CN112087841A - Remote control system of high-power LED mining lamp - Google Patents

Abstract

The invention discloses a remote control system of a high-power LED mining lamp, which comprises a mobile control end, a router, an LED power supply and a mining lamp, wherein the mobile control end is wirelessly connected with a PWM WIFI control module through the router, the WIFI control module receives WIFI signals and transmits radio signals and exchanges data with the router, the LED power supply is electrically connected with the mining lamp, all the mining lamps are arranged in parallel, the LED power supply is electrically connected with the PWM WIFI control module, each WIFI control module is provided with an individually corresponding Mac address, and electrical elements in the control system are connected to form a circuit diagram; all lamps are connected in parallel, a large number of loop wires and switches are not required to be installed, and a large amount of electrical materials are saved; each WIFI control module is provided with an independent Mac address, and each lamp is independently switched on and off to adjust the brightness and darkness, so that real energy conservation and emission reduction are realized; the mobile control terminal is used for controlling the lamp to be turned on, the lamp to be turned off when people walk, and the lamp to be turned on and off in seconds.

Description

Remote control system of high-power LED mining lamp

Technical Field

The invention relates to the technical field of industrial and mining lamp remote control, in particular to a remote control system of a high-power LED industrial and mining lamp.

Background

The existing lamps with intelligent control basically stay in civil lamps within 30 watts, the circuit wiring diagram can realize the long distance of high-power LED mining lamps from 100 watts to 250 watts, and the realization is stable and free of interference. The current high-power LED mining lamp basically stays in the original method of controlling a plurality of mining lamps through a switch, because the remote APP mobile phone of the high-power LED mining lamp is controllable, the following problems are solved: firstly, the overall cost of the product cannot be high, otherwise the market acceptance is low and there is no sales volume; secondly, too many interference sources cannot appear on the same line; and thirdly, on one circuit board, one WIFI module can not control a plurality of LED power supplies simultaneously, and synchronization can not be realized. The following problems can occur in the products produced by the prior art: a plurality of loop control switches are required to be installed for the lamp; the supplement of the brightness can not be really realized according to the weather condition and the illumination requirement, and the real energy conservation and emission reduction can not be realized due to the uncontrollable brightness; the switch is arranged at a position relatively close to the lamp, so that the processes of turning on and turning off the lamp are relatively complicated and labor cost is wasted.

Disclosure of Invention

The invention mainly aims to provide a remote control system of a high-power LED mining lamp, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the technical scheme that: the remote control system of the high-power LED mining lamp is characterized in that: the control system comprises a mobile control end, a router, an LED power supply and a mining lamp, wherein the mobile control end is wirelessly connected with a PWM WIFI control module through the router, the WIFI control module receives WIFI signals and transmits radio signals and exchanges data with the router, the LED power supply is electrically connected with the mining lamp and all the mining lamps are arranged in parallel, the LED power supply is electrically connected with the PWM WIFI control module, each WIFI control module is provided with an individually corresponding Mac address, and electrical elements in the control system are connected to form a circuit diagram.

Preferably, the WIFI control module, the GND line and the DCV + pole form three line inputs under the control of PWM to control the normal work of a plurality of LED power supply control ICs with PWM control pins.

Preferably, a plurality of PCB board holes are arranged in the circuit board of the circuit diagram for realizing air convection and reducing the influence of temperature on signal receiving and transmitting exchange data.

Preferably, a ceramic chip capacitor is connected in parallel between a PWM pin of a single WIFI control module IC and a common ground wire to absorb interference of other modules to the IC.

Preferably, the WIFI control module avoids the high-voltage line or the WIFI control module to be arranged in a long distance, so that interference is reduced, and stability and reliability are improved.

Preferably, a piezoresistor, a common-mode inductor and a safety capacitor are arranged at the rectification front end of the circuit diagram.

Preferably, the mobile control terminal is a control terminal app installed on the mobile phone.

Compared with the prior art, the invention has the following beneficial effects: the invention only needs three main lines of zero, fire and ground, all lamps are connected in parallel, and a large amount of loop wires and switches are not needed to be installed, thereby saving a large amount of electrical materials;

each WIFI control module is provided with an independent Mac address, each lamp is independently switched on and off to adjust the brightness and darkness, the lighting requirements in the plant are adjusted according to the intensity of light, and all positions which do not need lighting are turned off, so that real energy conservation and emission reduction are realized;

the mobile control terminal is used for controlling the lamp to be turned on, the lamp to be turned off when people walk, and the lamp to be turned on and off in seconds.

Drawings

FIG. 1 is a system control diagram of the present invention;

fig. 2 is a schematic diagram of the circuit of the present invention.

In the figure: 1. a mobile control end; 2. a router; 3. an LED power supply; 4. a mining lamp; 5. and a WIFI control module.

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.

As shown in fig. 1-2, the remote control system of the high-power LED mining lamp is characterized in that: the control system comprises a mobile control end 1, a router 2, an LED power supply 3 and a mining lamp 4, wherein the mobile control end 1 is wirelessly connected with a WIFI control module 5 of PWM through the router 2, the WIFI control module 5 receives WIFI signals and transmits radio signals and exchanges data with the router 2, the LED power supply 3 is electrically connected with the mining lamp 4 and all the mining lamps 4 are connected in parallel, the LED power supply 3 is electrically connected with the WIFI control module 5 with the PWM, the WIFI control module 5 is provided with Mac addresses corresponding to the WIFI control module 5 individually, and electrical elements in the control system are connected to form a circuit diagram.

In this embodiment, the WIFI control module 5 forms three line inputs with the GND line and the DCV + pole under the control of PWM, and controls the normal operation of a plurality of LED power control ICs with PWM control pins.

In this embodiment, a plurality of PCB board holes are disposed in the circuit board of the circuit diagram, so as to implement air convection and reduce the influence of temperature on signal receiving and transmitting exchange data.

In this embodiment, a ceramic chip capacitor is connected in parallel between the PWM pin of the IC of the single WIFI control module 5 and the common ground line to absorb interference of other modules to the IC.

In this embodiment, WIFI control module 5 avoids the high-tension line or WIFI control module to set up each other remotely, reduces the interference, improves stability, reliability.

In this embodiment, the rectifying front end of the circuit diagram is provided with a voltage dependent resistor, a common mode inductor, a safety capacitor, a voltage dependent resistor for resisting high voltage, a common mode inductor for filtering, and a safety capacitor for resisting electromagnetic interference.

In this embodiment, the mobile control terminal 1 is a control terminal app installed on a mobile phone.

The principle of the invention is as follows: through cell-phone APP remote control by industrial grade router connected's LED power control system that has WIFI control module, specific core control is, by a WIFI control module who takes PWM, control the break-make of inverter circuit switching device, make the output obtain a series of pulses that are equal in amplitude, replace sine wave or required waveform with these pulses, that is to say produce a plurality of pulses in the half cycle of output waveform, make the equivalent voltage of each pulse be sinusoidal waveform, the output that obtains is smooth and low order harmonic is few, because PWM is digital form, so can reduce the noise influence to minimum.

Through the high-power LED industrial and mining lamps and lanterns of cell-phone APP remote control under the WIFI cover (or from taking the SIM card), realize the remote switch to this lamps and lanterns, the luminance is electrodeless adjustable, specifically implant one at the power part of lamps and lanterns and have and can accept the WIFI signal and transmit radio signal realization and router exchange data, thereby to the luminous power supply synchronization secondary control of a plurality of control LEDs, through cell-phone APP remote control WIFI module promptly, module control LED power supply, LED power supply controls the luminous such process of LED three times again, finally realize low cost, high energy-conservation, convenient controllable, characteristics that the practicality is strong.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (7)

1. The remote control system of the high-power LED mining lamp is characterized in that: the control system comprises a mobile control end, a router, an LED power supply and a mining lamp, wherein the mobile control end is wirelessly connected with a PWM WIFI control module through the router, the WIFI control module receives WIFI signals and transmits radio signals and exchanges data with the router, the LED power supply is electrically connected with the mining lamp and all the mining lamps are arranged in parallel, the LED power supply is electrically connected with the PWM WIFI control module, each WIFI control module is provided with an individually corresponding Mac address, and electrical elements in the control system are connected to form a circuit diagram.

2. The remote control system of the high-power LED mining lamp as claimed in claim 1, wherein the WIFI control module is connected with a GND line and a DCV + electrode under the control of PWM to form three line inputs for controlling the normal operation of a plurality of LED power control ICs with PWM control pins.

3. The remote control system of the high power LED mining lamp according to claim 1, wherein a plurality of PCB board holes are arranged in the circuit board of the circuit diagram.

4. The remote control system for the high-power LED mining lamp according to claim 1, wherein a ceramic chip capacitor is connected in parallel between a PWM pin of a single WIFI control module IC and a common ground wire.

5. The remote control system for the high-power LED mining lamp according to claim 1, wherein the WIFI control modules are arranged at a distance from each other avoiding the high-voltage line or the WIFI control modules.

6. The remote control system of the high-power LED mining lamp as claimed in claim 1, wherein the rectifying front end of the circuit diagram is provided with a voltage dependent resistor, a common mode inductor and a safety capacitor.

7. The remote control system for the high-power LED mining lamp as claimed in claim 1, wherein the mobile control terminal is a control terminal app installed on a mobile phone.

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