CN111556632A - Control method and control system of induction lamp - Google Patents

Abstract

The invention relates to the technical field of induction lamp control, in particular to a control method and a control system of an induction lamp, which comprises the following steps of S1: acquiring a human body induction signal, and controlling a first induction lamp at a position corresponding to the human body induction signal to be turned on; step S2: configuring a route instruction, and generating walking path information corresponding to the position information of the induction lamp according to the route instruction; step S3: and acquiring the position information of the induction lamp corresponding to the position of the human body induction signal, and controlling the second induction lamp at the next position in the walking path information to be turned on. The invention reasonably controls the induction lamps to be turned on and off, thereby reducing the condition that the light in the area between the two induction lamps is dim or has no light.

Description

Control method and control system of induction lamp

Technical Field

The invention relates to the technical field of induction lamp control, in particular to a control method and a control system of an induction lamp.

Background

The lamp is an essential facility in the life of modern people, and a light source is generated by using the lamp in a dim place, so that a dim area is illuminated, and the activity of people is facilitated; in some dim areas with occasional artificial visits, the lamp is required to be illuminated, the illumination time is not long, if the lamp is turned on all the time, resource waste is caused, and the induction lamp is manufactured to cope with the situation.

The induction lamp is a novel intelligent illumination product which automatically controls the light source to be lightened through the induction module, can be automatically turned on for illumination, and can be automatically turned off in a delayed manner after people leave, and the existing induction lamp is generally turned on when the induction module of the induction lamp senses that people exist; the induction lamp is often installed in the daily use in some great buildings, for example, residential buildings, shopping malls, public areas such as large hospitals and the like, so as to conveniently illuminate residents, night patrol personnel, medical personnel, patients and the like when the light is dim.

The above prior art solutions have the following drawbacks: to great building, for example, the interval distance between the induction lamp of setting up in the public area of residential building, shopping mall hospital etc. can be far away, in order to satisfy the unnecessary waste of the trouble and the resource of winding displacement, wiring as far as possible under the circumstances of operation requirement, the people walks in the building, because two induction lamp distances are far away, the people is when leaving the induction area of current induction lamp and not walking to the induction area of next induction lamp, can experience one section light comparatively dim or the region of no light usually, lead to the people easily because of seeing clearly falling down on the ground or stumbling, thereby lead to the people to be injured.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a control method and a control system of an induction lamp, which can reasonably control the induction lamp to be turned on or off, thereby reducing the condition that the light in the area between two induction lamps is dim or has no light.

One of the above objects of the present invention is achieved by the following technical solutions:

a method for controlling an induction lamp, comprising the steps of, step S1: acquiring a human body induction signal, and controlling a first induction lamp at a position corresponding to the human body induction signal to be turned on; step S2: configuring a route instruction, and generating walking path information corresponding to the position information of the induction lamp according to the route instruction; step S3: and acquiring the position information of the induction lamp corresponding to the position of the human body induction signal, and controlling the second induction lamp at the next position in the walking path information to be turned on.

Through adopting above-mentioned technical scheme, according to the route instruction of configuration, generate walking path information, according to the position of first response lamp, learn the position of second response lamp in advance, open the second response lamp in advance, reasonable control response lamp is opened and close to reduce the dim or the no light condition of light in regional light between two response lamps.

The present invention in a preferred example may be further configured to: further comprising step S4, step S4: the method comprises the steps of obtaining indoor brightness of a corresponding position of each induction lamp, matching a preset brightness range to which the indoor brightness belongs, generating brightness parameter information for controlling the brightness of the induction lamp according to the preset brightness range to which the indoor brightness belongs, adjusting the brightness of the induction lamp according to the brightness parameter information, and controlling the induction lamp to be turned on and off.

Through adopting above-mentioned technical scheme, adjust response lamp luminance according to luminance parameter information, make the luminance of response lamp change along with the change of indoor luminance, when indoor luminance is lower, the luminance of response lamp correspondingly reduces to make the change of the better adaptation luminance of people's eye, when indoor luminance is comparatively dim, with the increase of the luminance adaptability of response lamp, so that better clear article of illumination.

The present invention in a preferred example may be further configured to: the method further comprises the step S5, the step S5 is that the first induction lamp is controlled to be turned off when the position of the second induction lamp obtains the human body induction signal within the preset time; if the second induction lamp position does not acquire the human body induction signal after the preset time, controlling the induction lamp at the second position to be turned off.

Through adopting above-mentioned technical scheme, the user walks to the position of second response lamp, then controls first response lamp and closes to play resources are saved, also prevent to close at the user to the first response lamp of second response lamp position in-process of marcing, after the time of predetermineeing, the user does not walk to the position of second response lamp, then explains that the user changes the route of marcing or has something to stop in the position of first response lamp, closes the second response lamp this moment, avoids the wasting of resources.

The present invention in a preferred example may be further configured to: step S21 includes, step S210: storing user walking path information, generating historical walking path information, and generating walking path information equal to the matched historical walking path information when the matching degree of the current walking path information and the historical walking path information reaches a preset matching value; step S211: and if the walking path information is not acquired, acquiring the induction lamp position information of a second induction lamp adjacent to the current first induction lamp position to generate the walking path information.

By adopting the technical scheme, historical walking path information of the user is stored, historical walking path information is generated, and when the matching degree of the current walking path information and the historical walking path information reaches a preset matching value, the updated walking path information is equal to the historical walking path information, so that the effects of better matching the walking route of the user and more accurately turning on the induction lamp are achieved.

The present invention in a preferred example may be further configured to: step S4 includes, S40: acquiring indoor brightness, matching a preset brightness range to which the indoor brightness belongs, and generating brightness parameter information for controlling the brightness of the induction lamp according to the preset brightness range to which the indoor brightness belongs, wherein the indoor brightness is in inverse proportion to the brightness parameter information; s41: the method comprises the steps of obtaining indoor volume, matching a preset volume range to which the indoor volume belongs, adjusting brightness parameter information according to the preset volume range to which the indoor volume belongs, adjusting the brightness of an induction lamp according to the brightness parameter information, and controlling the induction lamp to be turned on and turned off, wherein the indoor volume is in direct proportion to the brightness parameter information; and when the indoor volume exceeds a preset volume threshold, controlling all the induction lamps to be started.

By adopting the technical scheme, the method has the advantages that,

the second purpose of the invention is realized by the following technical scheme:

an induction lamp control system comprises an infrared detection module, a route configuration module, a brightness adjustment module and a control module; the infrared detection module is used for detecting the position of a human body, generating a human body induction signal corresponding to the current position of the human body and generating induction lamp position information corresponding to the current position of the human body induction signal; the route configuration module is used for configuring a route instruction and generating walking path information; the brightness adjusting module is used for acquiring indoor brightness, matching a preset brightness range to which the indoor brightness belongs, and generating brightness parameter information for controlling the brightness of the induction lamp according to the preset brightness range to which the indoor brightness belongs; the control module is used for acquiring the position information of the induction lamp and the walking path information and controlling the induction lamp at the next position in the walking path information to be started; acquiring brightness parameter information and controlling the brightness change of the induction lamp; and if the human body induction information is not acquired at the first induction lamp position or the second induction lamp position after the preset time, controlling the first induction lamp to be turned off or the second induction lamp to be turned off.

Through adopting above-mentioned technical scheme, route configuration module is according to the route instruction, generates walking path information, by walking path information, according to the position of the first response lamp that the human position that infrared detection module detected corresponds, learns the position of second response lamp, and control module control second response lamp is opened in advance, and reasonable control response lamp is opened and close to reduce the dim or the condition of no light of regional light between two response lamps, thereby be convenient for people to walk.

The present invention in a preferred example may be further configured to: the route configuration module comprises a configuration submodule, an instruction acquisition judgment submodule, a historical data storage submodule and a matching submodule; a configuration submodule for configuring the route instructions; the instruction acquisition and judgment sub-module is used for acquiring a user instruction, matching a route instruction corresponding to the user instruction if an acquisition result exists, and generating walking path information corresponding to the position information of the induction lamp according to the route instruction; if no, generating null instruction information, acquiring position information of the induction lamp adjacent to the current position, and generating walking path information; the historical data storage submodule receives the null instruction information, stores the user walking path information and forms historical walking path information; and the matching sub-module is used for updating the walking path information to be equal to the matched historical walking path information when the matching degree of the current walking path information and the historical walking path information reaches a preset matching value.

By adopting the technical scheme, the walking habits of the user are stored and recorded, and when the user does not send a user instruction, the walking route of the user is matched according to the walking habits of the user, so that the position to be reached by the user can be conveniently predicted, and the second induction lamp at the next position is turned on in advance according to a prediction result.

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

the invention has the effects that the walking path information is generated according to the configured route instruction, the position of the second induction lamp is known in advance according to the position of the first induction lamp, the second induction lamp is started in advance, and the induction lamps are reasonably controlled to be started and stopped, so that the condition that the light in the area between the two induction lamps is dim or no light is generated is reduced;

and storing and recording the walking habits of the user, and matching the walking route of the user according to the walking habits of the user when the user does not send a user instruction, so that the position to be reached by the user can be conveniently predicted, and the second induction lamp at the next position is turned on in advance according to the prediction result.

Drawings

Fig. 1 is a flowchart of a control method of an induction lamp according to a first embodiment;

FIG. 2 is a flowchart illustrating implementation of step S2 according to the first embodiment;

FIG. 3 is a flowchart illustrating an implementation of step S21 according to the first embodiment;

FIG. 4 is a flowchart illustrating an implementation of step S4 according to the first embodiment;

fig. 5 is a schematic block diagram of an induction lamp control system of the second embodiment;

fig. 6 is a functional block diagram of a route configuration module of the second embodiment.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

referring to fig. 1, the control method for an induction lamp disclosed in this embodiment is suitable for night patrol lighting of workers in large buildings, such as shopping malls, residential buildings, hospitals, and the like.

The method comprises the following steps:

step S1: and acquiring a human body induction signal, and controlling the induction lamp at the position corresponding to the human body induction signal to be turned on.

In particular, induction lamps are arranged in public areas in a building at intervals and are electrically connected with each other, in the embodiment, the human body is detected by adopting an infrared detection mode, one induction lamp is correspondingly provided with a group of infrared detection devices, when a worker moves to a detection area of the infrared detection devices, the infrared detection devices detect that a person exists and transmit signals to the controller, the controller controls the first induction lamp at the corresponding position to be turned on, the controller in the embodiment is a PLC, each induction lamp has induction lamp position information corresponding to the position of the induction lamp, the human body induction signal corresponding to each induction lamp carries the induction lamp position information of the current induction lamp, in this embodiment, the first sensing lamp is used to refer to the sensing lamp at the current position, and the second sensing lamp is used to refer to the sensing lamp at the next position and arriving after a preset time, which is described below.

Step S2: and configuring a route instruction, and generating walking path information corresponding to the position information of the induction lamp according to the route instruction.

The route instruction is specifically a shortest or most convenient path which is planned in advance and reaches another position from one position, so the route instruction can form walking path information according to the planned route of the route instruction according to different planned routes of destinations.

Step S3: and acquiring the position information of the induction lamp corresponding to the position of the human body induction signal, and controlling the induction lamp at the next position in the walking path information to be turned on.

Specifically, the planned route of the user movement can be known by acquiring the walking path information, and the induction lamp at the next position can be turned on in advance according to the current position of the user.

Step S4: the method comprises the steps of obtaining indoor brightness, matching a preset brightness range to which the indoor brightness belongs, generating brightness parameter information for controlling the brightness of the induction lamp according to the preset brightness range to which the indoor brightness belongs, and adjusting the brightness of the induction lamp according to the brightness parameter information.

In this embodiment, the indoor brightness is detected by using the brightness detection device, and each induction lamp is correspondingly provided with a set of brightness detection devices, the preset brightness range division includes two brightness values, a first brightness value and a second brightness value, where the indoor brightness < the first brightness value is dim, the first brightness value < the indoor brightness < the second brightness value is dim, and the indoor brightness > the second brightness value is bright.

The luminance parameter information includes: generating a first luminance signal having a lower luminance when the indoor luminance is less than a first luminance value; when the first brightness value is less than or equal to the indoor brightness and less than or equal to the second brightness value, generating a second brightness signal with medium brightness; when the indoor brightness is larger than the second brightness value and is brighter, generating a signal for controlling the induction lamp to be turned off; adjusting the brightness of the induction lamp which is turned on at the moment according to the first brightness signal, so that the brightness of the induction lamp is not too bright to cause discomfort to human eyes when the light is dim, and the energy-saving effect is achieved to a certain extent; adjusting the brightness of the induction lamp which is turned on at the moment according to the second brightness signal, wherein the second brightness signal is greater than the indoor brightness at the moment, so that the illumination effect can be achieved; and controlling the corresponding induction lamp to be turned off according to the induction lamp turning-off signal, wherein the second brightness value is the indoor brightness of the visible object which can be clearly seen by human beings, and when the indoor brightness is greater than the second brightness value, the induction lamp does not need to be turned on, so that the effect of saving resources is achieved.

Step S5, controlling the first induction lamp to be turned off if the position of the second induction lamp obtains the human body induction signal within the preset time; if the second induction lamp position does not acquire the human body induction signal after the preset time, controlling the second induction lamp to be turned off.

Specifically, the preset time is the maximum time that the user walks to adjacent induction lamp by an induction lamp step, and by the actual position of arranging of induction lamp in the building decision, at the preset time, the user does not walk to the position of second induction lamp, then explains that the user changes the route of marcing or stops in the position of first induction lamp, closes the second induction lamp this moment, avoids the wasting of resources.

Referring to fig. 2, preferably, step S2 includes:

s20: and configuring a route instruction, acquiring a user instruction, matching the route instruction corresponding to the user instruction, and generating walking path information corresponding to the position information of the induction lamp according to the route instruction.

Specifically, the route instruction is stored in the memory, when the user uses the mobile terminal, the mobile terminal is communicated with the memory through a wireless local area network, the user sends the route instruction carrying the corresponding route to the memory, the memory calls the address content and sends the corresponding route instruction to the controller, and therefore the second induction lamp is controlled to be turned on according to the route instruction.

S21: and if the user instruction cannot be obtained, obtaining the position information of the induction lamp of the second induction lamp adjacent to the first induction lamp at the current position, and generating walking path information.

Specifically, if the user instruction is not obtained, the second induction lamps located adjacent to the first induction lamp are set to be a preset advancing method, and the induction lamp position information of the second induction lamps is combined to generate walking path information, so that the second induction lamps are controlled to be started conveniently, and meanwhile, the situation that the second induction lamps which are about to advance are not turned on due to the fact that the user instruction is not set is reduced.

Referring to fig. 3, preferably, step S21 includes:

step S210: and storing the walking path information of the user, generating historical walking path information, and generating walking path information equal to the matched historical walking path information when the matching degree of the current walking path information and the historical walking path information reaches a preset matching value.

Specifically, a user carries the terminal device of the user, the terminal device records the position information of the induction lamps which pass through between the position of the first induction lamp and the current position of the user according to the time sequence, the walking path information of the user walking forms historical walking path information, the beginning of the walking path is the position information of the induction lamp of the first induction lamp which the terminal device arrives at, the end point is when the user reaches the range of the infrared detection device of the induction lamp, but the position of the induction lamp adjacent to the induction lamp does not detect the user within the preset time, the position of the induction lamp is the end point, and the position of the first induction lamp which the terminal device arrives after the preset time is set as the beginning point of the walking path information; when a current user walks, the positions of the induction lamps passing by the user are recorded, historical walking path information is compared in real time, if the matching degree of the current walking path information and the historical walking path information reaches a preset matching value, the matching mode is that the historical walking path information with the same initial position and the current walking path information is screened, then the next position is matched, the preset matching value is that the number of the induction lamps passing by according to the walking sequence in the walking path information and a certain historical walking path is larger than half of the current historical walking path information, the walking path information is generated to be equal to the historical walking path information, and therefore subsequent induction lamps are started in sequence.

Step S211: and if the walking path information is not acquired, acquiring the induction lamp position information of a second induction lamp adjacent to the current first induction lamp position to generate the walking path information.

Specifically, the walking path information is not acquired, the user may be in the current building activity for the first time, or the current moving path is not a conventional moving path, and the user does not use the mobile terminal to send a user instruction at present, and at this time, the walking path information is generated by the position information of all preset induction lamps which may go to the position, so that the controller can conveniently turn on the second induction lamp.

Referring to fig. 4, preferably, step S4 includes,

s40: acquiring indoor brightness, matching a preset brightness range to which the indoor brightness belongs, and generating brightness parameter information for controlling the brightness of the induction lamp according to the preset brightness range to which the indoor brightness belongs, wherein the indoor brightness is in inverse proportion to the brightness parameter information;

s41: the method comprises the steps of obtaining indoor volume, matching a preset volume range to which the indoor volume belongs, adjusting brightness parameter information according to the preset volume range to which the indoor volume belongs, adjusting the brightness of an induction lamp according to the brightness parameter information, and controlling the induction lamp to be turned on and turned off, wherein the indoor volume is in direct proportion to the brightness parameter information; and when the indoor volume exceeds a preset volume threshold, controlling all the induction lamps to be started.

Specifically, a first volume value and a second volume value are preset, the second volume value is a preset volume threshold value, the second volume value is greater than the first volume value, a preset volume range is formed by the first volume value and the second volume value, and when the indoor volume is smaller than the first volume value, a time period with a small number of people is preset; the first volume value is less than or equal to the indoor volume value and less than or equal to the second volume value, and the preset time interval is a time interval during which fewer people walk; the indoor volume is greater than a second volume value and is preset to be when more people move indoors and emergency occurs; when the building is actually used, the first volume value and the second volume value need to be set according to the actual condition of the building; when the first volume value is less than or equal to the indoor volume value and less than or equal to the second volume value, if the indoor brightness is less than the first brightness value at the moment, a second brightness signal is generated, so that the brightness of the induction lamp is lightened, and the illumination is facilitated; if indoor volume > second volume value, tentatively judge for emergence emergency, control all response lamps and open, the people of being convenient for deal with emergency.

Example two:

referring to fig. 5, an induction lamp control system disclosed in this embodiment includes:

and the infrared detection module is used for detecting the position of the human body, generating a human body induction signal corresponding to the current position of the human body and generating induction lamp position information corresponding to the current position of the human body induction signal.

And the route configuration module is used for configuring a route instruction and generating walking path information.

And the brightness adjusting module is used for acquiring the indoor brightness, matching the preset brightness range to which the indoor brightness belongs, and generating brightness parameter information for controlling the brightness of the induction lamp according to the preset brightness range to which the indoor brightness belongs.

The control module is used for acquiring the position information of the induction lamp and the walking path information and controlling the induction lamp at the next position in the walking path information to be started; acquiring brightness parameter information and controlling the brightness change of the induction lamp; and if the human body induction information is not acquired at the first induction lamp position or the second induction lamp position after the preset time, controlling the first induction lamp to be turned off or the second induction lamp to be turned off.

Referring to fig. 6, preferably, the route configuration module includes a configuration sub-module, an instruction acquisition judgment sub-module, a history data storage sub-module, and a matching sub-module.

A configuration submodule for configuring the route instructions;

the instruction acquisition and judgment sub-module is used for acquiring a user instruction, matching a route instruction corresponding to the user instruction if an acquisition result exists, and generating walking path information corresponding to the position information of the induction lamp according to the route instruction; and if no acquisition result exists, generating null instruction information, acquiring the position information of the induction lamp adjacent to the current position, and generating walking path information.

And the historical data storage submodule is used for receiving the null instruction information, storing the walking path information of the user and forming historical walking path information.

And the matching sub-module is used for updating the walking path information to be equal to the matched historical walking path information when the matching degree of the current walking path information and the historical walking path information reaches a preset matching value.

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

Claims (8)

1. A control method of an induction lamp is characterized by comprising the following steps,

step S1: acquiring a human body induction signal, and controlling a first induction lamp at a position corresponding to the human body induction signal to be turned on;

step S2: configuring a route instruction, and generating walking path information corresponding to the position information of the induction lamp according to the route instruction;

step S3: and acquiring the position information of the induction lamp corresponding to the position of the human body induction signal, and controlling the second induction lamp at the next position in the walking path information to be turned on.

2. The control method of an induction lamp as claimed in claim 1, wherein the step S2 includes,

s20: configuring a route instruction, acquiring a user instruction, matching the route instruction corresponding to the user instruction, and generating walking path information corresponding to the position information of the induction lamp according to the route instruction;

s21: and if the user instruction cannot be obtained, obtaining the position information of the induction lamp of the second induction lamp adjacent to the first induction lamp at the current position, and generating walking path information.

3. The control method of an induction lamp as claimed in claim 1, further comprising step S4,

step S4: the method comprises the steps of obtaining indoor brightness of a corresponding position of each induction lamp, matching a preset brightness range to which the indoor brightness belongs, generating brightness parameter information for controlling the brightness of the induction lamp according to the preset brightness range to which the indoor brightness belongs, adjusting the brightness of the induction lamp according to the brightness parameter information, and controlling the induction lamp to be turned on and off.

4. The control method of an induction lamp as claimed in claim 1, further comprising step S5,

step S5, after the preset time, the position of the second induction lamp obtains the human body induction signal, and the first induction lamp is controlled to be turned off; and if the second induction lamp position does not acquire the human body induction signal within the preset time, controlling the induction lamp at the second position to be turned off.

5. The control method of an induction lamp as claimed in claim 1, wherein the step S21 includes,

step S210: storing user walking path information, generating historical walking path information, and generating walking path information equal to the matched historical walking path information when the matching degree of the current walking path information and the historical walking path information reaches a preset matching value;

step S211: and if the walking path information is not acquired, acquiring the induction lamp position information of a second induction lamp adjacent to the current first induction lamp position to generate the walking path information.

6. The control method of an induction lamp as claimed in claim 1, wherein the step S4 includes,

s40: acquiring indoor brightness, matching a preset brightness range to which the indoor brightness belongs, and generating brightness parameter information for controlling the brightness of the induction lamp according to the preset brightness range to which the indoor brightness belongs, wherein the indoor brightness is in inverse proportion to the brightness parameter information;

s41: the method comprises the steps of obtaining indoor volume, matching a preset volume range to which the indoor volume belongs, adjusting brightness parameter information according to the preset volume range to which the indoor volume belongs, adjusting the brightness of an induction lamp according to the brightness parameter information, and controlling the induction lamp to be turned on and turned off, wherein the indoor volume is in direct proportion to the brightness parameter information; and when the indoor volume exceeds a preset volume threshold, controlling all the induction lamps to be started.

7. An induction lamp control system is characterized by comprising an infrared detection module, a route configuration module, a brightness adjustment module and a control module;

the infrared detection module is used for detecting the position of a human body, generating a human body induction signal corresponding to the current position of the human body and generating induction lamp position information corresponding to the current position of the human body induction signal;

the route configuration module is used for configuring a route instruction and generating walking path information;

the brightness adjusting module is used for acquiring indoor brightness, matching a preset brightness range to which the indoor brightness belongs, and generating brightness parameter information for controlling the brightness of the induction lamp according to the preset brightness range to which the indoor brightness belongs;

the control module is used for acquiring the position information of the induction lamp corresponding to the current position and the walking path information and controlling the induction lamp at the next position in the walking path information to be started; acquiring brightness parameter information and controlling the brightness change of the induction lamp; and if the human body induction information is not acquired at the first induction lamp position or the second induction lamp position after the preset time, controlling the first induction lamp to be turned off or the second induction lamp to be turned off.

8. The induction lamp control system according to claim 7, wherein the route configuration module comprises a configuration sub-module, an instruction acquisition judgment sub-module, a historical data storage sub-module and a matching sub-module;

a configuration submodule for configuring the route instructions;

the instruction acquisition and judgment sub-module is used for acquiring a user instruction, matching a route instruction corresponding to the user instruction if an acquisition result exists, and generating walking path information corresponding to the position information of the induction lamp according to the route instruction; if no, generating null instruction information, acquiring position information of the induction lamp adjacent to the current position, and generating walking path information;

the historical data storage submodule receives the null instruction information, stores the user walking path information and forms historical walking path information;

and the matching sub-module is used for updating the walking path information to be equal to the matched historical walking path information when the matching degree of the current walking path information and the historical walking path information reaches a preset matching value.

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