CN219510644U - Color lamp capable of self-networking - Google Patents

Abstract

The utility model relates to a color lamp capable of self-networking, comprising: skeleton, screen cloth, main circuit fixing box component, circuit component, lamp bead and fixing hook; the mesh cloth is arranged on the framework; the main circuit fixing box assembly is positioned at the upper part of the framework and comprises a solar energy absorbing plate, a top cover, a lamp bead fixing plate and a main box, wherein a light hole is formed in the main box; the circuit component is positioned at the main body box or the top cover; the lamp beads and the solar energy absorbing plate are electrically connected with the circuit component, and the lamp beads are arranged at the lamp bead fixing holes; the fixing hook is mounted on the top of the backbone or on the main circuit fixing case assembly so that the lamp can be hung. The lithium battery and solar panel power supply is free from the trouble of maintenance, convenient and attractive; the color lamp derives multiple colors; can realize various effects and the like.

Description

Color lamp capable of self-networking

Technical Field

The utility model relates to a color lamp capable of self-networking.

Background

At present, the color lamp is an important ring of urban appearance, can add festival atmosphere, and is accessed by a festival in the urban environment of festive. However, the color lamp has obvious defects, firstly, the volume is larger, the color lamp is hung on the festival, the color lamp is taken down and stored when the festival is finished, and the waste of manpower and material resources involved in the middle is larger. Secondly, some colored lamps are required to be paved with wires, so that the engineering difficulty is high, the maintenance is troublesome, and if the lamps cannot be lightened, the effect is very poor. Thirdly, the color effect is bad, and generally only 1 color is needed, so that the look and feel are monotonous. Fourth, the intelligent degree is not high, the group control effect is not achieved, and the lamp cannot be lightened or extinguished together or flicker according to rules.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide the color lamp capable of self-networking, which is powered by a lithium battery and provided with a solar panel, so that the lithium battery can be charged in most sunny days to supplement electric energy for the color lamp, and the trouble of maintenance is avoided. No electric wires need to be paved, so that convenience and attractive appearance are ensured; the color lamp consists of red, yellow and blue 3-color LEDs, and can derive various colors by controlling the components of the 3 colors and the duty ratio of the output, and different effects of oil in different time or holidays; the color lamps are networked through a lora network to realize master-slave mode communication, and one master lamp controls a plurality of slave lamps through a set channel, so that multiple effects of orderly on-off, flickering, gradual change and the like can be realized.

In order to achieve the above object, the present utility model is realized by a color lamp capable of self-networking, which is characterized by comprising:

a framework and mesh cloth; the mesh cloth is arranged on the framework;

a main circuit fixing box assembly; the main circuit fixing box assembly is positioned at the upper part of the framework and comprises a solar energy absorbing plate, a top cover, a lamp bead fixing plate and a main box, wherein a light hole is formed in the main box, the lamp bead fixing plate is arranged in the main box, the lamp bead fixing plate is provided with the lamp bead fixing hole, the top cover is arranged at the upper part of the main box, and the solar energy absorbing plate is arranged on the top cover;

a circuit assembly; the circuit component is positioned at the main body box or the top cover;

a lamp bead; the lamp beads and the solar energy absorbing plate are electrically connected with the circuit component, the lamp beads are arranged at the lamp bead fixing holes, and light of the lamp beads is exposed through the light transmitting holes; and

a fixed hook; the fixing hook is mounted on the top of the backbone or on the main circuit fixing case assembly so that the lamp can be hung.

In this embodiment, the circuit assembly includes a main circuit lithium battery socket, a solar panel socket, a main control chip, a LORA communication module, a Flash memory chip, a first driving triode, a second driving triode, a third driving triode, a first resistor, a second resistor, a third resistor, a fourth resistor, a fifth resistor, a sixth resistor, a seventh resistor, an eighth resistor, a ninth resistor, a tenth resistor, a first capacitor, a second capacitor, a reset button, a toggle switch, a first light emitting diode, a second light emitting diode, and a third light emitting diode; the main circuit lithium battery socket and the solar panel socket are connected with one end of the circuit to provide 5V power supply, the other end of the main circuit lithium battery socket and the other end of the solar panel socket are grounded, the main control chip is provided with 20 pins, a fourth resistor and a first capacitor form a reset circuit and are electrically connected with 4 pins of the main control chip, one end of the reset button is grounded, the other end of the reset button is connected with 4 pins of the main control chip, 5 pins of the main control chip are connected with 5V power supply, 7 pins of the main control chip are grounded, 8 pins of the main control chip are grounded through a second capacitor C2, one end of the shift switch is grounded, the other end of the shift switch is connected with 15 pins of the main control chip, the LORA communication module is provided with 7 pins, 1 pin of the LORA communication module is connected with 5 pins of the main control chip U1, 2 pins of the LORA communication module are connected with 6 pins of the main control chip, 3 pins of the LORA communication module are connected with 2 pins of the main control chip, 4 pins of the LORA communication module are connected with 3 pins of the main control chip, the 5 feet of the LORA communication module are connected with the 1 feet of the main control chip, the 6 feet of the LORA communication module are connected with the 5V power supply, the 7 feet of the LORA communication module are connected with the ground, the 1-4 feet of the Flash memory chip are connected with the ground, the 8 feet of the Flash memory chip are connected with the 5 feet of the main control chip U1, the 6 feet of the Flash memory chip are connected with the 7 feet of the main control chip, the 5 feet of the Flash memory chip are connected with the 5V power supply through an eighth resistor, the 6 feet of the Flash memory chip are connected with the 5V power supply through a ninth resistor, the 6 feet of the Flash memory chip U3 are connected with the 17 feet of the main control chip U1, the 5 feet of the Flash memory chip U3 are connected with the 16 feet of the main control chip U1, the base electrode of the first driving triode is connected with the 18 feet of the main control chip through a first resistor, the base electrode of the second driving triode is connected with the 19 feet of the main control chip through a second resistor, the base electrode of the third driving triode is connected with the 20 feet of the main control chip through a third resistor, the emitter of the first driving triode is connected with a 5V power supply, the emitter of the second driving triode is connected with a 5V power supply, the emitter of the third driving triode is connected with a 5V power supply, the collector of the first driving triode is connected with the anode of the first light emitting diode through a fifth resistor, the collector of the second driving triode is connected with the anode of the second light emitting diode through a sixth resistor, the collector of the third driving triode is connected with the anode of the third light emitting diode through a seventh resistor, and the cathodes of the first light emitting diode LED1, the second light emitting diode LED2 and the third light emitting diode LED3 are grounded.

Compared with the prior art, the utility model has the advantages that: the lithium battery is powered, and the solar panel can charge the lithium battery in most sunny days, so that the color lamp can be supplied with electric energy, and the trouble of maintenance is avoided. No electric wires need to be paved, so that convenience and attractive appearance are ensured; the color lamp consists of red, yellow and blue 3-color LEDs, and can derive various colors by controlling the components of the 3 colors and the duty ratio of the output, and different effects of oil in different time or holidays; the color lamps are networked through a lora network to realize master-slave mode communication, and one master lamp controls a plurality of slave lamps through a set channel, so that multiple effects of orderly on-off, flickering, gradual change and the like can be realized.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an exploded view of the present utility model;

FIG. 3 is a schematic circuit diagram of the main circuit lithium battery socket, solar panel socket, main control chip, LORA communication module and Flash memory chip of the present utility model;

FIG. 4 is a schematic diagram of an LED lamp driving circuit of the present utility model;

FIG. 5 is a functional block diagram of the present utility model after networking;

fig. 6 is a functional block diagram of the networking of the present utility model.

Description of the embodiments

The following describes the embodiments of the present utility model further with reference to the drawings. The description of these embodiments is provided to assist understanding of the present utility model, but is not intended to limit the present utility model. In addition, technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

In the description of the present utility model, the terms "left", "right", "front", "rear", "upper" and "lower", etc. indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience in describing the present utility model and do not require that the present utility model must be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 6, the color lamp capable of self-networking comprises:

a framework 2 and a mesh 3; the mesh 3 is arranged on the framework 2;

a main circuit fixing box assembly; the main circuit fixing box assembly is located at the upper part of the framework 2, and comprises a solar energy absorbing plate 61, a top cover 62, a lamp bead fixing plate 63 and a main box 64, wherein a light hole 641 is formed in the main box 64, the lamp bead fixing plate 63 is installed in the main box 64, a lamp bead fixing hole 631 is formed in the lamp bead fixing plate 63, the top cover 62 is installed at the upper part of the main box 64, and the solar energy absorbing plate 61 is installed on the top cover 62;

a circuit assembly; the circuit assembly is located at the body case 64 or the top cover 62;

a lamp bead 5; the lamp beads 5 and the solar absorbing plate 61 are electrically connected with the circuit component, the lamp beads 5 are arranged at the lamp bead fixing holes 631, and the light of the lamp beads 5 is exposed through the light holes 641; and

a fixed hook 1; the fixing hook 1 is mounted on the top of the frame 2 or on the main circuit fixing case assembly so that the lamp can be hung.

During the use, fixed hook 1 outwards extends away, makes lamp body can conveniently hang on other articles, like branch, rail, post etc. skeleton 2 stainless steel preparation plays the supporting role, has antirust function concurrently, screen cloth 3 is formed by translucent plastic film preparation, is red, and lamp light can be followed inside and is penetrated, and 5 v's three-colour is the negative LED altogether, and main circuit fixed box 6 is at the top of lamp body, fixes on skeleton 2 upper portion, and the inside has solar panel, the lithium cell, and main circuit, main circuit fixed box 6 adopts the IP65 design, effectively prevents that the rainwater from getting into.

In this embodiment, the circuit assembly includes a main circuit lithium battery socket P1, a solar panel socket P2, a main control chip U1, a LORA communication module U2, a Flash memory chip U3, a first driving transistor Q1, a second driving transistor Q2, a third driving transistor Q3, a first resistor R1, a second resistor R2, a third resistor R3, a fourth resistor R4, a fifth resistor R5, a sixth resistor R6, a seventh resistor R7, an eighth resistor R8, a ninth resistor R9, a tenth resistor R10, a first capacitor C1, a second capacitor C2, a reset button S1, a toggle switch S2, a first light emitting diode LED1, a second light emitting diode LED2, and a third light emitting diode LED3; the main circuit lithium battery socket P1 and the solar panel socket P2 are provided with 5V power supply for the circuit at one end, the other ends of the main circuit lithium battery socket P1 and the solar panel socket P2 are grounded, the main control chip U1 is provided with 20 pins, the fourth resistor R4 and the first capacitor C1 form a reset circuit and are electrically connected with the 4 pins of the main control chip U1, one end of the reset button S1 is grounded, the other end of the reset button S1 is connected with the 4 pins of the main control chip U1, the 5 pins of the main control chip U1 are connected with 5V power supply, the 7 pins of the main control chip U1 are grounded, the 8 pins of the main control chip U1 are grounded through the second capacitor C2, one end of the dial switch S2 is grounded, the other end of the dial switch S2 is connected with the 15 pins of the main control chip U1, the LORA communication module U2 is provided with 7 pins, the 1 pin of the LORA communication module U2 is connected with the 5 pins of the main control chip U1, the 2 pin of the LORA communication module U2 is connected with the 6 pins of the main control chip U1, the 3 pin of the LORA communication module U2 is connected with the 2 pin of the main control chip U1, the 4 pin of the LORA communication module U2 is connected with the 3 pin of the main control chip U1, the 5 pin of the LORA communication module U2 is connected with the 1 pin of the main control chip U1, the 6 pin of the LORA communication module U2 is connected with the 5V power supply, the 7 pin of the LORA communication module U2 is connected with the ground, the 1-4 pin of the Flash memory chip U3 is connected with the 5V pin of the Flash memory chip U3, the 5 pin of the Flash memory chip U3 is connected with the 6 pin of the main control chip U1, the 5 pin of the Flash memory chip U3 is connected with the 5V power supply through the eighth resistor R8, the 6 pin of the Flash memory chip U3 is connected with the 5V power supply through the ninth resistor R9, the 6 pin of the Flash memory chip U3 is connected with the 17 pin of the main control chip U1, the 5 pin of the Flash memory chip U3 is connected with the 16 pin of the main control chip U1, the base of the first driver transistor Q1 is connected with the 18 through the first resistor R1, the base of the second driving triode Q2 is connected with the 19 pins of the main control chip through a second resistor R2, the base of the third driving triode Q3 is connected with the 20 pins of the main control chip through a third resistor R3, the emitter of the first driving triode Q1 is connected with a 5V power supply, the emitter of the second driving triode Q2 is connected with a 5V power supply, the emitter of the third driving triode Q3 is connected with a 5V power supply, the collector of the first driving triode Q1 is connected with the anode of the first light emitting diode LED1 through a fifth resistor R5, the collector of the second driving triode Q2 is connected with the anode of the second light emitting diode LED2 through a sixth resistor R6, the collector of the third driving triode Q1 is connected with the anode of the third light emitting diode LED3 through a seventh resistor R7, and the cathodes of the first light emitting diode LED1, the second light emitting diode LED2 and the third light emitting diode LED3 are grounded.

When the lithium battery power supply is used, the whole circuit is powered by a 5v lithium battery from a main circuit lithium battery socket P1 to provide a 5v power supply; the solar panel socket P2 is connected with the polycrystalline solar panel to charge the whole system in daytime; the main control chip U1 is STM8S103F, is a main control chip of the main circuit, and the reset circuit is formed by the fourth resistor R4 and the first capacitor C1 to realize the power-on low-level reset of the main control chip U1, and the first capacitor C1 can be manually reset by pressing. The dialing switch S2 is switched between a master mode and a slave mode, after the master control chip U1 program is electrified, whether a 15 pin is in a low level or not is detected, if so, the master lamp mode is the master lamp mode, and otherwise, the slave lamp mode is the slave lamp mode; the LORA communication module U2 is a LORA communication module with the model of E32-433T20D, the working mode of the LORA communication module U2 is determined by the high and low levels of pins 5 and 6 of the main control chip U1, pins 3 and 4 of the LORA communication module U2 are serial port TTL level pins, and the main control chip U1 can send commands to the LORA communication module U2 or transmit commands through the LORA communication module U2 by setting TxD and RxD functions with pins 2 and 3 being serial ports. The 1 pin of the main control chip U1 can wake up the LORA communication module U2, and the 5 pin of the U2 is connected with the LORA communication module; the communication mode of the LORA communication module U2 may be set as follows: (1) A broadcast receiving and transmitting mode, through which a LORA module of a master lamp or a slave lamp can receive an instruction from a LORA master controller to set a channel; the main lamp can also receive information such as a color lamp control scheme, time synchronization and the like through the LORA module. The color lamp blinks 3 in orange to show that the receiving and setting are successful; (2) Given a signal listening mode by which the slave's LORA module can receive instructions from the master's LORA module for a particular channel, only the colored lights set to the particular channel in step (1) can receive; the Flash memory chip uses I2C bus communication, and pins 5 and 6 of the Flash memory chip are connected to 5v through an eighth resistor R8 and a ninth resistor R9 respectively, so that level pull-up is realized. The communication parameters and the system parameters of the utility model are stored in the Flash memory chip U3, and can be stored in a power-off mode.

The control method of the color lamp networking comprises the following steps: firstly, before being hung outdoors, setting at a set point, transmitting a signal to a LORA communication module (U2) by a main control chip (U1), and determining a communication channel of a color lamp, a color lamp control scheme and time synchronization information, thereby networking a plurality of color lamps; step two, when the preset time period arrives, according to the color lamp control scheme, information is sent through the LORA communication module (U2) and the channel preset in the step one, and the on-off and the color of the color lamp group are set; and thirdly, setting the on-off and the color of each color lamp in the color lamp group according to a preset scheme.

The embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made hereto without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (2)

1. An ad hoc network-enabled color lamp, comprising:

a framework (2) and a mesh cloth (3); the mesh cloth (3) is arranged on the framework (2);

a main circuit fixing box assembly; the main circuit fixing box assembly is located at the upper part of the framework (2), and comprises a solar energy absorbing plate (61), a top cover (62), a lamp bead fixing plate (63) and a main body box (64), wherein a light hole (641) is formed in the main body box (64), the lamp bead fixing plate (63) is installed in the main body box (64), a lamp bead fixing hole (631) is formed in the lamp bead fixing plate (63), the top cover (62) is installed at the upper part of the main body box (64), and the solar energy absorbing plate (61) is installed on the top cover (62);

a circuit assembly; the circuit assembly is located at a body box (64) or a top cover (62);

a lamp bead (5); the lamp beads (5) and the solar energy absorbing plate (61) are electrically connected with the circuit component, the lamp beads (5) are arranged at the lamp bead fixing holes (631), and light of the lamp beads (5) is exposed through the light transmitting holes (641); and

a fixed hook (1); the fixing hook (1) is mounted on the top of the framework (2) or on the main circuit fixing box assembly so as to hang the lamp.

2. The self-networking color lamp according to claim 1, wherein the circuit assembly comprises a main circuit lithium battery socket (P1), a solar panel socket (P2), a main control chip (U1), a LORA communication module (U2), a Flash memory chip (U3), a first driving triode (Q1), a second driving triode (Q2), a third driving triode (Q3), a first resistor (R1), a second resistor (R2), a third resistor (R3), a fourth resistor (R4), a fifth resistor (R5), a sixth resistor (R6), a seventh resistor (R7), an eighth resistor (R8), a ninth resistor (R9), a tenth resistor (R10), a first capacitor (C1), a second capacitor (C2), a reset button (S1), a toggle switch (S2), a first light emitting diode (LED 1), a second light emitting diode (LED 2) and a third light emitting diode (LED 3); the circuit is characterized in that one end of the main circuit lithium battery socket (P1) and one end of the solar panel socket (P2) provide a 5V power supply for a circuit, the other ends of the main circuit lithium battery socket (P1) and the solar panel socket (P2) are grounded, the main control chip (U1) is provided with 20 pins, a reset circuit is formed by a fourth resistor (R4) and a first capacitor (C1) and is electrically connected with the 4 pins of the main control chip (U1), one end of the reset button (S1) is grounded, the other end of the reset button (S1) is connected with the 4 pins of the main control chip (U1), the 5 pins of the main control chip (U1) are connected with 5V power supply, the 7 pins of the main control chip (U1) are grounded, the 8 pins of the main control chip (U1) are grounded through a second capacitor (C2), the other end of the dial switch (S2) is connected with the 15 pins of the main control chip (U1), the RA communication module (U2) is provided with 7 pins, the RA communication module (U2) is connected with the 4 pins of the main control chip (U1), the RA (U2) of the main control chip (U2) is connected with the RA (U2) of the main control chip (U1) and the RA (U2) is grounded, the RA (U2) is connected with the RA (U2) of the main control chip (U2) through the main control chip (U1) and the communication module (U2) is connected with the RA (1) through the 3 pins (U2) and the communication module (1, the 1-4 pins of the Flash memory chip (U3) are grounded, the 8 pins of the Flash memory chip (U3) are connected with 5V, the 5 pins of the Flash memory chip (U3) are connected with the 6 pins of the main control chip (U1), the 6 pins of the Flash memory chip (U3) are connected with the 7 pins of the main control chip (U1), the 5 pins of the Flash memory chip (U3) are connected with a 5V power supply through an eighth resistor (R8), the 6 pins of the Flash memory chip (U3) are connected with a 5V power supply through a ninth resistor (R9), the 6 pins of the Flash memory chip (U3) are connected with the 17 pins of the main control chip (U1), the 5 pins of the Flash memory chip (U3) are connected with the 16 pins of the main control chip (U1), the base electrode of the first driving triode (Q1) is connected with the 18 pins of the main control chip through a first resistor (R1), the base electrode of the second driving triode (Q2) is connected with the 19 pins of the main control chip through a second resistor (R2), the base electrode of the third driving triode (Q3) is connected with the anode of the third triode (Q2) through the third resistor (R3) and the anode of the third triode (Q2) is connected with the fifth triode (Q2) through the second resistor (Q1), the anode of the third triode (Q2) is connected with the anode of the LED (Q2) is connected with the LED (Q2) through the LED (Q2) and the LED (Q2) is connected with the Q1, the collector of the third driving triode (Q1) is connected with the anode of the third light emitting diode (LED 3) through a seventh resistor (R7), and the cathodes of the first light emitting diode (LED 1), the second light emitting diode (LED 2) and the third light emitting diode (LED 3) are grounded.