CN112492733A - RGB-WW point control intelligent lamp - Google Patents

Abstract

The invention discloses an RGB-WW point control intelligent lamp, and relates to the technical field of decorative lighting. A plurality of lamp strings are connected in parallel on the main wire, the middle of each lamp string is folded into a lamp string section and a conducting wire section, and the lamp string section is formed by sequentially connecting a plurality of RGB-WW tetrodes in series; a four-core chip is arranged in the RGB-WW quadrupole tube, and an address written by an encoder is arranged in the four-core chip; the two ends of the main line are respectively connected with a connector male terminal and a connector female terminal, the connector male terminal at the end part of the main line is connected with a controller mechanism through the connector female terminal, and the controller mechanism is connected to 24-240V voltage through a plug. The intelligent lamp chip has the advantages that the function and the effect are outstanding, the intelligent lamp chip is internally provided with the address, the address is compiled through the encoder, the intelligent power supply is controlled, the effects of single control, multiple line control and the like are realized, the operation is convenient, the use is flexible, and the application prospect is wide.

Description

RGB-WW point control intelligent lamp

Technical Field

The invention relates to the technical field of decorative lighting, in particular to an RGB-WW point control intelligent lamp.

Background

The RGB-WW point control intelligent lamp is a main decoration product for Christmas, and is also an indispensable decoration product for festival, cultural exchange, cultural activities and night scene lightening of vast consumers in public places. However, the current color control of the light string is troublesome, the change of the color of the light string needs to be changed manually by changing the program of the control box, the operation is very inconvenient, the light string can not flexibly adapt to the change of the requirement, and in addition, the structure of the light string is simple, and the effect of rendering the environment can not be achieved. In order to solve the problems, a novel RGB-WW point control intelligent lamp is particularly necessary to be designed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the RGB-WW point control intelligent lamp which is reasonable in structural design, simple and convenient to operate, capable of flexibly adapting to the change of requirements, outstanding in functional effect, capable of playing a role in rendering environment, diversified and comprehensive in function, strong in practicability and easy to popularize and use.

In order to achieve the purpose, the invention is realized by the following technical scheme: the RGB-WW point-controlled intelligent lamp comprises lamp strings, a main line, a lamp string section, a wire section, RGB-WW tetrodes, an encoder, a connector male terminal, a connector female terminal, a controller mechanism and a plug, wherein the main line is connected with a plurality of lamp strings in parallel, the lamp strings are vertically and downwards arranged, the middle of each lamp string is folded into two sections of the lamp string section and the wire section, the lamp string section is formed by sequentially connecting a plurality of RGB-WW tetrodes in series, and the positive pole of the RGB-WW tetrodes is connected with the negative pole of the adjacent RGB-WW tetrodes; a four-core chip is arranged in the RGB-WW quadrupole tube, and an address written by an encoder is arranged in the four-core chip; the two ends of the main line are respectively connected with a connector male terminal and a connector female terminal, the connector male terminal at the end part of the main line is connected with a controller mechanism through the connector female terminal, and the controller mechanism is connected to 24-240V voltage through a plug.

Preferably, the lamp string section and the wire section are arranged at intervals along the horizontal direction of the main wire; the RGB-WW tetrode in the lamp string section is arranged at a single interval from top to bottom and is respectively connected with the adjacent left and right wire sections at equal intervals in sequence.

Preferably, the external diameter of the RGB-WW tetrode is one of 3mm, 4mm, 5mm and 8 mm; the RGB-WW tetrode comprises a bulb and a PC shell, wherein the bulb is packaged in the PC shell through epoxy resin, and the four-core chip is arranged in the bulb and is R red-G green-B blue-WW warm white.

Preferably, the encoder comprises a display panel, encoder keys and a probe, the encoding encoder keys are used for inputting programs to be displayed on the display panel, the encoding correctness is verified through the probe, the encoder is connected with an encoding input end, the encoder is further provided with a socket, and the encoder is connected with the RGB-WW tetrode through the socket.

Preferably, the controller mechanism comprises a fuse for current protection, a voltage-limiting control piezoresistor, a filter for filtering noise and separating signals and a high-frequency-resistance low-frequency-pass filter circuit, the output end of the filter circuit is respectively connected to the input end of the MOSFET and the DC transformer, the DC transformer is respectively connected with the driving module and the MCU, the MCU is connected in parallel with a WiFi and Bluetooth module, a remote control module, a program module and a button which are controlled by a wireless terminal, the WiFi and Bluetooth module, the remote control module, the program module and the button are connected in parallel in the circuit, the color of the RGB-WW tetrode can be changed by any one of the WiFi and Bluetooth module, the remote control module, the program module and the button, and the operation is convenient and flexible; the WiFi and Bluetooth modules are PCBA boards integrating WiFi and Bluetooth functions, the wireless terminal sends signals to the WiFi and Bluetooth modules, and the WiFi and Bluetooth modules transmit the emitted signals to tetrodes with RGB-WW built-in addresses. The remote control module is wirelessly connected with the remote controller; the MCU is connected with the driving module through the heat dissipation assembly, the output ends of the driving module and the DC transformer are both connected to the input end of the MOSFET, and the output end of the MOSFET is connected to the lamp string.

Preferably, a waterproof rubber ring is arranged at the joint of the connector male terminal and the connector female terminal.

The invention has the beneficial effects that: the RGB-WW point control intelligent lamp has the advantages that the functional effect is prominent, the address is arranged in the intelligent lamp chip, and the address is compiled through the encoder, so that the effects of single control, multiple line control and the like are realized through intelligent power control, the operation is convenient, the use is flexible, and the application prospect is wide.

Drawings

The invention is described in detail below with reference to the drawings and the detailed description;

FIG. 1 is a schematic diagram of a connection circuit according to the present invention;

FIG. 2 is a schematic diagram of an encoder according to the present invention;

FIG. 3 is a block circuit diagram of the controller mechanism of the present invention;

FIG. 4 is a schematic view of a linear light string according to the present invention;

FIG. 5 is a schematic view of a net lamp according to the present invention;

FIG. 6 is a schematic view of a curtain lamp according to the present invention;

fig. 7 is a schematic structural diagram of an ice stripe lamp applied in the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 7, the following technical solutions are adopted in the present embodiment: the RGB-WW point-controlled intelligent lamp comprises lamp strings 1, a main line 2, a lamp string section 3, a lead section 4, RGB-WW tetrodes 5, an encoder 6, a connector male terminal 7, a connector female terminal 8, a controller mechanism 9 and a plug 10, wherein the main line 2 is connected with a plurality of lamp strings 1 in parallel, the lamp strings 1 are vertically and downwards arranged, the middle of each lamp string 1 is folded into two sections, namely the lamp string section 3 and the lead section 4, the lamp string section 3 is formed by sequentially connecting a plurality of RGB-WW tetrodes 5 in series, and the anode 11 of the RGB-WW tetrodes is connected with the cathode 12 of adjacent RGB-WW tetrodes; a four-core chip is arranged in the RGB-WW tetrode 5, an address is arranged in the four-core chip, and the address is compiled through an encoder 6; the two ends of the main line 2 are respectively connected with a connector male terminal 7 and a connector female terminal 8, a waterproof rubber ring 14 is arranged at the joint of the connector male terminal 7 and the connector female terminal 8, the connector male terminal 7 at the end part of the main line is connected with a controller mechanism 9 through the connector female terminal 8, and the controller mechanism 9 is connected to 24-240V voltage through a plug 10.

It should be noted that the string segments 3 and the wire segments 4 are arranged at intervals along the horizontal direction of the main wire 2; the RGB-WW tetrode 5 in the lamp string section 3 is arranged at a single interval from top to bottom and is respectively connected with the left and right adjacent wire sections 4 at intervals in sequence.

The external diameter of the RGB-WW tetrode 5 is one of 3mm, 4mm, 5mm and 8 mm; the RGB-WW tetrode 5 comprises a bulb and a PC shell, wherein the bulb is packaged in the PC shell through epoxy resin, the four-core chip is arranged in the bulb, and the four-core chip is R red-G green-B blue-WW warm white.

It is worth noting that an address encoder is arranged inside the RGB-WW tetrode 5, the encoder 6 comprises a display panel 6-1 for displaying parameter values, an encoder key 6-2 and a probe 6-3 for verifying whether the encoding is correct, the program is input through the encoder key 6-2 to be encoded, the encoded program is displayed on the display panel 6-1, the probe 6-3 is used for verifying whether the encoding is correct, the encoder 6 is connected with an encoding input end 6-4, the encoder is powered through the encoding input end 6-4, the encoder 6 is further provided with a socket 6-5, and the encoder 6 is connected with the RGB-WW tetrode 5 through the socket 6-5.

In addition, the controller mechanism 9 comprises a fuse 9-1 with current protection, a voltage-limiting control piezoresistor 9-2, a filter 9-3 for filtering noise and separating signals and a high-frequency resistance low-frequency pass filter circuit 9-4, the output end of the filter circuit 9-4 is respectively connected to the input end of the MOSFET9-5 and the DC transformer 9-6, the DC transformer 9-6 is respectively connected with the drive module 9-7 and the MCU9-8, the direct current after voltage change is output to the drive module 9-7 and the MCU9-8, the MCU9-8 is connected in parallel with a WiFi and Bluetooth module 9-9, a remote control module 9-10, a program module 9-11 and a button 9-12 through a circuit board circuit, the WiFi and Bluetooth module 9-9 is controlled through a wireless terminal, the WiFi and Bluetooth module 9-9 is a PCBA board integrating WiFi and Bluetooth functions, the remote control modules 9-10 are wirelessly connected with a remote controller 13; the WiFi and Bluetooth module 9-9, the remote control module 9-10, the program module 9-11 and the button 9-12 are connected in parallel in the circuit, the color of the RGB-WW tetrode can be changed through any one of the WiFi and Bluetooth module 9-9, the remote control module 9-10, the program module 9-11 and the button 9-12, and the operation is convenient and flexible; the MCU9-8 is connected with the drive module 9-7 through the heat dissipation assembly 9-13, the output end of the MCU9-8 passes through the heat dissipation assembly 9-13 and the drive module 9-7, the output ends of the drive module 9-7 and the DC transformer 9-6 are both connected to the input end of the MOSFET9-5, and the output end of the MOSFET9-5 is connected to the light string.

The working principle of the specific embodiment is as follows: when the wireless terminal is used, the wireless terminal sends a signal to the WiFi and Bluetooth modules 9-9, the WiFi and Bluetooth modules 9-9 transmit the transmitted signal to the tetrode with the built-in address of the RGB-WW, the address of the chip of the RGB-WW quadrupole is changed through the encoder 6, the switch of any one of the WiFi and Bluetooth modules 9-9, the remote control module 9-10, the program module 9-11 and the button 9-12 is closed, the other three modules are opened to form a loop, and the change of the color of the RGB-WW tetrode is controlled through controlling the address encoder.

When the plug 10 is electrified to access 24-240V voltage, the 24-240V voltage reaches the input end of the controller mechanism 9 and reaches the fuse 9-1 through the circuit of the circuit board, and the fuse 9-1 for current protection and the voltage-limiting controlled piezoresistor 9-2 are arranged between the other end of the plug 10 and the filter 9-3. Wherein, the fuse has the following functions: when a circuit is in fault or abnormal, the current is continuously increased, and the increased current may damage some important devices or valuable devices in the circuit, or may burn the circuit or even cause fire, then the fuse will be fused to cut off the current when the current is abnormally increased to a certain height, thereby playing a role in protecting the safe operation of the circuit. The voltage-limiting protection device is a voltage-limiting protection device, and when overvoltage appears between two poles of the voltage-limiting protection device, the voltage-limiting protection device can clamp the voltage to a relatively fixed voltage value through the voltage-limiting protection device by utilizing the nonlinear characteristic of the voltage-limiting protection device, so that the protection of a rear-stage circuit is realized. From the piezoresistor 9-2 through the circuit board circuit to the filter 9-3, which is a circuit or an arithmetic processing system with frequency selection function, and has the functions of filtering noise and separating various signals. The filter circuit 9-4 is connected with the end of the filter 9-3 through a circuit board circuit, the basic function of the filter circuit is to allow a certain frequency to circulate or prevent a certain frequency to circulate, the basic filter circuit has four types of high pass, low pass, band pass and band stop high pass, the high frequency pass prevents the low frequency low pass, the band pass opposite to the high pass allows the specified frequency to circulate, the band stop is prevented, and the specified frequency is prevented from circulating the frequency.

The filter circuit 9-4 is connected to the DC transformer 9-6 through a circuit board circuit, the DC transformer 9-6 converts the input direct current into alternating current through a self-excited oscillation circuit, and then the alternating current is converted into direct current for output after the voltage is changed through the DC transformer 9-6, or the alternating current is converted into high-voltage direct current for output through a voltage doubling rectifying circuit. From the DC transformer 9-6 to the MCU9-8 micro control unit through the circuit board circuit, the frequency and specification of the CPU are reduced properly, and the peripheral interfaces such as memory, counter, USB, A/D conversion, UART, PLC, DMA, etc., even the LCD driving circuit are integrated on a single chip to form a chip-level computer.

From the DC transformer 9-6 to the WiFi and Bluetooth modules 9-9, the remote control module 9-10, the program module 9-11 and the button 9-12 through the circuit board circuit, the WiFi and Bluetooth modules 9-9 adopt PCBA boards integrating WiFi and Bluetooth functions for short-distance wireless communication, and are divided into a data module and a voice module according to functions, the modules are mainly used in the field of short-distance wireless data transmission, can be conveniently connected with Bluetooth or WIFI equipment of a PC, a mobile phone and a flat panel, avoid complicated cable connection, and can directly replace serial port lines; the remote control modules 9-10 are wirelessly connected with the remote controller 13, and the remote control modules 9-10 play a role in control and function conversion transmission; the program modules 9-11 refer to writing and changing components of functional program files of the product; the buttons 9-12 are switches.

The output ends of the WiFi and Bluetooth modules 9-9, the remote control modules 9-10, the program modules 9-11 and the buttons 9-12 reach the MCU9-8 through the circuit board circuit, the output ends of the MCU9-8 reach the heat dissipation assemblies 9-13 through the circuit board circuit, and the heat dissipation assemblies 9-13 are used as temperature protection assemblies; the output ends of the DC transformer 9-6 and the heat dissipation assembly 9-13 reach the input end of the driving module 9-7, and the driving module 9-7 is used for simulating a previous-stage module of the tested module and is equivalent to a main program of the tested module. From the output of the driver module 9-7 through the circuit board circuit to the MOSFET9-5, which can be widely used in the field effect transistors of analog and digital circuits, and finally from the MOSFET output to the load.

In the embodiment, a plurality of lamp strings 1 are connected with each other to form a quadrilateral mesh structure, the lamp strings 1 can adopt linear lamp strings (figure 4), mesh lamps (figure 5), curtain lamps (figure 6), ice strip lamps (figure 4) or other shapes, the shape is various, different rendering effects are achieved for indoor decoration and illumination, and the appearance is attractive and elegant.

Example 1: the RGB-WW point-controlled intelligent lamp adopts a linear lamp string (figure 4), the number of RGB-WW tetrodes 5 is 100, and the intelligent lamp with the structure has the following functions:

(1) RGB-WW running constant brightness cycle function: the RGB-WW point control intelligent lamp is provided with 100 tetrodes, 1 key of a remote controller is pressed, the 1 st bulb starts to run to the 100 th bulb when being red, the running time interval is 5 seconds, the 1 st bulb starts to run to the 100 th bulb when being green after 5 seconds, and the running time interval is 5 seconds; the colors are sequentially red, green, blue, white, orange, grass green, purple, warm white, light blue and pink.

(2) The flashing pursuit function one: the RGB-WW point control intelligent lamp is provided with 100 tetrodes, a remote controller 2 key is pressed, the 1 st bulb starts to flicker and chase to the 100 th bulb when being red, the time interval is 2 seconds, the 1 st bulb starts to flicker and chase to the 100 th bulb when being green after 5 seconds, and the time interval is 2 seconds; the colors are sequentially red, green, blue, white, orange, grass green, purple, warm white, light blue and pink.

(3) A flicker superposition function: the RGB-WW point control intelligent lamp has 100 tetrodes, and when a key of a remote controller 3 is pressed, an 100/99 th bulb flickers when being red, then gradually becomes normally bright, and finally becomes red and normally bright; the 98/97 th bulb gradually becomes normal bright after flickering when being red, and finally becomes red and normal bright until the 2/1 th bulb gradually becomes normal bright after flickering when being red, and finally becomes red and normal bright; the colors are sequentially red, green, blue, white, orange, grass green, purple, warm white, light blue and pink.

(4) A light-on-off function: the RGB-WW point-control intelligent lamp is provided with 100 tetrodes, 4 keys of a remote controller are pressed, the 1 st to 100 th bulbs are turned on and off after the color is changed into green after 5 seconds, and the colors are sequentially circulated to red, green, blue, white, orange, grass green, purple, warm white, light blue and pink.

(5) And a second flashing pursuit function: the RGB-WW point control intelligent lamp is provided with 100 tetrodes, a remote controller 5 key is pressed, the 1 st bulb starts to flicker and chase to the 100 th bulb when being red, the time interval is 5 seconds, the 1 st bulb starts to flicker and chase to the 100 th bulb when being green after 5 seconds, and the time interval is 5 seconds; the colors are sequentially red, green, blue, white, orange, grass green, purple, warm white, light blue and pink.

(6) The normally bright function: the RGB-WW point control intelligent lamp is provided with 100 tetrodes, a remote controller 6 key is pressed, the 1 st bulb is red and normally on, the time interval is 5 seconds, the 1 st bulb is green and normally on, the time interval is 5 seconds, the 100 th bulb is started after 5 seconds, and the time interval is 5 seconds; the colors are sequentially red, green, blue, white, orange, grass green, purple, warm white, light blue and pink.

(7) White full flash function: the RGB-WW point control intelligent lamp has 100 tetrodes, and the full flash function is realized by pressing 7 keys of a remote controller and from the 1 st bulb to the 100 th bulb.

(8) Warm white full flashing function: the RGB-WW point control intelligent lamp has 100 tetrodes, and the full flash function is realized by pressing 8 keys of a remote controller from the 1 st bulb to the 100 th bulb.

(9) The controller key functions are as follows: s-function speed adjustment minus, S + function speed adjustment plus, OFF-controller OFF, ON-controller ON, Red-Red, Green-Green, blue-blue, White-White, orange, grass Green-grass Green, purple-purple, Water White-Warm White, light blue-light blue, pink, Auto-function.

In summary, all the functions can be programmed and modified arbitrarily by a computer program.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The RGB-WW point-controlled intelligent lamp is characterized by comprising lamp strings (1), a main line (2), a lamp string section (3), a lead section (4), RGB-WW tetrodes (5), an encoder (6), a connector male terminal (7), a connector female terminal (8), a controller mechanism (9) and a plug (10), wherein the main line (2) is connected with a plurality of lamp strings (1) in parallel, the lamp strings (1) are vertically and downwardly arranged, the middle of each lamp string (1) is folded into two sections, namely the lamp string section (3) and the lead section (4), the lamp string section (3) is formed by sequentially connecting a plurality of RGB-WW tetrodes (5) in series, and the positive pole (11) of the RGB-WW tetrode is connected with the negative pole (12) of the adjacent RGB-WW tetrodes; a four-core chip is arranged in the RGB-WW tetrode (5), an address is arranged in the four-core chip, and the address is compiled through an encoder (6); the two ends of the main line (2) are respectively connected with a connector male terminal (7) and a connector female terminal (8), the connector male terminal (7) at the end part of the main line is connected with a controller mechanism (9) through the connector female terminal (8), and the controller mechanism (9) is connected to 24-240V voltage through a plug (10).
2. 2. The RGB-WW spot-controlled intelligent lamp according to claim 1, wherein the lamp string segments (3) and the wire segments (4) are arranged at intervals along the main wire (2) in the horizontal direction.
3. 3. The RGB-WW point-controlled intelligent lamp as claimed in claim 1, wherein the RGB-WW tetrode (5) in the lamp string section (3) is arranged from top to bottom at a single interval and is connected with the left and right adjacent wire sections (4) at an equal interval in sequence.
4. 4. The RGB-WW spot control intelligent lamp according to claim 1, wherein the RGB-WW tetrode (5) has an outer diameter of one of 3mm, 4mm, 5mm, and 8 mm.
5. 5. The RGB-WW point-control intelligent lamp as claimed in claim 1, wherein the RGB-WW tetrode (5) comprises a bulb and a PC shell, the bulb is encapsulated in the PC shell by epoxy resin, the bulb is internally provided with the four-core chip, and the four-core chip is R red-G green-B blue-WW warm white.
6. 6. The RGB-WW point control intelligent lamp as claimed in claim 1, wherein the encoder (6) comprises a display panel (6-1) for displaying parameter values, an encoder key (6-2) and a probe (6-3) for verifying the correctness of RGB-WW codes, programs are input through the encoder key (6-2) for encoding, the encoded programs are displayed on the display panel (6-1) and are verified whether the codes are correct through the probe (6-3), the encoder (6) is connected with a code input end (6-4), a socket (6-5) is further arranged on the encoder (6), and the encoder (6) is connected with the RGB-WW tetrode (5) through the socket (6-5).
7. 7. The RGB-WW point-controlled intelligent lamp as claimed in claim 1, wherein the controller mechanism (9) comprises a fuse (9-1) with current protection, a voltage-limiting controlled piezoresistor (9-2), a filter (9-3) for filtering noise and separation signals, and a filter circuit (9-4) for high-frequency resistance and low-frequency pass, the output end of the filter circuit (9-4) is respectively connected to the input end of the MOSFET (9-5) and the DC transformer (9-6), the DC transformer (9-6) is respectively connected with the drive module (9-7) and the MCU (9-8), the DC after voltage change is output to the drive module (9-7) and the MCU (9-8), and the MCU (9-8) is connected in parallel with the WiFi and Bluetooth modules (9-9), The remote control module (9-10), the program module (9-11) and the button (9-12), the WiFi and Bluetooth module (9-9) is a PCBA board integrating WiFi and Bluetooth functions, and the remote control module (9-10) is in wireless connection with a remote controller (13); the MCU (9-8) is connected with the driving module (9-7) through the heat dissipation assembly (9-13), the output ends of the driving module (9-7) and the DC transformer (9-6) are connected to the input end of the MOSFET (9-5), and the output end of the MOSFET (9-5) is connected to the lamp string.
8. 8. The RGB-WW point-control intelligent lamp as claimed in claim 7, wherein the WiFi and Bluetooth modules (9-9) are PCBA boards integrating WiFi and Bluetooth functions, the WiFi and Bluetooth modules (9-9) are controlled by a wireless terminal, the wireless terminal sends signals to the WiFi and Bluetooth modules (9-9), and the WiFi and Bluetooth modules (9-9) transmit the transmitted signals to RGB-WW tetrodes (5) with built-in addresses of RGB-WW.
9. 9. The RGB-WW point-control intelligent lamp as claimed in claim 1, wherein a waterproof rubber ring (14) is arranged at the joint of the connector male terminal (7) and the connector female terminal (8).
10. 10. The RGB-WW spot control intelligent lamp according to claim 1, wherein the lamp string (1) is one of a linear lamp string, an ice-lolly lamp, a curtain lamp and a net lamp.

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