CN115119368B - Street lamp single lamp controller with 4G real-time communication function - Google Patents

Abstract

The application discloses a street lamp single lamp controller with a 4G real-time communication function, which comprises a main body unit, an expansion unit and a cover plate unit, wherein the main body unit is connected with the expansion unit; the main body unit comprises an input wiring port and an output wiring port, and is provided with a first accommodating groove, and a first inserting groove is formed in the first accommodating groove; the expansion unit can be accommodated in the first accommodating groove and is provided with a first plug connector, the expansion unit comprises a second accommodating groove, a plurality of third accommodating grooves are formed in the second accommodating groove, each third accommodating groove is internally provided with a second plug connector, each third accommodating groove is provided with a functional unit or a protective plate, and each functional unit is provided with a second plug connector; the cover plate unit is provided with a plurality of through holes and is arranged at the second accommodating groove. The single-lamp controller can realize remote real-time communication and multifunctional expansion.

Description

Street lamp single lamp controller with 4G real-time communication function

Technical Field

The application relates to the field of street lamps, in particular to a street lamp single lamp controller with a 4G real-time communication function.

Background

A single lamp controller, as the name implies, is a controller that can achieve control over each. The classification of the single-lamp controller is numerous, the single-lamp controller can realize communication with a gateway or a remote control center, the communication mode is beautiful like a power carrier single-lamp controller or a zigbee, but with the development of intelligent street lamps, the data volume of communication and the speed requirement of communication are higher and higher, so that the single-lamp controller directly communicated with the remote control center can be applied more and more, with the complexity of urban pipelines and the miniaturization of sensors and the development of internet of things technology, the single-lamp controller which can realize remote real-time communication and can bear more functions can meet more use requirements, but more complex structures often mean more faults and better maintenance cost, and therefore, how to balance and solve the contradictions is the direction of engineers.

Disclosure of Invention

The application aims to: the application aims to overcome the defects of the prior art and provides a street lamp single lamp controller with a 4G real-time communication function.

The technical scheme is as follows: a street lamp single lamp controller with a 4G real-time communication function comprises a main body unit, an expansion unit and a cover plate unit; the main body unit comprises an input wiring port and an output wiring port, and is provided with a first accommodating groove, and a first inserting groove is formed in the first accommodating groove; the expansion unit can be accommodated in the first accommodating groove and is provided with a first plug connector matched with the first plug groove, the expansion unit comprises a second accommodating groove, a plurality of third accommodating grooves are formed in the second accommodating groove, each third accommodating groove is internally provided with a second plug groove, each third accommodating groove is provided with a functional unit or a protection board, and the functional unit is provided with a second plug connector matched with the second plug groove; the cover plate unit is provided with a plurality of through holes, the number of the through holes is equal to that of the third accommodating grooves, the through holes are in one-to-one correspondence with the third accommodating grooves, each third accommodating groove faces one through hole, and the cover plate unit is installed at the second accommodating groove.

Further, the expansion unit and the main body unit are fixed through bolts; the cover plate unit and the expansion unit are fixed through bolts; the protection plate and the third accommodating groove are fixed through bolts; the surface of the cover plate unit facing the second accommodating groove is provided with a sealing gasket; the surface of the protective plate facing the third accommodating groove is provided with a sealing gasket; the surface of the functional unit facing the third accommodation groove (i.e., the surface of the mounting plate facing the third accommodation groove) has a gasket.

Thereby increase better sealed waterproof effect to the installation is more stable, uses more stably.

Further, the functional unit is a GPS unit, a light intensity sensing unit, a wireless communication unit, a Bluetooth unit, an air monitoring unit, a temperature detection unit or a humidity detection unit.

Other functional units may be provided as desired.

Further, the main body unit comprises a substrate and a shell connected with the substrate, the input wiring port and the output wiring port are fixedly connected with the shell, and a plurality of bolt holes are formed in the substrate; the main body unit further comprises a main control module, a power supply module, a 4G communication module, a switch module, a dimming module, a current acquisition module and a voltage acquisition module, wherein the power supply module, the 4G communication module, the switch module, the dimming module, the current acquisition module and the voltage acquisition module are electrically connected with the main control module; the first inserting groove is electrically connected with the main control module.

Further, the one side of first holding tank has the mounting groove, and the opposite side has the specular reflection coating of bar, install the image acquisition unit who is connected with the main control unit electricity in the mounting groove, expansion unit department is fixed with first recognition plate, first recognition plate department has can by the first recognition code of image acquisition unit collection image, every through-hole department have one with the spacing logical groove of bar of through-hole intercommunication, the functional unit include the mounting panel, fixed mounting in the second bayonet joint of mounting panel department and be fixed in the mounting box of mounting panel department, mounting box department is fixed with the fixed block, fixed block department articulates there is the rotating plate, rotating plate department fixedly connected with locating plate, locating plate department has rubber arch, rotating plate department still has the second recognition plate through rotation axis connection, the axis of rotation can for the rotating plate department has the second recognition code, the both ends of second recognition plate all have can be by rubber protruding the mounting groove by the second bayonet joint of mounting panel department and be fixed in the mounting box of mounting panel department the direct function of image acquisition unit can be passed through the image acquisition unit after this image acquisition unit of this specular reflection coating of this image acquisition unit.

Since the second recognition plate may be directly or indirectly captured, the second recognition plate is designed to be rotatable to adjust the second recognition code to face the image capturing unit or to face away from the image capturing unit, thereby completing the image capturing of the plurality of second recognition codes. Some second identification codes need to be opposite to the image acquisition unit, and the acquired images after reflection are because if the images are all directly acquired, the image acquisition unit has no large field angle, so that the images are difficult to acquire clearly, and the field angle of the acquired images is reduced in a reflection mode, so that the acquired images are clearer.

Further, the rubber bulges are hemispherical bulges, and each positioning plate is provided with two rubber bulges; each end of the positioning plate is provided with two positioning grooves.

Therefore, after the rubber bulge is inserted into the positioning groove, the positioning is more stable, and the second identification code can not rotate relative to the limiting plate under the condition of no external force.

Further, the second identification plate is provided with a first groove, the first groove is internally provided with a second groove, the second identification code is positioned in the second groove, and the first groove is provided with a rectangular frame-shaped black edge.

The black edge can enable the image acquired by the image acquisition unit to carry out image recognition on the two-dimensional code information more accurately, and plays a role in positioning in image recognition.

Further, the third accommodation groove has 5, 2 of which are mounted with the protection plates, and the other three of which are mounted with the function unit, the mounting plate of the function unit being clamped between the third accommodation groove and the cover plate unit; the 3 functional units are a GPS unit, a light intensity sensing unit and an air monitoring unit respectively.

In other embodiments, the number of the third accommodating grooves is 5, one functional unit is installed in each third accommodating groove, and the 5 functional units are a GPS unit, a light intensity sensing unit, a wireless communication unit, a Bluetooth unit and an air monitoring unit respectively.

Further, the 5 functional units are arranged in a row, wherein the second identification codes of the functional units positioned in the middle are directly collected by the image collecting unit, and the second identification codes of the other functional units are collected by the image collecting unit after being reflected by the specular reflection coating.

Further, the first identification code and the second identification code are two-dimensional codes.

In some embodiments, bar codes may also be employed.

Further, the back of the substrate is provided with a rectangular positioning lug.

The positioning convex blocks are mainly used for facilitating the positioning and installation of the single-lamp controller, and can be omitted in some cases.

The beneficial effects are that: compared with the traditional single-lamp controller, the single-lamp controller has the following advantages:

1) The remote control center has the function of remote real-time communication, so that the remote control center can realize more loaded communication and more timely communication.

2) The expansion unit and the functional unit can be selected, so that the final function of the single-lamp controller can be realized and selected, and the method is more suitable for complex urban management.

3) The dual combination of software identification and field image identification can be realized for each functional unit, thereby being more beneficial to the maintenance of the field functional unit.

Drawings

FIG. 1 is a schematic diagram of a single lamp controller;

FIG. 2 is a schematic diagram of a cover plate unit separation;

FIG. 3 is a schematic diagram showing the cover unit and the functional unit separated;

FIG. 4 is a schematic view of the expansion unit, the cover unit and the functional unit separated from each other at a first viewing angle;

FIG. 5 is a schematic view of the expansion unit, the cover unit and the functional unit from a second perspective;

fig. 6 is a schematic diagram of connection of a single lamp controller module in embodiment 2.

Detailed Description

Reference numerals: 1.1 a substrate; 1.2 bolt holes; 1.3 a housing; 1.4 positioning bumps; 1.5 a first receiving groove; 1.6 specular reflective coating; 1.7 a first plug-in slot; 1.8 mounting grooves; 1.9 an image acquisition unit; 1.10 input ports; 1.11 output connection port; 2.1 expanding units; 2.2 first plug-in connector; 2.3 a second receiving groove; 2.4 a third receiving groove; 2.5 a second plugging groove; 2.6 a first identification panel; 2.7 a first identification code; 3.1 cover plate unit; 3.2, 4.2, 5.2 gaskets; 3.3 through holes; 3.4 bar-shaped limit grooves; 4.1 mounting plates; 4.3 a second plug; 4.4 mounting boxes; 4.5 fixing blocks; 4.6 rotating the plate; 4.7 positioning plates; 4.8 a second identification panel; 4.9 first grooves; 4.10 second grooves; 4.11 second identification code; 4.12 positioning grooves; 4.13 rotating shaft; 5.1 protective plate.

Example 1

A street lamp single lamp controller with a 4G real-time communication function comprises a main body unit, an expansion unit 2.1 and a cover plate unit 3.1; the main body unit comprises an input wiring port 1.10 and an output wiring port 1.11, the main body unit is provided with a first accommodating groove 1.5, and a first inserting groove 1.7 is arranged in the first accommodating groove 1.5; the expansion unit 2.1 can be accommodated in the first accommodating groove 1.5, the expansion unit 2.1 is provided with a first plug connector 2.2 matched with the first plug groove 1.7, the expansion unit 2.1 comprises a second accommodating groove 2.3, a plurality of third accommodating grooves 2.4 are formed in the second accommodating groove 2.3, a second plug groove 2.5 is formed in each third accommodating groove 2.4, and a functional unit or a protective plate 5 is mounted at each third accommodating groove 2.4, and the functional unit is provided with a second plug connector 4.3 matched with the second plug groove 2.3; the cover plate unit 3.1 is provided with a plurality of through holes 3.3, the number of the through holes 3.3 is equal to that of the third accommodating grooves 2.4, the through holes 3.3 and the third accommodating grooves 2.4 are in one-to-one correspondence, each third accommodating groove 2.4 faces one through hole 3.3, and the cover plate unit 3.1 is installed at the second accommodating groove 2.3. The expansion unit 2.1 and the main body unit are fixed through bolts; the cover plate unit 3.1 and the expansion unit 2.1 are fixed through bolts; the protection plate 5 and the third accommodating groove 2.4 are fixed through bolts; the surface of the cover plate unit 3.1 facing the second accommodating groove 2.3 is provided with a sealing gasket 3.2; the surface of the protective plate 5.1 facing the third receiving groove 2.4 has a sealing gasket 5.2; the surface of the functional unit facing the third receiving groove 2.4 has a sealing gasket 4.2.

The functional units are a GPS unit, a light intensity sensing unit, a wireless communication unit, a Bluetooth unit, an air monitoring unit, a temperature detection unit or a humidity detection unit. The main body unit comprises a base plate 1.1 and a shell 1.3 connected with the base plate 1.1, the input wiring port 1.10 and the output wiring port 1.11 are fixedly connected with the shell 1.3, and a plurality of bolt holes 1.2 are formed in the base plate 1.1; the main body unit further comprises a main control module, a power supply module, a 4G communication module, a switch module, a dimming module, a current acquisition module and a voltage acquisition module, wherein the power supply module, the 4G communication module, the switch module, the dimming module, the current acquisition module and the voltage acquisition module are electrically connected with the main control module; the first inserting groove is electrically connected with the main control module.

One side of the first accommodating groove 1.5 is provided with a mounting groove 1.8, the other side is provided with a strip-shaped specular reflection coating 1.6, an image acquisition unit 1.9 electrically connected with a main control unit is mounted in the mounting groove 1.8, a first identification plate 2.6 is fixed at the expansion unit 2.1, a first identification code 2.7 capable of acquiring images by the image acquisition unit 1.9 is arranged at the first identification plate 2.6, each through hole 3.3 is provided with a strip-shaped limit through groove 3.4 communicated with the through hole 3.3, the functional unit comprises a mounting plate 4.1, a second plug-in connector 4.3 fixedly mounted at the mounting plate 4.1 and a mounting box 4.4 fixedly mounted at the mounting plate 4.1 (no matter what type of functional unit is, the mounting plate, the second plug-in connector and the mounting box are all available, thereby realizing standardization and unification of the functional units), the mounting box 4.4 is fixedly provided with a fixed block 4.5, the fixed block 4.5 is hinged with a rotating plate 4.6, the rotating plate 4.6 is fixedly connected with a positioning plate 4.7, the positioning plate 4.7 is provided with rubber bulges, the rotating plate 4.6 is also connected with a second identification plate 4.8 through a rotating shaft 4.13, the second identification plate 4.8 is fixedly connected with the rotating shaft 4.13, the rotating shaft 4.13 can rotate relative to the rotating plate 4.6, the second identification plate 4.8 is provided with a second identification code 4.11, two ends of the second identification plate 4.8 are respectively provided with a positioning groove 4.12 which can be inserted by the rubber bulges, the positioning plate 4.7 of the functional unit at each through hole 3.3 is inserted into the bar-shaped limiting groove 3.4 at the through hole 3, so that the second identification code 4.11 of the functional unit can be directly used for image acquisition by the image acquisition unit 1.9 or the second identification code 4.11 of the functional unit can be indirectly used for image acquisition by the image acquisition unit 1.9 after being reflected by the specular reflection coating 1.6. The rubber bulges are hemispherical bulges, and two rubber bulges are arranged at the 4.7 part of each positioning plate; the positioning plate 4.7 has two said positioning grooves 4.12 at each end. The second identification plate 4.8 is provided with a first groove 4.9, the first groove 4.9 is internally provided with a second groove 4.10, the second identification code 4.11 is positioned in the second groove 4.10, and the first groove 4.9 is provided with a rectangular frame-shaped black edge.

The third accommodating groove 2.4 has 5, 2 of which are provided with the protective plate 5.1, and the other three of which are provided with the functional units, and the mounting plate of the functional units is clamped between the third accommodating groove 2.4 and the cover plate unit 3.1; the 3 functional units are a GPS unit, a light intensity sensing unit and an air monitoring unit respectively.

Example 2

The main structure of embodiment 2 is similar to that of embodiment 1, and the main difference is that in embodiment 2 there are 5 functional units, specifically, 5 third receiving slots 2.4, one of the functional units is installed in each third receiving slot 2.4, and the 5 functional units are a GPS unit, a light intensity sensing unit, a wireless communication unit (the main unit itself has a 4G communication unit, where the wireless communication unit may be used as a standby unit, and this wireless communication unit may be activated when the 4G communication unit of the main unit is damaged), a bluetooth unit, and an air monitoring unit, respectively. The 5 functional units are arranged in a row, wherein the second identification codes of the functional units positioned in the middle are directly collected by the image collecting unit, and the second identification codes 4.11 of the other functional units are collected by the image collecting unit 1.9 after being reflected by the specular reflection coating 1.6. So that embodiment 2 can have more extended functions than embodiment 1.

As shown in the figure, the single-lamp controller can be connected with a remote control center through the 4G communication unit, so that the remote control of a single street lamp is realized, and the on-off control and the dimming control of the street lamp can also be realized. The application has the important innovation that the expansion unit is designed, and the functional units at the expansion unit can be freely selected and combined. The expansion unit in the embodiments 1 and 2 has 5 second plugging grooves, but other numbers of plugging grooves can be designed according to the needs, so that the needs of function expansion are met. And as shown in the figure, the functional unit can be installed at the second inserting groove of the expansion unit, and when the installation is not needed, the protection board can be installed to realize protection. In theory, when a functional unit is installed at the second socket, it is identifiable in the software system of the remote control center and it is possible to identify what functional unit is at all. However, in actual use, a functional unit may be damaged and cannot be identified in the system, so that the second socket may be misjudged as being empty in the system. If this situation exists even up to a certain amount, it is very inconvenient to manage street lamps for the whole area. Therefore, besides the identification in the software system, the application designs the scheme, through the design of the strip-shaped limit grooves and the second identification plates (each cover plate unit and each expansion unit are matched, and the angle of the strip-shaped limit groove at each through hole is designed, so that when the limit plate is inserted into the strip-shaped limit groove, the corresponding second identification plate is just collected by the image collecting unit or is collected by the image collecting unit after being subjected to the specular reflection coating), thereby the image collecting unit can collect the first identification code at the expansion unit (the model of the expansion unit is known, the information of a plurality of second inserting grooves and the like) and can collect the second identification code information (the information of what unit, model and the like the functional unit is) of each functional unit. Therefore, the recognition result of the software system is consistent with the result obtained after the image acquisition unit acquires the image, otherwise, the street lamp is required to be maintained.

While the application has been shown and described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the scope of the application as defined in the following claims.

Claims (9)

1. The street lamp single lamp controller with the 4G real-time communication function is characterized by comprising a main body unit, an expansion unit and a cover plate unit; the main body unit comprises an input wiring port and an output wiring port, and is provided with a first accommodating groove, and a first inserting groove is formed in the first accommodating groove; the expansion unit can be accommodated in the first accommodating groove and is provided with a first plug connector matched with the first plug groove, the expansion unit comprises a second accommodating groove, a plurality of third accommodating grooves are formed in the second accommodating groove, each third accommodating groove is internally provided with a second plug groove, each third accommodating groove is provided with a functional unit or a protection board, and the functional unit is provided with a second plug connector matched with the second plug groove; the cover plate unit is provided with a plurality of through holes, the number of the through holes is equal to that of the third accommodating grooves, the through holes are in one-to-one correspondence with the third accommodating grooves, each third accommodating groove faces one through hole, and the cover plate unit is arranged at the second accommodating groove; the utility model provides a camera module, including the camera module, the camera module is connected with the camera module, first holding tank has the mounting groove, the opposite side has the specular reflection coating of bar, install in the mounting groove with the image acquisition unit of main control unit electricity connection, expansion unit department is fixed with first recognition plate, first recognition plate department has can by the first identification code of image acquisition unit collection image, every through-hole department have one with the spacing logical groove of bar of through-hole intercommunication, the functional unit include the mounting panel, fixed mounting in the second bayonet joint of mounting panel department and be fixed in the mounting box of mounting panel department, mounting box department is fixed with the fixed block, fixed block department articulates there is the rotating plate, rotating plate department fixedly connected with locating plate, locating plate department has the rubber arch, rotating plate department still has the second recognition plate through rotation axis connection, the axis can for rotating the rotating plate department has the second identification code, the both ends of second recognition plate all have can be inserted by the rubber arch in the mounting panel the mounting box the second bayonet joint and be fixed in the mounting box of mounting panel department the mounting panel, thereby can make the image acquisition unit can be by the direct image acquisition by the image acquisition unit of this image acquisition unit through the direct function of this image acquisition unit of this specular reflection unit.

2. The street lamp single lamp controller with the 4G real-time communication function according to claim 1, wherein the expansion unit and the main body unit are fixed through bolts; the cover plate unit and the expansion unit are fixed through bolts; the protection plate and the third accommodating groove are fixed through bolts; the surface of the cover plate unit facing the second accommodating groove is provided with a sealing gasket; the surface of the protective plate facing the third accommodating groove is provided with a sealing gasket; the surface of the functional unit facing the third accommodation groove is provided with a sealing gasket.

3. The street lamp single lamp controller with the 4G real-time communication function according to claim 1, wherein the functional unit is a GPS unit, a light intensity sensing unit, a wireless communication unit, a Bluetooth unit, an air monitoring unit, a temperature detection unit or a humidity detection unit.

4. The street lamp single lamp controller with the 4G real-time communication function according to claim 1, wherein the main body unit comprises a substrate and a shell connected with the substrate, the input wiring port and the output wiring port are fixedly connected with the shell, and a plurality of bolt holes are formed in the substrate; the main body unit further comprises a main control module, a power supply module, a 4G communication module, a switch module, a dimming module, a current acquisition module and a voltage acquisition module, wherein the power supply module, the 4G communication module, the switch module, the dimming module, the current acquisition module and the voltage acquisition module are electrically connected with the main control module; the first inserting groove is electrically connected with the main control module.

5. The street lamp single lamp controller with the 4G real-time communication function according to claim 1, wherein the rubber protrusions are hemispherical protrusions, and each positioning plate is provided with two rubber protrusions; each end of the positioning plate is provided with two positioning grooves.

6. The street lamp single lamp controller with the 4G real-time communication function according to claim 1, wherein a first groove is formed in the second identification plate, a second groove is formed in the first groove, the second identification code is located in the second groove, and a rectangular frame-shaped black edge is formed in the first groove.

7. The street lamp single lamp controller with 4G real-time communication function according to claim 1, wherein the third accommodation groove has 5, 2 of which are installed with the protection boards, and the other three of which are installed with the function units, the installation plate of the function unit being clamped between the third accommodation groove and the cover plate unit; the 3 functional units are a GPS unit, a light intensity sensing unit and an air monitoring unit respectively.

8. The street lamp single lamp controller with the 4G real-time communication function according to claim 1, wherein the number of the third accommodating grooves is 5, one functional unit is installed in each third accommodating groove, and the 5 functional units are a GPS unit, a light intensity sensing unit, a wireless communication unit, a Bluetooth unit and an air monitoring unit respectively.

9. The street lamp single lamp controller with the 4G real-time communication function according to claim 8, wherein 5 functional units are arranged in a row, wherein the second identification codes of the functional units located in the middle are directly collected by the image collecting unit, and the second identification codes of the other functional units are collected by the image collecting unit after being reflected by the specular reflection coating.