CN109672742B - Intelligent cooperative control method and system based on different die casting machine systems - Google Patents

Abstract

The invention discloses an intelligent cooperative control method and system based on different die casting machine systems; wherein the method comprises the following steps: the control server receives a control instruction sent by a user based on the intelligent terminal; the control server analyzes the control instruction and generates a directional broadcast instruction according to the control instruction content obtained by analysis; transmitting a directional broadcast instruction to a control end wireless AP based on a photoelectric transceiver; the control end wireless AP resets the network name hotspot password of the AP hotspot to a directional broadcast network name and a directional broadcast network password respectively; directionally broadcasting the reset AP hot spot to a system end wireless AP connected with the die casting system; the system end wireless AP adopts a preset network password to carry out wireless AP connection according to the scanned directional broadcast; and the die casting system receives the cooperative operation instruction according to the wireless AP connection to perform cooperative operation. In the implementation of the invention, the cooperative work efficiency among the die-casting systems is increased, and the personnel cost is reduced.

Description

Intelligent cooperative control method and system based on different die casting machine systems

Technical Field

The invention relates to the technical field of cooperative control in intelligent production, in particular to an intelligent cooperative control method and system based on different die casting machine systems.

Background

With the increase of market demand, enterprises expand production scale, and have a plurality of production workshops and a plurality of production lines; a control system or a data acquisition system exists in each production, if a certain manufacturing enterprise exists, a plurality of production workshops and a plurality of production lines exist, a plurality of die casting machine systems of die casting machine data acquisition engineering exist in the production workshops of the enterprise, and the systems come from different brands respectively, including Yizhi brand, Yu ministry, Nissan ministry, powerful and special brand, Toshiba brand, Toyo and the like, and are distributed in the different workshops.

How an enterprise realizes cooperative control of the die casting machine systems or needs to arrange corresponding personnel on each die casting machine system for control can be realized, so that the cooperative efficiency and the labor cost are greatly reduced.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides an intelligent cooperative control method and system based on different die casting machine systems, so that the cooperative operation efficiency among the die casting systems is improved, and the personnel cost is reduced.

In order to solve the above technical problem, an embodiment of the present invention provides an intelligent cooperative operation method based on different die casting machine systems, where the method includes:

the control server receives a control instruction sent by a user based on the intelligent terminal, the control instruction is produced by the user based on an operation interface of the intelligent terminal, and the control instruction comprises an MAC address of a system end wireless AP and a cooperative operation instruction;

the control server analyzes the control instruction and generates a directional broadcast instruction according to the control instruction content obtained by analysis, wherein the directional broadcast instruction comprises a directional broadcast network name and a directional broadcast network password;

transmitting the directional broadcast instruction to a control end wireless AP based on a photoelectric transceiver;

the control end wireless AP resets the network name hotspot password of the AP hotspot to the directional broadcast network name and the directional broadcast network password respectively;

directionally broadcasting the reset AP hot spot to a system end wireless AP connected with the die casting system;

the system end wireless AP adopts a preset network password to carry out wireless AP connection according to the scanned directional broadcast;

and the die casting system receives the cooperative operation instruction according to the wireless AP connection to perform cooperative operation.

Optionally, the cooperative work instruction includes a same die-casting system cooperative work instruction and a different die-casting system cooperative work instruction.

Optionally, the analyzing, by the control server, the control instruction, and generating a directional broadcast instruction according to the control instruction content obtained by the analyzing includes:

the control server analyzes the control instruction, and obtains the MAC address of the system end wireless AP and the cooperative operation instruction in the control instruction;

and matching a corresponding directional broadcast network name and a directional broadcast network password in a directional broadcast instruction database in the control server according to the MAC address of the system end wireless AP and the cooperative operation instruction, and generating a directional broadcast instruction.

Optionally, the transmitting the directional broadcast instruction to the control-end wireless AP based on the optoelectronic transceiver includes:

the control server is in communication connection with the first photoelectric transceiver based on an Ethernet line, and the control end wireless AP is in communication connection with the second photoelectric transceiver based on the Ethernet line;

the first photoelectric transceiver and the second photoelectric transceiver are connected based on optical cable communication, so that the control server can transmit directional broadcast instructions to the control-end wireless AP.

Optionally, the resetting, by the control-end wireless AP, the network name hotspot password of the AP hotspot to the directional broadcast network name and the directional broadcast network password respectively includes:

the control end wireless AP analyzes the directional broadcast instruction, and acquires a directional broadcast network name and a directional broadcast network password contained in the directional broadcast instruction;

and starting a reset program in the wireless AP, and resetting the network name and the network password of the AP hotspot into the directional broadcast network name and the directional broadcast network password respectively.

Optionally, the system-side wireless AP further includes, after performing wireless AP connection by using a preset network password according to the scanned directional broadcast:

after a system end wireless AP is connected with a control end wireless AP, the control end wireless AP acquires a connection MAC address of the system end wireless AP;

the control end wireless AP feeds the connection MAC address back to the control server;

the control server determines whether the connection MAC address is consistent with the MAC address contained in the control instruction;

if so, confirming that the wireless AP is successfully connected;

if not, the control server disconnects the control end wireless AP from the system end wireless AP which is determined to be inconsistent and connected with the MAC address, and confirms that the wireless AP is not successfully connected.

In addition, the embodiment of the invention also provides an intelligent cooperative operation system based on different die casting machine systems, and the system comprises:

a control instruction receiving module: the control server is used for receiving a control instruction sent by a user based on the intelligent terminal, the control instruction is produced by the user based on an operation interface of the intelligent terminal, and the control instruction comprises an MAC address of a system end wireless AP and a cooperative operation instruction;

a broadcast instruction generation module: the control server is used for analyzing the control instruction and generating a directional broadcast instruction according to the control instruction content obtained by analysis, wherein the directional broadcast instruction comprises a directional broadcast network name and a directional broadcast network password;

broadcast instruction transmission module: the directional broadcast instruction is transmitted to a control end wireless AP based on a photoelectric transceiver;

AP hotspot resetting module: the wireless AP is used for the control end to reset the network name hotspot password of the AP hotspot into the directional broadcast network name and the directional broadcast network password respectively;

a directional broadcasting module: the system end wireless AP is used for directionally broadcasting the reset AP hot spot to a system end wireless AP connected with the die casting system;

a scanning connection module: the system end wireless AP adopts a preset network password to carry out wireless AP connection according to the scanned directional broadcast;

a cooperative operation module: and the die casting system is used for receiving the cooperative operation instruction according to the wireless AP connection to perform cooperative operation.

In the embodiment of the invention, the intelligent terminal sends the control instruction to the control server, and the server generates the directional broadcast instruction according to the control instruction to control the connection between the control end wireless AP and the system end wireless AP, so that the control instruction is sent to the die-casting system to realize the control of the cooperative operation of the die-casting system, and thus, the cooperative operation efficiency among the die-casting systems is increased and the personnel cost is reduced only by the management user performing corresponding operation on the intelligent terminal.

Drawings

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

Fig. 1 is a schematic flow chart of an intelligent cooperative control method based on different die casting machine systems in an embodiment of the present invention;

fig. 2 is a schematic structural composition diagram of an intelligent cooperative control system based on different die casting machine systems in the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1, fig. 1 is a schematic flow chart of an intelligent cooperative control method based on different die casting machine systems according to an embodiment of the present invention.

As shown in fig. 1, a method for intelligent cooperative operation based on different die casting machine systems includes:

s11: the control server receives a control instruction sent by a user based on the intelligent terminal, the control instruction is produced by the user based on an operation interface of the intelligent terminal, and the control instruction comprises an MAC address of a system end wireless AP and a cooperative operation instruction;

in a specific implementation process of the invention, the cooperative work instruction includes a same die-casting system cooperative work instruction and a different die-casting system cooperative work instruction.

Specifically, a user sends a control instruction to a control server through an intelligent terminal, wherein the control instruction is generated by the user operating on a corresponding APP operation interface of the intelligent terminal, and the intelligent terminal can be intelligent terminal equipment such as a PC (personal computer), a tablet computer and an intelligent mobile phone; the method comprises the steps that a user needs to perform user identity authentication on a corresponding APP on an intelligent terminal, and only after the authentication is passed, corresponding operation can be performed to generate a control instruction, wherein the identity recognition mode can comprise biological feature recognition such as fingerprints and human faces, and password recognition such as account passwords, and the like, and mainly prevents illegal users from performing corresponding APP illegal operation on the intelligent terminal to generate illegal instructions and influencing cooperative operation of a die-casting system; the generated control instruction comprises an MAC address of a system end wireless AP needing to be connected with a control end wireless AP and a cooperative operation instruction; assuming that a user needs multiple die-casting systems to perform cooperative operation and needs which brand of die-casting system to perform operation, the user selects the MAC address of the system-side wireless AP connected to the corresponding die-casting system and the type of the cooperative operation to be performed on the intelligent terminal to produce a corresponding control instruction.

If the user only needs the same die-casting system to perform cooperative operation, the user only needs to select the MAC address of the system-side wireless AP connected to the corresponding die-casting system of the same brand, and if the user needs different die-casting systems to perform cooperative operation, the user needs to acquire which brand of die-casting system is needed, and then the user needs to acquire the MAC address of the system-side wireless AP connected to which brand of die-casting system.

The wireless AP is a wireless access point, is an access point of a wireless network and is commonly called as a 'hot spot'. The integrated device executes access and routing work, the pure access device is only responsible for access of a wireless client, the pure access device is usually used as a wireless network extension and connected with other APs or a main AP to expand a wireless coverage range, and the integrated device is generally the core of the wireless network.

MAC Address (Media Access Control Address), translated as a Media Access Control Address, also called local area network Address (LAN Address), Ethernet Address or Physical Address (Physical Address), which is an Address used to confirm the location of a device on the network; in the OSI model, a third layer network layer is responsible for IP addresses and a second layer data link layer is responsible for MAC addresses. The MAC address is used to uniquely identify a network card in the network, and if one or more network cards exist in a device, each network card needs to have a unique MAC address.

S12: the control server analyzes the control instruction and generates a directional broadcast instruction according to the control instruction content obtained by analysis, wherein the directional broadcast instruction comprises a directional broadcast network name and a directional broadcast network password;

in the specific implementation process of the invention, the control server analyzes the control instruction to obtain the MAC address of the system end wireless AP and the cooperative operation instruction in the control instruction; and matching a corresponding directional broadcast network name and a directional broadcast network password in a directional broadcast instruction database in the control server according to the MAC address of the system end wireless AP and the cooperative operation instruction, and generating a directional broadcast instruction.

Specifically, after the control server receives the control instruction, the control instruction is correspondingly analyzed, so that the MAC address of the system-end wireless AP and the cooperative operation instruction contained in the control instruction are analyzed; automatically matching a directional broadcast network name corresponding to the MAC address of the system end wireless AP in an internal directional broadcast network name database in the server, matching a directional broadcast network name and a directional broadcast network password which can be connected only by the MAC address of the system end wireless AP, and then generating a directional broadcast instruction according to the directional broadcast network name and the directional broadcast network password; therefore, after the subsequent control end wireless AP broadcasts externally, only the corresponding system end wireless AP can be connected; and the control command is transmitted to the corresponding die-casting systems accurately, so that the systems perform corresponding cooperative operation according to the control command.

S13: transmitting the directional broadcast instruction to a control end wireless AP based on a photoelectric transceiver;

in a specific implementation process of the present invention, the transmitting the directional broadcast instruction to the control-end wireless AP based on the optoelectronic transceiver includes: the control server is in communication connection with the first photoelectric transceiver based on an Ethernet line, and the control end wireless AP is in communication connection with the second photoelectric transceiver based on the Ethernet line; the first photoelectric transceiver and the second photoelectric transceiver are connected based on optical cable communication, so that the control server can transmit directional broadcast instructions to the control-end wireless AP.

Specifically, the control server sends the directional broadcast instruction to the control end wireless AP, the communication connection between the control server and the control end wireless AP is realized through two photoelectric transceivers, the connection relationship between the control server and the first photoelectric transceiver is realized through an ethernet line, and the connection relationship between the control end wireless AP and the second photoelectric transceiver is also realized through the ethernet line; however, the connection between the first photoelectric transceiver and the second photoelectric transceiver is realized through the optical cable, so that the connection with a long distance and low cost can be performed, the transmission speed of signals can be increased, and the loss in the signal transmission process can be reduced.

S14: the control end wireless AP resets the network name hotspot password of the AP hotspot to the directional broadcast network name and the directional broadcast network password respectively;

in the specific implementation process of the present invention, the resetting, by the control-end wireless AP, the network name hotspot password of the AP hotspot to the directional broadcast network name and the directional broadcast network password respectively includes: the control end wireless AP analyzes the directional broadcast instruction, and acquires a directional broadcast network name and a directional broadcast network password contained in the directional broadcast instruction; and starting a reset program in the wireless AP, and resetting the network name and the network password of the AP hotspot into the directional broadcast network name and the directional broadcast network password respectively.

Specifically, after the control-end wireless AP receives the directional broadcast instruction, the control-end wireless AP starts an internal analysis program, and multiple directional broadcast instructions perform corresponding analysis work, so as to obtain a directional broadcast network name and a directional broadcast network password included in the directional broadcast instruction; and then starting a reset program in the control end wireless AP, and resetting the network name and the network password of the AP hotspot of the control end wireless AP into the directional broadcast network name and the hotspot password analyzed from the directional broadcast instruction.

S15: directionally broadcasting the reset AP hot spot to a system end wireless AP connected with the die casting system;

in the specific implementation process of the invention, different die casting machine systems are respectively connected with a system end wireless AP, and each system end wireless AP is prestored with a corresponding network name and a corresponding network password; after the control end wireless AP resets the AP hot spot, directionally broadcasting the network name of the reset AP hot spot to system end wireless APs connected in different die casting machine systems; the directional broadcast refers to that the control end wireless AP can be connected only by pre-storing a network name and a password matched with the directional broadcast; the different die casting machine systems are two or more than two mutually independent die casting machine control systems of different brands; in the specific implementation process, the die casting machine system comprises die casting machine systems of the brands of yizhi, yu, japanese yu, strength, yite, toshiba, dongyang and the like, data transmission interfaces between the systems may be inconsistent, or data acquisition modes are inconsistent, or working modes are different and the like, and need to be managed uniformly.

S16: the system end wireless AP adopts a preset network password to carry out wireless AP connection according to the scanned directional broadcast;

in the specific implementation process of the present invention, after the system-side wireless AP performs wireless AP connection by using a preset network password according to the scanned directional broadcast, the method further includes: after a system end wireless AP is connected with a control end wireless AP, the control end wireless AP acquires a connection MAC address of the system end wireless AP; the control end wireless AP feeds the connection MAC address back to the control server; the control server determines whether the connection MAC address is consistent with the MAC address contained in the control instruction; if so, confirming that the wireless AP is successfully connected; if not, the control server disconnects the control end wireless AP from the system end wireless AP which is determined to be inconsistent and connected with the MAC address, and confirms that the wireless AP is not successfully connected.

Specifically, after the system-side wireless AP scans the directional broadcast network name of the control-side AP in real time, the network password pre-stored in the system-side wireless AP is used for wireless AP connection, if the password is correct, connection can be performed, and if the password is wrong, connection cannot be performed.

After connection, MAC addresses of all system end wireless APs connected with the control end wireless AP are obtained in an instruction mode through the control end wireless AP, and the MAC addresses are fed back to a control server; after the control server obtains the MAC addresses, the MAC addresses are matched with the MAC addresses of the system end wireless APs which are required to be directionally broadcasted by the control server to generate directional broadcasting instructions, if the MAC addresses are consistent after matching, the wireless APs are confirmed to be successfully connected, if the MAC addresses which are inconsistent are found to exist after matching, the connection between the system end wireless AP and the control end wireless AP corresponding to the inconsistent MAC addresses is disconnected, and the connection between the disconnected connected wireless APs is confirmed to be unsuccessful.

S17: and the die casting system receives the cooperative operation instruction according to the wireless AP connection to perform cooperative operation.

In the specific implementation process of the invention, after the system-side wireless AP and the control-side wireless AP are connected through the wireless AP, the control server transmits a cooperative work instruction to the die-casting system connected with the wireless AP through the wireless AP, then the die-casting system analyzes the cooperative work instruction after acquiring the cooperative work, and the die-casting system performs the cooperative work with other die-casting systems which also receive the cooperative work instruction according to the instruction content of the cooperative work instruction until the content of the related cooperative work is completed or a new instruction is received.

In the embodiment of the invention, the intelligent terminal sends the control instruction to the control server, and the server generates the directional broadcast instruction according to the control instruction to control the connection between the control end wireless AP and the system end wireless AP, so that the control instruction is sent to the die-casting system to realize the control of the cooperative operation of the die-casting system, and thus, the cooperative operation efficiency among the die-casting systems is increased and the personnel cost is reduced only by the management user performing corresponding operation on the intelligent terminal.

Examples

Referring to fig. 2, fig. 2 is a schematic structural diagram of an intelligent cooperative control system based on different die casting machine systems according to an embodiment of the present invention.

As shown in fig. 2, an intelligent cooperative operation system based on different die casting machine systems, the system includes:

the control instruction receiving module 11: the control server is used for receiving a control instruction sent by a user based on the intelligent terminal, the control instruction is produced by the user based on an operation interface of the intelligent terminal, and the control instruction comprises an MAC address of a system end wireless AP and a cooperative operation instruction;

in a specific implementation process of the invention, the cooperative work instruction includes a same die-casting system cooperative work instruction and a different die-casting system cooperative work instruction.

Specifically, a user sends a control instruction to a control server through an intelligent terminal, wherein the control instruction is generated by the user operating on a corresponding APP operation interface of the intelligent terminal, and the intelligent terminal can be intelligent terminal equipment such as a PC (personal computer), a tablet computer and an intelligent mobile phone; the method comprises the steps that a user needs to perform user identity authentication on a corresponding APP on an intelligent terminal, and only after the authentication is passed, corresponding operation can be performed to generate a control instruction, wherein the identity identification mode can comprise biological feature identification such as fingerprints and human faces, and password identification such as account passwords, and the like, and mainly prevents illegal users from performing corresponding APP illegal operation on the intelligent terminal to generate illegal instructions and influencing cooperative operation of a die-casting system; the generated control instruction comprises an MAC address of a system end wireless AP needing to be connected with a control end wireless AP and a cooperative operation instruction; assuming that a user needs multiple die-casting systems to perform cooperative operation and needs which brand of die-casting system to perform operation, the user selects the MAC address of the system-side wireless AP connected to the corresponding die-casting system and the type of the cooperative operation to be performed on the intelligent terminal to produce a corresponding control instruction.

If the user only needs the same die-casting system to perform cooperative operation, the user only needs to select the MAC address of the system-side wireless AP connected to the corresponding die-casting system of the same brand, and if the user needs different die-casting systems to perform cooperative operation, the user needs to acquire which brand of die-casting system is needed, and then the user needs to acquire the MAC address of the system-side wireless AP connected to which brand of die-casting system.

The wireless AP is a wireless access point, is an access point of a wireless network and is commonly called as a 'hot spot'. The integrated device executes access and routing work, the pure access device is only responsible for access of a wireless client, the pure access device is usually used as a wireless network extension and connected with other APs or a main AP to expand a wireless coverage range, and the integrated device is generally the core of the wireless network.

MAC Address (Media Access Control Address), translated as a Media Access Control Address, also called local area network Address (LAN Address), Ethernet Address or Physical Address (Physical Address), which is an Address used to confirm the location of a device on the network; in the OSI model, a third layer network layer is responsible for IP addresses and a second layer data link layer is responsible for MAC addresses. The MAC address is used to uniquely identify a network card in the network, and if one or more network cards exist in a device, each network card needs to have a unique MAC address.

The broadcast instruction generation module 12: the control server is used for analyzing the control instruction and generating a directional broadcast instruction according to the control instruction content obtained by analysis, wherein the directional broadcast instruction comprises a directional broadcast network name and a directional broadcast network password;

in the specific implementation process of the invention, the control server analyzes the control instruction to obtain the MAC address of the system end wireless AP and the cooperative operation instruction in the control instruction; and matching a corresponding directional broadcast network name and a directional broadcast network password in a directional broadcast instruction database in the control server according to the MAC address of the system end wireless AP and the cooperative operation instruction, and generating a directional broadcast instruction.

Specifically, after the control server receives the control instruction, the control instruction is correspondingly analyzed, so that the MAC address of the system-end wireless AP and the cooperative operation instruction contained in the control instruction are analyzed; automatically matching a directional broadcast network name corresponding to the MAC address of the system end wireless AP in an internal directional broadcast network name database in the server, matching a directional broadcast network name and a directional broadcast network password which can be connected only by the MAC address of the system end wireless AP, and then generating a directional broadcast instruction according to the directional broadcast network name and the directional broadcast network password; therefore, after the subsequent control end wireless AP broadcasts externally, only the corresponding system end wireless AP can be connected; and the control command is transmitted to the corresponding die-casting systems accurately, so that the systems perform corresponding cooperative operation according to the control command.

The broadcast instruction transmission module 13: the directional broadcast instruction is transmitted to a control end wireless AP based on a photoelectric transceiver;

in a specific implementation process of the present invention, the transmitting the directional broadcast instruction to the control-end wireless AP based on the optoelectronic transceiver includes: the control server is in communication connection with the first photoelectric transceiver based on an Ethernet line, and the control end wireless AP is in communication connection with the second photoelectric transceiver based on the Ethernet line; the first photoelectric transceiver and the second photoelectric transceiver are connected based on optical cable communication, so that the control server can transmit directional broadcast instructions to the control-end wireless AP.

Specifically, a control server key directional broadcast instruction is sent to a control end wireless AP, communication connection between the control server and the control end wireless AP is realized through two photoelectric transceivers, the connection relationship between the control server and a first photoelectric transceiver is realized through an Ethernet line, and the connection relationship between the control end wireless AP and a second photoelectric transceiver is also realized through the Ethernet line; however, the connection between the first photoelectric transceiver and the second photoelectric transceiver is realized through the optical cable, so that the connection with a long distance and low cost can be performed, the transmission speed of signals can be increased, and the loss in the signal transmission process can be reduced.

AP hotspot reset module 14: the wireless AP is used for the control end to reset the network name hotspot password of the AP hotspot into the directional broadcast network name and the directional broadcast network password respectively;

in the specific implementation process of the present invention, the resetting, by the control-end wireless AP, the network name hotspot password of the AP hotspot to the directional broadcast network name and the directional broadcast network password respectively includes: the control end wireless AP analyzes the directional broadcast instruction, and acquires a directional broadcast network name and a directional broadcast network password contained in the directional broadcast instruction; and starting a reset program in the wireless AP, and resetting the network name and the network password of the AP hotspot into the directional broadcast network name and the directional broadcast network password respectively.

Specifically, after the control-end wireless AP receives the directional broadcast instruction, the control-end wireless AP starts an internal analysis program, and multiple directional broadcast instructions perform corresponding analysis work, so as to obtain a directional broadcast network name and a directional broadcast network password included in the directional broadcast instruction; and then starting a reset program in the control end wireless AP, and resetting the network name and the network password of the AP hotspot of the control end wireless AP into the directional broadcast network name and the hotspot password analyzed from the directional broadcast instruction.

The directional broadcasting module 15: the system end wireless AP is used for directionally broadcasting the reset AP hot spot to a system end wireless AP connected with the die casting system;

in the specific implementation process of the invention, different die casting machine systems are respectively connected with a system end wireless AP, and each system end wireless AP is prestored with a corresponding network name and a corresponding network password; after the control end wireless AP resets the AP hot spot, directionally broadcasting the network name of the reset AP hot spot to system end wireless APs connected in different die casting machine systems; the directional broadcast refers to that the control end wireless AP can be connected only by pre-storing a network name and a password matched with the directional broadcast; the different die casting machine systems are two or more than two mutually independent die casting machine control systems of different brands; in the specific implementation process, the die casting machine system comprises die casting machine systems of the brands of yizhi, yu, japanese yu, strength, yite, toshiba, dongyang and the like, data transmission interfaces between the systems may be inconsistent, or data acquisition modes are inconsistent, or working modes are different and the like, and need to be managed uniformly.

The scan connection module 16: the system end wireless AP adopts a preset network password to carry out wireless AP connection according to the scanned directional broadcast;

in the specific implementation process of the present invention, after the system-side wireless AP performs wireless AP connection by using a preset network password according to the scanned directional broadcast, the method further includes: after a system end wireless AP is connected with a control end wireless AP, the control end wireless AP acquires a connection MAC address of the system end wireless AP; the control end wireless AP feeds the connection MAC address back to the control server; the control server determines whether the connection MAC address is consistent with the MAC address contained in the control instruction; if so, confirming that the wireless AP is successfully connected; if not, the control server disconnects the control end wireless AP from the system end wireless AP which is determined to be inconsistent and connected with the MAC address, and confirms that the wireless AP is not successfully connected.

Specifically, after the system-side wireless AP scans the directional broadcast network name of the control-side AP in real time, the network password pre-stored in the system-side wireless AP is used for wireless AP connection, if the password is correct, connection can be performed, and if the password is wrong, connection cannot be performed.

After connection, MAC addresses of all system end wireless APs connected with the control end wireless AP are obtained in an instruction mode through the control end wireless AP, and the MAC addresses are fed back to a control server; after the control server obtains the MAC addresses, the MAC addresses are matched with the MAC addresses of the system end wireless APs which are required to be directionally broadcasted by the control server to generate directional broadcasting instructions, if the MAC addresses are consistent after matching, the wireless APs are confirmed to be successfully connected, if the MAC addresses which are inconsistent are found to exist after matching, the connection between the system end wireless AP and the control end wireless AP corresponding to the inconsistent MAC addresses is disconnected, and the connection between the disconnected connected wireless APs is confirmed to be unsuccessful.

The cooperative operation module 17: and the die casting system is used for receiving the cooperative operation instruction according to the wireless AP connection to perform cooperative operation.

In the specific implementation process of the invention, after the system-side wireless AP and the control-side wireless AP are connected through the wireless AP, the control server transmits a cooperative work instruction to the die-casting system connected with the wireless AP through the wireless AP, then the die-casting system analyzes the cooperative work instruction after acquiring the cooperative work, and the die-casting system performs the cooperative work with other die-casting systems which also receive the cooperative work instruction according to the instruction content of the cooperative work instruction until the content of the related cooperative work is completed or a new instruction is received.

In the embodiment of the invention, the intelligent terminal sends the control instruction to the control server, and the server generates the directional broadcast instruction according to the control instruction to control the connection between the control end wireless AP and the system end wireless AP, so that the control instruction is sent to the die-casting system to realize the control of the cooperative operation of the die-casting system, and thus, the cooperative operation efficiency among the die-casting systems is increased and the personnel cost is reduced only by the management user performing corresponding operation on the intelligent terminal.

Those skilled in the art will appreciate that all or part of the steps in the methods of the above embodiments may be implemented by associated hardware instructed by a program, which may be stored in a computer-readable storage medium, and the storage medium may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

In addition, the above detailed description is provided for the intelligent cooperative control method and system based on different die casting machine systems according to the embodiment of the present invention, and a specific example should be adopted herein to explain the principle and implementation manner of the present invention, and the description of the above embodiment is only used to help understanding the method and core idea of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (6)

1. An intelligent cooperative operation method based on different die casting machine systems is characterized by comprising the following steps:

the control server receives a control instruction sent by a user based on the intelligent terminal, the control instruction is produced by the user based on an operation interface of the intelligent terminal, and the control instruction comprises an MAC address of a system end wireless AP and a cooperative operation instruction;

the control server analyzes the control instruction and generates a directional broadcast instruction according to the control instruction content obtained by analysis, wherein the directional broadcast instruction comprises a directional broadcast network name and a directional broadcast network password;

transmitting the directional broadcast instruction to a control end wireless AP based on a photoelectric transceiver;

the control end wireless AP resets the network name hotspot password of the AP hotspot to the directional broadcast network name and the directional broadcast network password respectively;

directionally broadcasting the reset AP hot spot to a system end wireless AP connected with the die casting system;

the system end wireless AP adopts a preset network password to carry out wireless AP connection according to the scanned directional broadcast;

the die-casting system receives the cooperative operation instruction according to the wireless AP connection to perform cooperative operation;

the control server analyzes the control instruction and generates a directional broadcast instruction according to the control instruction content obtained by analysis, and the method comprises the following steps:

after the control server receives the control instruction, the control instruction is correspondingly analyzed, so that the MAC address of the system end wireless AP and the cooperative operation instruction contained in the control instruction are analyzed; and automatically matching the directional broadcast network name corresponding to the MAC address of the system end wireless AP in an internal directional broadcast network name database in the server, matching the directional broadcast network name and the directional broadcast network password which can be connected only by the MAC address of the system end wireless AP, and then generating a directional broadcast instruction according to the directional broadcast network name and the directional broadcast network password.

2. The intelligent cooperative work method according to claim 1, wherein the cooperative work instruction includes a same die-casting system cooperative work instruction and a different die-casting system cooperative work instruction.

3. The intelligent cooperative work method according to claim 1, wherein the transmitting the directional broadcast instruction to the control-end wireless AP based on the optoelectronic transceiver comprises:

the control server is in communication connection with the first photoelectric transceiver based on an Ethernet line, and the control end wireless AP is in communication connection with the second photoelectric transceiver based on the Ethernet line;

the first photoelectric transceiver and the second photoelectric transceiver are connected based on optical cable communication, so that the control server can transmit directional broadcast instructions to the control-end wireless AP.

4. The intelligent cooperative work method according to claim 1, wherein the resetting, by the control-end wireless AP, the network name hotspot password of the AP hotspot to the directional broadcast network name and the directional broadcast network password, respectively, comprises:

the control end wireless AP analyzes the directional broadcast instruction, and acquires a directional broadcast network name and a directional broadcast network password contained in the directional broadcast instruction;

and starting a reset program in the wireless AP, and resetting the network name and the network password of the AP hotspot into the directional broadcast network name and the directional broadcast network password respectively.

5. The intelligent cooperative work method according to claim 1, wherein the system-side wireless AP performs wireless AP connection using a preset network password according to the scanned directional broadcast, and then further comprises:

after a system end wireless AP is connected with a control end wireless AP, the control end wireless AP acquires a connection MAC address of the system end wireless AP;

the control end wireless AP feeds the connection MAC address back to the control server;

the control server determines whether the connection MAC address is consistent with the MAC address contained in the control instruction;

if so, confirming that the wireless AP is successfully connected;

if not, the control server disconnects the control end wireless AP from the system end wireless AP which is determined to be inconsistent and connected with the MAC address, and confirms that the wireless AP is not successfully connected.

6. The utility model provides an intelligent collaborative operation system based on different die casting machine intersystem, its characterized in that, the system includes:

a control instruction receiving module: the control server is used for receiving a control instruction sent by a user based on the intelligent terminal, the control instruction is produced by the user based on an operation interface of the intelligent terminal, and the control instruction comprises an MAC address of a system end wireless AP and a cooperative operation instruction;

a broadcast instruction generation module: the control server is used for analyzing the control instruction and generating a directional broadcast instruction according to the control instruction content obtained by analysis, wherein the directional broadcast instruction comprises a directional broadcast network name and a directional broadcast network password;

broadcast instruction transmission module: the directional broadcast instruction is transmitted to a control end wireless AP based on a photoelectric transceiver;

AP hotspot resetting module: the wireless AP is used for the control end to reset the network name hotspot password of the AP hotspot into the directional broadcast network name and the directional broadcast network password respectively;

a directional broadcasting module: the system end wireless AP is used for directionally broadcasting the reset AP hot spot to a system end wireless AP connected with the die casting system;

a scanning connection module: the system end wireless AP adopts a preset network password to carry out wireless AP connection according to the scanned directional broadcast;

a cooperative operation module: the die-casting system is used for receiving the cooperative operation instruction according to the wireless AP connection to perform cooperative operation;

the control server analyzes the control instruction and generates a directional broadcast instruction according to the control instruction content obtained by analysis, and the method comprises the following steps:

after the control server receives the control instruction, the control instruction is correspondingly analyzed, so that the MAC address of the system end wireless AP and the cooperative operation instruction contained in the control instruction are analyzed; and automatically matching the directional broadcast network name corresponding to the MAC address of the system end wireless AP in an internal directional broadcast network name database in the server, matching the directional broadcast network name and the directional broadcast network password which can be connected only by the MAC address of the system end wireless AP, and then generating a directional broadcast instruction according to the directional broadcast network name and the directional broadcast network password.

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