CN112135405A - Wireless control-based lamp and switch using method - Google Patents

Abstract

The invention relates to the technical field of lamps, and aims to provide a lamp based on wireless control and a use method of a switch.

Description

Wireless control-based lamp and switch using method

Technical Field

The invention relates to the field of lamps, in particular to a lamp based on wireless control and a switch using method.

Background

The traditional switches are all wall switches, the switches are often connected with a live wire, when people touch a switch box, electric shock accidents can happen, on one hand, elements in the switches are aged, poor contact and other problems exist, and therefore lamps cannot be triggered to start, and on the other hand, when the electric shock accidents happen, damage caused by the electric shock accidents is irreversible.

Therefore, a set of lamps and switches capable of being controlled wirelessly is needed, the switches are powered by an own power supply, electric shock of a user is avoided, meanwhile, the lamps and the switches can be controlled by a plurality of switches, and the lamp is convenient to carry and capable of being controlled in a one-key mode.

Disclosure of Invention

The invention aims to provide a lamp based on wireless control and a switch using method, wherein the lighting of the lamp is cut off wirelessly by pressing a key on a switch box;

the technical scheme adopted by the invention is as follows: the utility model provides a lamps and lanterns and switch application method based on wireless control, includes lamps and lanterns and switch box, the one end of lamps and lanterns with the zero line is connected, the other end of lamps and lanterns passes through wireless receiving module and is connected with the live wire, still including the circuit in the switch box, be connected with wireless transmitting module, encoder and battery module on the circuit, still including two buttons on the switch box, the button pass through the encoder with circuit series connection, battery module is detachable DC power supply, includes following step during the use:

s1: when the lamp is not on, one key of any two keys on the switch box is started, the circuit on the switch box is communicated, and the wireless transmitting module transmits a signal to enter S2;

s2: a wireless receiving module on the lamp, receiving the signal in S1, turning on a circuit on the lamp, when the lamp is turned on, entering S4, and when the lamp is not turned on, entering S3;

s3: opening a switch box, checking whether the detachable direct-current power supply has electric quantity, if the electric quantity prompt is sufficient, replacing the switch box to enter S1, and if the electric quantity prompt is insufficient, replacing the battery to enter S1;

s4: and (6) ending.

Preferably, in S3, the circuit further includes a battery detection circuit, the battery detection circuit includes a resistor and a diode, the battery detection circuit is connected in parallel to two ends of the battery module, when the visibility of the brightness of the diode is small, the power is insufficient, and when the visibility of the brightness of the diode is large, the power is sufficient.

Preferably, the encoder is a low-frequency modulation encoder, and the wireless transmitting module is an ASK high-frequency carrier frequency oscillator.

Preferably, the output end of the encoder is connected with the DATA input end in the wireless transmission module.

Preferably, one end of the wireless receiving module is connected with the live wire, and the other end of the wireless receiving module is connected with the ballast of the lamp.

Preferably, the lamp is a fluorescent lamp.

Preferably, the lamp further comprises a plurality of switch boxes, and the wireless transmitting modules in the switch boxes are connected with the wireless receiving module of the lamp.

Preferably, the wireless receiving module is a super-regenerative detection receiver.

Preferably, the switch box is including keypad and backplate, the keypad with backplate adaptation connection, be provided with the button on the keypad, be provided with the circuit on the backplate, still be provided with the draw-in groove on the backplate, the both ends correspondence of draw-in groove has battery module's input, detachable DC power supply adopt the dry battery, the dry battery with draw-in groove inner wall butt.

Compared with the prior art, the invention has the beneficial effects that:

1. the switch of the lamp is realized through wireless control, and compared with the traditional switch for conducting a live wire, the switch is different in that only a common dry battery is needed;

2. the hidden danger of electric shock does not exist, and a plurality of wireless switch boxes are matched, so that the operation is convenient.

Drawings

FIG. 1 is a schematic diagram of a wireless control-based lamp and a method of using a switch;

FIG. 2 is a diagram of a wireless transmitter module according to an embodiment of the invention;

FIG. 3 is a schematic diagram of a battery test module according to an embodiment of the present invention;

FIG. 4 is a diagram of a wireless receiving module according to an embodiment of the invention;

fig. 5 is a schematic view of a lamp according to an embodiment of the invention.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to fig. 1 to 5 of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, but not all embodiments. All other implementations made by those of ordinary skill in the art based on the embodiments of the present invention are obtained without inventive efforts.

In the description of the present invention, it is to be understood that the terms "counterclockwise", "clockwise", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are used for convenience of description only, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting.

FIG. 1 is a block diagram of a wireless control-based lamp and a method for using the switch according to the present invention;

the utility model provides a lamps and lanterns and switch application method based on wireless control, includes lamps and lanterns and switch box, the one end of lamps and lanterns with the zero line is connected, the other end of lamps and lanterns passes through wireless receiving module and is connected with the live wire, still including the circuit in the switch box, be connected with wireless transmitting module, encoder and battery module on the circuit, still including two buttons on the switch box, the button pass through the encoder with circuit series connection, battery module is detachable DC power supply, includes following step during the use:

s1: when the lamp is not on, one key of any two keys on the switch box is started, the circuit on the switch box is communicated, and the wireless transmitting module transmits a signal to enter S2;

s2: a wireless receiving module on the lamp, receiving the signal in S1, turning on a circuit on the lamp, when the lamp is turned on, entering S4, and when the lamp is not turned on, entering S3;

s3: opening a switch box, checking whether the detachable direct-current power supply has electric quantity, if the electric quantity prompt is sufficient, replacing the switch box to enter S1, and if the electric quantity prompt is insufficient, replacing the battery to enter S1;

s4: and (6) ending.

It should be noted that in S3, the circuit further includes a battery detection circuit, the battery detection circuit includes a resistor and a diode, the battery detection circuit is connected in parallel to two ends of the battery module, when the brightness visibility of the diode is low, the electric quantity is insufficient, and when the brightness visibility of the diode is high, the electric quantity is sufficient.

It should be noted that the encoder is a low-frequency modulation encoder, and the wireless transmitting module is an ASK high-frequency carrier oscillator.

It is worth mentioning that the output of the encoder is connected to the DATA input of the wireless transmission module.

It is worth to say that, one end of the wireless receiving module is connected with the live wire, and the other end of the wireless receiving module is connected with the ballast of the lamp.

It is worth to say that the lamp is selected as a fluorescent lamp.

It is worth to say, still include a plurality of switch boxes, the wireless transmitting module in a plurality of switch boxes is connected with the wireless receiving module of lamps and lanterns.

It should be noted that the wireless receiving module is a super-regenerative detection receiver.

It is worth explaining that, the switch box is including keypad and backplate, the keypad with backplate adaptation connection, be provided with the button on the keypad, be provided with the circuit on the backplate, still be provided with the draw-in groove on the backplate, the both ends correspondence of draw-in groove has battery module's input, detachable DC power supply adopts the dry battery, the dry battery with draw-in groove inner wall butt.

It is worth explaining that the adaptive connection here can choose the buckle connection for use, or threaded connection, convenient to detach can be provided with the sticky board on the backplate, can place the switch box in different positions through the sticky board, and the user identification of being convenient for is found and is used, and humanized strong, the sticky board is common double faced adhesive tape that can use repeatedly on the market.

It should be noted that the radio transmitter is an ASK high-frequency carrier oscillator, generally 325MHz or 433MHz, modulated by an encoder that generates a low-frequency modulation signal, generally 2262 or 1527, and the chip encodes the key level signal and outputs it to the DATA input of the transmitter circuit, as shown in fig. 2, the super-regenerative detector receiver is actually a high-frequency oscillator controlled by intermittent oscillation, and the high-frequency oscillator is a capacitive three-point oscillator, and the oscillation frequency is consistent with the transmission frequency of the transmitter. Intermittent oscillation is generated during the oscillation of the high-frequency oscillation, which in turn controls the oscillation and the oscillation of the high-frequency oscillator. The frequency of the intermittent oscillation is determined by the parameters of the circuit (typically 1 hundred to several hundred kilohertz). The frequency is selected to be low, the anti-interference performance of the circuit is good, but the receiving sensitivity is low; on the contrary, the frequency is selected to be high, the receiving sensitivity is good, but the anti-interference performance is poor. Both should be considered according to the actual situation. The super regenerative detection circuit has very high gain, when a control signal is not received, a special noise, called super noise, is generated due to the interference of an external stray signal and the thermal disturbance of the circuit, the frequency range of the noise is 0.3-5 kHz, and if a loudspeaker is used for listening, the noise is 'sand' sound. When a control signal comes, the circuit resonates, the super noise is suppressed, and the high-frequency oscillator starts to generate oscillation. The speed of the oscillation process and the length of the pause time are controlled by the amplitude of the received signal. When the amplitude of the received signal is large, the initial level is high, the oscillation process is established quickly, the intermittent time of each oscillation is short, and the obtained control voltage is also high; conversely, when the amplitude of the received signal is small, the resulting control voltage is also low. This high-low voltage is converted into a TTL level pulse signal by the LM358 and output via the DATE terminal, as shown in fig. 4 below.

It should be noted that, referring to fig. 5, in order to avoid the fluorescent lamp from being damaged by the sudden high voltage current, the wireless receiving module is arranged between the live wire and the ballast to control the on and off of the lamp.

It should be noted that, referring to fig. 3, a structural diagram of the battery detection circuit is shown, and whether the battery needs to be replaced is determined by observing the brightness of the diode.

It is worth to be noted that, furthermore, the detachable dc power supply selected in this embodiment is a common dry battery in the market, and as an extension, the photovoltaic power generation may be set as a dc power supply module, and the dc power generated by the photovoltaic power generation is also direct current, so other elements of the circuit do not need to be changed, and the trouble of replacing the battery by a user is eliminated.

The working principle of the invention is as follows: the switch box has the advantages that the key on the switch box is pressed to light the lamp, the household live wire is in zero contact, the procedure of wiring of a house decoration switch is saved, decoration time and cost are saved, the switch is convenient to use, and a plurality of switch boxes can control the same lamp.

Claims (9)

1. The utility model provides a lamps and lanterns and switch application method based on wireless control, includes lamps and lanterns and switch box, its characterized in that, the one end of lamps and lanterns with the zero line is connected, the other end of lamps and lanterns passes through wireless receiving module and is connected with the live wire, still including the circuit in the switch box, be connected with wireless transmitting module, encoder and battery module on the circuit, still including the button on the switch box, the button pass through the encoder with circuit series connection, battery module is detachable DC power supply, includes the following step during the use:

s1: when the lamp is not on, one key of any two keys on the switch box is started, the circuit on the switch box is communicated, and the wireless transmitting module transmits a signal to enter S2;

s2: a wireless receiving module on the lamp, receiving the signal in S1, turning on a circuit on the lamp, when the lamp is turned on, entering S4, and when the lamp is not turned on, entering S3;

s3: opening a switch box, checking whether the detachable direct-current power supply has electric quantity, if the electric quantity prompt is sufficient, replacing the switch box, and entering S1, and if the electric quantity prompt is insufficient, replacing the detachable direct-current power supply, and entering S1;

s4: and (6) ending.

2. The method as claimed in claim 1, wherein in S3, the circuit further includes a battery detection circuit, the battery detection circuit includes a resistor and a diode, the battery detection circuit is connected in parallel to two ends of the battery module, when the diode has low brightness and low visibility, the battery detection circuit indicates insufficient power, and when the diode has high brightness and high visibility, the battery detection circuit indicates sufficient power.

3. The method as claimed in claim 1, wherein the encoder is a low frequency modulation encoder, and the wireless transmitter is an ASK high frequency carrier oscillator.

4. The method as claimed in claim 3, wherein the output terminal of the encoder is connected to the DATA input terminal of the wireless transmission module.

5. The use method of claim 1, wherein one end of the wireless receiving module is connected to a live wire, and the other end of the wireless receiving module is connected to a ballast of the lamp.

6. The method as claimed in claim 5, wherein the lamp is selected as a fluorescent lamp.

7. The lamp and the method for using the switch based on the wireless control as claimed in claim 4, further comprising a plurality of switch boxes, wherein the wireless transmitting module in the switch boxes is connected with the wireless receiving module of the lamp.

8. The method as claimed in claim 7, wherein the wireless receiver module is a super regenerative detector receiver.

9. The use method of claim 1, wherein the switch box comprises a key board and a back board, the key board is connected to the back board in an adaptive manner, the key board is provided with keys, the back board is provided with a circuit, the back board is further provided with a slot, two ends of the slot correspond to the input end of the battery module, the detachable direct-current power supply adopts a dry battery, and the dry battery abuts against the inner wall of the slot.

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