Disclosure of Invention
The invention aims to provide an automatic wireless communication system and a communication method thereof, which effectively simplify the overall structure of a display control system and improve the flexibility of the structure composition and distribution of the control system; the flexibility and the precision of the operation of transmitting the control command of the display can be effectively improved, and the operation cost is effectively reduced.
In order to achieve the purpose, the invention provides the following technical scheme:
the invention relates to an automatic wireless communication system which comprises a plurality of communication receiving terminals, a data modulation distribution server, program control terminals and a wireless communication network, wherein the communication receiving terminals are connected in parallel and are respectively connected with the data modulation distribution server through the wireless communication network; the data modulation distribution server comprises a rack, an internet-of-things controller, a wireless communication gateway, a data storage device, a control computer and a first main control circuit, wherein the rack is of a rectangular frame structure with the axis vertical to the horizontal plane, and the internet-of-things controller, the wireless communication gateway, the data storage device, the control computer and the first main control circuit are all embedded in the rack; the wireless communication gateway is at least one and is positioned at the lowest part of the rack and connected with the Internet of things controllers, the Internet of things controllers are at least two, the Internet of things controllers are mutually connected in parallel and are respectively and electrically connected with the data storage device, the control computer and the first main control circuit, the control computer is at least one and is electrically connected with the data storage device, the data storage devices are at least two, the data storage devices are mutually connected in parallel, and the first main control circuit is embedded in the front end face of the rack and is respectively and electrically connected with the Internet of things controllers, the wireless communication gateway, the data storage device and the control computer; the communication receiving terminal comprises a bearing shell, a communication port, a coding and decoding circuit, a wireless data communication circuit, an auxiliary power circuit and a second main control circuit, wherein the bearing shell is of a closed cavity structure, the communication port is embedded in the outer surface of the bearing shell, and the coding and decoding circuit, the wireless data communication circuit, the auxiliary power circuit and the second main control circuit are all embedded in the bearing shell, wherein the second main control circuit is respectively and electrically connected with the communication port, the coding and decoding circuit, the wireless data communication circuit and the auxiliary power circuit, and the coding and decoding circuit is respectively and electrically connected with the communication port and the wireless data communication circuit; the utility model discloses a communication port, including the communication port, the communication port rear end face is connected the spout, and the connection spout sliding connection is established to the bearing shell surface that the communication port corresponds, the connection spout tank bottom is established binding post, binding post passes through the wire respectively with communication port and second master control circuit electrical connection, the wire inlays in connecting the spout lateral wall, and follows connect spout axis direction and distribute, at least one locating pin is established to the slider side surface, and up end and lower terminal surface all establish a cladding at the connection spout surface and with be connected spout parallel distribution's elasticity sealed lid, wherein locating pin axis with be connected spout axis vertical distribution.
The first main control circuit and the second main control circuit respectively comprise a data processing circuit, a coding and decoding integrated circuit, a crystal oscillator circuit, an MOS (metal oxide semiconductor) drive circuit and a data communication bus circuit which are based on any one or two public functions of a DSP (digital signal processor) and an FPGA (field programmable gate array), wherein the data communication bus circuit is electrically connected with the data processing circuit, the coding and decoding integrated circuit, the crystal oscillator circuit and the MOS drive circuit respectively, and the MOS drive circuit and the data communication bus circuit are electrically connected with an external circuit.
The outer surface of the bearing shell is additionally provided with a wireless data communication antenna which is hinged with the outer surface of the bearing shell and is electrically connected with a wireless data communication circuit.
The program control terminal is based on any one or more public of a PC computer, an industrial computer and a mobile communication terminal.
The wireless communication network is a wireless data communication system based on any one or more of a WIFI system, a Bluetooth system and a Zigbee system.
The communication method of the automatic wireless communication system includes the following steps:
s1, assembling hardware, namely, firstly installing a data modulation distribution server, a program control terminal and communication equipment forming a wireless communication network at a set position, then respectively distributing a communication receiving terminal for each display according to the number of the displays to be communicated and processed, connecting the communication receiving terminal port of the communication receiving terminal with the display port of the display, finally establishing network connection among the communication receiving terminal, the data modulation distribution server and the program control terminal through the wireless communication network, collecting equipment hardware identification codes of the communication receiving terminals and the displays connected with the communication receiving terminals through the program control terminal, and then respectively distributing independent communication addresses for the communication receiving terminals and the displays connected with the communication receiving terminals according to the collected hardware identification codes;
s2, controlling the display actively, after the step S1 is completed, firstly inputting a corresponding display command program through the program control terminal, then coding and addressing the input display command program through the data modulation distribution server, compiling the received display command program into a program code matched with a set display hardware system, finally receiving the compiled program code through the communication receiving terminal and transmitting the program code to the display, thereby realizing that the display executes corresponding operation according to the received program code, simultaneously, the display operation result is fed back to the data modulation distribution server through the communication receiving terminal, and the program code identified by the program control terminal is coded through the data modulation distribution server and then is sent to the program control terminal, and the feedback of the display control code is completed;
s3, controlling by the passive display, and after the step S1 is completed, firstly, inputting a corresponding display command program through the program control terminal; transmitting the recorded display command program to the data modulation distribution server and storing the display command program in a data storage device of the data modulation distribution server; meanwhile, feedback data during the operation of the display is collected and sent to the data modulation distribution server through the communication receiving terminal and stored in a data storage device of the data modulation distribution server; then when the display is commanded, selecting a corresponding display command program in the data storage device through the Internet-of-things controller of the data modulation distribution server, encoding the display command program, sending the encoded display command program to the communication receiving terminal, and transmitting the encoded display command program to the display through the communication receiving terminal, so that the display executes corresponding operation according to the received program code; meanwhile, when the running state of the display needs to be retrieved, the program control terminal drives the Internet of things controller of the data modulation distribution server to run, and corresponding display running parameters are selected from the data storage device of the data modulation distribution server, so that the running data of the display is obtained.
In step S2, when performing remote program operation on the display, first, a target plan of the display operation request and the detection operation is formulated, and then, the subsequent display operation is performed according to the formulated target plan, and when performing the display operation: firstly, assembling a program according to a control operation target plan, and assembling various detection items required to be executed by a display detection operation into a unified program through the program control terminal; then, inputting the assembled program into the data modulation distribution server for standby; after finishing the program entry, control and control the passive display of initiative display as required respectively, wherein: when the active display is controlled, the communication receiving terminal directly establishes data communication connection with the data modulation distribution server, the program control terminal selects the corresponding pre-stored program, then the data modulation distribution server encodes the selected program to generate a control command which can be identified by the display, and then sends the control command to the communication receiving terminal, and the communication receiving terminal controls the display to operate according to the received command program, and when the display operates, feeding back the display parameters obtained by operation to the data modulation distribution server through the communication receiving terminal, then the data modulation distribution server encodes the received feedback parameters to obtain a program code which can be identified by the program control terminal, and then sending the program code to a program control terminal to complete the operation information feedback operation of the display, thereby realizing the operation and the information feedback operation of the closed-loop display.
In step S3, when the passive display is operated, the communication receiving terminal directly establishes a data communication connection with the data modulation distribution server, the communication receiving terminal selects a corresponding pre-stored program, the data modulation distribution server encodes the selected program to generate a control command recognizable for the display, and then sends the control command to the communication receiving terminal, and the communication receiving terminal operates the display according to the received command program and operates the display; feeding back each display parameter obtained by operation to a data modulation distribution server through a communication receiving terminal for storage, then screening each display feedback data stored in the data modulation distribution server by the program control terminal, and then coding the display feedback data at the screened position through the data modulation distribution server to obtain a program code which can be identified by the program control terminal; and then the coded program code is sent to a program control terminal to complete the operation information feedback operation of the display, thereby realizing the operation and the information feedback operation of the closed-loop display.
On one hand, the invention has simple structure and good universality, effectively simplifies the integral structure of the display control system and improves the flexibility of the structure composition and distribution of the control system; on the other hand, the flexibility and the precision of the transmission operation of the display control command can be effectively improved, the labor intensity of the display control operation and the operation and maintenance cost of a control system can be effectively reduced, the modulation flexibility and the modulation reliability of the display are effectively improved, and the operation cost is effectively reduced.
Detailed Description
The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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.
As shown in fig. 1 to 4, an automated wireless communication system includes a plurality of communication receiving terminals 1, a data modulation distribution server 2, a program control terminal 3, and a wireless communication network 4, wherein the communication receiving terminals 1 are connected in parallel and are respectively connected to the data modulation distribution server 2 through the wireless communication network 4, the data modulation distribution server 2 is further connected to at least two program control terminals 3 through the wireless communication network 4, and the program control terminals 3 are connected in series and parallel with each other through the program control terminal 3.
It is emphasized that the data modulation distribution server 2 includes a rack 21, an internet-of-things controller 22, a wireless communication gateway 23, a data storage device 24, a control computer 25 and a first main control circuit 26, the rack 21 is a rectangular frame structure whose axis is vertically distributed with a horizontal plane, the internet-of-things controller 22, the wireless communication gateway 23, the data storage device 24, the control computer 25 and the first main control circuit 26 are all embedded in the rack 21, wherein at least one of the wireless communication gateway 23 is located at the lowest part of the rack 21 and connected with the internet-of-things controller 22, at least two internet-of-things controllers 22 are connected in parallel with each other and electrically connected with the data storage device 24, the control computer 25 and the first main control circuit 26, at least one of the control computers 25 is electrically connected with the data storage device 24, the number of the data storage devices 24 is at least two, the data storage devices 24 are connected in parallel, and the first main control circuit 26 is embedded in the front end face of the rack 21 and is electrically connected with the internet-of-things controller 22, the wireless communication gateway 23, the data storage devices 24 and the operation and control computer 25 respectively.
Meanwhile, the communication receiving terminal 1 includes a bearing shell 11, a communication port 12, an encoding decoding circuit 13, a wireless data communication circuit 14, an auxiliary power circuit 15 and a second main control circuit, the bearing shell 11 is a closed cavity structure, at least one of the communication ports 12 is embedded in the outer surface of the bearing shell 11, the encoding decoding circuit 13, the wireless data communication circuit 14, the auxiliary power circuit 15 and the second main control circuit are all embedded in the bearing shell 11, wherein the second main control circuit is respectively electrically connected with the communication port 12, the encoding decoding circuit 13, the wireless data communication circuit 14 and the auxiliary power circuit 15, and the encoding decoding circuit 13 is respectively electrically connected with the communication port 12 and the wireless data communication circuit 14.
In this embodiment, the first main control circuit 26 and the second main control circuit each include a data processing circuit, a coding and decoding integrated circuit, a crystal oscillator circuit, an MOS driver circuit, and a data communication bus circuit based on one or two of DSP and FPGA, the data communication bus circuit is electrically connected to the data processing circuit, the coding and decoding integrated circuit, the crystal oscillator circuit, and the MOS driver circuit and the data communication bus circuit are electrically connected to an external circuit.
In addition, the outer surface of the bearing shell 11 corresponding to the communication port 12 is provided with a connecting chute 16, the rear end surface of the communication port 12 is slidably connected with the connecting chute 16 through a sliding block 17, a wiring terminal 18 is arranged at the bottom of the connecting chute 16, the wiring terminal 18 is electrically connected with the communication port 12 and a second main control circuit through a wire 19, the wire 19 is embedded in the side wall of the connecting chute 16 and distributed along the axial direction of the connecting chute 16, at least one positioning pin 101 is arranged on the side surface of the sliding block 17, and an elastic sealing cover 102 which is coated on the outer surface of the connecting chute 16 and distributed in parallel with the connecting chute 16 is arranged on the upper end surface and the lower end surface, wherein the axial lines of the positioning pins 101 and.
Meanwhile, the outer surface of the bearing shell 11 is further provided with a wireless data communication antenna 103, and the wireless data communication antenna 103 is hinged with the outer surface of the bearing shell 11 and is electrically connected with the wireless data communication circuit 14.
Preferably, the program control terminal 3 is one or more of a PC-based computer, an industrial computer and a mobile communication terminal.
Preferably, the wireless communication network 4 is a wireless data communication system based on any one or more of a WIFI system, a bluetooth system, and a Zigbee system.
As shown in fig. 5-6, a communication method of an automated wireless communication system includes the following steps:
s1, hardware assembly, first installing the data modulation distribution server 2, the program control terminal 3 and the communication equipment constituting the wireless communication network 4 at a set position, then according to the number of the displays to be communicated, each display is respectively allocated with a communication receiving terminal 1, and the communication receiving terminal port of the communication receiving terminal 1 is connected with the display port of the display, and finally the communication receiving terminal 1, the data modulation distribution server 2 and the program control terminal 3 are connected with the network through the wireless communication network 4, and collects each communication receiving terminal 1 and the hardware identification code of the display device connected with the communication receiving terminal 1 through the data modulation distribution server 2 through the program control terminal 3, then, according to the collected hardware identification codes, independent communication addresses are respectively distributed for the communication receiving terminal 1 and a display connected with the communication receiving terminal 1;
s2, the display is actively controlled, after the step S1 is completed, a corresponding display command program is firstly recorded through the program control terminal 3, then the recorded display command program is coded and addressed through the data modulation distribution server 2, the received display command program is compiled into a program code matched with a specified display hardware system, finally the compiled program code is received through the communication receiving terminal 1 and is transmitted to the display, so that the display executes corresponding operation according to the received program code, meanwhile, the display operation result is fed back to the data modulation distribution server 2 through the communication receiving terminal 1, and the program code recognized by the program control terminal 3 is coded through the data modulation distribution server 2 and then is sent to the program control terminal 3, and the feedback of the display control code is completed;
s3, the passive display is controlled, and after the step S1 is completed, a corresponding display command program is firstly input through the program control terminal 3; transmitting the recorded display command program to the data modulation distribution server 2 and storing the display command program in the data storage device 24 of the data modulation distribution server 2; meanwhile, feedback data during the operation of the display is collected and sent to the data modulation distribution server 2 through the communication receiving terminal 1 and stored in the data storage device 24 of the data modulation distribution server 2; then when the command control is carried out on the display, the internet-of-things controller 22 of the data modulation distribution server 2 selects a corresponding display command program in the data storage device 24, and then the display command program is sent to the communication receiving terminal 1 after being coded and is transmitted to the display through the communication receiving terminal 1, so that the display executes corresponding operation according to the received program code; meanwhile, when the running state of the display needs to be retrieved, the program control terminal 3 drives the internet-of-things controller 22 of the data modulation distribution server 2 to run, and selects corresponding display running parameters from the data storage device 24 of the data modulation distribution server 2, so as to obtain display running data.
Through the embodiment, the data modulation distribution server 2 is connected with at least two program control terminals 3 through the wireless communication network 4, and the program control terminals 3 are connected in series and parallel through the program control terminals 3, so that the display control system has a simple structure and good universality, and the overall structure of the display control system is effectively simplified. And all the internet-of-things controllers 22 are mutually connected in parallel and are respectively electrically connected with a data storage device 24, an operation control computer 25 and a first main control circuit 26, at least one operation control computer 25 is electrically connected with the data storage device 24, at least two data storage devices 24 are arranged, all the data storage devices 24 are mutually connected in parallel, and the first main control circuit 26 is embedded in the front end face of the rack 21 and is respectively electrically connected with the internet-of-things controllers 22, the wireless communication gateway 23, the data storage devices 24 and the operation control computer 25, so that the flexibility of the structure constitution and the distribution of the operation control system is improved.
In addition, a connecting chute 16 is arranged on the outer surface of the bearing shell 11 corresponding to the communication port 12, the rear end surface of the communication port 12 is connected with the connecting chute 16 in a sliding manner through a sliding block 17, a wiring terminal 18 is arranged at the bottom of the connecting chute 16, the wiring terminal 18 is respectively and electrically connected with the communication port 12 and the first main control circuit 26 through a wire 19, the wire 19 is embedded in the side wall of the connecting chute 16 and is distributed along the axial direction of the connecting chute 16, so that the flexibility and the precision of the transmission operation of the operation and control command of the display can be effectively improved, the labor intensity of the operation and control of the display and the operation and maintenance cost of an operation and control system can be effectively reduced, at least one positioning pin 101 is arranged on the side surface of the sliding block 17, an elastic sealing cover 102 which is coated on the outer surface of the connecting chute 16 and is distributed in parallel to, therefore, the modulation flexibility and the reliability of the display are effectively improved, and meanwhile, the operation cost is effectively reduced.
In this embodiment, when performing remote program operation on the display, firstly, a target plan for operation requirement and detection operation of the display is formulated, and then, according to the formulated target plan, subsequent operation of the display is performed, and when performing operation of the display:
firstly, assembling a program according to a control operation target plan, and assembling various detection items required to be executed by a display detection operation into a unified program through a program control terminal 3; then the assembled program is recorded into a data modulation distribution server 2 for standby; after finishing the procedure and logging, can control and control the display operation with passive display control by the initiative display respectively as required, wherein: when the active display is operated, the communication receiving terminal 1 directly establishes data communication connection with the data modulation distribution server 2, the program control terminal 3 selects a corresponding pre-stored program, then the data modulation distribution server 2 encodes the selected program to generate a control command which can be identified by the display, and then sends the control command to the communication receiving terminal 1, the communication receiving terminal 1 controls the display to operate according to the received command program, and in the operation of the display, the display parameters obtained by operation are fed back to the data modulation distribution server 2 through the communication receiving terminal 1, then the data modulation distribution server 2 encodes the received feedback parameters to obtain a program code which can be identified by the program control terminal 3, and then the program code is sent to the program control terminal 3, thus completing the operation information feedback operation of the display, thereby realizing the operation and control of the closed-loop display and the information feedback operation; when the passive display is operated, the communication receiving terminal 1 directly establishes data communication connection with the data modulation distribution server 2, the communication receiving terminal 1 selects a corresponding pre-stored program, then the data modulation distribution server 2 encodes the selected program to generate a control command which can be identified by the display, then the control command is sent to the communication receiving terminal 1, the communication receiving terminal 1 controls the display to operate according to the received command program, in the operation of the display, each display parameter obtained by operation is fed back to the data modulation distribution server 2 through the communication receiving terminal 1 for storage, then the program control terminal 3 screens each display feedback data stored in the data modulation distribution server 2, then the display feedback data at the screened position is encoded through the data modulation distribution server 2 to obtain a program code which can be identified by the program control terminal 3, and then the coded program code is sent to the program control terminal 3, so that the operation information feedback operation of the display can be completed, and the operation and the information feedback operation of the closed-loop display can be realized.
The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.