阅读说明：本技术 一种智能远程互动月球灯及其使用方法 (Intelligent remote interactive moon lamp and using method thereof ) 是由 茅敏敏 金妍 翟鑫梦 吴俊杰 徐丘雨 于 2020-12-27 设计创作，主要内容包括：本发明涉及一种智能远程互动月球灯,底座上的月球形灯罩内安装有与控制模块连接的三合一RGB灯珠,控制模块通过无线通信模块分别连接至用户终端以及另一盏月球灯的控制模块,控制模块还连接至可控电源开关的控制端,可控电源开关的两端分别连接至电源模块、三合一RGB灯珠,控制模块用于接收来自用户终端的灯光颜色指令以及来自另一盏月球灯的灯光交互指令,并分别输出对应的控制信号给三合一RGB灯珠、可控电源开关,以控制三合一RGB灯珠的电流值、控制可控电源开关的导通与关断,从而实现三合一RGB灯珠灯光颜色亮度的改变以及三合一RGB灯珠的点亮与熄灭。与现有技术相比,本发明能够实现异地灯具之间的远程控制互动,且能同步实现灯光的颜色连续变化。(The invention relates to an intelligent remote interactive moon lamp, wherein three-in-one RGB lamp beads connected with a control module are installed in a moon-shaped lampshade on a base, the control module is respectively connected to a user terminal and the control module of another moon lamp through a wireless communication module, the control module is also connected to the control end of a controllable power switch, two ends of the controllable power switch are respectively connected to a power module and the three-in-one RGB lamp beads, the control module is used for receiving a light color instruction from the user terminal and a light interaction instruction from the other moon lamp and respectively outputting corresponding control signals to the RGB lamp beads and the controllable power switch so as to control the current value of the three-in-one RGB lamp beads and control the on and off of the controllable power switch, thereby realizing the change of the color brightness of the RGB lamp beads and the lighting and extinguishing of the RGB lamp beads. Compared with the prior art, the remote control interaction between the lamps at different places can be realized, and the continuous change of the color of the light can be synchronously realized.)

1. The utility model provides an intelligence remote interaction moon lamp, includes base (1), its characterized in that, be provided with moon globe (2) on base (1), install trinity RGB lamp pearl (3) in moon globe (2), trinity RGB lamp pearl (3) are connected with control module (4), control module (4) are connected to user terminal (6) and another moon lamp's control module (4) respectively through wireless communication module (5), control module (4) still are connected to the control end of controllable switch (7), the both ends of controllable switch (7) are connected to power module (8), trinity lamp pearl RGB (3) respectively, control module (4) are used for receiving the light colour instruction that comes from user terminal (6) and the light interaction instruction that comes from another moon lamp control module (4), and respectively output corresponding control signals to the three-in-one RGB lamp beads (3) and the controllable power switch (7) so as to control the current value of the three-in-one RGB lamp beads (3) and control the on and off of the controllable power switch (7), thereby realizing the change of the light color brightness of the three-in-one RGB lamp beads (3) and the lighting and extinguishing of the three-in-one RGB lamp beads (3).

2. An intelligent remote interactive moon light as claimed in claim 1, wherein the user terminal (6) is installed with a color selection module (601), and the color selection module (601) is configured to receive a color selection operation of a user to output a corresponding light color command to the control module (4).

3. The intelligent remote interactive moon lamp according to claim 2, wherein an RGB current conversion unit (401) is arranged in the control module (4), the RGB current conversion unit (401) is used for converting RGB values of the light color instructions into corresponding current values, and outputting the converted current values to the three-in-one RGB lamp beads (3).

4. The long-range interactive moon lamp of intelligence of claim 1, characterized in that, install vibration sensor (9) on moon globe (2), vibration sensor (9) are connected with control module (4), vibration sensor (9) are used for gathering the beat signal on moon globe (2) to transmit the beat signal of gathering for control module (4), control module (4) output corresponding control signal gives controllable switch (7), makes trinity RGB lamp pearl (3) light after power module (8) gets electricity.

5. The intelligent remote interactive moon lamp of claim 1, wherein the control module (4) is further connected with a voice interactive module (10), the voice interactive module (10) is used for receiving and recognizing voice signals from users, the control module (4) outputs corresponding control signals to the controllable power switch (7) according to the voice signals of the users, so that the three-in-one RGB lamp beads (3) are lightened after being powered on from the power module (8) or the three-in-one RGB lamp beads (3) are turned off after being powered off.

6. An intelligent remote interactive moon light as claimed in claim 1, wherein the power module (8) comprises a battery unit, and the battery unit is connected with the mains supply through a charging interface.

7. An intelligent remote interactive moon light as claimed in claim 1, wherein said base (1) is provided with an electronic digital alarm clock (11).

8. The intelligent remote interactive moon lamp as claimed in claim 1, wherein the three-in-one RGB lamp bead (3) is a red-green-blue three-in-one RGB lamp bead JH-1RGB14J30-S2 with a light macro chip.

9. An intelligent remote interactive moon light according to claim 5, wherein the voice interaction module (10) is a Bluetooth smart speaker.

10. The method for using the intelligent remote interactive moon light as claimed in claim 1, comprising the following steps:

s1, the moon lamp A and the moon lamp B are respectively accessed to a network and a user terminal through respective wireless communication modules, wherein the moon lamp A and the moon lamp B are two remote lamps;

s2, the first user lights the moon lamp A and uploads the lighting pairing information to the wireless network, the second user obtains the lighting pairing information from the wireless network, then lights the moon lamp B and uploads the pairing success information to the wireless network, and therefore pairing of the moon lamp A and the moon lamp B is completed;

similarly, if the second user lights the moon lamp B and uploads the lighting pairing information to the wireless network, the first user acquires the lighting pairing information from the wireless network, then lights the moon lamp A and uploads the pairing success information to the wireless network, so that pairing of the moon lamp B and the moon lamp A is completed;

s3, the first user selects the light color at the user terminal, the control module of the moon lamp A changes the light color of the moon lamp A by controlling the current, and the control module of the moon lamp A simultaneously transmits the current control information to the control module of the moon lamp B by the wireless communication module, so that the control module of the moon lamp B synchronously controls and changes the light color of the moon lamp B correspondingly;

similarly, if the second user selects the light color at the user terminal, the control module of the moon lamp B changes the light color of the moon lamp B by controlling the magnitude of the current, and simultaneously transmits the current control information to the control module of the moon lamp a through the wireless communication module, so that the control module of the moon lamp a synchronously and correspondingly controls and changes the light color of the moon lamp a;

s4, the first user extinguishes the moon lamp A and uploads extinguishment information to a wireless network, at the moment, the moon lamp A and the moon lamp B are in a pairing cancellation state, the second user obtains extinguishment information from the wireless network, and then the first user can autonomously select to extinguish the moon lamp B or keep the moon lamp B in a lighting state;

similarly, if the second user extinguishes the moon lamp B and uploads the extinguishment information to the wireless network, and the moon lamp B and the moon lamp a are in a pairing cancellation state at this time, the first user acquires the extinguishment information from the wireless network, and then can autonomously select to extinguish the moon lamp a or keep the moon lamp a in an on state.

Technical Field

The invention relates to the technical field of intelligent lamps, in particular to an intelligent remote interactive moon lamp and a using method thereof.

Background

The lamp is an indispensable lighting appliance in daily life of people, is also a necessary decorative artwork for indoor and outdoor environments, and the lamp of each era is a sign for the development of social productivity. With the improvement of living standards of people, the requirements of people on the beauty and functionality of lamps are higher and higher, various intelligent lamps appear in the current market, Chinese patent CN102523649A discloses an intelligent induction lamp, a Fresnel lens is used as a lampshade, the induction range of the induction lamp can be enlarged, the structure is simple, the manufacturing cost is low, when a plurality of intelligent induction lamps are arranged in a pedestrian passageway at intervals, the induction lamp adjacent to or appointed in front can be turned on in time while the induction lamp is turned on in an adjustable mode, the pedestrian passageway in front is illuminated in advance, and the induction lamp after being turned on can be turned off in a delayed mode; chinese patent CN208268826U discloses an intelligent sensing lamp, which is provided with a human infrared sensor to detect human infrared signals, and transmit the detected human infrared signals to a main control circuit board, and the signals are processed by the main control circuit board and then converted into control signals, so as to control the on/off of a light-emitting circuit board.

Current intelligent lamps and lanterns adopt pronunciation or human detection's mode mostly to the realization is to the control of lamps and lanterns, and it can only provide the illumination function and give the user, and remote induction control can not be realized to these lamps and lanterns, also can not be through realizing the continuous variation of light colour, can't provide interactive function for the lamps and lanterns user.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an intelligent remote interactive moon lamp and a using method thereof, so that the purposes that the lamp can be remotely controlled and the color of the lamp light can be continuously changed are achieved, and an interactive function can be provided for a user.

The purpose of the invention can be realized by the following technical scheme: an intelligent remote interactive moon lamp comprises a base, wherein a moon-shaped lampshade is arranged on the base, three-in-one RGB lamp beads are arranged in the moon-shaped lampshade and connected with the control module, the control module is respectively connected to the user terminal and the control module of another moon lamp through the wireless communication module, the control module is also connected to the control end of the controllable power switch, the two ends of the controllable power switch are respectively connected to the power module and the three-in-one RGB lamp bead, the control module is used for receiving a light color instruction from a user terminal and a light interaction instruction from another moon lamp control module and respectively outputting corresponding control signals to the three-in-one RGB lamp bead and the controllable power switch, so as to control the current value of the three-in-one RGB lamp bead and control the on and off of the controllable power switch, thereby realize the change of trinity RGB lamp pearl light colour luminance and the light and the extinguishment of trinity RGB lamp pearl.

Furthermore, a color selection module is installed on the user terminal, and the color selection module is used for receiving color selection operation of a user so as to output a corresponding light color instruction to the control module.

Further, be provided with RGB current conversion unit in the control module, RGB current conversion unit is used for converting the RGB value of light colour instruction into corresponding current value to the current value that will convert and obtain exports trinity RGB lamp pearl.

Further, install vibration sensor on the moon shape lamp shade, vibration sensor is connected with control module, vibration sensor is used for gathering the signal of patting on the moon shape lamp shade to with the signal transmission of patting of gathering give control module, control module exports the control signal who corresponds and gives controllable switch, makes trinity RGB lamp pearl light after getting electricity from power module.

Further, control module still is connected with the voice interaction module, the voice interaction module is used for receiving and discerning the speech signal who comes from the user, control module is according to user's speech signal, and the control signal that the output corresponds gives controllable switch, makes trinity RGB lamp pearl follow power module and gets to light or make trinity RGB lamp pearl lose the power after extinguish after the power module.

Further, the power module comprises a battery unit, and the battery unit is connected with the mains supply through a charging interface.

Furthermore, an electronic digital alarm clock is installed on the base.

Further, the three-in-one RGB lamp bead is specifically a red, green and blue three-in-one RGB lamp bead JH-1RGB14J30-S2 of the light macro chip.

Further, the voice interaction module is specifically a bluetooth smart speaker.

A use method of an intelligent remote interactive moon lamp comprises the following steps:

s1, the moon lamp A and the moon lamp B are respectively accessed to a network and a user terminal through respective wireless communication modules, wherein the moon lamp A and the moon lamp B are two remote lamps;

s2, the first user lights the moon lamp A and uploads the lighting pairing information to the wireless network, the second user obtains the lighting pairing information from the wireless network, then lights the moon lamp B and uploads the pairing success information to the wireless network, and therefore pairing of the moon lamp A and the moon lamp B is completed;

similarly, if the second user lights the moon lamp B and uploads the lighting pairing information to the wireless network, the first user acquires the lighting pairing information from the wireless network, then lights the moon lamp A and uploads the pairing success information to the wireless network, so that pairing of the moon lamp B and the moon lamp A is completed;

s3, the first user selects the light color at the user terminal, the control module of the moon lamp A changes the light color of the moon lamp A by controlling the current, and the control module of the moon lamp A simultaneously transmits the current control information to the control module of the moon lamp B by the wireless communication module, so that the control module of the moon lamp B synchronously controls and changes the light color of the moon lamp B correspondingly;

similarly, if the second user selects the light color at the user terminal, the control module of the moon lamp B changes the light color of the moon lamp B by controlling the magnitude of the current, and simultaneously transmits the current control information to the control module of the moon lamp a through the wireless communication module, so that the control module of the moon lamp a synchronously and correspondingly controls and changes the light color of the moon lamp a;

s4, the first user extinguishes the moon lamp A and uploads extinguishment information to a wireless network, at the moment, the moon lamp A and the moon lamp B are in a pairing cancellation state, the second user obtains extinguishment information from the wireless network, and then the first user can autonomously select to extinguish the moon lamp B or keep the moon lamp B in a lighting state;

similarly, if the second user extinguishes the moon lamp B and uploads the extinguishment information to the wireless network, and the moon lamp B and the moon lamp a are in a pairing cancellation state at this time, the first user acquires the extinguishment information from the wireless network, and then can autonomously select to extinguish the moon lamp a or keep the moon lamp a in an on state.

Compared with the prior art, the invention has the following advantages:

the lamp comprises a lamp shade, a control module, a wireless communication module, a lamp control module and a lamp control module, wherein the lamp shade is internally provided with three-in-one RGB lamp beads, the three-in-one RGB lamp beads are communicated and connected with each other between two lamps in different places through the control module and the wireless communication module, a user can independently select light colors at a user terminal, the control module controls corresponding current values to the three-in-one RGB lamp beads, the lamp can emit light with continuously variable colors, and meanwhile, the other lamp matched with the lamp can synchronously change the light colors, so that the remote control of the lamp in different places and the interaction.

Secondly, the color selection module is arranged at the user terminal, the RGB current conversion unit is arranged in the control module, a user can independently select light colors at the user terminal at any time, the light color instruction is output to the control module through the wireless communication module, and then the RGB current conversion unit in the control module can convert the RGB value of the light color instruction into a corresponding current value and output the converted current value to the three-in-one RGB lamp bead, so that the aim of continuously changing the light colors of the remote control lamp is fulfilled, and meanwhile, the accuracy and timeliness of control are guaranteed.

The vibration sensor connected with the control module is arranged on the surface of the lampshade, and the control module is connected with the voice interaction module, so that more lamp control modes are provided, a user can realize the lighting or extinguishing operation of the lamp by flapping the lampshade or through voice control, and the intelligent controllability of the whole lamp is further improved.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a functional block diagram of the present invention;

FIG. 3 is a schematic flow chart of the method of the present invention;

the notation in the figure is: 1. base, 2, moon shape lamp shade, 3, trinity RGB lamp pearl, 4, control module, 401, RGB current conversion unit, 5, wireless communication module, 6, user terminal, 601, colour selection module, 7, controllable switch, 8, power module, 9, vibration sensor, 10, the mutual module of pronunciation, 11, electronic digital alarm clock.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments.

Examples

As shown in fig. 1 and 2, the intelligent remote interactive moon lamp comprises a base 1, wherein a moon-shaped lampshade 2 is arranged on the base 1, the moon-shaped lampshade 2 is manufactured into a moon-shaped lampshade by using a 3D printing technology, the moon-shaped lampshade is attractive in appearance, the moon-shaped lampshade is designed in a moon-imitating manner, and romantic elements sharing the moon in miles are added, so that the feeling of humanity can be enhanced.

Three-in-one RGB lamp beads 3 are arranged in the moon-shaped lampshade 2, the three-in-one RGB lamp beads 3 are connected with a control module 4, the control module 4 is respectively connected with a user terminal 6 and the control module of another moon lamp through a wireless communication module 5, the control module 4 is also connected with the control end of a controllable power switch 7, two ends of the controllable power switch 7 are respectively connected to the power module 8 and the three-in-one RGB lamp bead 3, the control module 4 is used for receiving a light color instruction from the user terminal 6 and a light interaction instruction from another moon lamp control module, and respectively outputs corresponding control signals to the three-in-one RGB lamp bead 3 and the controllable power switch 7, so as to control the current value of the three-in-one RGB lamp bead 3 and control the on and off of the controllable power switch 7, thereby realize the change of 3 light colour luminance of trinity RGB lamp pearl and the lighting and extinguishing of trinity RGB lamp pearl 3.

Specifically, a color selection module 601 is installed on the user terminal 6, the color selection module 601 is used for receiving color selection operation of a user, and outputting a corresponding light color instruction to the control module 4, an RGB current conversion unit 401 is installed in the control module 4, the RGB current conversion unit 401 is used for converting an RGB value of the light color instruction into a corresponding current value, and outputting the converted current value to the three-in-one RGB lamp bead 3, chips of three colors of red, green and blue are placed in the three-in-one RGB lamp bead, and the luminous intensity of the three colors can be changed by changing the current passing through the three chips, so that continuous change of the light color is realized, in the embodiment, the three-in-one RGB lamp bead 3 specifically selects a light macro chip red, green and blue three-in-one RGB lamp bead JH-1RGB14J 30;

the power module 8 includes a battery unit, and the battery unit is connected with the commercial power through a charging interface.

In addition, in order to further improve the intelligent controllability of the lamp, a vibration sensor 9 is installed on the lunar globe 2, the vibration sensor 9 is connected with the control module 4, the vibration sensor 9 is used for collecting flapping signals on the lunar globe 2 and transmitting the collected flapping signals to the control module 4, and the control module 4 outputs corresponding control signals to the controllable power switch 7, so that the three-in-one RGB lamp beads 3 are lightened after being powered on from the power module 8;

control module 4 still is connected with voice interaction module 10, voice interaction module 10 is used for receiving and discerning the speech signal who comes from the user, control module 4 is according to user's speech signal, controllable switch 7 is given to the control signal that the output corresponds, make trinity RGB lamp pearl 3 light or make trinity RGB lamp pearl 3 lose the electricity after getting the electricity from power module 8 and extinguish, in this embodiment, bluetooth intelligent speaker is specifically chooseed for use to voice interaction module 10, can realize intelligent voice conversation function after bluetooth intelligent speaker links to each other with the network, can cooperate control module 4 to use.

In this embodiment, the base 1 is further provided with an electronic digital alarm clock 11 to provide time display and timing functions for the user.

The intelligent remote interactive moon lamp is applied to practice, and the specific use method is shown in fig. 3, and comprises the following steps:

s1, accessing the remote lamp into the network and the user terminal: the moon lamp A and the moon lamp B are respectively accessed to a network and a user terminal through respective wireless communication modules, wherein the moon lamp A and the moon lamp B are two remote lamps;

s2, pairing the remote lamps: the first user lights the moon lamp A and uploads the lighting pairing information to the wireless network, the second user obtains the lighting pairing information from the wireless network, then lights the moon lamp B and uploads the pairing success information to the wireless network, and therefore pairing of the moon lamp A and the moon lamp B is completed;

similarly, if the second user lights the moon lamp B and uploads the lighting pairing information to the wireless network, the first user acquires the lighting pairing information from the wireless network, then lights the moon lamp A and uploads the pairing success information to the wireless network, so that pairing of the moon lamp B and the moon lamp A is completed;

s3, remote control interaction of the remote lamp: the method comprises the steps that a first user selects light color at a user terminal, a control module of a moon lamp A changes the light color of the moon lamp A by controlling the current, and simultaneously transmits current control information to a control module of a moon lamp B through a wireless communication module, so that the control module of the moon lamp B synchronously controls and changes the light color of the moon lamp B correspondingly;

similarly, if the second user selects the light color at the user terminal, the control module of the moon lamp B changes the light color of the moon lamp B by controlling the magnitude of the current, and simultaneously transmits the current control information to the control module of the moon lamp a through the wireless communication module, so that the control module of the moon lamp a synchronously and correspondingly controls and changes the light color of the moon lamp a;

s4, canceling the pairing of the remote lamps: the first user extinguishes the moon lamp A and uploads the extinguishment information to the wireless network, at the moment, the moon lamp A and the moon lamp B are in a pairing cancellation state, the second user obtains the extinguishment information from the wireless network, and then the moon lamp B can be automatically selected to be extinguished or kept in a lighting state;

similarly, if the second user extinguishes the moon lamp B and uploads the extinguishment information to the wireless network, and the moon lamp B and the moon lamp a are in a pairing cancellation state at this time, the first user acquires the extinguishment information from the wireless network, and then can autonomously select to extinguish the moon lamp a or keep the moon lamp a in an on state.

In summary, according to the intelligent remote interactive moon lamp provided by the invention, after two different-place lamps are successfully paired, one of the two different-place lamps lights up the lamp, and the lighting signal can be transmitted to the control module of the other lamp by using the wireless communication module, so that the other lamp can be remotely controlled to light up.

When actual remote control is interacted, the system is mainly divided into three parts of control, communication and feedback:

firstly, a control part:

the circuit receives a switching instruction from the voice interaction module and the singlechip;

the circuit receives a flapping signal from the surface of the lampshade, and changes a light intensity instruction, and the sensor;

a circuit for receiving a command from a user terminal to continuously change color;

two, wireless communication technology part

The wireless communication module forms a local area network between the control modules of the two lamps and the user terminal through the wireless router, so that synchronization of data and control instructions is realized.

Third, feedback part

Receiving a dual-port input instruction from the wireless communication module, and applying the instruction to the control module again to realize dual-port control so as to achieve a feedback effect;

after the user terminal is connected with the lamp, the color of the light can be changed by rotating the color disc, and a color changing instruction is transmitted to another lamp through the wireless communication module and the control module, so that double-end control is realized;

the hardware part of the color serialization technology is mainly divided into a color change realization device and a software turntable control part:

(1) color change realizing device

The chips of red, green and blue colors are placed in one lamp bead, light is controlled through the conduction of current, the luminous intensity of the three colors is changed through changing the current passing through the three chips, and color serialization is achieved.

(2) Software turntable control module

After a certain color is determined, the user terminal automatically identifies the RGB value of the color, the control module converts the RGB value into current values passing through each chip through an algorithm, transmits the current values to the lamp, and realizes continuous color change through a designed circuit.

After this embodiment utilizes wireless network to realize that allopatric lamps and lanterns bind, realize long-range interaction through the light control to lamps and lanterns, many parties hold the lamp, if lamps and lanterns are lighted to one end (luminance is the one-level), other parties can light own lamp as the response, both sides lamps and lanterns simultaneously luminance promotion (luminance is the second grade), be connected with the other party through the cell-phone webpage, after both parties pair successfully, can realize remote control, and the colour through cell-phone webpage control lamp, realize the colour serialization, pair the back, both sides colour can realize the synchronous change, transmit different emotional feelings with this:

1) the lamps are connected into a wireless network, and the small programs of the user terminals bind the lamps;

2) a first user turns on the lamp A and simultaneously turns on the lamp B matched with the lamp A (at the moment, the lamps are at the same primary brightness);

3) in response to the second user turning on light B, light a, light B become brighter (both secondary brightness) at the same time;

4) in the using process, the RGB color plates can be adjusted through a small program interface, the color temperature of the lamp can be adjusted, and different moods or special meanings can be transmitted by different colors;

5) when the lamp A and the lamp B are not used any more, the lamp A and the lamp B are reduced to first-level brightness when the lamp B is turned off by a second user;

6) the second user can cancel the pairing through the applet, then the lamp B is turned off, the lamp a still maintains the level brightness, and the first user can also turn off the lamp a by himself.

The intelligent remote interactive moon lamp combines a wireless transmission technology and a color change persistence technology, and mainly realizes the functions of multi-party control, networking control, mutual response and continuous color change;

the intelligent remote interactive moon lamp provided by the invention can be used as follows: the remote control system is added into the lamp for people who are left behind, lovers, girlfriends and relatives in different places and cannot gather due to epidemic situations, interaction is enhanced, people can feel the acquiescent accompanying and caring of the other party by a unique communication mode exceeding the space, and the happiness is improved;

the intelligent remote interactive moon lamp can be controlled by a small program at a user terminal: the mobile phone is bound with the lamp, and the lamp is connected to the network, so that the remote control of the mobile phone can be realized;

the intelligent remote interactive moon lamp has the advantages that 3D printing technology is utilized for the appearance, the appearance is attractive, the good will of sharing the moon in miles is transmitted, the metal support and the color paint spraying are adopted for manufacturing, the arc design is adopted, and the texture of the lamp is improved;

the intelligent remote interactive moon lamp provided by the invention has the following color lights: the RGB adjusts the design, strengthens interactive interest, satisfies individual hobby, can create multiple atmosphere. In the using process, the RGB color plates can be adjusted through a small program interface, the color temperature of the lamp can be adjusted, and different moods or special meanings can be transmitted by different colors;

in addition, the intelligent remote interactive moon lamp can also be customized in appearance and function, and is designed according to the requirements of different people.