CN210377065U

CN210377065U - Intelligent alarm clock with graded reminding function

Info

Publication number: CN210377065U
Application number: CN201920860247.9U
Authority: CN
Inventors: 刘一明
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-06-06
Filing date: 2019-06-06
Publication date: 2020-04-21
Anticipated expiration: 2029-06-06

Abstract

The utility model relates to an intelligent alarm clock with graded reminding, a timing button of the alarm clock is connected with a microcontroller, receives the timing time of a user and sends the timing time to the microcontroller; the microcontroller receives the timing time, judges whether the timing time is the same as the current time or not, generates an alarm clock triggering instruction when the timing time is the same as the current time, and triggers the alarm clock reminding structure to carry out getting-up reminding within preset time; the hierarchical alarm clock reminding substructure is connected with the microcontroller, receives a hierarchical alarm clock triggering instruction and carries out sound hierarchical reminding; the light reminding substructure is connected with the microcontroller, receives a light gradual change reminding trigger instruction and carries out light gradual change reminding within preset time; the user is gradually reminded by sound through the graded alarm reminding substructure, so that the influence on the body health of the user is reduced; the gradual change of light reminds eyes of a user to adapt gradually when the user just wakes up, reduces visual stimulation to the user, makes the alarm clock more intelligent, and realizes the purpose of enriching the alarm clock and reminding the user of getting up.

Description

Intelligent alarm clock with graded reminding function

Technical Field

The utility model relates to an electronic equipment's alarm clock technical field, concretely relates to intelligent alarm clock of hierarchical warning.

Background

The alarm clock is a clock with a time-alarming device, and can indicate time and give out sound for reminding according to the preset time of a user by arranging an alarm clock setting module inside the alarm clock. However, the traditional alarm clock can only carry out sound reminding in reminding a user to get up, the alarm clock reminds the user to get up in a single mode, the sound reminding volume is large when the user is not awake, stimulation is easily caused to the brain of the user, the body health of the user is not facilitated, and the practicability of the alarm clock is poor.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at overcoming the not enough of prior art, providing a hierarchical intelligent alarm clock of reminding, solved current alarm clock and can only carry out sound and remind, the form that the alarm clock reminded the user to get up is single, and the alarm clock sound is big when the user is not sobried up, and is unfavorable for that the user is healthy, problem that the practicality is poor.

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

an intelligent alarm clock of hierarchical warning includes: a timing key, an alarm clock reminding structure and a microcontroller;

the alarm clock reminding structure comprises: a hierarchical alarm alert substructure and a light alert substructure;

the timing key is connected with the microcontroller and used for receiving timing operation of a user to obtain timing time and sending the timing time to the microcontroller; a current time acquisition module is arranged in the microcontroller and used for acquiring current time;

the microcontroller is used for receiving the timing time, judging whether the timing time is the same as the current time or not, generating an alarm clock triggering instruction when the timing time is the same as the current time, and triggering the alarm clock reminding structure to carry out getting-up reminding within a preset time; the alarm triggering instruction comprises: a step alarm triggering instruction and a light reminding triggering instruction;

the hierarchical alarm clock reminding substructure is connected with the microcontroller and is used for receiving the hierarchical alarm clock triggering instruction and carrying out sound hierarchical reminding within the preset time;

the lamplight reminding substructure is connected with the microcontroller and used for receiving the lamplight gradual change reminding triggering instruction and carrying out lamplight gradual change reminding within the preset time.

Further, the alarm clock reminding structure further comprises: a fan assisted reminder substructure; the alarm triggering instruction further comprises: a fan reminding triggering instruction;

and the fan auxiliary reminding substructure is connected with the microcontroller and used for receiving the fan reminding triggering instruction and carrying out fan auxiliary blowing reminding within the preset time.

Further, the method also comprises the following steps: a switch key and an infrared sensor;

the switch key is connected with the microcontroller and used for generating an alarm turn-off instruction under the first operation of a user and sending the alarm turn-off instruction to the microcontroller;

the microcontroller is connected with the infrared sensor and used for generating an infrared detection instruction after receiving the alarm closing instruction and sending the infrared detection instruction to the infrared sensor so as to enable the infrared sensor to detect;

the infrared sensor is used for detecting whether a human body exists in a set sleep area or not after receiving the infrared detection instruction; if yes, generating a human body induction signal and sending the human body induction signal to the microcontroller;

the microcontroller is also connected with the alarm clock reminding structure and used for generating a continuous reminding signal after receiving the human body induction signal and sending the continuous reminding signal to the alarm clock reminding structure to enable the alarm clock reminding structure to remind a user of getting up.

Specifically, the hierarchical alarm alert substructure includes: a multimedia player, a buzzer and a voice player;

the multimedia player is connected with the microcontroller and is used for receiving a player playing instruction sent by the microcontroller and playing music within a first preset time to perform music reminding; the player playing instruction is generated by the microcontroller when the timing time is the same as the current time of the system;

the buzzer is connected with the microcontroller and used for receiving a buzzer reminding instruction sent by the microcontroller and carrying out buzzer reminding within a second preset time; the buzzer reminding instruction is generated by the microcontroller under the condition that the alarm closing instruction is not received after the multimedia player stops playing music;

the voice player is connected with the microcontroller and is used for receiving the voice reminding instruction sent by the microcontroller and playing voice information within a third preset time to carry out voice reminding; the voice reminding instruction is generated by the microcontroller under the condition that the alarm closing instruction is not received after the buzzer stops buzzing reminding.

Further, the method comprises the following steps: the volume of the buzzer reminding and the volume of the voice reminding are both larger than the volume of the music reminding.

Specifically, the light warning substructure includes: the lamp comprises a first lamp tube, a second lamp tube and a third lamp tube; the light reminding triggering instruction comprises the following steps: a first light signal, a second light signal and a third light signal; the preset time includes: the method comprises the steps of firstly, presetting a first preset time, presetting a second preset time and presetting a third preset time;

the first lamp tube is connected with the microcontroller and used for receiving the first light signal and lighting up within the first preset time;

the second lamp tube is connected with the microcontroller and used for receiving the second light signal and lighting up within the second preset time; the second light signal is generated by the microcontroller under the condition that the alarm closing instruction is not received after the first lamp tube is turned off;

the third lamp tube is connected with the microcontroller and used for receiving the third light signal and lighting up within the third preset time; the third light signal is generated by the microcontroller when the alarm turn-off instruction is not received after the second lamp tube is turned off.

Specifically, the auxiliary fan reminding substructure comprises: the temperature sensor, the fan body, the power supply controller and the semiconductor refrigerator;

the temperature sensor is connected with the microcontroller and used for starting to detect the current temperature value of the environment where the alarm clock is located after receiving the fan reminding triggering instruction and sending the current temperature value to the microcontroller;

the microcontroller is also connected with the power supply controller and is used for receiving the current temperature value, comparing the current temperature value with a preset hot air temperature threshold value and a preset cold air temperature threshold value respectively, and generating a hot air signal and sending the hot air signal to the power supply controller if the current temperature value is lower than the preset hot air temperature threshold value; if the current temperature value is higher than the preset cold air temperature threshold value, generating a cold air signal and sending the cold air signal to the power supply controller;

the power supply controller is connected with the semiconductor refrigerator and is used for receiving the hot air signal and then connecting with a high-temperature end of the semiconductor refrigerator to enable the semiconductor refrigerator to radiate heat, or receiving the cold air signal and then connecting with a low-temperature end of the semiconductor refrigerator to enable the semiconductor refrigerator to absorb heat;

the fan body is connected with the power supply controller and used for rotating within the preset time after receiving a starting signal of the power supply controller so as to blow air; if the semiconductor refrigerator emits heat, the fan body blows hot air, and if the semiconductor refrigerator absorbs heat, the fan body blows cold air; the starting signal is generated after the power controller receives the cold air signal or the hot air signal.

Further, the preset cold air temperature threshold is 30 ℃; the preset hot air temperature threshold is 15 ℃.

Further, the method also comprises the following steps: a daily setting module and a daily voice player;

the daily setting module is connected with the microcontroller and used for generating daily setting information under the second operation of a user and sending the daily setting information to the microcontroller; the daily setting information includes: setting time and plan;

the microcontroller is also connected with the daily voice player and is used for converting the daily setting information into daily setting voice information and sending the daily setting voice information to the daily voice player after receiving the daily setting information;

and the daily voice player is used for receiving the daily set voice information and then carrying out voice broadcast reminding.

Further, the method also comprises the following steps: the Bluetooth module is connected with the microcontroller;

the microcontroller is connected with the mobile terminal in a matching mode through the Bluetooth module and receives a remote control instruction sent by the mobile terminal.

The technical scheme provided by the application can comprise the following beneficial effects:

the application includes: regularly button, alarm clock remind structure and microcontroller, the alarm clock reminds the structure to include: a hierarchical alarm alert substructure and a light alert substructure; the timing key is connected with the microcontroller, receives timing operation of a user, obtains timing time, and sends the timing time to the microcontroller; a current time acquisition module is arranged in the microcontroller and used for acquiring current time; the microcontroller is connected with the alarm clock reminding structure, receives the timing time, judges whether the timing time is the same as the current time or not, generates an alarm clock triggering instruction when the timing time is the same as the current time, and triggers the alarm clock reminding structure to carry out getting-up reminding within a preset time; the alarm triggering instruction comprises the following steps: a step alarm triggering instruction and a light reminding triggering instruction; the graded alarm clock reminding substructure is connected with the microcontroller, receives a graded alarm clock triggering instruction and carries out sound graded reminding within preset time; and the lamplight reminding substructure is connected with the microcontroller, receives a lamplight gradual change reminding trigger instruction, and carries out lamplight gradual change reminding within preset time. Above-mentioned remind the substructure through hierarchical alarm clock and make the user receive the warning of sound gradually when getting up, reduced the sound that the user received when not being awake and reminded amazing, reduced the influence to the healthy of user, light reminds the substructure to make the user just can adapt to gradually when waking up eyes, reduces the visual stimulation to the user, has realized richening the purpose that the alarm clock reminded the user form of getting up, has strengthened the practicality of alarm clock.

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 is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent alarm clock with a hierarchical reminding function according to a first embodiment of the present invention;

fig. 2 is another schematic structural diagram of an intelligent alarm clock with a hierarchical reminding function according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a hierarchical reminding intelligent alarm clock provided in this embodiment two.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Fig. 1 is a schematic structural diagram of an intelligent alarm clock with a hierarchical reminding function according to an embodiment of the present invention.

As shown in fig. 1, the present embodiment includes:

a timing key 101, an alarm clock reminding structure and a microcontroller 102;

the timing key 101 is connected with the microcontroller 102 and used for receiving timing operation of a user, obtaining timing time and sending the timing time to the microcontroller 102; a current time acquisition module is arranged in the microcontroller 102 and used for acquiring current time; the timing time is the time set by the user for reminding when the user needs to get up, for example, if the user wants to get up at seven o ' clock in the morning, the timing time of the alarm clock is set to 7 o ' clock through the timing button 101, and the timing time of 7 o ' clock is sent to the microcontroller 102.

The microcontroller 102 is configured to receive a timing time, determine whether the timing time is the same as a current time, generate an alarm triggering instruction when the timing time is the same as the current time, and trigger an alarm reminding structure to remind a user of getting up within a preset time; the alarm triggering instruction comprises the following steps: a step alarm triggering instruction and a light reminding triggering instruction; the preset time is the time for the alarm clock reminding structure in the microcontroller 102 to get up.

The alarm clock reminding structure comprises: a hierarchical alarm alert substructure 103 and a light alert substructure 104; the graded alarm clock reminding substructure 103 is connected with the microcontroller 102 and is used for receiving a graded alarm clock triggering instruction and carrying out sound graded reminding within a preset time;

and the light reminding substructure 104 is connected with the microcontroller 102 and is used for receiving a light gradual change reminding triggering instruction and carrying out light gradual change reminding within a preset time.

Microcontroller 102 can adopt the singlechip of AT89S51 model, is equipped with clock module in, can be used for acquireing current time to be provided with timing structure, this timing structure is connected with clock module, is used for timing clock module, has and can control the alarm clock and remind the structure, reminds the function that substructure 103 and light were reminded to hierarchical alarm clock and send control command to substructure 104. The function of sending the control instruction through the microcontroller is the function in the prior art, which is not described in detail herein, and the microcontroller may be selected as any type as long as the function of sending the control instruction can be realized.

The timing button is connected with the microcontroller and used for receiving the timing time of a user and sending the timing time to the microcontroller; the microcontroller is used for receiving the timing time, judging whether the timing time is the same as the current time or not, generating an alarm clock triggering instruction when the timing time is the same as the current time, and triggering the alarm clock reminding structure to carry out getting-up reminding within preset time; the alarm triggering instruction comprises the following steps: a step alarm triggering instruction and a light reminding triggering instruction; the graded alarm clock reminding substructure is connected with the microcontroller and is used for receiving a graded alarm clock triggering instruction and carrying out sound graded reminding within preset time; the light reminding substructure is connected with the microcontroller and is used for receiving a light gradual change reminding triggering instruction and carrying out light gradual change reminding within preset time; above-mentioned remind the substructure through hierarchical alarm clock and make the user receive the warning of sound gradually when getting up, reduced the sound that the user received when not being awake and reminded amazing, reduced the influence to the healthy of user, and light gradual change is reminded and is made the user just can adapt to gradually when waking up, reduces the visual stimulation to the user, has realized the purpose that richen alarm clock reminded the user form of getting up.

Further, fig. 2 is another schematic structural diagram of the intelligent alarm clock with a hierarchical reminding function according to an embodiment of the present invention. As shown in fig. 2, the present embodiment includes:

a timing key 101, a hierarchical alarm reminding substructure 103, a light reminding substructure 104 and a microcontroller 102; the timing key 101, the graded alarm reminding substructure 103 and the light reminding substructure 104 are respectively connected with the microcontroller 102;

the alarm clock reminding structure further comprises: a fan assisted reminder substructure 105; the alarm triggering instruction further comprises: a fan reminding triggering instruction; and the fan auxiliary reminding substructure 105 is connected with the microcontroller 102 and is used for receiving a fan reminding triggering instruction and carrying out fan auxiliary blowing reminding within a preset time. The preset time comprises a first preset time, a second preset time and a third preset time;

the hierarchical alarm reminder substructure 103 includes: a multimedia player 1031, a buzzer 1032, and a voice player 1033;

specifically, the multimedia player 1031 is connected to the microcontroller 102, and is configured to receive a player playing instruction of the microcontroller 102, and play music within a first preset time to perform music reminding;

after receiving a player playing instruction generated when the timing time is the same as the current system time by the microcontroller 102, the multimedia player 1031 starts playing music, the time for playing the music by the multimedia player 1031 is set to be within a first preset time, for example, the first preset time may be 30 seconds, or may be 1 minute, the playing is stopped after the first preset time, the multimedia player 1031 sends a music stop signal to the microcontroller 102, and if the microcontroller 102 does not receive an alarm turn-off instruction within the first preset time, a buzzer reminding instruction is generated after receiving the music stop signal, and the buzzer reminding instruction is sent to the buzzer 1032; or the microcontroller 102 generates a player playing instruction when the timing time is the same as the current system time, and sends the player playing instruction to the multimedia player 1031, and if the microcontroller 102 does not receive the alarm closing instruction within the first preset time, the microcontroller 102 generates a music closing instruction and a buzzer reminding instruction, sends the music closing instruction to the multimedia player 1031, stops playing by the multimedia player 1031, and sends the buzzer reminding instruction to the buzzer 1032.

The buzzer 1032 is connected with the microcontroller 102 and is used for receiving a buzzer reminding instruction sent by the microcontroller 102 and carrying out buzzer reminding within a second preset time; the buzzer reminding instruction is generated by the microcontroller 102 under the condition that the multimedia player 1031 does not receive the alarm turn-off instruction after stopping playing music;

the voice player 1033 is connected with the microcontroller 102, and is configured to receive the voice reminding instruction sent by the microcontroller 102, and play the voice information within a third preset time to perform voice reminding; the voice alert instruction is generated by the microcontroller 102 after the buzzer 1032 stops the beep alert, without receiving an alarm turn-off instruction. The multimedia player 1031 and the voice player 1033 may be any type of player as long as they can play music and play voice information and functions.

The volume of the multimedia player 1031 and the volume of the buzzer 1032 are both greater than the volume of the voice player 1033.

Triggering the hierarchical alarm alert substructure 103 when the current time in the microcontroller 102 is consistent with the timing time set by the user; the hierarchical alarm reminder sub-structure 103 includes a multimedia player 1031, a buzzer 1032 and a voice player 1033; firstly, the multimedia player 1031 responds first, music is played within a first preset time, the volume of the music played by the multimedia player 1031 is between 10 decibels and 75 decibels, the played music is soothing music and is stopped playing after the first preset time, and the microcontroller 102 generates a buzzer reminding instruction under the condition that an alarm closing instruction is not received after the multimedia player 1031 stops playing the music; sending a buzzer reminding instruction to a buzzer 1032, controlling the buzzer 1032 to sound a buzzing sound within a second preset time, and carrying out buzzing reminding, wherein the volume of the buzzing sound is more than 75 decibels under a normal condition and is harsh for a human body; after the second preset time, the buzzer 1032 stops the buzzer sound reminding, the microcontroller 102 generates a voice reminding instruction after the second preset time, sends the voice reminding instruction to the voice player 1033, and drives the voice player 1033 to play voice information within a third preset time to perform voice reminding. The first preset time, the second preset time and the third preset time are all any time, and a user can adjust and set the preset time according to the self requirement.

The volume of the voice information played by the voice player is over 75 decibels, and the voice information is the voice information which is self-defined and input by the user in advance according to the self requirement, comprises the voice of parents or the voice of a team leader or other voices and is used for increasing greater stimulation to the user when the user gets up and wakes up.

The music played by the multimedia player 1031 is set to be soft and comfortable music with sound decibel between 10 decibel and 75 decibel, the multimedia player 1031 gives a lower sound stimulus with lower decibel to a user firstly, then the buzzer 1032 plays the buzzer sound for buzzing reminding, the sound decibel of the buzzer sound is set to be more than 75 decibel, and the sound stimulus to the user is gradually enhanced when the user gets up; and after buzzer 1032 reminds, voice player 1033 plays voice information for voice reminding, sets the voice information as the voice of parents or the chief and the chief, and sets the sound decibel of the voice information above 75 decibels, thereby increasing larger sound stimulation and psychological stimulation to the user.

Setting the playing sound decibel of the multimedia player 1031 to be between 10 decibels and 75 decibels, setting the sound decibel of the buzzer 1032 to be more than 75 decibels, and setting the sound decibel of the voice player 1033 to be more than 75 decibels are initialization sound decibels, and the playing volume of the buzzer 1032 and the voice player 1033 is greater than the sound decibel of the multimedia player 1031; the volume of the multimedia player, the volume of the buzzer and the volume of the voice player in the hierarchical alarm reminding substructure 103 can be any decibel, and can be within a sound decibel range safely accepted by human ears.

If any one of the hierarchical alarm reminding substructures 103 is in sound hierarchical reminding and the microcontroller 102 receives an alarm closing instruction, the hierarchical alarm reminding substructures 103 immediately receives a stop instruction of the microcontroller 102 and stops playing.

The light alert substructure 104 specifically includes: a first lamp tube 1041, a second lamp tube 1042, and a third lamp tube 1043; the light reminding triggering instruction comprises the following steps: a first light signal, a second light signal and a third light signal;

the first lamp tube 1041, connected to the microcontroller 102, for receiving the first light signal to light up;

the second lamp 1042, connected to the microcontroller 102, is configured to receive a second light signal to light up after the first lamp 1041 lights up for a first preset time; the second light signal is generated by the hierarchical alarm reminding substructure 103 when the alarm closing instruction is not received after the first lamp 1041 is lit for the first preset time;

the third lamp 1043, connected to the microcontroller 102, for receiving a third light signal to light up after the second lamp 1042 lights up for a second preset time; the third light signal is generated by the hierarchical alarm reminding substructure 103 when the alarm closing instruction is not received after the second lamp 1042 is lit for a second preset time.

The hierarchical alarm reminding substructure 103 performs sound hierarchical reminding, and the light reminding substructure 104 performs light gradual reminding at the same time. When the current time in the microcontroller 102 is consistent with the timing time set by the user, a light reminding trigger instruction is generated, the light reminding substructure 104 is triggered to carry out light gradual reminding, the first lamp tube 1041 lights up after receiving the first light signal, if the microcontroller 102 does not receive an alarm turn-off instruction after the first lamp tube 1041 lights up for a first preset time, a second light signal is generated, the second light signal is sent to the second lamp tube 1042, the second lamp tube 1042 lights up after receiving the second light signal, and after the second lamp tube 1042 lights up for a second preset time, the microcontroller 102 generates a third light signal under the condition that the alarm turn-off instruction is not received, the third light signal is sent to the third lamp tube 1043, the third lamp tube 1043 lights up after receiving the third light signal, so that the lamp tubes gradually light up from one to all gradually, the light gradually increases, so that the user gradually adapts to the stimulation of light in the process of gradually waking, avoid the uncomfortable feeling of eyes caused by strong light stimulation generated by direct and whole lamp tube irradiation. The first lamp 1041, the second lamp 1042 and the third lamp 1043 are all light emitting diodes.

The light reminding sub-structure 104, in addition to the above, connects the first lamp 1041, the second lamp 1042 and the third lamp 1043 in parallel, the first lamp 1041 receives the first light signal to light up, the second lamp 1042 receives the second light signal to light up after the first preset time, the third lamp 1043 receives the third light signal to light up after the second preset time, and one or more lighting modes are gradually and completely lit up, the user can select the light alternative lighting mode according to the user's own requirement, for example, the first lamp 1041 is connected in series with the second lamp 1042 and then connected in parallel with the third lamp 1043, the lamps are alternately connected, the first lamp 1041 and the second lamp 1042 receive the first light signal to light up, the first lamp 1041 and the second lamp 1042 are turned off after the first preset time, the third lamp 1043 receives the second light signal to light up, the first lamp 1041, the second lamp 1042, the second lamp 1041, the second lamp 1042, the third lamp 1043 receives the second light signal to light up, the first lamp, The third lamp 1043 lights up simultaneously after receiving the signal of the third lamp 1043, thereby achieving the effect of gradually lighting up the light. If the microcontroller 102 receives the alarm turn-off command during the lighting of the light reminding substructure 104, the light reminding substructure 104 immediately receives the alarm turn-off command, stops lighting and turns off all the alarms.

The alarm clock reminding structure further comprises, besides the hierarchical alarm clock reminding substructure 103 and the light reminding substructure 104: a fan assisted reminder substructure 105; the alarm triggering instruction further comprises: a fan reminding triggering instruction;

and the fan auxiliary reminding substructure 105 is connected with the microcontroller 102 and is used for receiving a fan reminding triggering instruction and carrying out fan auxiliary blowing reminding within a preset time.

The fan-assisted reminder substructure 105 specifically includes: a temperature sensor 1051, a fan body 1052, a power controller 1053 and a semiconductor refrigerator 1054;

the temperature sensor 1051 is connected with the microcontroller 102 and used for starting to detect the current temperature value of the environment where the alarm clock is located after receiving the fan reminding triggering instruction and sending the current temperature value to the microcontroller 102;

the microcontroller 102 is further connected with the power controller 1053, and is configured to receive the current temperature value, compare the current temperature value with a preset hot air temperature threshold and a preset cold air temperature threshold, and generate a hot air signal to be sent to the power controller 1053 at a preset time if the current temperature value is lower than the preset hot air temperature threshold; if the current temperature value is higher than a preset cold air temperature threshold value, generating a cold air signal and sending the cold air signal and preset time to the power controller 1053; the preset cold air temperature threshold is 30 ℃, and the preset hot air temperature threshold is 15 ℃.

The power supply controller 1053 is connected with the semiconductor refrigerator 1054 and is used for connecting the high-temperature end of the semiconductor refrigerator 1054 after receiving a hot air signal to enable the semiconductor refrigerator 1054 to radiate heat, or connecting the low-temperature end of the semiconductor refrigerator 1054 after receiving a cold air signal to enable the semiconductor refrigerator 1054 to absorb heat;

the fan body 1052 is connected with the power controller 1053 and used for rotating air blowing within a preset time after receiving an opening signal of the power controller 1053; if the semiconductor refrigerator 1054 emits heat, the fan main body 1052 blows out hot air, and if the semiconductor refrigerator 1054 absorbs heat, the fan main body 1052 blows out cold air; if the semiconductor refrigerator 1054 is not operated, i.e. neither the high temperature side nor the low temperature side is connected, the fan body 1052 directly rotates to blow air; the start signal is generated by the power controller 1053 receiving the cool air signal or the warm air signal, and is sent to the fan body 1052, and the fan body 1052 responds. If the microcontroller 102 receives the alarm turn-off instruction while the fan auxiliary reminding substructure 105 is performing the fan blowing reminding, the fan auxiliary reminding substructure 105 immediately receives the stop instruction of the microcontroller 102 to stop the blowing reminding.

When the current time in the microcontroller 102 is consistent with the timing time set by the user, a fan reminding trigger instruction is generated, the fan auxiliary reminding substructure 105 is triggered to perform fan auxiliary blowing reminding, and the fan auxiliary reminding substructure 105 specifically includes: a temperature sensor 1051, a fan body 1052, a power controller 1053 and a semiconductor refrigerator 1054; temperature sensor 1051 is connected with microcontroller 102, after temperature sensor 1051 receives microcontroller 102's fan warning trigger command, detect the temperature of the environment that is located at present, detect and obtain current temperature value, send the current temperature value that obtains that detects to microcontroller 102, microcontroller 102 is connected with power supply controller 1053, power supply controller 1053 specifically includes fan relay and external power supply, fan relay is connected with microcontroller 102 and semiconductor cooler 1054 respectively, semiconductor cooler 1054 is connected with external power supply. The microcontroller 102 receives a current temperature value detected by the temperature sensor 1051, compares the current temperature value with a preset hot air temperature threshold, and if the current temperature value is lower than the preset hot air temperature threshold, the microcontroller 102 generates a hot air signal and sends the hot air signal to the power supply controller 1053, wherein the hot air signal is used for controlling the fan relay to be connected with a high temperature end of the semiconductor refrigerator 1054, so that the semiconductor refrigerator 1054 is connected with an external power supply when the second lamp tube 1042 is lighted or the buzzer 1032 buzzes for reminding, and heat is dissipated; if the current temperature value is not lower than the preset hot air temperature threshold value, comparing the current temperature value with the preset cold air temperature threshold value, if the current temperature value is higher than the preset cold air temperature threshold value, generating a cold air signal by the microcontroller 102, and sending the cold air signal to the power supply controller 1053, wherein the cold air signal is used for controlling a fan relay in the power supply controller 1053 to be connected with the low temperature end of the semiconductor refrigerator 1054, so that the semiconductor refrigerator 1054 is connected with an external power supply to absorb heat when the second lamp tube 1042 is lighted or the buzzer 1032 buzzes for reminding; if the fan relay does not receive the hot air signal or the cold air signal, the fan relay does not act.

The fan body 1052 is connected with an external power supply, when the second lamp tube 1042 is lighted or the buzzer 1032 buzzes to remind, the fan body 1052 is powered on, the fan body 1052 rotates to blow air, when the semiconductor refrigerator 1054 radiates heat, the fan body 1052 blows hot air, when the semiconductor refrigerator 1054 absorbs heat, the fan body 1052 blows cold air, if the fan relay does not act, the semiconductor refrigerator 1054 neither radiates heat nor absorbs heat, and the fan body 1052 only rotates to blow air.

The preset cold air temperature threshold of the embodiment is set to be 30 ℃; the preset hot air temperature threshold is set to be 15 ℃, a temperature adjusting button is further arranged in the microcontroller 102 and used for adjusting the preset cold air temperature threshold and the preset hot air temperature threshold in the microcontroller, and a user can perform self-defined setting on the preset cold air temperature threshold and the preset hot air temperature threshold. Above-mentioned remind 105 to blow through the fan is supplementary to remind, makes the user receive hierarchical warning of sound of reminding the substructure of hierarchical alarm clock and the fluorescent tube gradual change of light warning substructure 104 and reminds simultaneously, and the fan is supplementary to blow hot-blast or blow cold wind, increases the stimulation to the user, makes it clear-headed faster, provides more comfortable environment of getting up for the user simultaneously.

In the embodiment, the grading alarm reminding substructure, the light reminding substructure and the fan auxiliary reminding substructure are respectively connected with the microcontroller, and the grading alarm reminding substructure receives a grading alarm triggering instruction of the microcontroller to carry out sound grading reminding; the graded alarm reminding substructure adopts a multimedia player, a buzzer and a voice player, the music played by the multimedia player is low-decibel relaxing music, the buzzing sound emitted by the buzzer and the voice sound played by the voice player are decibels higher than the music played by the multimedia player, the stimulation to a user is gradually increased from low decibel to high decibel, the strong stimulation caused by larger sound to the user when the user is not awake is avoided, and the influence on the body health of the user is reduced; the light reminding substructure receives a light gradual change reminding trigger instruction of the microcontroller and carries out light gradual change reminding, and the light reminding substructure adopts a connection structure that a first lamp tube, a second lamp tube and a third lamp tube are connected in parallel to carry out gradual change lightening or a connection structure that the lamp tubes are alternated to control, so that the light reminding substructure reminds a user of more diversified and intelligentized connection structures; and hierarchical alarm clock substructure reminds and the lamp tube gradual change of light warning substructure in sound level by level when reminding, and the supplementary substructure of reminding of fan is connected with microcontroller, receives microcontroller's fan and reminds trigger instruction, and the fan that assists blows hot-blast or blows cold wind according to ambient temperature, increases the stimulation to the user, makes the user clear-headed more fast, and more intelligent simultaneously provides more comfortable environment of getting up for the user.

Example two

As shown in fig. 3, the present embodiment includes:

a switch button 206, an infrared sensor 207, a timing button 201, an alarm clock reminding structure and a microcontroller 202; the alarm clock reminding structure comprises: a hierarchical alarm alert substructure 203 and a light alert substructure 204, and a fan assisted alert substructure 205;

the timing key 201 is connected with the microcontroller 202, receives timing operation of a user, obtains timing time, and sends the timing time to the microcontroller 202; a current time acquisition module is arranged in the microcontroller 202 to acquire current time; the microcontroller 202 receives the timing time, judges whether the timing time is the same as the current time, generates an alarm triggering instruction when the timing time is the same as the current time, and triggers the alarm reminding structure to carry out getting-up reminding within a preset time; the alarm triggering instruction comprises the following steps: a graded alarm triggering instruction, a light reminding triggering instruction and a fan reminding triggering instruction; the graded alarm clock reminding substructure 203 is connected with the microcontroller 202, receives a graded alarm clock triggering instruction and carries out sound graded reminding within preset time; the light reminding substructure 204 is connected with the microcontroller 202, receives a light gradual change reminding triggering instruction, and carries out light gradual change reminding within a preset time; the fan auxiliary reminding substructure 205 is connected with the microcontroller 202, receives a fan reminding triggering instruction, and performs fan auxiliary blowing reminding within a preset time.

The switch button 206 is connected with the microcontroller 202 and is used for generating an alarm turn-off instruction under a first operation of a user and sending the alarm turn-off instruction to the microcontroller 202;

the microcontroller 202 is connected with the infrared sensor 207 and is used for generating an infrared detection instruction after receiving the alarm closing instruction and sending the infrared detection instruction to the infrared sensor 207 so that the infrared sensor 207 can detect the alarm;

the infrared sensor 207 is used for detecting whether a human body exists in a set sleep area or not after receiving an infrared detection instruction; if yes, generating a human body induction signal and sending the human body induction signal to the microcontroller 202;

the infrared sensor 207, through the infrared reflection principle, when a hand or a part of a body of a human body is in a set sleep area, because the human body has a temperature, infrared rays can be radiated, an infrared signal sent by the infrared sensor 207 irradiates the human body, because the human body has a temperature, infrared rays are radiated, after the infrared rays sent by the infrared sensor 207 sense the radiation infrared rays sent by the human body, when the infrared rays sent by the infrared sensor 207 reflect back to the infrared sensor 207, the temperature of the infrared rays reflected back to the infrared sensor 207 can be increased, a human body sensing signal is generated, and the human body sensing signal is sent to the microcontroller 202 for processing.

Microcontroller 202 is connected with alarm clock and reminds the structure, and microcontroller 202 is after receiving human body induction signal, and the generation continues to remind the signal to alarm clock reminds the structure, makes alarm clock remind the structure and continue to remind of getting up.

Microcontroller 202 also adopts the singlechip of AT89S51 model, the singlechip of AT89S51 model has integrateed the general central processing unit that has data processing ability, can receive infrared sensor signal, processing such as conversion and sending, microcontroller carries out data processing and control to the sensor signal and is current technique, do not give unnecessary details here one by one, and the microcontroller model of adoption is not unique, also can adopt the singlechip of AT89C51 model, as long as can carry out data processing and the singlechip of controller to infrared sensor signal all can.

This embodiment still includes: a daily setting module and a daily voice player;

the daily setting module is connected with the microcontroller 202 and used for generating daily setting information under the second operation of the user, wherein the daily setting information comprises daily setting time and a daily setting plan and is sent to the microcontroller 202; the microcontroller 202 is connected with the daily voice player, and after receiving the daily setting information, the microcontroller 202 converts the daily setting plan into the daily setting voice information and sends the daily setting voice information to the daily voice player after the daily setting time; and the daily voice player receives daily set voice information and then carries out voice broadcast reminding.

The daily voice player is an external independent daily voice player, a hierarchical alarm clock can be adopted to remind the voice player in the substructure, the type of the voice player is not unique, and the function of receiving voice information playing can be realized.

The daily setting information includes: setting a learning plan; the set learning plan including the set learning subjects, such as learning language and learning english subjects, is input into the daily setting module, and the microcontroller 202 converts the set learning plan into voice information and sends the voice information to the daily voice player. For example, if the user plans to learn a language at8 o ' clock in the morning, the daily setting time is set to 8 o ' clock, the daily setting information is set to "learning language", the daily setting time is 8 o ' clock and the daily setting information "learning language" are sent to the microcontroller 202, the microcontroller 202 receives the daily setting time of 8 o ' clock and the daily setting information "learning language", converts the daily setting information "learning language" into daily setting voice information, and correspondingly, according to the verified daily setting time of 8 o ' clock, the daily setting voice information is sent to the daily voice player at8 o ' clock for playing, and the voice player broadcasts "master" at8 o ' clock, and the learning language "reminds the user of learning.

Further, the method also comprises the following steps: a bluetooth module 208 connected to the microcontroller 202;

the microcontroller 202 is connected with a bluetooth module 208, and the microcontroller 202 is connected with the mobile terminal in a pairing manner through the bluetooth module 208 to receive a remote control instruction sent by the mobile terminal. The remote control instructions may include: adjusting preset time, adjusting set music of the hierarchical alarm reminding substructure 203, adjusting set volume of the hierarchical alarm reminding substructure 203, and adjusting connection structure of the light reminding substructure 204.

In the embodiment, sound grading reminding is carried out through the grading alarm reminding substructure, light gradual reminding is carried out through the light reminding substructure, and fan auxiliary blowing reminding is carried out through the fan auxiliary reminding substructure; the switch key is connected with the microcontroller, and generates an alarm turn-off instruction under the first operation of a user and sends the alarm turn-off instruction to the microcontroller; the infrared sensor is used for detecting whether a human body exists in a set sleep area or not after receiving an infrared detection instruction of the microcontroller; if yes, generating a human body induction signal and sending the human body induction signal to the microcontroller; after receiving the human body induction signal, the microcontroller generates a continuous reminding signal and sends the continuous reminding signal to the alarm clock reminding structure, so that the alarm clock reminding structure can continue to remind people to get up. The alarm clock is used for carrying out sound grading reminding, light gradual change reminding and fan auxiliary blowing reminding on the user, and after the alarm clock reminding structure is closed by the user, whether a human body exists in a set sleep area is detected through the infrared sensor, so that whether the user really gets up is detected, and the alarm clock is more intelligent; after the infrared sensor detects a human body induction signal, namely, after a user does not really get up, the infrared sensor sends a continuous reminding signal to the alarm clock reminding structure through the microcontroller to control the alarm clock reminding structure to continue getting up for reminding, so that a better reminding effect is achieved, and the practicability of the alarm clock is improved; the microcontroller of the alarm clock is connected with the mobile terminal by adopting the Bluetooth module, so that the mobile terminal can remotely adjust and control the alarm clock, and the use of a user is facilitated; the alarm clock is further provided with a daily setting module, so that a user can set daily planning conveniently, and for students, the daily reminding of the learning of the students is facilitated, and the alarm clock is more humanized.

It is understood that the same or similar parts in the above embodiments may be mutually referred to, and the same or similar parts in other embodiments may be referred to for the content which is not described in detail in some embodiments.

It should be noted that, in the description of the present invention, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means at least two unless otherwise specified.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Although embodiments of the present invention have been shown and described, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art without departing from the scope of the present invention.

Claims

1. The utility model provides an intelligent alarm clock that hierarchical warning, its characterized in that includes: a timing key, an alarm clock reminding structure and a microcontroller;

the timing key is connected with the microcontroller and used for detecting the timing operation of a user so that the microcontroller determines the timing time based on the timing operation and generates a first trigger signal and a second trigger signal;

the graded alarm reminding substructure comprises a multimedia player, a buzzer and a voice player, and the lamplight reminding substructure comprises a first lamp tube, a second lamp tube and a third lamp tube;

the multimedia player, the buzzer and the voice player are respectively connected with the microcontroller and are used for receiving a first trigger signal of the microcontroller and carrying out sound grading reminding in a switching mode;

the first lamp tube, the second lamp tube and the third lamp tube are respectively connected with the microcontroller and used for receiving a second trigger signal of the microcontroller and carrying out gradual change reminding of lamplight in a switching mode.

2. The intelligent alarm clock with graded reminders of claim 1, wherein the alarm clock reminder structure further comprises: a fan assisted reminder substructure;

and the fan auxiliary reminding substructure is connected with the microcontroller and is used for receiving the control of the microcontroller to carry out fan auxiliary blowing reminding.

3. The intelligent alarm clock with graded reminding according to claim 1, further comprising: a switch key and an infrared sensor;

the switch key and the infrared sensor are respectively connected with the microcontroller, the switch key is used for receiving an alarm turn-off signal generated by the operation of a user, and the microcontroller triggers the infrared sensor to detect whether a human body exists in a set sleep area;

the alarm clock reminding structure is connected with the microcontroller and used for receiving a trigger continuous reminding signal generated when the microcontroller determines that the infrared sensor detects a human body to remind people to get up continuously.

4. The intelligent alarm clock with graded reminding according to claim 1, comprising: the volume reminded by the buzzer and the volume of the voice player are both larger than the volume reminded by the multimedia player.

5. A smart alarm clock with graduated reminders according to claim 2 wherein the fan assisted reminder substructure comprises: the temperature sensor, the fan body, the power supply controller and the semiconductor refrigerator;

the microcontroller is also connected with the power supply controller and is used for receiving the current temperature value, comparing the current temperature value with a preset hot air temperature threshold value and a preset cold air temperature threshold value respectively, and if the current temperature value is lower than the preset hot air temperature threshold value, generating a hot air signal and sending the hot air signal to the power supply controller at preset time; if the current temperature value is higher than the preset cold air temperature threshold value, generating a cold air signal and sending the cold air signal to the power supply controller within preset time;

6. The intelligent alarm clock with graded reminding according to claim 5, wherein the preset cold air temperature threshold is 30 degrees centigrade; the preset hot air temperature threshold is 15 ℃.

7. The intelligent alarm clock with graded reminding according to claim 1, further comprising: a daily voice player;

the microcontroller is also connected with the daily voice player and used for converting the daily setting information of the user into the daily setting voice information and sending the daily setting voice information to the daily voice player to trigger the daily voice player to carry out voice broadcast reminding.

8. The intelligent alarm clock with graded reminding according to claim 1, further comprising: the Bluetooth module is connected with the microcontroller;