CN109976135B

CN109976135B - Intelligent flight alarm clock capable of accurately waking up

Info

Publication number: CN109976135B
Application number: CN201910312271.3A
Authority: CN
Inventors: 汪崟
Original assignee: Zhejiang Sci Tech University ZSTU
Current assignee: Zhejiang Sci Tech University ZSTU
Priority date: 2019-04-18
Filing date: 2019-04-18
Publication date: 2024-04-12
Anticipated expiration: 2039-04-18
Also published as: CN109976135A

Abstract

The invention discloses an intelligent flight alarm clock capable of accurately waking up, which comprises a base, wherein an alarm clock main body is arranged on the base, the alarm clock main body comprises a control module and a first power supply, a waking up assembly is arranged on the base and connected with a flight assembly, the waking up assembly comprises a cylindrical shell, a processor and a second power supply are arranged in the shell, the control module and the processor are in communication connection, the shell is provided with a detection device, the detection device comprises an ultrasonic sensor, a camera and an infrared sensor, two cylindrical pipes are arranged on the outer side surface of the shell, the cylindrical pipes are respectively provided with a loudspeaker and a projector, a microphone is connected on the shell, the loudspeaker, the projector and the microphone are electrically connected with the processor, and a plurality of waking up modes are freely combined among the camera, the loudspeaker, the projector and the microphone.

Description

Intelligent flight alarm clock capable of accurately waking up

Technical Field

The invention relates to an alarm clock, in particular to an intelligent flight alarm clock capable of accurately waking up.

Background

An alarm clock is a very common living article. Whether it is a mechanical alarm clock or an electronic alarm clock, the conventional implementation is: and (3) timing, and making a sound after the specified time is reached, so that the aim of reminding or waking up is fulfilled. However, the simple use of sound for prompting has defects such as too little sound for waking up, or too much sound for scaring the person, or the alarm clock and the reminded person are not in the same room and cannot hear, even the reminded person has high sound tolerance or can not use the alarm clock and the reminded person due to the hearing disorder.

The innovations or improvements that are mainly made by some of the innovative products or patents at present are mainly embodied in three aspects: 1. changing the waking mode, such as waking by vibration, light, smell, air flow, etc.; 2. changing the mode of turning off the alarm clock, such as turning off the alarm clock with specific actions, answering questions, etc.; 3, interesting use modes, such as a running alarm clock, a flying alarm clock, a shooting alarm clock, a water power generation alarm clock, a plant electric energy alarm clock, a projection alarm clock, a coffee alarm clock, a carpet alarm clock, a bomb alarm clock, an Ardead lamp sound box alarm clock and the like. However, there are situations in the middle of life, such as that a plurality of members in a family respectively stay in different rooms and need to get up or wake up at different times, and the conventional solution only can be that each person prepares an alarm clock to respectively set the time for coping with the situation, so that resources are wasted and the effect is not ideal. If an alarm clock can automatically enter different rooms in different time periods, and targeted wake-up services are provided for different people, the problems can be solved, the problems are common and common, and the alarm clock is also applicable to the situation that the alarm clock and the reminded person are far away or in different audio-visual spaces, such as the situation that the alarm clock is placed in the room and the user has noon break on a courtyard lounge.

To meet the above requirements, the alarm clock needs to solve three main technical problems, namely free running force of the alarm clock, recognition capability of the alarm clock to a user, and diversified wake-up modes of the alarm clock. At present, no corresponding alarm clock scheme is available for solving the problems.

Disclosure of Invention

In order to solve the problems in the prior art, the intelligent flight alarm clock capable of accurately waking up is provided with the technical characteristics of autonomous flight capability, remote control through a network, target person searching according to user characteristics defined by face and characteristic recognition, and alarm clock for waking up the target person through sound, light, voice and action interaction.

In order to achieve the above purpose, the present invention is realized by the following technical scheme:

the utility model provides an intelligent flight alarm clock that can accurately wake up, includes the base, be equipped with the alarm clock main part on the base, the alarm clock main part includes wireless connection has the control module of mobile control terminal and the first power that is connected with the control module electricity, place on the base and wake up the subassembly, it is connected with the flight subassembly to wake up the subassembly, it includes cylindrical casing to wake up the subassembly, install the treater that has memory cell and the second power that is connected with the treater electricity in the casing, control module, treater communication connection encircle the casing is equipped with four groups and all is connected with the detection device of treater electricity, the detection device includes ultrasonic sensor, camera, infrared sensor, transversely wear to be equipped with two symmetrical cylinder pipes on the casing lateral surface, the cylinder pipe is equipped with loudspeaker and projecting apparatus respectively, be connected with the microphone on the casing, loudspeaker, projecting apparatus, microphone all are connected with the treater electricity, camera, loudspeaker, projecting apparatus, microphone are independent assorted have multiple wake up mode;

the camera is used for identifying the faces and the character features of different users and sending the image data to the processor, and the processor is used for comparing and matching the user data stored in the storage unit or the mobile control terminal so as to realize different wake-up modes of different users.

As an improvement, the ultrasonic sensor, the camera and the infrared sensor collect environmental data and transmit information to the processor, and the processor generates a flight map and identifies and plans a flight route; the loudspeaker is provided with a unidirectional sound wake-up mode, the projector is provided with an illumination and image wake-up mode, the loudspeaker and the microphone are combined to form a bidirectional voice question-answer interaction wake-up mode, the camera and the loudspeaker are combined to form an action interaction wake-up mode, the camera, the projector and the microphone 11 are combined to form an image interaction wake-up mode, and the camera, the loudspeaker, the projector and the microphone are combined to form an action voice image mixed wake-up mode.

As an improvement, the base comprises a shell, the top of the shell is concavely provided with a groove, the center of the groove is concavely provided with a positioning part, the shell is provided with a confirmation key, a left control key, a right control key and a power key, a display screen is embedded in the shell, and the display screen is electrically connected with a control module.

As an improvement, an upper charging induction coil and a lower charging induction coil are arranged in the positioning part, and the upper charging induction coil and the lower charging induction coil are electrically connected with the control module.

As an improvement, the flight assembly comprises a central disk, four equally-spaced brackets are hinged to the outer edge of the central disk, a circular ring is integrally connected to the front end of each bracket, a hanging bracket formed by upward bending is integrally connected to the circular ring, a motor is connected to the tail end of each hanging bracket, a double-blade propeller is connected to a motor rotating shaft, and the double-blade propellers are coplanar with the circular ring.

As an improvement, the double-bladed propeller comprises a connecting piece, a left blade and a right blade are rotatably connected to the connecting piece, and a clamping piece is connected between the connecting piece and the left blade and between the connecting piece and the right blade respectively to fix the positions of the left blade and the right blade.

As an improvement, the intelligent control system also comprises an external power line, wherein the external power line is respectively and electrically connected with the control module and the processor to supply power.

The beneficial effects are that: the sharing of multiple persons can be realized only by one intelligent alarm clock, and the personalized wake-up mode aiming at each person can be realized; the mobile terminal (mobile phone terminal APP) is connected with the mobile control terminal, so that the mobile terminal has higher expandability, novel functions and high market value; the system has autonomous flight capability, can be controlled remotely through a network, can search target characters according to the user characteristics defined by face and feature recognition, and can perform sound, light, voice and action interaction on the target characters to perform wake-up service.

Drawings

Fig. 1 is a disassembled view of the present invention.

Fig. 2 is a perspective view of the structure of the present invention.

Fig. 3 is a block diagram of a flight assembly of the present invention.

Fig. 4 is a block diagram of the base of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to the following examples.

Fig. 1-4 show a specific embodiment of an intelligent flying alarm clock capable of accurately waking up, which comprises a base 1, wherein an alarm clock main body is arranged on the base 1, the alarm clock main body comprises a control module 2, a first power supply 3 electrically connected with the control module 2 and a mobile control terminal are wirelessly connected, a waking component is arranged on the base 1 and is connected with a flying component, the waking component comprises a cylindrical shell 4, a processor 5 with a storage unit and a second power supply 23 electrically connected with the processor 5 are arranged in the shell 4, the control module 2 and the processor 5 are in communication connection to realize data transmission, and the functions and states of the processor 5 can be simply set through the control module 2, the data connection and exchange between the control module 2 and the mobile control terminal (mobile phone end APP) can be realized through the integrated chip on the control module 2, the data connection and exchange between the control module 2 and the processor 5 in the wake-up assembly can be realized, four groups of detection devices are arranged around the outer side surface of the shell 4 and are electrically connected with the processor 5, the detection devices comprise an ultrasonic sensor 6, a camera 7 and an infrared sensor 8, two symmetrical cylindrical pipes transversely penetrate through the outer side surface of the shell 4 and are respectively provided with a loudspeaker 9 and a projector 10, a microphone 11 is connected to the shell 4, a plurality of wake-up modes are freely combined among the camera 7, the loudspeaker 9, the projector 10 and the microphone 11, the camera 7 identifies the faces and the character features of different users and sends the image data to the processor 5, the processor 5 compares and matches the user data stored in the storage unit or the mobile control terminal (mobile phone APP end) to realize different wake modes for different users, and the wake modes are recorded in advance according to wake preference modes of each user.

As an improved embodiment, the ultrasonic sensor 6, the camera 7 and the infrared sensor 8 collect environmental data and transmit information to the processor 5, and the processor 5 generates a flight map and identifies and plans a flight route so as to adapt to a complex indoor environment; the loudspeaker 9 is provided with a unidirectional sound wake-up mode, the projector 10 is provided with an illumination and image wake-up mode, the loudspeaker 9 and the microphone 11 are combined to form a bidirectional voice question-answer interactive wake-up mode, the camera 7 and the loudspeaker 9 are combined to form an action interactive wake-up mode, the camera 7, the projector 10 and the microphone 11 are combined to form an image interactive wake-up mode, the camera 7, the loudspeaker 9, the projector 10 and the microphone 11 are combined to form an action voice image mixed wake-up mode, the camera 7 can identify the faces and the characteristics of a plurality of people, compare and match user data which are identified and stored in advance through a mobile phone APP end, and a wake-up preference mode of each person is defined through the mobile phone end APP, so that the purposes of accurate identification and personalized wake-up are achieved.

As an improved embodiment, the base 1 comprises a housing 12, a groove is concavely arranged at the top of the housing 12, a positioning part 13 is concavely formed at the central position of the groove, a confirmation key, a left control, a right control and a power key are arranged on the housing 12, a display screen 14 is embedded in the housing 12, the display screen 14 is electrically connected with the control module 2, when a wake-up task is completed, a flight assembly automatically flies back to fall on the positioning part 13, the positioning part 13 is convenient for the identification and positioning of the flight assembly, and the alarm clock main body can be set by operation through the confirmation key, the left control, the right control and the power key.

As an improved embodiment, an upper charging induction coil 15 and a lower charging induction coil 16 are arranged in the positioning part 13, the upper charging induction coil 15 and the lower charging induction coil 16 are electrically connected with the control module 2, and when the wake-up task is finished or the flying battery is low in electricity, the flying component automatically flies back to the base to serve as the wake-up task to finish or the second power supply 23 is low in electricity, and the flying component automatically flies back to the positioning part 13 to be charged.

As an improved embodiment, the flight assembly comprises a central disc 17, four brackets 18 which are distributed at equal intervals are hinged to the outer edge of the central disc 17, a circular ring 19 is integrally connected to the front end of each bracket 18, a hanging bracket 20 which is formed by upward bending is integrally connected to the circular ring 19, a motor is connected to the tail end of each hanging bracket 20, a double-blade propeller 21 is connected to a motor rotating shaft, the space can be quickly folded, the space is reduced, the tail end of each hanging bracket 20 is connected to the motor, and the motor rotating shaft is connected to the double-blade propeller 21, so that the structure is simple, the disassembly, the maintenance, the replacement and the like are facilitated, and the double-blade propeller 21 is coplanar with the circular ring 19, and the injury to people is avoided.

As an improved embodiment, the double-bladed propeller 21 includes a connecting member 22, a left blade and a right blade are rotatably connected to the connecting member 22, and a clamping member is connected between the connecting member 22 and the left blade and between the connecting member 22 and the right blade respectively to fix the positions of the left blade and the right blade, so that the left blade and the right blade can be separated or attached, and the double-bladed propeller has a simple structure and is convenient to store.

As an improved embodiment, the device further comprises an external power line 24, wherein the external power line 24 is electrically connected with the control module 2 and the processor 5 respectively to supply power, and the device has the advantages of multiple power supply modes, simple structure and high practicability.

Finally, it should be noted that the invention is not limited to the above embodiments, but that many variants are possible. All modifications directly derived or suggested to one skilled in the art from the present disclosure should be considered as being within the scope of the present invention.

Claims

1. The utility model provides an intelligent flight alarm clock that can accurately wake up, includes base (1), be equipped with alarm clock main part, its characterized in that on base (1): the alarm clock main body comprises a control module (2) which is connected with a mobile control terminal in a wireless manner and a first power supply (3) which is electrically connected with the control module (2), a wake-up component is placed on the base (1), the wake-up component is connected with a flight component, the wake-up component comprises a cylindrical shell (4), a processor (5) with a storage unit and a second power supply (23) which is electrically connected with the processor (5) are installed in the shell (4), the control module (2) and the processor (5) are in communication connection, four groups of detection devices which are electrically connected with the processor (5) are arranged around the shell (4), the detection devices comprise an ultrasonic sensor (6), a camera (7) and an infrared sensor (8), two symmetrical cylindrical tubes are transversely arranged on the outer side face of the shell (4) in a penetrating mode, a loudspeaker (9) and a projector (10) are respectively arranged in the shell (4), a microphone (11) is connected with the loudspeaker (9), the projector (10), the microphone (11) and the microphone (11) are electrically connected with the processor (5), and the microphone (7) in a free mode, and the camera (11) are electrically connected with the loudspeaker (7) respectively.

The camera (7) is used for identifying the faces and the character features of different users and sending the image data to the processor (5), and the processor (5) is used for comparing and matching the user data stored in the storage unit or the mobile control terminal so as to realize different wake modes for different users;

the ultrasonic sensor (6), the camera (7) and the infrared sensor (8) are used for collecting environmental data and transmitting information to the processor (5), and the processor (5) is used for generating a flight map and identifying and planning a flight route; the loudspeaker (9) is provided with a unidirectional sound wake-up mode, the projector (10) is provided with an illumination and image wake-up mode, the loudspeaker (9) and the microphone (11) are combined to form a bidirectional voice question-answer interaction wake-up mode, the camera (7) and the loudspeaker (9) are combined to form an action interaction wake-up mode, the camera (7), the projector (10) and the microphone (11) are combined to form an image interaction wake-up mode, and the camera (7), the loudspeaker (9), the projector (10) and the microphone (11) are combined to form an action voice image mixed wake-up mode;

the flying assembly comprises a central disc (17), four brackets (18) which are distributed at equal intervals are hinged to the outer edge of the central disc (17), a circular ring (19) is integrally connected to the front end of the bracket (18), a hanging bracket (20) which is formed by bending upwards is integrally connected to the circular ring (19), a motor is connected to the tail end of the hanging bracket (20), a double-blade propeller (21) is connected to the rotating shaft of the motor, and the double-blade propeller (21) is coplanar with the circular ring (19).

2. The intelligent flight alarm clock capable of accurately waking up according to claim 1, wherein: the base (1) comprises a shell (12), a groove is formed in the top of the shell (12) in a recessed mode, a positioning portion (13) is formed in the center of the groove in a recessed mode, a confirmation key, a left control key, a right control key and a power key are arranged on the shell (12), a display screen (14) is embedded in the shell (12), and the display screen (14) is electrically connected with the control module (2).

3. The intelligent flight alarm clock capable of accurately waking up according to claim 2, wherein: an upper charging induction coil (15) and a lower charging induction coil (16) are arranged in the positioning part (13), and the upper charging induction coil (15) and the lower charging induction coil (16) are electrically connected with the control module (2).

4. The intelligent flight alarm clock capable of accurately waking up according to claim 1, wherein: the double-blade propeller (21) comprises a connecting piece (22), a left blade and a right blade are rotatably connected to the connecting piece (22), and a clamping piece is connected between the connecting piece (22) and the left blade and the right blade respectively to fix the positions of the left blade and the right blade.

5. The intelligent flight alarm clock capable of accurately waking up according to claim 1, wherein: the intelligent control system further comprises an external power line (24), and the external power line (24) is electrically connected with the control module (2) and the processor (5) respectively to supply power.