processor 30 shown in FIG. 5 includes a microcontroller specification reading microcircuit 32, a microcontroller normalization microcircuit 34, and a microcontroller signal image processing microcircuit 36. Among them, the microcomputer specification reading microcircuit 32 is used to receive and read the specifications of the central computing processors of different manufacturers. For example, the author can read: the electrical characteristics of high-speed central processing processors of different manufacturers such as NVIDIA, Intel, AMD, etc. . The micro-controller normalized micro-circuit 34 is electrically coupled to the micro-controller specification reading micro-circuit 32, and performs differential adjustments on the electrical characteristics of the central computing processor of different specifications. The microcontroller signal image processing microcircuit 36 is electrically coupled to the microcontroller normalization microcircuit 34, and outputs the image processing signal of the central processing unit after performing adjustment differentiation.

FIG. 6 is a schematic diagram of the bottom structure of the device for creating an actual medical device for the medical image processing device 10. As shown in FIG. 6, from the left to the right, a power input terminal 61, a dual-slot high-end image processing high-speed PCI terminal 62, a local network terminal 63, a USB terminal 64, a single-slot high-speed PCI terminal 65a, A multi-slot high-speed PCI terminal 65b and an HDMI terminal 66. Wherein, the USB terminal 64 is adjacent to the right side of the local network terminal 63, the multi-slot high-speed PCI terminal 65b is disposed under the single-slot high-speed PCI terminal 65a, and the HDMI terminal 66 is an HDMI The plug socket is located at the far right side of the bottom medical image processing device 10, and the power input 61 is a mains power plug socket located at the far left side of the bottom medical image processing device 10.

In practical use, the embodiment of the first PCI device 40 described in this creation is a double-slot PCI Express for High End Graphics (Double Slot PCI Express for High End Graphics). The first PCI device 40 can be a high-end image The processor card (High End Graphics Card) or a graphics processing accelerator card (GPU Accelerator Card) can actually be used in this creation: NVIDIA GEFORCE GTX 1080, NVIDIA QUADRO RTX 6000, NVIDIA TESLA P40, etc. In addition, the multi-slot high-speed PCI device (the actual device is PCI Express [x4] Slot) in the second PCI device 50 of this creation is used as a video capture device (Video Capture), which can actually be used by this creation Including: 4K HDMI Capture, 4K Dual HDMI Capture, Quad Full HD HDMI Capture and Quad HD-SDI Capture; where Quad HD-SDI Capture is a medical-specific image capture card, such as using Quad HD-SDI Capture as a colonoscopy or Image processing of gastroscope related endoscopy. In addition, the network card that needs to be plugged and connected to the local network terminal 63 corresponding to the isolated LAN interface circuit 27 can actually be a fiber local area network card (Fiber LAN Card), including: Single 10Gb Fiber LAN or Dual 1Gb Fiber LAN and so on. Furthermore, the isolated input/output card (I/O Card) can be OPM-C02C in actual use, that is, One Isolated USB 2.0+Two Isolated RS-232 or Four Isolated RS-232 of 9686011400.

The author also proposes a method of medical image processing device, which can be used in the medical image processing device as described above. The method is mainly aimed at making the medical image processing device 10 of the present invention comply with medical regulations practice. Among them, the method includes: first, adjust the DC specification of the power cord to: DC out K5B RC 16*28*9-M2 2PCS; AC adjust to: AC in K5B RC12-29-7 1PCS; then connect the USB The interface circuit adds a protective washer, the specification of the protective washer is: 25*7*2t m/m; In addition, the HDMI interface circuit adds a protective washer, the specification of the protective washer is: 6*5-12 m/m; Mylar (MYLAR) is attached to the inside of the main body and the inside of the main controller, so it can also achieve the effects of anti-radiation, anti-static and anti-interference, and fully meet the requirements of medical regulations.

In summary, in this creation, there will be multiple PCI expansion connections, which can be used for the insertion and expansion of multiple image processing cards or graphics accelerator cards for many different types of external image capture devices, thereby connecting different Medical peripheral equipment. Because this creation is highly extensible, this creation can have high-resolution, high-speed image processing and the function and efficiency of simultaneous processing of multiple images; moreover, this creation can meet various electrical requirements of medical devices Engineering specifications and conditions. In addition, this creation is not only suitable for central computing processors of different brands, but also has the effects of electrical data processing of anti-radiation, anti-static and anti-interference. Obviously, this creative technical content has extremely strong patent application requirements.

However, the content described in this creation note is only an example of the preferred embodiment, and it should not be used to limit the scope of protection of this creation, any relevant local changes, minor modifications, amendments or added technologies, or digital Or changes in location, etc., still within the scope of protection of this creation.

10: Medical image processing device 12: Ontology 14: Shell cover 16: screen 20: Main controller 21: Shell 22: Fan 23: First PCI device interface circuit 24: Second PCI device interface circuit 25: USB signal interface circuit 26: HDMI interface circuit 27: Isolated LAN interface circuit 28: Power interface circuit 29: Display control circuit 30: High-speed computing processor 32: Microcontroller specification reading microcircuit 34: Microcontroller signal normalization microcircuit 36: Microcontroller signal image processing microcircuit 40: First PCI device 40a: the first a high-speed PCI device 40b: the first b high-speed PCI device 50: Second PCI device 61: Power input 62: Dual-slot high-end image processing high-speed PCI end 63: LAN side 64: USB 65a: Single slot high-speed PCI end 65b: Multi-slot high-speed PCI end 66: HDMI 70: Super capacity storage device 72: AC power quick release device 74: power supply unit 76: Anti-radiation device 78: Anti-static device 124: First PCI device area 126: Second PCI device area

FIG. 1 is a schematic perspective view of the device of the creative embodiment;

FIG. 2 is a partial exploded schematic diagram of the device of the creative embodiment;

FIG. 3 is a schematic diagram of the internal device of the body of the authoring embodiment;

FIG. 4 is an exploded schematic diagram of the internal part of the creative embodiment;

5 is a schematic diagram of circuit block connection according to an embodiment of the invention;

FIG. 6 is a schematic diagram of the bottom composition of the device of the authoring embodiment.

20: Main controller

21: Shell

40: First PCI device

50: Second PCI device

70: Super capacity storage device

72: AC power quick release device

74: power supply unit

Claims (9)

A medical image processing device, the medical image processing device includes a screen, a body and a cover, the screen is provided on the front of the body, the cover is provided on the back of the body, and the main area of the front of the body That is the screen, leaving only the frame area on the front of the body; the body of the medical image processing device is provided with: A main controller, the main controller is electrically coupled to the screen, and the main controller is a circuit that mainly performs arithmetic processing and control inside the medical image processing device; A first PCI device is electrically coupled to the main controller, and the first PCI device is disposed on the right side of the main controller; the first PCI device includes a first a-speed PCI device and a first b Composed of high-speed PCI devices; A second PCI device electrically coupled to the main controller, the second PCI device is disposed on the left side of the main controller; A power supply device is provided on the right side of the first PCI device and is electrically coupled to the main controller. The power supply device is an input mains power supply, and the power supply device is a power source for supplying the medical image processing device . The medical image processing device according to claim 1, wherein both the first a-speed PCI device and a first b-speed PCI device form a dual-slot high-end image processing high-speed PCI device. The medical image processing device according to claim 1, wherein the second PCI device comprises a single-slot high-speed PCI device and a multi-slot high-speed PCI device. The medical image processing apparatus according to claim 1, wherein the main controller includes: A high-speed arithmetic processor is the core component in the main controller that is mainly responsible for arithmetic processing and control; A first PCI device interface circuit electrically coupled to the high-speed computing processor as an interface electrically coupled to the first PCI device; A second PCI device interface circuit, electrically coupled to the high-speed computing processor, as an interface electrically coupled to the second PCI device; A USB signal interface circuit, electrically coupled to the high-speed computing processor, as an interface for plugging in with external USB components; An isolated LAN interface circuit, electrically coupled to the high-speed computing processor, as an interface for plugging in the network line; An HDMI interface circuit, electrically coupled to the high-speed computing processor, as an interface for plugging in an external HDMI signal line; A power supply interface circuit electrically coupled to the high-speed computing processor as an interface for plugging in the power supply device; and A display control circuit is electrically coupled to the high-speed computing processor and electrically coupled to the screen as a control function for image display on the screen. The medical image processing device according to claim 3, wherein the high-speed computing processor includes: A micro-controller specification reading micro-circuit for receiving and reading different specifications of the central computing processor; A micro-controller normalizes the micro-circuit, electrically coupled to the micro-controller specification reading micro-circuit, and performs differential adjustment on the electrical characteristics of the central computing processor of different specifications; A microcontroller signal image processing microcircuit is electrically coupled to the microcontroller normalized microcircuit, and outputs the image processing signal of the central processing processor after performing adjustment differentiation. The medical image processing device according to claim 1, wherein the power supply device includes an AC power quick release device. The medical image processing device according to claim 1, wherein the body includes a super-capacity storage device, and the super-capacity storage device is provided on a left side of the second PCI device. The medical image processing device according to claim 1, which includes an anti-radiation device, which is provided on the inner surface of a housing in the main controller, and the anti-radiation device is attached to the On the inner surface of the shell, and has anti-interference effect. The medical image processing device according to claim 1, which includes an anti-static device which is provided on the inner surface of a casing in the main controller, and the anti-static device is attached to the On the inner surface of the shell, and has anti-interference effect.

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