CN209803590U - Internet of things intelligent socket control module - Google Patents

Internet of things intelligent socket control module Download PDF

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Publication number
CN209803590U
CN209803590U CN201920680280.3U CN201920680280U CN209803590U CN 209803590 U CN209803590 U CN 209803590U CN 201920680280 U CN201920680280 U CN 201920680280U CN 209803590 U CN209803590 U CN 209803590U
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CN
China
Prior art keywords
electrically connected
module
resistor
pin
series
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Expired - Fee Related
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CN201920680280.3U
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Chinese (zh)
Inventor
涂源淼
张明山
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Shenzhen Dexie Technology Co Ltd
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Shenzhen Dexie Technology Co Ltd
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Priority to CN201920680280.3U priority Critical patent/CN209803590U/en
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Abstract

The utility model discloses an intelligent socket control module of internet of things, which comprises a power module, a communication module, an indication module, a socket on-off control module and a button module, wherein the indication module, the socket on-off control module and the button module are electrically connected with the communication module, and the communication module and the socket on-off control module are electrically connected with the power module; the utility model discloses can realize the long-range break-make electric control to the electrically conductive foot in the socket, so, user's accessible socket realizes the long-range break-make operation to electrical apparatus to can bring the convenience for the user, and make the socket have had multi-functional advantage.

Description

Internet of things intelligent socket control module
Technical Field
The utility model relates to a socket control module technical field, concretely relates to thing networking smart jack control module.
Background
the socket is a device for transmitting electric energy, when being connected with the socket with electrical apparatus, the socket can be for supplying power with electrical apparatus, and the socket on the market all does not possess the function of remote control power on-off at present, so, the user can't realize the remote power on-off operation to electrical apparatus through the socket to there is the shortcoming that the socket function is single.
SUMMERY OF THE UTILITY MODEL
The utility model provides a not enough to prior art, the utility model provides a thing networking smart jack control module, it can realize the long-range break-make electric control to the electrically conductive foot in the socket, so, user's accessible socket realizes the long-range break-make power-off operation with electrical apparatus to can bring the convenience for the user, and make the socket have multi-functional advantage.
The utility model discloses a thing networking smart jack control module, including power module, communication module, instruction module, socket on-off control module and button module all are connected with the communication module electricity, and communication module and socket on-off control module all are connected with the power module electricity.
The utility model discloses an thing networking smart jack control module, wherein, power module includes bridge rectifier module BD, steady voltage chip U1, W1, fuse F1, piezo-resistor VR, electric capacity EC1, EC2, EC3, EC4, EC5, C1, inductance L6, LB1, resistance R1, R2, R3, R4, R8, diode D1, D2, one of them ac input end and zero line wiring end N electricity of bridge rectifier module BD are connected, another ac input end of bridge rectifier module BD is connected with phase line wiring end L electricity after establishing ties fuse F1, piezo-resistor VR's both ends are connected with two ac input end electricity of bridge rectifier module BD respectively, the positive output end of direct current of bridge rectifier module BD is connected with the positive and the one end electricity of inductance L6 of electric capacity EC1, the negative output end of direct current of bridge rectifier module BD is grounded, the negative output end of electric capacity EC 1's negative ground, the positive pole of electric capacity EC2 is connected with the other end electricity of inductance L6, the negative pole of the capacitor EC2 is grounded, the 5 pin, the 6 pin, the 7 pin and the 8 pin of the voltage stabilizing chip U1 are all electrically connected with the positive pole of the capacitor EC2, the 1 pin of the voltage stabilizing chip U1 is electrically connected with one end of the capacitor C1 and the negative pole of the diode D2, the other end of the capacitor C1 is electrically connected with the 2 pin of the voltage stabilizing chip U1, the 2 pin of the voltage stabilizing chip U1 is electrically connected with the positive pole of the diode D2 after being connected in series with the inductor LB1, the 3 pin of the voltage stabilizing chip U1 is electrically connected with the 5 pin of the voltage stabilizing chip U2 after being connected in series with the resistor R2 and the resistor R2 in turn, the 3 pin of the voltage stabilizing chip U2 is electrically connected with the positive pole of the capacitor EC2, the negative pole of the capacitor EC2 is electrically connected with the 2 pin of the voltage stabilizing chip U2, the 4 pin of the voltage stabilizing chip U2 is electrically connected with the 2 pin of the voltage stabilizing chip U2 after being connected with the positive pole of the diode EC2, the diode D2 is electrically connected with the positive pole of the diode D2, and the, the negative electrode of the capacitor EC4 is grounded, the resistor R8 is connected with the capacitor EC4 in parallel, the positive electrode of the diode D2 leads out a power supply end of 5V, the pin 3 of the voltage stabilizing chip W1 is electrically connected with the positive electrode of the diode D2, the pin 2 and the pin 4 of the voltage stabilizing chip W1 lead out power supply ends of 3V3, the pin 1 of the voltage stabilizing chip W1 is grounded, the positive electrode of the capacitor EC5 is electrically connected with the pin 2 of the voltage stabilizing chip W1, and the negative electrode of the capacitor EC5 is grounded.
The utility model discloses a thing networking smart jack control module, wherein, communication module includes WIFI module U2 and resistance R5, and ground connection behind WIFI module U2's 3 foot series resistance R5, 8 feet and the power end 3V3 electricity of WIFI module U2 are connected, and 9 feet and the 18 feet of WIFI module U2 are all grounded.
The utility model discloses an thing networking smart jack control module, wherein, the instruction module includes two-color light emitting diode LED, triode Q, resistance R, one of them emitting diode's positive pole series resistance R back in two-color light emitting diode LED is connected with WIFI module U's 13 feet electricity, another emitting diode's positive pole in two-color light emitting diode LED is connected with triode Q's projecting pole electricity, the both ends of resistance R are connected with triode Q's projecting pole and base electricity respectively, triode Q's base series resistance R back is connected with WIFI module U's 6 feet electricity, triode Q's collecting electrode series resistance R back is connected with triode Q's projecting pole electricity, resistance R's both ends are connected with triode Q's base and projecting pole electricity respectively, triode Q's collecting electrode is connected with power end 5V electricity, the base electrode of the triode Q2 is connected with the resistor R10 in series and then is electrically connected with the 12 pin of the WIFI module U2; the rear end of a positive electrode series resistor R22 of one of the two-color light emitting diodes LED2 is electrically connected with a pin 13 of the WIFI module U2, the rear end of the other light emitting diode of the two-color light emitting diodes LED2 is electrically connected with an emitter of a triode Q6, two ends of a resistor R23 are respectively electrically connected with an emitter and a base of a triode Q6, a base of a triode Q6 is electrically connected with a pin 6 of the WIFI module U2 after being connected with a base series resistor R24, a collector of a triode Q6 is electrically connected with an emitter of a triode Q4 after being connected with a series resistor R12, two ends of a resistor R15 are respectively electrically connected with a base and an emitter of a triode Q4, a collector of a triode Q4 is electrically connected with a power supply terminal 5V, and a base of a triode Q4 is electrically connected with a pin 16; the cathodes of both of the two LEDs in the bi-color LED1 and the cathodes of both of the two LEDs in the bi-color LED2 are grounded.
The utility model discloses a thing networking intelligent socket control module, wherein, socket on-off control module includes relay KJ1, KJ2, diode D3, D4, triode Q1, Q3, resistance R11, R14, triode Q1's projecting pole ground connection, be connected with WIFI module U2's 12 feet electricity behind triode Q1's the base series resistance R11, be connected with power end 5V electricity behind the coil in triode Q1's the collecting electrode series relay KJ1, diode D3's positive pole is connected with triode Q1's collecting electrode electricity, diode D3's negative pole is connected with power end 5V electricity, wiring end L1 is drawn forth to one of them one end of the normally open switch in relay KJ1, the other end of the normally open switch in relay KJ1 is connected with phase line L electricity; the emitting electrode of the triode Q3 is grounded, the base electrode series resistor R14 of the triode Q3 is electrically connected with the 16 pins of the WIFI module U2, the collector electrode of the triode Q3 is electrically connected with the power supply end 5V after being connected with the coil in the relay KJ2 in series, the anode of the diode D4 is electrically connected with the collector electrode of the triode Q3, the cathode of the diode D4 is electrically connected with the power supply end 5V, the wiring end L2 is led out of one end of a normally open switch in the relay KJ2, and the other end of the normally open switch in the relay KJ2 is electrically connected with the phase line wiring end.
The utility model discloses a thing networking smart jack control module, wherein, the button module includes button switch K1, K2, resistance R17, R18, be connected with power end 3V3 electricity behind button switch K1's the one end series resistance R17, button switch K1's the other end is connected with WIFI module U2's 15 feet are electric, be connected with power end 3V3 electricity behind button switch K2's the one end series resistance R18, button switch K2's the other end is connected with WIFI module U2's 3 feet are electric.
The utility model discloses can realize the long-range break-make electric control to the electrically conductive foot in the socket, so, user's accessible socket realizes the long-range break-make operation to electrical apparatus to can bring the convenience for the user, and make the socket have had multi-functional advantage.
Drawings
The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:
Fig. 1 is a schematic circuit block diagram of the present invention;
FIG. 2 is a circuit schematic of a power module;
Fig. 3 is a schematic circuit diagram of the communication module, the indication module, the socket on-off control module and the button module.
Detailed Description
In the following description, numerous implementation details are set forth in order to provide a more thorough understanding of the present invention. It should be understood, however, that these implementation details should not be used to limit the invention. That is, in some embodiments of the invention, details of these implementations are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.
In addition, the descriptions related to "first", "second", etc. in the present invention are only for description purposes, not specifically referring to the order or sequence, and are not intended to limit the present invention, but only to distinguish the components or operations described in the same technical terms, and are not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.
The utility model discloses a thing networking smart jack control module, including power module 1, communication module 2, indicating module 3, socket on-off control module 4 and button module 5 all are connected with communication module 2 electricity, and communication module 2 and socket on-off control module 4 all are connected with power module 1 electricity.
The power supply module 1 comprises a bridge rectifier module BD, voltage stabilizing chips U1, W1, a fuse F1, a voltage dependent resistor VR, capacitors EC1, EC2, EC3, EC4, EC5 and C1, inductors L6 and LB1, resistors R1, R2, R3, R4 and R8, diodes D1 and D2, wherein one alternating current input end of the bridge rectifier module BD is electrically connected with a zero line terminal N, the other alternating current input end of the bridge rectifier module BD is electrically connected with a phase line terminal L after being connected with the fuse F1 in series, two ends of the voltage dependent resistor VR are respectively electrically connected with two alternating current input ends of the bridge rectifier module BD, a direct current positive electrode output end of the bridge rectifier module BD is electrically connected with a positive electrode of a capacitor EC1 and one end of an inductor L6, a direct current negative electrode output end of the bridge rectifier module BD is grounded, a capacitor EC1 is grounded, a positive electrode of the capacitor EC1 is electrically connected with the other end of the inductor L1, a negative electrode of the capacitor EC1 is grounded, the pins 6, 7 and 8 are all electrically connected with the anode of a capacitor EC2, the pin 1 of a voltage stabilizing chip U1 is electrically connected with one end of a capacitor C1 and the cathode of a diode D2, the other end of the capacitor C1 is electrically connected with the pin 2 of a voltage stabilizing chip U1, the pin 2 of the voltage stabilizing chip U1 is electrically connected with the anode of a diode D2 after being connected with an inductor LB1 in series, the pin 3 of the voltage stabilizing chip U1 is electrically connected with the pin 5 of the voltage stabilizing chip U1 after being connected with a resistor R2 and a resistor R1 in series in sequence, the pin 3 of the voltage stabilizing chip U1 is electrically connected with the anode of a capacitor EC3, the cathode of the capacitor EC3 is electrically connected with the pin 2 of the voltage stabilizing chip U3, the pin 4 of the voltage stabilizing chip U3 is electrically connected with the pin 2 of the voltage stabilizing chip U3 after being connected with the pin 4, the resistor R3 is connected with the resistor R3 in parallel with the resistor R3, the cathode of the diode D3 is electrically connected with the anode of the diode EC3, the anode of the diode D3, the resistor R8 is connected in parallel with the capacitor EC4, the anode of the diode D2 leads out a power supply end of 5V, the pin 3 of the voltage stabilizing chip W1 is electrically connected with the anode of the diode D2, the pin 2 and the pin 4 of the voltage stabilizing chip W1 lead out a power supply end of 3V3, the pin 1 of the voltage stabilizing chip W1 is grounded, the anode of the capacitor EC5 is electrically connected with the pin 2 of the voltage stabilizing chip W1, and the cathode of the capacitor EC5 is grounded.
Communication module 2 includes WIFI module U2 and resistance R5, and ground connection behind WIFI module U2's the 3 foot series resistance R5, 8 feet and the power end 3V3 electricity of WIFI module U2 are connected, and the 9 feet and the 18 feet of WIFI module U2 are all grounded.
the indicating module 3 comprises a bicolor light emitting diode LED1, an LED2, triodes Q5, Q6, Q2 and Q4, resistors R19, R20, R21 and R22, r23, R24, R10, R16, R9, R13, R15, R12, an anode series resistor R19 of one of the dual color LEDs LED1 is electrically connected to pin 13 of the WIFI module U2, an anode of the other of the dual color LEDs LED1 is electrically connected to an emitter of a transistor Q5, two ends of a resistor R20 are electrically connected to an emitter and a base of a transistor Q5, a base series resistor R21 of the transistor Q5 is electrically connected to pin 6 of the WIFI module U2, a collector series resistor R5 of the transistor Q5 is electrically connected to an emitter of the transistor Q5, two ends of the resistor R5 are electrically connected to a base and an emitter of the transistor Q5, a collector of the transistor Q5 is electrically connected to a power supply terminal 5V, and a base series resistor R5 of the transistor Q5 is electrically connected to a pin 12 of the WIFI module U5; the rear end of a positive electrode series resistor R22 of one of the two-color light emitting diodes LED2 is electrically connected with a pin 13 of the WIFI module U2, the rear end of the other light emitting diode of the two-color light emitting diodes LED2 is electrically connected with an emitter of a triode Q6, two ends of a resistor R23 are respectively electrically connected with an emitter and a base of a triode Q6, a base of a triode Q6 is electrically connected with a pin 6 of the WIFI module U2 after being connected with a base series resistor R24, a collector of a triode Q6 is electrically connected with an emitter of a triode Q4 after being connected with a series resistor R12, two ends of a resistor R15 are respectively electrically connected with a base and an emitter of a triode Q4, a collector of a triode Q4 is electrically connected with a power supply terminal 5V, and a base of a triode Q4 is electrically connected with a pin 16; the cathodes of both of the two LEDs in the bi-color LED1 and the cathodes of both of the two LEDs in the bi-color LED2 are grounded.
The socket on-off control module 4 comprises relays KJ1, KJ2, diodes D3, D4, triodes Q1 and Q3, resistors R11 and R14, an emitter of the triode Q1 is grounded, a base of a triode Q1 is electrically connected with a 12 pin of a WIFI module U2 after being connected with a resistor R11 in series, a collector of the triode Q1 is electrically connected with a coil in the relay KJ1 in series and a power supply end 5V, an anode of the diode D3 is electrically connected with a collector of the triode Q1, a cathode of the diode D3 is electrically connected with the power supply end 5V, a terminal L1 is led out of one end of a normally open switch in the relay KJ1, and the other end of the normally open switch in the relay KJ1 is electrically connected with a terminal phase; the emitting electrode of the triode Q3 is grounded, the base electrode series resistor R14 of the triode Q3 is electrically connected with the 16 pins of the WIFI module U2, the collector electrode of the triode Q3 is electrically connected with the power supply end 5V after being connected with the coil in the relay KJ2 in series, the anode of the diode D4 is electrically connected with the collector electrode of the triode Q3, the cathode of the diode D4 is electrically connected with the power supply end 5V, the wiring end L2 is led out of one end of a normally open switch in the relay KJ2, and the other end of the normally open switch in the relay KJ2 is electrically connected with the phase line wiring end.
Button module 5 includes button switch K1, K2, resistance R17, R18, be connected with power end 3V3 electricity behind button switch K1's the one end series resistance R17, button switch K1's the other end is connected with WIFI module U2's 15 feet electricity, be connected with power end 3V3 electricity behind button switch K2's the one end series resistance R18, button switch K2's the other end is connected with WIFI module U2's 3 feet electricity.
For example, when the utility model is applied to a two-position socket, one of the conducting strips in one of the socket seats is electrically connected with the terminal L1, and the other conducting strip in one of the socket seats is electrically connected with the neutral wire terminal; one of the conductive strips in the other socket seat is electrically connected with the terminal L2, and the other conductive strip in the other socket seat is electrically connected with the neutral terminal; when the WIFI modules in the utility model are connected with the network, the power on/off control of the conducting strips electrically connected with the wiring terminal L1 and the wiring terminal L2 can be realized through the APP on the terminal; for example, after the 12 pin of the WIFI module outputs a high level, the transistor Q1 can be turned on, so that the coil in the relay KJ1 can be energized, and at this time, the normally open switch in the relay KJ1 is closed, so that the conductive sheet electrically connected to the terminal L1 can be energized; similarly, after the 16 pins of the WIFI module output a high level, the transistor Q3 can be turned on, so that the coil in the relay KJ2 can be energized, and at this time, the normally open switch in the relay KJ2 is closed, so that the conductive sheet electrically connected with the terminal L2 can be energized; after the pin 13 of the WIFI module outputs a high level, one of the two-color light emitting diode LED1 and one of the two-color light emitting diode LED2 can be turned on, so that an indication function can be performed; after the 12 pin of the WIFI module outputs high level, the flicker of the other LED in the double-color LED1 can be controlled by matching with the PWM signal output by the 6 pin of the WIFI module; after the 16 pins of the WIFI module output high level, the flicker of the other LED in the double-color LED2 can be controlled by matching with the PWM signal output by the 6 pins of the WIFI module; when not operating APP on the terminal, when pressing button K1, under the control of WIFI module, can realize the circular telegram or the outage operation to the coil in relay KJ1, so, can control the circular telegram or the outage operation of inserting the seat, and in the same way, when pressing button K2, under the control of WIFI module, can realize the circular telegram or the outage operation to the coil in relay KJ2, so, can control the circular telegram or the outage of inserting the seat.
The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (6)

1. Thing networking smart jack control module, its characterized in that: the intelligent socket comprises a power module (1), a communication module (2), an indication module (3), a socket on-off control module (4) and a button module (5), wherein the indication module (3), the socket on-off control module (4) and the button module (5) are electrically connected with the communication module (2), and the communication module (2) and the socket on-off control module (4) are electrically connected with the power module (1).
2. The internet-of-things smart socket control module according to claim 1, wherein the power module (1) comprises a bridge rectifier module BD, a voltage regulator chip U1, W1, a fuse F1, a voltage dependent resistor VR, capacitors EC1, EC2, EC3, EC4, EC5, C1, an inductor L6, LB1, resistors R1, R2, R3, R4, R8, and diodes D1, D2, wherein one AC input end of the bridge rectifier module BD is electrically connected to a neutral terminal N, the other AC input end of the bridge rectifier module BD is electrically connected to a phase terminal L after being connected in series with the fuse F1, two ends of the voltage dependent resistor VR are electrically connected to two AC input ends of the bridge rectifier module BD respectively, a DC positive output end of the bridge rectifier module BD is electrically connected to a positive electrode of the capacitor EC1 and one end of the inductor L6, and a DC negative output end of the bridge rectifier module BD is grounded, the negative electrode of the capacitor EC1 is grounded, the positive electrode of the capacitor EC2 is electrically connected with the other end of the inductor L6, the negative electrode of the capacitor EC2 is grounded, the 5 feet, the 6 feet, the 7 feet and the 8 feet of the voltage stabilizing chip U1 are electrically connected with the positive electrode of the capacitor EC2, the 1 foot of the voltage stabilizing chip U1 is electrically connected with one end of the capacitor C1 and the negative electrode of the diode D2, the other end of the capacitor C1 is electrically connected with the 2 foot of the voltage stabilizing chip U1, the 2 foot of the voltage stabilizing chip U1 is electrically connected with the positive electrode of the diode D2 after being connected with the inductor LB1 in series, the 3 foot of the voltage stabilizing chip U1 is electrically connected with the 5 foot of the voltage stabilizing chip U1 after being connected with the resistor R2 and the resistor R9 in series in turn, the 3 foot of the voltage stabilizing chip U1 is electrically connected with the positive electrode of the capacitor EC3, the negative electrode of the capacitor EC3 is electrically connected with the 2 foot of the voltage stabilizing chip U1 in series, the 4 foot of, the resistor R4 is connected in parallel with the resistor R3, the cathode of the diode D1 is electrically connected with the 2 pin of the voltage stabilizing chip U1, the anode of the diode D1 is grounded, the anode of the capacitor EC4 is electrically connected with the anode of the diode D2, the cathode of the capacitor EC4 is grounded, the resistor R8 is connected in parallel with the capacitor EC4, the anode of the diode D2 is led out to form a power supply end 5V, the 3 pin of the voltage stabilizing chip W1 is electrically connected with the anode of the diode D2, the 2 pin and the 4 pin of the voltage stabilizing chip W1 are led out to form a power supply end 3V3, the 1 pin of the voltage stabilizing chip W1 is grounded, the anode of the capacitor EC5 is electrically connected with the 2 pin of the voltage stabilizing chip W1, and the cathode of the capacitor EC5 is.
3. the internet of things smart socket control module of claim 2, wherein the communication module (2) comprises a WIFI module U2 and a resistor R5, the 3-pin of the WIFI module U2 is connected in series with the resistor R5 and then grounded, the 8-pin of the WIFI module U2 is electrically connected with a power supply end 3V3, and the 9-pin and the 18-pin of the WIFI module U2 are both grounded.
4. The internet-of-things smart socket control module according to claim 3, wherein the indication module (3) comprises a bi-color Light Emitting Diode (LED) 1, an LED1, transistors Q1, and Q1, resistors R1, and R1, wherein an anode of one of the bi-color Light Emitting Diodes (LED) 1 is electrically connected with a pin 13 of a WIFI module U1 after being connected in series with a resistor R1, an anode of another one of the bi-color Light Emitting Diodes (LED) 1 is electrically connected with an emitter of the transistor Q1, two ends of the resistor R1 are electrically connected with an emitter and a base of the transistor Q1 respectively, a base of the transistor Q1 is electrically connected with a pin 6 of the WIFI module U1 after being connected in series with a collector of the transistor Q1, and two ends of the emitter of the transistor Q1 are electrically connected with the transistor R1 and the base of the transistor Q1, a collector of the triode Q2 is electrically connected with a power supply end 5V, and a base of the triode Q2 is electrically connected with a 12 pin of the WIFI module U2 after being connected with a resistor R10 in series; the anode of one of the two-color light emitting diodes LED2 is electrically connected with pin 13 of the WIFI module U2 after being connected in series with resistor R22, the anode of the other of the two-color light emitting diodes LED2 is electrically connected with the emitter of transistor Q6, two ends of the resistor R23 are electrically connected with the emitter and the base of transistor Q6 respectively, the base of transistor Q6 is electrically connected with pin 6 of the WIFI module U2 after being connected in series with resistor R24, the collector of the transistor Q6 is electrically connected with the emitter of transistor Q4 after being connected in series with resistor R12, two ends of the resistor R15 are electrically connected with the base and the emitter of transistor Q4 respectively, the collector of the transistor Q4 is electrically connected with a power supply terminal 5V, and the base of the transistor Q4 is electrically connected with pin 16 of the WIFI module U2 after being connected in series with resistor R13; the cathodes of the two LEDs in the bicolor LED1 and the cathodes of the two LEDs in the bicolor LED2 are both grounded.
5. The Internet of things intelligent socket control module according to claim 4, wherein the socket on-off control module (4) comprises relays KJ1, KJ2, diodes D3, D4, triodes Q1, Q3 and resistors R11 and R14, an emitter of the triode Q1 is grounded, a base of the triode Q1 is connected in series with a resistor R11 and then electrically connected with a 12 pin of a WIFI module U2, a collector of the triode Q1 is connected in series with a coil in a relay KJ1 and then electrically connected with a power supply end 5V, an anode of the diode D3 is electrically connected with a collector of the triode Q1, a cathode of the diode D3 is electrically connected with the power supply end 5V, a terminal L1 is led out of one end of a normally open switch in the relay KJ1, and the other end of the normally open switch in the relay KJ1 is electrically connected with a phase line terminal L; the emitter of the triode Q3 is grounded, the base of the triode Q3 is connected with the 16 pins of the WIFI module U2 in series with the resistor R14, the collector of the triode Q3 is connected with the coil of the relay KJ2 in series and then is connected with the power supply end 5V, the anode of the diode D4 is connected with the collector of the triode Q3, the cathode of the diode D4 is connected with the power supply end 5V, the wiring end L2 is led out of one end of a normally open switch in the relay KJ2, and the other end of the normally open switch in the relay KJ2 is connected with the phase line wiring end L.
6. The Internet of things intelligent socket control module according to claim 5, wherein the button module (5) comprises button switches K1 and K2 and resistors R17 and R18, one end of the button switch K1 is electrically connected with a power supply end 3V3 after being connected with a resistor R17 in series, the other end of the button switch K1 is electrically connected with a 15 pin of a WIFI module U2, one end of the button switch K2 is electrically connected with a power supply end 3V3 after being connected with a resistor R18 in series, and the other end of the button switch K2 is electrically connected with a 3 pin of a WIFI module U2.
CN201920680280.3U 2019-05-14 2019-05-14 Internet of things intelligent socket control module Expired - Fee Related CN209803590U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201920680280.3U CN209803590U (en) 2019-05-14 2019-05-14 Internet of things intelligent socket control module

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201920680280.3U CN209803590U (en) 2019-05-14 2019-05-14 Internet of things intelligent socket control module

Publications (1)

Publication Number Publication Date
CN209803590U true CN209803590U (en) 2019-12-17

Family

ID=68832567

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201920680280.3U Expired - Fee Related CN209803590U (en) 2019-05-14 2019-05-14 Internet of things intelligent socket control module

Country Status (1)

Country Link
CN (1) CN209803590U (en)

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