CN112004281A - Lamp system convenient for remote control - Google Patents

Abstract

The present application relates to the field of lighting control, especially to a lamps and lanterns system convenient to remote control includes: the remote control module is used for generating a lamp control signal corresponding to the display effect of the lamp according to a preset instruction; the wireless communication module is used for information connection with the remote control module so as to realize information interaction between the remote control module and the lamp; the storage module is in information connection with the wireless communication module, acquires the lamp control signal and stores the current lamp control signal; and the lamp control module is used for reading the current lamp control signal in the storage module and controlling the current lamp display effect according to the lamp control signal. This application has the effect of remote control lamps and lanterns of being convenient for.

Description

Lamp system convenient for remote control

Technical Field

The present application relates to the field of lighting control, and more particularly, to a light fixture system that facilitates remote control.

Background

With the gradual development of city construction, LED lighting systems are commonly used in cities to achieve urban lighting and decorative effects.

With the wide application of the LED lighting system, the continuous promotion of intelligent technical means and the short-distance control mode can not meet the requirements in certain application occasions. For example, in light landscape systems on large trees in urban public spaces, LED lamps arranged in some large theme parks, and the like, the LED lamps are far from a control room, and thus a lamp system capable of being remotely controlled is urgently needed.

Disclosure of Invention

In order to facilitate remote control of the lamp, the present application provides a lamp system that facilitates remote control.

The application provides a lamps and lanterns system convenient to remote control adopts following technical scheme:

a light fixture system that facilitates remote control, comprising: the remote control module is used for generating a lamp control signal corresponding to the display effect of the lamp according to a preset instruction; the wireless communication module is used for information connection with the remote control module so as to realize information interaction between the remote control module and the lamp; the storage module is in information connection with the wireless communication module, acquires the lamp control signal and stores the current lamp control signal; and the lamp control module is used for reading the current lamp control signal in the storage module and controlling the current lamp display effect according to the lamp control signal.

Through adopting above-mentioned technical scheme, remote control module generates lamps and lanterns control signal according to the preset instruction of operating personnel input, and sends to wireless communication module, and lamps and lanterns control instruction is saved by storage module, then obtains the lamps and lanterns control instruction in the storage module by lamps and lanterns control module to solve remote control because of the signal is good leads to the discontinuous condition of lamps and lanterns control, be convenient for remote control lamps and lanterns to produce corresponding display effect.

Preferably, the system also comprises a state query module and an alarm module; the state query module is used for generating a communication connection signal and acquiring a real-time connection signal within a preset time interval after the communication connection signal is generated; judging whether a real-time connection signal is received within a preset time interval for generating a communication connection signal, and if not, generating signal interruption information; the warning module is used for receiving the signal interruption information and generating warning information; the remote control module is further configured to receive the communication connection signal and generate a real-time connection signal within a predetermined time interval after receiving the communication connection signal.

By adopting the technical scheme, the communication connection signal is sent, and the remote control module receives the communication connection signal and generates a real-time connection signal, so that the condition of signal connection is conveniently judged.

Preferably, the state query module comprises a light information query submodule and a light signal query submodule; the lighting information inquiry submodule is used for generating a communication connection signal and acquiring a real-time connection signal within a preset time interval after the communication connection signal is generated; judging whether a real-time connection signal is received within a preset time interval for generating a communication connection signal, and if not, generating signal interruption information; the lighting signal query submodule is used for acquiring the brightness information of the unique identification code currently carrying the corresponding lamp and generating a lighting brightness signal carrying the identification code; and the remote control module acquires the lamplight brightness signal and displays the identification code of which the lamplight brightness signal value is lower than the lamplight preset value on the upper layer.

By adopting the technical scheme, the brightness of the lamp is judged, and if the light brightness signal of the lamp is smaller than the light preset value, the abnormal condition of the lamp is indicated, so that the lamp is convenient for operators to check and overhaul in time.

Preferably, the system also comprises a light checking module; the lamp control signal carries lamp light brightness control information of lamps corresponding to different lamp identification codes; the light check module acquires the light brightness signal, acquires the lamp control signal, compares the light brightness signal with the same identification code and the light brightness of the lamp control signal, and generates a first feedback signal according to the comparison result.

By adopting the technical scheme, the lamplight brightness signal and the lamp control signal are compared, namely the lamplight brightness set by the preset instruction is compared with the actual lamplight brightness, if the lamplight brightness is not consistent with the actual lamplight brightness, the lamp is abnormal, or an error occurs in the signal transmission process, and the effect of checking the abnormality is achieved.

Preferably, the system also comprises a light signal checking module; the light signal calibration module is used for acquiring a lamp control signal of the remote control module and generating a first calibration signal according to the lamp control signal of the remote control module; acquiring a lamp control signal of the storage module, and generating a second check signal according to the lamp control signal of the storage module; comparing the lamplight brightness control information of the lamp corresponding to the identification code in the first check signal and the second check signal, and generating a second feedback signal reflecting the lamplight brightness condition according to the comparison result; and the remote control module acquires the second feedback signal and displays the light brightness condition carried by the second feedback signal on the upper layer.

By adopting the technical scheme, the remote control module generates the display effect of each lamp according to the preset instruction and the actual display effect of each lamp actually transmitted to the storage module, so that the accuracy of data transmission is pre-judged and prompted.

Preferably, the system also comprises a statistical judgment module and a standby light module; the statistical judgment module is used for acquiring the lamplight brightness signals, accumulating the number of lamps of which the lamplight brightness signals are lower than the preset lamplight value, judging the number of the lamps and the maximum lamp fault value, and generating emergency signals if the number of the lamps is larger than the maximum lamp fault value; and the standby light module is used for replacing the original lamp to realize the lighting effect, acquiring an emergency signal and controlling the standby lamp to be started.

By adopting the technical scheme, when the number of the lamp faults is larger than the maximum lamp fault value, the lamp cannot achieve a good lighting effect, and therefore the spare lamp is replaced to achieve a basic lighting effect.

Preferably, the solar energy power supply device further comprises a power supply module, wherein the power supply module comprises a municipal power supply sub-module, a solar power supply sub-module and a power supply detection sub-module; the municipal power supply module is used for connecting a municipal power supply line to supply power to the lamp; the power supply detection submodule is used for detecting whether the municipal power supply submodule is electrified or not, and if not, generating a first power supply signal and controlling the solar power supply submodule to start; and the solar power supply module receives the first power supply signal, receives solar energy to convert the solar energy into electric energy and supplies power to the lamp.

Through adopting above-mentioned technical scheme, the municipal power supply is comparatively stable to the display effect that makes lamps and lanterns is also comparatively stable, and when municipal power supply outage, solar energy power module starts, uses the solar energy power supply, makes lamps and lanterns keep normal illuminating effect.

Preferably, the power module further comprises a storage battery power supply sub-module and a light intensity detection sub-module; the light detection submodule acquires a second power supply signal and acquires light brightness according to the second power supply signal; the power supply detection submodule acquires the electric quantity of the solar power supply submodule, judges that the electric quantity of the solar power supply submodule is lower than an electric quantity preset value and generates a second power supply signal; obtaining light brightness, and if the light brightness is lower than the minimum light value, generating a starting signal for controlling the starting of the storage battery power supply module; and the storage battery power supply module acquires a starting signal and supplies power to the lamp.

Through adopting above-mentioned technical scheme, if at municipal power supply outage overlength time, and the condition when solar energy power supply electric quantity is not enough, adopt the battery power supply to make lamps and lanterns can realize lasting illumination.

In summary, the present application includes at least one of the following beneficial technical effects:

the remote control module generates a lamp control signal according to a preset instruction input by an operator and sends the lamp control signal to the wireless communication module, the lamp control instruction is stored by the storage module, and then the lamp control instruction in the storage module is acquired by the lamp control module, so that the problem that the lamp is discontinuously controlled due to poor signals in remote control is solved, and the lamp is conveniently controlled to generate a corresponding display effect;

the communication connection signal is sent, and the remote control module receives the communication connection signal and generates a real-time connection signal, so that the condition of signal connection is judged conveniently;

judging the brightness of the lamp, and if the light brightness signal of the lamp is smaller than the preset light value, indicating that the lamp is abnormal, so that an operator can check and overhaul the lamp in time;

and comparing the lamplight brightness signal with the lamp control signal, namely comparing the lamplight brightness set by the preset instruction with the actual lamplight brightness, and if the lamplight brightness does not accord with the actual lamplight brightness, indicating that the lamp is abnormal or an error occurs in the signal transmission process, so that the effect of checking the abnormality is achieved.

Drawings

FIG. 1 is a system component block diagram of a light fixture system that facilitates remote control in accordance with an embodiment of the present application;

FIG. 2 is a block diagram of the status query module according to an embodiment of the present application;

fig. 3 is a block diagram of the power module according to the embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a lamp system convenient to remote control. Referring to fig. 1, a light fixture system that facilitates remote control includes the following modules.

And the remote control module is used for generating a lamp control signal corresponding to the lamp display effect according to the preset instruction.

Specifically, the remote control module is remote control ware, and remote control ware locates in the control room, and the staff is in the control room, operates remote control ware and input and predetermine the instruction, predetermines the instruction and specifically can be for selecting the display effect of different lamps and lanterns through button or touch screen, and the controller receives different button or touch screen instruction and forms lamps and lanterns control signal.

And the wireless communication module is used for information connection with the remote control module so as to realize information interaction between the remote control module and the lamp.

Specifically, the wireless communication module can be an LORA communication wireless module or an NB-IoT module, and is disposed in the lamp, and the LORA communication wireless module is adopted in this embodiment, and is suitable for being used in an open place to receive wireless transmission data in real time.

And the storage module is in information connection with the wireless communication module, acquires the lamp control signal and stores the current lamp control signal.

Specifically, a lamp control module is arranged on the lamp, in this embodiment, the lamp control module is an MCU processor and is arranged in the lamp, the storage module may be an internal RAM or a FLASH ROM of the MCU processor, and in this embodiment, an internal ROM is used to cache a lamp control signal.

And the lamp control module is used for reading the current lamp control signal in the storage module and controlling the current lamp display effect according to the lamp control signal.

Specifically, the lamp and the MCU processor adopt a DMX512 protocol standard for information interaction, the MCU processor reads a lamp control signal in the internal ROM to control the display effect of the corresponding lamp, and the lamp control signal is firstly cached in the storage module and then displayed in real time, so that the continuity of the display effect is ensured, and the display quality is reduced because the display effect of the lamp is not influenced by distance.

The state query module is used for generating a communication connection signal and acquiring a real-time connection signal within a preset time interval after the communication connection signal is generated; and judging whether the real-time connection signal is received within the preset time interval of generating the communication connection signal, and if not, generating signal interruption information.

And the warning module is used for receiving the signal interruption information and generating warning information.

The remote control module is further configured to receive the communication connection signal and generate a real-time connection signal within a predetermined time interval after receiving the communication connection signal.

Specifically, in the present embodiment, the predetermined time interval is 15min, which may be determined according to actual conditions. The state query module sends a communication connection signal at an interval of 1h, the remote control module receives the communication connection signal and generates a real-time connection signal within 15min, and the real-time connection signal is sent to the state query module, so that whether the communication connection is normal or not is determined, if the real-time connection signal is not obtained within 15min after the state query module sends the communication connection signal, the communication connection is considered to be abnormal, the state query module generates signal interruption information, the warning module receives the signal interruption information and generates warning information, in the embodiment, an LED lamp can be connected to the lamp through a circuit, and the warning module controls the LED and the like to flicker to form the warning information after receiving the interruption information, so that a worker is reminded to overhaul.

Referring to fig. 1 and 2, further, the status query module further includes a lighting information query submodule and a lighting signal query submodule, where the lighting information query submodule is configured to generate a communication connection signal and obtain a real-time connection signal within a predetermined time interval after the communication connection signal is generated; and judging whether the real-time connection signal is received within the preset time interval of generating the communication connection signal, and if not, generating signal interruption information.

And the lamplight signal query submodule is used for acquiring the brightness information of the unique identification code currently carrying the corresponding lamp and generating a lamplight brightness signal carrying the identification code.

And the remote control module acquires the lamplight brightness signal and displays the identification code of which the lamplight brightness signal value is lower than the lamplight preset value on the upper layer.

Specifically, the brightness information may be brightness, darkness or gradient-decreasing brightness, in this embodiment, the brightness information is gradient-decreasing brightness, and the brightness information of the lamp may be represented by a magnitude of current passing through the lamp, in a case where a voltage is constant, the larger the current passing through the lamp is, the larger the power of the lamp is, the brighter the lamp is, in this embodiment, the preset value of light is a minimum current value required by the lamp to achieve an illumination effect, and if the current value corresponding to the light brightness signal is smaller than the preset value of light, it is determined that the illumination effect of the lamp is poor, and the lamp needs to be overhauled.

The lamp control signal carries lamp light brightness control information of the lamp corresponding to different lamp identification codes.

The light check module acquires the light brightness signal, acquires the lamp control signal, compares the light brightness signal with the same identification code and the light brightness of the lamp control signal, and generates a first feedback signal according to the comparison result.

Specifically, each lamps and lanterns have its own identification code in whole lamps and lanterns system, lamps and lanterns control signal is specifically for carrying the light luminance control information of the lamps and lanterns that correspond the identification code, through the light luminance control to different lamps and lanterns, thereby realize the regulation to lamps and lanterns display effect, the light luminance to light luminance signal and lamps and lanterns control signal is compared, in this embodiment, for the lamps and lanterns of the same identification code current size and the actual current size in presetting the instruction, when the current size is in reasonable error, judge that lamps and lanterns normally show promptly, if the deviation of actual current size and the current size in presetting the instruction is outside reasonable error range, light check module generates first feedback signal, in order to indicate that the lamps and lanterns that correspond the identification code break down, in time overhaul.

The light signal calibration module is used for acquiring a lamp control signal of the remote control module and generating a first calibration signal according to the lamp control signal of the remote control module; acquiring a lamp control signal of the storage module, and generating a second check signal according to the lamp control signal of the storage module; and comparing the lamplight brightness control information of the lamp corresponding to the identification code in the first check signal and the second check signal, and generating a second feedback signal reflecting the lamplight brightness condition according to the comparison result.

And the remote control module acquires the second feedback signal and displays the light brightness condition carried by the second feedback signal on the upper layer.

Specifically, the first check signal is corresponding lamplight brightness control information carried in the remote control module, the second check signal is corresponding lamplight brightness control information in the storage module, whether data transmission of the lamplight brightness control information is accurate or not is obtained by comparing the information of the first check signal and the information of the second check signal, if the error rate of the data transmission reaches a preset maximum error rate, a second feedback signal is generated, the remote control module receives the second feedback signal, and the lamplight brightness condition at the moment and an upper layer are displayed for an operator to check.

And the statistical judgment module is used for acquiring the lamplight brightness signals, accumulating the number of the lamps of which the lamplight brightness signals are lower than the lamplight preset value, judging the number of the lamps and the maximum lamp fault value, and generating emergency signals if the number of the lamps is larger than the maximum lamp fault value.

And the standby light module is used for replacing the original lamp to realize the lighting effect, acquiring an emergency signal and controlling the standby lamp to be started.

Specifically, the number of lamps with the accumulated lamplight brightness signals lower than the preset lamplight value is accumulated, the maximum lamp fault value is the preset value, the number of lamps is set according to the actual lamp condition, the number of lamps is larger than the maximum lamp fault value, the situation that the lamps cannot play a lighting effect at the moment is shown, and the standby lamplight module is started to ensure the realization of the lighting effect.

Furthermore, the solar photovoltaic power generation system also comprises a power module, wherein the power module comprises a municipal power supply sub-module, a power detection sub-module, a solar power supply sub-module, a light detection sub-module and a storage battery power supply sub-module.

And the municipal power supply module is used for connecting a municipal power supply line to supply power to the lamp.

And the power supply detection submodule is used for detecting whether the municipal power supply submodule has electricity or not, and if not, a first power supply signal is generated and the solar power supply submodule is controlled to be started.

And the solar power supply module receives the first power supply signal, receives solar energy to convert the solar energy into electric energy and supplies power to the lamp.

And the light detection submodule acquires a second power supply signal and acquires light brightness according to the second power supply signal.

The power supply detection submodule acquires the electric quantity of the solar power supply submodule, judges that the electric quantity of the solar power supply submodule is lower than an electric quantity preset value and generates a second power supply signal; and obtaining the light brightness, and if the light brightness is lower than the minimum light value, generating a starting signal for controlling the starting of the storage battery power supply module.

And the storage battery power supply module acquires a starting signal and supplies power to the lamp.

Specifically, first power supply signal control power detects the submodule and starts, solar energy power supply submodule is including solar cell, the battery, controller and dc-to-ac converter etc., in this embodiment, the electric quantity default is 20% of solar energy power supply submodule's electric quantity value, it is lower to explain solar energy power supply submodule's electric quantity storage, it is equipped with light sensor to keep away from the luminous position of lamps and lanterns in lamps and lanterns one side, acquire light luminance by light sensor, specifically, divide light luminance according to the grade, the minimum luminance that light minimum is solar energy power supply submodule electricity generation needs is minimum luminance, if outdoor luminance is less than light minimum this moment, then generate start signal, battery in the battery power supply submodule is detachable battery, through changing detachable battery, ensure that lamps and lanterns acquire the electric energy in order to realize the illumination.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A light fixture system that facilitates remote control, comprising:

the remote control module is used for generating a lamp control signal corresponding to the display effect of the lamp according to a preset instruction;

the wireless communication module is used for information connection with the remote control module so as to realize information interaction between the remote control module and the lamp;

the storage module is in information connection with the wireless communication module, acquires the lamp control signal and stores the current lamp control signal;

and the lamp control module is used for reading the current lamp control signal in the storage module and controlling the current lamp display effect according to the lamp control signal.

2. The light fixture system convenient for remote control of claim 1, further comprising a status query module and an alert module;

the state query module is used for generating a communication connection signal and acquiring a real-time connection signal within a preset time interval after the communication connection signal is generated; judging whether a real-time connection signal is received within a preset time interval for generating a communication connection signal, and if not, generating signal interruption information;

the warning module is used for receiving the signal interruption information and generating warning information;

the remote control module is further configured to receive the communication connection signal and generate a real-time connection signal within a predetermined time interval after receiving the communication connection signal.

3. The light fixture system convenient for remote control of claim 2, wherein the status query module comprises a light information query submodule and a light signal query submodule;

the lighting information inquiry submodule is used for generating a communication connection signal and acquiring a real-time connection signal within a preset time interval after the communication connection signal is generated; judging whether a real-time connection signal is received within a preset time interval for generating a communication connection signal, and if not, generating signal interruption information;

the lighting signal query submodule is used for acquiring the brightness information of the unique identification code currently carrying the corresponding lamp and generating a lighting brightness signal carrying the identification code;

and the remote control module acquires the lamplight brightness signal and displays the identification code of which the lamplight brightness signal value is lower than the lamplight preset value on the upper layer.

4. The light fixture system convenient for remote control of claim 1, further comprising a light verification module;

the lamp control signal carries lamp light brightness control information of lamps corresponding to different lamp identification codes;

the light check module acquires the light brightness signal, acquires the lamp control signal, compares the light brightness signal with the same identification code and the light brightness of the lamp control signal, and generates a first feedback signal according to the comparison result.

5. The light fixture system convenient for remote control of claim 1, further comprising a light signal verification module;

the light signal calibration module is used for acquiring a lamp control signal of the remote control module and generating a first calibration signal according to the lamp control signal of the remote control module; acquiring a lamp control signal of the storage module, and generating a second check signal according to the lamp control signal of the storage module; comparing the lamplight brightness control information of the lamp corresponding to the identification code in the first check signal and the second check signal, and generating a second feedback signal reflecting the lamplight brightness condition according to the comparison result;

and the remote control module acquires the second feedback signal and displays the light brightness condition carried by the second feedback signal on the upper layer.

6. The light fixture system convenient for remote control of claim 1, further comprising a statistical judgment module and a backup light module;

the statistical judgment module is used for acquiring the lamplight brightness signals, accumulating the number of lamps of which the lamplight brightness signals are lower than the preset lamplight value, judging the number of the lamps and the maximum lamp fault value, and generating emergency signals if the number of the lamps is larger than the maximum lamp fault value;

and the standby light module is used for replacing the original lamp to realize the lighting effect, acquiring an emergency signal and controlling the standby lamp to be started.

7. The light fixture system convenient for remote control of claim 1, further comprising a power module comprising a municipal power supply sub-module, a solar power supply sub-module, and a power detection sub-module;

the municipal power supply module is used for connecting a municipal power supply line to supply power to the lamp;

the power supply detection submodule is used for detecting whether the municipal power supply submodule is electrified or not, and if not, generating a first power supply signal and controlling the solar power supply submodule to start;

and the solar power supply module receives the first power supply signal, receives solar energy to convert the solar energy into electric energy and supplies power to the lamp.

8. The light fixture system convenient for remote control of claim 7, wherein the power module further comprises a battery power supply sub-module and a light intensity detection sub-module;

the light detection submodule acquires a second power supply signal and acquires light brightness according to the second power supply signal;

the power supply detection submodule acquires the electric quantity of the solar power supply submodule, judges that the electric quantity of the solar power supply submodule is lower than an electric quantity preset value and generates a second power supply signal; obtaining light brightness, and if the light brightness is lower than the minimum light value, generating a starting signal for controlling the starting of the storage battery power supply module;

and the storage battery power supply module acquires a starting signal and supplies power to the lamp.

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