CN220830553U - Colorful firework lamp - Google Patents

Abstract

The application discloses a colorful firework lamp which comprises a flashing unit, a main control unit and a wireless remote control unit. The flashing unit comprises a trunk lamp strip and a plurality of branch lamp strips, the wireless remote control unit is used for sending switch instructions, the main control unit comprises a lamp effect main control board, and the lamp effect main control board comprises a wireless receiving module, a sound sampling module, a main control chip circuit and a power supply module. The display mode of the flashing unit comprises a simulation firework mode and an acoustic wave mode, the acoustic wave mode is used for adjusting the flashing parameter of the flashing unit according to the received acoustic wave electric signal, the simulation firework mode is used for enabling branch lamp strips of the flashing unit to flash firstly, the branch lamp strips lag behind trunk lamp strips to flash, and the flashing rate of the trunk lamp strips is larger than that of the branch lamp strips. Because the flashing speed of the branch lamp strip is not greater than that of the trunk lamp strip, the flashing effect of the colorful firework lamp is more vivid to the real firework, and the user experience is greatly improved.

Description

Colorful firework lamp

Technical Field

The application relates to the technical field of lighting lamps, in particular to a colorful firework lamp.

Background

The firework neon lamp is widely applied to places such as shops, bars, home decoration, city brightening projects and the like, is mainly used for outdoor baking of holiday atmosphere, and has single color and monotonous change in the prior art.

Disclosure of Invention

The application mainly solves the technical problem of how to improve the ornamental value of the fancy dazzling neon lamp.

According to a first aspect, in one embodiment there is provided a glare festive lantern comprising a flashing unit, a main control unit and a wireless remote control unit;

The flashing unit comprises a trunk lamp strip and at least one branch lamp strip; one end of the trunk lamp belt is connected with the main control unit, and the other end of the trunk lamp belt is electrically connected with each branch lamp; one end of each branch lamp belt is connected with the trunk lamp belt, and the other end of each branch lamp belt is radially arranged around the trunk lamp belt;

The wireless remote control unit is used for sending a switching instruction to the main control unit in a wireless communication mode;

The main control unit comprises a lamp effect main control board; the light effect main control board comprises a wireless receiving module, a sound sampling module, a main control chip circuit and a power supply module;

The wireless receiving module is used for acquiring the switch instruction sent by the wireless remote control unit in a wireless communication mode, and responding to the switch instruction, sending a power-on electric signal or a power-off electric signal to the main control chip circuit so as to be used for starting or closing the colorful firework lamp;

The sound sampling module is used for collecting sound signals in the working environment of the colorful firework lamp, converting the collected sound signals into sound wave electric signals and then sending the sound wave electric signals to the lamp effect main control board;

the power supply module is used for providing a working power supply for the colorful firework lamp;

the lighting effect main control board is used for receiving the power-on electric signal or the power-off electric signal and responding to the power-on electric signal or the power-off electric signal to turn on or turn off the colorful firework lamp; the lighting master control board is also used for controlling the display mode of the flashing unit;

The display mode of the flashing unit comprises a firework simulating mode and an acoustic wave mode;

When the flashing unit works in the sound wave mode, the light effect main control board is used for receiving the sound wave electric signals and adjusting the flashing parameters of the flashing unit according to the waveforms of the sound wave electric signals; the flashing unit sets the flashing state of the trunk lamp strip and each branch lamp strip according to the flashing parameters, wherein the flashing parameters comprise flashing sequence, flashing color and/or flashing frequency;

When the flashing unit works in the analog firework display mode, the light effect main control board is used for controlling the trunk lamp strip to flash firstly, the branch lamp strip is lagged behind the trunk lamp strip to flash, and the flashing rate of the trunk lamp strip is larger than that of the branch lamp strip.

In an embodiment, the device further comprises an audio playing unit, which is used for playing a first sound wave when the trunk lamp belt is shined, and playing a second sound wave when the branch lamp belt is shined; wherein the first sound wave is different from the second sound wave.

In an embodiment, the wireless receiving module includes an infrared receiving unit, and the wireless remote control unit is an infrared remote control.

In an embodiment, the wireless receiving module includes a bluetooth communication unit, and the wireless remote control unit is a mobile intelligent terminal.

In one embodiment, the trunk light belt and the branch light belt respectively comprise at least two flashing modules which are sequentially connected in series; each flashing module comprises N LED lamps, wherein N is a natural number; the N LED lamps comprise at least two colors, and the types of the colors comprise red, orange, yellow, green, cyan, blue and/or purple.

In an embodiment, when the flashing unit works in the analog firework display mode, the sequential flashing speeds of the flashing modules in the branch lamp strip gradually increase, the sequential flashing speeds of the flashing modules in the branch lamp strip also gradually increase, and the minimum value of the sequential flashing speeds of the flashing modules in the branch lamp strip is greater than the maximum value of the sequential flashing speeds of the flashing modules in the branch lamp strip.

In an embodiment, the display mode of the flashing unit further includes a running mode; when the flashing unit works in the running mode, the LED lamps of each color in the flashing module of each trunk lamp strip and each branch lamp strip are sequentially and circularly flashed.

In an embodiment, the display mode of the flashing unit further includes a rhythm mode, and when the flashing unit works in the rhythm mode, the trunk lamp band and the branch lamp band flash each of the flashing modules in sequence according to a preset music melody.

In an embodiment, the display mode of the flashing unit further includes a graphics mode, and when the flashing unit works in the graphics mode, the trunk light band and the branch light band only flash the flashing module at the designated position sequentially according to a preset pattern.

In an embodiment, the main control chip circuit is connected to the flashing unit through three data lines, and the three data lines are respectively used as a driving power line, a control signal line and/or a ground line of the flashing unit.

According to the colorful firework lamp of the embodiment, as the flashing speed of the branch lamp strip is not greater than that of the trunk lamp strip, the flashing effect of the colorful firework lamp is more realistic to that of a real firework, and the user experience is greatly improved.

Drawings

FIG. 1 is a block diagram of a color-tinted firework in one embodiment;

FIG. 2 is a schematic diagram of a flash unit in one embodiment;

Fig. 3 is a schematic diagram of a product structure of a dazzle firework lamp in another embodiment.

Detailed Description

The application will be described in further detail below with reference to the drawings by means of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present application. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, related operations of the present application have not been shown or described in the specification in order to avoid obscuring the core portions of the present application, and may be unnecessary to persons skilled in the art from a detailed description of the related operations, which may be presented in the description and general knowledge of one skilled in the art.

Furthermore, the described features, operations, or characteristics of the description may be combined in any suitable manner in various embodiments. Also, various steps or acts in the method descriptions may be interchanged or modified in a manner apparent to those of ordinary skill in the art. Thus, the various orders in the description and drawings are for clarity of description of only certain embodiments, and are not meant to be required orders unless otherwise indicated.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The term "coupled" as used herein includes both direct and indirect coupling (coupling), unless otherwise indicated.

Embodiment one:

Referring to fig. 1, a block diagram of a colorful firework lamp according to an embodiment of the present application includes a lighting unit 1, a main control unit 2 and a wireless remote control unit 3.

Referring to fig. 2, a schematic structure of a flashing unit in an embodiment, the flashing unit 1 includes a trunk light band 120 and at least one branch light band 110. One end of the trunk lamp strip 120 is connected to the main control unit 3, and the other end is electrically connected to each branch lamp strip 110. One end of each branch lamp strip 110 is connected with the trunk lamp strip 120, and the other end is radially arranged around the trunk lamp strip 120. The wireless remote control unit 3 is used for sending a switching instruction to the main control unit 2 in a wireless communication mode. The main control unit 2 comprises a lamp effect main control board 10 and an external power supply 20. The light effect main control board 10 comprises a wireless receiving module 13, a sound sampling module 14, a main control chip circuit 11 and a power supply module 12. The wireless receiving module 13 is configured to obtain a switching instruction sent by the wireless remote control unit 3 through a wireless communication manner, and send a power on signal or a power off signal to the main control chip circuit 11 in response to the switching instruction, so as to be used for on or off of the colorful firework lamp. The sound sampling module 14 is configured to collect sound signals in a working environment of the colorful firework lamp, convert the collected sound signals into sound wave electrical signals, and send the sound wave electrical signals to the lighting effect main control board 10. The power module 12 is used for providing working power for the colorful firework lamp. An external power source 20 is used to provide power to the power module 12. The lighting effect main control board 10 is used for receiving a power-on electric signal or a power-off electric signal, and responding to the power-on electric signal or the power-off electric signal to turn on or turn off the colorful firework lamp. The light effect main control board 10 is also used for controlling the display mode of the flashing unit 1. In one embodiment, the display modes of the flashing unit 1 include an analog firework mode and a sound wave mode. When the flashing unit 1 works in the sound wave mode, the light effect main control board 10 is used for receiving the sound wave electric signals and adjusting the flashing parameters of the flashing unit 1 according to the waveforms of the sound wave electric signals, wherein the flashing unit 1 sets the flashing state of the trunk lamp strip and each branch lamp strip according to the flashing parameters, and the flashing parameters comprise flashing sequence, flashing color and/or flashing frequency. When the flashing unit 1 works in the analog firework display mode, the light effect main control board 10 is used for controlling the trunk light bands to flash firstly, the branch light bands lag behind the trunk light bands to flash, and the flashing rate of the trunk light bands is larger than that of the branch light bands. The flashing rate refers to the speed at which branches and trunks transmit light (adjacent flashing units flash in sequence).

In an embodiment, the colorful firework lamp further comprises an audio playing unit, wherein the audio playing unit is used for playing the first sound wave when the trunk lamp belt is shiny, and playing the second sound wave when the branch lamp belt is shiny; wherein the first sound wave is different from the second sound wave. The main control chip is used for switching the display mode of the flashing unit 1, and the driving chip is used for flashing driving of the flashing unit 1.

Referring to fig. 3, a schematic product structure of a color firework lamp in another embodiment is shown, which includes a lighting unit 1, a wireless remote control unit 3, a light effect main control board 10 and an external power supply 20. In one embodiment, the wireless receiving module 13 includes an infrared receiving unit, and the wireless remote control unit 3 is an infrared remote control.

In one embodiment, the wireless receiving module 13 includes a bluetooth communication unit, and the wireless remote control unit is a mobile intelligent terminal.

In one embodiment, as shown in fig. 2, trunk and branch light strips 120 and 110 each include at least two flashing modules 130 connected in series. Each flashing module 130 includes N LED lamps, N being a natural number. The N LED lamps comprise at least two colors, and the types of the colors comprise red, orange, yellow, green, cyan, blue and/or purple. In one embodiment, the light emitting LEDs of the flashing module are integrally packaged with the LEDs using a chip.

In an embodiment, when the flashing unit works in the analog firework display mode, the sequential flashing speeds of the flashing modules in the branch lamp strip are gradually increased, the sequential flashing speeds of the flashing modules in the branch lamp strip are also gradually increased, and the minimum value of the sequential flashing speeds of the flashing modules in the branch lamp strip is smaller than the maximum value of the sequential flashing speeds of the flashing modules in the branch lamp strip. In one embodiment, the trunk lamp strip is sequentially lighted from the bottom (the lamp effect main control board connecting end) to the top (the branch lamp strip connecting end), and at the junction of the trunk lamp strip and the branch lamp strip, the color is changed into seven colors (red, orange, yellow, green, cyan, blue and purple) to be sequentially lighted, so that the firework blooming process is truly simulated from slow to fast. In one embodiment, the trunk lamp belt starts to move and flicker at the speed of 50ms, and the speed of the junction where the trunk lamp belt and the branch lamp belt meet is converted into the speed of 200ms to move and flicker, so that the firework blooming effect is really similar.

In an embodiment, the display mode of the flashing unit further includes a running mode, and when the flashing unit works in the running mode, the LED lamps of each color in each flashing module of the trunk light strip and the branch light strip are sequentially and circularly flashed. For example, a single LED in a flashing module is 6 pixels apart, multiple colors, and cycled.

In an embodiment, the display mode of the flashing unit further includes a rhythm mode, and when the flashing unit works in the rhythm mode, the trunk light band and the branch light band flash each flashing module in sequence according to a preset music melody. For example, the wireless remote control unit is a mobile intelligent terminal, music is selected through the APP of the intelligent terminal, different numbers of flashing modules are displayed according to melodies (rolling, energy, blooming, star flashing, classical, soft, dynamic and/or disco and the like) of the selected music, and the bright and colorful and random light effect can be emitted.

In an embodiment, the display mode of the flashing unit further includes a graphics mode, and when the flashing unit works in the graphics mode, the trunk light strip and the branch light strip only flash the flashing modules at the designated positions sequentially according to a preset pattern. For example, the wireless remote control unit is a mobile intelligent terminal, the corresponding GIF (graphics input function) diagram is selected through the APP of the intelligent terminal, the flashing modules with different numbers and positions are selected according to the corresponding colors and shapes in the GIF diagram to flash, the effect is colorful, and the experience feeling of a user is better. In an embodiment, the flashing unit has a segmentation fixed color function, and can set the brightness, the color and the flashing rate of the flashing module in the trunk lamp strip and the branch lamp strip respectively, so that the configuration of the colorful firework lamp is more flexible.

In one embodiment, the main control chip circuit is connected with the flashing unit through three data lines, and the three data lines are respectively used as a driving power line, a control signal line and/or a grounding line of the flashing unit.

The embodiment of the application discloses a colorful firework lamp which comprises a flashing unit, a main control unit and a wireless remote control unit. The flashing unit comprises a trunk lamp strip and a plurality of branch lamp strips, the wireless remote control unit is used for sending switch instructions, the main control unit comprises a lamp effect main control board, and the lamp effect main control board comprises a wireless receiving module, a sound sampling module, a main control chip circuit and a power supply module. The display mode of the flashing unit comprises a simulation firework mode and an acoustic wave mode, the acoustic wave mode is used for adjusting the flashing parameter of the flashing unit according to the received acoustic wave electric signal, the simulation firework mode is that a trunk lamp band of the flashing unit flashes firstly, a branch lamp band is lagged behind the trunk lamp band to flash, and the flashing rate of the trunk lamp band is larger than that of the branch lamp band. Because the shining rate of branch lamp area is less than the shining rate of trunk lamp area for dazzle the scintillation effect of various firework lamp and be more lifelike in real fireworks, improve user experience greatly.

In one embodiment, the seven-color fireworks and the multi-color fireworks in the firework mode increase the sound explosion effect, namely when the firework starts from the bottom of the trunk, sound of biu is emitted, when the firework reaches the junction of the trunk and the branches, sound of explosion is emitted, and various sounds imitating the explosion of the firework can be selected. I.e. highly imitates the firework blooming effect from two dimensions of "speed" and "sound".

It should be noted that, in the embodiments of the present application, all software and methods are related to the prior art, for example, the flashing rates and time sequences of the branch light bands and the trunk light bands in the flashing unit are controlled, and the specific implementation manner may refer to the content of the related specification or patent document, so that the present application does not protect, nor does it describe the related principles in detail.

The foregoing description of the invention has been presented for purposes of illustration and description, and is not intended to be limiting. Several simple deductions, modifications or substitutions may also be made by a person skilled in the art to which the invention pertains, based on the idea of the invention.

Claims (10)

1. The colorful firework lamp is characterized by comprising a flashing unit, a main control unit and a wireless remote control unit;

The flashing unit comprises a trunk lamp strip and at least one branch lamp strip; one end of the trunk lamp belt is connected with the control unit, and the other end of the trunk lamp belt is electrically connected with each branch lamp; one end of each branch lamp belt is connected with the trunk lamp belt, and the other end of each branch lamp belt is radially arranged around the trunk lamp belt;

The wireless remote control unit is used for sending a switching instruction to the main control unit in a wireless communication mode;

The main control unit comprises a lamp effect main control board; the light effect main control board comprises a wireless receiving module, a sound sampling module, a main control chip circuit and a power supply module;

The wireless receiving module is used for acquiring the switch instruction sent by the wireless remote control unit in a wireless communication mode, and responding to the switch instruction, sending a power-on electric signal or a power-off electric signal to the main control chip circuit so as to be used for starting or closing the colorful firework lamp;

The sound sampling module is used for collecting sound signals in the working environment of the colorful firework lamp, converting the collected sound signals into sound wave electric signals and then sending the sound wave electric signals to the lamp effect main control board;

the power supply module is used for providing a working power supply for the colorful firework lamp;

the lighting effect main control board is used for receiving the power-on electric signal or the power-off electric signal and responding to the power-on electric signal or the power-off electric signal to turn on or turn off the colorful firework lamp; the lighting master control board is also used for controlling the display mode of the flashing unit;

The display mode of the flashing unit comprises an analog firework display mode and a sound wave mode;

When the flashing unit works in the sound wave mode, the light effect main control board is used for receiving the sound wave electric signals and adjusting the flashing parameters of the flashing unit according to the waveforms of the sound wave electric signals; the flashing unit sets the flashing state of the trunk lamp strip and each branch lamp strip according to the flashing parameters, wherein the flashing parameters comprise flashing sequence, flashing color and/or flashing frequency;

When the flashing unit works in the analog firework display mode, the light effect main control board is used for controlling the trunk lamp strip to flash firstly, the branch lamp strip is lagged behind the trunk lamp strip to flash, and the flashing rate of the trunk lamp strip is larger than that of the branch lamp strip.

2. The glare spot light of claim 1, further comprising an audio playback unit for playing a first sound wave when the trunk light strip is flashing and a second sound wave when the branch light strip is flashing; wherein the first sound wave is different from the second sound wave.

3. The glare lamp of claim 1, wherein the wireless receiving module comprises an infrared receiving unit, and wherein the wireless remote control unit is an infrared remote control.

4. The glare lamp of claim 1, wherein the wireless receiving module comprises a bluetooth communication unit, and wherein the wireless remote control unit is a mobile intelligent terminal.

5. The glare lamp of claim 1, wherein the trunk lamp strip and the branch lamp strip each comprise at least two flashing modules connected in series in sequence; each flashing module comprises N LED lamps, wherein N is a natural number; the N LED lamps comprise at least two colors, and the types of the colors comprise red, orange, yellow, green, cyan, blue and/or purple.

6. The glare lamp of claim 5, wherein when the flashing unit is operated in the analog firework display mode, the sequential flashing speeds of the flashing modules in the branch light strip are gradually increased, the sequential flashing speeds of the flashing modules in the branch light strip are also gradually increased, and the minimum value of the sequential flashing speeds of the flashing modules in the branch light strip is greater than the maximum value of the sequential flashing speeds of the flashing modules in the branch light strip.

7. The glare lamp of claim 5, wherein the display mode of the flashing unit further comprises a running mode; when the flashing unit works in the running mode, the LED lamps of each color in the flashing module of each trunk lamp strip and each branch lamp strip are sequentially and circularly flashed.

8. The glare lamp of claim 5, wherein the display mode of the flashing unit further comprises a rhythmic mode, and wherein the trunk light strip and the branch light strip flash each of the flashing modules in sequence according to a preset musical melody when the flashing unit operates in the rhythmic mode.

9. The glare lamp of claim 5, wherein the display mode of the flashing unit further comprises a graphic mode, and wherein when the flashing unit is operated in the graphic mode, the trunk light strip and the branch light strip sequentially flash only the flashing modules at designated positions according to a predetermined pattern.

10. The glare lamp of claim 1, wherein the main control chip circuit is connected to the flashing unit by three data lines, the three data lines being respectively used as a driving power line, a control signal line and/or a ground line of the flashing unit.