CN116437548B - Light fault processing method and device, electronic equipment and readable storage medium - Google Patents

Abstract

The invention relates to the technical field of light control, in particular to a light fault processing method, a device, electronic equipment and a readable storage medium, which comprise the following steps that S1, an image processing module respectively draws a brightness-time curve f (x) and an amplitude-time curve A (x); step S2, judging whether the running state of the lamplight in the area to be detected accords with a preset standard or not by a judging module according to the matching proportion; step S3, according to the quantity of the luminous devices in the preset area obtained by the visual detector, judging to adjust the amplification factor of the current amplifier, starting a corresponding switch to use the corresponding luminous device to be replaced or send out corresponding alarm information; and S4, judging whether corresponding alarm information is sent or corresponding switches are started according to the fact that whether the detected switch matched with the non-luminous light emitter exists in the readable storage medium or not by the judging module, so that the processing efficiency of light faults is improved.

Description

Light fault processing method and device, electronic equipment and readable storage medium

Technical Field

The present invention relates to the field of light control technologies, and in particular, to a light fault processing method, a device, an electronic apparatus, and a readable storage medium.

Background

In conventional stage arrangements, a large number of lighting devices are typically deployed on the stage in order to present a better performance.

In the stage of stage preparation, technicians can perform operations such as brightness change control, color conversion control, lamp beam moving track control and the like on the lighting equipment so as to realize special lighting effects and increase visual presentation content of the stage. However, in the actual performance process, when the lighting equipment is inevitably failed, the lighting display effect of the actual stage cannot be expected.

Chinese patent publication No.: CN115278999a discloses a light fault handling method, device, electronic equipment and readable storage medium, comprising: acquiring working state information of lighting equipment associated with a target stage; if the working state information indicates that the target fault light equipment exists, determining a target preset light effect which is required to be presented currently by the target stage and the corresponding target preset light equipment according to a light equipment information base, and if the target fault light equipment belongs to the target preset light equipment, determining at least one compensation light equipment and target light correction values of the compensation light equipment according to the association relation among the light equipment and the fault type of the target fault light equipment; controlling the compensation lamplight equipment to perform lamplight compensation processing according to the target lamplight correction value; it follows that the prior art has the following problems: the method has the advantages that the operation state of the lamplight is not considered to be detected according to the dynamic change condition of the lamplight in the operation process of the stage lamplight, the accuracy of lamplight fault detection is affected, and the processing efficiency of lamplight faults is affected.

Disclosure of Invention

Therefore, the invention provides a light fault processing method, a device, electronic equipment and a readable storage medium, which are used for solving the problems that in the prior art, the detection of the light running state according to the dynamic change condition of the light in the running process of stage light is not considered, the light fault detection accuracy is affected, and the light fault processing efficiency is affected.

In order to achieve the above object, the present invention provides a light failure processing method, a device, an electronic apparatus, and a readable storage medium, including:

step S1, when the running time of a current output device reaches the integral multiple of the preset time, an image processing module respectively draws a brightness-time curve f (x) and an amplitude-time curve A (x) according to a brightness return value obtained by a brightness detector and a current value obtained by a main ammeter arranged on the current output device, the image processing module matches the two curves and outputs a matching result, and a judging module calculates the matching proportion according to the matching result;

step S2, judging whether the running state of the light in the area to be detected accords with a preset standard according to the matching proportion, and judging whether the running state of each light emitter accords with the preset standard according to the current value acquired by the current detector arranged at the output end of each light emitter in the preset area when the running state of the light is primarily judged to not accord with the preset standard, so as to determine whether the input current of the adjacent light emitter with the single light emitter is regulated or not, or judging that the alarm module sends alarm information aiming at the damage of the single light emitter;

Step S3, when the judging module judges that the running state of the lamplight does not meet the preset standard according to the matching proportion, judging to start all the light emitters in the preset area, judging to adjust the amplification factor of the current amplifier according to the number of the light emitters in the preset area obtained by the visual detector, and starting a corresponding switch to use the corresponding light emitters for replacement or sending corresponding alarm information;

in step S4, the determining module determines whether to issue the corresponding alarm information or activate the corresponding switch according to whether the switch matched with the non-emitting light emitter exists in the detected readable storage medium.

Further, when the operation time length of the current output device reaches integer times of a preset time length, the image processing module draws a brightness-time curve graph f (x) of a to-be-detected area in the preset detection time length according to the brightness return value acquired by the brightness detector, draws an amplitude-time curve graph A (x) of the to-be-detected area in the preset detection time length according to the current value of the output end of the current output device acquired by the main ammeter, matches the brightness-time curve graph f (x) with the amplitude-time curve graph A (x), and the judging module calculates the proportion of a time interval of a matching error in a matching result to a time interval of a matching success and marks the proportion as a matching proportion;

The judging module determines whether the running state of the lamplight in the area to be detected accords with a judging mode of a preset standard according to the obtained matching proportion, wherein:

the first judging mode is that the judging module judges that the running state of the lamplight accords with a preset standard and judges that the current running parameters are maintained to run; the first judging mode meets the condition that the matching specific gravity is smaller than or equal to a first preset specific gravity;

the second judging mode is that the judging module preliminarily judges whether the running state of the lamplight does not meet the preset standard, and judges whether the running state of each illuminator meets the preset standard according to the current value obtained by the current detector arranged at the output end of each illuminator; the second judging mode meets the condition that the matching specific gravity is smaller than or equal to a second preset specific gravity and larger than the first preset specific gravity;

the third judging mode is that the judging module judges that the running state of the lamplight does not accord with a preset standard, the judging module judges that all the light emitters in the preset area are started, and judges that the amplification factor of the current amplifier is regulated, corresponding alarm information is sent out or a corresponding switch is started according to the number of the light emitters which emit light in the preset area and are acquired by the visual detector; the third determination means satisfies that the matching specific gravity is greater than the second preset specific gravity.

Further, the determining module determines, in the second determining manner, whether the operation state of the single light emitter meets the light emitter determining manner of the preset standard according to the current value obtained by the current detector set at the output end of the single light emitter, where:

the first light emitter judging mode is that the judging module judges that the running state of the light emitter accords with a preset standard and judges that the light emitter maintains the running of the current running parameters; the first illuminator judges that the current value is larger than a second preset current value;

the second illuminator judging mode is that the judging module judges that the running state of the illuminator does not accord with a preset standard, the judging module adjusts the input currents of the adjacent preset number of illuminators of the illuminator to a corresponding value by using a first preset current adjusting coefficient, and adjusts the preset number to the corresponding value according to the difference value between a second preset current value and the current value; the second illuminator judges that the current value is smaller than or equal to the second preset current value and larger than the first preset current value, and the first preset current value is smaller than the second preset current value;

the third illuminator judging mode is that the judging module judges that the running state of the illuminator does not accord with the preset standard, and judges that the alarm module sends out alarm information aiming at the damage of the illuminator; the third light emitter judging mode is that the current value is smaller than or equal to a first preset current value.

Further, the judging module starts all the light emitters in the preset area under the third judging mode, the judging module calculates the proportion of the number of the light emitters which emit light in the preset area and are acquired by the visual detector to the total number of the light emitters in the preset area, the judging module marks the proportion as a number proportion, and the adjusting mode of the operation parameters of the lamplight in the preset area is determined according to the obtained number proportion, wherein:

the first adjusting mode is that the judging module judges that the amplification factor of the current amplifier arranged at the output end of the current output device is increased to a corresponding value according to the difference value between the brightness return value acquired by the brightness detector and a preset return value; the first adjusting mode meets the condition that the number specific gravity is equal to a preset number specific gravity;

the second adjusting mode is that the judging module judges that the vision detecting module obtains the corresponding non-luminous illuminator, and the judging module judges whether the corresponding alarm information is sent out according to whether a switch matched with the non-luminous illuminator exists in the detected readable storage medium; the second adjusting mode meets the condition that the number specific gravity is smaller than or equal to the preset number specific gravity.

Further, the judging module detects whether a switch matched with the light emitter exists in the readable storage medium or not aiming at the light emitter which does not emit light and is acquired by the single visual detection module in the second adjusting mode, and if so, the judging module judges that the switch is started to start the corresponding replacement light emitter; if the alarm information does not exist, the judging module judges that the alarm module sends out the alarm information aiming at the corresponding light emitter.

Further, the determining module calculates a difference value between the brightness return value obtained by the brightness detector and a preset return value in the first adjustment mode, and sets the difference value as a return value difference value, and the determining module determines an amplifier adjustment mode of the amplification factor of the current amplifier arranged at the output end of the current output device according to the obtained return value difference value, wherein:

the first amplifier adjusting mode is that the judging module adjusts the amplification factor of the current amplifier to a corresponding value by using a first preset amplification factor; the first amplifier adjusting mode meets the condition that the return value difference value is smaller than or equal to a first preset return value difference value;

the second amplifier adjusting mode is that the judging module adjusts the amplification factor of the current amplifier to a corresponding value by using a second preset amplification factor; the second amplifier adjusting mode meets the condition that the return value difference value is smaller than or equal to a second preset return value difference value and larger than the first preset return value difference value;

The third amplifier adjusting mode is that the judging module adjusts the amplification factor of the current amplifier to a corresponding value by using a third preset amplification factor; the third amplifier adjustment mode satisfies that the return value difference is greater than the second preset return value difference.

Further, the determining module calculates a difference between a second preset current value and the current value in the second light emitter determining mode, and marks the difference as a current difference, and the determining module determines a number adjusting mode of a preset number according to the current difference, wherein:

the first quantity adjusting mode is that the judging module uses a first preset quantity adjusting coefficient to increase the preset quantity to a corresponding value; the first quantity adjusting mode meets the condition that the current difference value is smaller than or equal to a first preset current difference value;

the second quantity adjusting mode is that the judging module uses a second preset quantity adjusting coefficient to increase the preset quantity to a corresponding value; the second quantity adjusting mode meets the condition that the current difference value is smaller than or equal to a second preset current difference value and larger than the first preset current difference value, and the first preset current difference value is smaller than the second preset current difference value;

the third quantity adjusting mode is that the judging module uses a third preset quantity adjusting coefficient to increase the preset quantity to a corresponding value; the third quantity adjustment mode satisfies that the current difference is greater than the second preset current difference.

The application also provides a lamplight fault processing device, which comprises a lamplight module, wherein the lamplight module comprises a current output device for outputting current, a current amplifier for amplifying the current in an equal ratio is connected to the output end of the current output device, and a plurality of light emitters are connected in parallel or in series to the output end of the current amplifier;

a plurality of alternative light emitters which are respectively connected with the single light emitter in parallel are also arranged in the light module, and the input end of each alternative light emitter is provided with a switch;

the detection module comprises a brightness detector which is connected with the current output device in series and arranged in a preset detection area and used for acquiring a brightness return value, and a current detector which is arranged at the output end of each light-emitting device;

the image processing module is connected with the detection module and the corresponding part in the light module respectively, and is used for drawing a brightness-time curve graph f (x) of a to-be-detected area in a preset detection duration according to the brightness return value acquired by the brightness detector, drawing an amplitude-time curve graph A (x) of the to-be-detected area in the preset detection duration according to the current value of the output end of the current output device acquired by the main ammeter, and matching the brightness-time curve graph f (x) with the amplitude-time curve graph A (x);

And the judging module is connected with corresponding parts in the detection module, the light module and the image processing module respectively, and is used for calculating the matching proportion according to the matching result of the image processing module, judging whether the running state of the light in the area to be detected meets the preset standard according to the matching proportion, judging whether the running state of the light meets the preset standard according to the current value acquired by the current detector arranged at the output end of each light in the preset area when the running state of the light is primarily judged to be not met with the preset standard, judging whether the running state of each light meets the preset standard or not so as to determine whether the input current of the adjacent light with a single light is regulated or judging whether the alarm module sends out alarm information aiming at the damage of the single light, and judging whether all the light emitters in the preset area are started or not according to the matching proportion, judging whether the amplification factor of the current amplifier is regulated or corresponding to send out corresponding alarm information according to the number of the light emitters in the preset area acquired by the visual detector, and judging whether the corresponding switch is started or not corresponding to read according to the detected current value acquired by the visual detector.

The application also provides an electronic device comprising a decision module and a readable storage medium storing program code which when run on the decision module performs a light fault handling method.

The application also provides a readable storage medium, wherein the readable storage medium stores program codes, the program codes execute the light fault processing method when running on the judging module, and the storage medium also stores connection information corresponding to each light emitter and whether each light emitter is matched with a light emitter for replacement.

Compared with the prior art, the application has the beneficial effects that the effect of adjusting the light to change the light can occur in stage lighting arrangement, if a single light emitter fails to affect the overall stage effect, when the judging module controls the current change of the current output device to change the intensity of the light, the light change and the current change output by the current output device have a matching relationship, and the brightness-time curve f (x) drawn by the image processing module is matched with the amplitude-time curve A (x) to obtain a plurality of time intervals successfully matched and a plurality of time intervals incorrectly matched. The judging module judges the lamplight state in the to-be-detected area according to each time interval, and periodically detects the stage lamplight in the using process of the lamplight so as to discover the hidden danger of the lamplight in time and make corresponding solving measures, thereby further improving the processing efficiency of lamplight faults.

Further, when the matching specific gravity is smaller than or equal to the second preset specific gravity and larger than the first preset specific gravity, a small-sized illuminator connected in parallel with the current output device is in fault, the judging module acquires the current detectors arranged at the output ends of the illuminators one by one, judges the running state of the illuminators one by one according to the current detectors, judges that the corresponding illuminator is damaged when the current value acquired by the current detectors is too small, and sends alarm information aiming at the damage of the illuminator; when the current value obtained by the current detector is smaller, the corresponding illuminator is slightly damaged, the brightness of the illuminator adjacent to the current detector is increased to compensate the light of the illuminator, and the processing efficiency of the light fault is further improved while the light state is ensured to meet the preset standard.

Further, when the matching specific gravity is greater than the second preset specific gravity, a large number of light emitters connected in parallel with the current output device exist in the to-be-detected area to fail, or a large light emitter fails, or the whole light emitter is aged and cannot meet the light emitting requirement, the judging module starts all the light emitters, if all the light emitters emit light, the aging is judged, the amplification factor of the amplifier is regulated to be higher so that the brightness of the light emitters meets the preset standard, under the condition that the light emitters fail, the judging module detects whether the failed light emitters exist for replacement, if yes, a corresponding switch is started, if not, corresponding alarm information is sent, the work load of workers is further greatly saved while the light emitting effect is ensured, and the processing efficiency of lamplight failure is improved.

Further, there are large-scale illuminator, small-scale illuminator, with electric current output device series connection, parallel connection in the stage lighting, store the connection information corresponding to each illuminator to the illuminator of different situations in the readable storage medium, wherein, the large-scale illuminator is equipped with the illuminator to replace, when the small-scale illuminator breaks down, adopt the illuminator adjacent illuminator to compensate the mode maintenance of light, because of the illuminator that loses for a long time is through the mode of increasing its input current in order to guarantee its luminous efficacy, be equipped with the solution mode of matching with it to different fault conditions, while guaranteeing the luminous efficacy, further save staff's work load greatly, have improved the treatment efficiency of light trouble.

Further, when the illuminator cannot be repaired by itself, alarm information aiming at the corresponding fault component is sent out, so that maintenance difficulty is further reduced.

Drawings

FIG. 1 is a flow chart showing steps of a light fault handling method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a light fault handling apparatus according to an embodiment of the present invention;

FIG. 3 is a flowchart of a judging mode of a judging module according to the embodiment of the invention, wherein the judging mode is used for determining whether the running state of the lamplight in the area to be detected accords with a preset standard according to the obtained matching proportion;

Fig. 4 is a flowchart of a light emitter determination method in which a determination module determines whether an operation state of a single light emitter meets a preset standard according to a current value obtained by a single current detector.

Detailed Description

In order that the objects and advantages of the invention will become more apparent, the invention will be further described with reference to the following examples; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "upper," "lower," "left," "right," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

Referring to fig. 1, fig. 2, fig. 3, and fig. 4, which are respectively a step flowchart of a light fault processing method according to an embodiment of the present invention, a structural schematic diagram of a light fault processing device, a decision mode flowchart for determining whether an operation state of light in a to-be-detected area meets a preset standard according to a calculated matching specific gravity, and a light emitter decision mode flowchart for determining whether an operation state of a single light emitter meets the preset standard according to a current value obtained by a single current detector; the embodiment of the invention discloses a light fault processing method, a device, electronic equipment and a readable storage medium, which comprise the following steps:

Step S1, when the running time of a current output device reaches the integral multiple of the preset time, an image processing module respectively draws a brightness-time curve f (x) and an amplitude-time curve A (x) according to a brightness return value obtained by a brightness detector and a current value obtained by a main ammeter arranged on the current output device, the image processing module matches the two curves and outputs a matching result, and a judging module calculates the matching proportion according to the matching result;

step S2, judging whether the running state of the light in the area to be detected accords with a preset standard according to the matching proportion, and judging whether the running state of each light emitter accords with the preset standard according to the current value acquired by the current detector arranged at the output end of each light emitter in the preset area when the running state of the light is primarily judged to not accord with the preset standard, so as to determine whether the input current of the adjacent light emitter with the single light emitter is regulated or not, or judging that the alarm module sends alarm information aiming at the damage of the single light emitter;

step S3, when the judging module judges that the running state of the lamplight does not meet the preset standard according to the matching proportion, judging to start all the light emitters in the preset area, judging to adjust the amplification factor of the current amplifier according to the number of the light emitters in the preset area obtained by the visual detector, and starting a corresponding switch to use the corresponding light emitters for replacement or sending corresponding alarm information;

In step S4, the determining module determines whether to issue the corresponding alarm information or activate the corresponding switch according to whether the switch matched with the non-emitting light emitter exists in the detected readable storage medium.

Specifically, when the operation time length of the current output device reaches integer times of a preset time length, the image processing module draws a brightness-time curve graph f (x) for a to-be-detected area in the preset detection time length according to the brightness return value acquired by the brightness detector, draws an amplitude-time curve graph A (x) for the to-be-detected area in the preset detection time length according to the current value of the output end of the current output device acquired by the main ammeter, matches the brightness-time curve graph f (x) with the amplitude-time curve graph A (x), and the judging module calculates the proportion of a time interval of a matching error in a matching result to a time interval of a matching success and marks the proportion as a matching proportion;

the judging module determines whether the running state of the lamplight in the area to be detected accords with a judging mode of a preset standard according to the obtained matching proportion, wherein:

the first judging mode is that the judging module judges that the running state of the lamplight accords with a preset standard and judges that the current running parameters are maintained to run; the first judging mode meets the condition that the matching specific gravity is smaller than or equal to a first preset specific gravity;

The second judging mode is that the judging module preliminarily judges whether the running state of the lamplight does not meet the preset standard, and judges whether the running state of each illuminator meets the preset standard according to the current value obtained by the current detector arranged at the output end of each illuminator; the second judging mode meets the condition that the matching specific gravity is smaller than or equal to a second preset specific gravity and larger than the first preset specific gravity;

the third judging mode is that the judging module judges that the running state of the lamplight does not accord with a preset standard, the judging module judges that all the light emitters in the preset area are started, and judges that the amplification factor of the current amplifier is regulated, corresponding alarm information is sent out or a corresponding switch is started according to the number of the light emitters which emit light in the preset area and are acquired by the visual detector; the third determination means satisfies that the matching specific gravity is greater than the second preset specific gravity.

Specifically, the determining module determines, in the second determining manner, whether the operation state of the single light emitter meets the light emitter determining manner of the preset standard according to the current value obtained by the current detector set at the output end of the single light emitter, where:

the first light emitter judging mode is that the judging module judges that the running state of the light emitter accords with a preset standard and judges that the light emitter maintains the running of the current running parameters; the first illuminator judges that the current value is larger than a second preset current value;

The second illuminator judging mode is that the judging module judges that the running state of the illuminator does not accord with a preset standard, the judging module adjusts the input currents of the adjacent preset number of illuminators of the illuminator to a corresponding value by using a first preset current adjusting coefficient, and adjusts the preset number to the corresponding value according to the difference value between a second preset current value and the current value; the second illuminator judges that the current value is smaller than or equal to the second preset current value and larger than the first preset current value, and the first preset current value is smaller than the second preset current value;

the third illuminator judging mode is that the judging module judges that the running state of the illuminator does not accord with the preset standard, and judges that the alarm module sends out alarm information aiming at the damage of the illuminator; the third light emitter judging mode is that the current value is smaller than or equal to a first preset current value.

Specifically, the judging module starts all the light emitters in the preset area under the third judging mode, the judging module calculates the specific gravity of the number of the light emitters which emit light in the preset area and are acquired by the visual detector to the total number of the light emitters in the preset area, the judging module marks the specific gravity as a number of specific gravity, and the adjusting mode of the operation parameters of the lamplight in the preset area is determined according to the obtained number specific gravity, wherein:

The first adjusting mode is that the judging module judges that the amplification factor of the current amplifier arranged at the output end of the current output device is increased to a corresponding value according to the difference value between the brightness return value acquired by the brightness detector and a preset return value; the first adjusting mode meets the condition that the number specific gravity is equal to a preset number specific gravity;

the second adjusting mode is that the judging module judges that the vision detecting module obtains the corresponding non-luminous illuminator, and the judging module judges whether the corresponding alarm information is sent out according to whether a switch matched with the non-luminous illuminator exists in the detected readable storage medium; the second adjusting mode meets the condition that the number specific gravity is smaller than or equal to the preset number specific gravity.

Specifically, the judging module detects whether a switch matched with the light emitter exists in the readable storage medium for the light emitter which does not emit light and is acquired by the single visual detection module in the second adjusting mode, and if so, the judging module judges that the switch is started to start the corresponding replacement light emitter; if the alarm information does not exist, the judging module judges that the alarm module sends out the alarm information aiming at the corresponding light emitter.

Specifically, the determining module calculates a difference value between the brightness return value obtained by the brightness detector and a preset return value in the first adjustment mode, and sets the difference value as a return value difference value, and the determining module determines an amplifier adjustment mode of the amplification factor of the current amplifier arranged at the output end of the current output device according to the obtained return value difference value, wherein:

The first amplifier adjusting mode is that the judging module adjusts the amplification factor of the current amplifier to a corresponding value by using a first preset amplification factor; the first amplifier adjusting mode meets the condition that the return value difference value is smaller than or equal to a first preset return value difference value;

the second amplifier adjusting mode is that the judging module adjusts the amplification factor of the current amplifier to a corresponding value by using a second preset amplification factor; the second amplifier adjusting mode meets the condition that the return value difference value is smaller than or equal to a second preset return value difference value and larger than the first preset return value difference value;

the third amplifier adjusting mode is that the judging module adjusts the amplification factor of the current amplifier to a corresponding value by using a third preset amplification factor; the third amplifier adjustment mode satisfies that the return value difference is greater than the second preset return value difference.

Specifically, the determining module calculates a difference between a second preset current value and the current value in the second light emitter determining mode, and marks the difference as a current difference, and the determining module determines a number adjusting mode of a preset number according to the current difference, wherein:

the first quantity adjusting mode is that the judging module uses a first preset quantity adjusting coefficient to increase the preset quantity to a corresponding value; the first quantity adjusting mode meets the condition that the current difference value is smaller than or equal to a first preset current difference value;

The second quantity adjusting mode is that the judging module uses a second preset quantity adjusting coefficient to increase the preset quantity to a corresponding value; the second quantity adjusting mode meets the condition that the current difference value is smaller than or equal to a second preset current difference value and larger than the first preset current difference value, and the first preset current difference value is smaller than the second preset current difference value;

the third quantity adjusting mode is that the judging module uses a third preset quantity adjusting coefficient to increase the preset quantity to a corresponding value; the third quantity adjustment mode satisfies that the current difference is greater than the second preset current difference.

The embodiment also provides a lamplight fault processing device, which is characterized by comprising a lamplight module, wherein the lamplight module comprises a current output device for outputting current, a current amplifier for amplifying the current in an equal ratio is connected to the output end of the current output device, and a plurality of light emitters are connected in parallel or in series to the output end of the current amplifier;

a plurality of alternative light emitters which are respectively connected with the single light emitter in parallel are also arranged in the light module, and the input end of each alternative light emitter is provided with a switch;

the detection module comprises a brightness detector which is connected with the current output device in series and arranged in a preset detection area and used for acquiring a brightness return value, and a current detector which is arranged at the output end of each light-emitting device;

The image processing module is connected with the detection module and the corresponding part in the light module respectively, and is used for drawing a brightness-time curve graph f (x) of a to-be-detected area in a preset detection duration according to the brightness return value acquired by the brightness detector, drawing an amplitude-time curve graph A (x) of the to-be-detected area in the preset detection duration according to the current value of the output end of the current output device acquired by the main ammeter, and matching the brightness-time curve graph f (x) with the amplitude-time curve graph A (x);

and the judging module is connected with corresponding parts in the detection module, the light module and the image processing module respectively, and is used for calculating the matching proportion according to the matching result of the image processing module, judging whether the running state of the light in the area to be detected meets the preset standard according to the matching proportion, judging whether the running state of the light meets the preset standard according to the current value acquired by the current detector arranged at the output end of each light in the preset area when the running state of the light is primarily judged to be not met with the preset standard, judging whether the running state of each light meets the preset standard or not so as to determine whether the input current of the adjacent light with a single light is regulated or judging whether the alarm module sends out alarm information aiming at the damage of the single light, and judging whether all the light emitters in the preset area are started or not according to the matching proportion, judging whether the amplification factor of the current amplifier is regulated or corresponding to send out corresponding alarm information according to the number of the light emitters in the preset area acquired by the visual detector, and judging whether the corresponding switch is started or not corresponding to read according to the detected current value acquired by the visual detector.

The present embodiment also provides an electronic device including a determination module and a readable storage medium storing program code that, when executed on the determination module, performs the light failure processing method of the above embodiment.

The present embodiment also provides a computer-readable storage medium in which a program code is stored, which when run on a determination module performs the light failure processing method of the above embodiment, and in which connection information corresponding to each light emitter and whether each light emitter is matched with a light emitter for replacement are also stored.

Thus far, the technical solution of the present invention has been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of protection of the present invention is not limited to these specific embodiments. Equivalent modifications and substitutions for related technical features may be made by those skilled in the art without departing from the principles of the present invention, and such modifications and substitutions will be within the scope of the present invention.

The foregoing description is only of the preferred embodiments of the invention and is not intended to limit the invention; various modifications and variations of the present invention will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A method of light fault handling, comprising:

step S1, when the running time of a current output device reaches the integral multiple of the preset time, an image processing module respectively draws a brightness-time curve f (x) and an amplitude-time curve A (x) according to a brightness return value obtained by a brightness detector and a current value obtained by a main ammeter arranged on the current output device, the image processing module matches the two curves and outputs a matching result, and a judging module calculates the matching proportion according to the matching result;

step S2, judging whether the running state of the light in the area to be detected accords with a preset standard according to the matching proportion, and judging whether the running state of each light emitter accords with the preset standard according to the current value acquired by the current detector arranged at the output end of each light emitter in the preset area when the running state of the light is primarily judged to not accord with the preset standard, so as to determine whether the input current of the adjacent light emitter with the single light emitter is regulated or not, or judging that the alarm module sends alarm information aiming at the damage of the single light emitter;

step S3, when the judging module judges that the running state of the lamplight does not meet the preset standard according to the matching proportion, judging to start all the light emitters in the preset area, judging to adjust the amplification factor of the current amplifier according to the number of the light emitters in the preset area obtained by the visual detector, and starting a corresponding switch to use the corresponding light emitters for replacement or sending corresponding alarm information;

In step S4, the determining module determines whether to issue the corresponding alarm information or activate the corresponding switch according to whether the switch matched with the non-emitting light emitter exists in the detected readable storage medium.

2. The light fault processing method according to claim 1, wherein when the operation duration of the current output device reaches an integer multiple of a preset duration, the image processing module draws a brightness-time curve f (x) for a region to be detected in the preset detection duration according to a brightness return value obtained by the brightness detector, the image processing module draws an amplitude-time curve a (x) for the region to be detected in the preset detection duration according to a current value of an output end of the current output device obtained by the main ammeter, the image processing module matches the brightness-time curve f (x) with the amplitude-time curve a (x), and the judging module calculates the proportion of a time interval of a matching error in a matching result to a time interval of a matching success and marks the proportion as a matching proportion;

the judging module determines whether the running state of the lamplight in the area to be detected accords with a judging mode of a preset standard according to the obtained matching proportion, wherein:

The first judging mode is that the judging module judges that the running state of the lamplight accords with a preset standard and judges that the current running parameters are maintained to run; the first judging mode meets the condition that the matching specific gravity is smaller than or equal to a first preset specific gravity;

the second judging mode is that the judging module preliminarily judges whether the running state of the lamplight does not meet the preset standard, and judges whether the running state of each illuminator meets the preset standard according to the current value obtained by the current detector arranged at the output end of each illuminator; the second judging mode meets the condition that the matching specific gravity is smaller than or equal to a second preset specific gravity and larger than the first preset specific gravity;

the third judging mode is that the judging module judges that the running state of the lamplight does not accord with a preset standard, the judging module judges that all the light emitters in the preset area are started, and judges that the amplification factor of the current amplifier is regulated, corresponding alarm information is sent out or a corresponding switch is started according to the number of the light emitters which emit light in the preset area and are acquired by the visual detector; the third determination means satisfies that the matching specific gravity is greater than the second preset specific gravity.

3. The light failure processing method according to claim 2, wherein the determining module determines, in the second determining mode, whether the operation state of the single light emitter meets a preset standard according to a current value obtained by a current detector set at an output end of the single light emitter, where:

The first light emitter judging mode is that the judging module judges that the running state of the light emitter accords with a preset standard and judges that the light emitter maintains the running of the current running parameters; the first illuminator judges that the current value is larger than a second preset current value;

the second illuminator judging mode is that the judging module judges that the running state of the illuminator does not accord with a preset standard, the judging module adjusts the input currents of the adjacent preset number of illuminators of the illuminator to a corresponding value by using a first preset current adjusting coefficient, and adjusts the preset number to the corresponding value according to the difference value between a second preset current value and the current value; the second illuminator judges that the current value is smaller than or equal to the second preset current value and larger than the first preset current value, and the first preset current value is smaller than the second preset current value;

the third illuminator judging mode is that the judging module judges that the running state of the illuminator does not accord with the preset standard, and judges that the alarm module sends out alarm information aiming at the damage of the illuminator; the third light emitter judging mode is that the current value is smaller than or equal to a first preset current value.

4. The light failure processing method according to claim 3, wherein the determination module starts all the light emitters in the preset area in the third determination mode, the determination module calculates a specific gravity of the number of the light emitters in the preset area, which are obtained by the visual detector, to the total number of the light emitters in the preset area, the determination module marks the specific gravity as a number specific gravity, and determines an adjustment mode for the operation parameters of the light in the preset area according to the obtained number specific gravity, wherein:

The first adjusting mode is that the judging module judges that the amplification factor of the current amplifier arranged at the output end of the current output device is increased to a corresponding value according to the difference value between the brightness return value acquired by the brightness detector and a preset return value; the first adjusting mode meets the condition that the number specific gravity is equal to a preset number specific gravity;

the second adjusting mode is that the judging module judges that the vision detecting module obtains the corresponding non-luminous illuminator, and the judging module judges whether the corresponding alarm information is sent out according to whether a switch matched with the non-luminous illuminator exists in the detected readable storage medium; the second adjusting mode meets the condition that the number specific gravity is smaller than or equal to the preset number specific gravity.

5. The method of claim 4, wherein the determining module detects whether a switch matching the light emitter exists in the readable storage medium for the light emitter that does not emit light acquired by the single visual detection module in the second adjustment mode, and if so, the determining module determines to activate the switch to activate the corresponding replacement light emitter; if the alarm information does not exist, the judging module judges that the alarm module sends out the alarm information aiming at the corresponding light emitter.

6. The method for processing a lamp fault according to claim 5, wherein the determining module calculates a difference between the brightness return value obtained by the brightness detector and a preset return value in the first adjustment mode, and sets the difference as a return value difference, and the determining module determines an amplifier adjustment mode of the amplification factor of the current amplifier provided at the output end of the current output device according to the calculated return value difference, wherein:

the first amplifier adjusting mode is that the judging module adjusts the amplification factor of the current amplifier to a corresponding value by using a first preset amplification factor; the first amplifier adjusting mode meets the condition that the return value difference value is smaller than or equal to a first preset return value difference value;

the second amplifier adjusting mode is that the judging module adjusts the amplification factor of the current amplifier to a corresponding value by using a second preset amplification factor; the second amplifier adjusting mode meets the condition that the return value difference value is smaller than or equal to a second preset return value difference value and larger than the first preset return value difference value;

the third amplifier adjusting mode is that the judging module adjusts the amplification factor of the current amplifier to a corresponding value by using a third preset amplification factor; the third amplifier adjustment mode satisfies that the return value difference is greater than the second preset return value difference.

7. The method of claim 6, wherein the determining module calculates a difference between a second preset current value and the current value in the second light emitter determining mode, and marks the difference as a current difference, and the determining module determines a number adjustment mode of a preset number according to the current difference, wherein:

the first quantity adjusting mode is that the judging module uses a first preset quantity adjusting coefficient to increase the preset quantity to a corresponding value; the first quantity adjusting mode meets the condition that the current difference value is smaller than or equal to a first preset current difference value;

the second quantity adjusting mode is that the judging module uses a second preset quantity adjusting coefficient to increase the preset quantity to a corresponding value; the second quantity adjusting mode meets the condition that the current difference value is smaller than or equal to a second preset current difference value and larger than the first preset current difference value, and the first preset current difference value is smaller than the second preset current difference value;

the third quantity adjusting mode is that the judging module uses a third preset quantity adjusting coefficient to increase the preset quantity to a corresponding value; the third quantity adjustment mode satisfies that the current difference is greater than the second preset current difference.

8. An apparatus for using the light failure processing method according to any one of claims 1 to 7, comprising,

the lamplight module comprises a current output device for outputting current, wherein the output end of the current output device is connected with a current amplifier for amplifying the current in an equal ratio, and a plurality of light emitters are connected in parallel or in series with the output end of the current amplifier;

a plurality of alternative light emitters which are respectively connected with the single light emitter in parallel are also arranged in the light module, and the input end of each alternative light emitter is provided with a switch;

the detection module comprises a brightness detector which is connected with the current output device in series and arranged in a preset detection area and used for acquiring a brightness return value, and a current detector which is arranged at the output end of each light-emitting device;

the image processing module is connected with the detection module and the corresponding part in the light module respectively, and is used for drawing a brightness-time curve graph f (x) of a to-be-detected area in a preset detection duration according to the brightness return value acquired by the brightness detector, drawing an amplitude-time curve graph A (x) of the to-be-detected area in the preset detection duration according to the current value of the output end of the current output device acquired by the main ammeter, and matching the brightness-time curve graph f (x) with the amplitude-time curve graph A (x);

And the judging module is connected with corresponding parts in the detection module, the light module and the image processing module respectively, and is used for calculating the matching proportion according to the matching result of the image processing module, judging whether the running state of the light in the area to be detected meets the preset standard according to the matching proportion, judging whether the running state of the light meets the preset standard according to the current value acquired by the current detector arranged at the output end of each light in the preset area when the running state of the light is primarily judged to be not met with the preset standard, judging whether the running state of each light meets the preset standard or not so as to determine whether the input current of the adjacent light with a single light is regulated or judging whether the alarm module sends out alarm information aiming at the damage of the single light, and judging whether all the light emitters in the preset area are started or not according to the matching proportion, judging whether the amplification factor of the current amplifier is regulated or corresponding to send out corresponding alarm information according to the number of the light emitters in the preset area acquired by the visual detector, and judging whether the corresponding switch is started or not corresponding to read according to the detected current value acquired by the visual detector.

9. An electronic device comprising a decision module and a readable storage medium storing program code that, when run on the decision module, performs the light fault handling method of any one of claims 1 to 7.

10. A computer readable storage medium, characterized in that the computer readable storage medium has stored therein a program code which, when run on a decision module, performs the light fault handling method of any one of claims 1 to 7.