CN210693961U - Network equipment rapid production system - Google Patents

Abstract

The utility model discloses a network equipment rapid production system, which comprises a main control module, a switching chip, a PHY chip, a network port module, a PSE module, a power module, a nixie tube and a self-reset button module; the digital tube and the self-reset button module are connected with the main control module, the PSE module is connected with the network interface module, and the main control module and the PSE module are connected with the power supply module. The production system can simplify the production process without a PC server and a scanning gun; the method can simultaneously support a plurality of network devices to simultaneously perform production data writing operation, and reasonably utilize time space; the current written MAC address information and the current network port number of the network equipment are displayed on the nixie tube so as to ensure that the written data are correct; the network equipment is powered through the network cable, and the network equipment does not need to be powered on through a power supply, so that the operation procedures are greatly reduced, and the time is saved.

Description

Network equipment rapid production system

Technical Field

The utility model relates to a network equipment produces technical field, especially relates to a network equipment fast production system.

Background

Based on the current factory production management type network equipment, such as switches, wireless routers and the like. Private information such as different MAC addresses, serial numbers, licenses, and the like needs to be written before shipment, and general information such as software upgrade, initialization data writing, and the like may be required for a device after production. Due to the fact that the production number is large, not only is correct data written into each device guaranteed, but also the written data can be enabled to be effective after the device is restarted and the device can normally operate, and therefore large working procedures and workload are inevitably needed.

The current process for writing factory data of management type network equipment such as switches, wireless routers and the like is as follows:

1) the equipment needs to be prepared: a scanning gun, a PC server;

2) the scanning gun scans the data of the label attached to the production equipment, and then obtains the data (MAC and serial number) on the label and writes the data into corresponding production application software on the PC server;

3) the application software running on the PC server needs to be designed in advance according to an operation command or a WEB configuration interface provided by production equipment and written with information such as MAC, serial numbers, license and the like;

4) after the management type network equipment is powered on, the application software can simulate the command line or WEB page which is manually operated on the production equipment to input, scan and capture data;

5) in the process, if the tool is a simulated serial port input, the PC server and the production equipment need to be connected by the serial port; if the tool simulates WEB input, the IP address of the PC and the IP address of the same network segment of the production equipment need to be configured in advance, then the network equipment is connected with the PC by a network cable, and the tool opens a WEB page to simulate input data;

6) and then manually restarting the equipment, and simulating a typing command at the terminal of the production equipment through application tool software on the PC server to check whether the data is correct.

The current initialization, configuration or upgrade data writing process of management type network devices such as switches, wireless routers and the like is as follows:

1) the universal data still needs a PC server and has corresponding production application software;

2) if the upgrading operation is carried out, the production equipment needs to be accessed to a PC server through a network cable, a serial port is connected to the PC server, the TFTP tool is opened by the PC server, then the production application software simulates and knocks in an upgrading configuration command, and the production application software can be pulled out and replaced by the next equipment for upgrading only if the version is correct after upgrading is finished and verified;

3) other data input operations are similar to the above operations, and only one operation is needed.

The prior art has the following defects:

the network equipment and the PC server are in one-way communication all the time, and the PC server only captures equipment serial port or WEB page display information and simulates human operation to execute relevant configuration;

the tool model is not fixed, different management type network equipment is produced, command modes for configuring information such as MAC, serial number, license and the like are different, and therefore a set of production application software needs to be designed in a targeted mode;

the operation is complex, and the operation of the working procedure is not fixed, for example, as mentioned above, a scanning gun and a PC server are needed, a serial port and a network cable are needed for connection, and the operation of servers such as IP and TFTP is needed to be configured; the network equipment produced by people has various user forms, for example, some network equipment does not have a WEB management page or a WEB page does not have a corresponding data writing command, and some network equipment does not have a serial port, so that serial port simulation operation cannot be performed;

the existing scheme can only meet the requirement that one PC server can only support the production of single network equipment at the same time, cannot realize the simultaneous production of a plurality of network equipment, and has lower efficiency;

the current scheme is not flexible, if a new data information check or write is required to be supported, the production tool application software needs to be redesigned, and the data content such as operation configuration commands needs to be developed and provided.

SUMMERY OF THE UTILITY MODEL

The utility model provides a quick production system of network equipment to solve the problem that network equipment production efficiency is low among the prior art.

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

a network equipment rapid production system comprises a main control module, a switching chip, a PHY chip, a network port module, a PSE module, a power supply module, a nixie tube and a self-reset button module;

the digital tube and the self-reset button module are connected with the main control module, the PSE module is connected with the network interface module, and the main control module and the PSE module are connected with the power supply module.

Before the production system is used for producing the network equipment, the production data or the upgrading data are stored in the main control module. Then the production system is placed on a production procedure station and can be used after being electrified. During production, a single piece of network equipment to be produced can be selected to be connected to the network port module one by one through a network cable, if the network equipment to be produced is powered equipment (PD equipment), the PSE module can actively supply power to the network equipment to be produced through the network cable, if the network equipment to be produced is non-powered equipment, the network equipment to be produced needs to be plugged with a power cable, and at the moment, the PSE module does not supply power to the network equipment to be produced and only carries out network communication; at this moment, the PHY chip detects that the corresponding network cable port is connected with the network equipment to be produced, and sends a signal to the main control module through the exchange chip, at this moment, an operator sends a working signal to the main control module by pressing the self-reset button module once, the main control module receives the signal and then transmits the stored production data to the network equipment to be produced through the exchange chip, the PHY chip, the network port module and the network cable, and after the production data is successfully written into the network equipment to be produced, the main control module stores the production data under the current network cable port, transmits the MAC address information and the network cable port number connected with the network equipment to be produced to the nixie tube, displays the MAC address information and the network cable port number through the nixie tube, and then labels the network equipment to be produced. After the successful writing, the network equipment to be produced is restarted, and after the network equipment to be produced is restarted, the main control module sends the stored production data under the current network cable port to the network equipment to be produced for verification. When the previous network equipment to be produced is restarted and checked, the next network equipment to be produced can be accessed to other idle network cable ports by a network cable, the previous self-reset button module is pressed once and subsequent operation is continued, the network equipment to be produced is not required to be inserted after the previous network equipment to be produced is checked, the time space is reasonably utilized, and a plurality of network equipment are simultaneously operated.

When the network equipment is upgraded, a plurality of network equipment to be upgraded can be connected to the network port module through the network cable at the same time, an operator sends a working signal to the main control module by pressing the self-reset button module once, the production system starts to work, all the network equipment to be upgraded which are connected are upgraded at the same time, the process from the start of work to the transmission of the upgrade data to the network equipment to be upgraded is similar to that of the production, the process is not repeated, the network equipment to be upgraded can be stored after the upgrade data is downloaded, the storage operation can take about 20 seconds, and then the restart check is carried out. Therefore, the upgrading operation of multiple devices is almost completed simultaneously, and the efficiency is greatly improved compared with that of upgrading a single device one by one.

Furthermore, the intelligent control system also comprises a display module, and the display module is connected with the main control module. In the restarting verification stage in the production or upgrading process, the network equipment can send the verification result to the main control module, and then the main control module sends the verification result to the display module to be displayed, so that the visual display is realized, an operator can know whether the current network equipment is successfully or unsuccessfully operated at a glance, and the operator can conveniently know the progress condition in real time and carry out the next processing.

Furthermore, the main control module comprises a CPU, and a FLASH memory, a DDR3 memory, a GPIO expansion chip and a CLI serial port which are connected with the CPU, the nixie tube and the self-reset button module are connected with the GPIO expansion chip, and the display module is connected with the CLI serial port.

Furthermore, the network port module comprises a transformer and a connector which are connected, the PHY chip and the PSE module are both connected with the transformer, and a plurality of network cable ports are arranged on the connector; the transformer can amplify the signal.

Further, 24 network cable ports are arranged on the connector.

Further, the nixie tube is a 4-bit nixie tube and is used for displaying the last two digits of the MAC address and the port number of the network cable where the current network equipment is located.

Advantageous effects

The utility model provides a quick production system of network equipment has following advantage:

1) can simplify the production processes, solidify the production procedure, directly adopt this utility model to provide a production system, the management type network equipment that will produce is connected with production system through the net twine, can not need PC server and scanning rifle.

2) Data interaction is carried out through the network cable, whether the network equipment supports serial ports or not and whether WEB management exists or not do not need to be concerned, and each network equipment does not need to be upgraded by TFTP.

3) The method can simultaneously support a plurality of network devices to simultaneously write production data, reasonably utilize time space and mainly depend on the number of network interfaces of a production system serving as a server.

4) Aiming at writing in of private data such as MAC, serial number and the like, the corresponding network equipment can be written one by one through a self-reset button module in the production system, and current written MAC address information and a network cable port number where the current network equipment is located can be displayed on a nixie tube on the production system, so that the written data are ensured to be correct.

5) The production system is used for production of network equipment which is powered equipment, power supply and data interaction are directly carried out on the network equipment through a network cable, the network equipment does not need to be powered on through a power supply, operation procedures are greatly reduced, and time is saved.

Drawings

Fig. 1 is a schematic structural diagram of a network device rapid production system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a network device rapid production system according to another embodiment of the present invention.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments.

As shown in fig. 1, an embodiment of the present invention provides a network device fast production system, which includes a main control module 1, a switch chip 2, a PHY chip 3, a network interface module 4, a PSE module 5, a power module 6, a nixie tube 7, and a self-reset button module 8;

the main control module 1, the switching chip 2, the PHY chip 3 and the network port module 4 are sequentially connected, the nixie tube 7 and the self-reset button module 8 are connected with the main control module 1, the PSE module 5 is connected with the network port module 4, and the main control module 1 and the PSE module 5 are connected with the power supply module 6.

Before the production system is used for producing the network equipment, the production data or the upgrading data are stored in the main control module. Then the production system is placed on a production procedure station and can be used after being electrified. During production, a single piece of network equipment to be produced can be selected to be connected to the network port module one by one through a network cable, if the network equipment to be produced is powered equipment (PD equipment), the PSE module can actively supply power to the network equipment to be produced through the network cable, if the network equipment to be produced is non-powered equipment, the network equipment to be produced needs to be plugged with a power cable, and at the moment, the PSE module does not supply power to the network equipment to be produced and only carries out network communication; at this moment, the PHY chip detects that the corresponding network cable port is connected with the network equipment to be produced, and sends a signal to the main control module through the exchange chip, at this moment, an operator sends a working signal to the main control module by pressing the self-reset button module once, the main control module receives the signal and then transmits the stored production data to the network equipment to be produced through the exchange chip, the PHY chip, the network port module and the network cable, and after the production data is successfully written into the network equipment to be produced, the main control module stores the production data under the current network cable port, transmits the MAC address information and the network cable port number connected with the network equipment to be produced to the nixie tube, displays the MAC address information and the network cable port number through the nixie tube, and then labels the network equipment to be produced. After the successful writing, the network equipment to be produced is restarted, and after the network equipment to be produced is restarted, the main control module sends the stored production data under the current network cable port to the equipment to be produced to be checked. When the previous network equipment to be produced is restarted and checked, the next network equipment to be produced can be accessed to other idle network cable ports by a network cable, the previous self-reset button module is pressed once and subsequent operation is continued, the network equipment to be produced is not required to be inserted after the previous network equipment to be produced is checked, the time space is reasonably utilized, and a plurality of network equipment are simultaneously operated. Of course, a plurality of network devices to be produced can also be connected to the network port module through the network cable at the same time, and the labeling is performed in sequence from small to large according to the network cable port numbers, and only the labeling needs to be performed by paying attention to the fact that the labeling is performed from front to back according to the sequence of the network cable port numbers.

When the network equipment is upgraded, a plurality of network equipment to be upgraded can be connected to the network port module through the network cable at the same time, an operator sends a working signal to the main control module by pressing the self-reset button module once, the production system starts to work, all the network equipment to be upgraded which are connected are upgraded at the same time, the process from the start of work to the transmission of the upgrade data to the network equipment to be upgraded is similar to that of the production, the process is not repeated, the network equipment to be upgraded can be stored after the upgrade data is downloaded, the storage operation can take about 20 seconds, and then the restart check is carried out. Therefore, the upgrading operation of multiple devices is almost completed simultaneously, and the efficiency is greatly improved compared with that of upgrading a single device one by one.

In this embodiment, the display device further includes a display module (not shown), and the display module is connected to the main control module 1. In the restart verification stage in the production or upgrading process, the network equipment can send the verification result to the main control module 1, and then the main control module 1 sends the verification result to the display module for displaying, so that the display is relatively visual, an operator can know whether the current network equipment is successfully or unsuccessfully operated at a glance, and the operator can conveniently know the progress condition in real time and carry out the next processing.

As shown in fig. 2, in another specific embodiment, the main control module includes a CPU, a FLASH memory connected to the CPU, a DDR3 memory, a GPIO expansion chip, and a CLI serial port, the nixie tube and the self-reset button module are both connected to the GPIO expansion chip, and the display module is connected to the CLI serial port. The FLASH memory is used for storing codes, production data and upgrading data; the GPIO expansion chip expands an I/O port and outputs corresponding content to the nixie tube for display, when the self-reset button module is pressed down or loosened, the level of the I/O port of the corresponding GPIO expansion chip changes, and corresponding response operation is executed according to the corresponding level condition; and the CLI serial port outputs restart check information.

The network port module comprises a transformer and a connector which are connected, the PHY chip and the PSE module are both connected with the transformer, and a plurality of network cable ports are arranged on the connector; the transformer can amplify the signal. The PSE module is a POE power supply board, outputs power to a network cable port, and supplies power to network equipment through a network cable.

In specific implementation, the connector is provided with 24 network cable ports; the nixie tube is a 4-bit nixie tube and is used for displaying the last two digits of the MAC address and the port number of the network cable where the current network equipment is located. The CPU can be integrated with the CPU by using RTL8382M of REALTEK, and the exchange chip can be integrated with the CPU by using RTL8382M of REALTEK.

The utility model provides a pair of quick production system of network equipment has following advantage:

1) can simplify the production processes, solidify the production procedure, directly adopt this utility model to provide a production system, the management type network equipment that will produce is connected with production system through the net twine, can not need PC server and scanning rifle.

2) Data interaction is carried out through the network cable, whether the network equipment supports serial ports or not and whether WEB management exists or not do not need to be concerned, and each network equipment does not need to be upgraded by TFTP.

3) The method can simultaneously support a plurality of network devices to simultaneously write production data, reasonably utilize time space and mainly depend on the number of network interfaces of a production system serving as a server.

4) Aiming at writing in of private data such as MAC, serial number and the like, the corresponding network equipment can be written one by one through a self-reset button module in the production system, and current written MAC address information and a network cable port number where the current network equipment is located can be displayed on a nixie tube on the production system, so that the written data are ensured to be correct.

5) The production system is used for production of network equipment which is powered equipment, power supply and data interaction are directly carried out on the network equipment through a network cable, the network equipment does not need to be powered on through a power supply, operation procedures are greatly reduced, and time is saved.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A network equipment rapid production system is characterized by comprising a main control module, a switching chip, a PHY chip, a network port module, a PSE module, a power module, a nixie tube and a self-reset button module;

the digital tube and the self-reset button module are connected with the main control module, the PSE module is connected with the network interface module, and the main control module and the PSE module are connected with the power supply module.

2. The system for rapidly producing network equipment according to claim 1, further comprising a display module, wherein the display module is connected with the main control module.

3. The network device rapid production system according to claim 2, wherein the main control module comprises a CPU, and a FLASH memory, a DDR3 memory, a GPIO expansion chip, and a CLI serial port connected to the CPU, the nixie tube and the self-reset button module are connected to the GPIO expansion chip, and the display module is connected to the CLI serial port.

4. The system for rapidly producing network equipment according to claim 1, wherein the network interface module comprises a transformer and a connector which are connected, the PHY chip and the PSE module are both connected to the transformer, and a plurality of network cable ports are arranged on the connector.

5. The system for rapid production of network devices according to claim 4, wherein 24 network ports are provided on the connector.

6. The system for rapid production of network devices according to claim 1, wherein the nixie tube is a 4-bit nixie tube.

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