TW201713166A - Lighting control system - Google Patents

Abstract

The present invention relates to a light control system comprising at least a lamp assembly. a background control module. a database a phase control module. a terminal APP using ambient a brightness control module. database for storing control lamps setting parameter group assembly operation. the phase control module to obtain information to set parameters set the lamp assembly according to changes in the environment received at the scene of the lamp assembly produce changes in different stages of luminosity at different times. terminal APP environmental illumination brightness setting value (LUX). the sensor receives the lamp assembly through intelligent mobile device issued. into a luminance value back to the background control module. brightness control module is compared to the total increase or decrease lighting a brightness illumination maintenance of the environment.

Description

Light source control system

The invention relates to a light source control system, and in particular to a light source control system for realizing light source phase change through a software body and using an intelligent mobile device sensor to achieve environmental light source control.

With the advancement of technology, the Internet of Things has become a trend. Users can use the intelligent mobile devices to control home appliances remotely through networked functions, making life more convenient and realizing the purpose of smart life.

This kind of technology, the first to use is the light, whether it is day or night, there is always a lot of light in life, so it is conceivable that the most mature IoT technology is the use of lighting, such as stage lighting, lighting intensity Or use time switch changes.

In order to achieve such an effect, the current architecture is roughly as follows. There will be multiple wires connected to a channel, and connected to a back-end architecture through a network connection, after which the user can control the home through the smart phone. Lighting.

However, although this approach has reached the basic requirements, but more advanced applications can not be achieved, in addition to this approach has the following problems:

1. Inconvenient installation, the light is connected to the accessor through the physical line, which will lead to confusion due to too many physical lines during installation.

2. The brightness of the light is not changed enough. This method only relies on the user to control the lighting and extinguishing, and it is impossible to sense the change by itself, which makes the use more complicated.

3. High cost. If you want to add other application functions, such as constant ambient illumination (LUX), you need to add additional accessories (such as light source sensors), which will add extra wiring, which makes the installation configuration more difficult.

As can be seen, the current light source control technology and overall architecture, there is still much room for improvement.

SUMMARY OF THE INVENTION The object of the present invention is to provide a light source control system that achieves ambient light source control by implementing a change in light source phase through a soft body and using a sensor of the smart mobile device.

To achieve the above object, the present invention provides a light source control system comprising:

At least one luminaire assembly;

a background control module connected to the lamp assembly;

a database is disposed in the background control module for storing a set parameter group for controlling the operation of the lamp assembly, wherein the set parameter group includes a time range set value, a brightness change set value, and a loop range set value. ;

a first-stage control module is disposed in the background control module and is connected to the database to obtain information of the set parameter group, according to the environmental change received by the lamp assembly at the site, and the time range setting value, Setting conditions such as the brightness change setting value and the circuit range setting value, the stage control module commands the lamp assembly to generate different luminosity changes at different times;

a use-side APP disposed in the smart mobile device to connect the smart mobile device with the background control module; and

An ambient brightness control module is disposed in the background control module, and the ambient illuminance value (LUX) is set by the use end APP, and the brightness emitted by the lamp assembly is received by the sensor of the smart mobile device, and converted into an illuminance value. After returning to the background control module, the ambient brightness control module compares to increase or decrease the brightness of the lamp assembly, so that the ambient illumination is maintained.

In an embodiment of the invention, the luminaire assembly comprises:

a main gatekeeper device;

At least once, a gatekeeper device is required, and the secondary gatekeeper device is in communication with the primary gatekeeper device;

At least one luminaire, the luminaire being coupled to the secondary sluice device; and

At least one sensor coupled to the secondary gate device for sensing a change in environmental conditions.

In an embodiment of the invention, the user end APP includes:

A set of control pages that provide the user with a quick turn on the completed lighting assembly;

a scheduling setting page, which provides a setting parameter set for the user to preset the lighting assembly;

An advanced setting page for providing a user to set a channel connection between the primary gatekeeper device and the secondary gatekeeper device and setting a software meter; and

A parameter setting page is provided for the user to perform related parameter setting on the group control page, the schedule setting page and the advanced setting page.

In an embodiment of the invention, the group control page has at least one group control button according to different usage requirements, and the group control button system includes at least one group of lamp assembly controls, when the group control When the button is activated, its corresponding fixture assembly will illuminate.

In an embodiment of the invention, the soft meter is used by the user to set the power and usage time of the lamp assembly, and the software meter will calculate the power consumption used by the lamp assembly.

In an embodiment of the invention, the user APP uses the light source sensor of the smart mobile device to detect the brightness emitted by the light fixture assembly, and is connected to the background control module through the network communication function of the smart mobile device. The ambient brightness is periodically checked and the luminaire assembly is adjusted to maintain ambient illumination.

In an embodiment of the invention, the lamp assembly and the background control module are connected by way of wireless communication.

In an embodiment of the invention, the database is partitioned according to different users, and different sets of setting parameters are stored under different user profiles.

With the above structure, the light source phase can be changed in actual use and the sensor of the intelligent mobile device can be used to achieve the environmental light source control, and these are all implemented by software, and do not need to over-install other auxiliary equipment, and save Going to a large number of physical line costs makes the overall operation smoother.

The above and other objects, features and advantages of the present invention will become more <RTIgt;

1‧‧‧Lighting assembly

11‧‧‧Main gatekeepers

12‧‧‧Secondary gatekeeper

13‧‧‧Lighting

14‧‧‧Sensor

2‧‧‧Background control module

21‧‧‧Database

22‧‧‧ Stage Control Module

23‧‧‧Environmental brightness control module

3‧‧‧Used APP

31‧‧‧Group Control Page

32‧‧‧ Schedule Settings Page

33‧‧‧Advanced Settings Page

34‧‧‧ parameter setting page

4‧‧‧Smart mobile device

41‧‧‧Light source sensor

1 is a schematic structural diagram of a preferred embodiment of the present invention;

2 is a schematic structural view of a lamp assembly according to a preferred embodiment of the present invention;

3 is a schematic structural diagram of a station control module according to a preferred embodiment of the present invention;

4 is a schematic diagram of page layout of a terminal APP according to a preferred embodiment of the present invention;

FIG. 5 is a schematic diagram of phase control of a lamp assembly according to a preferred embodiment of the present invention; FIG.

FIG. 6 is a schematic diagram of interaction between a luminaire assembly and an intelligent mobile device according to a preferred embodiment of the present invention.

In the following embodiments, the same or similar component symbols represent the same or similar components. In addition, the directional terms mentioned in the following embodiments, for example, up, down, left, right, front or back, etc., refer only to the direction of the additional drawing, and therefore, the directional term used is used for explanation, and It is not intended to limit the invention.

1 is a schematic structural diagram of a preferred embodiment of the present invention. The overall architecture of the present invention can be clearly seen in the figure. The architecture of the present invention can be viewed mainly by two layers of hardware and software. It is said that from the closest side of the use side, that is, the luminaire assembly 1 is connected to the background control module 2 through the network communication; and in the software, the user APP is the closest to the use side. 3, it must be installed in the smart mobile device 4 to be used together, and also connected to the background control module 2 through the network communication, and in the background control module 2, the database 21, the stage control module 22 and The ambient brightness control module 23 is present in the hardware in a software manner, and the main communication method of the present invention is to use a network communication method, and if necessary, a physical line can be used for communication, but this is not the main one. The purpose, in the following description, is described by wireless communication.

2 is a schematic structural view of a lamp assembly according to a preferred embodiment of the present invention. The lamp assembly 1 includes four main gate brake devices 11, a secondary gate device 12, a lamp 13 and a sensor 14 The main gatekeeper device 11 is a main window that is connected to the background control module as a lamp assembly 1 and can be regarded as a group, and a plurality of secondary gate devices 12 can be connected under the bottom, and the number is Depending on the maximum number of support for the main gatekeeper device 11, the same is for convenience. The main gatekeeper device 11 and the secondary gatekeeper device 12 are mainly connected through the network, and a secondary gatekeeper device 12 is visible. In the case of connecting one or more lamps 13 and sensors 14, the type and style of the lamps 13 may be different according to different usage requirements, and the type of the sensors 14 is also selected according to actual needs, such as Infrared sensors or light sensors, etc.; and such a structure has a different advantage from the past, when installed, the lamp 13 only needs to be considered connected to the secondary gate device 12, and does not need to worry about the main layer with the rear layer. Gatekeeper device 11, and such The method can realize a quick blind installation. For example, the installer of the installation only needs to pay attention to the actual position of the lamp 13, such as not connecting the circuit of the same secondary gate device 12, crossing two Inappropriate areas (such as two rooms, separated by a wall), other parts do not need to be considered more, the subsequent control can be planned through the software (by the use end), greatly reduced The physical lines hidden in the decoration also indirectly reduce the problem of line connection errors.

3 is a schematic structural diagram of a station control module according to a preferred embodiment of the present invention. The background control module 2 includes three parts, a database 21, a phase control module 22, and an ambient brightness control module 23, and a database. 21 is used to store some of the data set by the end APP, such as the user data of each user terminal and the set parameter set established by itself, and the phase control module 22 is set according to the relevant parameters in the set parameter group. The parameters of the corresponding lighting fixture assembly will be operated to make the lighting assembly in the communication produce different luminosity changes at different times, and the specific description will be described in detail below, and the ambient brightness control mode is also described. Group 23 is based on the ambient illuminance value in the application APP to continuously calculate the information returned by the smart mobile device, and continuously return the information to the luminaire assembly to maintain the illuminance in the environment, and the specific description will be It is described in detail below.

4 is a schematic diagram of page layout of a user APP according to a preferred embodiment of the present invention. The user APP 3 includes four pages, a group control page 31, a schedule setting page 32, an advanced setting page 33, and a parameter setting page. 34.

The group control page 31 is a main page, and there are a plurality of group control buttons in the page, and the group control buttons all correspond to at least one group of lamp assemblies, and when the group control button is activated, in this All the lamp assemblies under the group control button will be illuminated. For example, there are three group control buttons in the group control page 31, which are respectively defined as "living room", "bedroom", "kitchen", They are the luminaire assembly (defined as luminaire assembly A) corresponding to the living room position, the luminaire assembly (defined as luminaire assembly B) in the bedroom position, the luminaire assembly in the kitchen position (defined as the luminaire assembly C), and when When the group control button of the living room is pressed for the first time, the group control button of the "living room" will display the light, indicating that it is being activated, and the corresponding lamp assembly will also emit light. When pressed again, the group is pressed. Do not control the button will be turned from light to dark, the corresponding lamp assembly will also be extinguished, the operation is like a general switch, do not need to adapt to learning, the same "bedroom", "kitchen" is also the case, and in this page In addition, you can also add group control buttons for different themes. For example, "Full Bright" means that the lamp assembly A, the lamp assembly B and the lamp assembly C are simultaneously illuminated, or "dining" is the lamp assembly A, The luminaire assembly C emits light at the same time. It can be seen that when the number of luminaire assemblies is larger, the system is also larger, so that the control method can effectively assist the use management.

The scheduling setting page 32 is a secondary page, and the main service provided here is a setting parameter group of the preset lighting assembly, and the setting parameter group includes a time range setting value, a brightness change setting value and a loop range. The set value and the time range setting value specify the brightness and darkness time of the lamp in the lamp assembly; the brightness change setting value specifies the brightness and darkness of the lamp. In the current mainstream LED lamp, the brightness can be controlled by the control method. The change of the loop range is the same as the above, and which luminaire assembly can be selected to illuminate, and such a design method can realize the change of the light source stage, which is one of the main demands of the present invention, and the application can achieve intelligent power saving. There are other anti-theft deterrent effects, the specific application will be described in detail below.

The advanced setting page 33 is the third page, which mainly provides some complicated settings, such as network path setting and other sensor settings, and provides the user to set between the main gate device and the secondary gate device. Channel connection, and provides the setting of the software meter. For the software meter, it is a way to calculate the power consumption. It needs to set the power of the loop or target to be calculated, and then input the usage time, so that the formula can be used by itself. Calculate the power consumption, provide the user as a relevant application, such as saving electricity or calculating the benefits of turning on the lights. The software meter mentioned here is different from the current mechanical meter or network meter, which are all necessary to continue on the scene. The installation of a physical object, while the back end is calculated by means of a currency meter or network transmission, the cost of construction will be relatively high, and the purpose of the soft meter of the present invention is also to calculate the power consumption. However, it can save the cost of construction, but also saves maintenance and construction problems, and improves the problems of the past practice. Further, the use time can be By the time the background provided by the control module, closer to real time use, so it can provide a better computing results.

The parameter setting page 34 is the last page, which mainly provides some related parameter settings for the first three pages, in addition to some detailed settings, such as the data return time detected by the sensor, the frequency of the return, and the sensing. The settings for distance and so on are all set on this page.

FIG. 5 is a schematic diagram showing the stage control of the luminaire assembly according to a preferred embodiment of the present invention. In the foregoing, the luminaire assembly is changed at different luminosity stages at different times, and the slash portion is shown in the figure. The power under the slanting line is the power actually used, and the horizontal axis in the figure represents time, and the vertical axis represents the power consumption of the luminaire (which can also be regarded as brightness or power consumption). Power, here is a practical example to illustrate, first set the time range setting to 18:00 ~ 06:00, the brightness change set value is set to drop by 30% each time, such as each time up 60%, the loop The range setting is set to the office to elevator section and is used in an office building. When the time is 18:00, most of the staff will leave the office building and 18:00~19 There are still a lot of people moving between :00, and the person who bought the dinner returns to the office again, and the trigger is frequently triggered to the sensor, so the highlights in the first hour are still 100%; and 19:00 ~20:00, no one passed, so the sensor is not touched The brightness of the luminaire has dropped by 30% (maintained at 70%); and no one passed at 20:00~21:00, so the sensor is not triggered, and the brightness of the luminaire is reduced by 30% (maintained at 40) %); The same 21:00~22:00 no one passed, so the sensor is not triggered, the brightness of the lamp is reduced by 30% (maintained at 10%); and 22:00~23:00 overtime The person got off work, so the sensor was triggered again, and the brightness of the light fixture increased by 60% (maintained at 70%); and 23:00~24:00 someone returned to the office because they forgot something, so again Trigger to the sensor, the brightness of the luminaire has increased by 30% (maintained at 100%); after that time, no one passes, so that the lamp will be completely turned off after the fourth hour, this control method can It does not require extra manpower to achieve the function of automatic power saving. On the other hand, under such a structure, there is also the effect of anti-theft. The place of use is changed to warehouse, the time remains unchanged, and the detection period is changed to 5 Once in minutes, the brightness change is changed to 100%. In this case, if the warehouse security personnel are on patrol, the time is It won't be too long, such as 5~10 minutes, it only takes two cycles, and the fully bright warehouse environment is also convenient for patrol. After returning to the post, the warehouse will remain completely dark and save power. When an unknown person enters the warehouse and triggers to the sensor (camera), the lights in the warehouse will all light up. Such a momentary change will cause a deterrent effect, notice the changes in the warehouse, and achieve the purpose of theft prevention. In addition, if the administrator sets the system to the anti-theft mode, when the sensor is triggered, even if no one is at the scene, the background will actively notify the manager's smart mobile device 4, which design can save the manpower and save the management. .

6 is a schematic diagram of interaction between a luminaire assembly and an intelligent mobile device according to a preferred embodiment of the present invention, and the effect of maintaining ambient illuminance through the ambient brightness control module 23 and using the smart mobile device 4 is mentioned above. Specifically, the smart mobile device 4 is installed with the user APP 3 to use the light source sensor 41 of the smart mobile device 4 itself, and the light source sensor 41 will detect the illuminance (LUX) in the current environment, and the light sources are mainly It is provided by the luminaire 13 (including a small amount of external sources, such as daylight or other illuminating sources, televisions, etc.), for the user, it feels the overall brightness, but the main source is still the luminaire 13, so through the use After setting the illuminance, the APP 3 reaches the background control module 2 by means of network transmission, and the ambient brightness control module 23 adjusts the brightness of the current luminaire 13 if the brightness returned is insufficient. The brightness control module 23 will order to reinforce the brightness of the lamp 13 again, and vice versa. The continuous illumination can achieve a stable illumination, and the illumination is just right. In order to use the value input on the terminal APP 3, the present invention also uses the device at hand (smart mobile device 4) as a part of the system by software, eliminating the need for additional cost of the light source sensor and the line. cost.

Although the technology of the present invention focuses on light source control, it can be used as a basis for other electrical equipment, such as the sensor is changed to a temperature and humidity sensor, and the output electrical appliance is changed to a cold air heater, etc. These applications are achievable.

Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention, and those skilled in the art can make some modifications and refinements without departing from the spirit and scope of the present invention. The scope of protection is subject to the definition of the scope of the attached patent application.

1‧‧‧Lighting assembly

2‧‧‧Background control module

21‧‧‧Database

22‧‧‧ Stage Control Module

23‧‧‧Environmental brightness control module

3‧‧‧Used APP

Claims (8)

A light source control system comprising:
At least one luminaire assembly;
a background control module connected to the lamp assembly;
a database is disposed in the background control module for storing a set parameter group for controlling the operation of the lamp assembly, wherein the set parameter group includes a time range set value, a brightness change set value, and a loop range set value. ;
a first-stage control module is disposed in the background control module and is connected to the database to obtain information of the set parameter group, according to the environmental change received by the lamp assembly at the site, and the time range setting value, Setting conditions such as the brightness change setting value and the circuit range setting value, the stage control module commands the lamp assembly to generate different luminosity changes at different times;
a user APP is disposed in the smart mobile device to connect the smart mobile device to the background control module; and an ambient brightness control module is disposed in the background control module, and the ambient illumination is set by the use end APP The value (LUX) receives the brightness emitted by the lamp assembly through the sensor of the smart mobile device, converts it into an illuminance value, and transmits it to the background control module, and compares the brightness control module to increase or decrease the lamp. The brightness of the assembly maintains the ambient illumination. The light source control system of claim 1, wherein the lamp assembly comprises:
a main gatekeeper device;
At least once, a gatekeeper device is required, and the secondary gatekeeper device is in communication with the primary gatekeeper device;
At least one luminaire coupled to the secondary sluice device; and at least one sensor coupled to the secondary sluice device for sensing a change in environmental conditions. The light source control system of claim 2, wherein the user end APP comprises:
A set of control pages that provide the user with a quick turn on the completed lighting assembly;
a scheduling setting page, which provides a setting parameter set for the user to preset the lighting assembly;
An advanced setting page, providing a user to set a channel connection between the primary gatekeeper device and the secondary gatekeeper device and setting a software power meter; and a parameter setting page for providing a user control page for the group, the row The process setting page and the advanced setting page perform related parameter setting. The light source control system of claim 3, wherein the group control page has at least one group control button according to different usage requirements, and the group control button system comprises at least one group of lamp assemblies. The control, when the group control button is activated, its corresponding lamp assembly will be illuminated. The light source control system of claim 3, wherein the soft meter is used by a user to set the power and usage time of the lamp assembly, and the software meter calculates the power used by the lamp assembly. degree. The light source control system of claim 1, wherein the user APP uses a light source sensor of the smart mobile device to detect the brightness emitted by the light fixture assembly, and the network communication function of the smart mobile device is used. The background control module is connected, and the ambient brightness is periodically checked, and the lighting assembly is adjusted in a comparative manner to maintain ambient illumination. The light source control system of claim 1, wherein the lamp assembly and the background control module are connected by way of wireless communication. As described in the first paragraph of the patent application, wherein the database is divided according to different users, and different setting parameter groups are stored under different user data.