CN110430640B - Method for controlling intelligent lamp and intelligent lamp - Google Patents

Abstract

The invention relates to a method for controlling an intelligent lamp and the intelligent lamp, wherein the method for controlling the intelligent lamp comprises the steps of detecting scene grouping selection operation; in response to a detected scene grouping selection operation, saving selected scene grouping information; receiving a broadcast message which is sent by a second intelligent lamp and comprises personnel movement information; judging whether the grouping information of the second intelligent lamp is matched with the grouping information of the first intelligent lamp or not, and determining whether the first intelligent lamp emits light or not; if so, the first smart light is illuminated. The invention solves the problems that the user is not familiar with the distribution network and can not be on the network, and the like, and the user can use the network. In addition, the working mode of the intelligent night lamp in the invention is that the night lamp in the space with people and the public space is lighted up instead of that the night lamp is lighted up when people move, thereby avoiding the interference to other space users.

Description

Method for controlling intelligent lamp and intelligent lamp

Technical Field

The invention belongs to the field of lamp control, and particularly relates to a control method of an intelligent lamp.

Background

Present common night-light control mode is the infrared induction mode, and it brings inconvenience to have: a. only when a person moves to the vicinity of the lamp, infrared light can sense and turn on the lamp, which causes the person to move for a long distance in the dark, and the person may touch other objects when moving in the dark, possibly causing injury to the person or damage to articles; b. along with the area of family is bigger and bigger, infrared induction is because the human body can not be discerned sometimes to the mounted position problem, leads to the people to walk about in the room, but has infrared induction's night-light not to light late, and this just needs to arrange several night-lights more in the room, increases the cover of night-light to and improve the promptness of lightening, this has increased not less cost undoubtedly.

In order to improve this condition among the current scheme, taken the method of establishing night-light network and linkage, its night-light product can be through the wireless network deployment of bluetooth agreement, and human removal back is sensed to a night-light, and the night-light of whole house all opens. The user is facilitated to a certain extent, but certain problems also exist: a, the operation of a distribution network is complex, and the operation is difficult for common users. The night light is started in the whole house B, so that convenience is brought to the user getting up, but light pollution is generated to other sleeping users in bedrooms, and sleeping is affected. If the person in the primary bed gets up, the night lamp in the secondary bed should not be lighted.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, a night lamp distribution network is complex, and night lamps are lighted together to cause discomfort of other people, and provides a novel intelligent lamp control method.

The technical scheme of the invention is as follows: technical scheme one does, a method for controlling intelligent lamp, its characterized in that, is applied to first intelligent lamp, includes: detecting a scene grouping selection operation; in response to a detected scene grouping selection operation, saving selected scene grouping information; receiving a broadcast message which is sent by a second intelligent lamp and comprises personnel movement information; judging whether the grouping information of the second intelligent lamp is matched with the grouping information of the first intelligent lamp or not, and determining whether the first intelligent lamp emits light or not; if so, the first smart light is illuminated.

Further, if the grouping information of the second intelligent lamp does not match the grouping information of the first intelligent lamp, the first intelligent lamp discards the received broadcast message including the personnel movement information sent by the second intelligent lamp.

Further, when the first intelligent lamp detects that a person moves in the scene, the first intelligent lamp emits light; and broadcasts the person movement information to other surrounding lighting devices.

Further, whether the grouping information of the second intelligent lamp is matched with the grouping information of the first intelligent lamp or not is judged, and whether the first intelligent lamp emits light or not is determined; if so, the first intelligent lamp emits light, and the method comprises the following steps: if the first intelligent lamp belongs to the public group, the first intelligent lamp emits light after receiving the personnel movement information sent by the second intelligent lamp; if the first intelligent lamp does not belong to the common group, whether the grouping of the second intelligent lamp and the grouping of the first intelligent lamp are the same or not is judged, and if the grouping is the same, the first intelligent lamp emits light.

Further, the broadcast message including the personal movement information sent by the second intelligent lamp also includes the serial number ID of the second intelligent lamp and the grouping information.

The second technical scheme is as follows: a smart lamp includes a grouping switch, a controller, a memory, a receiving module, and a light emitting unit, wherein the grouping switch is configured to detect a scene grouping selection operation of a user and to store grouping information in the memory; the receiving module is configured to receive broadcast messages including personnel movement information sent by other intelligent lamps; the controller is configured to judge whether the grouping information of the other intelligent lamps is matched with the grouping information of the other intelligent lamps, and determine whether to emit light; and if the light emitting units are matched, controlling the light emitting units to emit light.

Further, if the other intelligent lamp does not match with the grouping information of the intelligent lamp, the controller discards the received broadcast message sent by the other intelligent lamp.

Further, the intelligent lamp further comprises a broadcasting module and a sensor, wherein the sensor is configured to detect whether people move in the scene; when the situation that a person moves in a scene is detected, the sensor sends the person movement information to the controller; the controller controls the light-emitting unit to emit light and sends personnel movement information, intelligent lamp numbers ID and grouping information to the broadcasting module; the broadcasting module broadcasts the personnel movement information, the intelligent lamp number ID and the grouping information to other surrounding intelligent lamps.

Further, the judgment of whether the grouping information of the other intelligent lamps is matched with the grouping information of the other intelligent lamps is carried out, and whether the other intelligent lamps emit light is determined; if so, controlling the light emitting unit to emit light, including: if the intelligent lamp belongs to the public group, after the broadcast messages of other intelligent lamps are received, the controller controls the light-emitting unit to emit light no matter which group the other intelligent lamps belong to; if the intelligent lamp does not belong to the common group, the controller judges whether the other intelligent lamps and the intelligent lamp are grouped in the same way, and if the other intelligent lamps and the intelligent lamp are grouped in the same way, the controller controls the light-emitting unit to emit light.

Further, the grouping switch comprises a pull-tab switch or a button switch.

Further, the intelligent lamp comprises an intelligent night lamp, an intelligent corridor lamp or an intelligent wall lamp.

The invention has the beneficial effects that: the invention provides a novel network-distribution-free mode for connecting an intelligent night lamp to form a network. The problems that a user is not familiar with a distribution network and cannot be on the network are solved, and the user can buy and use the network. In addition, the working mode of the intelligent night lamp in the invention is that the night lamp in the space with people and the public space is lighted up instead of that the night lamp is lighted up when people move, thereby avoiding the interference to other space users.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a schematic diagram of a preferred intelligent night light control network topology according to an embodiment of the present invention;

FIG. 2 is a schematic diagram illustrating a preferred grouping method for intelligent nightlights according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a method for detecting movement of a person using an intelligent night light according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a control method of an intelligent night light according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of an intelligent night light according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention will be further explained with reference to the drawings.

Fig. 1 is a schematic diagram of a preferred topology of an intelligent night light control network according to an embodiment of the present invention.

As shown in FIG. 1, a plurality of intelligent night lights can be arranged in one set of room, for example, 2 intelligent night lights are arranged in bedroom 1, living room and 2 three rooms of bedroom respectively, and networking is performed in a wireless mode such as Bluetooth or 2.4G between the night lights. Still be provided with sensor, broadcast module on every intelligence night-light to and receiving module. Wherein, the sensor is used for sensing the movement of the human body; the broadcasting module is used for broadcasting the human body movement information to surrounding intelligent night lights after sensing the human body movement; and the receiving module is used for receiving the human body movement information broadcasted by the surrounding intelligent night lamp.

According to the application scene difference of intelligence night-light, divide into different equipment groups with the night-light, for example, the intelligence night-light in living room divides into 0 group, belongs to public group, and the intelligence night-light in bedroom 1 divides into 1 group, and the intelligence night-light in bedroom 2 divides into 2 groups. To how to carry out the division of grouping, can select this intelligence night-light to belong to which a set of through stirring the plectrum on the intelligence night-light, also can select this intelligence night-light to belong to which a set of through pressing the button on the intelligence night-light, this 2 kinds of advantages of selecting intelligence night-light grouping through mechanical mode are, do not need the user to carry out complicated joining in marriage net to intelligence night-light, only need the user manual selection can, convenient operation, simple easy-to-use.

Fig. 2 is a schematic diagram of a preferred grouping method for intelligent nightlights according to an embodiment of the present invention.

As shown in fig. 2, the grouping method of the intelligent night light includes the following steps:

s21, a scene grouping selection operation is detected.

Specifically, a switch for selecting the grouping is arranged on the intelligent night lamp, the switch can be a shifting sheet, and a user can manually shift the shifting sheet on the intelligent night lamp to select which grouping the intelligent night lamp belongs to; the switch may also be a button that the user may manually press to select which group the intelligent nightlight belongs to. Besides the above-mentioned plectrum and button, the switch can also be other modes that the user can select grouping by simple operation.

For example, be provided with a plurality of gear of grouping on the switch, the user wants to install intelligent night-light when the living room, can be with the switch setting of the selection of intelligent night-light grouping at 0 group, and the user wants to install intelligent night-light when bedroom 1, then with the switch setting of the selection of intelligent night-light grouping at 1 group.

After the user has set up the grouping of intelligent night-light, scene grouping operation that intelligent night-light detectable user set up.

S22, in response to the detected scene grouping selection operation, saving the selected scene grouping information.

Specifically, after the intelligent night light detects the scene grouping operation set by the user, the scene grouping information set by the user is stored in the memory in the intelligent night light for subsequent use.

Fig. 3 is a schematic diagram of a method for detecting movement of a person by using an intelligent night light according to an embodiment of the present invention.

As shown in fig. 3, the intelligent night light detection method includes the following steps:

and S31, the intelligent night light detects the person movement information.

Specifically, be provided with the sensor that detection personnel removed in the intelligence night-light, when personnel removed the detection range of sensor in, the sensor informed intelligence night-light with personnel's removal information.

S32, the intelligent night light emits light while sending broadcast messages including personnel movement information to other intelligent night lights around.

When the intelligent night lamp acquires that people move, the light emitting unit of the intelligent night lamp lights, and meanwhile, the broadcast message including the personnel movement information is sent to other surrounding intelligent night lamps.

Fig. 4 is a schematic diagram of a control method of an intelligent night light according to an embodiment of the present invention.

As shown in fig. 4, the steps of the control method of the intelligent night light are as follows:

and S41, receiving broadcast messages including personnel movement information sent by other intelligent night lamps.

Specifically, after setting the scene grouping of the intelligent night light, the intelligent night light can receive broadcast messages sent by other surrounding intelligent night lights, wherein the broadcast messages comprise serial numbers ID, grouping information and detected personnel movement information of other intelligent night lights; for example, intelligence night-light a receives the broadcast message that intelligence night-light b sent, and the ID that carries intelligence night-light b in the broadcast message is 02, and the grouping is 1 group, and the human information of removing that detects, tells that there is the personnel to remove under intelligence night-light b promptly.

And S42, judging whether the grouping information of the intelligent night lamp is matched with the grouping information of the intelligent night lamp sending the broadcast message to determine whether to emit light.

Specifically, after the intelligent night lamp a receives the broadcast message that the carrying person sent by the intelligent night lamp b moved, the intelligent night lamp extracts the scene grouping information of the intelligent night lamp b from the broadcast message, and judges whether the scene grouping information of the intelligent night lamp a and the scene grouping information of the intelligent night lamp b are matched or not.

If the scene of intelligence night-light a is divided into 0 groups, self belongs to public group promptly, then no matter which group is divided into the scene of intelligence night-light b, intelligence night-light a all shines.

If the scene group of the intelligent night lamp a does not belong to the public group, the scene group of the intelligent night lamp a is compared with the scene group of the intelligent night lamp b, and if the scene groups are the same, the intelligent night lamp a emits light; if the scene groups are different, the intelligent night lamp a does not emit light, and the received broadcast message sent by the intelligent night lamp b is discarded.

The scenes shown in fig. 1 to 4 may be applied to other types of intelligent lamps, such as an intelligent wall lamp and an intelligent corridor lamp, besides the intelligent night lamp, and are not described herein.

Fig. 5 is a schematic structural diagram of an intelligent night light according to an embodiment of the present invention.

As shown in fig. 5, the intelligent night light 5 includes a grouping switch 51, a controller 52, a broadcasting module 53, a receiving module 54, a sensor 55, a memory 56, and a light emitting unit 57.

The grouping switch 51 is arranged on the housing of the intelligent night lamp 5, and is configured to receive grouping selection of a user and send grouping selection information of the user to the controller 52; the controller 52 is configured to save the received packet information to the memory 56. The grouping switch 51 may be a toggle switch, a push-button switch, or a mode in which other users can select grouping by simple operation, and this simple grouping selection mode avoids a complex distribution process for users, and can improve user experience.

A sensor 55 configured to detect whether a person is moving near the intelligent night light 5 and, if so, to send the person movement information to the controller 52.

A controller 52 configured to send a light emitting instruction to the light emitting unit 57 after receiving the person movement information; and transmits the person movement information detected by the sensor 55, and the number ID of the intelligent night light 5 stored in the memory 56, and the grouping information to the broadcast module 53.

The light emitting unit 57 is configured to emit light upon receiving a light emitting instruction.

The broadcast module 53 is configured to send a broadcast message including the person movement information to the surrounding intelligent nightlights. The broadcast message also includes the number ID of the intelligent night light 5, and the grouping information.

The receiving module 54 is configured to receive broadcast messages sent by other intelligent nightlights and forward the received broadcast messages sent by other intelligent nightlights to the controller 52.

The controller 52 is configured to analyze broadcast messages sent by other intelligent night lights to obtain serial numbers ID and grouping information of the other intelligent night lights, and movement information of people detected by the other intelligent night lights; the controller 52 determines whether or not the group information of itself matches the group information of the other intelligent night lamps based on the analyzed information, and determines whether or not to emit light.

Specifically, if the scene group of the intelligent night light 5 is the 0 group, that is, the scene group itself belongs to the common group, the controller 52 sends the light emission instruction to the light emission unit 57 regardless of which group the scene group of the other intelligent night lights is.

If the scene group of the intelligent night light 5 does not belong to the common group 0 group, such as the group 1 or the group 2, the intelligent night light 5 compares the scene group of the intelligent night light 5 with the scene groups of the other intelligent night lights, and if the scene groups are the same, the controller 52 sends a light emitting instruction to the light emitting unit 57; if the scene packets are not the same, the controller 52 discards the broadcast message received from the other intelligent nightlights.

The structure of the intelligent night lamp in fig. 5 can also be applied to other types of lamps such as intelligent wall lamps and intelligent corridor lamps.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A method of controlling a smart lamp, applied to a first smart lamp, comprising:

detecting a scene grouping selection operation;

in response to a detected scene grouping selection operation, saving selected scene grouping information;

receiving a broadcast message which is sent by a second intelligent lamp and comprises personnel movement information;

judging whether the grouping information of the second intelligent lamp is matched with the grouping information of the first intelligent lamp or not, and determining whether the first intelligent lamp emits light or not;

if the first intelligent lamp is matched with the second intelligent lamp, the first intelligent lamp emits light;

if the first intelligent lamp belongs to the public group, the first intelligent lamp emits light after receiving the personnel movement information sent by the second intelligent lamp;

if the first intelligent lamp does not belong to the common group, whether the grouping of the second intelligent lamp and the grouping of the first intelligent lamp are the same or not is judged, and if the grouping is the same, the first intelligent lamp emits light.

2. A method of controlling a smart lamp as recited in claim 1,

and if the grouping information of the second intelligent lamp is not matched with the grouping information of the first intelligent lamp, the first intelligent lamp discards the received broadcast message which is sent by the second intelligent lamp and comprises the personnel movement information.

3. A method of controlling a smart lamp as recited in claim 1,

when the first intelligent lamp detects that a person moves in a scene, the first intelligent lamp emits light;

and broadcasts the person movement information to other surrounding lighting devices.

4. A method of controlling a smart lamp as recited in claim 1,

the broadcast message which is sent by the second intelligent lamp and comprises the personnel movement information also comprises the serial number ID of the second intelligent lamp and grouping information.

5. A smart lamp includes a group switch, a controller, a memory, a receiving module, and

a light-emitting unit, characterized in that,

wherein the grouping switch is configured to detect a scene grouping selection operation by a user and to save grouping information in a memory;

the receiving module is configured to receive broadcast messages including personnel movement information sent by other intelligent lamps;

the controller is configured to judge whether the grouping information of the other intelligent lamps is matched with the grouping information of the other intelligent lamps, and determine whether to emit light; if the light-emitting units are matched, the light-emitting units are controlled to emit light;

if the first intelligent lamp belongs to the public group, the first intelligent lamp emits light after receiving the personnel movement information sent by the second intelligent lamp;

if the first intelligent lamp does not belong to the common group, whether the grouping of the second intelligent lamp and the grouping of the first intelligent lamp are the same or not is judged, and if the grouping is the same, the first intelligent lamp emits light.

6. The smart lamp of claim 5,

and if the other intelligent lamps are not matched with the grouping information of the intelligent lamps, the controller discards the received broadcast messages sent by the other intelligent lamps.

7. The smart lamp of claim 6,

the intelligent lamp further comprises a broadcasting module and a sensor, wherein the sensor is configured to detect whether people move in the scene;

when the situation that a person moves in a scene is detected, the sensor sends the person movement information to the controller;

the controller controls the light-emitting unit to emit light and sends personnel movement information, intelligent lamp numbers ID and grouping information to the broadcasting module;

the broadcasting module broadcasts the personnel movement information, the intelligent lamp number ID and the grouping information to other surrounding intelligent lamps.

8. The smart lamp of claim 7,

judging whether the grouping information of the other intelligent lamps is matched with the grouping information of the other intelligent lamps, and determining whether the other intelligent lamps emit light; if so, controlling the light emitting unit to emit light, including:

if the intelligent lamp belongs to the public group, after the broadcast messages of other intelligent lamps are received, the controller controls the light-emitting unit to emit light no matter which group the other intelligent lamps belong to;

if the intelligent lamp does not belong to the common group, the controller judges whether the other intelligent lamps and the intelligent lamp are grouped in the same way, and if the other intelligent lamps and the intelligent lamp are grouped in the same way, the controller controls the light-emitting unit to emit light.

9. The smart lamp of claim 8,

the grouping switch comprises a pull sheet type switch or a button type switch.

10. The smart lamp of claim 9,

the intelligent lamp comprises an intelligent night lamp, an intelligent corridor lamp or an intelligent wall lamp.

Images