CN107396513B - Street lamp monitoring terminal controller - Google Patents

Abstract

The invention relates to a street lamp monitoring terminal controller, which comprises a panel, a shell, a processor module, a display screen, a key panel, a signal lamp panel, a port panel, a display module, a signal lamp module, a key module and a port module, wherein the shell is arranged on the shell; the port panel is provided with a 486 interface area, a three-phase main current monitoring interface area, a branch current input end area, an I/O (input/output) quantity detection input end area, an entrance guard port, a three-phase electric input interface area, an output end interface area, an on-site water immersion alarm interface and an on-site entrance guard alarm interface; the invention adopts a GPRS communication mode, can realize the remote and rapid data transmission control of a monitoring point and a monitoring center, has high transmission efficiency, greatly improves the street lamp setting and control efficiency, has remarkable electricity-saving effect and accelerates the recovery of construction cost.

Description

Street lamp monitoring terminal controller

Technical Field

The invention relates to a street lamp monitoring terminal controller.

Background

The street lamp system is an indispensable system in a modern urban traffic system, the complexity of the street lamp system is higher and higher along with the continuous expansion of the urban scale, the control and the management of the street lamp system must be assisted by a special monitoring system, the street lamp monitoring system mainly aims to provide a quick and convenient human-computer interface and a high-level management function for an operator, and various heavy, complex and repeated work can be automatically completed in a very short time by matching with hardware.

The street lamp monitoring system needs a corresponding controller as a carrier to realize control and operation, the street lamp monitoring terminal controller is the most basic primary control system of a data acquisition (SCADA) system, all monitored sites are provided with a set of street lamp monitoring terminal controllers, a monitoring center acquires all parameters and information from the sites and controls and adjusts the site equipment through the street lamp monitoring terminal controllers, transmits the acquired data to the monitoring center according to the needs, and simultaneously receives a remote control instruction from the monitoring center to control a site; the traditional serial communication mode is adopted by the street lamp monitoring terminal controller on the market at present, and the transmission efficiency is low, so that the control efficiency is low, and further improvement is needed.

Disclosure of Invention

In view of the current situation of the prior art, the technical problem to be solved by the present invention is to provide a street lamp monitoring terminal controller which adopts a GPRS communication mode, can realize remote and fast data transmission control between a monitoring point and a monitoring center, has high transmission efficiency, and greatly improves street lamp setting and control efficiency.

The technical scheme adopted by the invention for solving the technical problems is as follows: a street lamp monitoring terminal controller comprises a panel, a shell, a processor module, a display screen, a key panel, a signal lamp panel, a port panel, a display module, a signal lamp module, a key module and a port module, and is characterized in that the front opening of the shell is fixedly provided with the panel, the front plane of the panel is fixedly embedded with the display screen, the rear side of the display screen is provided with the display module, the display module is connected with the processor module, the display module is positioned in the shell, the processor module is arranged in the shell, the processor module is also connected with the key module, the front side of the key module is fixedly provided with the key panel, the key panel is fixedly embedded in the front plane of the panel and positioned at the right side of the display screen, the front plane of the panel is fixedly embedded with the port panel, and the port panel is positioned below the display screen, the signal lamp panel is embedded and fixed on the front side plane of the panel and located on the right side of the key panel, the signal lamp module is arranged on the rear side of the signal lamp panel and connected with the processor module and located inside the shell, the key module can set parameters and operation states of the controller and transmit set contents to the processor module, and the processor module stores and executes the set contents.

Preferably, the key panel is further provided with a first key, a second key, a third key and a fourth key; the first key, the second key, the third key and the fourth key are all connected with the key module.

Preferably, a 486 interface area, a three-phase main current monitoring interface area, a branch current input end area, an I/O quantity detection input end area, an I25 door access port, a three-phase electric input interface area, an output end interface area, a K7 field water immersion alarm interface and a K8 field door access alarm interface are arranged on the port panel; the 486 interface region, the three-phase main current monitoring interface region, the branch current input end region, the I/O quantity detection input end region, the I25 door control port, the three-phase electric input interface region, the output end interface region, the K7 field water immersion alarm interface and the K8 field door control alarm interface are respectively connected with the port module, the port module is connected with the processor module, and the port module is arranged on the rear side plane of the port panel and is positioned in the shell.

Preferably, the 486 interface region comprises a first 486 interface and a second 486 interface; the three-phase main current monitoring interface area comprises a first monitoring interface, a second monitoring interface and a third monitoring interface; the branch current input end region comprises an I1 interface, an I2 interface, an I3 interface, an I4 interface, an I5 interface, an I6 interface, an I7 interface, an I8 interface, an I9 interface, an I10 interface, an I11 interface, an I12 interface and an I13 interface; the I/O quantity detection input end area comprises an I14 interface, an I15 interface, an I16 interface, an I17 interface, an I18 interface, an I19 interface, an I20 interface, an I21 interface, an I22 interface, an I23 interface and an I24 interface; the three-phase electric input interface area comprises an A1 interface, a B1 interface, a C1 interface and a D1 interface; the output interface area comprises a K1 interface, a K2 interface, a K3 interface, a K4 interface, a K5 interface and a K6 interface.

Preferably, the upper end of the front side plane of the signal lamp panel is provided with an on-line indicator lamp, a dialing indicator lamp, a module information receiving indicator lamp and a module signal transmitting indicator lamp, and the on-line indicator lamp, the dialing indicator lamp, the module information receiving indicator lamp and the module signal transmitting indicator lamp are respectively connected with the signal lamp module.

Preferably, a K1 interface indicator lamp, a K2 interface indicator lamp, a K3 interface indicator lamp, a K4 interface indicator lamp, a K5 interface indicator lamp, a K6 interface indicator lamp, a K7 interface indicator lamp and a K interface indicator lamp are further mounted on the front side plane of the signal lamp panel, and a K1 interface switch, a K2 interface switch, a K3 interface switch, a K4 interface switch, a K5 interface switch, a K6 interface switch, a K7 interface switch and a K8 interface switch are respectively mounted and correspondingly connected right below the K1 interface indicator lamp, the K2 interface indicator lamp, the K3 interface indicator lamp, the K4 interface indicator lamp, the K5 interface indicator lamp, the K6 interface indicator lamp, the K7 interface indicator lamp and the K8 interface indicator lamp; the K1 interface switch, the K2 interface switch, the K3 interface switch, the K4 interface switch, the K5 interface switch, the K6 interface switch, the K7 interface switch 11 and the K8 interface switch are respectively connected with the signal lamp module.

Preferably, the 486 interface area is a data transmission terminal based on a mobile GRPS2.5G network platform, and a GPRS independent transmission module (DTU) is used for communication.

Preferably, the I/O quantity detection input end region can collect three-phase voltage, three-phase current, branch current of each circuit, switching state of each circuit, power factor, equipment temperature and setting state.

Preferably, the processor module counts and analyzes the data collected in the port module, transmits the data to the display module, and displays the data in the display screen, wherein the display screen can display time, date, installation station number, three-phase voltage and current and corresponding branch current, and can reflect whether the street lamp normally operates, and the lower right part is marked with whether the operation state is abnormal.

Preferably, the signal lamp module indicates the access condition of each line in the port module, and the interface switches K1 to K8 are respectively and correspondingly connected with the interface indicator lamps K1 to K8.

Compared with the prior art, the invention has the advantages that: the street lamp system is an indispensable system in a modern urban traffic system, the complexity of the street lamp system is higher and higher along with the continuous expansion of the scale of the city, the control and the management of the street lamp system must be assisted by a special monitoring system, the street lamp monitoring system mainly aims to provide a quick and convenient human-computer interface and a high-level management function for an operator, various heavy, complex and repeated work can be automatically completed in a very short time by matching hardware, the street lamp monitoring system needs a corresponding controller as a carrier to realize the control and the operation, a street lamp monitoring terminal controller is the most basic primary control system of a data acquisition (SCADA) system, all monitored sites are provided with a set of street lamp monitoring terminal controllers, a monitoring center acquires all parameters and information from the sites and controls and adjusts site equipment through the street lamp monitoring terminal controllers, the acquired data are transmitted to a monitoring center according to the requirement, and meanwhile, a remote control instruction from the monitoring center is received to control the site; the conventional serial communication mode is adopted by a street lamp monitoring terminal controller on the market at present, so that the transmission efficiency is low, and the control efficiency is low; the invention adopts a GPRS communication mode, can realize the remote and rapid data transmission control of a monitoring point and a monitoring center, has high transmission efficiency, greatly improves the street lamp setting and control efficiency, has remarkable electricity-saving effect and accelerates the recovery of construction cost.

Drawings

FIG. 1 is a control block diagram of the present invention;

FIG. 2 is a block diagram of the present invention;

FIG. 3 is a block diagram of a port panel of the present invention;

fig. 4 is a structural diagram of a signal lamp panel according to the present invention.

Detailed Description

As shown in fig. 1 to 4, a controller of a street lamp monitoring terminal includes a panel 21, a housing 22, a processor module, a display screen 27, a key panel 30, a signal lamp panel 28, a port panel 29, a display module, a signal lamp module, a key module and a port module; a panel 21 is fixed at an opening at the front end of the shell 22, a display screen 27 is embedded and fixed on the front side plane of the panel 21, a display module is arranged at the rear side of the display screen 27 and connected with a processor module, the display module is positioned inside the shell 22, the processor module is arranged inside the shell 22 and connected with a key module, a key panel 30 is fixed on the front side of the key module, the key panel 30 is embedded and fixed on the front side plane of the panel 21 and positioned at the right side of the display screen, and a first key 23, a second key 24, a third key 25 and a fourth key 26 are also arranged on the key panel 30; the first key 23, the second key 24, the third key 25 and the fourth key 26 are all connected with the key module; a port panel 29 is embedded and fixed on the front side plane of the panel 21, the port panel 29 is positioned below the display screen 27, and a 486 interface area, a three-phase main current monitoring interface area, a branch current input end area, an I/O (input/output) quantity detection input end area, an entrance guard port I25, a three-phase electric input interface area, an output end interface area, a field water immersion alarm interface K7 and a field entrance guard alarm interface K8 are arranged on the port panel 29; a 486 interface region, a three-phase main current monitoring interface region, a branch current input end region, an I/O quantity detection input end region, an entrance guard port I25, a three-phase electric input interface region, an output end interface region, a field water immersion alarm interface K7 and a field entrance guard alarm interface K8 are respectively connected with a port module, the port module is connected with a processor module, and the port module is arranged on the rear side plane of a port panel 29 and is positioned in the shell 22; the 486 interface region includes a first 486 interface T1 and a second 486 interface T2; the three-phase main current monitoring interface region comprises a first monitoring interface S1, a second monitoring interface S2 and a third monitoring interface S3; the branch current input end region comprises an I1 interface, an I2 interface, an I3 interface, an I4 interface, an I5 interface, an I6 interface, an I7 interface, an I8 interface, an I9 interface, an I10 interface, an I11 interface, an I12 interface and an I13 interface; the I/O quantity detection input end area comprises an I14 interface, an I15 interface, an I16 interface, an I17 interface, an I18 interface, an I19 interface, an I20 interface, an I21 interface, an I22 interface, an I23 interface and an I24 interface; the three-phase electric input interface area comprises an A1 interface, a B1 interface, a C1 interface and a D1 interface; the output interface area comprises a K1 interface, a K2 interface, a K3 interface, a K4 interface, a K5 interface and a K6 interface; the signal lamp panel 28 is embedded and fixed on the front side plane of the panel 21 and located on the right side of the key panel 30, the signal lamp module is arranged on the rear side of the signal lamp panel 28, the signal lamp module is connected with the processor module and located inside the shell 22, the upper end of the front side plane of the signal lamp panel 28 is provided with an online indicator lamp 1, a dialing indicator lamp 2, a module information receiving indicator lamp 3 and a module signal transmitting indicator lamp 4, and the online indicator lamp 1, the dialing indicator lamp 2, the module information receiving indicator lamp 3 and the module signal transmitting indicator lamp 4 are respectively connected with the signal lamp module; a K1 interface indicator lamp 13, a K2 interface indicator lamp 14, a K3 interface indicator lamp 15, a K4 interface indicator lamp 16, a K5 interface indicator lamp 5, a K6 interface indicator lamp 6, a K7 interface indicator lamp 7 and a K8 interface indicator lamp 8 are further arranged on the front side plane of the signal lamp panel 28, and a K1 interface indicator lamp 13, a K2 interface indicator lamp 14, a K3 interface indicator lamp 15, a K4 interface indicator lamp 16, a K5 interface indicator lamp 5, a K6 interface indicator lamp 6, a K7 interface indicator lamp 7 and a K8 interface indicator lamp 8 are respectively arranged right below and correspondingly connected with a K1 interface switch 17, a K2 interface switch 18, a K3 interface switch 19, a K4 interface switch 20, a K5 interface switch 9, a K6 interface switch 10, a K7 interface switch 11 and a K8 interface switch 12; the K1 interface switch 17, the K2 interface switch 18, the K3 interface switch 19, the K4 interface switch 20, the K5 interface switch 9, the K6 interface switch 10, the K7 interface switch 11 and the K8 interface switch 12 are respectively connected with the signal lamp module; when the three-phase power input interface area is used, a three-phase four-wire system is adopted, A1, B1 and C1 are respectively connected with three-phase power, D1 is connected with a zero line, and no zero line can be connected, so that the safety protection performance is improved; the output end interface area is correspondingly inserted with a common end input power supply, the phase of the common end input power supply must be the same as the phase of the contactor coil, three groups of 6-path control (with output protection to prevent voltage impact) are adopted in the output end interface area, and two groups of 3-path relays and one group of 2-path relays control output. (default to provide a group of three-way interfaces K1-K3, normally open); the output end interface area can automatically set output switch control according to the system, the linkage switch control needs to be accessed to a peripheral trigger device and set a mainboard program, and the automatic control can automatically run according to memory setting and is irrelevant to whether the system is accessed or not; the output end interface area can also control a monitoring center instruction output switch in a manual mode, and the output switch is triggered by linkage according to an operation control panel output switch and a system, and the 486 interface area is a data transmission terminal based on a mobile GRPS2.5G network platform and adopts a GPRS independent transmission module (DTU) for communication; the I/O quantity detection input end area can collect three-phase voltage, three-phase current, 13-circuit branch current, 13-circuit switching state, power factor, equipment temperature and setting state, and the collected data is determined according to the access condition of actual installation and use; the processor module counts and analyzes the data collected in the port module, transmits the data to the display module, and finally displays the data in the display screen 27, wherein the display screen 27 can display time, date, number of installation stations, three-phase voltage and current and corresponding branch current, and can reflect whether the street lamp normally operates, and the lower right part is marked with whether the operation state is abnormal; the signal lamp module indicates the access condition of each line in the port module, the interface switches K1-K8 are correspondingly connected with the interface indicator lamps K1-K8 respectively, the on state of the lamp indicates the opening of the control end, and the off state of the lamp indicates the closing of the control end; the parameters and the running state of the controller can be set by manually pressing the first key 23, the second key 24, the third key 25 and the fourth key 26, the set contents comprise date, time and the on-off time of each street lamp, then the set contents are transmitted to the processor module through the key module, and the processor module stores and executes the settings.

The street lamp system is an indispensable system in a modern urban traffic system, the complexity of the street lamp system is higher and higher along with the continuous expansion of the scale of the city, the control and the management of the street lamp system must be assisted by a special monitoring system, the street lamp monitoring system mainly aims to provide a quick and convenient human-computer interface and a high-level management function for an operator, various heavy, complex and repeated work can be automatically completed in a very short time by matching hardware, the street lamp monitoring system needs a corresponding controller as a carrier to realize the control and the operation, a street lamp monitoring terminal controller is the most basic primary control system of a data acquisition (SCADA) system, all monitored sites are provided with a set of street lamp monitoring terminal controllers, a monitoring center acquires all parameters and information from the sites and controls and adjusts site equipment through the street lamp monitoring terminal controllers, the acquired data are transmitted to a monitoring center according to the requirement, and meanwhile, a remote control instruction from the monitoring center is received to control the site; the conventional serial communication mode is adopted by a street lamp monitoring terminal controller on the market at present, so that the transmission efficiency is low, and the control efficiency is low; the invention adopts a GPRS communication mode, can realize the remote and rapid data transmission control of a monitoring point and a monitoring center, has high transmission efficiency, greatly improves the street lamp setting and control efficiency, has remarkable electricity-saving effect and accelerates the recovery of construction cost.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. A street lamp monitoring terminal controller comprises a panel, a shell, a processor module, a display screen, a key panel, a signal lamp panel, a port panel, a display module, a signal lamp module, a key module and a port module, and is characterized in that the front opening of the shell is fixedly provided with the panel, the front plane of the panel is fixedly embedded with the display screen, the rear side of the display screen is provided with the display module, the display module is connected with the processor module, the display module is positioned in the shell, the processor module is arranged in the shell, the processor module is also connected with the key module, the front side of the key module is fixedly provided with the key panel, the key panel is fixedly embedded in the front plane of the panel and positioned at the right side of the display screen, the front plane of the panel is fixedly embedded with the port panel, and the port panel is positioned below the display screen, the signal lamp panel is embedded and fixed on the front side plane of the panel and positioned on the right side of the key panel, the signal lamp module is arranged on the rear side of the signal lamp panel, the signal lamp module is connected with the processor module and positioned in the shell, the key module can set parameters and running states of the controller and transmit set contents to the processor module, and the processor module stores and executes the setting;

the port panel is provided with a 486 interface area, a three-phase main current monitoring interface area, a branch current input end area, an I/O (input/output) quantity detection input end area, an I25 door control port, a three-phase electric input interface area, an output end interface area, a K7 field water immersion alarm interface and a K8 field door control alarm interface; the 486 interface region, the three-phase main current monitoring interface region, the branch current input end region, the I/O quantity detection input end region, the I25 door control port, the three-phase electric input interface region, the output end interface region, the K7 field water immersion alarm interface and the K8 field door control alarm interface are respectively connected with the port module, the port module is connected with the processor module, and the port module is arranged on the rear side plane of the port panel and is positioned in the shell.

2. The controller of claim 1, wherein the key panel is further provided with a first key, a second key, a third key and a fourth key; the first key, the second key, the third key and the fourth key are all connected with the key module.

3. The street lamp monitoring terminal controller according to claim 1, wherein the 486 interface region comprises a first 486 interface and a second 486 interface; the three-phase main current monitoring interface area comprises a first monitoring interface, a second monitoring interface and a third monitoring interface; the branch current input end region comprises an I1 interface, an I2 interface, an I3 interface, an I4 interface, an I5 interface, an I6 interface, an I7 interface, an I8 interface, an I9 interface, an I10 interface, an I11 interface, an I12 interface and an I13 interface; the I/O quantity detection input end area comprises an I14 interface, an I15 interface, an I16 interface, an I17 interface, an I18 interface, an I19 interface, an I20 interface, an I21 interface, an I22 interface, an I23 interface and an I24 interface; the three-phase electric input interface area comprises an A1 interface, a B1 interface, a C1 interface and a D1 interface; the output interface area comprises a K1 interface, a K2 interface, a K3 interface, a K4 interface, a K5 interface and a K6 interface.

4. The street lamp monitoring terminal controller according to claim 1, wherein the upper end of the front side plane of the signal lamp panel is provided with an on-line indicator lamp, a dial indicator lamp, a module received information indicator lamp and a module transmitted signal indicator lamp, and the on-line indicator lamp, the dial indicator lamp, the module received information indicator lamp and the module transmitted signal indicator lamp are respectively connected with the signal lamp module.

5. The street lamp monitoring terminal controller according to claim 1, wherein a K1 interface indicator lamp, a K2 interface indicator lamp, a K3 interface indicator lamp, a K4 interface indicator lamp, a K5 interface indicator lamp, a K6 interface indicator lamp, a K7 interface indicator lamp, and a K interface indicator lamp are further mounted on a front side plane of the signal lamp panel, and a K1 interface indicator lamp, a K2 interface indicator lamp, a K3 interface indicator lamp, a K4 interface indicator lamp, a K5 interface indicator lamp, a K6 interface indicator lamp, a K7 interface indicator lamp, and a K8 interface indicator lamp are respectively mounted and correspondingly connected with a K1 interface switch, a K2 interface switch, a K3 interface switch, a K4 interface switch, a K5 interface switch, a K6 interface switch, a K7 interface switch, and a K8 interface switch; the K1 interface switch, the K2 interface switch, the K3 interface switch, the K4 interface switch, the K5 interface switch, the K6 interface switch, the K7 interface switch 11 and the K8 interface switch are respectively connected with the signal lamp module.

6. The controller of claim 1, wherein the 486 interface area is a data transmission terminal based on a mobile GRPS2.5G network platform, and a GPRS independent transmission module (DTU) is used for communication.

7. The controller of claim 1, wherein the I/O quantity detection input terminal area is capable of collecting three-phase voltages, three-phase currents, branch currents, switch states, power factors, device temperatures and setting states.

8. The controller of claim 1, wherein the processor module counts and analyzes data collected in the port module, transmits the data to the display module, and displays the data on the display screen, wherein the display screen can display time, date, number of installation stations, three-phase voltage and current and corresponding branch current, and can reflect whether the street lamp normally operates, and the lower right part is marked with whether the operation state is abnormal.

9. The controller of claim 5, wherein the signal lamp module indicates the access status of each line in the port module, and the interface switches K1-K8 are respectively connected to the interface indicator lamps K1-K8.

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