CN217957372U - Moon lamp control circuit - Google Patents

Abstract

The utility model relates to a moon lamp control circuit, its technical scheme main points are: the method comprises the following steps: a multi-color light emitting module; an infrared receiving module; a touch detection module; a vibration detection module; the control module is used for controlling the multicolor light-emitting module according to the signals received by the infrared receiving module, the signals received by the touch detection module or the signals received by the vibration detection module; the power supply module is used for supplying power to the multicolor light-emitting module, the infrared receiving module, the touch detection module and the control module; the charging management module is used for charging the power supply module; the charging protection module is used for providing charging protection for the power supply module; the multicolor light-emitting module, the infrared receiving module, the touch detection module and the vibration detection module are all connected with the control module; the power supply module is respectively connected with the multicolor light-emitting module, the infrared receiving module, the touch detection module and the control module; the charging management module and the charging protection module are both connected with the power supply module; this application has the various effect of control moon lamp luminescence mode.

Description

Moon lamp control circuit

Technical Field

The utility model relates to a moon lamp technical field, more specifically say, it relates to a moon lamp control circuit.

Background

The moon lamp is a lamp and has an illumination function. The existing moon lamp has a single control mode, and is mostly controlled by a key switch or an infrared remote control.

However, in the manner of key switch control, the key switch is easy to have the situation of insensitive keys and easy damage due to the manner of mechanical structure, and in the manner of infrared remote control, an infrared transmitter is usually required to be equipped, and the infrared transmitter is easy to lose, so that the control of the moon lamp is not ideal.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a moon lamp control circuit has the luminous mode of control moon lamp various, controls convenient functional advantage.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a moon light control circuit comprising: a multi-color light emitting module; an infrared receiving module; a touch detection module; a vibration detection module; the control module is used for controlling the multicolor light-emitting module according to the signals received by the infrared receiving module, the signals received by the touch detection module or the signals received by the vibration detection module; the power supply module is used for supplying power to the multicolor light-emitting module, the infrared receiving module, the touch detection module and the control module; the charging management module is used for charging the power supply module; the charging protection module is used for providing charging protection for the power supply module; the multicolor light-emitting module, the infrared receiving module, the touch detection module and the vibration detection module are all connected with the control module; the power supply module is respectively connected with the multicolor light-emitting module, the infrared receiving module, the touch detection module and the control module; and the charging management module and the charging protection module are both connected with the power supply module.

Optionally, the touch detection module includes: the touch control circuit comprises a touch chip, a touch electrode, a third capacitor, a fourth capacitor, a diode, a fifth triode, a second resistor, a sixth resistor, a seventh resistor, a ninth resistor and a tenth resistor;

the first pin of the touch chip is connected with the control module and is also connected with the fifth pin of the touch chip through a tenth resistor; the fourth pin and the fifth pin of the touch chip are both connected with the first output end of the power supply module; the second pin and the sixth pin of the touch chip are grounded; a third pin of the touch chip is grounded through a fourth capacitor and is also connected with an emitting electrode of a fifth triode; the base electrode of the fifth triode is connected with the cathode of the diode through a sixth resistor; the collector of the fifth triode is grounded; the anode of the diode is grounded through the ninth resistor and the second resistor in sequence; the anode of the diode is also connected with the control module through a ninth resistor; the anode of the diode is grounded through a third capacitor and a seventh resistor respectively; the anode of the diode is also connected with the emitter of the fifth triode through the touch electrode; and the anode of the diode is also connected with the charging management module.

Optionally, the multicolor light emitting module comprises: the LED lamp comprises a multicolor LED lamp, a first triode, a second triode, a third triode and a fourth triode; the first pin, the second pin, the third pin and the fourth pin of the multicolor LED lamp are all connected with the second output end of the power supply module; the fifth pin of the multicolor LED lamp is connected with the collector of the fourth triode; the sixth pin of the multicolor luminous lamp is connected with the collector electrode of the third triode; the seventh pin of the multicolor LED lamp is connected with the collector electrode of the second triode; the eighth pin of the multicolor LED lamp is connected with the collector of the first triode; the emitting electrode of the first triode, the emitting electrode of the second triode, the emitting electrode of the third triode and the emitting electrode of the fourth triode are all grounded; and the base electrode of the first triode, the base electrode of the second triode, the base electrode of the third triode and the base electrode of the fourth triode are all connected with the control module.

Optionally, the multi-color led lamp comprises: white led chips, red led chips, green led chips and blue led chips; the anode of the white LED chip, the anode of the red LED chip, the anode of the green LED chip and the anode of the blue LED chip are all connected with the second output end of the power supply module; the cathode of the white LED chip is connected with the collector of the first triode; the cathode of the red led chip is connected with the collector of the second triode; the cathode of the green led chip is connected with the collector of the third triode; and the cathode of the blue led chip is connected with the collector of the fourth triode.

Optionally, the control module includes: the circuit comprises a control chip, an eighth resistor, an eleventh resistor, a twelfth resistor and a thirteenth resistor; the first pin of the control chip is connected with the output end of the infrared receiving module; the fifth pin of the control chip is connected with the grounding end of the infrared receiving module; the second pin of the control chip is connected with the output end of the vibration detection module; the fourth pin of the control chip is connected with the first output end of the power supply module; the eighth pin of the control chip is connected with the base electrode of the fourth triode through a twelfth resistor; a ninth pin of the control chip is connected with a base electrode of the third triode through an eleventh resistor; a tenth pin of the control chip is connected with a base electrode of the second triode through an eighth resistor; the eleventh pin of the control chip is grounded; the twelfth pin of the control chip is connected with the output end of the touch detection module; the thirteenth pin of the control chip is connected with the input end of the touch detection module; and a fourteenth pin of the control chip is connected with the base electrode of the first triode through a thirteenth resistor.

Optionally, the power supply module includes: the storage battery, the voltage stabilizing chip, the second capacitor and the fourth resistor are connected in series; the anode of the storage battery is respectively connected with the output end of the charging management module and the first pin of the voltage stabilizing chip; the second pin of the voltage stabilizing chip is grounded; a third pin of the voltage stabilizing chip is grounded through a second capacitor; the anode of the storage battery is also connected with the input end of the charging protection module through a fourth resistor; the cathode of the storage battery is connected with the output end of the charging protection module; the first pin of the voltage stabilizing chip is also connected with the output end of the multicolor light-emitting module; and a third pin of the voltage stabilizing chip is respectively connected with the control module, the infrared receiving module and the touch detection module.

Optionally, the charging management module includes: the charging management chip, the light emitting diode, the third resistor and the fifth resistor; the first pin of the charging management chip is connected with the cathode of the light-emitting diode through a third resistor; the anode of the light emitting diode and the fourth pin of the charging management chip are both used for connecting an external power supply; the anode of the light-emitting diode is also connected with the touch detection module; the second pin of the charging management chip is grounded; the third pin of the charging management chip is connected with the anode of the storage battery; and the fifth pin of the charging management chip is grounded through a fifth resistor.

Optionally, the charging protection module includes: the charging protection device comprises a charging protection chip, a first resistor and a first capacitor; a first pin of the charging protection chip is grounded through a first resistor; the second pin of the charging protection chip is grounded; the third pin and the sixth pin of the charging protection chip are both connected with the cathode of the storage battery; the fifth pin of the charging protection chip is connected with the cathode of the storage battery through a first capacitor; and a fifth pin of the charging protection chip is connected with the anode of the storage battery through a fourth resistor.

To sum up, the utility model discloses following beneficial effect has: accessible touch, pat and these three kinds of mode control polychrome light emitting module of infrared to realize the giving off light of moon lamp, control mode is various, and through the setting of charging management module, can charge to power module, need not to change it under the power module does not have the electric condition, and convenient to use through the setting of charging protection module, can play the guard action when power module charges, improves the security performance.

Drawings

Fig. 1 is a circuit diagram of the touch detection module, the charge protection module and the charge management module according to the present invention;

fig. 2 is a circuit structure diagram of the middle control module, the infrared receiving module, the vibration detecting module and the multi-color light emitting module of the present invention.

In the figure: 1. a multi-color light emitting module; 2. an infrared receiving module; 3. a touch detection module; 4. a vibration detection module; 5. a control module; 6. a power supply module; 7. a charging management module; 8. and a charging protection module.

Detailed Description

In order to make the objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail with reference to the accompanying drawings. Several embodiments of the invention are given in the accompanying drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art. The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature.

The present invention will be described in detail with reference to the accompanying drawings and examples.

The utility model provides a moon lamp control circuit, as shown in figure 1 and figure 2, include: a multicolor light-emitting module 1; an infrared receiving module 2; a touch detection module 3; a vibration detection module 4; the control module 5 is used for controlling the multicolor light-emitting module 1 according to the signals received by the infrared receiving module 2, the signals received by the touch detection module 3 or the signals received by the vibration detection module 4; the power supply module 6 is used for supplying power to the multicolor light-emitting module 1, the infrared receiving module 2, the touch detection module 3 and the control module 5; a charging management module 7 for charging the power supply module 6; a charging protection module 8 for providing charging protection for the power supply module 6; the multicolor light-emitting module 1, the infrared receiving module 2, the touch detection module 3 and the vibration detection module 4 are all connected with the control module 5; the power supply module 6 is respectively connected with the multicolor light-emitting module 1, the infrared receiving module 2, the touch detection module 3 and the control module 5; and the charging management module 7 and the charging protection module 8 are both connected with the power supply module 6.

In practical applications, a moon lamp generally comprises: a lampshade and a base; the lampshade is rotatably arranged on the base; the moonlight control circuit is arranged in a lampshade, the infrared receiving module 2 is an infrared receiver, the vibration detection module 4 is a vibration sensor, the two-line vibration sensor is adopted in the moonlight control circuit, the touch detection module 3 is arranged on the lampshade, and by touching a touch sensing part of the touch detection module 3, the touch detection module 3 converts a touch signal detected by the touch sensing part into an electric signal and transmits the electric signal to the control module 5, and the control module 5 controls the multicolor light emitting module 1 according to the electric signal transmitted by the touch detection module 3; by beating the lampshade, the vibration detection module 4 detects a vibration signal, the vibration detection module 4 converts the vibration signal into an electric signal and transmits the electric signal to the control module 5, and the control module 5 controls the multicolor light-emitting module 1 according to the electric signal transmitted by the vibration detection module 4; the infrared receiving module 2 in the moon lamp control circuit can receive infrared signals, the infrared signals are sent out through the infrared emitter, the infrared receiving module 2 converts the infrared signals into electric signals and transmits the electric signals to the control module 5, and the control module 5 controls the multicolor light-emitting module 1 according to the electric signals transmitted by the infrared receiving module 2; that is accessible touch in this application, pat and infrared these three kinds of mode control polychrome light emitting module 1 to realize the giving off light of moon lamp, control mode is various, and through the setting of charging management module 7, can charge to power module 6, need not to change it under the condition that power module 6 does not have the electricity, and convenient to use through the setting of charging protection module 8, can charge at power module 6, plays the guard action, improves the security performance.

Further, the touch detection module 3 includes: the touch control circuit comprises a touch chip U6, a touch electrode J, a third capacitor C3, a fourth capacitor C4, a diode D2, a fifth triode Q5, a second resistor R2, a sixth resistor R6, a seventh resistor R7, a ninth resistor R9 and a tenth resistor R10;

the first pin of the touch chip U6 is connected with the control module 5 and is also connected with the fifth pin of the touch chip U6 through a tenth resistor R10; the fourth pin and the fifth pin of the touch chip U6 are both connected with the first output end of the power supply module 6; the second pin and the sixth pin of the touch chip U6 are both grounded; a third pin of the touch chip U6 is grounded through a fourth capacitor C4 and is also connected with an emitting electrode of a fifth triode Q5; the base electrode of the fifth triode Q5 is connected with the cathode of the diode D2 through a sixth resistor R6; the collector of the fifth triode Q5 is grounded; the anode of the diode D2 is grounded through the ninth resistor R9 and the second resistor R2 in sequence; the anode of the diode D2 is also connected with the control module 5 through a ninth resistor R9; the anode of the diode D2 is grounded through a third capacitor C3 and a seventh resistor R7 respectively; the anode of the diode D2 is also connected with the emitter of a fifth triode Q5 through a touch electrode J; the anode of the diode D2 is also connected to a charge management module 7.

Specifically, the touch chip U6 may adopt a TTP223 type chip, and in practical applications, the touch electrode J is disposed on the lamp housing, so that a user can touch the touch electrode J, and in a case where the user touches the touch electrode J, the touch electrode J converts a touch signal into a first electrical signal, where the touch signal includes: the touch electrode J is pressed by a point, the touch electrode J is pressed by a long time, and the like, the touch electrode J outputs different first electric signals according to different touch signals and then transmits the different first electric signals to the touch chip U6, the touch chip U6 outputs different second electric signals according to the different first electric signals transmitted by the touch electrode J, and the control circuit receives the second electric signals and controls the multicolor light-emitting module 1 according to the second electric signals.

Further, the multicolor light emitting module 1 comprises: the LED lamp comprises a multicolor LED lamp D3, a first triode Q1, a second triode Q2, a third triode Q3 and a fourth triode Q4; the first pin, the second pin, the third pin and the fourth pin of the multicolor LED lamp D3 are all connected with the second output end of the power supply module 6; a fifth pin of the multicolor LED lamp D3 is connected with a collector electrode of a fourth triode Q4; the sixth pin of the multicolor luminous lamp is connected with the collector electrode of a third triode Q3; the seventh pin of the multicolor LED lamp D3 is connected with the collector electrode of the second triode Q2; the eighth pin of the multicolor LED lamp D3 is connected with the collector electrode of the first triode Q1; the emitting electrode of the first triode Q1, the emitting electrode of the second triode Q2, the emitting electrode of the third triode Q3 and the emitting electrode of the fourth triode Q4 are all grounded; and the base electrode of the first triode Q1, the base electrode of the second triode Q2, the base electrode of the third triode Q3 and the base electrode of the fourth triode Q4 are all connected with the control module 5.

Specifically, the control module 5 is configured to receive an electrical signal transmitted by the infrared receiving module 2, an electrical signal transmitted by the vibration detecting module 4, or an electrical signal transmitted by the touch detecting module 3, and control the collector of the first triode Q1, the collector of the second triode Q2, the collector of the third triode Q3, and/or the collector of the fourth triode Q4 according to the electrical signal transmitted by the infrared receiving module 2, the electrical signal transmitted by the vibration detecting module 4, or the electrical signal transmitted by the touch detecting module 3, so as to control the multicolor led lamp D3 to emit light rays with different colors.

Further, the multicolor led lamp D3 includes: white led chips, red led chips, green led chips and blue led chips; the anode of the white LED chip, the anode of the red LED chip, the anode of the green LED chip and the anode of the blue LED chip are all connected with a second output end of the power supply module 6; the cathode of the white led chip is connected with the collector of the first triode Q1; the cathode of the red LED chip is connected with the collector of the second triode Q2; the cathode of the green led chip is connected with the collector of a third triode Q3; and the cathode of the blue led chip is connected with the collector of a fourth triode Q4.

Specifically, the white led chip, the red led chip, the green led chip and the blue led chip are not shown in the figure, the white led chip can be controlled by controlling the collector of the first triode Q1, the white led chip emits white light when the collector of the first triode Q1 outputs a high-level signal, and the white led chip does not emit light when the collector of the first triode Q1 outputs a low-level signal; the red led chip can be controlled by controlling the collector of the second triode Q2, the red led chip emits red light under the condition that the collector of the second triode Q2 outputs a high-level signal, and the red led chip does not emit light under the condition that the collector of the second triode Q2 outputs a low-level signal; the green LED chip can be controlled by controlling the collector electrode of the third triode Q3, the green LED chip emits green light under the condition that the collector electrode of the third triode Q3 outputs a high-level signal, and the green LED chip does not emit light under the condition that the collector electrode of the third triode Q3 outputs a low-level signal; the blue led chip can be controlled by controlling the collector of the fourth triode Q4, and emits blue light when the collector of the fourth triode Q4 outputs a high level signal, and does not emit light when the collector of the fourth triode Q4 outputs a low level signal.

Further, the control module 5 includes: the control circuit comprises a control chip U5, an eighth resistor R8, an eleventh resistor R11, a twelfth resistor R12 and a thirteenth resistor R13; a first pin of the control chip U5 is connected with the output end of the infrared receiving module 2; the fifth pin of the control chip U5 is connected with the grounding end of the infrared receiving module 2; the second pin of the control chip U5 is connected with the output end of the vibration detection module 4; the fourth pin of the control chip U5 is connected with the first output end of the power supply module 6; an eighth pin of the control chip U5 is connected with a base electrode of the fourth triode Q4 through a twelfth resistor R12; a ninth pin of the control chip U5 is connected with a base electrode of the third triode Q3 through an eleventh resistor R11; a tenth pin of the control chip U5 is connected with a base electrode of the second triode Q2 through an eighth resistor R8; the eleventh pin of the control chip U5 is grounded; the twelfth pin of the control chip U5 is connected to the output end of the touch detection module 3 (i.e., the first pin of the touch chip U6); the thirteenth pin of the control chip U5 is connected to the input end of the touch detection module 3 (that is, the anode of the diode D2 is connected to the thirteenth pin of the control chip U5 through the ninth resistor R9); and a fourteenth pin of the control chip U5 is connected to the base of the first triode Q1 through a thirteenth resistor R13.

Specifically, the touch chip U6 transmits the electrical signal to the twelfth foot of the control chip U5 through the first foot of the touch chip, the infrared receiving module 2 transmits the electrical signal to the first foot of the control chip U5, the vibration detecting module 4 transmits the electrical signal to the second foot of the control chip U5, the control chip U5 controls the electrical signals of the eighth foot, the ninth foot, the tenth foot and the fourteenth foot of the control chip U5 according to the electrical signal of the twelfth foot of the control chip U5, the signal of the first foot or the signal of the second foot of the control chip U5, so as to control the multicolor light emitting module 1 to emit light, so that the user can control the multicolor light emitting module 1 through various modes such as touch, patting and infrared, and the control mode is various and flexible.

Further, the power supply module 6 includes: the storage battery BT1, the voltage stabilizing chip U4, the second capacitor C2 and the fourth resistor R4; the anode of the storage battery BT1 is respectively connected with the output end of the charging management module 7 and the first pin of the voltage stabilizing chip U4; the anode of the storage battery BT1 is a second output end of the power supply module 6; the second pin of the voltage stabilizing chip U4 is grounded; a third pin of the voltage stabilizing chip U4 is grounded through a second capacitor C2; the anode of the storage battery BT1 is also connected with the input end of the charging protection module 8 through a fourth resistor R4; the cathode of the storage battery BT1 is connected with the output end of the charging protection module 8; the first pin of the voltage stabilizing chip U4 is also connected with the output end of the multicolor light-emitting module 1; a third pin of the voltage stabilizing chip U4 is respectively connected with the control module 5, the infrared receiving module 2 and the touch detection module 3; and a third pin of the voltage stabilizing chip U4 is a first output end of the power supply module 6.

Specifically, through the setting of voltage stabilization chip U4, play the guard action to this moon lamp control circuit, play the effect of adjustment, vary voltage to control module 5, infrared receiving module 2 and touch detection module 3, prevent that too big voltage from blowing the circuit or causing some dangerous destruction effects.

Further, the charging management module 7 includes: the charging management chip U2, the light emitting diode D1, the third resistor R3 and the fifth resistor R5; a first pin of the charging management chip U2 is connected with a cathode of the light emitting diode D1 through a third resistor R3; the anode of the light emitting diode D1 and the fourth pin of the charging management chip U2 are both used for connecting an external power supply; the anode of the light emitting diode D1 is also connected with a touch detection module 3; the second pin of the charging management chip U2 is grounded; the third pin of the charging management chip U2 is connected with the anode of the storage battery BT 1; the fifth pin of the charging management chip U2 is grounded through a fifth resistor R5.

Specifically, the charging management chip U2 is a PL4054 chip and has a function of constant-current constant-voltage linear charging, the third pin of the charging management chip U2 outputs a charging current, when the charging management chip operates under a high-power load or a high-temperature environment, the charging current is automatically controlled by thermal feedback, so that the temperature of the chip U5 is controlled, the charging voltage is fixed at 4.2v, the fifth pin of the charging management chip U2 is set for the charging current, the fifth resistor R5 is short-circuited with ground through the setting of the fifth resistor R5, a 2.5uA current in the fifth pin pulls the fifth pin to a high level, when the voltage of the fifth pin reaches a shutdown threshold voltage of 1.22v, the charging stops and the input power supply current drops to 45uA, and through the setting of the light emitting diode D1, under the charging condition, the light emitting diode D1 lights up to prompt a user that the charging state is in this moment.

Further, the charging protection module 8 includes: the charging protection circuit comprises a charging protection chip U1, a first resistor R1 and a first capacitor C1; a first pin of the charging protection chip U1 is grounded through a first resistor R1; the second pin of the charging protection chip U1 is grounded; the third pin and the sixth pin of the charging protection chip U1 are both connected with the cathode of the storage battery BT 1; the fifth pin of the charging protection chip U1 is connected with the cathode of the storage battery BT1 through a first capacitor C1; the fifth pin of the charging protection chip U1 is connected to the anode of the battery BT1 through a fourth resistor R4.

Specifically, the charging protection chip U1 is a chip of a DW06D model, the DW06D chip includes an advanced power MOSFET, and has protection functions required by all batteries such as overcharge, overdischarge, overcurrent, and short circuit, when the battery voltage of the storage battery BT1 is higher than an overcharge detection voltage and the duration time reaches an overcharge voltage detection delay time or is longer, the charging protection chip U1 controls the MOSFET to stop charging, and when the voltage of the storage battery BT1 is lower than an overcharge release voltage, the charging protection chip U1 controls the MOSFET to be turned on so that the storage battery BT1 continues to charge; in the normal discharging process of the storage battery BT1, if the voltage of the storage battery BT1 is reduced below the over-discharge detection voltage and the duration time reaches the over-discharge voltage detection delay time or longer, the charging protection chip U1 cuts off the connection between the battery and a load and stops discharging, so that the charging and discharging protection of the storage battery BT1 is realized.

The utility model discloses a moon lamp control circuit, the accessible touch, pat and infrared these three kinds of mode control polychrome light emitting module 1 to realize the giving off light of moon lamp, control mode is various, and through the setting of charging management module 7, can charge to power module 6, need not to change it under the circumstances that power module 6 does not have the electricity, high durability and convenient use, through the setting of charging protection module 8, can charge at power module 6, play the guard action, improve the security performance.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that modifications and embellishments within the scope of the present disclosure may be made by those skilled in the art without departing from the principles of the present disclosure.

Claims (8)

1. A moon light control circuit, comprising: a multi-color light emitting module; an infrared receiving module; a touch detection module; a vibration detection module; the control module is used for controlling the multicolor light-emitting module according to the signals received by the infrared receiving module, the signals received by the touch detection module or the signals received by the vibration detection module; the power supply module is used for supplying power to the multicolor light-emitting module, the infrared receiving module, the touch detection module and the control module; the charging management module is used for charging the power supply module; the charging protection module is used for providing charging protection for the power supply module; the multicolor light-emitting module, the infrared receiving module, the touch detection module and the vibration detection module are all connected with the control module; the power supply module is respectively connected with the multicolor light-emitting module, the infrared receiving module, the touch detection module and the control module; and the charging management module and the charging protection module are both connected with the power supply module.

2. The lunar lamp control circuit according to claim 1, wherein the touch detection module comprises: the touch control circuit comprises a touch chip, a touch electrode, a third capacitor, a fourth capacitor, a diode, a fifth triode, a second resistor, a sixth resistor, a seventh resistor, a ninth resistor and a tenth resistor;

the first pin of the touch chip is connected with the control module and is also connected with the fifth pin of the touch chip through a tenth resistor; the fourth pin and the fifth pin of the touch chip are both connected with the first output end of the power supply module; the second pin and the sixth pin of the touch chip are both grounded; a third pin of the touch chip is grounded through a fourth capacitor and is also connected with an emitter of a fifth triode; the base electrode of the fifth triode is connected with the cathode of the diode through a sixth resistor; the collector of the fifth triode is grounded; the anode of the diode is grounded through the ninth resistor and the second resistor in sequence; the anode of the diode is also connected with the control module through a ninth resistor; the anode of the diode is grounded through a third capacitor and a seventh resistor respectively; the anode of the diode is also connected with the emitter of the fifth triode through the touch electrode; and the anode of the diode is also connected with the charging management module.

3. The moon light control circuit of claim 1, wherein the multicolor light module comprises: the LED lamp comprises a multicolor LED lamp, a first triode, a second triode, a third triode and a fourth triode; the first pin, the second pin, the third pin and the fourth pin of the multi-color LED lamp are all connected with the second output end of the power supply module; the fifth pin of the multicolor LED lamp is connected with the collector of the fourth triode; the sixth pin of the multicolor luminous lamp is connected with the collector electrode of the third triode; the seventh pin of the multicolor LED lamp is connected with the collector electrode of the second triode; the eighth pin of the multicolor LED lamp is connected with the collector of the first triode; the emitting electrode of the first triode, the emitting electrode of the second triode, the emitting electrode of the third triode and the emitting electrode of the fourth triode are all grounded; and the base electrode of the first triode, the base electrode of the second triode, the base electrode of the third triode and the base electrode of the fourth triode are all connected with the control module.

4. The lunar lamp control circuit according to claim 3, wherein the multi-colored led lamp comprises: white led chips, red led chips, green led chips and blue led chips; the anode of the white LED chip, the anode of the red LED chip, the anode of the green LED chip and the anode of the blue LED chip are all connected with the second output end of the power supply module; the cathode of the white LED chip is connected with the collector of the first triode; the cathode of the red LED chip is connected with the collector of the second triode; the cathode of the green led chip is connected with the collector of the third triode; and the cathode of the blue led chip is connected with the collector of the fourth triode.

5. The lunar lamp control circuit according to claim 3, wherein the control module comprises: the circuit comprises a control chip, an eighth resistor, an eleventh resistor, a twelfth resistor and a thirteenth resistor; the first pin of the control chip is connected with the output end of the infrared receiving module; the fifth pin of the control chip is connected with the grounding end of the infrared receiving module; the second pin of the control chip is connected with the output end of the vibration detection module; the fourth pin of the control chip is connected with the first output end of the power supply module; the eighth pin of the control chip is connected with the base electrode of the fourth triode through a twelfth resistor; a ninth pin of the control chip is connected with a base electrode of the third triode through an eleventh resistor; a tenth pin of the control chip is connected with a base electrode of the second triode through an eighth resistor; the eleventh pin of the control chip is grounded; the twelfth pin of the control chip is connected with the output end of the touch detection module; the thirteenth pin of the control chip is connected with the input end of the touch detection module; and a fourteenth pin of the control chip is connected with the base electrode of the first triode through a thirteenth resistor.

6. The lunar lamp control circuit according to claim 1, wherein the power module comprises: the storage battery, the voltage stabilizing chip, the second capacitor and the fourth resistor are connected in series; the anode of the storage battery is respectively connected with the output end of the charging management module and the first pin of the voltage stabilizing chip; the second pin of the voltage stabilizing chip is grounded; a third pin of the voltage stabilizing chip is grounded through a second capacitor; the anode of the storage battery is also connected with the input end of the charging protection module through a fourth resistor; the cathode of the storage battery is connected with the output end of the charging protection module; the first pin of the voltage stabilizing chip is also connected with the output end of the multicolor light-emitting module; and a third pin of the voltage stabilizing chip is respectively connected with the control module, the infrared receiving module and the touch detection module.

7. The lunar lamp control circuit as defined in claim 6, wherein the charging management module comprises: the charging management chip, the light emitting diode, the third resistor and the fifth resistor; the first pin of the charging management chip is connected with the cathode of the light-emitting diode through a third resistor; the anode of the light-emitting diode and the fourth pin of the charging management chip are both used for connecting an external power supply; the anode of the light-emitting diode is also connected with the touch detection module; the second pin of the charging management chip is grounded; the third pin of the charging management chip is connected with the anode of the storage battery; and the fifth pin of the charging management chip is grounded through a fifth resistor.

8. The lunar lamp control circuit as defined by claim 6, wherein the charging protection module comprises: the charging protection circuit comprises a charging protection chip, a first resistor and a first capacitor; a first pin of the charging protection chip is grounded through a first resistor; the second pin of the charging protection chip is grounded; the third pin and the sixth pin of the charging protection chip are both connected with the cathode of the storage battery; the fifth pin of the charging protection chip is connected with the cathode of the storage battery through a first capacitor; and a fifth pin of the charging protection chip is connected with the anode of the storage battery through a fourth resistor.

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