CN216848979U - Retrograde motion detection system based on single lamp control system - Google Patents

Abstract

The utility model provides a retrograde motion detecting system based on single-lamp control system, including single-lamp control system and retrograde motion detecting system, single-lamp control system including installing street lamp controller and the communication module on the street lamp, street lamp controller pass through communication module and connect in street lamp control platform, retrograde motion detecting system include the RFID read write line and install the RFID label on electric bicycle, just the RFID read write line connect in street lamp controller. This scheme utilizes street lamp controller and street lamp control platform, fuses with street lamp control system mutually, need not to erect the card reader alone, can realize better monitoring effect when with low costs, and the RFID read write line is integrated to the street lamp controller, can utilize the street lamp power supply, and single lamp control system resources such as remote communication, dead lever effectively reduce retrograde motion detecting system's construction cost.

Description

Retrograde motion detection system based on single lamp control system

Technical Field

The utility model belongs to the technical field of the detection of going backwards, especially, relate to a detection system that goes backwards based on single lamp control system.

Background

The electric bicycle is crowded in city traffic, difficult to park, low in cost and convenient to go out, and becomes the preferred choice for many people. In addition, with vigorous development of takeaway city-city express delivery industry such as beautiful groups and hungry, the proportion of the electric bicycle in city traveling is higher and higher. With the great increase of the stock of the electric bicycles, the traffic accidents caused by the violation of regulations of the electric bicycles are always high. The accident rate that electric bicycle retrograde motion action caused is higher, often appears because electric bicycle retrograde motion leads to the traffic accident to cause the condition of casualties and loss of property, and the traffic police lacks the means that an intelligent control detected at present and manages this kind of behavior violating the regulations.

In order to solve the problem of retrograde detection, people have conducted long-term exploration, for example, chinese patent discloses a retrograde detection record of an electric vehicle [ publication No.: CN113781780A ], the scheme needs to install a GPS positioner and the like on the battery car, dotting and uploading the battery car to a cloud platform through the positioner, and judging whether the battery car runs in the wrong direction according to the dotting position and the serial number. Firstly, the GPS locator needs cost of tens to hundreds of yuan, secondly, the locating signal needs to be sent out to realize monitoring, the wireless communication module is needed to send out the signal, the current mature mobile communication module is a 4G and 5G communication mode, the 4G and 5G mobile communication mode needs users to purchase flow, burden is brought to the users invisibly, and most users refuse to cooperate due to the cost problem.

Another example is a system and method for identifying and monitoring violation information of a battery car based on RFID data [ public number: CN111866834A ], although the scheme adopts the RFID technology, the battery car can perform retrograde judgment by reading the information of the RFID card on the battery car, and a user side is not required to be provided with a wireless module, a GPS module and the like, so that the burden of the user can be reduced, and the cooperation enthusiasm of the user is improved. However, the reader-writer needs to be erected independently at a high cost, the engineering quantity is large, the cost is increased suddenly if the reader-writer is installed at a short distance, and the monitoring effect is greatly reduced if the reader-writer is installed at a long distance, so that the scheme still needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem, provide a retrograde motion detecting system based on single lamp control system.

The utility model provides a retrograde motion detecting system based on single-lamp control system, including single-lamp control system and retrograde motion detecting system, single-lamp control system including installing street lamp controller and the communication module on the street lamp, street lamp controller pass through communication module and connect in street lamp control platform, retrograde motion detecting system include the RFID read write line and install the RFID label on electric bicycle, just the RFID read write line connect in street lamp controller.

In the reverse detection system based on the single-lamp control system, the street lamp controller comprises a street lamp control module and an MCU (microprogrammed control unit) which are connected with each other, the communication module and the RFID reader-writer are both connected with the MCU, and the street lamp control module is connected with a street lamp circuit of a corresponding street lamp to control the street lamp circuit according to an instruction of the MCU.

In the reverse detection system based on the single-lamp control system, the communication module comprises an NB-IoT communication module, and the MCU is connected to the street lamp control platform through the NB-IoT communication module.

In the reverse detection system based on the single-lamp control system, the system comprises a plurality of NB base stations for providing an NB-IoT network, so that the MCU is connected to the streetlamp control platform through the NB-IoT communication module based on the NB-IoT network.

In the single-lamp control system-based retrograde motion detection system, the MCU stores therein the street lamp number of the corresponding street lamp, and the MCU is configured to upload the RFID tag information acquired by the RFID reader and/or the control information fed back by the street lamp control module to the street lamp control platform in cooperation with the street lamp number.

In the single-lamp control system-based retrograde motion detection system, the street lamp control platform stores street lamp numbers of street lamps at various places, RFID tag information of electric bicycles, vehicle information and owner information.

In the retrograde detection system based on the single-lamp control system, the RFID tag is an ultra-high frequency tag.

In the retrograde detection system based on the single-lamp control system, the reading and writing distance of the adopted RFID reader-writer is 0-10 meters.

In the retrograde detection system based on the single-lamp control system, an RFID reader-writer with the reading-writing distance of 0-5 meters is adopted.

In the above retrograde detection system based on the single-lamp control system, the RFID reader/writer adopts a UHF-band radio frequency technology.

The utility model has the advantages that:

1. the scheme adopts the RFID technology, the cost that the masses need to bear is only about 1 yuan, and the masses can buy the RFID technology at one time without buying the flow and installing redundant modules of power supply, communication and the like, thereby reducing the cost input of the mass end and improving the participation enthusiasm of the masses;

2. according to the scheme, the reverse detection system is integrated into the single-lamp control system, the street lamp controller and the street lamp control platform are integrated with the street lamp control system, a card reader does not need to be erected independently, and the better monitoring effect can be realized while the cost is low;

3. the RFID reader-writer is integrated to the street lamp controller, single lamp control system resources such as street lamp power supply, remote communication and fixed rods can be utilized, and the construction cost of the retrograde detection system is effectively reduced.

Drawings

Fig. 1 is a system structure block diagram of a retrograde motion detection system based on a single-lamp control system according to the present invention;

fig. 2 is a system architecture diagram of the retrograde motion detection system based on the single lamp control system of the present invention;

fig. 3 is the utility model discloses retrograde motion detection schematic diagram when retrograde motion detecting system based on single lamp control system comes into operation.

Reference numerals: a street lamp controller a; a street lamp control module a 1; MCUa 2; a street lamp control platform b; an RFID reader-writer c; an RFID tag d; a street lamp circuit e; NB-IoT communications module f.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The embodiment discloses a retrograde motion detection system based on a single-lamp control system, which comprises the single-lamp control system and the retrograde motion detection system. Single lamp control system can meticulous efficient control more for traditional street lamp control mode, maintain the street lamp on the road surface, this embodiment adopts single lamp control system to control the street lamp, utilize single lamp control system simultaneously, upgrade to single lamp control system and reform transform and realize the retrograde motion on single lamp control system's basis and detect, can utilize the street lamp power supply, remote communication, single lamp control system resources such as dead lever, effectively reduce the construction cost of retrograde motion detecting system, simultaneously can realize better monitoring effect.

Specifically, as shown in fig. 1, the single lamp control system includes a streetlamp controller a and a communication module mounted on a streetlamp. The street lamp controller a comprises a street lamp control module a1 and an MCU a2 which are connected with each other, the communication module is connected with the MCU a2, the MCU a2 is connected with the street lamp control platform b through the communication module, the street lamp control module a1 is connected with a street lamp circuit e of a corresponding street lamp to control the street lamp circuit e according to an instruction of the MCU a2, the single lamp control system is a relatively mature technology, when the single lamp control system is put into use, the prior art can be directly used, the present embodiment mainly comprises that a retrograde motion detection system is integrated into the single lamp control system, and parts consistent with the prior art are not described herein.

Specifically, the communication module comprises an NB-IoT communication module f, the MCU a2 is connected to the street lamp control platform b through the NB-IoT communication module f, and accordingly, the system further comprises a plurality of NB base stations for providing an NB-IoT network, so that the MCUa2 is connected to the street lamp control platform b through the NB-IoT communication module f based on the NB-IoT network.

For a single-lamp control system, each street lamp is provided with a street lamp controller a and a communication module. The retrograde detection system comprises an RFID reader-writer c and an RFID label d installed on the electric bicycle, the RFID reader-writer c can be installed on each street lamp, and the RFID reader-writer c can be installed on one or more street lamps at intervals according to the distance between the street lamps and the reading and writing distance of the RFID reader-writer c. The RFID reader-writer on each street lamp is directly arranged on a fixed rod for installing the street lamp controller a and the NB-IoT communication module f and is arranged together with the street lamp controller a and the NB-IoT communication module f. The RFID reader-writer c is connected to the street lamp controller a, supplies power to the street lamp controller a, and is specifically connected to the MCU a2, as shown in fig. 2 and 3, the RFID reader-writer c is configured to read an RFID tag d on the electric vehicle passing through a radiation range of the RFID reader-writer c, the MCU a2 stores a street lamp number of a corresponding street lamp, and the MCU a2 is configured to upload RFID tag information acquired by the RFID reader-writer c and/or control information fed back by the street lamp control module a1 to the street lamp control platform b in cooperation with the street lamp number. Correspondingly, the street lamp control platform b stores street lamp numbers of street lamps at various places, RFID tag information of electric bicycles, vehicle information and owner information. With the integration of reverse detection system to single-lamp control system, can directly utilize single-lamp control system resources such as street lamp power supply, remote communication, dead lever, cloud platform, need not to erect the RFID read write line alone, need not to install supply cable alone and install wireless communication module for realizing reverse detection power supply, also need not to be equipped with the cloud platform alone, can realize realizing better monitoring effect when investing in still less construction cost for realizing the retrograde motion detection.

Preferably, the RFID tag d of the embodiment is an ultrahigh frequency tag, and when a user is signed, the RFID tag information, the vehicle information and the vehicle owner information can be matched and bound on the street lamp control platform b. Specifically, the RFID reader c uses a UHF-band radio frequency technology, such as 860MHz-960MHz band, ISO/IEC18000-6 standard, and has a reading/writing distance of 0-10 meters, and an RFID reader having a corresponding reading/writing distance may be selected according to the actual condition of the road, and the RFID reader c having a reading/writing distance of 0-5 meters is preferably used in this embodiment.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although street light controller a is used more herein; a street lamp control module a 1; MCUa 2; a street lamp control platform b; an RFID reader-writer c; an RFID tag d; a street lamp circuit e; NB-IoT communication module f, etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a retrograde motion detecting system based on single-lamp control system, its characterized in that includes single-lamp control system and retrograde motion detecting system, single-lamp control system including street lamp controller (a) and the communication module of installing on the street lamp, street lamp controller (a) connect in street lamp control platform (b) through communication module, retrograde motion detecting system include RFID read write ware (c) and install RFID label (d) on electric bicycle, just RFID read write ware (c) connect in street lamp controller (a).

2. The reverse detection system based on the single-lamp control system according to claim 1, wherein the street lamp controller (a) comprises a street lamp control module (a1) and an MCU (a2) which are connected with each other, the communication module and the RFID reader-writer (c) are both connected to the MCU (a2), and the street lamp control module (a1) is connected to the street lamp circuit (e) of the corresponding street lamp to control the street lamp circuit (e) according to the instruction of the MCU (a 2).

3. The system according to claim 2, wherein the communication module comprises an NB-IoT communication module (f), and the MCU (a2) is connected to the streetlamp control platform (b) via the NB-IoT communication module (f).

4. The system of claim 3, wherein the system comprises a plurality of NB base stations for providing NB-IoT network, so that the MCU (a2) is connected to the street lamp control platform (b) through the NB-IoT communication module (f) based on NB-IoT network.

5. The reverse detection system based on the single-lamp control system according to claim 4, wherein the MCU (a2) stores the street lamp number of the corresponding street lamp, and the MCU (a2) is used for uploading the RFID tag information acquired by the RFID reader-writer (c) and/or the control information fed back by the street lamp control module (a1) to the street lamp control platform (b) in cooperation with the street lamp number.

6. The single-light control system-based retrograde detection system of claim 5, wherein the street lamp control platform (b) stores therein street lamp numbers of street lamps at various places, RFID tag information of electric bicycles, vehicle information, and owner information.

7. The system for detecting the retrograde motion based on the single-lamp control system of any one of claims 1 to 6, wherein the RFID tag (d) is an ultra-high frequency tag.

8. The system for detecting the retrograde motion based on the single-lamp control system of claim 7, wherein the reading and writing distance of the adopted RFID reader-writer (c) is 0-10 m.

9. The system for detecting the retrograde motion based on the single lamp control system of claim 8, wherein an RFID reader (c) with a reading and writing distance of 0-5 m is used.

10. The system for detecting the retrograde motion based on the single-lamp control system of claim 9, wherein the RFID reader/writer (c) adopts UHF-band radio frequency technology.

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