CN214335976U - Comprehensive experiment platform for computer network - Google Patents

Abstract

The application provides a computer network comprehensive experiment platform, includes: the system comprises an operation table, a first wireless network bridge, a second wireless network bridge and a plurality of experimental devices, wherein the operation table comprises a touch display screen, a main control part and a plurality of interfaces; a plurality of interfaces of the first wireless bridge are correspondingly connected with a plurality of interfaces of the operating platform one by one, and the first wireless bridge is connected with the main control part; the second wireless network bridge comprises a plurality of interfaces, and each interface is connected with one experimental device; the touch display screen is connected with the main control part, is used for displaying the connection state of each interface of the first wireless network bridge and the equipment icon of each experimental equipment, and is also used for receiving the operation information of an operator on the touch display screen; the main control part is used for sending corresponding control information to the first wireless bridge based on the operation information, so that the first wireless bridge synchronizes the control information to the second wireless bridge, and wireless communication of a first target interface of the first wireless bridge and a second target interface of the second wireless bridge in the same VLAN is realized.

Description

Comprehensive experiment platform for computer network

Technical Field

The application relates to the field of computer networks, in particular to a computer network comprehensive experiment platform.

Background

The computer network is a computer system which connects a plurality of computers with independent functions and external devices thereof at different geographic positions through communication lines and realizes resource sharing and information transfer under the management and coordination of a network operating system, network management software and a network communication protocol.

With the development of the internet, computer network technology gradually deepens into the lives of people, and teachers are usually involved in the wiring problem of experimental equipment when performing computer network experimental teaching. At present, the experimental equipment is generally used as an operation object for wiring, but due to different practical experiences of students, frequent plugging and unplugging and possible misoperation easily cause damage to a wiring port of the experimental equipment, so that the maintenance cost of the experimental equipment is increased, and the service life of the experimental equipment is shortened.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the application is to provide a computer network comprehensive experiment platform to avoid frequent pulling out to insert and possible maloperation causes the wiring mouth of experimental facilities to damage, reduce experimental facilities's maintenance cost.

In order to achieve the above object, embodiments of the present application are implemented as follows:

in a first aspect, an embodiment of the present application provides a computer network comprehensive experiment platform, including: the system comprises an operation table, a first wireless network bridge, a second wireless network bridge and a plurality of experimental devices, wherein the operation table comprises a touch display screen, a main control part and a plurality of interfaces; the first wireless bridge comprises a plurality of interfaces, the interfaces of the first wireless bridge are correspondingly connected with the interfaces of the operating platform one by one, and the first wireless bridge is connected with the main control part; the second wireless network bridge comprises a plurality of interfaces, and each interface of the second wireless network bridge is connected with one experimental device; the touch display screen is connected with the main control part, and is used for displaying the connection state of each interface of the first wireless network bridge and the equipment icon of each experimental equipment, and is also used for receiving the operation information of an operator on the touch display screen; the main control part is configured to send corresponding control information to the first wireless bridge based on the operation information, so that the first wireless bridge synchronizes the control information to the second wireless bridge, and wireless communication is achieved between a first target interface of the first wireless bridge and a second target interface of the second wireless bridge in the same VLAN, where the first target interface corresponds to an interface displayed in a connection state in the touch display screen, and the second target interface corresponds to a device icon displayed in the touch display screen and connected to the interface in the connection state.

In this embodiment of the present application, the computer network comprehensive experiment platform includes: the system comprises an operation table, a first wireless bridge, a second wireless bridge and a plurality of experimental devices. The operating console also comprises a touch display screen, a main control part and a plurality of interfaces; a plurality of interfaces of the first wireless network bridge are connected with a plurality of interfaces of the operating platform in a one-to-one correspondence manner; each interface of the second wireless bridge (comprising a plurality of interfaces) is respectively connected with one experimental device. The touch display screen can display the connection state of each interface of the first wireless network bridge and the equipment icon of each experimental equipment, and can also receive the operation information of the operator on the touch display screen. The main control part is used for sending corresponding control information to the first wireless bridge based on the operation information so that the first wireless bridge synchronizes the control information to the second wireless bridge, and realizes the wireless communication of a first target interface (corresponding to the interface in the connection state displayed in the touch display screen) of the first wireless bridge and a second target interface (corresponding to a device icon connected with the interface in the connection state displayed in the touch display screen) in the same VLAN (the main control part controls the wireless communication between a certain interface of the first wireless bridge and a certain interface of the second wireless bridge, and the first wireless bridge can automatically divide the two interfaces into the same VLAN after detecting that the two interfaces are communicated, and simultaneously synchronizes the operation to the second wireless bridge, so that the operation console connected with the interface of the first wireless bridge and the experimental device connected with the interface of the second wireless bridge can communicate in the same VLAN, while communication may be isolated between different VLANs). In such a mode, the connection and disconnection of the experimental equipment and the operating platform can be realized through wireless communication, corresponding connection operation or disconnection operation can be carried out through the touch display screen, and an operator (such as a student with less practical experience) is not required to carry out actual wiring, so that the experimental operation is completed, the problems of frequent plugging and unplugging, accidental damage and the like of an interface of the experimental equipment can be avoided, the maintenance cost can be reduced, and the service life can be prolonged.

With reference to the first aspect, in a first possible implementation manner of the first aspect, the touch display screen and the main control unit are respectively a display screen and a host of the same intelligent terminal device, and the intelligent terminal device is any one of a personal computer, a tablet computer, and a smart phone.

In the implementation mode, the touch display screen and the main control part are respectively the display screen and the host of the same intelligent terminal device (a personal computer, a tablet computer or a smart phone), and the touch display screen and the main control part can be replaced and used very conveniently, so that the computer network comprehensive experiment platform has stronger applicability and flexibility.

With reference to the first aspect, in a second possible implementation manner of the first aspect, the operation table has a lifting mechanism for adjusting a height of the operation table.

In this implementation, the console has a lifting mechanism (the height of the console can be adjusted), so that the console can be more conveniently suitable for students of different heights, and has stronger applicability. And moreover, the height of the operating platform is adjustable, so that the setting position of the computer network comprehensive experiment platform can be more flexible.

With reference to the first aspect, in a third possible implementation manner of the first aspect, the operating console has an insulating table top, and the touch display screen is disposed on the insulating table top.

In the implementation mode, the touch display screen is arranged on the insulating table top of the operating table, and the operation safety is higher.

With reference to the first aspect, in a fourth possible implementation manner of the first aspect, the experimental device is any one of a switch, a router, a firewall, and a server.

In the implementation mode, the experimental equipment is any one of a switch, a router, a firewall and a server, can be suitable for almost all computer network comprehensive experiments, and can be well trained to improve the computer network practical ability of an operator.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic diagram of a computer network comprehensive experiment platform provided in an embodiment of the present application.

Icon: 100-computer network comprehensive experiment platform; 110-an operation table; 111-touch display screen; 112-a main control part; 120-a first wireless bridge; 130-a second wireless bridge; 140-experimental equipment; 141-a switch; 142-a router; 143-a firewall; 144-a server; 150-lifting mechanism.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

In the description of the present application, it should be noted that the terms "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the application usually place when using, and are only used for convenience in describing the present application and simplifying the description, but do not indicate or imply that the devices or elements that are referred to must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

It should also be noted that, unless expressly stated or limited otherwise, the terms "disposed" and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Referring to fig. 1, fig. 1 is a schematic diagram of a computer network comprehensive experiment platform 100 according to an embodiment of the present disclosure. In this embodiment, the computer network integrated experiment platform 100 may include an operation console 110, a first wireless bridge 120, a second wireless bridge 130, and a plurality of experiment devices 140.

For example, the console 110 may include a touch display screen 111, a main control unit 112, and a plurality of interfaces, wherein the touch display screen 111 is communicatively connected to the main control unit 112, and the main control unit 112 may monitor a status of each interface of the console 110.

For example, the first wireless bridge 120 may include a plurality of interfaces, and the plurality of interfaces of the first wireless bridge 120 are connected to the plurality of interfaces of the console 110 in a one-to-one correspondence. And, the first wireless bridge 120 is also connected to the master control 112.

Illustratively, the second wireless bridge 130 may include a plurality of interfaces, and each interface of the second wireless bridge 130 may be connected to a respective one of the assay devices 140.

For example, the touch display 111 may be used to display the connection status of each interface of the first wireless bridge 120 and the device icon of each experimental device 140. Here, the connection state of each interface displayed on the touch display screen 111 may be the connection state that the main control unit 112 monitors the state of each interface of the console 110 and controls the touch display screen 111 to display. The device icon of each experimental device 140 may correspond to one experimental device 140, and is in a one-to-one correspondence relationship (for example, a corresponding correspondence relationship may be established in a manner of presetting a unique number). The touch display screen 111 may also be configured to receive operation information of an operator on the touch display screen 111, for example, the operator may establish a connection relationship between an interface of the first wireless bridge 120 and an equipment icon through the touch display screen 111, so that the touch display screen 111 may detect corresponding operation information.

Illustratively, the master control unit 112 may transmit corresponding control information (each operation information may correspond to one type of control information) to the first wireless bridge 120 based on the operation information, for example, the operation information is: connecting the interface 1 of the first wireless bridge 120 displayed in the touch display screen 111 with the device icon 3 (for example, the device icon 3 corresponds to the experimental device 140 No. 3, and the experimental device 140 No. 3 is connected with the interface 3 of the second wireless bridge 130); then, the corresponding control information may be: controls the interface # 1 of the first wireless bridge 120 to establish wireless communication with the interface # 3 of the second wireless bridge 130.

In this way, the master control unit 112 can transmit corresponding control information to the first wireless bridge 120 based on the operation information, and can synchronize the control information to the second wireless bridge 130 by the first wireless bridge 120, thereby realizing wireless communication in which the first target interface of the first wireless bridge 120 and the second target interface of the second wireless bridge 130 are in the same VLAN. Here, the first target interface corresponds to the interface (i.e., the interface connected to the device icon) displayed in the touch display screen 111 in a connected state, and the second target interface corresponds to the device icon displayed in the touch display screen 111 and connected to the interface.

Here, synchronizing the control information to the second wireless bridge 130 by the first wireless bridge 120 enables wireless communication between the first target interface of the first wireless bridge 120 and the second target interface of the second wireless bridge 130 in the same VLAN, which can be understood as: the main control part 112 controls the wireless communication between an interface of the first wireless bridge 120 and an interface of the second wireless bridge 130, and the first wireless bridge 120 can automatically divide the two interfaces into the same VLAN when detecting that the two interfaces are connected, and synchronize the operation to the second wireless bridge 130, so that the console 110 connected to the interface of the first wireless bridge 120 and the experimental device 140 connected to the interface of the second wireless bridge 130 can communicate in the same VLAN, and the different VLANs can isolate the communication. In this way, the interface of the console 110 and the interface of the experimental device 140 can be truly connected by operating the content displayed on the touch display 111.

In such a manner, the experimental device 140 can be connected and disconnected with the operating console 110 through wireless communication, corresponding connection operation or disconnection operation can be performed through the touch display screen 111, and an operator (for example, a student with less practical experience) is not required to perform actual wiring, so that the experimental operation is completed, the problems of frequent plugging and unplugging, accidental damage and the like of the interface of the experimental device 140 can be avoided, the maintenance cost can be reduced, and the service life can be prolonged.

In this embodiment, the touch display screen 111 and the main control portion 112 are respectively a display screen and a host of the same intelligent terminal device, and the intelligent terminal device is any one of a personal computer, a tablet computer, or a smart phone. Of course, the intelligent terminal device may also be another integrated intelligent terminal, and is not limited herein. Therefore, the touch display screen 111 and the main control part 112 can be replaced and used conveniently, and the computer network comprehensive experiment platform 100 has stronger applicability and flexibility.

In this embodiment, the console 110 may have a lifting mechanism 150 for adjusting the height of the console 110. Therefore, the operation table 110 can be more conveniently suitable for students with different heights and has stronger applicability. Moreover, the height of the operation table 110 is adjustable, so that the setting position of the computer network comprehensive experiment platform 100 can be more flexible.

In this embodiment, the console 110 has an insulating table, and the touch display screen 111 is disposed on the insulating table, so that the console has higher operation safety.

In this embodiment, the experimental device 140 may be any one of a switch 141, a router 142, a firewall 143, and a server 144. Of course, the device may be a device required for other computer network experiments, and is not limited herein. The experimental facility 140 is any one of the switch 141, the router 142, the firewall 143, and the server 144, and is applicable to almost all computer network comprehensive experiments, and can be well trained to improve the computer network practical ability of the operator.

To sum up, the embodiment of the present application provides a computer network comprehensive experiment platform 100, including: an operating console 110, a first wireless bridge 120, a second wireless bridge 130, and a plurality of experimental devices 140. The console 110 further includes a touch display 111, a main control unit 112 and a plurality of interfaces; the plurality of interfaces of the first wireless bridge 120 are connected with the plurality of interfaces of the console 110 in a one-to-one correspondence; each interface of the second wireless bridge 130 (comprising a plurality of interfaces) is connected to a respective experimental device 140. The touch display 111 may display a connection status of each interface of the first wireless bridge 120 and a device icon of each experimental device 140, and the touch display 111 may also receive operation information of the operator on the touch display 111. A main control part 112, configured to send corresponding control information to the first wireless bridge 120 based on the operation information, so that the first wireless bridge 120 synchronizes the control information to the second wireless bridge 130, and thereby achieve wireless communication between a first target interface (corresponding to the interface displayed in the touch display screen 111 and in the connected state) of the first wireless bridge 120 and a second target interface (corresponding to the device icon displayed in the touch display screen 111 and connected to the interface in the connected state) of the second wireless bridge 130 in the same VLAN (it can be understood that the main control part 112 controls wireless communication between a certain interface of the first wireless bridge 120 and a certain interface of the second wireless bridge 130, and after the first wireless bridge 120 detects that the two interfaces are connected, the two interfaces can be automatically divided into the same VLAN, and simultaneously synchronize the operation to the second wireless bridge 130, so that the experimental setup for connecting the interface of the console 110 of the first wireless bridge 120 and the interface of the second wireless bridge 130 is performed by the first wireless bridge 120 Devices 140 may communicate with each other within the same VLAN while isolating communications between different VLANs). In such a manner, the experimental device 140 can be connected and disconnected with the operating console 110 through wireless communication, corresponding connection operation or disconnection operation can be performed through the touch display screen 111, and an operator (for example, a student with less practical experience) is not required to perform actual wiring, so that the experimental operation is completed, the problems of frequent plugging and unplugging, accidental damage and the like of the interface of the experimental device 140 can be avoided, the maintenance cost can be reduced, and the service life can be prolonged.

The above description is only an example of the present application and is not intended to limit the scope of the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (5)

1. A computer network comprehensive experiment platform, comprising: an operation desk, a first wireless bridge, a second wireless bridge and a plurality of experimental devices,

the operating platform comprises a touch display screen, a main control part and a plurality of interfaces;

the first wireless bridge comprises a plurality of interfaces, the interfaces of the first wireless bridge are correspondingly connected with the interfaces of the operating platform one by one, and the first wireless bridge is connected with the main control part;

the second wireless network bridge comprises a plurality of interfaces, and each interface of the second wireless network bridge is connected with one experimental device;

the touch display screen is connected with the main control part, and is used for displaying the connection state of each interface of the first wireless network bridge and the equipment icon of each experimental equipment, and is also used for receiving the operation information of an operator on the touch display screen;

the main control part is configured to send corresponding control information to the first wireless bridge based on the operation information, so that the first wireless bridge synchronizes the control information to the second wireless bridge, and wireless communication is achieved between a first target interface of the first wireless bridge and a second target interface of the second wireless bridge in the same VLAN, where the first target interface corresponds to an interface displayed in a connection state in the touch display screen, and the second target interface corresponds to a device icon displayed in the touch display screen and connected to the interface in the connection state.

2. The computer network comprehensive experiment platform of claim 1, wherein the touch display screen and the main control part are respectively a display screen and a host of the same intelligent terminal device, and the intelligent terminal device is any one of a personal computer, a tablet computer or a smart phone.

3. The computer network comprehensive experiment platform of claim 1, wherein the operation table has a lifting mechanism for adjusting the height of the operation table.

4. The computer network comprehensive experiment platform of claim 1, wherein the operating platform has an insulating table top, and the touch display screen is disposed on the insulating table top.

5. The computer network comprehensive experiment platform of claim 1, wherein the experimental facility is any one of a switch, a router, a firewall, and a server.

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