CN214846473U - Device capable of realizing computer data and peripheral shared cooperation across CPU architecture - Google Patents

Abstract

The utility model discloses a device which can realize the sharing and coordination of computer data and peripheral equipment by crossing CPU architecture, comprising a KVM switcher, a network concentrator, a first USB network card and a second USB network card; the KVM switcher is used for sharing a set of keyboard, a display and a mouse between a new computer and an original X86 computer; the new computer and the original X86 computer use different CPU instruction set architectures and different operating systems, the network interfaces of the first USB network card and the second USB network card are connected, the operating system installed on the new computer is a non-Windows operating system and a set of file sharing service program is installed, the operating system installed on the original X86 computer is a Windows operating system and a set of auxiliary program is installed, and therefore sharing of data storage space, sharing of basic peripheral and sharing of networks between the computers of different CPU architectures and different operating systems are achieved.

Description

Device capable of realizing computer data and peripheral shared cooperation across CPU architecture

Technical Field

The utility model relates to a computer technology field, concretely relates to can stride CPU framework and realize computer data and peripheral hardware sharing synergistic device.

Background

With the continuous development of electronic information technology, various computer operating systems and various CPU instruction set architectures appear. The application program format and the file system format adopted by the computers respectively adopting different operating systems or different CPU instruction set architectures are different, so that the problem that the application program and the data standards of different architectures and systems are incompatible with each other exists.

For historical reasons, the CPU is mostly constructed by using computers in China based on an X86 instruction set and a Windows operating system is used. The X86 instruction set architecture (The X86 architecture) is a computer CPU instruction set issued by Intel corporation of america, and has been widely used globally over The course of 30 years of development. However, in recent years, more and more computers in China begin to use non-X86 instruction set architecture CPUs or non-Windows operating systems, and the application program format, file system format and the like of the computers are incompatible with the X86 instruction set architecture CPUs and the Windows operating systems.

When a new computer and an old computer are replaced, a large number of complex application programs and data are usually stored in an original X86 computer and need to be migrated and converted into the new computer, and when the new computer uses a non-Windows operating system or a CPU with an X86 instruction set architecture, the new computer has a certain incompatibility problem with the Windows operating system or the CPU with the X86 instruction set architecture used by the original X86 computer, so that the migration and conversion of the application programs and the data are difficult to solve in a short time and a long replacement transition period is needed. In the period, a user needs to use two computers with different operating systems or CPU instruction set architectures at the same time, but the two computers are independent from each other, data are stored in the two computers, data migration and interaction conversion usually needs to frequently use third-party equipment or software, and the use is inconvenient; and the user needs to frequently switch and use two sets of keyboard and mouse and two displays to operate the two computers, so that the operation is very inconvenient.

In order to overcome the problems, a device capable of realizing computer data and peripheral sharing cooperation by crossing a CPU (Central processing Unit) architecture is designed, in the replacement process of a new computer and an old computer, the data and peripheral sharing cooperation device is small in size, the new computer and an original X86 computer (a computer based on an X86 instruction set architecture CPU) can be connected together, and a user can continue to use the original set of keyboard, display and mouse to operate the two computers; under the condition of not additionally arranging a network cable, the two computers of the new computer and the original X86 computer can be simultaneously connected to the internet, and the sharing of the data storage space and the data sharing cooperation between the two computers of the new computer and the original X86 computer are realized in a network file sharing mode. In the process of replacing a new computer and an old computer, the data and peripheral shared cooperative device can effectively improve the operation efficiency, enhance the convenience of users in use, save the input cost of peripherals such as computer keyboards, displays, mice and the like, certainly contribute to the popularization of non-X86 instruction set architecture CPU computers and promote the diversified development of computer products.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above problems, an object of the present invention is to provide a device for realizing computer data and peripheral sharing collaboration across a CPU architecture.

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

a device capable of realizing computer data and peripheral sharing coordination across a CPU architecture comprises a shell, wherein a KVM switcher, a network concentrator, a first USB network card and a second USB network card are arranged in the shell; the KVM switcher is provided with first to third video signal interfaces, first to second USB interfaces, a keyboard interface, a mouse interface and a KVM switching interface; the network hub is provided with first to third network ports and a power supply interface; the network cable interface of the first USB network card is connected with the network cable interface of the second USB network card; a first video signal interface, a second video signal interface, a third video signal interface, a first USB interface, a second USB interface, a mouse interface, a keyboard interface and a KVM switching interface on the KVM switcher respectively extend out of the shell; the first network port, the second network port, the third network port and the power interface on the network concentrator respectively extend out of the shell; and the USB interfaces of the first USB network card and the second USB network card respectively extend out of the shell.

Further, the KVM switchThe KVM in the device is a keyboard (Ke)_yboard), display (Video), Mouse (Mouse), which is a computer peripheral that allows a user to control multiple servers or computer hosts through a set of keyboard, display, and Mouse.

Further, the first to third video signal interfaces are HDMI, Mini-HDMI, Micro-HDMI, DP, DVI-D, DVI-I, T_yAny of pe-C, Mini-DP, VGA, and DVI-A interfaces.

Furthermore, the mouse interface and the keyboard interface are PS/2 and USB T_ype-A、USB T_yAny one of pe-C and COM interfaces.

Furthermore, the device is also provided with two network cables, three video signal cables matched with the first video signal interface, the second video signal interface and the third video signal interface, and four USB cables.

Furthermore, a hanging piece used for fixing the device is arranged outside the shell, and the shell can be hung with a new computer or an original X86 computer when in use.

The utility model discloses a be used for linking together new computer and former X86 computer, make two computers sharing data storage space, basic peripheral hardware and network, new computer is the computer that uses non-X86 instruction set framework CPU and non-Windows operating system, and former X86 computer is the computer that uses X86 instruction set framework CPU and Windows operating system. During the use, the new computer can choose for use the access by the utility model discloses a first group's interface that the USB interface of first video signal interface, first USB interface, first net gape, first USB network card constitutes, or the second group's interface that the USB interface of access by second video signal interface, second USB interface, second net gape, second USB network card constitutes, former X86 computer then corresponds another group's interface of connection. A set of file sharing service programs is installed on the new computer, and a set of auxiliary programs is installed on the original X86 computer. When the system is used, a file sharing service program is operated on a new computer to provide a data storage space sharing service, an auxiliary program is operated on an original X86 computer to provide a network driver mapping function, and the data storage space shared by the new computer is mapped to the original X86 computer, so that the two computers can access the data storage space shared by the new computer and share files in the data storage space.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. sharing a data storage space: the utility model discloses a device has realized new computer and former X86 computer sharing data storage space, and the data storage space sharing service is opened to the new computer, gives former X86 computer with the data storage space sharing of self, realizes the same data storage space of two computers sharing, and the data storage space sharing takes special network access, does not receive external disturbance, and stability is high.

2. Sharing basic peripheral equipment: the utility model discloses a device has realized that new computer and former X86 computer share same set of keyboard, display, mouse, can continue to use keyboard, display, the mouse of former X86 computer, swiftly switches keyboard, display, mouse through the KVM switch and is connected to the target computer, saves and establishes the input cost outward such as computer keyboard, display, mouse.

3. Network sharing: the utility model discloses a device has realized the same network of new computer and former X86 computer sharing, can all insert original network with new computer and former X86 computer under the condition of not addding new net twine.

4. And (3) miniaturization design: the device of the utility model adopts the miniaturization design, has smaller volume and saves space.

5. And (3) combinatorial design: the utility model discloses a casing of device is equipped with one outward and is used for fixed piece of hanging, can form with new computer or former X86 computer during the use and articulate, combines the data storage space sharing of its realization, basic peripheral hardware sharing, network sharing wait function and the characteristic of miniaturized design, can use new computer and former X86 computer collocation combination, lets the transition period that new and old computer was changed of high-efficient convenient degree of user.

6. The operation is simple: the utility model discloses a device is very simple with the built-up connection mode of new computer and former X86 computer, during the use, and the new computer only needs a file sharing service program of operation, and former X86 computer only need move an auxiliary program, no longer need additionally install any procedure or drive in addition, easy operation, and the learning cost is very low.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an overall architecture diagram for realizing data storage space sharing, basic peripheral equipment sharing and network sharing of a new computer and an original X86 computer by the present invention.

Fig. 3 is a schematic view of the connection in use of the present invention.

In the figure, 1-KVM switch, 2-network hub, 3-first USB network card, 4-second USB network card, 5-shell.

Detailed Description

The technical solution of the present invention is further illustrated by the following specific examples. It should be understood by those skilled in the art that the specific embodiments are only for the understanding of the present invention and should not be construed as the specific limitations of the present invention.

As shown in fig. 1, a device capable of realizing computer data and peripheral sharing coordination across a CPU architecture includes a housing 5, wherein a KVM switch 1, a network hub 2, a first USB network card 3 and a second USB network card 4 are disposed in the housing 5; the KVM switcher 1 is provided with a first video signal interface, a second video signal interface, a first USB interface, a second USB interface, a keyboard interface, a mouse interface and a KVM switching interface; the network hub 2 is provided with first to third network ports and a power supply interface; the network cable interface of the first USB network card 3 is connected with the network cable interface of the second USB network card 4; the first video signal interface, the second video signal interface, the third video interface, the first USB interface, the second USB interface, the mouse interface, the keyboard interface, and the KVM switch interface on the KVM switch 1 extend out of the housing 5, respectively; the first network port, the second network port, the third network port and the power interface on the network hub 2 respectively extend out of the shell 5; the USB interfaces of the first USB network card 3 and the second USB network card 4 extend to the outside of the housing 5 respectively. The device is also matched with two network cables, three video signal cables matched with the first video signal interface, the second video signal interface and the third video interface and four video signal cablesThe first to third video signal interfaces are HDMI, Mini-HDMI, Micro-HDMI, DP, DVI-D, DVI-I, T_ypAny of e-C, Mini-DP, VGA, and DVI-A interfaces; the mouse interface and the keyboard interface are PS/2 and USB T_ype-A、USB T_yAny one of pe-C and COM interfaces.

In this embodiment, the first to third video signal interfaces specifically adopt HDMI interfaces, the correspondingly configured video signal lines are HDMI lines, and the mouse interface and the keyboard interface adopt USB T interfaces_ype-A; when the first to third video signal interfaces adopt the other types of interfaces, the corresponding video signal lines are selected according to the conventional method.

In this embodiment, a hanging member for fixing the device is provided outside the housing 5, the hanging member may be a hook, a hanging ring, or the like, and the device may be hung on a new computer or an original X86 computer when in use.

Wherein, the two matched network cables are respectively used for connecting the new computer and the original X86 computer with the first network port and the second network port of the device; the three video signal lines are respectively used for connecting a new computer, an original X86 computer and a display with first to third video signal interfaces of the device, and the four USB lines are respectively used for connecting the new computer and the original X86 computer with a first USB interface, a second USB interface, a first USB network card and a second USB network card of the device.

Utilize the utility model discloses realize that the data storage space of new computer and former X86 computer shares, basic peripheral hardware sharing, the shared whole framework of network is shown as figure 2, the utility model discloses a miniature combinative design, casing 5 sizes are usually within 15CM, and casing 5 is equipped with one outward and is used for fixed link, and inside integrated KVM switch 1, network concentrator 2, first USB network card 3, second USB network card 4 one set of file sharing service program of running on the new computer one set of auxiliary program of running on the former X86 computer to realize data storage space sharing, basic peripheral hardware sharing and network sharing between different CPU instruction set framework and operating system's the computer.

The utility model discloses connect simply, the user only needs simple setting, alright use. The utility model discloses a device and new computer and former X86 computer and peripheral hardware's connection schematic diagram is shown in FIG. 3, and concrete application method is as follows:

1. the device is hung on a new computer or an original X86 computer through a hanging piece outside the device shell 5.

2. Connecting a display to a third video signal interface of the device, and connecting a keyboard and a mouse to a keyboard interface and a mouse interface of the device, respectively.

3. And respectively connecting the USB interface of the first USB network card and the first USB interface of the device to the USB interface of the new computer through USB cables, connecting the first network port of the device to the network port of the new computer through network cables, and connecting the first video signal interface of the device to the video interface of the new computer through a video signal cable.

4. Respectively connecting a USB interface of a second USB network card of the device and a second USB interface to a USB interface of an original X86 computer through USB lines, and connecting a second network port of the device to a network port of the original X86 computer through a network line; and connecting the network cable originally used by the original X86 computer to the third network port of the device, and connecting the second video signal interface of the device to the video interface of the original X86 computer through a video signal cable.

5. And supplying power to the device, the new computer and the original X86 computer and starting the device, wherein the new computer and the original X86 computer share the original network to surf the internet at the moment, a keyboard, a display and a mouse are connected to the new computer by default, an operating system on the new computer sets a fixed IP address for the first USB network card after starting the device, and starts a file sharing service to share part of the storage space of the new computer on the network.

6. The keyboard, the display and the mouse are switched to the original X86 computer through the KVM switching interface on the device, an auxiliary program is run on the original X86 computer, the program sets an IP address of the second USB network card, which is in the same local area network as the IP address of the first USB network card, and then the auxiliary program automatically maps the data storage space shared by the new computer into a network driver under Windows.

7. At this time, all configuration is completed, the mouse, keyboard and display can be switched to connect to the target computer through the KVM switch interface on the device, the user can operate the data storage space shared by the new computer on both the new computer and the original X86 computer, and all file operations on the shared data storage space are simultaneously reflected on the new computer and the original X86 computer.

Claims (5)

1. A device capable of realizing computer data and peripheral sharing cooperation across CPU architecture is characterized in that: the KVM switch comprises a shell (5), wherein a KVM switch (1), a network concentrator (2), a first USB network card (3) and a second USB network card (4) are arranged in the shell (5); the KVM switcher (1) is provided with a first video signal interface, a second video signal interface, a first USB interface, a second USB interface, a keyboard interface, a mouse interface and a KVM switching interface; the network hub (2) is provided with first to third network ports and a power supply interface; the network cable interface of the first USB network card (3) is connected with the network cable interface of the second USB network card (4); a first video signal interface, a second video signal interface, a third video signal interface, a first USB interface, a second USB interface, a mouse interface, a keyboard interface and a KVM switching interface on the KVM switcher (1) respectively extend out of the shell (5); the first network port, the second network port, the third network port and the power interface on the network hub (2) respectively extend out of the shell (5); and the USB interfaces of the first USB network card (3) and the second USB network card (4) respectively extend out of the shell (5).

2. The apparatus of claim 1, wherein the apparatus is capable of implementing collaboration of computer data and peripherals across a CPU architecture, and further comprising: the first to third video signal interfaces are any one of HDMI, Mini-HDMI, Micro-HDMI, DP, DVI-D, DVI-I, Type-C, Mini-DP, VGA and DVI-A interfaces.

3. The apparatus of claim 1, wherein the apparatus is capable of implementing collaboration of computer data and peripherals across a CPU architecture, and further comprising: the mouse interface and the keyboard interface are any one of PS/2, USB Type-A, USB Type-C and COM interfaces.

4. The apparatus of claim 1, wherein the apparatus is capable of implementing collaboration of computer data and peripherals across a CPU architecture, and further comprising: the device is also matched with two network cables, three video signal cables matched with the first video signal interface, the second video signal interface and the third video interface and four USB cables.

5. The apparatus of claim 1, wherein the apparatus is capable of implementing collaboration of computer data and peripherals across a CPU architecture, and further comprising: and a hanging piece for fixing the device is arranged outside the shell (5).

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