CN212463586U - Lamp control circuit and lamp - Google Patents

Abstract

The utility model discloses a lamp control circuit and a lamp, wherein the lamp control circuit comprises an instruction receiver, a controller and a switch module, the instruction receiver is connected with the controller and is used for receiving an external control signal and outputting the external control signal to the controller; the controller is connected with the switch module and used for outputting a first signal to the switch module according to an external control signal; the switch module is respectively connected with the main lamp and the auxiliary lamp and is used for controlling the working state of the main lamp or the auxiliary lamp according to the first signal and controlling the auxiliary lamp to be turned off when the main lamp is turned on, and the main lamp is turned off when the auxiliary lamp is turned on; the utility model discloses can enough control the operating condition of light can control sterilamp's operating condition again, need not set up control circuit alone to sterilamp and light, simplify the installation procedure, practice thrift the cost.

Description

Lamp control circuit and lamp

Technical Field

The utility model relates to an illumination control technical field, in particular to lamps and lanterns control circuit and lamps and lanterns.

Background

Ultraviolet germicidal lamp and LED main lamp on the existing market are all separately independent, the control of corresponding ultraviolet germicidal lamp and LED main lamp is also mutually independent, ultraviolet germicidal lamp has the wall-hanging type, the console mode, lamp polytype during hoist and mount, and mainly used family or minizone, but to the environment of centralized use such as engineering office or school, when adopting independent control ultraviolet germicidal lamp and LED main lamp, control management is comparatively loaded down with trivial details, and need set up independent control scheme and control switch when the installation, the installation is loaded down with trivial details, and is with high costs.

Thus, the prior art has yet to be improved and enhanced.

SUMMERY OF THE UTILITY MODEL

In view of the foregoing prior art's weak point, an object of the utility model is to provide a lamps and lanterns control circuit and lamps and lanterns, the operating condition that can enough control the light can control sterilamp again need not set up control circuit alone to sterilamp and light, simplifies the installation procedure, practices thrift the cost.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a lamp control circuit is respectively connected with a main lamp and an auxiliary lamp and comprises an instruction receiver, a controller and a switch module, wherein the instruction receiver is connected with the controller and used for receiving an external control signal and outputting the external control signal to the controller; the controller is connected with the switch module and used for outputting a first signal to the switch module according to an external control signal; the switch module is respectively connected with the main lamp and the auxiliary lamp and used for controlling the working state of the main lamp or the auxiliary lamp according to the first signal and controlling the auxiliary lamp to be turned off when the main lamp is turned on, and the main lamp is turned off when the auxiliary lamp is turned on.

The lamp control circuit further comprises an optical detection module, the optical detection module is used for detecting the current ambient light intensity and outputting a detection signal to the controller when the current ambient light intensity is larger than a preset value, and the controller controls the auxiliary lamp to be turned on when the controller outputs a second signal according to the detection signal.

In the lamp control circuit, the switch module comprises a first switch unit and a second switch unit; the first switch unit is used for controlling the main lamp to be turned on or off according to the first signal; the second switch unit is used for controlling the auxiliary lamp to be turned on or off according to the first signal.

In the lamp control circuit, the instruction receiver comprises a radio frequency receiver and a WIFI receiver; the radio frequency receiver is used for receiving a remote control instruction of an external remote controller and outputting the remote control instruction to the controller; the WIFI receiver is used for receiving a terminal instruction of an external mobile terminal and outputting the terminal instruction to the controller.

In the lamp control circuit, the second switch unit is further configured to control the auxiliary lamp to be turned on according to the second signal.

In the lamp control circuit, the first switch unit comprises a first resistor, a second resistor, a first MOS transistor, a first diode and a first relay, one end of the first resistor is connected with the controller, the other end of the first resistor is connected with a grid electrode of the first MOS transistor and one end of the second resistor, the other end of the second resistor and a source electrode of the first MOS transistor are both grounded, a drain electrode of the first MOS transistor is connected with a first wiring end of the first relay and an anode of the first diode, a cathode of the first diode and a second wiring end of the first relay are electrically connected, a static contact of the first relay is connected with the main lamp, and a movable contact of the first relay is connected with an alternating current power supply.

In the lamp control circuit, the second switch unit comprises a third resistor, a fourth resistor, a second MOS (metal oxide semiconductor) tube, a second diode and a second relay; one end of the third resistor is connected with the controller, the other end of the third resistor is connected with the grid electrode of the second MOS tube and one end of the fourth resistor, the other end of the fourth resistor and the source electrode of the second MOS tube are grounded, the drain electrode of the second MOS tube is connected with the anode of the second diode and the first wiring end of the second relay, the cathode of the second diode and the second wiring end of the second relay are electrically connected, the static contact of the second relay is connected with the auxiliary lamp, and the movable contact of the second relay is connected with an alternating current power supply.

In the lamp control circuit, the radio frequency receiver comprises a first receiving chip, an antenna, a first capacitor, a second capacitor, a third capacitor, a fourth capacitor, a fifth capacitor, a first inductor, a second inductor, a fifth resistor and an oscillator; the antenna passes through first electric capacity is connected the one end of first inductance, the one end of second electric capacity with the one end of third electric capacity, the other end of third electric capacity with the other end of first inductance is all ground connection, the other end of second electric capacity is connected the 1 foot of first receiving chip with the one end of second inductance, the other end of second inductance with the one end of fourth electric capacity is all ground connection, the other end of fourth electric capacity is connected the 3 rd foot of first receiving chip, the 6 th foot of first receiving chip passes through fifth electric capacity ground connection, the 5 th foot of first receiving chip passes through fifth resistance connects the controller, the 8 th foot of first receiving chip passes through oscillator ground connection.

In the lamp control circuit, the WIFI receiver comprises a second receiving chip, a sixth resistor, a seventh resistor, an eighth resistor, a ninth resistor, a sixth capacitor and a seventh capacitor; one end of the sixth resistor is connected with the 18 th pin of the second receiving chip and one end of the eighth resistor, the other end of the sixth resistor is connected with the controller, one end of the seventh resistor is connected with the 15 th pin of the second receiving chip and one end of the ninth resistor, the other end of the seventh resistor is connected with the controller, and the other end of the eighth resistor, the other end of the ninth resistor, one end of the sixth capacitor, one end of the seventh capacitor and the 11 th pin of the second receiving chip are all connected with electricity.

A lamp comprises a main lamp, an auxiliary lamp and the lamp control circuit.

Compared with the prior art, the utility model provides a lamps and lanterns control circuit and lamps and lanterns, lamps and lanterns control circuit includes instruction receiver, controller and switch module, the instruction receiver with the controller is connected for receive external control signal, and export external control signal to the controller; the controller is connected with the switch module and used for outputting a first signal to the switch module according to an external control signal; the switch module is respectively connected with the main lamp and the auxiliary lamp and is used for controlling the working state of the main lamp or the auxiliary lamp according to the first signal and controlling the auxiliary lamp to be turned off when the main lamp is turned on, and the main lamp is turned off when the auxiliary lamp is turned on; the utility model discloses can enough control the operating condition of light can control sterilamp's operating condition again, need not set up control circuit alone to sterilamp and light, simplify the installation procedure, practice thrift the cost.

Drawings

FIG. 1 is a block diagram of a lamp control circuit according to the present invention

Fig. 2 is a schematic circuit diagram of a first switch unit in the lamp control circuit provided by the present invention;

fig. 3 is a schematic circuit diagram of a second switch unit in the lamp control circuit provided by the present invention;

fig. 4 is a schematic circuit diagram of a radio frequency receiver in the lamp control circuit provided by the present invention;

fig. 5 is a schematic circuit diagram of a WIFI receiver in a lamp control circuit provided by the present invention;

fig. 6 is a schematic circuit diagram of a switch subunit in the lamp control circuit provided by the present invention;

fig. 7 is a schematic circuit diagram of a zero-crossing detection subunit in the lamp control circuit provided by the present invention;

fig. 8 is a schematic circuit diagram of an alarm unit in the lamp control circuit provided by the present invention;

fig. 9 is a schematic circuit diagram of a first power supply unit in the lamp control circuit provided by the present invention;

fig. 10 is a schematic circuit diagram of a second power supply unit in the lamp control circuit provided by the present invention;

fig. 11 is a schematic circuit diagram of a controller and an optical detection module in a lamp control circuit according to the present invention;

fig. 12 is a schematic circuit diagram of an indication module in the lamp control circuit provided by the present invention.

Detailed Description

An object of the utility model is to provide a lamps and lanterns control circuit and lamps and lanterns can enough control the operating condition of light and can control sterilamp's operating condition again, need not set up control circuit alone to sterilamp and light, simplifies the installation procedure, practices thrift the cost.

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the following description of the present invention will refer to the accompanying drawings and illustrate embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1, a lamp control circuit 1 provided by the present invention is respectively connected to a main lamp 2 and an auxiliary lamp 3, wherein the main lamp 2 is an illuminating lamp, and the auxiliary lamp 3 is an ultraviolet germicidal lamp; the lamp control circuit 1 comprises a controller 10, an instruction receiver 20 and a switch module 30, wherein the instruction receiver 20 is connected with the controller 10, the controller 10 is further connected with the switch module 30, and the switch module 30 is respectively connected with the main lamp 2 and the auxiliary lamp 3, namely respectively connected with the illuminating lamp and the ultraviolet germicidal lamp.

The command receiver 20 is configured to receive an external control signal, and output the external control signal to the controller 10, where the external control signal may be a command sent by a remote controller or a command output by an intelligent terminal, and the external control signal may be an on signal or an off signal; the controller 10 is configured to output a first signal to the switch module 30 according to an external control signal; the switch module 30 is used for controlling the working state of the main lamp 2 or the auxiliary lamp 3 according to the first signal, controlling the auxiliary lamp 3 to be turned off when the main lamp 2 is turned on, and controlling the main lamp 2 to be turned off when the auxiliary lamp 3 is turned on, wherein the same control circuit is utilized to realize effective control on the working states of the illuminating lamp and the ultraviolet germicidal lamp respectively, and the control circuits do not need to be arranged aiming at the ultraviolet germicidal lamp and the illuminating lamp respectively when the ultraviolet germicidal lamp and the illuminating lamp are installed, so that the installation procedure is simplified, and the cost is saved; when the disinfection is disinfected through the invisible ultraviolet of naked eye to the sterilamp, can not the direct irradiation skin, especially people's glasses, so at sterilamp during operation, for avoiding the wasting of resources, the light should be closed, otherwise, in order to avoid ultraviolet injury, so at main light during operation, the sterilamp that corresponds should close, consequently the utility model provides a lamps and lanterns control circuit 1 need control sterilamp and light can alternate work, when one of them lamp is lighted, another lamp is closed, avoids the wasting of resources, and improves the security with the lamp.

Further, the lamp control circuit 1 further includes a light detection module 40, the light detection module 40 is connected to the controller 10, and is configured to detect a current ambient light intensity, and output a detection signal to the controller 10 when the current ambient light intensity is greater than a preset value, and the controller 10 controls the auxiliary lamp 3 to be turned on when the controller 10 outputs a second signal according to the detection signal, where the current ambient light intensity includes natural illumination, illumination of an illumination lamp, or mixed illumination of the natural illumination and the illumination of the illumination lamp; specifically, when the illumination lamp is lit during the day, the light detection module 40 detects a mixed illumination, when the illumination lamp is lit at night, the light detection module 40 detects the illumination of the illumination lamp, and when the illumination lamp is not lit during the day, the light detection module 40 detects a natural illumination corresponding to the detected natural illumination; when the light detection module 40 detects that the current ambient light illuminance is greater than the preset value, it indicates that the illumination lamp is turned on at this time, or the illumination lamp is turned on in the daytime or in the daytime, because in the daytime or under the condition that the illumination lamp participates in illumination, it indicates that people pass through the environment where the lamp is used, in order to avoid the irradiation of the ultraviolet germicidal lamp to the human body, the ultraviolet germicidal lamp should be turned off, and at the moment, in order to prevent the remote controller from being pressed by mistake or pressed by mistake when the illuminating lamp is turned on in the daytime, and the ultraviolet germicidal lamp is turned on to enter a working mode under the condition of someone, the ultraviolet germicidal lamp can not be turned on to enter a working state according to a normal first signal, the working state can be entered only when a second signal is received, the second signal corresponds to a forced opening signal sent by the remote controller or the intelligent terminal, therefore, the damage of direct irradiation of the human body caused by the misoperation of the ultraviolet germicidal lamp on can be effectively avoided through the light detection module 40.

Further, the lamp control circuit 1 further includes an alarm protection module 50, the alarm protection module 50 includes a protection unit and an alarm unit, the protection unit is used for detecting circuit voltage, when the circuit voltage is greater than a preset value, the ultraviolet germicidal lamp outputs a detection signal to the controller 10, and the controller 10 outputs a control signal to control the alarm unit to give an alarm for prompt, so as to perform fault detection and maintenance in time.

Further, the lamp control circuit 1 further includes a power supply module 60, and the power supply module 60 respectively provides power with the controller 10, the instruction receiver 20, the light detection module 40, and the alarm protection module 50, so as to ensure normal operation of each module.

Further, referring to fig. 2 and 3 together, the switch module 30 includes a first switch unit 31 and a second switch unit 32, both the first switch unit 31 and the second switch unit 32 are connected to the controller 10, the first switch unit 31 is also connected to the main lamp 2, that is, the illumination lamp, the second switch unit 32 is also connected to the auxiliary lamp 3, that is, the ultraviolet germicidal lamp, which is equivalent to configuring one switch unit for the illumination lamp and the ultraviolet germicidal lamp, respectively, and the first switch unit 31 is used for controlling the main lamp 2 to be turned on or off according to a first signal; the second switch unit 32 is configured to control the auxiliary lamp 3 to be turned on or off according to the first signal, and the external control signal may be an on signal or an off signal, and the corresponding first signal may be an on signal or an off signal.

Specifically, when the illumination lamp or the ultraviolet germicidal lamp is in the off state, if the first signal is an illumination lamp turn-on signal, the illumination lamp is controlled to be turned on through the first switch unit 31 for illumination, and if the first signal is an ultraviolet germicidal lamp turn-on signal, the ultraviolet germicidal lamp is controlled to be turned on through the first switch unit 31 for entering the working state; under the condition that the illuminating lamp is turned on, if the first signal is an illuminating lamp turning-off signal, the illuminating lamp is turned off directly through the first switch unit 31, and if the ultraviolet germicidal lamp is turned on at the moment, the controller 10 automatically controls the illuminating lamp to be turned off through the first switch unit 31; on the contrary, under the condition that sterilamp was opened, if first signal is sterilamp turn-off signal, then directly close sterilamp through second switch unit 32, if first signal is the light turn-on signal, then open the light through first switch unit 31, meanwhile, controller 10 passes through second switch unit 32 automatic control sterilamp and closes, realize sterilamp and light alternation work and can not simultaneous working from this, avoided opening when having the people in present service environment at sterilamp and bring the danger of direct irradiation human body.

Further, when the lighting lamp is turned on in the daytime, the second switch unit 32 is further configured to control the auxiliary lamp 3 to be turned on according to a second signal, where the second signal is a forced turn-on signal for controlling the ultraviolet germicidal lamp, and at this time, the first signal does not enable the ultraviolet germicidal lamp to be turned on, but the forced turn-on signal needs to be turned on, so as to prevent the ultraviolet germicidal lamp from entering a working mode in a case of someone due to a wrong press or a wrong press of the remote controller in the daytime or when the lighting lamp is turned on, so as to avoid dangerous injuries.

Further, referring to fig. 4 and 5, the command receiver 20 includes a radio frequency receiver 21 and a WIFI receiver 22, and both the radio frequency receiver 21 and the WIFI receiver 22 are connected to the controller 10; the radio frequency receiver 21 is used for receiving a remote control instruction of an external remote controller and outputting the remote control instruction to the controller 10; the WIFI receiver 22 is configured to receive a terminal instruction of an external mobile terminal, and output the terminal instruction to the controller 10, in this embodiment, the lamp control circuit 1 may receive a remote control instruction sent by an external remote controller, and may also receive a terminal instruction sent by an external intelligent terminal, for example, a mobile phone or other terminal devices, so as to improve an application range of the lamp control circuit 1.

Further, referring to fig. 6, 7 and 8, the protection unit includes a switch subunit 511 and a zero-crossing detection subunit 512, the switch subunit 511 is connected between the control chip U0 and the zero-crossing detection subunit 512, and is configured to isolate the control chip U0 from the zero-crossing detection subunit 512, the zero-crossing detection subunit 512 is further connected with the control chip U0, and is configured to feed back a signal to the control chip U0 after detecting the output end of the switch subunit 511, and the control chip U0 determines whether to control the alarm unit 52 to alarm according to the feedback signal, so as to implement detection of circuit voltage, and prevent the ultraviolet germicidal lamp from entering a working state due to abnormal circuit voltage.

Further, referring to fig. 9 and fig. 10 together, the power supply module 60 includes a first power supply unit 61 and a second power supply unit 62, the first power supply unit 61 is connected to the first switch unit 31, the second switch unit 32, the switch subunit and the alarm unit, respectively, and the second power supply unit 62 is connected to the radio frequency receiver 21, the WIFI receiver 22, the controller 10 and the light detection module 40, respectively; the first power supply unit 61 is configured to provide a first voltage for the first switch unit 31, the second switch unit 32, the switch subunit, and the alarm unit, and the second power supply unit 62 is configured to provide a second voltage for the radio frequency receiver 21, the WIFI receiver 22, the controller 10, and the light detection module 40, so as to ensure that each part of the circuit obtains a working voltage required for working after being powered on, so as to maintain a stable working state.

In specific implementation, please refer to fig. 2 and 11 together, the controller 10 includes a control chip U0, the first switch unit 31 includes a first resistor R1, a second resistor R2, a first MOS transistor, a first diode D1 and a first relay K1, one end of the first resistor R1 is connected to a P1.3 signal terminal of the control chip U0, the other end of the first resistor R1 is connected to a gate of the first MOS transistor and one end of a second resistor R2, the other end of the second resistor R2 and a source of the first MOS transistor are both grounded, a drain of the first MOS transistor is connected to a first terminal of the first relay K1 and an anode of the first diode D1, a cathode of the first diode D1 and a second terminal of the first relay K1, a stationary contact of the first relay K1 is connected to the main lamp 2 through an OUTPUT put-N1 signal terminal, a first movable contact of the first relay K1 is connected to an ac power source, and when the control chip U0 receives a rf signal received by the control chip U21 or the receiver K0, the light opening signal is outputted to the first switch unit 31 through the P1.3 signal end, so that the movable contact of the first relay K1 is attracted to the stationary contact, and then the main light 2 is connected to form a loop through the OUTPUT-N1 signal end, the main light 2 is lighted, otherwise, if the light closing signal is generated, the movable contact of the first relay K1 is disconnected from the stationary contact, the main light 2 is extinguished, and the control chip U0 controls the lighting and extinguishing of the main light 2 by controlling the state of the first relay K1, wherein the model of the control chip U0 in the embodiment is SC92F8003, and certainly, the control chip U0 with the same function can be selected in other embodiments, which is not limited by the present invention.

Further, with reference to fig. 3, the second switch unit 32 includes a third resistor R3, a fourth resistor R4, a second MOS transistor M2, a second diode D2, and a second relay K2; one end of the third resistor R3 is connected to the P1.2 signal end of the control chip U0, the other end of the third resistor R3 is connected to the gate of the second MOS transistor M2 and one end of the fourth resistor R4, the other end of the fourth resistor R4 and the source of the second MOS transistor M2 are grounded, the drain of the second MOS transistor M2 is connected to the anode of the second diode D2 and the first terminal of the second relay K2, the cathode of the second diode D2 and the second terminal of the second relay K2 are electrically connected, the fixed contact of the second relay K2 is connected to the sub-lamp 3 through the OUTPUT-L2, the movable contact of the second relay K2 is connected to the ac power supply, similarly, after the control chip U0 receives a corresponding turn-on control signal through the rf receiver 21 or WIFI receiver 22, the ultraviolet germicidal lamp turn-on signal is OUTPUT to the first switch unit 31 through the P1.2 signal end, so that the movable contact of the first relay K1 and the fixed contact are further connected to form an ultraviolet germicidal lamp loop through the OUTPUT-L2. The ultraviolet germicidal lamp is turned on, otherwise, if the ultraviolet germicidal lamp is a closing signal of the ultraviolet germicidal lamp, the movable contact and the fixed contact of the second relay K2 are disconnected, the ultraviolet germicidal lamp is turned off, and therefore the control chip U0 controls the turning on and turning off of the ultraviolet germicidal lamp by controlling the state of the second relay K2.

The control chip U0 has set judgment logic during programming, and when the lamp is powered on for the first time, the lamp is automatically turned on, and at the moment, the lamp or the ultraviolet germicidal lamp can be operated and controlled by remote control; then, under the condition that the illuminating lamp is turned on, the control chip U0 controls the illuminating lamp to be automatically turned off when the ultraviolet germicidal lamp is turned on at night or by a forced turn-on signal; when the ultraviolet germicidal lamp is turned on, the control chip U0 controls the ultraviolet germicidal lamp to turn off automatically when the illumination lamp is turned on.

Further, as shown in fig. 4, the rf receiver 21 includes a first receiving chip U1, an antenna ANT, a first capacitor C1, a second capacitor C2, a third capacitor C3, a fourth capacitor C4, a fifth capacitor C5, a first inductor L1, a second inductor L2, a fifth resistor R5, and an oscillator Y1; the antenna ANT is connected with one end of a first inductor L1, one end of a second capacitor C2 and one end of a third capacitor C3 through a first capacitor C1, the other end of the third capacitor C3 and the other end of the first inductor L1 are both grounded, the other end of the second capacitor C2 is connected with pin 1 of a first receiving chip U1 and one end of a second inductor L2, the other end of the second inductor L2 and one end of a fourth capacitor C4 are both grounded, the other end of the fourth capacitor C4 is connected with pin 3 of a first receiving chip U1, pin 6 of the first receiving chip U1 is grounded through a fifth capacitor C5, pin 5 of the first receiving chip U1 is connected with the P1.4 signal end of a control chip U0 through a fifth resistor R5, pin 8 of the first receiving chip U1 is grounded through a Y1, in this embodiment, the model number WL of the first receiving chip U1 is WL 24, the same function of the receiving chip may be selected in other embodiments, the utility model discloses do not limit to this.

When the antenna ANT receives a signal, the signal is output to the first receiving chip U1 through the first capacitor C1, the first inductor L1, the second capacitor C2, the third capacitor C3 and the fourth inductor L4, a command is output to a P1.4 signal end of the control chip U0 to work after logic processing, and then the control chip U0 outputs a first signal through a P1.3 signal end according to the command to control the main lamp 2 or outputs the P1.2 signal end to output the first signal to control the working state of the auxiliary lamp 3, so that the working of the main lamp 2 or the auxiliary lamp 3 is controlled according to a remote control command; in this embodiment, the first receiving chip U1 may also receive a forced turn-on signal from the remote controller, so that the control chip U0 outputs a second signal to turn on the ultraviolet germicidal lamp.

Further, as shown in fig. 5, the WIFI receiver 22 includes a second receiving chip U2, a sixth resistor R6, a seventh resistor R7, an eighth resistor R8, a ninth resistor R9, a sixth capacitor C6, and a seventh capacitor C7; one end of the sixth resistor R6 is connected to the 18 th pin of the second receiving chip U2 and one end of the eighth resistor R8, the other end of the sixth resistor R6 is connected to the controller 10, one end of the seventh resistor R7 is connected to the 15 th pin of the second receiving chip U2 and one end of the ninth resistor R9, the other end of the seventh resistor R7 is connected to the controller 10, the other end of the eighth resistor R8, the other end of the ninth resistor R9, one end of the sixth capacitor C6, one end of the seventh capacitor C7, and the 11 th pin of the second receiving chip U2 are all electrically connected, in this embodiment, the model of the second receiving chip U2 is WN4622L, although chips having the same function may be provided in other embodiments, which the present invention is not limited thereto.

When the second receiving chip U2 receives a control signal of a mobile phone or other terminal equipment, the control signal is sent to the 2 nd pin and the 3 rd pin of the control chip U0 through the seventh resistor R7 and the sixth resistor R6 via the serial ports GIOP-18 and GIOP-23, and after the logic processing of the control chip U0, the first signal is sent through the P1.2 signal terminal to control the working state of the auxiliary lamp 3 or the first signal is sent through the P1.3 signal terminal to control the working state of the main lamp 2.

Further, please refer to fig. 11, the light detecting module 40 includes a tenth resistor R10, an eleventh resistor R11 and a photodiode DR1, one end of the tenth resistor R10 is connected to the 14 th pin of the control chip U0, the other end of the tenth resistor R10 is connected to one end of the eleventh resistor R11 and the cathode of the photodiode DR1, the anode of the photodiode DR1 is connected to the power supply, when the photodiode DR1 detects that the light reaches a certain value, the 14 th pin of the control chip U0 detects a high level, the control chip U0 compares and determines through a logic program, the ultraviolet germicidal lamp is controlled not to enter a working state through a normal operation mode, at this time, the ultraviolet germicidal lamp is turned on only when a forced turn-on signal is required, and in order to prevent the ultraviolet germicidal lamp from entering a working mode under a human condition due to a wrong press or a wrong press of the remote controller when the light is turned on.

For example, in practical applications, when the lamp is powered on and the photodiode DR1 detects light, the remote controller is operated by short pressing, the control chip U0 logically determines that the ultraviolet germicidal lamp cannot be normally turned on, at this time, the remote controller needs to press for more than 5S to send a control signal, and then the control signal is output to the control chip U0 through the first receiving chip U1, and the control chip U0 outputs a forced turn-on signal to turn on the ultraviolet germicidal lamp to work, so that the ultraviolet germicidal lamp can be turned on carelessly or unnecessarily to cause injury to a human body.

Further, with continuing reference to fig. 6, 7 and 8, the switch subunit 511 includes a twelfth resistor R12, a thirteenth resistor R13, a third diode D3, a third MOS transistor M3 and a third relay K3, the zero-cross detection subunit 512 includes a fourteenth resistor R14, a fifteenth resistor R15, a sixteenth resistor R16, a fourth diode D4 and a zener diode ZD1, and the alarm unit 52 includes a seventeenth resistor R17, an eighteenth resistor R18, a nineteenth resistor R19, a triode Q1 and a buzzer; one end of a twelfth resistor R12 is connected with a P1.3 signal end of a control chip U0, the other end of the twelfth resistor R12 is connected with the gate of a third MOS tube M3 and one end of a thirteenth resistor R13, the other end of the thirteenth resistor R13 and the source of a third MOS tube M3 are both grounded, the drain of the third MOS tube M3 is connected with the anode of a third diode D3 and the first terminal of a third relay K3, the cathode of the third diode D3 and the second terminal of the third relay K3 are both grounded, the movable contact of the third relay K3 is connected with an alternating current power supply, the fixed contact of the third relay K3 is connected with the anode of a fourth diode D4 through OUTPUT-L1, and the cathode of the fourth diode D4 is respectively connected with one end of a fifteenth resistor R15, one end of a sixteenth resistor R16, the cathode of a zener diode ZD1 and a P1.0 signal end of the control chip U0 through a fourteenth resistor R14; the other end of the fifteenth resistor R15 is grounded, the other end of the sixteenth resistor R16 is grounded, the anode of the zener diode ZD1 is grounded, one end of the seventeenth resistor R17 is connected with the 14 th pin of the control chip U0, the other end of the seventeenth resistor R17 is connected with the base of the triode Q1 and one end of the eighteenth resistor R18, the other end of the eighteenth resistor R18 and the emitter of the triode Q1 are both grounded, the collector of the triode Q1 is connected with the 1 st pin of the buzzer, and the 2 nd pin of the buzzer is connected with the power through the nineteenth resistor R19.

Specifically, after the fourth diode D4 detects the OUTPUT-L1 signal end, a feedback signal is OUTPUT to pin 17 of the control chip U0, and the control chip U0 conducts the second relay K2 after logic comparison and analysis, for example, the circuit voltage is abnormal after circuit failure, so that when the ultraviolet germicidal lamp works, the control chip U0 sends a high level to the triode Q1 through the P2.6 signal end, the triode Q1 is conducted, and the buzzer sends a sound to give an alarm after being powered on, thereby realizing a protection mechanism for reminding when the ultraviolet germicidal lamp works abnormally due to circuit failure, so as to cut off the power supply in time for maintenance processing.

Further, with reference to fig. 9, the first power supply unit 61 includes a fuse F1, a voltage dependent resistor VDR, a rectifier bridge, an eighth capacitor C8, a ninth capacitor C9, a tenth capacitor C10, an eleventh capacitor C11, a twentieth resistor R20, an eleventh resistor R11, a twenty-second resistor R22, a third inductor L3, a fourth inductor L4, a fifth diode D5, a sixth diode D6, and a power switch chip U3; one end of a protective tube F1 is connected with a live wire of an alternating current power supply, the other end of the protective tube F1 is connected with one end of a piezoresistor VDR, the other end of the piezoresistor VDR is connected with a zero wire of the alternating current power supply, a first pin of a rectifier bridge is connected with one end of the piezoresistor VDR, a second pin of the rectifier bridge is connected with the other end of the piezoresistor VDR, a 4 th pin of the rectifier bridge is connected with one end of an eighth capacitor C8 and one end of a third inductor L3, the other end of the eighth capacitor C8 and one end of a ninth capacitor C9 are both grounded, the other end of the third inductor L3 and the other end of a ninth capacitor C9 are connected with a 4 pin of a power switch chip U3 through a twentieth resistor R20, a 1 st pin of the power switch chip U3 is connected with one end of a twenty-first resistor R21, the other end of the twenty-first resistor R21 is connected with a 2 nd pin of a power switch chip U3, one end of a tenth capacitor C10 and a cathode of a sixth diode D58, One end of an eleventh capacitor C11 and one end of a twenty-second resistor R22, the other end of a fourth inductor L4 is connected to the other end of the tenth capacitor C10, the 5 th pin, the 6 th pin, the 7 th pin, the 8 th pin of the power switch chip U3 and the cathode of a fifth diode D5, the anode of the fifth diode D5 is grounded, and the other end of the eleventh capacitor C11 and the other end of the twenty-second resistor R22 are both grounded; the model of the power switch chip U3 in this embodiment is SM7015, but a chip having the same function may be selected in other embodiments, which is not limited by the present invention.

After full-wave rectification is performed on the alternating-current power supply through the fuse F1, the voltage dependent resistor VDR and the rectifier bridge, the alternating-current power supply is filtered through the eighth capacitor C8, the ninth capacitor C9 and the third inductor L3 and then output to the twentieth resistor R20, the alternating-current power supply is output to the power switch chip U3 through the twentieth resistor R20, a first voltage is output after internal processing of the power switch chip U3, the output first voltage is fed back to the power switch chip U3 through the seventh resistor R7, voltage sampling adjustment is performed, and stable output of the first voltage is guaranteed, and the first voltage is 12V in the embodiment.

Further, referring to fig. 10, the second power supply unit 62 includes a voltage regulator U4, a twenty-third resistor R23, a twelfth capacitor C12, a thirteenth capacitor C13, a fourteenth capacitor C14, a fifteenth capacitor C15, and a sixteenth capacitor C16, one end of the twelfth capacitor C12 and one end of the twenty-third resistor R23 are both connected to the first power supply unit 61, the other end of the twenty-third resistor R23 is connected to one end of the thirteenth capacitor and an input end of the voltage regulator U4, the other end of the twelfth capacitor C12 and the other end of the thirteenth capacitor C13 are both grounded, and an output end of the voltage regulator U4 is connected to one end of the fourteenth capacitor C14, one end of the fifteenth capacitor C15, one end of the sixteenth capacitor C16 and the power output end; in order to meet the requirement of stable power supply of the control chip U0 and the receiving chip, the voltage stabilizer U4 is additionally arranged to convert 12V electric energy into 3.3V electric energy to supply power to the control chip U0 and the receiving chip, and stable work of the control chip U0 and the receiving chip is ensured.

Further, referring to fig. 12, the lamp control circuit 1 further includes an indication module 70, where the indication module 70 is connected to the controller, and when the controller controls the auxiliary lamp to be turned on, the controller correspondingly controls the indication module 70 to enter a working state, and the indication module 70 is used for indicating the working state of the auxiliary lamp; specifically, the indicating module 70 includes a twenty-fourth resistor R24 and a light emitting diode LED, one end of the twenty-fourth resistor R24 is connected to a P2.6 signal end of the control chip U0, the other end of the twenty-fourth resistor R24 is connected to an anode of the light emitting diode LED, a cathode of the light emitting diode LED is grounded, when the sub-lamp, that is, the ultraviolet germicidal lamp, enters a working state, the control chip U0 controls the light emitting diode LED to be turned on, which indicates that the ultraviolet germicidal lamp is working, otherwise, when the ultraviolet germicidal lamp is turned off, the control chip U0 controls the light emitting diode LED to be turned off, so that the working state of the ultraviolet germicidal lamp can be visualized through the turning on and off of the light emitting diode LED.

For better understanding the utility model provides a lamps and lanterns control circuit's theory of operation, it is right according to the application embodiment the utility model provides a lamps and lanterns control circuit's working process carries out the detailed description, specifically: when the lamp is powered on, the lamp control circuit is initialized to enter a working state, the control chip judges whether an external control signal is received or not through the instruction receiver, and when the control chip receives the external control signal, the buzzer gives out sound feedback; the external control signal is sent by a remote controller or terminal equipment, if the remote controller is the remote controller, the corresponding remote controller is provided with four keys which are respectively a main lamp on key, a main lamp off key, an auxiliary lamp on key and an auxiliary lamp off key, and the four keys respectively correspond to different control signals; when the lamp is powered on, the lamp is defaulted to be a main lamp and is turned on, the control chip analyzes an external control signal and judges whether the command is an auxiliary lamp turning-on signal, if so, the current ambient light intensity is further judged to determine whether the command is in the daytime or in the evening, if the command is in the evening, the auxiliary lamp is turned on after 30 seconds of delay, namely, the ultraviolet germicidal lamp is turned on, if not, the control signal is further judged to be a forced turning-on signal, and if so, the auxiliary lamp is also directly turned on; when the auxiliary lamp is turned on to enter the sterilization mode, the buzzer gives sound feedback for 30 times to indicate that the sterilization mode is entered; if the control chip judges that the external control signal is not the opening signal, whether the external control signal is the main lamp opening signal is further judged, if so, the main lamp is continuously opened, so that the auxiliary lamp is continuously in the closing state, and if not, the control chip is continuously used for detecting, thereby realizing the control of simultaneously controlling the working states of the main lamp and the auxiliary lamp.

Furthermore, the lamp control circuit can also control timing, namely if the main lamp on key is pressed at the same time and the main lamp off key is pressed at the same time, the control chip controls the auxiliary lamp to be timed for 30 minutes after receiving the corresponding instruction; if the main lamp on key and the auxiliary lamp on key are pressed for a long time, the corresponding control chip times the auxiliary lamp for 60 minutes according to the corresponding instruction; if the main lamp on and auxiliary lamp off keys are pressed for a long time, the auxiliary lamp is timed for 90 minutes, while the auxiliary lamp is turned off after the default on time of the auxiliary lamp is 45 minutes in the embodiment, and if a timing function is set, the time is automatically switched.

The utility model discloses still the correspondence provides a lamps and lanterns, lamps and lanterns include main lamp and auxiliary lamp and as above lamps and lanterns control circuit, the main lamp is used for the illumination, the auxiliary lamp can be used to disinfect for sterilamp, lamps and lanterns control circuit then is used for control the operating condition of main lamp and auxiliary lamp, and guarantees that the auxiliary lamp is out of work for the main lamp during operation, and the main lamp is out of work for the auxiliary lamp during operation, can make light and ultraviolet lamp unite two into one, can enough control the operating condition of light and can control sterilamp's operating condition again, need not set up control circuit alone to sterilamp and light, needn't set up control part respectively to two kinds of lamps when lamps and lanterns installation, can simplify the installation step, practice thrift the cost, because the above has carried out detailed description to this lamps and lanterns control circuit, here is no longer repeated.

Further, the utility model discloses still provide a TV set correspondingly, the TV set includes such switching power supply, because the above has carried out detailed description to this switching power supply, no longer redundantly here.

To sum up, the utility model provides a lamp control circuit and a lamp, the lamp control circuit comprises an instruction receiver, a controller and a switch module, the instruction receiver is connected with the controller and is used for receiving an external control signal and outputting the external control signal to the controller; the controller is connected with the switch module and used for outputting a first signal to the switch module according to an external control signal; the switch module is respectively connected with the main lamp and the auxiliary lamp and is used for controlling the working state of the main lamp or the auxiliary lamp according to the first signal and controlling the auxiliary lamp to be turned off when the main lamp is turned on, and the main lamp is turned off when the auxiliary lamp is turned on; the utility model discloses can enough control the operating condition of light can control sterilamp's operating condition again, need not set up control circuit alone to sterilamp and light, simplify the installation procedure, practice thrift the cost.

It should be understood that equivalent alterations and modifications can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such alterations and modifications should fall within the scope of the appended claims.

Claims (10)

1. A lamp control circuit is respectively connected with a main lamp and an auxiliary lamp and is characterized by comprising a command receiver, a controller and a switch module, wherein the command receiver is connected with the controller and used for receiving an external control signal and outputting the external control signal to the controller; the controller is connected with the switch module and used for outputting a first signal to the switch module according to an external control signal; the switch module is respectively connected with the main lamp and the auxiliary lamp and used for controlling the working state of the main lamp or the auxiliary lamp according to the first signal and controlling the auxiliary lamp to be turned off when the main lamp is turned on, and the main lamp is turned off when the auxiliary lamp is turned on.

2. The lamp control circuit of claim 1, further comprising a light detection module, wherein the light detection module is configured to detect a current ambient light intensity and output a detection signal to the controller when the current ambient light intensity is greater than a preset value, and the controller controls the auxiliary lamp to be turned on when the controller outputs a second signal according to the detection signal.

3. The luminaire control circuit of claim 2, wherein the switch module comprises a first switch unit and a second switch unit; the first switch unit is used for controlling the main lamp to be turned on or off according to the first signal; the second switch unit is used for controlling the auxiliary lamp to be turned on or off according to the first signal.

4. The luminaire control circuit of claim 1 wherein the instruction receiver comprises a radio frequency receiver and a WIFI receiver; the radio frequency receiver is used for receiving a remote control instruction of an external remote controller and outputting the remote control instruction to the controller; the WIFI receiver is used for receiving a terminal instruction of an external mobile terminal and outputting the terminal instruction to the controller.

5. The lamp control circuit of claim 3, wherein the second switch unit is further configured to control the auxiliary lamp to be turned on according to the second signal.

6. The lamp control circuit according to claim 3, wherein the first switch unit comprises a first resistor, a second resistor, a first MOS transistor, a first diode and a first relay, one end of the first resistor is connected to the controller, the other end of the first resistor is connected to the gate of the first MOS transistor and one end of the second resistor, the other end of the second resistor and the source of the first MOS transistor are both grounded, the drain of the first MOS transistor is connected to the first terminal of the first relay and the anode of the first diode, the cathode of the first diode and the second terminal of the first relay are electrically connected, the stationary contact of the first relay is connected to the main lamp, and the movable contact of the first relay is connected to an AC power supply.

7. The lamp control circuit of claim 5, wherein the second switch unit comprises a third resistor, a fourth resistor, a second MOS transistor, a second diode and a second relay; one end of the third resistor is connected with the controller, the other end of the third resistor is connected with the grid electrode of the second MOS tube and one end of the fourth resistor, the other end of the fourth resistor and the source electrode of the second MOS tube are grounded, the drain electrode of the second MOS tube is connected with the anode of the second diode and the first wiring end of the second relay, the cathode of the second diode and the second wiring end of the second relay are electrically connected, the static contact of the second relay is connected with the auxiliary lamp, and the movable contact of the second relay is connected with an alternating current power supply.

8. The lamp control circuit of claim 4, wherein the radio frequency receiver comprises a first receiving chip, an antenna, a first capacitor, a second capacitor, a third capacitor, a fourth capacitor, a fifth capacitor, a first inductor, a second inductor, a fifth resistor, and an oscillator; the antenna passes through first electric capacity is connected the one end of first inductance, the one end of second electric capacity with the one end of third electric capacity, the other end of third electric capacity with the other end of first inductance is all ground connection, the other end of second electric capacity is connected the 1 foot of first receiving chip with the one end of second inductance, the other end of second inductance with the one end of fourth electric capacity is all ground connection, the other end of fourth electric capacity is connected the 3 rd foot of first receiving chip, the 6 th foot of first receiving chip passes through fifth electric capacity ground connection, the 5 th foot of first receiving chip passes through fifth resistance connects the controller, the 8 th foot of first receiving chip passes through oscillator ground connection.

9. The lamp control circuit of claim 4, wherein the WIFI receiver comprises a second receiving chip, a sixth resistor, a seventh resistor, an eighth resistor, a ninth resistor, a sixth capacitor, and a seventh capacitor; one end of the sixth resistor is connected with the 18 th pin of the second receiving chip and one end of the eighth resistor, the other end of the sixth resistor is connected with the controller, one end of the seventh resistor is connected with the 15 th pin of the second receiving chip and one end of the ninth resistor, the other end of the seventh resistor is connected with the controller, and the other end of the eighth resistor, the other end of the ninth resistor, one end of the sixth capacitor, one end of the seventh capacitor and the 11 th pin of the second receiving chip are all connected with electricity.

10. A luminaire comprising a main lamp, an auxiliary lamp and a luminaire control circuit as claimed in any one of claims 1 to 9.

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