CN212660455U - Edge calculation controller and multifunctional street lamp - Google Patents

Abstract

The application provides an edge calculation controller and a multifunctional street lamp. According to the edge computing controller, the first main control board is arranged in the shell, and the first control system used for controlling each infrastructure is installed in the first main control board, so that the states of the plurality of infrastructures can be controlled through the edge computing controller; and a second main control board is arranged and is also respectively connected with the infrastructures, when the first main control board fails, the control authority can be transferred to the second main control board, the second main control board can take over the infrastructures, and the working states of the infrastructures are controlled. When the hardware of the first main control board is damaged or the software of the first control system fails, the second control system can take over control of each infrastructure, the service life of the edge computing controller is prolonged, and the street lamp using the edge computing controller can be kept in a normal working state for a long time.

Description

Edge calculation controller and multifunctional street lamp

Technical Field

The application belongs to the technical field of intelligent traffic, and more specifically relates to an edge calculation controller and a multifunctional street lamp.

Background

The multifunctional street lamp is a novel information infrastructure integrating multiple functions of intelligent illumination, video monitoring, traffic management, environment detection, wireless communication, information interaction, emergency help seeking, intelligent charging and the like, and is an important carrier for constructing a novel intelligent city. Multifunctional street lamp can carry on 5G communication little basic station according to the demand, wireless AP, intelligent LED lamp holder, surveillance camera head, unmanned aerial vehicle charging platform, the car fills electric pile, a display screen, the IP broadcast, terminal equipment such as face identification, through advanced, high-efficient, reliable computer network and communication, internet of things and other technologies, realize the long-range centralized control and the management to various equipment on the body of rod, carry out big data analysis through the real-time data of gathering simultaneously, and provide scientific decision support through the analysis.

The multifunctional street lamp integrates multiple infrastructures on one pole, integrates multiple devices and functions of the devices, and the working states of the multiple infrastructures are controlled by the edge computing controller.

Disclosure of Invention

An object of the embodiments of the present application is to provide an edge calculation controller to solve the above technical problems in the prior art.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: the utility model provides an edge computing controller is connected with a plurality of infrastructure, and this edge computing controller includes the casing, locates storage module in the casing, with the power module that the storage module electricity is connected, and locate first main control board and second main control board in the casing, first main control board respectively with storage module with the power module electricity is connected, the second main control board respectively in storage module with the power module electricity is connected, be equipped with in the first main control board and adjust a plurality of the operating condition's of infrastructure first control system, be equipped with in the second main control board and adjust a plurality ofly the operating condition's of infrastructure second control system.

In one embodiment, a first detection device for detecting the working state of the first control system is disposed on the first main control board, and the first detection device is electrically connected to the first main control board.

In one embodiment, a third control system capable of adjusting the operating states of the plurality of infrastructures is further disposed in the first main control board, and the first detection device is capable of detecting the operating states of the first control system and the third control system respectively.

In an embodiment, a second detection device for detecting a working state of the second control system is disposed on the second main control board, and the second detection device is electrically connected to the second main control board.

In one embodiment, a fourth control system capable of adjusting the operating states of the plurality of infrastructures is disposed in the second main control board, and the second detection device is capable of detecting the operating states of the second control system and the fourth control system respectively.

In one embodiment, the edge computing controller further includes a burning interface, and the burning interface is connected to the storage module, the first main control board, and the second main control board, respectively.

In one embodiment, the edge computing controller further comprises a communication module capable of performing information interaction with an external device, and the communication module is electrically connected with the power supply module.

In one embodiment, the communication module includes a first communication component disposed on the first main control board and a second communication component disposed on the second main control board, the first communication component and the second communication component can respectively perform information interaction with an external device, and the first communication component and the second communication component can perform information interaction with each other.

The edge calculation controller provided by the application has the beneficial effects that: compared with the prior art, the edge computing controller of the application is used for controlling the states of a plurality of infrastructures through the edge computing controller by arranging the first main control board inside the shell and installing the first control system used for controlling each infrastructure in the first main control board. And then by arranging a second main control board which is also respectively connected with each infrastructure, when a first control system in the first main control board fails, the control authority can be transferred to the second main control board, the second main control board can take over each infrastructure, and the working states of the plurality of infrastructures are controlled. Certainly, when the first main control panel is damaged, the first control system is also caused to break down, so that the hardware damage of the first main control panel or the software failure of the first control system can take over the control of each infrastructure through the second control system, the service life of the edge computing controller is effectively prolonged, and the street lamp using the edge computing controller can be kept in a normal working state for a long time.

The application also provides a multifunctional street lamp, including the lamp pole, locate a plurality of infrastructures on the lamp pole and be used for controlling a plurality of the edge calculation controller of infrastructure's state, the edge calculation controller is foretell edge calculation controller.

The application provides a multifunctional street lamp's beneficial effect lies in: compared with the prior art, the multifunctional street lamp of the application enables the alternative scheme to be implemented immediately when software faults or main board faults occur inside the edge calculation controller through the edge calculation controller on the lamp post, and the normal working state of the multifunctional street lamp is effectively guaranteed.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a cooperative edge computing controller according to an embodiment of the present disclosure.

Wherein, in the figures, the respective reference numerals:

10-a housing; 20-a storage module; 30-a power supply module;

40-a first master control board; 41-first detecting means; 60-a communication module;

50-a second master control board; 51 — a second detection device; 61-a first communication member;

62-a second communication member; 70-burn interface.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application more clearly apparent, the present application is further described in detail below with reference to fig. 1 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

The first embodiment.

Referring to fig. 1, an edge calculation controller according to an embodiment of the present application will be described. An edge calculation controller of this embodiment, be connected with a plurality of infrastructure, this edge calculation controller includes casing 10, locate storage module 20 in the casing 10, power module 30 with storage module 20 electricity is connected, and locate first main control board 40 and second main control board 50 in the casing 10, first main control board 40 is connected with storage module 20 and power module 30 electricity respectively, second main control board 50 is connected in storage module 20 and power module 30 electricity respectively, be equipped with the first control system that can adjust the operating condition of a plurality of infrastructures in the first main control board 40, be equipped with the second control system that can adjust the operating condition of a plurality of infrastructures in the second main control board 50.

According to the edge computing controller in the embodiment of the application, the first main control board 40 is arranged inside the shell 10, and the first control system for controlling each infrastructure is installed in the first main control board 40, so that the state of a plurality of infrastructures can be controlled through the edge computing controller. By setting the second main control board 50, the second main control board 50 is also connected to each infrastructure, when the first control system in the first main control board 40 fails, the control authority can be transferred to the second main control board 50, and the second main control board 50 can take over each infrastructure and implement control of the working states of the plurality of infrastructures. Certainly, when the first main control board 40 is damaged, the first control system may also be caused to fail, and therefore, the hardware damage of the first main control board 40 or the software failure of the first control system can take over control of each infrastructure through the second control system, thereby effectively prolonging the service life of the edge computing controller and ensuring that the street lamp using the edge computing controller can maintain a normal working state for a long time.

Specifically, the information of each infrastructure is directly stored in the storage module 20, and when the first control system fails or the first main control board 40 is damaged, the information stored in the storage module 20 is immediately copied to the second main control board 50, so that the data security of a plurality of infrastructures can be effectively guaranteed.

In one embodiment, the edge computing controller further comprises a communication module 60 capable of performing information interaction with an external device, and the communication module 60 is electrically connected with the power module 30. By arranging the communication module 60, the communication module 60 can be used for information interaction with the infrastructure and also can be used for information interaction with an external central control platform, and when the first main control board 40 and the second main control board 50 can normally work, the communication module 60 normally feeds back information of the edge computing controller and each infrastructure; when one of the first main control board 40 and the second main control board 50 is damaged, the communication module 60 feeds back the equipment damage information to the central control platform, and a maintenance worker is required to perform maintenance processing; when the first main control board 40 and the second main control board 50 are damaged, the communication module 60 feeds back the device damage information to the central control platform, and reminds the maintenance personnel to be arranged for maintenance immediately.

In addition, the communication module 60, the first main control board 40 and the second main control board 50 are respectively and independently fixed on the housing 10, and gaps are formed among the communication module 60, the first main control board 40 and the second main control board 50, when a single first main control board 40 or a single second main control board 50 is damaged, other structures can be effectively prevented from being damaged due to the fact that enough intervals are kept, and therefore the service life of the edge computing controller can be effectively guaranteed. The communication module 60, the first main control board 40 and the second main control board 50 can be locked by screws or snaps, which is not limited herein.

In one embodiment, the communication module 60 includes a first communication part 61 disposed on the first main control board 40 and a second communication part 62 disposed on the second main control board 50, the first communication part 61 and the second communication part 62 can respectively perform information interaction with an external device, and the first communication part 61 and the second communication part 62 can perform information interaction therebetween. Through setting up communication module 60 into first communication piece 61 and second communication piece 62 respectively, can intercommunication between first communication piece 61 and the second communication piece 62, and first communication piece 61 and second communication piece 62 all can independently carry out the information interaction with outside equipment, all outside equipment in this application are including locating a plurality of infrastructure on the body of rod, be used for monitoring this edge calculation controller's well accuse platform and other needs carry out the equipment that the signal is interactive with this edge calculation controller, and like this, can carry out periodic intercommunication through first communication piece 61 and second communication piece 62.

Specifically, when the first main control board 40 and the second main control board 50 both work normally, regular signal interaction is maintained between the first communication part 61 and the second communication part 62, and the working states are fed back to each other to be normal; when the first control system in the first main control board 40 is damaged, the first communication part 61 can still work normally, and after the first control system is damaged, the first communication part 61 can immediately feed back the information to the second communication part 62, and the second main control board 50 takes over the work to ensure the normal use of each infrastructure, and the second communication part 62 feeds back the damaged information to the central control platform; when the first main control board 40 is completely damaged, and when the next signal interaction period is reached, the second communication part 62 cannot normally perform signal interaction with the first communication part 61, the second main control board 50 is directly operated to a working state, and the second communication part 62 feeds back damage information to the central control platform. Certainly, the first communication part 61 and the second communication part 62 maintain the same periodic signal interaction with the central control platform, when the edge computing controller is directly and completely damaged, the central control platform cannot receive the signal of the edge computing controller periodically, so that the edge computing controller is automatically identified to be damaged, and a maintenance worker needs to be dispatched immediately to perform emergency repair.

In an embodiment, the first main control board 40 is provided with a first detection device 41 for detecting an operating state of the first control system, and the first detection device 41 is electrically connected to the first main control board 40. By arranging the first detection device 41 for detecting the working state of the first control system, the first detection device 41 performs information interaction with the first communication piece 61, when the first detection device 41 detects that the first control system is damaged, the damaged information is transmitted to the first communication piece 61 through the first detection device 41, and the first communication piece 61 makes corresponding subsequent feedback.

The information interaction mode in the present application may be one of wired interaction or wireless interaction, and wired interaction is information interaction through an interface or the like, which is not limited herein.

In one embodiment, a third control system capable of adjusting the operating states of the plurality of infrastructures is further disposed in the first main control board 40, and the first detection device 41 is capable of detecting the operating states of the first control system and the third control system, respectively. By arranging the third control system, when the first control system works normally, the third control system is the same as the second control system and is in a standby state; if the first control system on the first main control board 40 fails, the system can be directly switched to the third control system to work, and when the first control system and the third control system are both damaged, the system is switched to the second control system. In this way, the alternatives to equipment failure are effectively increased, and the length of time that the edge computing controller can remain in normal operation while awaiting maintenance is increased.

In an embodiment, a second detection device 51 for detecting the working state of the second control system is disposed on the second main control board 50, and the second detection device 51 is electrically connected to the second main control board 50. Through setting up second detection device 51 for detect the operating condition of second control system, this second detection device 51 carries out information interaction with second communication 62, when second detection device 51 detects the second control system and damages, just transmits damage information to second communication 62 through second detection device 51 to make corresponding follow-up feedback by second communication 62.

In one embodiment, a fourth control system capable of adjusting the operating states of the plurality of infrastructures is disposed in the second main control board 50, and the second detection device 51 is capable of detecting the operating states of the second control system and the fourth control system respectively. Similarly, a fourth control system is provided as an alternative for increasing equipment failure and increasing the service life of the edge computing controller that can still operate normally while waiting for maintenance.

In one embodiment, the edge computing controller further includes a burning interface 70, and the burning interface 70 is respectively connected to the storage module 20, the first main control board 40 and the second main control board 50. Specifically, the burning interface may be a USB interface, a serial port, a network port, etc., and is not limited herein, as long as the information that can be stored in the storage module 20 can be copied to the first main control board 40 and the second main control board 50 through the burning interface.

The work flow of the edge calculation controller is specifically as follows:

when the first control system works normally, the first communication part 61 and the second communication part 62 periodically carry out information interaction, and the first communication part 61 periodically interacts with an external central control platform;

when the first control system fails, the first detection device 41 detects the failure signal, and the failure signal is fed back to the third control system by the first detection device 41, the third control system takes over a plurality of infrastructures, the storage module 20 copies the stored information into the third control system, and continuously keeps information interaction with the second communication part 62 through the first communication part 61, and the first communication part 61 feeds back the failure information of the first control system to the central control platform;

when the first control system and the third control system are failed simultaneously, the first communication part 61 informs the second communication part 62 of the damage information, and the second control system takes over the damage information;

when the first main control board 40 is damaged, the first control system, the third control system and the first communication part 61 cannot work normally, and at this time, the second communication part 62 cannot receive the information of the first communication part 61 periodically, so that the second control system automatically takes over the plurality of infrastructures, and the second communication part 62 and the central control platform perform information feedback;

when the second control system is damaged, the second detection device 51 detects that the second control system cannot work normally, and then the second detection device 51 feeds back the information to the fourth control system, the fourth control system takes over a plurality of infrastructures, the storage module 20 copies the stored information to the fourth control system, and the second communication part 62 feeds back the information of the second control system fault to the central control platform;

when the fourth control system is also damaged, the second communication part 62 immediately sends the damaged information of the edge computing controller to the central control platform, and a maintenance worker needs to be immediately arranged for maintenance;

when the first main control board 40 and the second main control board 50 are damaged, the central control platform cannot periodically detect the feedback signals of the second communication part 62 and the first communication part 61, and the central control platform immediately contacts maintenance personnel to the corresponding damaged part for maintenance.

Example two.

The application also provides a multifunctional street lamp, which comprises a lamp post, a plurality of infrastructures arranged on the lamp post and an edge calculation controller used for controlling the states of the infrastructures, wherein the edge calculation controller is the edge calculation controller.

The application provides a multifunctional street lamp's beneficial effect lies in: compared with the prior art, the multifunctional street lamp of the application enables the alternative scheme to be implemented immediately when software faults or main board faults occur inside the edge calculation controller through the edge calculation controller on the lamp post, and the normal working state of the multifunctional street lamp is effectively guaranteed.

The present invention is not intended to be limited to the particular embodiments shown and described, but is to be accorded the widest scope consistent with the principles and novel features herein disclosed.

Claims (9)

1. An edge computing controller having a plurality of infrastructures connected thereto, comprising: including the casing, locate storage module in the casing, with the power module that the storage module electricity is connected, and locate first main control board and second main control board in the casing, first main control board respectively with storage module with the power module electricity is connected, the second main control board respectively in storage module with the power module electricity is connected, be equipped with in the first main control board and adjust a plurality ofly the operating condition's of infrastructure first control system, be equipped with in the second main control board and adjust a plurality ofly the operating condition's of infrastructure second control system.

2. The edge calculation controller of claim 1, wherein: the first main control board is provided with a first detection device for detecting the working state of the first control system, and the first detection device is electrically connected with the first main control board.

3. The edge calculation controller of claim 2, wherein: the first main control board is internally provided with a third control system capable of adjusting the working states of the plurality of infrastructures, and the first detection device can respectively detect the working states of the first control system and the third control system.

4. The edge calculation controller of claim 3, wherein: and a second detection device for detecting the working state of the second control system is arranged on the second main control board, and the second detection device is electrically connected with the second main control board.

5. The edge calculation controller of claim 4, wherein: and a fourth control system capable of adjusting the working states of a plurality of infrastructures is arranged in the second main control board, and the second detection device can respectively detect the working states of the second control system and the fourth control system.

6. The edge calculation controller of claim 1, wherein: the edge computing controller further comprises a burning interface, and the burning interface is connected with the storage module, the first main control board and the second main control board respectively.

7. The edge calculation controller of claim 1, wherein: the edge computing controller further comprises a communication module capable of performing information interaction with external equipment, and the communication module is electrically connected with the power supply module.

8. The edge calculation controller of claim 7, wherein: the communication module comprises a first communication piece arranged on the first main control board and a second communication piece arranged on the second main control board, the first communication piece and the second communication piece can be in information interaction with external equipment respectively, and the first communication piece and the second communication piece can be in information interaction.

9. Multifunctional street lamp, its characterized in that: the edge calculation controller comprises a lamp post, a plurality of infrastructures arranged on the lamp post and an edge calculation controller used for controlling the states of the infrastructures, wherein the edge calculation controller is the edge calculation controller according to any one of claims 1 to 8.

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