CN216089878U - LED crystal photo placing table and base - Google Patents

Abstract

The utility model discloses an LED crystal photo arrangement table base which comprises a base shell, wherein a light control device is arranged in the base shell and comprises a power supply module, a communication module, a main controller and an LED module, the power supply module is respectively connected with the main controller, the communication module and the LED module, and the main controller is respectively connected with the communication module and the LED module. The LED crystal photo placing table base is simple in structure, easy to implement and low in cost, and can provide colorful light effects for crystal photos, so that the crystal photos are more attractive, and can be appreciated when light is insufficient.

Description

LED crystal photo placing table and base

Technical Field

The utility model relates to the technical field of ornaments, in particular to an LED crystal photo placing table and a base.

Background

The crystal photos are also called crystal images, crystal art images, crystal photos, crystal art images, digital crystal images and the like, and the crystal photos are not accurate due to insufficient standardization of the crystal industry, but the crystal images are still used as main names in most regions. The novel digital photo craft is a novel digital photo craft which makes images into the crystal, is widely loved by people due to being crystal-clear, noble and elegant, and becomes one of crystal crafts with extremely strong wind heads. Unfortunately, the crystal photo cannot be viewed at night, and the crystal photo is only printed and combined on the crystal material and cannot emit light, so that the crystal photo cannot be viewed at night or in dark light.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the LED crystal photo placing table base provided by the embodiment of the utility model is simple in structure, easy to realize, low in cost, and capable of providing colorful light effects for crystal photos, enabling the crystal photos to be more attractive, and being appreciated when light is insufficient.

According to the LED crystal photo placing table provided by the embodiment of the utility model, the placing table base can provide colorful lighting effects for crystal photos, and the ornamental effect is better.

In a first aspect, the LED crystal photo arrangement table base provided by the embodiment of the present invention comprises a base housing, wherein a light control device is arranged in the base housing, the light control device comprises a power module, a communication module, a main controller and an LED module, the power module is respectively connected with the main controller, the communication module and the LED module, the main controller is respectively connected with the communication module and the LED module, and the power module is used for supplying power to the main controller, the communication module and the LED module;

the communication module is used for carrying out data communication with an external control terminal, receiving a control instruction of the external control terminal to the LED module and sending the control instruction to the main controller;

the main controller is used for storing the control instruction and controlling the working state of the LED module according to the control instruction;

the LED module works under the control of the main controller.

Further, the light control device further comprises a human body induction module, and the human body induction module is connected with the power supply module and the LED module respectively.

Furthermore, the human body induction module adopts a 5.8G radar microwave induction module.

Further, the light control device further comprises a charging module, and the charging module is connected with the power supply module.

Further, the power module is a lithium battery.

Further, the charging module comprises a battery charging management module, and the battery charging management module is connected with the power supply module.

Further, the charging module comprises a Lightning interface, a Type-C interface and a Micro interface.

Further, the communication module adopts a Bluetooth module.

Further, the bluetooth module includes a ST17H66 bluetooth chip.

In a second aspect, the utility model provides an LED crystal photo platform, which includes the LED crystal photo platform base described in the above embodiments, and a crystal photo placed on the LED crystal photo platform base.

The utility model has the beneficial effects that:

the LED crystal photo placing table base is simple in structure, easy to implement and low in cost, and can provide colorful light effects for crystal photos, so that the crystal photos are more attractive and can be appreciated when light is insufficient.

According to the LED crystal photo placing table, the placing table base can provide colorful lighting effects for crystal photos, and the ornamental effect is good.

Drawings

In order to more clearly illustrate the detailed description of the utility model or the technical solutions in the prior art, the drawings that are needed in the detailed description of the utility model or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a block diagram of a LED crystal photo setting table base according to a first embodiment of the present invention.

Fig. 2 is a block diagram of a structure of an LED crystal photo setting table base according to another embodiment of the present invention.

Fig. 3 is a circuit diagram of a 5.8G radar microwave induction module in an LED crystal photo setting table base according to another embodiment of the present invention.

Fig. 4 is a circuit diagram of a charging module in an LED crystal photo setting table base according to another embodiment of the present invention.

Fig. 5 is a circuit diagram of a bluetooth module in an LED crystal photo setting table base according to another embodiment of the present invention.

Fig. 6 is a circuit diagram of an LED module in an LED crystal photo setting table base according to another embodiment of the utility model.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the utility model pertains.

Referring to fig. 1, a block diagram of a structure of an LED crystal photo table setting base according to a first embodiment of the present invention includes a base housing, and a light control device is disposed in the base housing, the light control device includes a power module, a communication module, a main controller and an LED module, the power module is respectively connected to the main controller, the communication module and the LED module, and the main controller is respectively connected to the communication module and the LED module.

In this embodiment, power module is each module power supply, and communication module and external control terminal carry out data communication, receive external control terminal's control command, like equipment such as smart mobile phone, panel computer, the LED module adopts seven various lamp pearls. Through installation APP on intelligent Mobile terminal, set up light control instruction on APP, send light control instruction to the main control unit of LED crystal photo setting table base through communication module, control instruction sets up in advance mainly the control mode to light, for example: the LED module has the advantages that the brightness, the color, the light emitting mode, the timing duration and the like of light are controlled, so that the functions of the LED module are richer and more intelligent, and the light emitting mode comprises 200 light emitting modes such as colorful flowing, horse race lamp, running water lamp and meteor shower. The main controller stores the control instruction and controls the working state of the LED module according to the control instruction, and the LED module can work according to a set mode.

The crystal LED photo placing table base provided by the embodiment has the advantages of simple structure, easiness in realization and low cost, the light control instruction is set through the external control terminal, the light emitting mode of the LED module is controlled by the main controller, the crystal photo can be provided with colorful light effect, the crystal photo is more attractive, and the crystal photo can be appreciated when the light is insufficient.

As shown in fig. 2, which shows a block diagram of a structure of an LED crystal photo setting table base according to another embodiment of the present invention, the light control device further includes a human body induction module, and the human body induction module is respectively connected to the power module and the LED module. The human response module that sets up is used for responding to the human signal that is close LED crystal photo set table base, senses someone and is close or someone time, and human response module control power module is the power supply of LED module, lets the LED module give out light, senses nobody when, just gets into the dormant state, and human response module control power module stops to be the power supply of LED module, makes the LED module not luminous, so not only can the power saving more, can also prolong power module's life.

The human body induction module adopts a 5.8G radar microwave induction module. 5.8 radar microwave response module's supply voltage is 1.8V to 5.5V, and microwave transmission and receiving frequency is 5.8GHz, and the induction distance is adjustable, can reach 10 meters at most, can realize 360 degrees omnidirectional detection, and the time delay is adjustable, defaults to 38 seconds, and the blockade time is 2 seconds, triggers the mode in succession, does not have mutual interference. The model of the 5.8G radar microwave induction module is an AM5805 microwave induction module, the microwave moving object detector is designed by utilizing the Doppler radar principle, the microwave frequency is 5.8GHz-75MHz, the detector can work by directly inputting direct current voltage, and high and low logic levels are output simultaneously. The AM5805 microwave induction module comprises an induction module and a processing module, the induction module detects movement of a human body to generate weak IF signals, the processing module receives the IF signals, outputs logic levels after filtering and amplifying, and controls connection and disconnection between the power supply module and the LED module by using the logic levels. When someone approaches the base, the LED module is controlled to emit light, and when nobody is in the base, the LED module is controlled not to emit light after the set delay time is up, so that energy can be saved more, and the service life of the power supply module can be prolonged.

As shown in fig. 3, a circuit diagram of a 5.8G radar microwave sensing module is shown. 5.8 the radar microwave induction module includes 5.8 radar microwave module, seventh capacitance, eighth capacitance, first tantalum solid electrolytic capacitance, thirteenth resistance, fourteenth resistance, third light emitting diode and second MOS tube, the second MOS tube is SC8205A, the first pin of 5.8 radar microwave module is connected with BAT-VCC, one end of thirteenth resistance, one end of seventh capacitance and one end of eighth capacitance respectively, the second pin of 5.8 radar microwave module is connected with the other end of seventh capacitance, the other end of eighth capacitance, one end of first tantalum solid electrolytic capacitance and BAT-GND end respectively, the third pin of 5.8 radar microwave module is connected with the other end of first tantalum solid electrolytic capacitance, the fourth pin of SC 05 8205A and the fifth pin of SC82 8205A respectively, the other end of thirteenth resistance is connected with one end of fourteenth resistance and VCC respectively, the other end of fourteenth resistance is connected with the positive pole of third light emitting diode, the cathode of the third light emitting diode is connected with the first pin and the eighth pin of the SC8205A and grounded, and the second pin, the third pin, the sixth pin and the seventh pin of the SC8205A are respectively connected with the BAT-GND end.

In this embodiment, the light control device further comprises a charging module, and the charging module is connected with the power supply module. The charging module comprises a Lightning interface, a Type-C interface and a Micro interface, a protocol chip is arranged in the charging module, and the charging module is compatible with all chargers and used in a comprehensive mode. The power module of the charging module is a lithium battery. The charging module comprises a battery charging management module and a voltage detection module, and the battery charging management module and the voltage detection module are respectively connected with the power supply module. The battery charging management module comprises an ME4057ASPG chip. ME4057 is a complete single-core lithium ion battery constant-current constant-voltage linear charger. The bottom has a thermally enhanced 8 pin SOP package and low external component count, making ME4057 most suitable for portable applications. Thermal feedback regulates the charging current to maximize the charging current without the danger of overheating, the charging voltage is fixed at 4.2V/4.34V, and the charging current can be externally programmed with a resistor. ME4057 automatically ends the charging cycle when the charging current drops to 1/10 of the program value. When the input power (wall-mounted adapter or USB power) is removed, ME4057 automatically enters a low current state, reducing the battery leakage current to less than 2 uA. ME4057 may enter a shutdown mode, reducing the supply current to 55 uA. Other functions include a battery temperature monitor. Under-voltage lockout, auto-charge and two status pins indicate charge and charge termination. The voltage detection module comprises an MD7030 chip, and the MD7030 chip is a low-voltage detection integrated circuit developed by using CMOS technology and has the characteristics of high-precision voltage detection, ultra-low power consumption and low temperature coefficient.

As shown in fig. 4, a circuit diagram of the charging module is shown. The charging module comprises 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, an eleventh resistor, a twelfth resistor, a thermistor, a first capacitor, a second capacitor, a third capacitor, a fourth capacitor, a fifth capacitor, a sixth capacitor, a switch, an ME4057 chip, a lithium battery socket interface, an MD7030 chip, a first light emitting diode, a second light emitting diode and a first triode, wherein the first light emitting diode is a bicolor LED, the first triode is S8550, the first resistor, the second resistor, the third resistor and the fourth resistor are connected in parallel, one end of the parallel connection is connected with USB-5V, the other end of the parallel connection is respectively connected with one end of the sixth resistor, one end of the eighth resistor, one end of the ninth resistor, an eighth pin of the ME4057 chip, a fourth pin of the ME4057 chip, the positive pole of the first capacitor and one end of the second capacitor, the other end of the sixth resistor is respectively connected with one end of a seventh resistor and a first pin of an ME4057 chip, the other end of the seventh resistor is grounded, the thermistor is connected with the seventh resistor in parallel, a second pin of the ME4057 chip is grounded after being connected with a fifth resistor, the other end of the eighth resistor and the other end of the ninth resistor are respectively connected with the anode of a two-color diode, the cathode of the two-color diode is respectively connected with the sixth pin and the seventh pin of the ME4057 chip, the fifth pin of the ME4057 chip is respectively connected with one end of a third capacitor, the anode of a fourth capacitor, one end of a switch and the first pin of a lithium battery socket interface, the other end of the switch is respectively connected with a battery power supply BAT-VCC, one end of an eleventh resistor and the emitter of S8550, the other end of the eleventh resistor is respectively connected with one end of a twelfth resistor and the first pin of the MD7030 chip, the other end of the twelfth resistor is connected with the base of the S8550, the collector of the S8550 is respectively connected with the anode of the second light-emitting diode and one end of a sixth capacitor, the third pin of the MD7030 chip is connected with one end of a fifth capacitor and the BAT-VCC end, the cathode of the first capacitor, the other end of the second capacitor, the other end of the third capacitor, the cathode of the fourth capacitor and one end of a tenth resistor are connected and connected with USB-0V, and the other end of the tenth resistor is respectively connected with the second pin, the third pin, the fourth pin, the other end of the fifth capacitor, the other end of the sixth capacitor and the cathode of the second light-emitting diode and connected with the BAT-GND end.

In this embodiment, the communication module is a bluetooth module. The bluetooth module includes an ST17H66 bluetooth chip. The bluetooth module comprises an ST17H66 bluetooth BLE5.2 chip. The ST17H66 Bluetooth BLE5.2 chip is a Bluetooth BLE chip newly proposed by the Ronchi technology, and is provided with 512KB Flash + (96KB ROM) +64KB SRAM, and the Bluetooth protocol stack is solidified and does not occupy the Flash space any more. The 64KB SRAM is used in a partitioning mode, can store more user data in a standby mode, can be provided with a large-capacity buffer area, and supports more complex functions. Ad hoc network applications that conform to the SIG specification. Including multi-node control, and 2 master 4 slave simultaneous operation. ST17H66 has 10x GPIO, -103dBm @ BLE 125 Kbps. The single ST17H66 Bluetooth BLE5.2 chip terminal antenna output can have no matching circuit. And the antenna matrix switching is supported, and the external LNA signal amplification is supported. The biggest advantages of the ST17H66 Bluetooth BLE5.2 chip are that the power consumption is reduced, and the transmission rate is faster.

As shown in fig. 5, a circuit diagram of a bluetooth module is shown, the bluetooth module includes an ST17H66 chip, a fifteenth resistor, a sixteenth resistor, a seventeenth resistor, a ninth capacitor, a tenth capacitor, an eleventh capacitor, a twelfth capacitor, a thirteenth capacitor, a fourteenth capacitor, a fifteenth capacitor and a first crystal oscillator, a first pin of the ST17H66 chip is connected to one end of the fifteenth resistor and one end of the sixteenth resistor, the other end of the fifteenth resistor is connected to an input terminal of the LED module, the other end of the sixteenth resistor is connected to VCC, a twelfth pin of the ST17H66 chip is connected to a third pin of the first crystal oscillator and one end of the tenth capacitor, a thirteenth pin of the ST17H66 chip is connected to one end of the ninth capacitor and the first pin of the first crystal oscillator, the other end of the ninth capacitor is connected to the other end of the tenth capacitor and then connected to a fourth pin of the first crystal oscillator and grounded, a second pin of the first crystal oscillator is grounded, the fourteenth pin of the ST17H66 chip is connected to one end of the eleventh capacitor, one end of the twelfth capacitor, and the positive electrode of the thirteenth capacitor, respectively, and is connected to VCC, the fifteenth pin of the ST17H66 chip is connected to the other end of the eleventh capacitor, the other end of the twelfth capacitor, and the negative electrode of the thirteenth capacitor, respectively, and is grounded, the sixteenth pin of the ST17H66 chip is connected to one end of the fourteenth capacitor and one end of the seventeenth resistor, the other end of the seventeenth resistor is connected to one end of the fifteenth capacitor, and is connected to the bluetooth antenna, and the other end of the fifteenth capacitor is connected to the other end of the fourteenth capacitor, and is grounded. As shown in fig. 6, a circuit diagram of the LED module is shown.

As shown in fig. 6, a circuit diagram of an LED module is shown, the input terminal of the LED module being connected to the first pin of the bluetooth chip.

Another embodiment of the present invention provides an LED crystal photo platform, which includes the LED crystal photo platform base described in the above embodiment and a crystal photo placed on the LED crystal photo platform base.

According to the LED crystal photo placing table, the placing table base can provide colorful lighting effects for crystal photos, and the ornamental effect is good.

Here, it is to be noted that the functions, algorithms, methods, etc. related to the present invention are only conventional adaptive applications of the prior art. Therefore, the present invention is an improvement of the prior art, which is substantially related to the connection relationship between hardware, and not to the functions, algorithms, and methods themselves, that is, the present invention relates to a single function, algorithm, and method, but does not include the improvements proposed to the functions, algorithms, and methods themselves. The description of the present invention in terms of functions, algorithms and methods is provided for better understanding of the present invention.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (10)

1. A light-emitting diode (LED) crystal photo setting table base comprises a base shell and is characterized in that a light control device is arranged in the base shell and comprises a power module, a communication module, a main controller and an LED module, wherein the power module is respectively connected with the main controller, the communication module and the LED module;

the communication module is used for carrying out data communication with an external control terminal, receiving a control instruction of the external control terminal to the LED module and sending the control instruction to the main controller;

the main controller is used for storing the control instruction and controlling the working state of the LED module according to the control instruction;

the LED module works under the control of the main controller.

2. The LED crystal photo setting table base as claimed in claim 1, wherein the light control device further comprises a human body induction module, and the human body induction module is respectively connected with the power module and the LED module.

3. The LED crystal photo setting table base as claimed in claim 2, wherein the human body induction module is a 5.8G radar microwave induction module.

4. The LED crystal photo setting table base as claimed in claim 1, wherein the light control device further comprises a charging module, and the charging module is connected with the power module.

5. The LED crystal photo setting table base as claimed in claim 4, wherein the power module is a lithium battery.

6. The LED crystal photo setting table base as claimed in claim 5, wherein the charging module comprises a battery charging management module, and the battery charging management module is connected with the power module.

7. The LED crystal photo setting base as claimed in claim 6, wherein the charging module includes a Lightning interface, a Type-C interface and a Micro interface.

8. The LED crystal photo setting table base as claimed in claim 1, wherein the communication module is a Bluetooth module.

9. The LED crystal photo setting table base as claimed in claim 8, wherein the Bluetooth module includes an ST17H66 Bluetooth chip.

10. An LED crystal photo table, which is characterized by comprising the LED crystal photo table base of any one of claims 1 to 9 and a crystal photo placed on the LED crystal photo table base.

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