WO2019196091A1

WO2019196091A1 - Sleep aid system and sleep aid method

Info

Publication number: WO2019196091A1
Application number: PCT/CN2018/082951
Authority: WO
Inventors: 邹高迪; 邹新
Original assignee: 深圳迈睿智能科技有限公司
Priority date: 2018-04-13
Filing date: 2018-04-13
Publication date: 2019-10-17
Also published as: CN108496120A

Abstract

A sleep aid system and a sleep aid method. The sleep aid system comprises a control center (20). The control center (20) comprises a selection unit (21) and a control unit (22) communicatively connected to each other. The selection unit (21) selects a control mode for at least one electrical device (200) according to a user's real-time state. The control unit (22) controls the state of the at least one electrical device (200) according to the selected control mode so as to help the user to sleep.

Description

Sleep aid system and sleep aid method

Technical field

The invention relates to the field of sleep environment control, in particular to a sleep aid system and a sleep aid method for helping to sleep.

Background technique

In recent years, the continuous increase of learning pressure, work stress and life pressure have caused more and more people to have different levels of sleep problems, and the rapid development and popularization of mobile Internet has caused people's living habits to further aggravate sleep problems. For the vast majority of people with sleep disorders, sleep disorders are mainly manifested in sleep disorders, that is, although people have a very strong desire to sleep, they can not enter sleep in time. Insomnia can not only lead to mental dysfunction, inattention, emotional instability, etc., and long-term sleep disorders can also induce some potential diseases, and even lead to serious consequences such as sudden death. In other words, sleep disorders often bring greater burden and pain to the patient's body and mind. In order to alleviate and treat sleep disorders, it is now more effective to use insomnia drugs for control and treatment. However, the main components of insomnia drugs are sleeping pills and tranquilizers. Long-term use of these drugs will not only lead to people's dependence on drugs. It is getting more and more serious, and it will cause more stress on the kidneys and other organs, and even lead to the pathological changes of the kidneys. In addition, aromas that produce a specific odor are also used as a way to soothe the nerves. However, aromatherapy is only effective for some patients with pseudo-sleep disorder, for patients with long-term sleep disorders. With little success.

It is well known that people's sleep state during sleep is greatly affected by the sleep environment, so patients with sleep disorders can be helped to sleep by changing the sleep environment. For example, the flames produced by a lit candle can help people fall asleep. The mechanism is that the band of the flame produced by the lit candle matches the band of the brainwaves that people sleep in, and the flames of the lit candle are in the wind. It is bounced under the action, therefore, because the ignited candle has these characteristics, the fueled candle can change the sleeping environment and make the sleeping environment help people to sleep. However, for people living in modern buildings, on the one hand, people do not have the habit of lighting candles, on the other hand, the flames generated by the lit candles are open flames, once people go to sleep and do not extinguish the lit candles in time. There are serious security risks.

Summary of the invention

It is an object of the present invention to provide a sleep aid system and a sleep aiding method, wherein the sleep aid environment can help a user sleep to improve sleep quality.

It is an object of the present invention to provide a sleep aid system and a sleep aiding method, wherein the sleep aid system can help the user to sleep in a manner that adjusts the sleeping environment to improve sleep quality.

An object of the present invention is to provide a sleep aid system and a sleep aid method, wherein the sleep aid system can adjust a sleep environment according to a real-time state of the user to help the user sleep, thereby enabling the sleep aid system to satisfy the user. Personalized needs.

An object of the present invention is to provide a sleep aid system and a sleep aid method, wherein the sleep aid system is an active sleep aid system, and the sleep aid system can be adjusted according to the real-time state of the user without human intervention. Sleeping environment helps users to get a high quality sleep environment.

An object of the present invention is to provide a sleep aid system and a sleep aid method, wherein the sleep aid system can obtain real-time posture information of the user, and synchronously adjust the sleep environment according to the real-time posture information of the user to help the user sleep.

An object of the present invention is to provide a sleep aid system and a sleep aid method, wherein the sleep aid system can obtain real-time posture information and real-time physical information of a user, and adjust the sleep according to the user's real-time posture information and real-time physical information. Environment to help users fall asleep.

It is an object of the present invention to provide a sleep aid system and a sleep aiding method, wherein the sleep aid system is capable of adjusting the sleep environment by adjusting the brightness and darkness, brightness, color, and color temperature of the light entering the sleeping environment.

It is an object of the present invention to provide a sleep aid system and a sleep aid method, wherein the sleep aid system provides a control unit for controlling at least one electrical device disposed in a sleeping environment, wherein the control unit is based on a user's real time The state controls the state of the electrical device to adjust the sleep environment. For example, the electrical device may be a light fixture, so that the control unit can control the brightness change, brightness, color and color temperature of the light generated by the light fixture according to the real-time state of the user, so as to adjust the real-time state of the sleeping environment, thereby The real-time state of the sleeping environment adapts to the user's real-time status to create a high-quality sleeping environment.

It is an object of the present invention to provide a sleep aid system and a sleep aid method, wherein the sleep aid system provides a selection unit capable of selecting a manner of controlling the electrical device according to a real-time state of the user, for subsequent The control unit controls the state of the electronic device according to the selected control mode, thereby adjusting the sleep environment.

It is an object of the present invention to provide a sleep aid system and a sleep aid method, wherein the sleep aid system provides an attitude detecting unit that is capable of obtaining real-time posture information of a user.

An object of the present invention is to provide a sleep aid system and a sleep aid method, wherein the posture detecting unit obtains real-time posture information of a user in a manner of transmitting microwaves to a sleeping environment.

An object of the present invention is to provide a sleep aid system and a sleep aid method, wherein the posture detecting unit obtains real-time posture information of a user in a manner of capturing an image of a sleeping environment, and the posture detecting unit can avoid an image about a sleeping environment The leakage of information to protect the privacy of the user.

An object of the present invention is to provide a sleep aid system and a sleep aid method, wherein the gesture detection unit captures an image of a sleeping environment by means of an image pickup device, wherein the camera device includes an image pickup unit and is communicably connected to a signal converter of the camera unit, wherein the signal converter is configured to convert an electrical signal captured by the camera unit into a digital signal, thereby avoiding leakage of image data about a sleeping environment to protect a user's individual privacy.

It is an object of the present invention to provide a sleep aid system and a sleep aid method, wherein the sleep aid system provides an integrated signage collection unit that is capable of obtaining real-time vital information of a user.

An object of the present invention is to provide a sleep aid system and a sleep aid method, wherein the sleep aid system provides a health instruction unit capable of providing a health guide according to a user's sleep state for a period of time to have Conducive to the health of the user.

According to one aspect of the invention, the present invention provides a sleep aid system comprising:

a control center, wherein the control center includes a selection unit and a control unit, the selection unit and the control unit are communicably connected to each other, wherein the selection unit selectively controls at least one electrical according to a real-time state of the user In the manner of the device, the control unit controls the state of the electrical device according to the selected control mode to help the user sleep.

According to an embodiment of the present invention, the sleep aid system further includes an information collecting center, wherein the information collecting center includes an attitude detecting unit and a state acquiring unit, and the posture detecting unit and the selecting unit are respectively Communicatingly connected to the state acquiring unit, wherein the posture detecting unit detects real-time posture information of the user, and the state acquiring unit obtains a real-time state of the user according to the real-time posture information of the user detected by the posture detecting unit. .

According to an embodiment of the present invention, the sleep aid system further includes an information collecting center, wherein the information collecting center includes an attitude detecting unit, an integrated information collecting unit, and a state acquiring unit, the posture detecting unit and the The physical sign information collecting unit and the selecting unit are communicably connected to the state acquiring unit, respectively, wherein the posture detecting unit detects real-time posture information of the user, and the physical sign information collecting unit collects real-time physical information of the user. The state acquiring unit obtains the real-time state of the user according to the real-time posture information of the user detected by the posture detecting unit and the real-time physical information of the user collected by the physical sign information collecting unit.

According to an embodiment of the present invention, the sleep aid system further includes an information collection center, wherein the information collection center includes an environment information collection unit, the environment information collection unit is communicably connected to the selection unit, The environment information collecting unit collects real-time environment information of the environment where the user is located, and the selecting unit selects a manner of controlling the electrical device according to the real-time state of the user and real-time environment information of the environment where the user is located.

According to an embodiment of the present invention, the collection center includes an environment information collection unit communicably connected to the selection unit, wherein the environment information collection unit collects real-time environment of the user The environment information, the selection unit selects a manner of controlling the electrical device according to a real-time state of the user and real-time environmental information of the environment in which the user is located.

According to an embodiment of the present invention, the posture detecting unit detects real-time posture information of the user by externally connecting a detecting device, wherein the detecting device includes at least one beam transmitter and at least one signal receiver, and the beam is emitted. Transmitting a detection beam to the environment in which the user is located, the signal receiver receives the detection beam responded by the user, and the attitude detection unit detects the user according to the detection beam received by the signal receiver Real-time gesture information.

According to an embodiment of the invention, the posture detecting unit detects a real-time posture of the user by externally connecting an image capturing device.

According to an embodiment of the invention, the selection unit comprises a solution generation module and a selection module, the solution generation module and the control unit are respectively communicably connected to the selection module, wherein the solution generation module A selection scheme is generated based on the real-time status of the user, and the selection module selects a manner of controlling the electrical device when the selection scheme is executed.

According to an embodiment of the invention, the selection unit comprises an analysis module and a determination module, the analysis module and the solution generation module are respectively communicably connected to the determination module, wherein the analysis module analyzes and uses The real-time status of the user determines whether the user desires sleep according to the analysis result of the analysis module, and the solution generation module generates the selection plan according to the determination result of the determination module.

According to an embodiment of the invention, the sleep aid system further comprises an interaction center, wherein the interaction center comprises a health instruction unit, the health instruction unit is communicably connected to the information collection center, wherein The health instruction unit generates a health guide according to the user collected by the information collection center for a period of sleep.

According to an embodiment of the invention, the electrical device is a light fixture.

According to another aspect of the present invention, the present invention further provides a sleep aid method, wherein the sleep aid method comprises the following steps:

(a) selecting a method of controlling at least one electrical device based on the real-time status of the user; and

(b) controlling the state of the electrical device according to the selected control mode to help the user sleep.

According to an embodiment of the present invention, before the step (a), the method further comprises the steps of:

Detecting the user's real-time gesture information; and

The real-time status of the user is obtained based on the detected real-time posture information of the user.

Detecting real-time gesture information of the user and collecting real-time physical information of the user; and

The real-time status of the user is obtained based on the detected real-time posture information of the user and the real-time physical information of the collected user.

Collecting real-time environmental information of the environment in which the user is located, in the step (a), selecting a manner of controlling the electrical device according to the real-time state of the user and the real-time environmental information of the environment in which the user is located.

The real-time environment information of the environment in which the user is located is collected, and in the step (a), the manner of controlling the electrical device is selected according to the real-time state of the user and the real-time environmental information of the environment in which the user is located.

According to an embodiment of the present invention, in the step of detecting the real-time posture information of the user, the method further includes the steps of:

Sending a detection beam to the environment where the user is located by using at least one beam transmitter;

Receiving, by the at least one signal receiver, the detection beam that is responded by a user;

The real-time posture information of the user is detected according to the detection beam received by the signal receiver and responded by the user.

According to an embodiment of the present invention, in the step (a), the method further comprises the steps of:

(a.1) generating a selection scheme according to the real-time state of the user through a scheme generation module; and

(a.2) Selecting a mode of controlling the electrical device when a selection module executes the selection scheme.

DRAWINGS

1 is a block diagram of a sleep aid system in accordance with a preferred embodiment of the present invention.

2 is a schematic diagram of a state of an application scenario of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 3 is a schematic illustration of another state of the above described application scenario of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

4 is a schematic diagram of another state of the above-described application scenario of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 5 is a schematic illustration of another state of the above described application scenario of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 6 is a schematic illustration of another state of the above described application scenario of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 7 is a schematic illustration of another state of the above described application scenario of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 8 is a schematic illustration of another state of the above described application scenario of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 9 is a schematic illustration of another state of the above described application scenario of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 10 is a flow chart showing the sleep aid system in accordance with the above preferred embodiment of the present invention.

Figure 11A is a top plan view of a beam emitter of a detecting device of the sleep aid system in accordance with the above preferred embodiment of the present invention.

Figure 11B is a cross-sectional view of the beam transmitter of the detecting device of the sleep aid system in accordance with the above preferred embodiment of the present invention.

Figure 11C is a side elevational view of the beam transmitter of the detection device of the sleep aid system in accordance with the above-described preferred embodiment of the invention.

Figure 12A is a diagram showing a state of the beam transmitter of the detecting device of the sleep aid system in accordance with the above preferred embodiment of the present invention.

Figure 12B is a schematic illustration of another state of the beam transmitter of the detecting device of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 12C is a schematic illustration of another state of the beam transmitter of the detection device of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 12D is a schematic illustration of another state of the beam transmitter of the detection device of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 13A is a perspective view of another beam transmitter of the detecting device of the sleep aid system in accordance with the above preferred embodiment of the present invention.

Figure 13B is a side elevational view of the beam transmitter of the detection device of the sleep aid system in accordance with the above-described preferred embodiment of the present invention.

Figure 13C is a perspective view of the beam transmitter of the detecting device of the sleep aid system according to the above preferred embodiment of the present invention after a beam constraining component is removed.

Figure 13D is a side elevational view of the beam transmitter of the detection device of the sleep aid system in accordance with the above-described preferred embodiment of the present invention after the beam constraining element is removed.

Figure 14 is a diagram showing a state of another beam transmitter of the detecting device of the sleep aid system according to the above preferred embodiment of the present invention.

Figure 15 is a flow chart showing the sleep aid system in accordance with the above preferred embodiment of the present invention.

detailed description

The following description is presented to disclose the invention to enable those skilled in the art to practice the invention. The preferred embodiments in the following description are by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention as defined in the following description may be applied to other embodiments, modifications, improvements, equivalents, and other embodiments without departing from the spirit and scope of the invention.

It should be understood by those skilled in the art that in the disclosure of the present invention, the terms "longitudinal", "transverse", "upper", "lower", "front", "back", "left", "right", " The orientation or positional relationship of the indications of "upright", "horizontal", "top", "bottom", "inside", "outside", etc. is based on the orientation or positional relationship shown in the drawings, which is merely for convenience of description of the present invention and The above description of the invention is not to be construed as a limitation of the invention.

It will be understood that the term "a" is understood to mean "at least one" or "one or more", that is, in one embodiment, the number of one element may be one, and in other embodiments, the element The number can be multiple, and the term "a" cannot be construed as limiting the quantity.

Referring to Figures 1 through 9 of the accompanying drawings of the present invention, a sleep aid system in accordance with a preferred embodiment of the present invention is disclosed and illustrated in the following description, wherein the sleep aid system is capable of being The state adjusts the state of the sleep environment 100 to adapt the state of the sleep environment 100 to the state of the user, thereby facilitating the user to sleep. Preferably, the sleep aid system is capable of obtaining a real-time state of the user, and adjusting a real-time state of the sleep environment 100 according to a real-time state of the user, so that the real-time state of the sleep environment 100 follows the real-time state of the user. The changes are adjusted to help the user sleep.

The sleep aid system of the present invention is an active sleep system, wherein the sleep aid system can actively adjust the state of the sleep environment 100 after obtaining the real-time state of the user, so that the sleep environment 100 can be real-time. The state adapts to the real-time status of the user. For example, referring to FIG. 2, in an application scenario of the sleep aid system of the present invention, the sleep aid system is used to control at least one electrical device 200, and subsequently, the sleep aid system can control the electrical The manner of the working state of the device 200 adjusts the real-time state of the sleeping environment 100 so that the real-time state of the sleeping environment 100 can be adapted to the real-time state of the user, whereby the sleep aid system can create a high quality The sleeping environment 100 is described to help the user fall asleep.

It is worth mentioning that in this application scenario of the sleep aid system shown in FIG. 2, the electrical device 200 is implemented as a luminaire 200A suspended from the roof, wherein the sleep aid system passes through the control room. The manner of the working state of the luminaire 200A can adjust the state of the sleeping environment 100. For example, the sleep aid system can control the brightness, color temperature, color, brightness and the like of the light generated by the luminaire 200A, thereby adjusting the sleep. The state of the environment 200. Nonetheless, it will be understood by those skilled in the art that the number of the electrical devices 200 implemented as the luminaire 200A is not limited to one; the position of the electrical device 200 implemented as the luminaire 200A is not limited to being suspended At the roof; the electrical device 200 is not limited to being implemented only as the luminaire 200A, for example, in other possible examples of the sleep aid system, the electrical device 200 may be implemented as an acoustic, or a portion of the Electrical device 200 is implemented as the luminaire 200A, while another portion of the electrical device 200 is implemented as the audible.

In the following description, the contents and features of the sleep aid system of the present invention will continue to be disclosed by taking the electrical device 200 as the luminaire 200A as an example, but those skilled in the art will understand that the electrical device will be The example in which 200 is implemented as the luminaire 200A is merely an example and should not be considered as limiting the content and features of the sleep aid system of the present invention.

Specifically, the sleep aid system of the present invention includes an information collecting center 10 and a control center 20, wherein the information collecting center 10 and the control center 20 are communicably connected to each other. The information collection center 10 is used to obtain the real-time status of the user, and the control center 20 is used to control the working state of the luminaire 200A. The control center 20 can obtain the real-time status of the user from the information collecting center 10, and control the working state of the luminaire 200A according to the real-time status of the user, for example, the control center 20 can control the generated by the luminaire 200A. Brightness, color temperature, color, brightness change, etc. of the light to adjust the real-time state of the sleeping environment 100, so that the real-time state of the sleeping environment 100 can adapt to the real-time state of the user. In this way, the sleep aid The system is capable of creating a high quality said sleeping environment 100 to help the user sleep.

The sleep aid system selects different control modes based on the real-time status of the user for controlling the operating state of the luminaire 200A. Specifically, the control center 20 further includes a selection unit 21 and a control unit 22, wherein the selection unit 21 and the control unit 22 are communicably connected to each other. The selection unit 21 of the control center 20 is communicably connected to the information collection center 10, and the control unit 22 of the control center 20 controls the operational state of the luminaire 200A. After the information collecting center 10 obtains the real-time status of the user, the selecting unit 21 of the control center 20 can obtain the real-time status of the user from the information collecting center 10, and select and control according to the real-time status of the user. The manner of the luminaire 200A, subsequently, the control unit 22 obtains the selected control mode from the selection unit 21, and controls the working state of the luminaire 200A according to the selected control mode to adjust the sleeping environment 100. The real-time status helps users sleep. For example, in a preferred example of the sleep aid system of the present invention, the sleep aid system may preset a control mode corresponding to a different state, thereby obtaining a user at the selection unit 21 of the control center 20. After the state, the control mode corresponding to the current state of the user is selected from a plurality of preset control modes, so that the control unit 22 controls the operation of the luminaire 200A according to the control mode selected by the selection unit 21. a state to adjust the state of the sleeping environment 100. In another preferred embodiment of the sleep aid system of the present invention, the selection unit 21 of the control center 20 of the sleep aid system is capable of analyzing a real-time state of a user, for example, the control unit 21 can The user's posture, heart rate, body temperature and the like are analyzed to generate a control mode in real time according to the analysis result, so that the control unit 22 controls the working state of the lamp 200A according to the control mode selected by the selection unit 21, To adjust the state of the sleeping environment 100.

Referring to Figure 1, the information collecting center 10 further includes an attitude detecting unit 11 and a state acquiring unit 12, which are communicably connected to each other. The state acquisition unit 12 of the information collection center 10 and the selection unit 21 of the control center 20 are communicably connected to each other. The posture detecting unit 11 acquires the real-time posture information of the user in the sleep environment 100 in a manner of monitoring the sleep environment 100 in real time, and the state acquiring unit 12 according to the real-time user acquired by the posture detecting unit 11 The gesture information obtains the real-time status of the user.

Referring to FIG. 2, the posture detecting unit 11 obtains real-time posture information of a user in the sleep environment 100 by the detecting device 300 in such a manner as to be communicably connected to at least one detecting device 300. Specifically, referring to Figures 2 and 10, the detecting device 300 includes at least one beam transmitter 301 and at least one signal receiver 302, wherein the signal receiver 302 is communicably coupled to the attitude detecting unit 11. The beam transmitter 301 of the detection device 300 is capable of transmitting at least one detection beam to the sleep environment 100, the signal receiver 302 for receiving the detection beam that is responded by a user in the sleep environment 100 The posture detecting unit 11 is capable of obtaining real-time posture information of the user according to the detected detection beam received by the signal receiver 302. Preferably, the beam transmitter 301 of the detecting device 300 is capable of transmitting the detecting beam in a manner of transmitting microwaves to the sleeping environment 100, in such a manner as to facilitate the improvement of the information of the sleep aid system. The accuracy of the real-time posture information of the user obtained by the posture detecting unit 11 of the collection center 10.

More specifically, referring to FIG. 11A to FIG. 12D, the beam transmitter 301 of the detecting device 300 includes a reference plate 3011 and a radiation source 3012, and the reference plate 3011 further includes a board main body 30111 and at least one The side flaps 30112 each have a predetermined angle with the panel body 30111, and the radiation source 3012 is disposed adjacent to the panel body 30111 of the reference plate 3011. The beam transmitter 301 can control the emission angle of the detection beam generated by the radiation source 3012 by providing each of the side wings 30112, thereby controlling the beam direction of the detection beam. In this manner, the beam transmitter 301 The detecting device 300 is capable of detecting the state of the specific position of the sleeping environment 100. It is worth mentioning that, in this specific example of the detecting device 300 shown in FIG. 11C, only one side flap 30112 is provided on both sides of the board main body 30111, in the detecting device. In other possible examples of the 300, three or four sides of the panel body 30111 may also be provided with one of the side flaps 30112, respectively.

Preferably, each of the side flaps 30112 is adjustably disposed at a side of the board main body 30111, wherein the board main body 30111 and each of the side flaps 30112 respectively have a reference surface 30110, and the radiation source 3012 The plate main body 30111 is disposed adjacent to the reference plate 3011, and the extending direction of the radiation source 3012 is parallel to the reference surface 30110 of the plate main body 30111 of the reference plate 3011 by adjusting each The angle of the side flaps 30112 and the panel body 30111 can control the angle at which the detection beam is emitted, thereby controlling the beam direction of the detection beam. For example, in this specific example of the detecting device 300 illustrated in FIGS. 11A to 11C, the number of the side flaps 30112 of the reference plate 3011 of the beam transmitter 301 of the detecting device 300 is Two, and the two side flaps 30112 are adjustably disposed at sides of the board main body 30111, respectively, in such a manner that the two side flaps 30112 are symmetrical to each other, so that the two side flaps 30112 are opposite to the board main body The angle of 30111 can be adjusted. Preferably, the angle of the two side flaps 30112 relative to the panel body 30111 can be individually adjusted, i.e., when adjusting the angle of one of the side flaps 30112 relative to the panel body 30111, the other of the flaps The angle of 30112 relative to the panel body 30111 may be constant. Of course, it will be understood by those skilled in the art that in other possible examples of the sleep aid system of the present invention, the two side flaps 30112 of the detecting device 300 may also be relative to the panel body 30111. Adjusted synchronously and at the same amplitude.

Referring to Figures 11A-11C, the beam emitter 301 further includes a shield 3013, wherein the shield 3013 is disposed on the back side of the reference plate 3011 such that the shield 3013 and the radiation The source 3012 is respectively held on both sides of the reference board 3011, wherein the screen cover 3013 has a shielding function to enhance the intensity of the detection beam emitted by the beam transmitter 301, so that the user can be obtained later. More precise actions, such as the user's micro-motions, can also be detected by the detection device 300. In addition, the shield cover 3013 also has a function of dustproof and moisture proof. Preferably, the height of the inner space of the shielding cover 3013 is greater than 1/16 times of the wavelength. In this manner, the beam transmitter 301 can avoid the interference generated by the secondary wave generated by itself to interfere with the main wave, thereby ensuring the The stability and reliability of the beam transmitter 301. Figure 12A shows an operational state of the beam transmitter 301, in which case the two of the side flaps 30112 and the panel body 30111 of the reference plate 3011 of the beam transmitter 301 are in an unfolded state. Figure 12B shows another operational state of the beam transmitter 302, at which point the angle of the side flaps 30112 of the beam emitter 302 on the left side of the drawing relative to the panel body 30111 is adjusted, Thereby, the emission angle of the detection signal transmitted by the beam transmitter 302 can be adjusted, so that the position of the detection region of the detection beam formation is also adjusted accordingly. Figure 12C shows another operational state of the beam transmitter 302, at which point the angle of the side flaps 30112 of the beam emitter 302 on the right side of the drawing relative to the panel body 30111 is adjusted, Thereby, the emission angle of the detection signal transmitted by the beam transmitter 302 can be adjusted such that the position of the detection area of the detection beam formation is also adjusted accordingly. Figure 12D shows another operational state of the beam transmitter 302, in which case the angles of the two side flaps 30112 of the beam transmitter 302 relative to the panel body 30111 are adjusted, thereby The emission angle of the detection signal transmitted by the beam transmitter 302 can be adjusted such that the position of the detection area of the detection beam formation is also adjusted accordingly. Of course, it will be understood by those skilled in the art that as the angle of the angle of the side flaps 30112 relative to the panel body 30111 is adjusted, the position at which the detection region moves and the size of the detection region can be controlled. In addition, it will be understood by those skilled in the art that the angle of emission of the detection beam generated by the beam transmitter 301 can be constrained by adjusting the angle of the side flaps 30112 relative to the panel body 30111, thereby enabling the The detection area of the detection beamforming is a dynamic detection area.

13A to 13D show a variant embodiment of the beam transmitter 301 of the detecting device 300, which is different from the beam transmitter 301 shown in Figs. 11A to 11C, in the drawing In this preferred example of the beam transmitter 301 shown in FIG. 13A to FIG. 13D, the reference plate 3011 of the beam transmitter 301 may include only one of the board bodies 30111, that is, the reference board 3011. It is not adjustable, and the extending direction of the radiation source 3012 and the extending direction of the reference surface 30110 of the reference plate 3011 are perpendicular to each other. Further, the beam transmitter 301 further includes a beam constraining component 3014, wherein the beam constraining component 3014 has a constraining space 30140, and the beam constraining component 3014 is disposed on the reference plate 30111 to cause the radiation Source 3012 is maintained in the constrained space 30140 of the beam constraining element 3014, wherein the beam constraining element 3014 is used to constrain the detection of microwave formation when the radiation source 3012 generates microwaves in the constraining space 30140 The beam direction of the beam. Preferably, the beam constraining element 3014 is flared.

Figure 14 shows another variant embodiment of the beam transmitter 301 of the detection device 300, which differs from the beam emitter 301 shown in Figures 13A to 13D in Figure 14 In this preferred example of the beam transmitter 301 of the detection device 300, the beam constraining element 3014 is located on one side of the radiation source 3012 for constraining the formation of microwaves generated by the radiation source 3012. The beam direction of the detection beam. Preferably, the angle of the beam constraining element 3014 is adjustable to adjust the beam direction of the detection beam by constraining the emitted microwaves.

Referring to FIGS. 2 and 15, the gesture detecting unit 11 may also be communicably coupled to at least one camera device 400, wherein the camera device 400 is obtained by capturing an image of a user in the sleeping environment 100. User's real-time gesture information. In order to avoid leakage of the user's image data, the image capturing apparatus 400 includes an image capturing unit 401 and the signal converter 402 communicably connected to the image capturing unit 401, wherein the posture detecting unit 11 is The signal converter 402 of the imaging device 400 is communicatively coupled. The image capturing unit 401 is configured to capture an image of the sleeping environment 100, and the signal converter 402 is configured to convert an electrical signal captured by the imaging unit 401 into a digital signal. The gesture detecting unit 11 can obtain a digital signal about the sleeping environment 100 from the signal converter 402. In this way, leakage of the image data about the sleeping environment 100 can be avoided to facilitate protection. Personal privacy.

Referring to FIGS. 1 and 2, the signal collecting center 10 further includes an integrated information collecting unit 13, wherein the state acquiring unit 12 is communicably connected to the vital sign collecting unit 13. The vital sign information collecting unit 13 is capable of collecting physical location information of the user, such as body temperature information, heart rate information, and the like. The state acquiring unit 12 can acquire real-time posture information of the user from the posture detecting unit 11 and acquire real-time physical signs of the user from the physical sign information acquiring unit 13, respectively, and the state acquiring unit 12 can be based on the user's Real-time gesture information and real-time signs get the user's real-time status. Preferably, the vital sign information collecting unit 13 of the information collecting center 10 can be communicably connected to at least the integrated sign monitoring device 500, wherein the sign monitoring device 500 is disposed in the sleeping environment 100 to be obtained The physical condition information of the user, for example, the vital sign monitoring device 500 can obtain body temperature information, heart rate information, and the like of the user. Subsequently, the vital sign information acquiring unit 13 can obtain the physical sign information of the user from the vital sign monitoring device 500. It is worth mentioning that the type of the sign monitoring device 500 is not limited in the sleep aid system of the present invention. For example, the sign monitoring device 500 may be, but not limited to, a smart bracelet, a smart mattress, or the like. For example, in this application example of the sleep aid system illustrated in Figure 2, the sign monitoring device 500 is implemented as a smart mattress that is placed when the user lies on a smart mattress in a lying position. The vital sign monitoring device 500 is capable of obtaining real-time physical sign information of the user. Nonetheless, in other possible examples of the sleep aid system, the sign monitoring device 500 can also be implemented as a smart bracelet such that when the user wears the sign monitoring device 500 on the wrist, the sign The monitoring device 500 is capable of obtaining real-time vital information of the user.

Referring to Figures 1 and 2, the information collection center 10 further includes an environmental information collection unit 14, wherein the environmental information collection unit 14 is communicably coupled to the selection unit 21 of the control center 20. The environment information collecting unit 14 is capable of collecting real-time environment information of the sleep environment 100, and the selecting unit 21 acquires the real-time status of the user from the state acquiring unit 12 and acquires the same from the environment information collecting unit 14 The real-time environment information of the sleep environment 200, and the manner of controlling the working state of the luminaire 200A according to the real-time state of the user and the real-time environmental information of the sleep environment 200. Preferably, the environment information collecting unit 14 of the information collecting center 10 is communicably connected to an environment information collecting device 600, wherein the environment information collecting device 600 is disposed in the sleeping environment 100 to be obtained The temperature, humidity, noise, and the like of the sleeping environment 100, in the following, the selection unit 21 can select and control the luminaire 200A based on the real-time environmental information collected by the environmental information collecting unit 14 from the environmental information collecting device 600. The manner of working state is such that it is particularly advantageous to adapt the adjusted real-time state of the sleeping environment 100 to the real-time state of the user, thereby facilitating the user to sleep.

Referring to FIG. 1, the selection unit 21 further includes an analysis module 211, a determination module 212 communicably coupled to the analysis module 211, and a scheme generation module communicably coupled to the determination module 212. 213 and a selection module 214 communicably coupled to the scheme generation module 213. The analysis module 211 of the selection unit 21 is communicably connected to the state acquisition unit 12 of the information collection center 10, and the scheme generation module 213 of the selection unit 21 is communicably connected to the information. The state acquisition unit 12 and the environment information collection unit 14 of the collection center 10 are collected. The control unit 22 is communicably coupled to the selection module 214 of the selection unit 21. The analyzing module 211 can obtain the real-time status of the user from the state acquiring unit 12 and analyze the real-time status of the user, and the determining module 212 determines, according to the analysis result of the analyzing module 21, whether the user desires to sleep. If the determining module 212 determines that the user desires to sleep according to the analysis result of the analyzing module 21, the solution generating module 213 acquires the real-time status of the user and the environment information acquiring unit from the state acquiring unit 12, respectively. The real-time environment information of the sleep environment 100 is obtained, and the solution generation module 213 can generate a selection scheme according to the real-time state of the user and the real-time environment information of the sleep environment 100, and the selection module 214 from the solution The generation module 213 receives the selection scheme, and the selection module 214 selects a manner of controlling the luminaire 200A when performing the selection mode.

With continued reference to FIG. 1, the sleep aid system further includes an interaction center 30, wherein the interaction center 30 provides for interaction between the sleep aid system and a user. Specifically, the interaction center 30 includes a health instruction unit 31 and a display unit 32, wherein the health instruction unit 31 and the display unit 32 are communicably connected to each other. The health guiding unit 31 of the interaction center 30 is communicably connected to the state acquiring unit 12 of the information collecting center 10, and the display unit 32 is communicably connected to a smart device, the smart Devices can be, but are not limited to, smartphones, tablets, laptops, desktops, personal digital assistants, MP3/4/5, e-books, and the like. The health guiding unit 31 can acquire the state of the user from the state acquiring unit 12, for example, the health guiding unit 31 can acquire the sleep state of the user from the state acquiring unit 12, including the sleep state and the history of sleep. a state, and the health coaching unit 31 can generate a health guide according to the sleep state of the user, the display unit 32 can receive the health guide from the health coaching unit 31, and display the health guide in the The display screen of the smart device for viewing by the user. The health guide is a health guide provided by the sleep aid system according to a user's sleep state in one end time, wherein the content of the health guide may be, but is not limited to, guiding a user's sleep time, guiding the user to sleep. The exercise between the two, to guide the user's diet during sleep, etc., to help the user to improve sleep, thereby contributing to the health of the user.

2 to 9 show a specific application scenario of the sleep aid system of the present invention, in the following description, the posture detecting unit 11 of the information collecting center 10 of the sleep aid system is The content and features of the sleep aid system of the present invention are disclosed and illustrated by way of example of being communicatively coupled to the detection device 300, but those skilled in the art will appreciate that the techniques illustrated in Figures 2-9 are The specific application scenario of the sleep aid system should not be considered as limiting the scope of the sleep aid system of the present invention.

It should be noted that in FIG. 2 to FIG. 9 , the content and features of the sleep aid system of the present invention are disclosed by taking only one of the detecting devices 300 disposed on the roof as an example, but those skilled in the art It should be understood that in other application scenarios of the sleep aid system, the roof may also be provided with more than two of the detecting devices 300, or the detecting device 300 may also be disposed on a wall or on the roof. Both the wall and the wall may be provided with the detecting device 300, and thus, the specific examples shown in FIGS. 2 to 9 should not be construed as limiting the content and scope of the sleep aid system of the present invention.

Specifically, referring to Figures 3 through 6, the beam transmitter 301 of the detecting device 300 transmits the detection beam to a room to form the detection area in a room. The beam direction of the detection beam emitted by the beam transmitter 301 can be adjusted by adjusting the angle of the side flap 30112 of the reference plate 3011 of the beam transmitter 301 with respect to the plate body 30111, thereby adjusting The position and size of the detection area. That is, in a preferred example of the sleep aid system of the present invention, the detection area formed by the detecting device 300 is a dynamic detection area.

When the user is in the detection area formed by the detecting device 300, the user can respond to the detecting beam in a manner of reflecting the detecting beam. At this time, the signal receiver 302 of the detecting device 300 can Receiving the detection beam that is responded by the user. Then, the posture detecting unit 11 of the information collecting center 10 can receive the detection beam responded by the user from the signal receiver 302, and acquire the real time of the user according to the detection beam responded by the user. The posture information, the analysis module 211 of the selection unit 21 of the control center 20 can analyze the real-time posture information of the user, and the analysis result of the analysis module 211 is performed by the determination module 212. Determine if the user wants to sleep. For example, at this stage shown in FIG. 3, the analysis module 211 can analyze that the user is in the standing position in the standing position according to the detection beam reflected by the user, and the judging module 212 can perform the analysis according to the analysis. The analysis result of the module 211 judges that the user does not desire sleep, and at this time, the working state of the luminaire 200A is not adjusted, so that the state of the sleeping environment 100 is not adjusted. At the stage shown in FIG. 4, the analysis module 211 can analyze that the user is in the sitting position according to the detection beam responded by the user, and the determining module 212 can be analyzed according to the analysis module 211. As a result, it is judged that the user does not desire sleep, and at this time, the operating state of the luminaire 200A is not adjusted, so that the state of the sleeping environment 100 is not adjusted. At the stage shown in FIG. 5, the analysis module 211 can analyze that the user is lying on the bed in a lying position to play the tablet according to the detection beam responded by the user, and the determining module 212 can perform the analysis according to the analysis. The analysis result of the module 211 judges that the user does not desire sleep, and at this time, the working state of the luminaire 200A is not adjusted, so that the state of the sleeping environment 100 is not adjusted. At the stage shown in FIG. 6, the analysis module 211 can analyze that the user is lying on the bed in a lying position and does not have a large action according to the detection beam responded by the user, and the determination module 212 can The analysis result of the analysis module 211 determines that the user desires to sleep. At this time, the working state of the luminaire 200A can be adjusted. For example, the brightness, color temperature, and brightness change of the light generated by the luminaire 200A can be adjusted to enable the The state of the sleeping environment 100 can adapt to the state of the user, thereby helping the user to sleep.

Specifically, when the determining module 212 determines that the user desires to sleep according to the analysis result of the analyzing module 212, the detecting device 300 can continuously detect the real-time posture information of the user. For example, the detecting device 30 can The user action is continuously obtained, and the user's motion change is obtained. At the same time, the vital sign monitoring device 500 can continuously monitor the real-time physical information of the user. For example, the physical condition monitoring device 500 can continuously obtain the user's body temperature. Information, heart rate information. The posture detecting unit 11 can obtain real-time posture information of the user from the detecting device 300, and the physical sign information acquiring unit 13 can obtain real-time physical information of the user from the vital sign monitoring device 500, and the state acquiring unit 12 The real-time posture information of the user can be obtained from the posture detecting unit 11 and the real-time physical information of the user can be obtained from the sign acquisition unit 13, and the state acquiring unit 13 can be based on the real-time posture information and real-time signs of the user. The information gets the status of the user.

Correspondingly, the environment information collecting device 600 can obtain real-time environment information of the sleeping environment 100 in a manner of continuously monitoring the sleeping environment 100, and the environment information collecting unit 14 of the information collecting center 10 can The environmental information collecting device 600 obtains real-time environmental information of the sleeping environment 100. The scenario generating module 213 acquires the real-time status of the user from the state acquiring unit 12 and the real-time environment information of the sleeping environment 100 from the environment information collecting unit 14, respectively, and according to the real-time state of the user and the The real-time environment information of the sleep environment 100 generates the selection scheme to select a manner in which the fixture 200A is controlled when the selection scheme is executed by the selection module 214. For example, in FIG. 7, the control unit 22 can control the light generated by the luminaire 200A to be dimmed according to the selected control mode to adjust the real-time state of the sleeping environment 100 and make the sleep environment 100 The real-time status adapts to the real-time status of the user. In FIG. 8, the control unit 22 can control the color temperature of the light generated by the luminaire 200A to be adjusted according to the selected control mode to adjust the real-time state of the sleeping environment 100 and make the sleep environment 100 The real-time status adapts to the real-time status of the user. In FIG. 9, the control unit 22 can control the light and dark alternating of the light generated by the luminaire 200A according to the selected manner to adjust the real-time state of the sleeping environment 100 and adapt the real-time state of the sleeping environment 100 to use. The real-time status of the person.

(a) selecting a manner of controlling at least one of the electrical devices 200 in accordance with a real-time status of the user; and

(b) controlling the state of the electrical device 200 in accordance with the selected control mode to assist the user in sleep.

For example, in the step (a), the sleep assisting method selects a mode of controlling at least one of the luminaires 200A according to a real-time state of the user, and in the step (b), controls according to the selected control mode. In the state of the luminaire 200A, the sleep assisting method may control the brightness, color temperature, and brightness change of the light generated by the luminaire 200A according to the selected control manner to adjust the real-time state of the sleeping environment 100, thereby The real-time state of the sleeping environment 100 is adapted to the real-time state of the user, which in turn helps the user to sleep.

Preferably, the sleep aid method further comprises the steps of:

Generate a health guide based on the user's status; and

Feedback the health guidance.

For example, in the step (d), the sleep aid method may feed back the health guide by displaying the health guide on a display screen of the smart device to enable the health guide to be used by the user. View, which helps to help users improve their sleep.

Preferably, in the step (c), the sleep aid method generates the health instruction according to a state of the user over a period of time, for example, the sleep aid method may be based on the current state and history of the user. The health instruction is generated such that the health instruction is more instructive for improving the user's sleep.

Preferably, in the step (a), the method further comprises the steps of:

(a.1) generating a selection scheme according to the real-time state of the user through a scheme generation module 213; and

(a.2) The manner in which the electrical device 200 is controlled is selected when the selection module 214 executes the selection scheme.

Further, before the step (a), the sleep aid method further comprises the steps of:

Detecting the user's real-time gesture information; and

The real-time environment information of the environment in which the user is located is collected, and in the step (a), the manner of controlling the electrical device 200 is selected according to the real-time state of the user and the real-time environmental information of the environment in which the user is located.

Further, in the step of detecting real-time posture information of the user, the method further includes the steps of:

Sending a detection beam to the environment where the user is located by the at least one beam transmitter 301;

Receiving, by the at least one signal receiver 302, the detection beam that is responded by a user;

The real-time posture information of the user is detected according to the detection beam received by the signal receiver 302 and responded by the user.

Those skilled in the art will appreciate that the embodiments of the invention, which are illustrated in the drawings and described above, are merely illustrative and not limiting.

It can thus be seen that the object of the invention can be fully and efficiently accomplished. The embodiment has been described and described in detail to explain the principles of the present invention and the invention is not to be construed as limited. Accordingly, the present invention includes all modifications that come within the scope and spirit of the appended claims.

Claims

A sleep aid system characterized by comprising:

a control center, wherein the control center includes a selection unit and a control unit, the selection unit and the control unit are communicably connected to each other, wherein the selection unit selectively controls at least one electrical according to a real-time state of the user In the manner of the device, the control unit controls the state of the electrical device according to the selected control mode to help the user sleep.
A sleep aid system according to claim 1, further comprising an information collecting center, wherein said information collecting center includes an attitude detecting unit and a state acquiring unit, said posture detecting unit and said selecting unit being communicably respectively Connected to the state acquiring unit, wherein the posture detecting unit detects a real-time posture of the user, and the state acquiring unit obtains a real-time state of the user according to the real-time posture of the user detected by the posture detecting unit.
A sleep aid system according to claim 1, further comprising an information collecting center, wherein said information collecting center comprises an attitude detecting unit, an integrated sign collecting unit, and a state acquiring unit, said posture detecting unit, said sign The information collecting unit and the selecting unit are respectively communicably connected to the state acquiring unit, wherein the posture detecting unit detects a real-time posture of the user, and the vital sign collecting unit collects real-time physical information of the user, The state acquiring unit obtains the real-time state of the user according to the real-time posture of the user detected by the posture detecting unit and the real-time physical information of the user collected by the physical sign information collecting unit.
The sleep aid system of claim 1 further comprising an information collection center, wherein said information collection center includes an environmental information collection unit, said environmental information collection unit being communicably coupled to said selection unit, wherein The environmental information collecting unit collects real-time environmental information of the environment in which the user is located, and the selecting unit selects a manner of controlling the electrical device according to the real-time state of the user and the real-time environmental information of the environment in which the user is located.
A sleep aid system according to claim 2 or 3, wherein said collection center comprises an environmental information collection unit, said environmental information collection unit being communicably connected to said selection unit, wherein said environmental information collection unit collects The real-time environment information of the environment in which the user is located, the selection unit selects a manner of controlling the electrical device according to the real-time state of the user and real-time environmental information of the environment in which the user is located.
The sleep aid system according to claim 2 or 3, wherein said posture detecting unit detects a real-time posture of the user by externally connecting a detecting device, wherein said detecting means comprises at least one beam transmitter and at least one signal receiver Transmitting, by the beam transmitter, a detection beam to an environment in which the user is located, the signal receiver receiving the detection beam responded by a user, and the attitude detection unit is configured according to the detection received by the signal receiver The beam detects the real-time pose of the user.
The sleep aid system according to claim 5, wherein said posture detecting unit detects a real-time posture of the user by externally detecting a detecting means, wherein said detecting means comprises at least one beam transmitter and at least one signal receiver, The beam transmitter sends a detection beam to the environment in which the user is located, the signal receiver receives the detection beam responded by the user, and the attitude detection unit detects the detection beam according to the signal receiver The real-time posture of the user.
The sleep aid system according to claim 2 or 3, wherein said posture detecting unit detects a real-time posture of the user by externally attaching an image pickup device.
A sleep aid system according to any one of claims 1 to 8, wherein said selection unit comprises a scheme generation module and a selection module, said scheme generation module and said control unit being communicably coupled to said And a selection module, wherein the solution generation module generates a selection scheme according to a real-time state of the user, and the selection module selects a manner of controlling the electrical device when the selection scheme is executed.
A sleep aid system according to claim 9, wherein said selection unit comprises an analysis module and a determination module, said analysis module and said solution generation module being communicably coupled to said determination module, respectively The analysis module analyzes the real-time status of the user, and the determination module determines whether the user desires sleep according to the analysis result of the analysis module, and the solution generation module generates the selection plan according to the determination result of the determination module.
A sleep aid system according to any one of claims 2 to 4, further comprising an interaction center, wherein said interaction center includes a health coaching unit, said health coaching unit being communicably coupled to said information collection center, The health coaching unit generates a health guide according to a user who is collected by the information collecting center and sleeps for a period of time.
A sleep aid system according to any one of claims 1 to 11, wherein the electrical device is a light fixture.
A sleep aid method, characterized in that the sleep aid method comprises the following steps:

(a) selecting a method of controlling at least one electrical device based on the real-time status of the user; and

(b) controlling the state of the electrical device according to the selected control mode to help the user sleep.
The sleep assisting method according to claim 13, wherein before said step (a), the method further comprises the steps of:

Detecting the user's real-time posture; and

The real-time status of the user is obtained based on the detected real-time posture of the user.
The sleep assisting method according to claim 13, wherein before said step (a), the method further comprises the steps of:

Detecting the user's real-time posture and collecting real-time physical information of the user; and

The real-time status of the user is obtained based on the detected real-time posture of the user and the real-time physical information of the collected user.
The sleep method according to claim 13, wherein before said step (a), the method further comprises the steps of:

Collecting real-time environmental information of the environment in which the user is located, in the step (a), selecting a manner of controlling the electrical device according to the real-time state of the user and the real-time environmental information of the environment in which the user is located.
The sleep assisting method according to claim 14 or 15, wherein before said step (a), the method further comprises the steps of:

Collecting real-time environmental information of the environment in which the user is located, in the step (a), selecting a manner of controlling the electrical device according to the real-time state of the user and the real-time environmental information of the environment in which the user is located.
The sleep assisting method according to claim 14 or 15, wherein in the step of detecting the real-time posture of the user, the method further comprises the steps of:

Sending a detection beam to the environment where the user is located by using at least one beam transmitter;

Receiving, by the at least one signal receiver, the detection beam that is responded by a user;

The real-time posture of the user is detected according to the detection beam received by the signal receiver and responded by the user.
The sleep assisting method according to any one of claims 13 to 18, wherein in the step (a), the method further comprises the steps of:

(a.1) generating a selection scheme according to the real-time state of the user through a scheme generation module; and

(a.2) Selecting a mode of controlling the electrical device when a selection module executes the selection scheme.
A method of assisting sleep according to any one of claims 13 to 19, wherein said electrical device is a light fixture.