CN213547885U - Wave type parameterization modular structure sensing lamp - Google Patents

Abstract

The utility model discloses a wave type parameterization modular structure sensing lamp, include: an interactive bracelet; the infrared communication module is connected with the interactive bracelet and used for receiving the color information of the interactive bracelet and transmitting the color information; the stream lamp monomer is connected with the infrared communication module and used for receiving color information; the CAN communication module is connected with the stream lamp monomer and is used for transmitting the processed color information; the main control module is connected with the CAN communication module and used for extracting, analyzing and recombining the color information; the PC host is connected with the main control module and is used for performing high-gray display processing on the processed color information; the LED controller is connected with the PC host and used for receiving the information processed by the PC host and then sending a control instruction; and the RGB LED display module is connected with the LED controller and used for transmitting information display to the streamer lamp monomer according to the control instruction. The utility model discloses a wave type parameterization modular structure sensing lamp can control light colour and mechanical motion, realizes multiple light effect.

Description

Wave type parameterization modular structure sensing lamp

Technical Field

The utility model relates to a LED technical field especially relates to a wave type parameterization modular structure sensing lamp.

Background

Along with the improvement of the lighting consciousness of people, the effect of the light is far more than the lighting, and the light is applied to the fields of functional lighting, decorative lighting, interactive lighting devices, optical communication and the like, wherein the interactive lighting devices mean the influence brought by the mutual contact between two parties and the generated mutual action, and the interactive light emphasizes the cyclic interaction between people, people and works, works and spaces and people, so that the people feel the most omnibearing.

The interactive lighting device is a new art, is generated along with the improvement of science and technology and the update of art concept, is an important part and medium of public art, becomes common for the public through the participation of the public, shows the charm of the public art, has multiform and multilevel interactivity, brings joyful and deeper communication to the public in a game mode, gives new cognitive feeling to audiences, and enables people to participate in the art after throwing the artistic 'noble and cool fantasy'.

The existing interactive lighting device is mostly a mode that light and interactive equipment are separated and independent, namely, the light display and induction part equipment are respectively independent, the defect of the mode is mainly that interactive position information can only be acquired, the interactive mode can only interact according to the acquired position information, and therefore the interactive mode is single, and interaction in a 3-dimensional space or even in a motion state can not be achieved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a wave type parameterization modular structure sensing lamp, the colour error that can solve between the sensing lamp of current interactive colour discernment sensing lamp is big, and interactive problem under the unable motion state.

In order to solve the technical problem, the utility model provides a wave type parameterization modular structure sensing lamp, include:

the interactive bracelet is used for sending color information;

the infrared communication module is connected with the interactive bracelet and used for receiving the color information of the interactive bracelet and transmitting the color information;

the stream lamp monomer is connected with the infrared communication module and used for receiving color information;

the CAN communication module is connected with the stream lamp monomer and is used for transmitting the processed color information;

the main control module is connected with the CAN communication module and used for extracting, analyzing and recombining the color information;

the PC host is connected with the main control module and is used for performing high-gray display processing on the processed color information;

the LED controller is connected with the PC host and used for receiving the information processed by the PC host and then sending a control instruction;

the RGB LED display module is connected with the LED controller and used for transmitting information display to the streamer lamp monomer according to the control instruction;

the mechanical control module is connected with the PC host and is used for controlling the mechanical motion of the single lamps; and

and the power supply module supplies power.

Preferably, the LED controller adopts an MR-Art-A controller.

Preferably, the infrared communication module mainly comprises an infrared integrated receiving head HS0038, and the frequency of receiving infrared signals is 38 kHz.

Preferably, the RGB LED display module includes a UCS8903 LED chip.

Preferably, the CAN communication module includes a protocol controller MCP 2515.

Preferably, the power supply module comprises a primary voltage stabilizing circuit, and the voltage stabilizing circuit is used for changing the voltage from 12V to 5V.

The utility model discloses following beneficial effect has:

the utility model discloses a wave type parameterization modular structure sensing lamp passes through the PC host computer and connects each independent flowing lamp monomer through host system and become whole to send for each flowing lamp monomer lamp through LED controller is unified after with colour information processing through the PC, avoid the colour error, and through communication transmission, can avoid the influence of ambient brightness and lead to the colour error, and can carry out whole management design to whole sensing lamp through the PC host computer, further improve interactive effect. In addition, the PC host can adjust the motion law of each flow lamp monomer through controlling the mechanical control module, thereby coordinating the action of the whole flow lamp monomer, realizing the interaction under the motion state and achieving better light effect.

Drawings

Fig. 1 is a functional block diagram of an interactive color sensing lamp of the present invention;

fig. 2 is a schematic diagram of an RGB LED display module of the interactive color sensing lamp of the present invention;

fig. 3 is a schematic diagram of a CAN communication module of the interactive color sensing lamp of the present invention;

fig. 4 is a schematic diagram of a power module of the interactive color sensing lamp of the present invention;

fig. 5 is a schematic diagram of the lamp infrared communication module of the interactive color sensing lamp of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides a wave-shaped parameterized modular structure sensor lamp, including:

the interactive bracelet is used for sending color information;

the infrared communication module is connected with the interactive bracelet and used for receiving the color information of the interactive bracelet and transmitting the color information;

the stream lamp monomer is connected with the infrared communication module and used for receiving color information;

the CAN communication module is connected with the stream lamp monomer and is used for transmitting the processed color information;

the main control module is connected with the CAN communication module and used for extracting, analyzing and recombining the color information;

the PC host is connected with the main control module and is used for performing high-gray display processing on the processed color information;

the LED controller is connected with the PC host and used for receiving the information processed by the PC host and then sending a control instruction;

the RGB LED display module is connected with the LED controller and used for transmitting information display to the streamer lamp monomer according to the control instruction;

the mechanical control module is connected with the PC host and is used for controlling the mechanical motion of the single lamps; and

and the power supply module supplies power.

Specifically, the utility model discloses the wave type parameterization modular structure sensing lamp of preferred embodiment passes through the PC host computer and connects each independent stream lamp monomer through host system and become whole to send for each stream lamp monomer lamp in unison through the LED controller behind with color information processing through the PC, avoid the color error, and through communication transmission, can avoid ambient brightness's influence and lead to the color error, and can carry out the whole management design to whole sensing lamp through the PC host computer, further improve interactive effect. In addition, the PC host can adjust the motion law of each flow lamp monomer through controlling the mechanical control module, thereby coordinating the action of the whole flow lamp monomer, realizing the interaction under the motion state and achieving better light effect.

Referring to fig. 5, in the preferred embodiment of the present invention, the infrared communication module mainly includes an infrared integrated receiving head HS0038, and the frequency of the received infrared signal is 38 kHz.

Specifically, the infrared communication module mainly comprises an infrared integrated receiving head HS0038, the HS0038 integrates receiving, amplifying, detecting and shaping of infrared signals, and outputs TTL signals capable of being identified by a single chip microcomputer, so that the complexity of a receiving circuit and the design work of the circuit are greatly simplified, and the infrared communication module is convenient to use. The frequency of the received infrared signal is 38kHz, the infrared coding format adopts an NEC protocol, the length of the data packet is four bytes, and the data packet respectively comprises 2 bytes of ID information, 1 byte of H, data and 1 byte of H data anticode. The infrared communication module is electrically connected with the I/O end of the microprocessor, and the microprocessor receives the color information received by the infrared receiving head and sends the information out through the CAN communication module. Furthermore, the infrared direct digital communication mode is adopted, so that the problem of color errors in the color transfer process is avoided.

Referring to fig. 2, in a preferred embodiment of the present invention, the RGB LED display module includes UCS8903 LED chips.

Specifically, the RGB LED display module adopts a UCS8903 LED chip, the UCS8903B is a special circuit for 3-channel LED high-order gray level cascade drive control, and the full color effect of outdoor large-screen high-order gray levels is realized through the control of a peripheral MCU. By adopting various patent technologies, the performance index is enhanced, the protection on high-voltage impact and static electricity is enhanced, meanwhile, various anti-interference technologies are added, the method is very suitable for projects with higher requirements on stability, single-line data transmission is adopted, infinite cascade connection can be realized, 65536-level true gray scale is adopted, a high-order gray scale realization technology is adopted, and the port scanning frequency reaches 4 KHz/S. The advantage is, the sensing lamp that compares the previous version shows that the grey level has improved 256 times, therefore light color and luminance change can accomplish very fine and smooth degree.

Referring to fig. 3, in the preferred embodiment of the present invention, the CAN communication module includes a protocol controller MCP 2515.

Specifically, the CAN communication module mainly comprises an independent controller local area network protocol controller MCP2515 of the Microchip, and the MCP2515 completely supports the CAN V2.0B technical specification. The device is capable of sending and receiving standard and extended data frames as well as remote frames. The MCP2515 can filter unwanted messages by two acceptance mask registers and six acceptance filter registers, so that the burden of a master singlechip is reduced. The connection between the MCP2515 and the MCU is implemented by an SPI (Serial Peripheral Interface) Interface; and a Philips high-speed CAN transceiver TJA1050, TJA1050 being an interface between a Controller Area Network (CAN) protocol controller and a physical bus. The device provides differential transmit capability for the bus and differential receive capability for the CAN controller. The CAN communication module is communicated with the microprocessor through an industry standard serial peripheral interface, provides a mode of communicating with the upper computer for the microprocessor, enables the microprocessor to send color information received through infrared communication to the upper computer to perform one-step light effect processing, and receives parameter configuration data of the upper computer to the microprocessor. Through the CAN bus, CAN become a whole with entire system's sensing lamp individuality links into, increased the controllability of host computer to sensing lamp system and the variety of light effect.

Referring to fig. 4, in the preferred embodiment of the present invention, the power module includes a primary regulator circuit for changing the voltage from 12V to 5V.

In the preferred embodiment of the invention, the upper computer is a PC.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and replacements can be made without departing from the technical principle of the present invention, and these modifications and replacements should also be regarded as the protection scope of the present invention.

Claims (6)

1. A wave-type parameterized modular structure sensor lamp, comprising:

the interactive bracelet is used for sending color information;

the infrared communication module is connected with the interactive bracelet and used for receiving the color information of the interactive bracelet and transmitting the color information;

the stream lamp monomer is connected with the infrared communication module and used for receiving color information;

the CAN communication module is connected with the stream lamp monomer and is used for transmitting the processed color information;

the main control module is connected with the CAN communication module and used for extracting, analyzing and recombining the color information;

the PC host is connected with the main control module and is used for performing high-gray display processing on the processed color information;

the LED controller is connected with the PC host and used for receiving the information processed by the PC host and then sending a control instruction;

the RGB LED display module is connected with the LED controller and used for transmitting information display to the streamer lamp monomer according to the control instruction;

the mechanical control module is connected with the PC host and is used for controlling the mechanical motion of the single lamps; and

and the power supply module supplies power.

2. The wave-shaped parameterized block structure sensor lamp in claim 1, wherein the LED controller is an MR-Art-A controller.

3. The wave-shaped parameterized module structure sensor lamp according to claim 1, wherein the infrared communication module mainly comprises an infrared integrated receiving head HS0038, and the frequency of the received infrared signal is 38 kHz.

4. The wave-shaped parameterized block-structured sensor lamp of claim 1, wherein the RGB LED display modules comprise UCS8903 LED chips.

5. The wave-type parameterized modular structure sensor lamp of claim 1, wherein: the CAN communication module includes a protocol controller MCP 2515.

6. The wave-type parameterized modular structure sensor lamp in claim 1, wherein the power module comprises a primary regulator circuit for changing the voltage from 12V to 5V.

Images