TWM593121U - Smart street lamp controlling system - Google Patents

Abstract

The present invention provides an intelligent street lamp control system, which is mainly composed of a plurality of street lamps, a plurality of transmitters, a cloud server and a back-end management and control center. Its characteristic is that the street lamp sensing module of each street lamp senses the load module. Then, the load device signal is generated and transmitted from the transmitter to the cloud server, and after the cloud server is calculated and analyzed, a return data is generated and transmitted to the back-end control center; according to this, in order to quickly grasp the real-time of the plural street lamps The situation can be found early or immediately and quickly eliminated, so as to achieve automated management and immediate return, greatly improving the lack of knowledge, so that the back-end control center can make appropriate manpower allocation and adjustment according to the needs of each street lamp , The purpose of effectively reducing labor costs.

Description

Intelligent street lamp control system

This new model is related to street lamps, especially an intelligent street lamp control system.

With the development of science and technology, people's demand for energy saving and comfort of road lighting is also increasing. Urban road lighting has also become an important facility in the city's municipal administration. It has extraordinary significance in ensuring road traffic safety, facilitating pedestrian life, improving transportation efficiency, and beautifying the urban environment.

However, as shown in FIG. 1, the existing street lamp 10 only has a lighting function, and the function is quite simple. Moreover, the existing street lamp 10 cannot be controlled remotely, is difficult to maintain, and even wastes power resources. There are problems such as management of 理不易, depending on According to the estimates of the Association, 若Counties and cities can 降low 路lamp lighting亮度, based on the existing 路lamps in Taiwan, and estimate a huge electricity bill, which has great market benefits in the current society in pursuit of energy saving and carbon reduction .

In addition, the existing street lamp 10 cannot monitor and report the brightness, failure and power failure in real time. Therefore, the maintenance work is also carried out passively, and the power of the light output cannot be adjusted in real time. Inspectors can only discover when they arrive at the scene, or passively wait for the public's response, so the repair time is also delayed.

Therefore, how to solve the above-mentioned problems and deficiencies is that the creators of this new type and the relevant practitioners engaged in this direction are desperate to study the direction of improvement.

The purpose of the present invention is to provide an intelligent street lamp control system, which is mainly for intelligent street lamp management and control, automatically monitors the status of the street lamp, and then achieves immediate returns while saving power.

The reason is that in order to achieve the aforementioned purpose, an intelligent street lamp control system provided according to the present invention is suitable for use in a wireless communication range, including:

A plurality of street lamps are provided in the wireless communication range. Each street lamp includes a load module, a street lamp sensing module connected to the load module, and a control module connected to the load module. The street lamp sensing module It is used to sense the state of the load module and generate a load device signal. The control module is used to regulate the opening and closing of the load module and the power of the load module;

A plurality of transmitters are respectively provided on the street lamps, and each of the transmitters has a transmitter wireless transmission module connecting the street lamp sensing module and the control module, and the transmitter wireless transmission module is used to receive the load device The signal is output and the wireless transmission module of the transmitter can also transmit a control command to the control module;

A cloud server, which is communicatively connected to the complex transmitter, and has an arithmetic module, and a cloud server wireless transmission module connecting the arithmetic module and the transmitter wireless transmission module, the arithmetic module is used to receive The load device signal is subjected to calculation and analysis to generate a return data, and the cloud server wireless transmission module is used to output the return data; and

A back-end management and control center that communicates with the cloud server and has a back-end control wireless transmission module connected to the cloud server wireless transmission module, a display module connected to the back-end management wireless transmission module, and A control module connected to the back-end control wireless transmission module, the display module is used to display the report data, the control module is used for a control personnel to input the control command and the back-end control wireless transmission module Output to the cloud server wireless transmission module, the cloud server wireless transmission module then outputs the control command to the transmitter wireless transmission module, so that the control module can regulate the load module according to the control command.

Preferably, the intelligent street lamp control system uses a wireless information connection, the wireless connection is Wi-Fi, Li-Fi, Bluetooth, ZigBee, 3G, 4G, 5G, NB-IoT, Long Term Evolution (LTE), wireless One of Gigabit Alliance (WiGig) and LoRa achieves signal transmission.

Preferably, wherein the plurality of street lamps includes a first street lamp and a plurality of second street lamps, the transmitter on the first street lamp can be regarded as a parent machine, and the transmitter on the second street lamp can be regarded as a slave machine, the The transmitter of the first street lamp has the same structure as the transmitter of the plural second street lamps, the biggest difference is that the transmitter installed on the first street lamp is installed with a subscriber identity module (SIM) card, thereby , The transmitter on the first street light can receive the load device signal transmitted by the transmitter on the second street lights, and upload the plural load device signals to the cloud server, in addition, the first street light The transmitter on the above can also receive the control command from the cloud server wireless transmission module, and then transmit the control command to the transmitter of the second plurality of street lamps.

Preferably, the transmitter further has a rechargeable battery module, the rechargeable battery module connects the power supply of the street lamp and the wireless transmission module of the transmitter, and when the load module of the street lamp is powered off, the rechargeable battery module The group is used to provide a power to maintain the power of the transmitter. The power can be maintained for 10 minutes. If the load module of the street lamp is not restored to the light state after 5 minutes of power failure, a power failure signal is generated and the The transmitter wireless transmission module outputs to the cloud server wireless transmission module, the cloud server wireless transmission module outputs the power-off signal to the back-end control wireless transmission module, and finally the display module displays the Power off signal.

Preferably, the load current equipment signal includes the voltage and current status of the load module and the ID code of the load module.

Preferably, the street lamp further includes a lamp post portion provided for the emitter.

Preferably, it also includes a mobile communication device, the mobile communication device is installed with an application program, and the application program is wirelessly connected to the cloud server to obtain the report data.

More preferably, the mobile communication device is any one of a smartphone, a notebook computer, a mobile wearable device or a tablet computer of Android, IOS or Windows.

In this way, the present invention proposes an intelligent street lamp control system, which is mainly composed of the plural street lamps, the plural transmitters, the cloud server and the back-end control center, and is characterized by the street lamp sensing module of each street lamp The load module, in turn, generates the load device signal and transmits it from the transmitter to the cloud server, and after the cloud server is calculated and analyzed, the report data is generated and transmitted to the back-end control center; accordingly, to quickly grasp The real-time status of the plural street lamps can be found early or in real time and quickly eliminated, thereby achieving automated management and immediate return, greatly improving the lack of knowledge, so that the back-end control center can do appropriate according to the needs of each street lamp The purpose of manpower allocation and adjustment is to effectively reduce the cost of manpower operations.

In addition, the control personnel of the back-end control center can also input the control command and transmit it to the cloud server. The cloud server then outputs the control command to the transmitter, so that the control module of the street light can be based on the control The instruction regulates the opening and closing and the power of the load module, thereby reducing the burden of the city library, and achieving the effect of energy saving and carbon reduction, so that the living environment is more towards energy-saving cities.

In order to make the above-mentioned features and advantages of the present invention more comprehensible, embodiments are given below. And with the attached drawings for detailed description as follows.

The aforementioned and other technical contents, features and effects of the present invention will be clearly presented in the following detailed description of the preferred embodiments with reference to the drawings.

Please refer to FIG. 2 to FIG. 4, the embodiment of the present invention provides an intelligent street lamp control system, which is suitable for use in a wireless communication range A, mainly composed of a plurality of street lamps 20, a plurality of transmitters 30, a cloud server 40, and a rear It is composed of a terminal management center 50. The intelligent street lamp control system uses LoRa to achieve signal transmission. Therefore, it has long-distance transmission and has the advantages of low power consumption and low cost, but it is not limited to this. In this embodiment You can also use Wi-Fi, Li-Fi, Bluetooth, ZigBee, 3G, 4G, 5G, NB-IoT, Long Term Evolution (LTE), Wireless Gigabit Alliance (WiGig) and other wireless communication technologies for communication and transmission. The new wireless transmission method does not need to be limited to the wired network because it requires a lot of network lines, which consumes cost and manpower, and can transmit a large amount of data in real time, so that the data collection, recording and return can be faster and more accurate The characteristics of which:

The plural street lamps 20 are set in the wireless communication range A. Each street lamp 20 includes a load module 21, a street lamp sensing module 22 connected to the load module 21, and a control module connected to the load module 21 Group 23, the street light sensing module 22 is used to sense the state of the load module 21 and generate a load device signal, the control module 23 is used to regulate the opening and closing of the load module 21 and the load module 21 Power (that is, the brightness of the street lamp 20), such as the output power of the load module 21 can be reduced from the original 100% to 50%; in this embodiment, the load device signal includes the voltage of the load module 21, The status of the current and the ID code of the load module 21, according to this, when the manager performs the detection or measurement of the actual power consumption loss, the accurate measurement results can be obtained without climbing and climbing. Thereby avoiding the advantages of maintenance accidents for maintenance personnel.

The plurality of transmitters 30 are respectively provided on the lamp pole portions 24 of the street lamps 20, and each of the transmitters 20 has a transmitter wireless transmission module 31 connecting the street lamp sensing module 22 and the control module 23, The transmitter wireless transmission module 31 is used to receive the load device signal and output it (as shown in FIG. 2). The transmitter wireless transmission module 31 can also transmit a control command to the control module 23 (as shown in FIG. 3 In this embodiment, the input voltage and output voltage of the complex transmitter 30 are AC100~240V, but not limited to this, or DC voltage, if the input voltage and output of the complex transmitter 30 When the voltage is AC100~240V, the equipment load is about 150W~450W. If the input voltage and output voltage of the plurality of transmitters 30 are DC voltages, the equipment load is about 70W~200W; the height of each transmitter 30 from the ground is 3 meters, but not limited to this, as long as it is more than 3 meters, the height of the configuration can prevent the advantage of the plurality of transmitters 30 being destroyed; the plurality of transmitters 30 is set in a plug-in manner The lamp post 24 of each street lamp 20 can enhance the signal transmission capability; the maximum communication range between two adjacent transmitters 30 can reach 15 kilometers, and the safe and effective range is 2 kilometers.

The cloud server 40 is communicatively connected to the complex transmitter 30, and has an arithmetic module 41, and a cloud server wireless transmission module 42 connecting the arithmetic module 41 and the transmitter wireless transmission module 31. The calculation module 41 is used to receive the load device signal and perform calculation analysis to generate a report data, and the cloud server wireless transmission module 42 is used to output the report data.

The back-end management center 50 communicates with the cloud server 40 and has a back-end control wireless transmission module 51 connected to the cloud server wireless transmission module 42 and a back-end control wireless transmission module 51 connected to the back-end management wireless transmission module 51. A display module 52, and a control module 53 connected to the back-end control wireless transmission module 51, the display module 52 is used to display the report data, and the control module 53 is used for an operator to input the control command And the back-end control wireless transmission module 51 outputs to the cloud server wireless transmission module 42, the cloud server wireless transmission module 42 then outputs the control command to the transmitter wireless transmission module 31, so that The control module 53 can regulate the load module 21 according to the control command.

It is worth mentioning that, in this embodiment, the plurality of street lamps 20 includes a first street lamp 201 and a plurality of second street lamps 202, and the transmitter 30 on the first street lamp 201 can be regarded as a parent machine, the plurality of second street lamps The transmitter 30 on 202 can be regarded as a slave. The transmitter 30 on the first street lamp 201 has the same structure as the transmitter 30 on the plural second street lamps 202. The biggest difference is that the transmitter 30 is installed on the first street lamp 202. The transmitter 30 is installed with a Subscriber Identity Module (SIM) card (not shown), and the transmitter 30 on the plurality of second street lamps 202 is not installed, so that the first street lamp 201 The transmitter 30 can receive the load device signal transmitted by the transmitter 30 on the plurality of second street lamps 202, and upload the plurality of load device signals to the cloud server 40, in addition, the The transmitter 30 can also receive the control command from the cloud server wireless transmission module 42 and then transmit the control command to the transmitter 30 of the plurality of second street lights 202, if the user identification module is embedded When one of the second street lights 202 is used, the second street light 202 with the user identification module card can also be regarded as a master machine. In this way, in addition to reducing multiple cluttered lines, it can also be managed and managed by the master machine. The purpose of monitoring, thereby saving power.

The actual process is as follows:

The plurality of second street lamps 202 are automatically connected to the first street lamp 201 first, and the first street lamp 201 will integrate the plural load device signals every 5 minutes, and upload the plural load device signals to the cloud server 40, and At the same time, the control command can also be transmitted from the cloud server 40 to the transmitter 30 of the plurality of second street lamps 202, and then the cloud server 40 will be calibrated with the first street lamp 201 every 30 minutes, and then the plural When the second street light 202 is calibrated with the first street light 201, the operator enters the control instruction through the control module 53, for example: the turn-on time of the lights of the plural street lights 20 or the turn-off time of the lights of the plural street lights 20, the After receiving the manipulation instruction, the first street lamp 201 transmits it to the plural second street lamps 202, and the plural street lamps 20 turn on or off the lights of the plural street lamps 20 according to the manipulation instruction. (If the first street lamp 201 is interrupted, the plural second street lamps 202 can still operate according to the control command)

It is worth noting that, in this embodiment, the transmitter 30 further has a rechargeable battery module 32, which is connected to the power source of the street lamp 20 and the transmitter wireless transmission module 31, when the street lamp 20 When the load module 21 is powered off, the rechargeable battery module 32 is used to provide a power to maintain the power of the transmitter 30, the power can be maintained for 10 minutes, if the load module 21 of the street lamp 20 is powered off for 5 minutes If the lighting state has not been restored, a power-off signal is generated and output by the transmitter wireless transmission module 31 to the cloud server wireless transmission module 42, and the cloud server wireless transmission module 42 then powers off The signal is output to the back-end control wireless transmission module 51, and finally the display module 52 displays the power-off signal; thereby, it can speed up the maintenance efficiency, reduce the failure time, greatly improve the conventional passive waiting for the public to reflect the lack, Avoid wasting manpower and time, and greatly reduce the cost of managing and monitoring street lights.

Furthermore, the present invention also includes a mobile communication device 60, which is installed with an application program, which is wirelessly connected to the cloud server 40 to obtain the report data, and the mobile communication device 60 is an Android operation The system, the IOS Apple operating system, or any of the smartphone, notebook computer, mobile wearable device, or tablet computer of the Windows operating system; in this embodiment, the mobile communication device 60 is the smart type of the IOS Apple operating system With this, the mobile phone can surely reduce the cost required for hardware, and it can also know the relevant status of each street lamp when going out.

The above is the configuration description of the main components of the new embodiment. As for the usage and efficacy of the new model, the following description will be given.

In this way, the present invention proposes an intelligent street lamp control system, which is characterized in that the street lamp sensing module 22 of each street lamp 20 senses the load module 21, and then generates the load device signal and transmits the signal from the complex transmitter 30 to the The cloud server 40 generates the report data after calculation and analysis through the cloud server 40 and transmits it to the back-end control center 50; according to this, in order to quickly grasp the real-time status of the plural street lamps 20, problems can be discovered early or in real time and quickly Eliminate, and then achieve automated management and immediate return, greatly improving the lack of knowledge, so that the back-end control center 50 can make appropriate manpower allocation and adjustment according to the needs of each street lamp 20, effectively reducing the cost of manpower operations purpose.

In addition, the control personnel of the back-end control center 50 can also input the control command and transmit it to the cloud server 40. The cloud server 40 then outputs the control command to the transmitter 30, so that the control mode of the street lamp 20 Group 23 can regulate the opening and closing and power of the load module 21 according to the control instruction, thereby reducing the burden on the city storehouse, and achieving the effect of energy saving and carbon reduction, so that the living environment is more towards the energy-saving city.

In summary, the above-mentioned embodiments and drawings are only preferred embodiments of the new model, and should not be used to limit the scope of the implementation of the new model. Any changes and modifications made in accordance with the patent application of the new model should be It is within the scope of this new patent.

﹝习知﹞ 10: Street light ﹝This new type﹞ A: Wireless communication range 20: Street light 201: the first street light 202: Second street light 21: load module 22: Street light sensing module 23: control module 24: Light pole 30: Launcher 31: Transmitter wireless transmission module 32: Rechargeable battery module 40: Cloud server 41: Operation module 42: Cloud server wireless transmission module 50: back-end control center 51: Backend management wireless transmission module 52: display module 53: control module 60: mobile communication device

FIG. 1 is a schematic diagram showing conventional street lamp control. FIG. 2 is a schematic diagram (1) of the embodiment of the present invention, showing that the transmitter receives the signal of the load device. FIG. 3 is a schematic diagram (2) of an embodiment of the present invention, showing that the transmitter transmits control commands. 4 is a block diagram of an embodiment of the present invention.

A: Wireless communication range

20: Street light

201: the first street light

202: Second street light

21: load module

24: Light pole

30: Launcher

40: Cloud server

41: Operation module

42: Cloud server wireless transmission module

50: back-end control center

51: Backend management wireless transmission module

52: display module

53: control module

60: mobile communication device

Claims (8)

An intelligent street lamp control system, suitable for use in a wireless communication range, including: A plurality of street lamps are provided in the wireless communication range. Each street lamp includes a load module, a street lamp sensing module connected to the load module, and a control module connected to the load module. The street lamp sensing module It is used to sense the state of the load module and generate a load device signal. The control module is used to regulate the opening and closing of the load module and the power of the load module; A plurality of transmitters are respectively provided on the street lamps, and each of the transmitters has a transmitter wireless transmission module connecting the street lamp sensing module and the control module, and the transmitter wireless transmission module is used to receive the load device The signal is output and the wireless transmission module of the transmitter can also transmit a control command to the control module; A cloud server, which is communicatively connected to the complex transmitter, and has an arithmetic module, and a cloud server wireless transmission module connecting the arithmetic module and the transmitter wireless transmission module, the arithmetic module is used to receive The load device signal is subjected to calculation and analysis to generate a return data, and the cloud server wireless transmission module is used to output the return data; and A back-end management and control center that communicates with the cloud server and has a back-end control wireless transmission module connected to the cloud server wireless transmission module, a display module connected to the back-end management wireless transmission module, and A control module connected to the back-end control wireless transmission module, the display module is used to display the report data, the control module is used for a control personnel to input the control command and the back-end control wireless transmission module Output to the cloud server wireless transmission module, the cloud server wireless transmission module then outputs the control command to the transmitter wireless transmission module, so that the control module can regulate the load module according to the control command. The intelligent street lamp control system according to claim 1, wherein the intelligent street lamp control system uses a wireless information connection, the wireless connection is Wi-Fi, Li-Fi, Bluetooth, ZigBee, 3G, 4G, 5G, NB-IoT, One of Long Term Evolution (LTE), Wireless Gigabit Alliance (WiGig), and LoRa achieves signal transmission. The intelligent street lamp control system according to claim 1, wherein the plural street lamps include a first street lamp, and a plural second street lamp, the transmitter on the first street lamp can be regarded as a parent machine, and the transmitter on the plural second street lamp It can be regarded as a slave. The transmitter of the first street lamp has the same structure as the transmitter of the second plural street lamps. The biggest difference is that the transmitter installed on the first street lamp is equipped with a subscriber identity module (Subscriber Identity) Module, SIM) card, by which the transmitter on the first street light can receive the load equipment signal transmitted by the transmitter on the second street light, and upload the plural load equipment signals to the cloud server In addition, the transmitter on the first street light can also receive the control command from the cloud server wireless transmission module, and then transmit the control command to the transmitter of the second plurality of street lights. The intelligent street lamp control system according to claim 1, wherein the transmitter further has a rechargeable battery module, the rechargeable battery module is connected to the power source of the street lamp and the transmitter wireless transmission module, when the street lamp load module When the power is off, the rechargeable battery module is used to provide a power to maintain the power of the transmitter. The power can be maintained for 10 minutes. If the load module of the street lamp does not return to the light state after 5 minutes of power off, then Generate a power outage signal and output from the transmitter wireless transmission module to the cloud server wireless transmission module, the cloud server wireless transmission module then outputs the power outage signal to the back-end control wireless transmission module, Finally, the display module displays the power-off signal. The intelligent street lamp control system according to claim 1, wherein the load device signal includes the voltage and current status of the load module, and the ID code of the load module. The intelligent street lamp control system according to claim 1, wherein the street lamp further includes a lamp post portion provided for the transmitter. The intelligent street lamp control system according to claim 1, further comprising a mobile communication device, the mobile communication device is installed with an application program, and the application program is wirelessly connected to the cloud server to obtain the report data. The intelligent street lamp control system according to claim 7, wherein the mobile communication device is any one of a smartphone, a notebook computer, a mobile wearable device, or a tablet computer of Android, IOS, or Windows.

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