CN212259413U - Intelligent lamp control system based on wireless data transmission radio station, street lamp and lighting system - Google Patents

Abstract

The utility model discloses an intelligence lamp control system, street lamp and lighting system based on wireless data radio station, this intelligence lamp control system includes: the intelligent gateway is connected with the first wireless data transmission radio station module through a network, the first wireless data transmission radio station module is connected with at least one second wireless data transmission radio station module through a network, the at least one second wireless data transmission radio station module is electrically connected with the at least one lamp control module, and the at least one lamp control module is electrically connected with the at least one light emitting module; the intelligent gateway receives the light-emitting control instruction, transmits the light-emitting control instruction to the at least one lamp control module sequentially through the first wireless data transmission radio station module and the at least one second wireless data transmission radio station module, and the at least one lamp control module controls the light-emitting of the at least one light-emitting module according to the light-emitting control instruction, so that the light-emitting module is controlled quickly.

Description

Intelligent lamp control system based on wireless data transmission radio station, street lamp and lighting system

Technical Field

The utility model relates to the field of communication, especially, relate to an intelligence lamp accuse system, street lamp and lighting system based on wireless data radio station.

Background

At present, in order to control the illumination of a street lamp, a lamp control system may be provided for the street lamp. Generally, the control modes of the lamp control system can be divided into wired control and wireless control, for example, an RS485 bus lamp control system (wired control) and a wireless NB-IOT lamp control system (wireless control).

However, in practical applications, the existing wired-control lamp control system can only transmit signals in a relatively short distance range, and the wireless-control lamp control system has a small signal coverage area and a slow response speed, and cannot meet the demand of transmitting signals in time.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides an intelligence lamp control system, street lamp and lighting system based on wireless data radio to it is little to solve current lamp control system transmission signal's scope, and response speed is slow, can't satisfy the problem of the demand of timely transmission signal.

In order to solve the technical problem, the utility model discloses a realize like this:

in a first aspect, an intelligent lamp control system based on wireless data transmission radio stations is provided, which comprises an intelligent gateway, a first wireless data transmission radio station module, at least one second wireless data transmission radio station module, at least one lamp control module and at least one light emitting module, wherein:

the intelligent gateway is connected with the first wireless data transmission radio station module through a network, the first wireless data transmission radio station module is connected with the at least one second wireless data transmission radio station module through a network, the at least one second wireless data transmission radio station module is electrically connected with the at least one lamp control module, and the at least one lamp control module is electrically connected with the at least one light emitting module;

the intelligent gateway receives a light emitting control instruction, transmits the light emitting control instruction to the at least one lamp control module sequentially through the first wireless data transmission radio module and the at least one second wireless data transmission radio module, and the at least one lamp control module controls light emitting of the at least one light emitting module according to the light emitting control instruction.

Optionally, the intelligent lamp control system based on the wireless data transmission radio station further includes a cloud server, wherein:

and the cloud server is connected with the intelligent gateway network and is used for sending the light-emitting control instruction to the intelligent gateway.

Optionally, the intelligent lamp control system based on the wireless data radio further includes a mobile terminal, wherein:

the mobile terminal is connected with the cloud server through a network and used for receiving the light-emitting control instruction sent by a user and sending the light-emitting control instruction to the cloud server;

wherein the light emission control instruction is transmitted by the user through a designated application installed in the mobile terminal or a designated web page displayed.

Optionally, the lighting control instruction includes at least one of a first instruction, a second instruction, a third instruction, and a fourth instruction;

the first instruction is used for indicating the brightness of light emitted by the at least one light-emitting module, the second instruction is used for indicating the on/off of the at least one light-emitting module, the third instruction is used for indicating the reporting of state information of the at least one light-emitting module, the state information comprises the voltage, the current and the power of the at least one light-emitting module, and the fourth instruction is used for indicating the intelligent gateway to send an offline task to the first wireless digital transmission platform module at preset time.

Optionally, in a case where the light emission control instruction includes the third instruction:

the at least one lamp control module is further used for sending the state information of the at least one light-emitting module to the at least one second wireless data transmission station module;

the at least one second wireless data transmission radio station module is further used for sending the state information of the at least one light-emitting module to the first wireless data transmission radio station module;

the first wireless data transmission radio station module sends the state information of the at least one light-emitting module to the intelligent gateway;

the intelligent gateway is used for sending the state information to a cloud server so as to send the state information to a user through the cloud server.

Optionally, the network connection is a wired network connection or a wireless network connection, and the wireless network connection includes an ethernet connection and a wireless local area network connection.

Optionally, the first wireless data radio module and the at least one second wireless data radio module both transmit the lighting control instruction based on an encryption and decryption algorithm.

In a second aspect, a street lamp is provided, which comprises the above intelligent lamp control system based on the wireless data transmission radio.

Optionally, the street lamp further comprises an overhaul bin, wherein the intelligent gateway is arranged in the overhaul bin.

In a third aspect, a lighting system is provided, comprising at least one street lamp as described above.

The embodiment of the utility model provides an intelligence lamp control system based on wireless data radio station, including intelligent gateway, first wireless data radio station module, at least one second wireless data radio station module, at least one lamp control module and at least one light emitting module, wherein, intelligent gateway and first wireless data radio station module internet access, first wireless data radio station module and at least one second wireless data radio station module internet access, at least one second wireless data radio station module is connected with at least one lamp control module electricity, at least one lamp control module is connected with at least one light emitting module electricity. Like this, when controlling light-emitting module's luminescence, intelligent gateway can receive the control command that gives out light to loop through first wireless data transfer radio station module and the transmission of second wireless data transfer radio station module for lamp accuse module with the control command that gives out light, because wireless data transfer radio station has the characteristics that transmission distance is far away, response speed is fast, consequently, can send the control command that gives out light for lamp accuse module fast, by lamp accuse module in time to light-emitting module's luminous control.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a schematic structural diagram of an intelligent lamp control system based on a wireless data transmission radio station according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent lamp control system based on a wireless data transmission radio station according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an intelligent lamp control system based on a wireless data radio station according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, the embodiment of the utility model provides an among the intelligent lamp control system based on wireless data transfer radio station, second wireless data transfer radio station module, the number of lamp control module and light emitting module can be the same, specifically can be, and second wireless data transfer radio station module, the number of lamp control module and light emitting module is one, also can be a plurality of, for the convenience of explanation, the embodiment of the utility model provides a can explain for a plurality of examples with second wireless data transfer radio station module, the number of lamp control module and light emitting module.

In addition, in the embodiment of the present invention, the second wireless digital radio station module, the lamp control module and the light emitting module are connected in a one-to-one manner, that is, one second wireless digital radio station module is electrically connected to one lamp control module, and one lamp control module is electrically connected to one light emitting module.

Fig. 1 is the structure diagram of the intelligent lamp control system based on wireless data radio station according to an embodiment of the present invention. As shown in fig. 1, the intelligent lamp control system 10 based on wireless data transmission station includes an intelligent gateway 11, a first wireless data transmission station module 12, a plurality of second wireless data transmission station modules (two second wireless data transmission station modules 131 and 132 are illustrated in fig. 1 as an example), a plurality of lamp control modules (two lamp control modules 141 and 142 are illustrated in fig. 1 as an example), and a plurality of light emitting modules (two light emitting modules 151 and 152 are illustrated in fig. 1 as an example).

In fig. 1, the intelligent gateway 11 is connected to the first wireless digital broadcasting station module 12 through a network, wherein the intelligent gateway 11 and the first wireless digital broadcasting station module 12 may be connected through a wired network (indicated by a solid line in fig. 1) or through a wireless network (indicated by a dashed line in fig. 1).

The first wireless data radio module 12 is connected to the second wireless data radio module 131 and the second wireless data radio module 132 via a network, which may preferably be a wireless network connection (indicated by a dotted line in fig. 1), so that the subsequent first wireless data radio module 12 may remotely transmit the lighting control instruction to the second wireless data radio module 131 and the second wireless data radio module 132, where the wireless network connection may include an ethernet connection and a wireless local area network connection.

The second wireless data transmission station module 131 is electrically connected to the lamp control module 141, the lamp control module 141 is electrically connected to the light emitting module 151, the second wireless data transmission station module 132 is electrically connected to the lamp control module 142, and the lamp control module 142 is electrically connected to the light emitting module 152.

Based on the wireless data radio-based intelligent lamp control system 10 shown in fig. 1, the intelligent gateway 11 can receive a lighting control instruction, and transmits the light emitting control command to the first wireless data transfer station module 12, the first wireless data transfer station module 12 can transmit the light emitting control command to the second wireless data transfer station module 131 and the second wireless data transfer station module 132 based on the wireless network connection, the second wireless data transfer station module 131 can transmit the light emitting control command to the lamp control module 141, the lamp control module 141 can control the light emitting of the light emitting module 151 according to the light emitting control command, similarly, the second wireless data transfer station module 132 may transmit the light emitting control instruction to the lamp control module 142, and the lamp control module 142 may control the light emitting module 152 to control the light emitting module 152 according to the light emitting control instruction.

Like this, when controlling light-emitting module's luminescence, intelligent gateway can receive the control command that gives out light to loop through first wireless data transfer radio station module and the transmission of second wireless data transfer radio station module for lamp accuse module with the control command that gives out light, because wireless data transfer radio station has the characteristics that transmission distance is far away, response speed is fast, consequently, can send the control command that gives out light for lamp accuse module fast, by lamp accuse module in time to light-emitting module's luminous control.

In this embodiment, the intelligent lamp control system 10 may further include a cloud server 16, where the cloud server 16 is connected to the intelligent gateway 11 through a network (may be a wireless network connection) and is configured to send the lighting control instruction to the intelligent gateway 11.

In this embodiment, in order to facilitate the user to send a lighting control instruction to the cloud server 16 to realize indirect control of the user on the lighting module 15, the intelligent lamp control system 10 may further include a mobile terminal 17, where the mobile terminal 17 is connected to the cloud server 16 through a network (may be connected to a wireless network), and the mobile terminal 17 is configured to receive the lighting control instruction sent by the user and send the lighting control instruction to the cloud server 16, where the lighting control instruction may be sent by the user through a specific application installed in the mobile terminal 17 or a specific displayed web page.

Alternatively, the light emission control instruction may include at least one of a first instruction, a second instruction, a third instruction, and a fourth instruction.

Taking one of the light emitting modules as an example, the first instruction may be used to indicate the brightness of the light emitted by the light emitting module, for example, to indicate that the brightness of the light emitted by the light emitting module is higher or lower.

The second instruction may be used to indicate turning on or off of the light module, such as indicating that the light module changes from emitting light to emitting no light, or from emitting no light to emitting light.

The third instruction may be configured to indicate status information of the reporting light module, where the status information may include voltage, current, and power of the reporting light module, for example, indicate voltage of the reporting light module E to determine whether the reporting light module E fails.

The fourth instruction may be configured to instruct the intelligent gateway 11 to send an offline task to the first wireless digital broadcasting station module 12 at a preset time, where the offline task may be understood as a timed task executed within a preset time period, for example, a fourth instruction indicating that the plurality of light emitting modules are turned on at point 18 is sent to the intelligent gateway 11 in advance, and at point 18, the intelligent gateway may send a task of turning on the plurality of light emitting modules to the first wireless digital broadcasting station module 12.

It should be understood that the lighting control instruction may include other instructions besides at least one of the above four instructions, which may be determined according to actual situations and are not illustrated one by one here.

It should be noted that, under the condition that the light-emitting control instruction includes the third instruction, after the light-emitting control instruction is sent to the lamp control module, the lamp control module may further obtain the state information of the light-emitting module, and send the state information of the light-emitting module to the second wireless data transmission radio module, the second wireless data transmission radio module may further be configured to send the state information of the light-emitting module to the first wireless data transmission radio module, the first wireless data transmission radio module may send the state information of the light-emitting module to the intelligent gateway, the intelligent gateway may further be configured to send the state information to the cloud server, so as to send the state information to the user through the cloud server, and thus, the user may view the state information of the light-emitting module conveniently.

In order to facilitate understanding of the above-mentioned lighting control instruction, when the lighting control instruction includes different instructions, data interaction between the intelligent gateway, the first wireless data transmission radio module, the second wireless data transmission radio module, the lamp control module and the lighting module, and the cloud server and the mobile terminal provided in this embodiment may be referred to fig. 2.

Fig. 2 illustrates two second wireless data transceiver modules, two lamp control modules and two light emitting modules shown in fig. 1 as an example. Compared with fig. 1, the mobile terminal 17 and the cloud server 16 are added in fig. 2, the mobile terminal 17 is in wireless network connection with the cloud server 16, and the cloud server 16 is in wired network connection with the intelligent gateway 11.

In fig. 2, the mobile terminal 17 may receive a lighting control instruction sent by a user through an application installed in the mobile terminal 17 or a displayed designated web page, and then may transmit the lighting control instruction to the lamp control module 141 sequentially through the cloud server 16, the intelligent gateway 11, the first wireless data transfer station module 12, and the second wireless data transfer station module 131, where the lamp control module 141 may control lighting of the lighting module 151 according to the lighting control instruction. Similarly, the mobile terminal 17 may also transmit the light emitting control instruction to the lamp control module 142 sequentially through the cloud server 16, the intelligent gateway 11, the first wireless data transmission station module 12, and the second wireless data transmission station module 132, and the lamp control module 142 may control the light emitting of the light emitting module 152 according to the light emitting control instruction.

Under the condition that the light-emitting control instruction includes the third instruction, the mobile terminal 17 sends the light-emitting control instruction to the lamp control module 141 sequentially through the cloud server 16, the intelligent gateway 11, the first wireless data transmission station module 12 and the second wireless data transmission station module 131, and after the lamp control module 141 controls the light-emitting module 151 to emit light, the lamp control module 141 may acquire state information of the light-emitting module 151, sequentially send the state information to the cloud server 16 sequentially through the second wireless data transmission station module 131, the first wireless data transmission station module 12 and the intelligent gateway 11.

Similarly, the mobile terminal 17 sends the lighting control command to the lamp control module 142 through the cloud server 16, the intelligent gateway 11, the first wireless data transmission station module 12, and the second wireless data transmission station module 132 in sequence, and after the lamp control module 142 controls the lighting module 152 to emit light, the lamp control module 142 may obtain the status information of the lighting module 152, and transmit the status information to the cloud server 16 through the second wireless data transmission station module 132, the first wireless data transmission station module 12, and the intelligent gateway 11 in sequence.

After transmitting the status information of each of the light emitting modules 151 and 152 to the cloud server 16, the cloud server 16 may transmit the status information to the mobile terminal 17 for the user to view.

Optionally, the first wireless data radio module 12, the second wireless data radio module 131, and the second wireless data radio module 132 may all transmit the lighting control instruction based on an encryption and decryption algorithm, so that the security of the lighting control instruction in the transmission process may be improved.

The utility model also provides a street lamp, including the above-mentioned intelligent lamp control system based on wireless data radio station.

In this embodiment, the street lamp may further include an overhaul bin, and the overhaul bin may be understood as a bin disposed in the street lamp post and used for placing or storing cables and circuits. In order to facilitate the intelligent gateway to rapidly send the light-emitting control instruction to the first wireless data transmission radio station module, the intelligent gateway can be arranged in the overhaul bin.

In addition, in order to save the design space of the street lamp, the second wireless data transmission radio station module and the lamp control module electrically connected with the second wireless data transmission radio station module can be arranged in the maintenance bin according to the actual situation, and no specific limitation is made here.

To facilitate understanding of the above-described situation of placing the intelligent gateway 11 in the service bay of the street lamp, reference may be made to fig. 3.

In fig. 3, an intelligent gateway 31 may be disposed in an overhaul cabin in a street lamp 1, a first wireless data transmission radio module 32 and a second wireless data transmission radio module 331 may also be disposed in the street lamp 1, a lamp control module 341 and a light emitting module 351 may be disposed in the street lamp 2, a second wireless data transmission radio module 332, a lamp control module 342 and a light emitting module 352 may be disposed in the street lamp 3, a second wireless data transmission radio module 333, a lamp control module 343 and a light emitting module 353 … … may be disposed in the street lamp N, a second wireless data transmission radio module 33N, a lamp control module 34N, and a light emitting module 35N may be disposed in the street lamp N.

In fig. 3, the cloud server 36 may send a lighting control instruction to the intelligent gateway 31 in the street lamp 1, the intelligent gateway 31 may send the lighting control instruction to the first wireless data radio station module 32, and the first wireless data radio station module 32 may send the lighting control instruction to the lamp control module 341 through the second wireless data radio station module 331 based on network connection with N second wireless data radio station modules, so as to control light emitted by the lighting module 351; or may be sent to the lamp control module 342 through the second wireless data transmission module 332 to control the light emitted by the light emitting module 352; the light may also be sent to the lamp control module 343 through the second wireless data transmission radio module 333 to control … … the light emitted by the light emitting module 353, or may also be sent to the lamp control module 34n through the second wireless data transmission radio module 33n to control the light emitted by the light emitting module 35 n.

The utility model also provides an illumination system, including above-mentioned at least one street lamp.

The embodiment of the utility model provides an intelligence lamp control system based on wireless data radio station, including intelligent gateway, first wireless data radio station module, at least one second wireless data radio station module, at least one lamp control module and at least one light emitting module, wherein, intelligent gateway and first wireless data radio station module internet access, first wireless data radio station module and at least one second wireless data radio station module internet access, at least one second wireless data radio station module is connected with at least one lamp control module electricity, at least one lamp control module is connected with at least one light emitting module electricity. Like this, when controlling light-emitting module's luminescence, intelligent gateway can receive the control command that gives out light to loop through first wireless data transfer radio station module and the transmission of second wireless data transfer radio station module for lamp accuse module with the control command that gives out light, because wireless data transfer radio station has the characteristics that transmission distance is far away, response speed is fast, consequently, can send the control command that gives out light for lamp accuse module fast, by lamp accuse module in time to light-emitting module's luminous control.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The term "comprising" is used to specify the presence of stated features, integers, steps, operations, elements, components, operations.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention essentially or the portions contributing to the prior art can be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk), and includes a plurality of instructions for enabling a terminal (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The embodiments of the present invention have been described with reference to the accompanying drawings, but the present invention is not limited to the above-mentioned embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides an intelligence lamp control system based on wireless data transfer radio station which characterized in that, includes intelligent gateway, first wireless data transfer radio station module, at least one second wireless data transfer radio station module, at least one lamp accuse module and at least one light emitting module, wherein:

the intelligent gateway is connected with the first wireless data transmission radio station module through a network, the first wireless data transmission radio station module is connected with the at least one second wireless data transmission radio station module through a network, the at least one second wireless data transmission radio station module is electrically connected with the at least one lamp control module, and the at least one lamp control module is electrically connected with the at least one light emitting module;

the intelligent gateway receives a light emitting control instruction, transmits the light emitting control instruction to the at least one lamp control module sequentially through the first wireless data transmission radio module and the at least one second wireless data transmission radio module, and the at least one lamp control module controls light emitting of the at least one light emitting module according to the light emitting control instruction.

2. The intelligent radio-based lamp control system according to claim 1, further comprising a cloud server, wherein:

and the cloud server is connected with the intelligent gateway network and is used for sending the light-emitting control instruction to the intelligent gateway.

3. The intelligent radio-based lamp control system according to claim 2, further comprising a mobile terminal, wherein:

the mobile terminal is connected with the cloud server through a network and used for receiving the light-emitting control instruction sent by a user and sending the light-emitting control instruction to the cloud server;

wherein the light emission control instruction is transmitted by the user through a designated application installed in the mobile terminal or a designated web page displayed.

4. The intelligent radio-based lamp control system according to claim 1,

the light-emitting control instruction comprises at least one of a first instruction, a second instruction, a third instruction and a fourth instruction;

the first instruction is used for indicating the brightness of light emitted by the at least one light-emitting module, the second instruction is used for indicating the on/off of the at least one light-emitting module, the third instruction is used for indicating the reporting of state information of the at least one light-emitting module, the state information comprises the voltage, the current and the power of the at least one light-emitting module, and the fourth instruction is used for indicating the intelligent gateway to send an offline task to the first wireless digital transmission platform module at preset time.

5. The radio-based intelligent lamp control system according to claim 4, wherein in case that the lighting control instruction comprises the third instruction:

the at least one lamp control module is further used for sending the state information of the at least one light-emitting module to the at least one second wireless data transmission station module;

the at least one second wireless data transmission radio station module is further used for sending the state information of the at least one light-emitting module to the first wireless data transmission radio station module;

the first wireless data transmission radio station module sends the state information of the at least one light-emitting module to the intelligent gateway;

the intelligent gateway is used for sending the state information to a cloud server so as to send the state information to a user through the cloud server.

6. The intelligent radio-based lamp control system according to claim 1,

the network connection is wired network connection or wireless network connection, and the wireless network connection comprises Ethernet connection and wireless local area network connection.

7. The intelligent radio-based lamp control system according to claim 1,

the first wireless data transmission radio station module and the at least one second wireless data transmission radio station module transmit the light-emitting control instruction based on an encryption and decryption algorithm.

8. A street lamp, characterized by comprising the intelligent lamp control system based on radio data transmission station as claimed in any one of claims 1 to 7.

9. The street lamp according to claim 8, further comprising a service bay, wherein the intelligent gateway is disposed in the service bay.

10. A lighting system characterized in that it comprises at least one street lamp as claimed in any one of claims 8 and 9.

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