CN218499307U - LED lamp slave node unit equipment based on LoRa wireless ad hoc network communication - Google Patents
LED lamp slave node unit equipment based on LoRa wireless ad hoc network communication Download PDFInfo
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- CN218499307U CN218499307U CN202222786250.5U CN202222786250U CN218499307U CN 218499307 U CN218499307 U CN 218499307U CN 202222786250 U CN202222786250 U CN 202222786250U CN 218499307 U CN218499307 U CN 218499307U
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Abstract
The utility model discloses a LED lamp of wireless ad hoc network communication is from node unit equipment based on LORA relates to LED control field, LED lamp of wireless ad hoc network communication based on LORA includes from node unit equipment: the LED lamp slave node unit is used for controlling the LED lamp to be on or off according to the input information; the LED lamp slave node unit includes: the commercial power supply module is used for supplying 220V alternating current; the voltage reduction rectification filtering module is used for converting 220V alternating current into direct current; the switch control module is used for controlling the circuit to be conducted; the LED lamp starting control module is used for controlling the LED lamp to emit light when receiving the signal of the signal receiving module; compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a LORA communication realizes the switch of remote control LED lamp, has solved the user and has forgotten the problem that the light need turn back of turning off, and the signal of receiving only needs the single to trigger, does not need continuous control, reduces control terminal operating time.
Description
Technical Field
The utility model relates to a LED control field specifically is a LED lamp slave node unit equipment of wireless ad hoc network communication based on LORA.
Background
LED lamp control on the existing market is often opened or closed through manual control LED lamp, when the user leaves the back discovery LED lamp and does not close, often need turn back and close the LED lamp, and is comparatively loaded down with trivial details.
LORA (Long Range Radio) is a low-power consumption local area network wireless standard, and is mainly characterized in that the distance of propagation is longer than that of other wireless modes under the same power consumption condition, the unification of low power consumption and Long distance is realized, and the distance of the communication is enlarged by 3-5 times than that of the traditional wireless Radio frequency communication under the same power consumption condition.
If the LORA technology is applied to LED lamp control, the LED lamp is turned off and on in a long distance, and the trouble that a user forgets to turn off the lamp and needs to turn back is solved.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a LED lamp of wireless ad hoc network communication is from node unit equipment based on LORA to solve the problem that proposes among the above-mentioned background art.
In order to achieve the above object, the utility model provides a following technical scheme:
an LED lamp slave node unit device based on LORA wireless ad hoc network communication, comprising:
the control terminal is used for sending control information;
the router is used for sending the information to the LORA terminal;
an LORA terminal for transmitting information to a base station apparatus body;
the base station device body is used for sending information to the LED lamp slave node unit;
the LED lamp slave node unit is used for controlling the LED lamp to be on or off according to the input information; the LED lamp slave node unit includes:
the commercial power supply module is used for supplying 220V alternating current;
the voltage reduction rectification filtering module is used for converting 220V alternating current into direct current;
the switch control module is used for controlling the circuit to be conducted;
the LED lamp starting control module is used for controlling the LED lamp to emit light when receiving the signal of the signal receiving module;
the LED lamp turning-off control module is used for controlling the LED lamp to be turned off when receiving the signal of the signal receiving module;
the grounding trigger module is used for controlling the circuit to be grounded and disconnecting the LED lamp to turn off the control module when receiving the signal of the signal receiving module;
a signal receiving module for receiving information transmitted by the base station device body;
the control terminal is connected with the router, the router is connected with the LORA terminal, the LORA terminal is connected with the base station device body, and the base station device body is connected with the LED lamp node unit;
LED lamp node unit: the LED lamp starting control module is connected with the LED lamp starting control module, the LED lamp stopping control module is connected with the LED lamp starting control module, the grounding trigger module is connected with the LED lamp stopping control module, and the signal receiving module is connected with the LED lamp starting control module, the LED lamp stopping control module and the grounding trigger module.
As a further aspect of the present invention: the signal receiving module comprises a capacitor C3, a capacitor C4, an opening signal VIN1 and a closing signal VIN2, the opening signal VIN1 is connected with the capacitor C3, the LED starting control module and the grounding trigger module, the other end of the capacitor C3 is grounded, and the closing signal VIN2 is connected with the capacitor C4 and the LED lamp closing control module.
As a further aspect of the present invention: LED starts control module and includes resistance R2, triode V1, silicon controlled rectifier Z1, switch S2, triode V1 'S collecting electrode connecting resistance R2, on-off control module, triode V1' S the other end of base connecting resistance R2, silicon controlled rectifier Z1 'S positive pole is connected to triode V1' S projecting pole, silicon controlled rectifier Z1 'S control pole connection signal receiving module, silicon controlled rectifier Z1' S negative pole connecting switch S2, LED lamp D1 is connected to switch S2 'S the other end, LED lamp D1' S other end ground connection.
As a further aspect of the present invention: LED lamp closing control module includes resistance R4, triode V2, silicon controlled rectifier Z2, relay J2, diode D2, triode V2's collecting electrode connection switch control module, resistance R4, triode V2's base connecting resistance R4's the other end, silicon controlled rectifier Z2's positive pole is connected to triode V2's projecting pole, silicon controlled rectifier Z2's control pole connection signal receiving module, relay J2 is connected to silicon controlled rectifier Z2's negative pole, diode D2's positive pole is connected to relay J2's the other end, diode D2's anodal ground connection.
As a further aspect of the present invention: the grounding trigger module comprises a resistor R3 and an MOS tube V3, one end of the resistor R3 is connected with the switch control module, the other end of the resistor R3 is connected with the D pole of the MOS tube V3, the S pole of the MOS tube V3 is received, and the G pole of the MOS tube V3 is connected with the signal receiving module.
Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a LORA communication realizes the switch of remote control LED lamp, has solved the user and has forgotten the problem that the light need turn back of turning off, and the signal of receipt only needs the single to trigger, does not need continuous control, reduces control terminal operating time.
Drawings
Fig. 1 is a schematic diagram of an LED lamp slave node unit device based on LORA wireless ad hoc network communication.
Fig. 2 is a schematic diagram of a slave node unit of the LED lamp.
Fig. 3 is a circuit diagram of the slave node unit of the LED lamp.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.
Referring to fig. 1 and 2, an LED lamp slave node unit device for wireless ad hoc network communication based on LORA includes:
the control terminal is used for sending control information;
the router is used for sending the information to the LORA terminal;
an LORA terminal for transmitting information to a base station apparatus body;
the base station device body is used for sending information to the LED lamp slave node unit;
the LED lamp slave node unit is used for controlling the LED lamp to be on or off according to input information; the LED lamp slave node unit includes:
the commercial power supply module is used for supplying 220V alternating current;
the voltage reduction rectification filtering module is used for converting 220V alternating current into direct current;
the switch control module is used for controlling the circuit to be conducted;
the LED lamp starting control module is used for controlling the LED lamp to emit light when receiving the signal of the signal receiving module;
the LED lamp turning-off control module is used for controlling the LED lamp to be turned off when receiving the signal of the signal receiving module;
the grounding trigger module is used for controlling the circuit to be grounded and disconnecting the LED lamp to turn off the control module when receiving the signal of the signal receiving module;
a signal receiving module for receiving information transmitted by the base station device body;
the control terminal is connected with the router, the router is connected with the LORA terminal, the LORA terminal is connected with the base station device body, and the base station device body is connected with the LED lamp node unit;
LED lamp node unit: the LED lamp starting control module is connected with the LED lamp starting control module, the LED lamp stopping control module is connected with the LED lamp starting control module, the grounding trigger module is connected with the LED lamp stopping control module, and the signal receiving module is connected with the LED lamp starting control module, the LED lamp stopping control module and the grounding trigger module.
In this embodiment: referring to fig. 3, the signal receiving module includes a capacitor C3, a capacitor C4, an on signal VIN1, and an off signal VIN2, the on signal VIN1 is connected to the capacitor C3, the LED start-up control module, and the ground trigger module, the other end of the capacitor C3 is grounded, and the off signal VIN2 is connected to the capacitor C4 and the LED lamp turn-off control module.
The LED lamp control method includes the steps that information of light emitting or light out of an LED lamp is sent through a control terminal (a mobile phone, a computer and the like), the information is sent to an LED lamp node unit through a router, an LORA terminal and a base station device body, the light emitting information corresponds to a starting signal VIN1, and the closing information corresponds to a closing signal VIN2.
In this embodiment: referring to fig. 3, the LED start-up control module includes a resistor R2, a triode V1, a thyristor Z1, and a switch S2, a collector of the triode V1 is connected to the resistor R2 and the switch control module, a base of the triode V1 is connected to the other end of the resistor R2, an emitter of the triode V1 is connected to an anode of the thyristor Z1, a control electrode of the thyristor Z1 is connected to the signal receiving module, a cathode of the thyristor Z1 is connected to the switch S2, the other end of the switch S2 is connected to the LED lamp D1, and the other end of the LED lamp D1 is grounded.
When the starting signal VIN1 is received, the control electrode of the controllable silicon Z1 is electrified, the controllable silicon Z1 is conducted, a circuit where the triode V1 is located is conducted, the LED lamp D1 is electrified and emits light, lighting control is completed, and the switch S2 is normally closed.
In this embodiment: referring to fig. 3, the led lamp turn-off control module includes a resistor R4, a triode V2, a thyristor Z2, a relay J2, and a diode D2, a collector of the triode V2 is connected to the switch control module, the resistor R4, a base of the triode V2 is connected to the other end of the resistor R4, an emitter of the triode V2 is connected to an anode of the thyristor Z2, a control electrode of the thyristor Z2 is connected to the signal receiving module, a cathode of the thyristor Z2 is connected to the relay J2 and a cathode of the diode D2, the other end of the relay J2 is connected to an anode of the diode D2, and an anode of the diode D2 is grounded.
When the closing signal VIN2 is received, the control electrode of the controllable silicon Z2 is electrified, the controllable silicon Z2 is conducted, the triode V2 is conducted, the relay J2 is electrified to work, the control switch S2 is bounced off, the circuit where the LED lamp D1 is located is grounded, and the control of turning off the LED lamp is completed.
In this embodiment: referring to fig. 3, the ground triggering module includes a resistor R3 and an MOS transistor V3, one end of the resistor R3 is connected to the switch control module, the other end of the resistor R3 is connected to the D pole of the MOS transistor V3, the S pole of the MOS transistor V3 receives the signal, and the G pole of the MOS transistor V3 is connected to the signal receiving module.
When the starting signal VIN1 is received again, the MOS tube V3 is conducted for a short time by the signal, the control circuit is grounded, the current flowing to the LED lamp closing control module is grounded through the third resistor and the MOS tube V3, the LED lamp control module stops working, the relay J2 stops working, the switch S2 is closed, the silicon controlled rectifier Z1 is conducted again after receiving the starting signal VIN1, and the LED lamp D1 emits light again for illumination.
The utility model discloses a theory of operation is: the control terminal sends control information, the router sends the information to the LORA terminal, the LORA terminal sends the information to the base station device body, and the base station device body sends the information to the LED lamp slave node unit; the LED lamp slave node unit controls the LED lamp to be on or off according to the input information; the LED lamp slave node unit includes: the commercial power supply module supplies 220V alternating current, the voltage reduction rectification filter module converts the 220V alternating current into direct current, the switch control module control circuit is switched on, when the LED lamp starting control module receives a signal of the signal receiving module, the LED lamp is controlled to emit light, when the LED lamp closing control module receives the signal of the signal receiving module, the LED lamp is controlled to be turned off, when the grounding trigger module receives the signal of the signal receiving module, the control circuit is grounded, the LED lamp closing control module is disconnected, and the signal receiving module receives information sent by the base station device body.
It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.
Claims (5)
1. An LED lamp slave node unit device based on LORA's wireless ad hoc network communication, comprising:
the control terminal is used for sending control information;
the router is used for sending the information to the LORA terminal;
an LORA terminal for transmitting information to a base station apparatus body;
the base station device body is used for sending information to the LED lamp slave node unit;
the LED lamp slave node unit is used for controlling the LED lamp to be on or off according to input information; the method is characterized in that: the LED lamp slave node unit includes:
the commercial power supply module is used for supplying 220V alternating current;
the voltage reduction, rectification and filtering module is used for converting 220V alternating current into direct current;
the switch control module is used for controlling the circuit to be conducted;
the LED lamp starting control module is used for controlling the LED lamp to emit light when receiving the signal of the signal receiving module;
the LED lamp turning-off control module is used for controlling the LED lamp to be turned off when receiving the signal of the signal receiving module;
the grounding trigger module is used for controlling the circuit to be grounded and disconnecting the LED lamp to turn off the control module when receiving the signal of the signal receiving module;
a signal receiving module for receiving information transmitted by the base station device body;
the control terminal is connected with the router, the router is connected with the LORA terminal, the LORA terminal is connected with the base station device body, and the base station device body is connected with the LED lamp node unit;
LED lamp node unit: the LED lamp starting control module is connected with the LED lamp starting control module, the LED lamp stopping control module is connected with the LED lamp starting control module, the grounding trigger module is connected with the LED lamp stopping control module, and the signal receiving module is connected with the LED lamp starting control module, the LED lamp stopping control module and the grounding trigger module.
2. The LED lamp slave node unit device based on LORA's wireless ad hoc network communication of claim 1, wherein the signal receiving module comprises a capacitor C3, a capacitor C4, an on signal VIN1 and an off signal VIN2, the on signal VIN1 is connected with the capacitor C3, the LED start control module and the grounding trigger module, the other end of the capacitor C3 is grounded, and the off signal VIN2 is connected with the capacitor C4 and the LED lamp off control module.
3. The LORA-based LED lamp slave node unit device for wireless ad hoc network communication according to claim 1, wherein the LED start control module comprises a resistor R2, a triode V1, a thyristor Z1 and a switch S2, a collector of the triode V1 is connected with the resistor R2 and the switch control module, a base of the triode V1 is connected with the other end of the resistor R2, an emitter of the triode V1 is connected with an anode of the thyristor Z1, a control electrode of the thyristor Z1 is connected with the signal receiving module, a cathode of the thyristor Z1 is connected with the switch S2, the other end of the switch S2 is connected with the LED lamp D1, and the other end of the LED lamp D1 is grounded.
4. The LORA-based LED lamp slave node unit device for wireless ad hoc network communication according to claim 1 or 3, wherein the LED lamp turn-off control module comprises a resistor R4, a triode V2, a thyristor Z2, a relay J2 and a diode D2, a collector of the triode V2 is connected with the switch control module and the resistor R4, a base of the triode V2 is connected with the other end of the resistor R4, an emitter of the triode V2 is connected with an anode of the thyristor Z2, a control electrode of the thyristor Z2 is connected with the signal receiving module, a cathode of the thyristor Z2 is connected with the relay J2 and a cathode of the diode D2, the other end of the relay J2 is connected with an anode of the diode D2, and an anode of the diode D2 is grounded.
5. The LORA-based wireless ad hoc network communication LED lamp slave node unit device according to claim 1, wherein the ground trigger module comprises a resistor R3 and an MOS tube V3, one end of the resistor R3 is connected with the switch control module, the other end of the resistor R3 is connected with the D pole of the MOS tube V3, the S pole of the MOS tube V3 receives signals, and the G pole of the MOS tube V3 is connected with the signal receiving module.
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CN202222786250.5U CN218499307U (en) | 2022-10-21 | 2022-10-21 | LED lamp slave node unit equipment based on LoRa wireless ad hoc network communication |
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CN202222786250.5U CN218499307U (en) | 2022-10-21 | 2022-10-21 | LED lamp slave node unit equipment based on LoRa wireless ad hoc network communication |
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