CN210300462U - Intelligent awakening pillow - Google Patents

Abstract

The embodiment of the utility model discloses intelligence awakens pillow up, this intelligence awakens pillow up includes: the timer is used for generating a first trigger signal to the processor when the preset time is determined to be reached; the pressure sensor is used for generating a second trigger signal to the processor when detecting that the user is rested on the intelligent awakening pillow; the processor is used for generating an indication instruction, sending the indication instruction to the reminding device, and sending a reminding signal again by the reminding device according to the indication instruction to remind a user of getting up. The processor is an Arduino development board; the A0 end of the Arduino development board is electrically connected with the A0 end of the piezoresistor and used for receiving the high-level signal transmitted by the piezoresistor, and the SCL end of the Arduino development board is electrically connected with the SCL end of the timer and used for receiving the high-level signal input by the timer; the SDA port is electrically connected with the SDA port of the timer; the reminding device comprises a vibration motor. Through this kind of mode, can help the user to change the habit of leaning on to bed.

Description

Intelligent awakening pillow

Technical Field

The embodiment of the utility model provides a relate to power electronic technology field, concretely relates to intelligence awakens up pillow.

Background

Sleep is one of the most familiar activities in our daily lives, and one third of the life time of a person is spent asleep.

For modern people, late sleep and late time seem to have become a habit. People always like to fall asleep in the morning, and even if the set getting-up time before the people in the morning and in the evening is up, the alarm clock can be turned off to continue sleeping. The consequence of this is that normal work or life schedules are delayed, e.g. late to work, late to date, etc.

The conventional pillow can only make the user feel comfortable when sleeping, for example, make the user feel smooth breathing. However, it cannot help the user to get out of the bed and get rid of the habit of leaning on the bed within a specified time.

Therefore, it is a technical problem to be solved by the present application to design an intelligent wake-up pillow that can help a user change the habit of leaning on a bed.

Disclosure of Invention

Therefore, the embodiment of the utility model provides an intelligence awakens pillow up for help the user change the habit of leaning on to bed.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions:

according to the utility model discloses an aspect provides an intelligence awakens pillow up, and this intelligence awakens pillow up includes: the pillow comprises a pillow body, a processor, a pressure sensor, a timer and a reminding device, wherein the processor, the pressure sensor, the timer and the reminding device are arranged in the pillow body, and the pressure sensor, the timer and the reminding device are all electrically connected with the processor;

the timer is used for generating a first trigger signal to the processor when the preset time is determined to be reached;

the pressure sensor is used for generating a second trigger signal to the processor when detecting that the user is rested on the intelligent awakening pillow;

the processor is used for generating an indication instruction and sending the indication instruction to the reminding device if receiving the first trigger signal and the second trigger signal within the first preset time;

the reminding device sends out a reminding signal according to the indication instruction so as to remind a user to get up;

when the first trigger signal and the second trigger signal are received within the first preset time after the indication instruction is generated, the indication instruction is generated again and sent to the reminding device, the reminding device sends the reminding signal again according to the indication instruction to remind a user to get up, wherein the first preset time is a subset of the second preset time;

the processor is an Arduino development board; the model of the timer is DS 3231; the A0 end of the Arduino development board is electrically connected with the A0 end of the piezoresistor and used for receiving the high-level signal transmitted by the piezoresistor, and the SCL end of the Arduino development board is electrically connected with the SCL end of the timer and used for receiving the high-level signal input by the timer; the SDA port is electrically connected with the SDA port of the timer; the reminding device comprises a vibration motor, and the indication instruction comprises a first indication instruction;

the vibration motor is used for sending out a vibration signal according to the first instruction so as to remind a user to get up.

Further, the number of the vibration motors includes at least one.

Further, the reminding device also comprises: the music playing device indicates that the instruction further comprises; the second instruction, the music playing device is electrically connected with the processor;

the music play device is used for playing preset music tracks according to the second indication instruction so as to remind a user to get up, wherein the processor is electrically connected with the external storage device, and the preset music tracks are called from the external storage device by the processor.

Further, intelligence awakens pillow still includes: the infrared sensor is electrically connected with the processor and is used for receiving remote sensing signals sent by an external remote control device;

converting the remote sensing signal into an electric signal and sending the electric signal to a processor so that the processor switches music tracks according to the electric signal and transmits the switched music tracks to a music playing module for playing;

or the processor controls the music playing module to stop playing music tracks according to the electric signals.

Further, the pressure sensor is a piezoresistor.

Further, the first trigger signal and the second trigger signal are both high level signals.

The embodiment of the utility model provides a have following advantage: an intelligent awakening pillow is manufactured, and the intelligent awakening pillow comprises a processor, a pressure sensor, a timer and a reminding device. When the processor receives a first trigger signal and a second trigger signal which are respectively sent by the timer and the pressure sensor in sequence within a first preset time, the current moment is indicated, and the user is rested on the intelligent pillow. At this time, the processor can instruct the reminding device to send out a reminding signal for reminding the user to get up. For example, the motor vibrates, the music playing module plays music, etc. to remind the user to get up. If the intelligent awakening pillow detects that the user is rested on the pillow again within the second preset time, the reminding device works again to remind the user to get up. By the mode, the user can be helped to change the habit of leaning to the bed so as to avoid delaying more important things.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic structural view of an intelligent wake-up pillow provided in embodiment 1 of the present invention;

fig. 2A is a pin diagram of a chip DS3231 provided in embodiment 2 of the present invention

Fig. 2B is a schematic pin diagram of a varistor provided in embodiment 2 of the present invention;

fig. 2C is a schematic pin diagram of a vibration motor according to embodiment 2 of the present invention;

fig. 2D is a schematic diagram of pins of the chip VS1838B according to embodiment 2 of the present invention;

fig. 2E is a schematic pin diagram of the Arduino development board according to embodiment 2 of the present invention;

fig. 2F is a schematic pin diagram of an MPC player according to embodiment 2 of the present invention.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment 1 of the utility model provides an intelligence awakens up pillow specifically as shown in fig. 1, this intelligence awakens up pillow and includes: the pillow comprises a pillow body 10, a processor 20, a pressure sensor 30, a timer 40 and a reminding device 50, wherein the processor 20, the pressure sensor 30, the timer 40 and the reminding device 50 are arranged in the pillow body 10. The pressure sensor 30, the timer 40 and the reminding device 50 are all electrically connected with the processor 20. Since the embodiment of the present application focuses on not describing the pillow body 10, the pillow body will not be mentioned too much, but the electrical structural relationship among the processor 20, the pressure sensor 30, the timer 40, the reminding device 50, and other components, and the specific working principle of the intelligent wake-up pillow will be described in detail.

The timer 40 is configured to generate a first trigger signal to the processor 20 when it is determined that the preset time is reached;

the pressure sensor 30 is configured to generate a second trigger signal to the processor 20 when detecting that the user is resting on the smart wake-up pillow;

the processor 20 is configured to generate an instruction and send the instruction to the reminding device 50 if the first trigger signal and the second trigger signal are received within a first preset time;

the reminding device 50 sends out a reminding signal according to the instruction command so as to remind the user to get up;

the processor 20 is further configured to, when it is determined that the first trigger signal and the second trigger signal are received within the first preset time after the generation of the indication instruction within the second preset time, re-generate the indication instruction, and send the indication instruction to the reminding device 50, so that the reminding device 50 sends out the reminding signal again according to the indication instruction to remind the user to get up, where the first preset time is a subset of the second preset time.

Optionally, the reminding device 50 comprises a vibration motor, and the indication instruction comprises a first indication instruction;

the vibration motor is used for sending out a vibration signal according to the first instruction so as to remind a user to get up. Further optionally, the number of vibration motors includes at least one.

Optionally, the reminding device 50 further includes: the music playing device 60, the instruction further includes; a second instruction, the music playing device 60 is electrically connected to the processor 20;

the music playing device 60 is configured to play a preset music track according to the second instruction, so as to remind the user to get up, wherein the processor 20 is further electrically connected to the external storage device, and the preset music track is called from the external storage device by the processor 20.

Optionally, the intelligent wake-up pillow further comprises: the infrared sensor 70, the infrared sensor 70 is electrically connected with the processor 20, and is used for receiving remote sensing signals sent by an external remote control device;

converting the remote sensing signal into an electric signal, and sending the electric signal to the processor 20, so that the processor 20 switches music tracks according to the electric signal, and transmits the switched music tracks to the music playing module for playing;

alternatively, the processor 20 controls the music playing module to stop playing the music tracks according to the electrical signal.

Optionally, the pressure sensor 30 is a piezo-resistor.

Optionally, the second preset time is: 0-10 minutes.

The specific working principle of the intelligent wake-up pillow will be described in detail as follows:

specifically, the intelligent wake-up pillow provided by the implementation can be applied to a scene that a user sets time to get up but snooze and sleep. Of course, the present implementation is not limited to this application scenario, but may also be other scenarios, such as a scenario in which the user wishes to sleep. In this scenario, the vibrating motor in the reminder device 50 will not work in general. Only some sleep-assisting music may be played by the music playing device 60. Except that the vibration motor can emit vibration with certain frequency to just assist the user in sleeping, in this case, the vibration motor can also vibrate with certain frequency. Of course, the specific application can be set according to practical situations, and is not limited too much here. In addition, the reminding device 50 is not limited to include the vibration motor and the music playing device 60, and may be other reminding components as long as the purpose of the present application can be achieved, which is not limited herein.

Specifically, in a specific example, taking an application scenario when the user needs to get up as an example for illustration, the timer 40 is mainly used for the user to set a preset time, that is, when the preset time is reached, the user needs to get up, and the timer 40 generates the first trigger signal processor 20. Then, at this point, if the pressure sensor 30 is also able to detect that the user is resting on the smart wake-up pillow, a second trigger signal is generated to the processor 20.

The processor 20 generates an instruction only when receiving the first trigger signal and the second trigger signal in sequence within the first preset time, and sends the instruction to the reminding device 50. In this way, in consideration of the situation that the user gets up early at the preset time or the user is not resting on the intelligent wake-up pillow at the preset time, the timer 40 or the pressure sensor 30 will send a corresponding trigger signal to the processor 20. If the processor 20 issues an instruction to the reminder device 50 at this time, the reminder device 50 will work without trouble to the user. Therefore, it is necessary to set the processor 20 to generate the indication instruction only when the first trigger signal and the second trigger signal are received successively within the first preset time, and send the indication instruction to the reminding device 50.

Then, the reminding device 50 sends out a reminding signal according to the instruction command so as to remind the user to get up. At the moment, the function of the intelligent awakening pillow is actually similar to that of an alarm clock, and the user is reminded to get up. In order to prevent the user from getting into bed, the processor 20 is further configured to, when it is determined that the first trigger signal and the second trigger signal are received within the first preset time after the indication instruction is generated, generate the indication instruction again, and send the indication instruction to the reminding device 50, so that the reminding device 50 sends out the reminding signal again according to the indication instruction to remind the user to get up, where the first preset time is a subset of the second preset time. That is to say, if the user gets up at the moment, gets to bed again, sleeps on the pillow, then the intelligent awakening pillow will send out the reminding signal again to remind the user to get up. Of course, in this case, a time setting is needed, that is, in the second preset time range, if the user falls into bed again, the intelligent wake-up pillow will send out the reminding signal again to remind the user to get up.

Optionally, the second preset time may be within a range of 0 to 10 minutes. The first time is set in consideration of a delay in signal reception, and a preferred first preset time may be in the range of several seconds.

Optionally, the reminder device 50 may include a vibration motor, and/or a music player device 60. Then, the instruction command necessarily includes at least two kinds, one of which is used for controlling the vibration motor to vibrate and the other is used for controlling the music playing device 60 to play music.

Therefore, when the indication instruction is the first indication instruction, the vibration motor is used for sending out a vibration signal according to the first indication instruction so as to remind a user of getting up. Or, when the instruction is the second instruction, the music playing device 60 is configured to play a preset music track according to the second instruction, so as to remind the user to get up.

Alternatively, if the music playing device 60 is not capable of storing music tracks by itself, the music to be played may be retrieved by the processor 20. That is, the processor 20 is also electrically connected to an external storage device from which the preset music tracks are retrieved by the processor 20.

Optionally, in order to ensure that the music tracks played by the music playing device 60 can be freely switched or stopped, the intelligent wake-up pillow may further include an infrared sensor 70 for receiving a remote sensing signal sent by an external remote control device;

converting the remote sensing signal into an electric signal, and sending the electric signal to the processor 20, so that the processor 20 switches music tracks according to the electric signal, and transmits the switched music tracks to the music playing module for playing;

alternatively, the processor 20 controls the music playing module to stop playing the music tracks according to the electrical signal. Alternatively, the first trigger signal and the second trigger signal may be high level signals.

Alternatively, the processor 20 may be an Arduino development board, see the pin diagram of the Arduino development board shown in fig. 2E; and the pressure sensor 30 may be a piezo-resistor, see the pin diagram of the piezo-resistor shown in fig. 2B; the vibration motor model number is 1027, see the pin diagram of the vibration motor shown in fig. 2C; the model of the timer 40 may be DS3231, see the pin diagram of the DS3231 of the chip shown in fig. 2A; the infrared sensor 70 may be model VS1838B, see the pin diagram of chip VS1838B shown in fig. 2D; the music playing device 60 may be a conventional MP3 player, see the pin diagram of the MPC player shown in fig. 2F.

The a0 terminal of the Arduino development board in fig. 2F is electrically connected to the a0 terminal of the varistor in fig. 2B for receiving the high level signal transmitted by the varistor, and the SCL terminal is electrically connected to the SCL terminal of the timer 40 for receiving the high level signal input by the timer 40; the electrical connection of the SDA port to the SDA port of the timer 40 is conventional and is not the focus of the present embodiment and thus will not be described herein. This application adopts two vibrating motors, is connected with 2 electricity of output of the Arduino development board in fig. 2F respectively. The ports 1-13 of the Arduino development board are all output ports, and specific execution instructions can be set by workers. In the present embodiment, 2 ports are electrically connected to the vibration motor, and 5-7 ports, 9, 10, 12 and 13 ports are electrically connected to different input ports of the music playing device 60, respectively, and each port is used for transmitting one or more songs. The specific setting can also be set according to the actual situation, and is not described more here. The port 11 is electrically connected with an output port of the infrared sensor 70, so that the infrared sensor 70 converts a remote sensing signal transmitted by a user through external remote sensing equipment into an electric signal and transmits the electric signal to the Arduino development board. So that the Arduino development board switches music tracks according to the electric signals and transmits the switched music tracks to the music playing module for playing; or controlling the music playing module to stop playing music according to the electric signal. The Arduino development board allows for externally embedded memory cards in which the user's favorite music may be stored. In addition, the figure also shows that all components are grounded or powered by 5V respectively, which is a conventional technique, so the figure only shows symbols of grounded or powered to explain that in the actual implementation process, grounding or powering by 5V is required according to the symbols in the figure, and the description is not repeated here.

The embodiment of the utility model provides a pair of intelligence awakens pillow up, including treater, pressure sensor, time-recorder and reminding device in this intelligence awakens pillow up. When the processor receives a first trigger signal and a second trigger signal which are respectively sent by the timer and the pressure sensor in sequence within a first preset time, the current moment is indicated, and the user is rested on the intelligent pillow. At this time, the processor can instruct the reminding device to send out a reminding signal for reminding the user to get up. For example, the motor vibrates, the music playing module plays music, etc. to remind the user to get up. If the intelligent awakening pillow detects that the user is rested on the pillow again within the second preset time, the reminding device works again to remind the user to get up. By the mode, the user can be helped to change the habit of leaning to the bed so as to avoid delaying more important things.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (6)

1. The utility model provides an intelligence awakens pillow which characterized in that, intelligence awakens pillow and includes: the pillow comprises a pillow body, a processor, a pressure sensor, a timer and a reminding device, wherein the processor, the pressure sensor, the timer and the reminding device are arranged in the pillow body, and the pressure sensor, the timer and the reminding device are all electrically connected with the processor;

the timer is used for generating a first trigger signal to the processor when the preset time is reached;

the pressure sensor is used for generating a second trigger signal to the processor when detecting that the user is rested on the intelligent awakening pillow;

the processor is used for generating an indication instruction and sending the indication instruction to the reminding device if the first trigger signal and the second trigger signal are received within a first preset time;

the reminding device sends out a reminding signal according to the indication instruction so as to remind a user to get up;

the processor is further configured to, when it is determined that the first trigger signal and the second trigger signal are received within a first preset time after the indication instruction is generated within a second preset time, generate the indication instruction again, and send the indication instruction to the reminding device, so that the reminding device sends out a reminding signal again according to the indication instruction to remind the user of getting up, where the first preset time is a subset of the second preset time;

the processor is an Arduino development board; the model of the timer is DS 3231; the A0 end of the Arduino development board is electrically connected with the A0 end of the piezoresistor and used for receiving the high-level signal transmitted by the piezoresistor, and the SCL end of the Arduino development board is electrically connected with the SCL end of the timer and used for receiving the high-level signal input by the timer; the SDA port is electrically connected with the SDA port of the timer;

the reminding device comprises a vibration motor, and the indication instruction comprises a first indication instruction;

the vibration motor is used for sending a vibration signal according to the first indication instruction so as to remind the user of getting up.

2. The smart wake-up pillow of claim 1, wherein the number of vibration motors comprises at least one.

3. The smart wake-up pillow according to any of the claims 1-2, wherein the reminder device further comprises: the music playing device, the instruction further includes; the second instruction, the said music playing device is electrically connected with the said processor;

the music play device is used for playing preset music tracks according to the second indication instruction so as to remind the user to get up, wherein the processor is electrically connected with the external storage device, and the preset music tracks are called from the external storage device by the processor.

4. The smart wake-up pillow according to claim 3, further comprising: the infrared sensor is electrically connected with the processor and is used for receiving remote sensing signals sent by an external remote control device;

converting the remote sensing signal into an electric signal and sending the electric signal to the processor, so that the processor switches music tracks according to the electric signal and transmits the switched music tracks to the music playing module for playing;

or the processor controls the music playing module to stop playing music tracks according to the electric signal.

5. The smart wake-up pillow according to any of the claims 1-2 or 4, wherein the pressure sensor is a piezo-resistor.

6. The smart wake-up pillow according to any one of claims 1-2 or 4, wherein the first trigger signal and the second trigger signal are both high level signals.

Images