CN212809386U - Equipment with wake-up and sleep-aiding functions - Google Patents

Abstract

The utility model discloses a device with wake-up and help dormancy function, including wake-up module, help dormancy module, timing module, power indication module, reset circuit module and singlechip, the 18 pin electric connection of wake-up module and singlechip, help dormancy module and 68 pin electric connection of singlechip, timing module and 86 pin and 81 pin electric connection of singlechip, power indication module and the 30 pin electric connection of singlechip, reset circuit module and the RST pin electric connection of singlechip; the utility model realizes the simulation of the natural sun rising to the maximum extent by the method that the LED lamp is slowly lighted and the lighting speed is adjusted to be the same as the sun rising speed, thereby achieving the purpose of waking up the user; the utility model discloses a produce the sound of similar raindrop to let the user manually adjust to the frequency between 0.7-14Hz that its individual is comparatively accustomed to through the knob, then broadcast through the speaker.

Description

Equipment with wake-up and sleep-aiding functions

Technical Field

The utility model relates to an electronic product field specifically indicates an equipment with wake-up and help dormancy function.

Background

The prior waking mode directly uses noise, strong light or similar rough mode to force the user to wake up, and brings startle and strong stimulation, which makes the user feel abnormal discomfort after waking up and further influences the life state of the day.

After work or study is finished, people always drag tired bodies to go to bed directly, and the conventional waking device does not have a function of helping sleep, such as an alarm clock.

Therefore, a device with waking and sleep-assisting functions is a problem to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is that the prior art directly uses the rough manner like noise, strong light, etc. to force the user to wake up, and simultaneously brings scare and strong stimulation, which makes the user feel abnormal discomfort after waking up and further affects the living state of the day; the prior waking device generally has no functions of helping sleep and the like.

In order to solve the technical problem, the utility model provides a technical scheme does: an apparatus with wake-up and sleep-aid functions comprises a wake-up module, a sleep-aid module, a timing module, a power indication module, a reset circuit module and a single chip microcomputer, wherein the wake-up module is electrically connected with 18 pins of the single chip microcomputer, the sleep-aid module is electrically connected with 68 pins of the single chip microcomputer, the timing module is electrically connected with 86 pins and 81 pins of the single chip microcomputer, the power indication module is electrically connected with 30 pins of the single chip microcomputer, and the reset circuit module is electrically connected with a RST pin of the single chip microcomputer;

the waking module comprises a triode Q2, a light emitting diode LED1, a resistor R6, a resistor R7 and a resistor R8, the triode Q2 is used for controlling the light emitting diode LED1, the output current of 18 pins is slowly increased at the rising rate of the sun after the internal program timing of the single chip microcomputer reaches a specified time, so that the resistor of the triode Q2 is gradually reduced, and the light emitting diode LED1 is slowly lightened until the maximum brightness is reached;

the sleep-assisting module comprises an NE555 chip, a triode Q1, a slide rheostat VR1, an electrolytic capacitor EC1, an electrolytic capacitor EC2, a capacitor C4, a loudspeaker J1, a resistor R2, a resistor R3, a resistor R4 and a resistor R6, wherein the NE555 chip, the resistor R3, the slide rheostat VR1 and the electrolytic capacitor EC1 form a multivibrator, a RST pin of the NE555 chip is controlled by a 68 pin of a single chip microcomputer through the triode Q1, and the NE555 chip starts to work after the single chip microcomputer outputs high level through the 68 pin;

the timing module comprises a crystal oscillator chip, a capacitor C1 and a capacitor C2, the timing module inputs a time signal to the single chip microcomputer, and the single chip microcomputer calculates the current time after receiving the time signal;

the power supply indicating module comprises a light emitting diode LED0, one end of the light emitting diode LED0 is electrically connected with a pin 30 of the single chip microcomputer, and the other end of the light emitting diode LED0 is electrically connected with a pin 13 of the single chip microcomputer;

the reset circuit module comprises a polarization capacitor C3 and a resistor R1, and resets after receiving a reset instruction sent by the single chip microcomputer.

Furthermore, the resistances of the resistors R1, R3, R4, R5 and R8 are all 10K Ω, the resistances of the resistors R2 and R6 are all 1K Ω, the resistance of the resistor R7 is 2.7K Ω, and the resistance range of the slide rheostat is 0-100K Ω.

Further, the model of the triodes Q1 and Q2 is SS 8050.

Further, the type of the single chip microcomputer is C8051F 040.

Furthermore, the capacities of the capacitors C1 and C2 are both 33pF, the capacities of the polarized capacitor C3 and the capacitor C4 are both 0.1uF, the capacity of the electrolytic capacitor EC1 is 10uF/25V, and the capacity of the electrolytic capacitor EC2 is 100 uF/25V.

Further, the specific frequency of the crystal oscillator chip is 22.1184 Hz.

Further, the model of the LED1 is XI3535-KT577J 1-03201-OOOP.

Further, the model of the loudspeaker J1 is KF 301-2P.

Compared with the prior art, the utility model has the advantages that: the utility model simulates the most natural waking mode since ancient times, namely, the rising of the sun makes people wake up more comfortably and naturally; the natural sun rising is simulated to the maximum extent by a method of slowly turning up the LED lamp and adjusting the lighting rate to be the same as the sun rising rate, so that the aim of waking up a user is fulfilled; the utility model generates the sound similar to raindrops, and enables the user to manually adjust the frequency between 0.7 Hz and 14Hz which is more used by the user through the knob, and then the raindrop sound is played through the loudspeaker, and the raindrop sound environment in the frequency interval can stimulate the human brain to generate alpha or theta waves so as to enter the sleep state; the utility model relates to a rationally, be worth wideling popularize.

Drawings

FIG. 1 is a functional block diagram of an apparatus having wake-up and sleep-aid functionality;

FIG. 2 is a schematic diagram of an apparatus having wake-up and sleep-aid functionality;

as shown in the figure: 1. the sleep assisting device comprises a wake-up module 2, a sleep assisting module 3, a timing module 4, a power supply indicating module 5, a reset circuit module 6 and a single chip microcomputer;

in fig. 2, U1A is a single chip microcomputer, U2 is an NE555 chip, Q1 and Q2 are triodes, C1, C2 and C4 are capacitors, C3 is a polarization capacitor, R1-R8 are resistors, VR1 is a slide rheostat, LED0 and LED1 are light emitting diodes, EC1 and EC2 are electrolytic capacitors, and XTAL is a crystal oscillator chip.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings 1-2.

The utility model provides an equipment with wake-up and help dormancy function when specifically implementing, including wake-up module 1, help dormancy module 2, timing module 3, power indication module 4, reset circuit module 5 and singlechip 6, wake-up module 1 and singlechip 6's 18 pins electric connection, help dormancy module 2 and singlechip 6's 68 pins electric connection, timing module 3 and singlechip 6's 86 pins and 81 pins electric connection, power indication module 4 and singlechip 6's 30 pins electric connection, reset circuit module 5 and singlechip 6's RST pin electric connection;

the waking module 1 comprises a triode Q2, a light emitting diode LED1, a resistor R6, a resistor R7 and a resistor R8, wherein the triode Q2 is used for controlling the light emitting diode LED1, and the output current of 18 pins is slowly increased at the rate of rising of the sun after the internal program timing of the singlechip 6 reaches a specified time, so that the triode Q2 gradually falls, and the light emitting diode LED1 slowly lights;

the sleep-assisting module 2 comprises an NE555 chip, a triode Q1, a slide rheostat VR1, an electrolytic capacitor EC1, an electrolytic capacitor EC2, a capacitor C4, a loudspeaker J1, a resistor R2, a resistor R3, a resistor R4 and a resistor R6, wherein the NE555 chip, the resistor R3, the slide rheostat VR1 and the electrolytic capacitor EC1 form a multivibrator, a RST pin of the NE555 chip is controlled by a 68 pin of a single chip microcomputer through the triode Q1, and the NE555 chip starts to work after the single chip microcomputer outputs high level through the 68 pin;

the timing module 3 comprises a crystal oscillator chip, a capacitor C1 and a capacitor C2, the timing module inputs a time signal to the single chip microcomputer, and the single chip microcomputer calculates the current time after receiving the time signal;

the power supply indicating module 4 comprises a light emitting diode LED0, one end of the light emitting diode LED0 is electrically connected with a pin 30 of the single chip microcomputer, and the other end of the light emitting diode LED0 is electrically connected with a pin 13 of the single chip microcomputer;

the reset circuit module 5 comprises a polarization capacitor C3 and a resistor R1, and resets after receiving a reset instruction sent by the single chip microcomputer.

The resistances of the resistors R1, R3, R4, R5 and R8 are all 10K omega, the resistances of the resistors R2 and R6 are all 1K omega, the resistance of the resistor R7 is 2.7K omega, and the resistance range of the slide rheostat is 0-100K omega.

The model of the triodes Q1 and Q2 is SS 8050.

The type of the singlechip 6 is C8051F 040.

The capacities of the capacitors C1 and C2 are both 33pF, the capacities of the polarized capacitor C3 and the capacitor C4 are both 0.1uF, the capacity of the electrolytic capacitor EC1 is 10uF/25V, and the capacity of the electrolytic capacitor EC2 is 100 uF/25V.

The specific frequency of the crystal oscillator chip is 22.1184 Hz.

The model of the LED1 is XI3535-KT577J 1-03201-OOOP.

The model of the loudspeaker J1 is KF 301-2P.

The utility model relates to a concrete implementation process of equipment with wake-up and help dormancy function as follows: firstly, according to the attached figure 2, the connection among all components of the waking module 1, the connection among all components of the sleep-assisting module 2, the connection among all components of the timing module 3, the connection among all components of the power indication module 4 and the connection among all components of the reset circuit module 5 are completed;

finally, the wake-up module 1 is electrically connected with 18 pins of the single chip microcomputer 6, the sleep-assisting module 2 is electrically connected with 68 pins of the single chip microcomputer 6, the timing module 3 is electrically connected with 86 pins and 81 pins of the single chip microcomputer 6, the power supply indicating module 4 is electrically connected with 30 pins of the single chip microcomputer 6, and the reset circuit module 5 is electrically connected with a RST pin of the single chip microcomputer 6;

a wake-up function: the light-emitting diode LED1 is controlled through the triode Q2, when the internal program timing of the single chip microcomputer reaches the designated time, the output current of the 18 pins is slowly increased at the sun rising speed, so that the triode Q2 gradually descends, and the light-emitting diode LED1 slowly lights;

the sleep-aiding function is as follows: the NE555 chip and R3, VR1 and EC1 form a multivibrator, because the charging and discharging circuit of EC1 is the same, so 2, 6, 7 pins of the NE555 chip input square waves with the frequency between 0.7-14HZ into the NE555 chip, the specific frequency can also be adjusted by VR1 connected with a knob, then the NE555 chip converts the square waves into sine waves, the sine waves are output by an OUT pin, and the sine waves are input to a loudspeaker J1 to be converted into sound waves after being filtered by EC 2.

The utility model simulates the most natural waking mode since ancient times, namely, the rising of the sun makes people wake up more comfortably and naturally; the natural sun rising is simulated to the maximum extent by a method of slowly turning up the LED lamp and adjusting the lighting rate to be the same as the sun rising rate, so that the aim of waking up a user is fulfilled; the utility model generates the sound similar to raindrops, and enables the user to manually adjust the frequency between 0.7 Hz and 14Hz which is more used by the user through the knob, and then the raindrop sound is played through the loudspeaker, and the raindrop sound environment in the frequency interval can stimulate the human brain to generate alpha or theta waves so as to enter the sleep state; the utility model relates to a rationally, be worth wideling popularize.

The present invention and its embodiments have been described above, but the description is not limited thereto, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (8)

1. The utility model provides an equipment with wake-up and help dormancy function, includes wake-up module (1), helps dormancy module (2), timing module (3), power indication module (4), reset circuit module (5) and singlechip (6), its characterized in that: the waking module (1) is electrically connected with 18 pins of the single chip microcomputer (6), the sleep-assisting module (2) is electrically connected with 68 pins of the single chip microcomputer (6), the timing module (3) is electrically connected with 86 pins and 81 pins of the single chip microcomputer (6), the power indication module (4) is electrically connected with 30 pins of the single chip microcomputer (6), and the reset circuit module (5) is electrically connected with a RST pin of the single chip microcomputer (6);

the waking module (1) comprises a triode Q2, a light emitting diode LED1, a resistor R6, a resistor R7 and a resistor R8, wherein the triode Q2 is used for controlling the light emitting diode LED1, and the output current of 18 pins is slowly increased at the rate of rising of the sun after the internal program timing of the singlechip (6) reaches a specified time, so that the triode Q2 gradually falls, and the light emitting diode LED1 slowly lights;

the sleep-assisting module (2) comprises an NE555 chip, a triode Q1, a sliding rheostat VR1, an electrolytic capacitor EC1, an electrolytic capacitor EC2, a capacitor C4, a loudspeaker J1, a resistor R2, a resistor R3, a resistor R4 and a resistor R6, wherein the NE555 chip, the resistor R3, the sliding rheostat VR1 and the electrolytic capacitor EC1 form a multivibrator, the RST pin of the NE555 chip is controlled by a 68 pin of a single chip microcomputer through the triode Q1, and the NE555 chip starts to work after the single chip microcomputer outputs high level through the 68 pin;

the timing module (3) comprises a crystal oscillator chip, a capacitor C1 and a capacitor C2, the timing module inputs a time signal to the single chip microcomputer, and the single chip microcomputer calculates the current time after receiving the time signal;

the power supply indicating module (4) comprises a light emitting diode LED0, one end of the light emitting diode LED0 is electrically connected with a pin 30 of the single chip microcomputer, and the other end of the light emitting diode LED0 is electrically connected with a pin 13 of the single chip microcomputer;

the reset circuit module (5) comprises a polarization capacitor C3 and a resistor R1, and resets after receiving a reset instruction sent by the single chip microcomputer.

2. An apparatus having wake-up and sleep-aid functions as claimed in claim 1, wherein: the resistances of the resistors R1, R3, R4, R5 and R8 are all 10K omega, the resistances of the resistors R2 and R6 are all 1K omega, the resistance of the resistor R7 is 2.7K omega, and the resistance range of the slide rheostat is 0-100K omega.

3. An apparatus having wake-up and sleep-aid functions as claimed in claim 1, wherein: the model of the triodes Q1 and Q2 is SS 8050.

4. An apparatus having wake-up and sleep-aid functions as claimed in claim 1, wherein: the type of the singlechip (6) is C8051F 040.

5. An apparatus having wake-up and sleep-aid functions as claimed in claim 1, wherein: the capacities of the capacitors C1 and C2 are both 33pF, the capacities of the polarized capacitor C3 and the capacitor C4 are both 0.1uF, the capacity of the electrolytic capacitor EC1 is 10uF/25V, and the capacity of the electrolytic capacitor EC2 is 100 uF/25V.

6. An apparatus having wake-up and sleep-aid functions as claimed in claim 1, wherein: the specific frequency of the crystal oscillator chip is 22.1184 Hz.

7. An apparatus having wake-up and sleep-aid functions as claimed in claim 1, wherein: the model of the LED1 is XI3535-KT577J 1-03201-OOOP.

8. An apparatus having wake-up and sleep-aid functions as claimed in claim 1, wherein: the model of the loudspeaker J1 is KF 301-2P.

Images