SUMMERY OF THE UTILITY MODEL
This practicality aims at solving above-mentioned technical problem to a certain extent and passes through intelligent power control, reaches the synchronous effect of the beautiful resistant lamp of intelligence, can realize that the remote controller carries out the function switch of synchronous effect to the beautiful resistant lamp of intelligence.
In view of the above, in order to solve the above technical problems, the present invention provides a white-warm white-LED synchronous intelligent meinai lamp, which comprises an intelligent power supply and meinai lamp strings, wherein the intelligent power supply is sequentially connected by wires via a plug, a controller and a power line female terminal, each meinai lamp string is formed by sequentially connecting white-warm white-LED diodes in series, the meinai lamp strings are all connected to a main wire of the white-warm white-LED synchronous intelligent meinai lamp in parallel, one end of the plug is connected to a power supply, the other end of the plug is sequentially connected to a filter for filtering noise and separation signals and a filter circuit for high frequency and low frequency resistance, the output end of the filter circuit is respectively connected to the input end of a MOSFET and a DC transformer, the DC transformer outputs direct current after voltage change to a driving module and an IRF, the IRF is connected to a program module, and the input of the program module controls the meinai lamp, after IRF processing, an output signal is input to the input end of the driving module through the heat dissipation assembly, and the output end of the driving module and the output end of the DC transformer are connected to the input end of the MOSFET and then transmitted to the Meinai lamp string.
Further, the IRF is connected with the remote control module, the WiFi module and the Bluetooth module.
Furthermore, the anode of each white warm white-LED diode is connected with the cathode of the adjacent white warm white-LED diode, and a voltage dropping resistor is arranged in the middle of each white warm white-LED diode.
11. Further, the white warm white-LED diode has 2 pins. The white-warm white-LED is a lamp bead with two pins and adopting a control IC and LED chip sealing technology.
Further, the outer diameter of the LED is 3mm, 4mm or 5 mm.
Furthermore, the Meinai lamp main line is formed by plastic and copper wires through extrusion molding of an extruder.
Further, the plug is a waterproof IP44 plug.
The technical effects of this utility lie in: the utility model relates to a white warm white-LED synchronous intelligent meinai lamp, the lamp cluster in this white warm white-LED synchronous intelligent meinai lamp realizes multiple change functions such as full-color colour, single colour, maintains the synchronism of colour simultaneously.
The utility model discloses meinai lamp, including control system, convert DC to through the voltmeter AC, carry out the filtering through circuit board circuit, the programmer carries out function programming to the program chip through compiling the procedure, and the controller contains components such as wiFi and bluetooth receipt transmission chip, fin. Then reaches the output end of the controller through the circuit of the circuit board and reaches the power supply female connector. The utility model discloses a full-color colored change of remote controller of remote control module or wiFi and bluetooth module's terminal automatic control or switch realize the strange land control in a plurality of different floors and room, convenient operation, the programmer can program according to the user's demand, makes beautiful nai lamp show the demand color of customization.
Detailed Description
The present invention is further described with reference to the following drawings and specific examples so that those skilled in the art can better understand the present invention and can implement the same, but the examples are not intended to limit the present invention.
As shown in fig. 2 and 3, according to one embodiment of the present invention, the voltage across the white warm white-LED diode bulb is 3.0-3.2V.
As shown in fig. 1 and 2, two supports 2 at the bottom of a white warm white-LED diode bulb 1 are respectively connected with wires 3 in a welding manner, the wires 3 are copper wires, the exposed wires respectively form a wire anode 4 and a wire cathode 5 of the white warm white-LED diode, the anode of each white warm white-LED diode is respectively connected with the cathode of the adjacent white warm white-LED diode, so that the white warm white-LED diodes are sequentially connected in series to form a string, and a resistance 9 is pressed between the anode and the cathode of the LED. The Meinai lamp strings are connected in parallel to the positive electrode 13 and the negative electrode 14 of the main line of the white warm white-LED synchronous intelligent Meinai lamp tube to form a Meinai lamp string loop.
According to a particular embodiment of the invention, the main wire is made up of plastic and copper wire compressed by means of an extruder.
As shown in fig. 3, the intelligent power supply is connected with the female terminal 7 by the plug 10 of 1P44 and the controller 8, and is electrically connected in sequence, the multiple parallel-connected Meinai lamp strings are provided with the sheath 6, the tail of the sheath is provided with the tail plug 11, and the female terminal 7 is connected with the multiple parallel-connected Meinai lamp strings to form the whole product structure.
According to a particular embodiment of the present invention.
Example 1: the white, warm and white-LED synchronous intelligent Meinai lamp has the effects that:
the key function is as follows: as shown in fig. 3
1. The switching function is as follows:
the switch function turns the controller on and off.
2. The normally bright function:
when the key function is pressed to be white, warm, white and light, and light warm, white and light, the white warm white-LED synchronous intelligent Meinai lamp presents a corresponding normally-bright color.
3. The normal lighting and flashing functions are as follows:
when the key function is pressed to white plus white flash, warm white plus warm white flash, warm white plus white flash, and white plus warm white flash, the white warm white-LED synchronous intelligent Meinai lamp presents corresponding normal-bright and flash color.
4. The full flash function:
when the key function is pressed to warm white and full-self-flashing, the white warm white-LED synchronous intelligent Meinai lamp presents corresponding full-flashing color.
5. Gradual light and darkness functions:
when the key function is pressed to (white/warm white/light warm white) and gradually becomes bright and dark, the time of the process of gradually becoming bright and dark is 8 seconds, and after each color is gradually bright and dark twice, the next color is changed.
6. A light-on-off function:
the key function is pressed to (white/warm white/light warm white) to be on and off, and after flashing for 15 seconds, the color is changed.
7. The speed regulation function is as follows:
and the key function is pressed to a speed regulation plus key, so that the speed of the white, warm, white and LED synchronous intelligent Meinai lamp is increased when the corresponding color is presented. And pressing a speed-adjusting key by the key function to reduce the speed of the white, warm, white and LED synchronous intelligent Meinai lamp in a corresponding color.
8. The automatic color changing function:
when the key function is pressed to the automatic color changing function key, the white, warm, white and LED synchronous intelligent Meinai lamp has the following functional effects.
(white/warm white/light warm white) normally bright colors, changing one color every 15 seconds.
(white + white flash/warm white + warm white flash/warm white + white flash), one color change every 15 seconds.
(white/warm white/light warm white) is gradually dark, the time of the process of gradually dark and light is 8 seconds, and after each color is gradually dark and light twice, the next color is changed.
(white/warm white/light warm white) on and off, after flashing for 15 seconds, the next color is changed.
(white flash/warm white flash) color change every 15 seconds.
9. The functions are divided into two types of remote control and non-remote control. The function can be programmed and modified at will through computer programs. Under the same power line, the power supply is synchronized no matter how long the power supply is carried out simultaneously.
Example 2: the white, warm and white-LED synchronous intelligent Meinai lamp has the effects that:
the product function automatic cycle function:
warm white and normally bright for 30 seconds, warm white + warm white flash for 30 seconds, white light and normally bright for 30 seconds, white + white flash for 30 seconds, warm white flash for 30 seconds, white light flash for 30 seconds, and white + warm white and normally bright for 1020 seconds. The above functions then cycle automatically.
The function can be programmed and modified at will through computer programs. Under the same power line, the power supply is synchronized no matter how long the power supply is carried out simultaneously.
As shown in fig. 4, it is a circuit diagram of the control system of the white-warm white-LED synchronous intelligent meinai lamp product of the present invention. Intelligent power supply connected mode: the 1P44 plug is connected with a 24-230V power supply, 24-230V is input to the input end of the control box, the AC of the transformer of the power-on controller is converted into DC, filtering is carried out through a circuit board, a programmer writes a program through a program module to carry out functional programming on a program chip, and the controller comprises components such as a WiFi and Bluetooth receiving and sending chip, a radiating fin and the like. Then reaches the output end of the controller through the circuit of the circuit board and reaches the power supply female connector.
The specific connection mode is as follows: one end of an IP44 plug 10 is connected with a power supply, 24-230V voltage is connected with the input end of a controller, the other end of the plug is sequentially connected with a filter for filtering noise and separating signals and a filter circuit with high frequency resistance and low frequency pass, the output end of the filter circuit is respectively connected with the input end of an MOSFET and a DC transformer, the DC transformer outputs direct current after voltage change to a driving module and an IRF, the IRF is connected with a program module, a remote control module, a WiFi and Bluetooth module, signals output by the IRF pass through a heat radiation component and the driving module, the output ends of the driving module and the DC transformer are both connected with a load at the end part of an input end connecting main line of the MOSFET, and the load is a Meinai lamp string.
The fuse acts as follows: when a circuit is in fault or abnormal, the current is continuously increased, and the increased current may damage some important or valuable devices in the circuit, and may burn the circuit or even cause fire. If the fuse is correctly arranged in the circuit, the fuse can be fused to cut off the current when the current abnormally rises to a certain height and a certain value, thereby playing a role in protecting the safe operation of the circuit.
From the fuse end through the circuit board circuit to the piezoresistor, which is a voltage limiting type protection device. By utilizing the nonlinear characteristic of the piezoresistor, when overvoltage appears between two poles of the piezoresistor, the piezoresistor can clamp the voltage to a relatively fixed voltage value, thereby realizing the protection of a post-stage circuit.
The filter is a circuit or an operation processing system with frequency selection function and has the functions of filtering noise and separating various signals.
The filter circuit is connected with the filter circuit through the circuit board from the filter end, the basic functions of the filter circuit are four, namely high-pass, low-pass, band-pass and band-stop high-pass, the high-frequency pass is used for stopping the low-frequency low-pass, the band-pass is opposite to the high-pass, the specified frequency is used for stopping the band stop (notch) and the specified frequency is used for stopping the frequency pass.
The DC transformer is connected with the filter circuit end through a circuit board circuit, specifically, the DC transformer converts 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 transformer, or the alternating current is converted into high-voltage direct current for output through a voltage doubling rectifying circuit.
From the DC transformer terminal to the IRF through the circuit board circuit, the field effect transistor mainly has two types and a metal-oxide semiconductor field effect transistor (MOS-FET for short). The majority carriers participate in the conduction, also known as unipolar transistors. It belongs to a voltage control type semiconductor device. Has the advantages of high input resistance, low noise, low power consumption, large dynamic range, easy integration, no secondary breakdown phenomenon, wide safe working area and the like,
from the DC transformer end to WiFi and bluetooth module, remote control module, program module, WiFi and bluetooth module through the circuit board circuit, be the PCBA board of integrated WiFi and bluetooth function for short distance wireless communication divides into data module and voice module according to the function. The module is mainly used in the field of short-distance wireless data transmission. The Bluetooth or WIFI equipment can be conveniently connected with a PC, a mobile phone and a tablet, complicated cable connection is avoided, and serial lines can be directly replaced. The remote control module is used for controlling and converting functions. Program modules refer to written modified components of the functional program files of the product.
And the circuit of the power-on circuit board reaches the IRF from the output ends of the WiFi and Bluetooth module, the remote control module and the program module. And the IRF output end reaches the heat dissipation assembly through the circuit board circuit, and the heat dissipation assembly is used as a temperature protection assembly. The output ends of the DC transformer and the heat dissipation assembly reach the input end of the driving module, and the driving module is used for simulating a previous-stage module of the tested module and is equivalent to a main program of the tested module. The MOSFET is a field effect transistor which can be widely used in analog circuits and digital circuits and reaches a load from the output end of the MOSFET.
As shown in fig. 5, the inside structure of the white warm white-LED diode. The LED is composed of a chip 31, adhesive glue 32, SI glue 33, fluorescent powder 34, gold wires 35, a bracket 36 and a heat sink 37.
As shown in fig. 6, a white warm white-LED diode is one size. The outer diameter of the bottom of the LED colloid is 5MM, the outer diameter of the top of the LED colloid is 4.8MM, the width of the relevant dimension of the bracket is 0.6MM, the thickness is 0.5MM, the lengths are 15.4MM and 17MM, and the distance between the brackets is 2.54 MM.
As shown in fig. 7, the white warm white-LED synchronous intelligent lamp is characterized in that under the same power line, the product keeps synchronous effect regardless of the running time of the product. The number of connected products is not limited.
As shown in fig. 8, the white-warm white-LED diode is a lamp bead with two pins using a control IC and LED chip sealing technology, the lamp bead is internally sealed with two types of white and warm LED chips, and the control IC can control the LED chips to flash in different ways after receiving an instruction.
The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutions or changes made by persons skilled in the art on the basis of the present application are all within the protection scope of the present application. The protection scope of the present application is subject to the claims.