CN214851936U - Lamp control gateway and lamp control system - Google Patents

Abstract

The utility model discloses a lamp accuse gateway and lamp accuse system, local wireless communication module in the lamp accuse gateway sends the switching value control instruction or the analog quantity control instruction that generate to the lamps and lanterns controller, sends switching value control instruction or analog quantity control instruction to the lamps and lanterns controller through local wireless communication module in the lamp accuse gateway and makes its control lamps and lanterns carry out corresponding operation. Through the scheme, the lamp control gateway converts the external signals collected by the sensors to obtain the corresponding control instructions, sends the control instructions to the lamp controller through the local wireless communication module, controls the lamp to be switched on and off, adjusts the brightness and other operations through the lamp controller, achieves intelligent control of the lamp, and reduces the workload and the cost. In addition, the LTE4G module in the lamp control gateway uploads the collected data such as the on-off state and the lamplight brightness to the cloud server, so that the functions of remote reporting and real-time monitoring are realized.

Description

Lamp control gateway and lamp control system

Technical Field

The utility model relates to a thing networking intelligent gateway wireless control technical field, more specifically say, relate to a lamp accuse gateway and lamp accuse system.

Background

The traditional industrial lighting generally has two types, namely a lamp controller for manually controlling the on/off of a lamp; and the other is a lamp controller for controlling the on/off of the lamp at fixed time.

The traditional industrial lighting does not have the functions of intelligent turn-off, remote reporting, real-time monitoring and the like, and if the functions are to be realized, a longer control signal line needs to be pulled up to a gateway or a dry contact transfer module is used for operation when a sensor is installed, so that the inconvenience of field installation and construction is caused, and the workload and the cost are increased.

Therefore, the workload and the cost are increased if the conventional industrial lighting control mode needs to realize the functions of intelligent turn-off, remote reporting, real-time monitoring and the like.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses a lamp accuse gateway and lamp accuse system realizes the purpose to intelligent control, remote reporting and real time monitoring's of lamps and lanterns, reduction work load and cost.

In order to achieve the above object, the utility model discloses a technical scheme as follows:

the utility model discloses a first aspect discloses a lamp control gateway, which comprises a micro control MCU module, a power supply module, an LTE4G module, a local wireless communication module, a Digital signal Digital module and an Analog signal Analog module;

the MCU module, the power supply module, the LTE4G module, the local wireless communication module, the Digital module and the Analog module are arranged on a carrier;

the MCU module is respectively connected with the power supply module, the LTE4G module, the local wireless communication module, the Digital module and the Analog module, receives a Digital signal obtained by converting a switching signal by the Digital module, generates a switching value control instruction based on the Digital signal, receives an Analog voltage signal obtained by converting an Analog signal by the Analog module, and generates an Analog value control instruction based on the Analog voltage signal;

the local wireless communication module is in communication connection with a lamp controller, and sends the switching quantity control command sent by the MCU module to the lamp controller to enable the lamp controller to control the on or off of a lamp, and sends the analog quantity control command sent by the MCU module to the lamp controller to enable the lamp controller to control the on or off of the lamp or adjust the brightness;

the LTE4G module is in data link with a cloud server;

the power supply module is connected with each module and used for supplying power to each module.

Preferably, the local wireless communication module includes:

long distance wireless communication loRa module.

Preferably, the local wireless communication module is detachably mounted on the carrier.

Preferably, the Digital module is detachably mounted on the carrier.

Preferably, the Analog module is detachably mounted on the carrier.

A second aspect of the present invention discloses a lamp control system, which includes a lamp, the lamp control gateway of any one of the first aspect, a lamp controller, and a cloud server;

the lamp control gateway is in data link with the cloud server and is connected with the lamp through the lamp controller, the lamp control gateway issues a switching value control instruction to the lamp controller to enable the lamp controller to control the on or off of the lamp, and the lamp control gateway issues an analog value control instruction to control the lamp controller to enable the lamp controller to control the on or off of the lamp or adjust the brightness.

According to the technical scheme, the local wireless communication module in the lamp control gateway sends the generated switching value control instruction or analog value control instruction to the lamp controller, and the switching value control instruction or analog value control instruction is sent to the lamp controller through the local wireless communication module in the lamp control gateway to control the lamp to execute corresponding operation. Through the scheme, the lamp control gateway converts the external signals collected by the sensors to obtain the corresponding control instructions, sends the control instructions to the lamp controller through the local wireless communication module, controls the lamp to be switched on and off, adjusts the brightness and other operations through the lamp controller, achieves intelligent control of the lamp, and reduces the workload and the cost. In addition, the collected data such as the on-off state, the lamplight brightness and the like are uploaded to the cloud server through an LTE4G module in the lamp control gateway, and the functions of remote reporting and real-time monitoring are achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a lamp control gateway disclosed in the present invention;

fig. 2 is a schematic structural diagram of another lamp control gateway disclosed in the present invention;

fig. 3 is a schematic structural diagram of a lamp control system according to 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 only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In this application, 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. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

As known from the background art, the conventional industrial lighting control method will increase the workload and cost if it is required to implement the functions of intelligent turn-off, remote reporting, real-time monitoring, etc.

In order to solve the problem, the embodiment of the utility model discloses lamp accuse gateway and lamp accuse system realizes the purpose to the intelligent control of lamps and lanterns. In addition, the LTE4G module in the lamp control gateway uploads the collected data such as the on-off state, the lamplight brightness and the like to the cloud server, so that remote reporting and real-time monitoring are realized, and the workload and the cost are reduced. The specific implementation is specifically illustrated by the following examples.

As shown in fig. 1, for the embodiment of the utility model discloses a structural schematic diagram of lamp accuse gateway, this lamp accuse gateway 1 is used for connecting lamps and lanterns controller 2 and high in the clouds server 3 to be connected with lamps and lanterns 4 through lamps and lanterns controller 2.

The light control gateway 1 includes a Micro Control Unit (MCU) module 11, a power supply module 12, a Long Term Evolution (LTE) 4G module 13, a local wireless communication module 14, a Digital signal (Digital) module 15, and an Analog signal (Analog) module 16.

The connection mode and the data/signal transmission process of the MCU module 11, the power supply module 12, the communication LTE4G module 13, the local wireless communication module 14, the Digital module 15, and the Analog module 16 are described in detail as follows:

the MCU module 11, the power supply module 12, the LTE4G module 13, the local wireless communication module 14, the Digital module 15 and the Analog16 module are installed on a carrier.

The MCU module 11 is connected to the power supply module 12, the LTE4G module 13, the local wireless communication module 14, the Digital module 15, and the Analog module 16, the MCU module 11 receives the Digital signal obtained by converting the switching signal by the Digital module 15, and generates a switching value control command based on the Digital signal, and the MCU module 11 receives the Analog voltage signal obtained by converting the Analog signal by the Analog module 16, and generates an Analog value control command based on the Analog voltage signal.

Model of MCU module 11 the utility model discloses do not specifically prescribe a limit, the utility model discloses the model of preferred MCU module 11 is STM32F030C 86T.

The LTE4G module 13 is connected with the cloud server 3 in a wireless communication manner, and remote data interaction and monitoring are realized based on the LTE4G module 13 and the cloud server 3.

Model of LTE4G module 13 the utility model discloses do not specifically restrict, the utility model discloses the model of preferred LTE4G module is EC200 SCNLB.

The local wireless communication module 14 is detachably mounted on the carrier, and the local wireless communication module 14 is used for realizing data link with the lamp controller 2.

Local wireless communication module 14 can be remote radio communication (LongRangeRadio, loRa) module, zigBee module etc, the utility model discloses preferred loRa module.

Digital module 15 installs on the carrier through detachable mode, and Digital module 15 can link to each other with microwave inductive sensor, infrared inductive sensor etc. and Digital module 15 is used for Digital quantity signal detection, provides Digital quantity signal detection interface for lamp accuse gateway.

The Analog module 16 is installed on the carrier through the detachable mode, and the Analog module 16 can link to each other with light intensity sensor, and the Analog module 16 is used for Analog signal detection, provides Analog signal detection interface for the lamp accuse gateway.

Human body induction information is collected through the Digital module 15, and information such as illumination intensity is collected through the Analog module 16, so that reliable data support is provided for intelligent control of the lamp control gateway and big data analysis of the cloud server 3.

In a specific application, the MCU module 11 can receive the Digital signal of the Digital module 15 and the Analog signal of the Analog module 16 simultaneously, or receive the Digital signal of the Digital module 15 and the Analog signal of the Analog module 16 separately. The MCU module 11 generates corresponding control commands according to the digital signals and the analog signals, and sends the control commands to the local wireless communication module 14.

The local wireless communication module 14 is in communication connection with the lamp controller 2, the local wireless communication module 14 sends a switching value control instruction issued by the MCU module 11 to the lamp controller 2, so that the lamp controller 2 controls the on/off of the lamp 4, and sends an analog value control instruction issued by the MCU module 11 to the lamp controller 2, so that the lamp controller 2 controls the on/off of the lamp 4, or adjusts the brightness.

The power supply module 12 is connected to each module for supplying power to each module, and the power supply module 12 is configured to step down an ac high voltage of a mains supply to a dc low voltage power supply that can be used by the control logic module, and perform safety protection such as electromagnetic compatibility (EMC).

For convenience of understanding, the local wireless communication module 14 is detachably mounted on the carrier, and the following description is given by way of example:

if present local wireless communication module 14 is the loRa module, when needs change local wireless communication module 14 for the zigBee module, dismantle the loRa module from the carrier, install the zigBee module on the carrier.

The disassembly mode of the Digital module 15 and the Analog module 16 on the carrier is the same as that of the local wireless communication module 14, and reference is made to this, and details are not repeated here.

To facilitate understanding of the implementation process of the light control gateway in this embodiment, an example is described with reference to fig. 2:

for example, when the local wireless communication module 14 is the LoRa module 24, the light control gateway 1 includes the MCU module 11, the power supply module 12, the LTE4G module 13, the LoRa module 24, the Digital module 15, and the Analog module 16. The lamp control gateway 1 is used for connecting a lamp controller 2 and a cloud server 3, and is connected with a lamp 4 through the lamp controller 2.

The MCU module 11 receives a Digital signal obtained by converting the switching signal by the Digital module 15, and generates a switching amount control command based on the Digital signal, and the MCU module 11 receives an Analog voltage signal obtained by converting the Analog signal by the Analog module 16, and generates an Analog amount control command based on the Analog voltage signal.

The LTE4G module 13 performs data link with the cloud server 3 in a wireless communication manner.

The loRa module 24 is connected with the lamp controller 2 in a communication mode, the loRa module 24 sends a switching value control instruction issued by the MCU module 11 to the lamp controller 2, so that the lamp controller 2 controls the on or off of the lamp 4, and sends an analog value control instruction issued by the MCU module 11 to the lamp controller 2, so that the lamp controller 2 controls the on or off of the lamp 4 or adjusts the brightness.

In fig. 2, N is a zero line end and L is a fire line end.

The power supply module 12 supplies power to each module of the lamp control gateway 1.

This scheme is through loRa module wireless communication, and spread spectrum loRa modulation technique is through wireless receiving and dispatching data, has high performance (high sensitivity), high anti-interference, the advantage of high reliability, ensures wireless transmission's reliability, redundancy.

The problem that the industrial environment wiring construction technology degree of difficulty is big, with high costs can be solved to the loRa wireless communication of loRa module. Control instruction is sent to the lamps and lanterns controller through the loRa module and is made its control lamps and lanterns carry out corresponding operation, realizes the purpose to the intelligent control of lamps and lanterns for installation and construction convenience, maintenance are simple and easy, intelligent management, construction cost are low.

The utility model discloses in, the external signal that lamp accuse gateway gathered each sensor converts and obtains corresponding control command to send control command to the lamps and lanterns controller through local wireless communication module, by the switch of lamps and lanterns controller control lamps and lanterns, adjust operations such as luminance, realize the intelligent control of lamps and lanterns, reduce work load and cost. In addition, the collected data such as the on-off state, the lamplight brightness and the like are uploaded to the cloud server through an LTE4G module in the lamp control gateway, and the functions of remote reporting and real-time monitoring are achieved. Based on the foregoing the embodiment of the utility model provides a lamp accuse gateway is disclosed, the embodiment of the utility model provides a lamp accuse system is still disclosed in correspondence.

As shown in fig. 3, for the utility model discloses a structural schematic diagram of lamp control system, this lamp control system include lamps and lanterns 31, lamp control gateway 32, lamps and lanterns controller 33 and high in the clouds server 34, and lamp control gateway 32 adopts IP67 industry waterproof, dustproof grade.

The connection mode and the data/signal transmission process between the light fixture 31, the light control gateway 32, the light fixture controller 33 and the cloud server 34 are described in detail as follows:

the lamp control gateway 32 and the cloud server 34 perform data link in a wireless communication manner, and are connected with the lamp 31 through the lamp controller 33, the lamp control gateway 32 issues a switching value control instruction to the lamp controller 33, so that the lamp controller 33 controls the on or off of the lamp 31, and the lamp control gateway 32 issues an analog value control instruction to the lamp controller 33, so that the lamp controller 33 controls the on or off of the lamp 31, or adjusts the brightness.

This light control gateway 32 can be specifically the light control gateway 1 disclosed in the embodiment of the present invention in fig. 1 and fig. 2.

The embodiment of the utility model provides an in, the external signal that lamp accuse gateway gathered each sensor converts and obtains corresponding control command to send control command to lamps and lanterns controller through local wireless communication module, by the switch of lamps and lanterns controller control lamps and lanterns, adjust operations such as luminance, realize the intelligent control of lamps and lanterns, reduce work load and cost. In addition, the collected data such as the on-off state, the lamplight brightness and the like are uploaded to the cloud server through an LTE4G module in the lamp control gateway, and the functions of remote reporting and real-time monitoring are achieved.

In the above description of the disclosed embodiments, features described in various embodiments in this specification can be substituted for or combined with each other to enable those skilled in the art to make or use the present application. The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the invention. The invention is not limited to the embodiments described herein, but is capable of other embodiments according to the invention, and may be used in various other applications, including, but not limited to, industrial, or industrial. Therefore, any simple modification, equivalent change and modification made to the above embodiments by the technical entity of the present invention all still fall within the protection scope of the technical solution of the present invention, where the technical entity does not depart from the content of the technical solution of the present invention.

Claims (6)

1. A lamp control gateway is characterized by comprising a micro control MCU module, a power supply module, an LTE4G module, a local wireless communication module, a Digital signal Digital module and an Analog signal Analog module;

the MCU module, the power supply module, the LTE4G module, the local wireless communication module, the Digital module and the Analog module are arranged on a carrier;

the MCU module is respectively connected with the power supply module, the LTE4G module, the local wireless communication module, the Digital module and the Analog module, receives a Digital signal obtained by converting a switching signal by the Digital module, generates a switching value control instruction based on the Digital signal, receives an Analog voltage signal obtained by converting an Analog signal by the Analog module, and generates an Analog value control instruction based on the Analog voltage signal;

the local wireless communication module is in communication connection with a lamp controller, and sends the switching quantity control command sent by the MCU module to the lamp controller to enable the lamp controller to control the on or off of a lamp, and sends the analog quantity control command sent by the MCU module to the lamp controller to enable the lamp controller to control the on or off of the lamp or adjust the brightness;

the LTE4G module is in data link with a cloud server;

the power supply module is connected with each module and used for supplying power to each module.

2. The light control gateway of claim 1, wherein the local wireless communication module comprises:

long distance wireless communication loRa module.

3. The light control gateway of claim 1 or 2, wherein the local wireless communication module is removably mounted to the carrier.

4. The light control gateway of claim 1, wherein the Digital module is removably mounted to the carrier.

5. The light control gateway of claim 1, wherein the Analog module is removably mounted to the carrier.

6. A lamp control system, comprising a lamp, the lamp control gateway of any one of claims 1 to 5, a lamp controller and a cloud server;

the lamp control gateway is in data link with the cloud server and is connected with the lamp through the lamp controller, the lamp control gateway issues a switching value control instruction to the lamp controller to enable the lamp controller to control the on or off of the lamp, and the lamp control gateway issues an analog value control instruction to control the lamp controller to enable the lamp controller to control the on or off of the lamp or adjust the brightness.

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