WO2022099953A1

WO2022099953A1 - Wakeup method for smart bed and device thereof

Info

Publication number: WO2022099953A1
Application number: PCT/CN2021/079259
Authority: WO
Inventors: 单华锋; 程杰; 任宇翔; 曹辉; 陈慧; 王维; 陈学刚
Original assignee: 麒盛科技股份有限公司
Priority date: 2020-11-11
Filing date: 2021-03-05
Publication date: 2022-05-19
Also published as: CN112472949B; CN112472949A

Abstract

A wakeup method for a smart bed and a device thereof. The wakeup method comprises: acquiring preset clock information, the clock information being clock information stored in a smart mobile terminal, a cloud, a smart bed or a remote controller (S101); and when it is detected that the current time matches the clock information, sending a wakeup instruction to the smart bed, the wakeup instruction being used for controlling the smart bed to execute a preset wakeup action or a wakeup action matching a sleep state of a user (S102), the wakeup action comprising a sine-wave vibration, a trapezoidal vibration and a wave vibration. In the wakeup method for a smart bed and the device thereof, waking up a user by means of a specific vibration mode helps to relieve the pressure of the user, so that the whole body of the user is relaxed, and the body functions are gradually recovered, thereby avoiding awakening a customer in a sudden manner and improving the user experience.

Description

A wake-up method and device for smart bed

technical field

The invention relates to the field of household technology, in particular to a wake-up method for a smart bed and a wake-up device for the smart bed.

Background technique

Most of the alarm clock products on the market wake up the user through sound, which will frighten the user to a certain extent, cannot wake up the user friendly, and the experience effect is poor.

SUMMARY OF THE INVENTION

The present invention provides a wake-up method for a smart bed and a device thereof to solve the technical problem of how to gently wake up a user.

To this end, the present invention provides a wake-up method for a smart bed, the wake-up method for a smart bed includes:

Obtain preset clock information, where the clock information is the clock information stored on the smart mobile terminal, cloud, smart bed or remote controller;

When detecting that the current time matches the clock information, send a wake-up command to the smart bed, where the wake-up command is used to control the smart bed to perform a preset wake-up action or a wake-up action that matches the sleep state of the user;

The awakening action includes: sine wave vibration, ladder vibration and wave vibration.

Further, before acquiring the preset clock information, it also includes:

Based on the user's setting operation, the wake-up action is set to at least one of sine wave vibration, ladder vibration and wave vibration or matches a personalized wake-up action.

Further, the controlling the smart bed to perform a wake-up action matching the sleep state of the user includes:

Obtain the collected physiological sign parameters of the user;

Determine the sleep state of the user according to the physiological sign parameter, where the sleep state includes: deep sleep, light sleep and awakening;

When it is determined that the sleep state is deep sleep, the smart bed performs the ladder vibration;

When it is determined that the sleep state is light sleep, the smart bed performs the wave vibration;

When it is determined that the user is in an awake state, the smart bed performs the sine wave vibration.

Further, the physiological sign parameters include at least one of the following data: heart rate data, respiration rate data, body motion data and micro-motion data.

Further, the sine wave vibration includes:

The smart bed jumps to the preset vibration intensity to cycle in a manner of gradually increasing the vibration intensity to the highest vibration intensity within M seconds, and then gradually reducing the vibration intensity to the preset vibration intensity within N seconds;

Wherein, different parts of the smart bed vibrate synchronously.

Further, the sine wave vibration follows the following formula:

where I is the intensity rate,

Indicates the vibration time.

Further, the ladder form vibration includes:

The smart bed is cycled in a manner of shaking Q seconds with the same intensity at every interval of P seconds;

Wherein, the vibration periods of different parts of the smart bed do not overlap.

Further, the wave vibration includes:

The smart bed is cycled in a manner of gradually increasing the vibration intensity within X seconds, and then gradually weakening the vibration intensity within Y seconds;

Wherein, different parts of the smart bed vibrate synchronously.

The present invention also provides a wake-up device for a smart bed including:

an information acquisition unit, configured to acquire preset clock information, where the clock information is the clock information stored on the intelligent mobile terminal, the cloud, the intelligent bed or the remote controller;

a time comparison unit for judging whether the current time matches the clock information;

The mode control unit is used to send a wake-up command to the smart bed, where the wake-up command is used to control the smart bed to perform a preset wake-up action or a wake-up action that matches the sleep state of the user; the wake-up action includes: Zheng Xuan Bo vibration, ladder vibration and wave vibration.

Further, it also includes:

The user setting unit is used for the user to set the wake-up action as at least one of the sine wave vibration, the ladder vibration and the wave vibration, or to match the personalized wake-up action.

Further, it also includes:

a physical sign collection unit, used for acquiring the collected physiological sign parameters of the user;

a matching unit, configured to determine the sleep state of the user according to the physiological sign parameter, where the sleep state includes: deep sleep, light sleep and awakening;

Further, the mode control unit is used to control:

Wherein, different parts of the smart bed vibrate synchronously.

Further, the mode control unit is used to control:

Wherein, different parts of the smart bed vibrate synchronously.

The wake-up method and device for a smart bed of the present invention can wake up the user through a specific vibration method to help relieve the user's pressure, so that the user's whole body can be relaxed, gradually stimulate the recovery of human body functions, avoid waking up the customer, and improve the user experience.

Description of drawings

Other features, objects and advantages of the present invention will become more apparent by reading the detailed description of non-limiting embodiments made with reference to the following drawings:

1 is a schematic flowchart of a wake-up method for an intelligent bed according to Embodiment 1 of the present invention;

2 is a schematic diagram of the voltage control of the sine wave vibration according to the first embodiment of the present invention;

3 is a schematic diagram of the voltage control of the ladder vibration according to the first embodiment of the present invention;

4 is a schematic diagram of the voltage control of the wave vibration according to the first embodiment of the present invention;

5 is a schematic flowchart of a wake-up method for an intelligent bed according to Embodiment 2 of the present invention;

FIG. 6 is a schematic structural diagram of a wake-up device for a smart bed according to Embodiment 3 of the present invention.

Detailed ways

The present invention will be described in further detail below with reference to the accompanying drawings.

The wake-up method for a smart bed provided by the embodiment of the present invention is used to control the smart bed to execute a preset vibration mode to gently wake up a sleeping user. FIG. 1 is a schematic flowchart of a wake-up method for a smart bed according to Embodiment 1 of the present invention. As shown in FIG. 1 , the wake-up method for a smart bed includes:

Step S101, acquiring preset clock information, where the clock information is clock information stored on an intelligent mobile terminal, cloud, intelligent bed or remote controller;

Step S102, when detecting that the current time matches the clock information, send a wake-up command to the smart bed, where the wake-up command is used to control the smart bed to perform a preset wake-up action or a wake-up action that matches the sleep state of the user ;

Wherein, the awakening action includes: sine wave vibration, ladder vibration and wave vibration.

When someone is lying on the bed, the sensor starts to detect various data of the human body and transmits it to the main control box, and then the main control box reports it to the cloud background, records it, and then transmits it to the terminal device for display or directly to the terminal device for display. , which is convenient for users to view related data. Users can operate on the terminal device. When the time to get up is reached, the sonic massage motor starts to work. There are many massage modes, such as sine wave vibration, ladder vibration, wave vibration and so on. If the customer wants to wake up with a specific wake-up action, the user can pre-set the wake-up action as sine wave vibration, ladder vibration, wave vibration, automatic matching of personalized wake-up actions or bed board lift, bed board lift It is raised by the motor corresponding to the corresponding position of the bed board to a certain height and then lowered, repeated several times, so as to gently wake up the user. There are two main ways to turn off the massage: one is to use the remote control to turn off or to set it for 5 minutes. The second is to use the voice to stop, or say to the voice to sleep for another 5 minutes. Awakening the user through massage helps relieve the user's pressure, relaxes the user's whole body, gradually stimulates the recovery of human body functions, avoids waking up the customer, and improves the user experience.

Specifically, the sine wave vibration includes:

Wherein, different parts of the smart bed vibrate synchronously.

FIG. 2 is a schematic diagram of voltage control of sine wave vibration according to the first embodiment of the present invention. As shown in FIG. 2 , the smart bed starts to vibrate at a preset intensity, and after the progressive enhancement reaches the highest intensity, it gradually weakens, and the intensity increases according to the curve. Or decrement, the default continues to cycle for 10 minutes. The vibration intensity increases slowly, gradually strengthens the stimulation to the human body, avoids excessive stimulation to the human body, gradually stimulates the recovery of human body functions, and urges the user to gradually leave the sleep state until he wakes up. Simulate the tide hitting the human body, soothe your body and mind and relieve fatigue.

Among them, 0<M<60 seconds and 0<N<60 seconds.

Preferably, the sine wave vibration follows the formula:

where I is the intensity rate,

Indicates the vibration time.

Specifically, the ladder form vibration includes:

Fig. 3 is a schematic diagram of voltage control of the ladder vibration according to the first embodiment of the present invention. As shown in Fig. 3, the horizontal axis represents time, and the vertical axis represents the vibration ratio compared with the highest vibration intensity. The first part of the smart bed passes through The upper coordinate diagram represents, and the second part of the smart bed is represented by the lower coordinate diagram. For example, the first part vibrates for 5 seconds. After waiting for 5 seconds, the second part vibrates for 5 seconds, and the cycle continues. The edge of the intensity curve is a straight line, and the default continues to cycle for 10 minutes. In the same way, it can also be divided into multiple parts to strengthen the effect of awakening. The head and feet are vibrated in time slots, the head and feet are turned on and off in time periods, and the vibration is performed intermittently to promote blood circulation, relieve muscle fatigue, awaken human body functions, and urge users to wake up.

Among them, 0<P<60 seconds and 0<Q<60 seconds.

Specifically, the wave vibration includes:

Wherein, different parts of the smart bed vibrate synchronously.

FIG. 4 is a schematic diagram of voltage control of wave vibration according to Embodiment 1 of the present invention. As shown in FIG. 4 , the horizontal axis represents time, and the vertical axis represents the vibration ratio compared with the highest vibration intensity. The vibration of the bed gradually increases to the highest intensity, and then gradually falls back to the initial vibration intensity. The vibration intensity increases slowly to gradually strengthen the stimulation to the human body to avoid excessive stimulation to the human body; the vibration intensity gradually decreases to achieve the effect of soothing the human body; it gradually stimulates the recovery of human body functions, and prompts the user to gradually leave the sleep state until he wakes up.

Among them, 0<X<60 seconds and 0<Y<60 seconds.

FIG. 5 is a schematic flowchart of a wake-up method for a smart bed according to Embodiment 2 of the present invention. As shown in FIG. 5 , the wake-up method includes:

Step S201 , based on a user's setting operation, set the wake-up action to at least one of sine wave vibration, ladder vibration and wave vibration, or match a personalized wake-up action.

Step S202, obtaining preset clock information, where the clock information is the clock information stored on the smart mobile terminal, cloud, smart bed or remote controller;

Step S203, when detecting that the current time matches the clock information, send a wake-up command to the smart bed, where the wake-up command is used to control the smart bed to perform a preset wake-up action or a wake-up action that matches the sleep state of the user ;

Wherein, the wake-up action includes: sine wave vibration, ladder vibration and wave vibration;

Step S204, acquiring the collected physiological sign parameters of the user;

Step S205, determining the sleep state of the user according to the physiological sign parameter, where the sleep state includes: deep sleep, light sleep and awakening;

Wherein, the physiological sign parameters include at least one of heart rate, respiration rate, body movement and fretting.

Users can operate on the terminal device, and can pre-set the wake-up action as sine wave vibration, ladder vibration, wave vibration, matching personalized wake-up action, and the user can choose the wake-up action selected by the user when it wakes up. After the user selects the personalized wake-up action, the sleep state of the user is determined according to the physiological sign parameters through the physiological sign parameters, the sleep state includes: deep sleep, light sleep and awakening, and the sign parameters include: heart rate data, respiratory rate data, body movement Data and micro-motion data, etc., the user's heart rate, breathing rate and micro-motion gradually increase from deep sleep, light sleep to waking state, and physical movement will also increase. By comparing the physical parameters with the threshold range, it is determined that the sleep state is deep. Sleep, light sleep or wake up. People in deep sleep who are suddenly awakened have a certain risk of sudden death. When the sleep state is determined to be deep sleep and reaches the preset time by the physical parameters, the ladder vibration is performed; when the sleep state is determined to be light sleep and reaches the preset time by the physical parameters, the wave vibration is performed; when determined by the physical parameters When the sleep state is awake and the preset time is reached, the sine wave vibration is performed. The vibration amplitude and frequency change with the change of the sleep state. Different wake-up actions are performed in different sleep stages, gradually stimulating the human body, gradually stimulating the recovery of human body functions, and urging the user to gradually leave the deep sleep state and enter the light sleep until wake up, which is more humane And soft, the user will not be woken up immediately, making the user's wake-up process more natural, avoiding waking up the user, and giving the user a better experience.

The wake-up method for a smart bed of the present invention gently wakes up the user through a variety of vibration modes.

FIG. 6 is a schematic structural diagram of a wake-up device for a smart bed according to Embodiment 3 of the present invention. As shown in FIG. 6 , the wake-up device 40 includes:

The information acquisition unit 41 is used for acquiring preset clock information, where the clock information is the clock information stored on the intelligent mobile terminal, the cloud, the intelligent bed or the remote controller;

Time comparison unit 42, for judging whether the current time matches with the clock information;

A mode control unit 43, configured to send a wake-up command to the smart bed, where the wake-up command is used to control the smart bed to perform a preset wake-up action or a wake-up action vibration that matches the sleep state of the user;

The wake-up device for a smart bed provided in Embodiment 3 of the present invention is an implementation device for the wake-up method for a smart bed provided in Embodiment 1 of the present invention. Its specific principle is the same as the method provided in Embodiment 1 of the present invention. Repeat.

Further, the wake-up device 40 further includes: a user setting unit 44 for the user to set the wake-up action to be at least one of sine wave vibration, ladder vibration and wave vibration or match the personalized wake-up action vibration vibration vibration vibration .

The user can pre-select a wake-up action, and when it is detected that the current time matches the clock information, the wake-up action selected by the user is executed to meet the actual needs of different customers and facilitate the use of the user.

Further, the wake-up device 40 also includes:

a physical sign collection unit 45, configured to acquire the collected physiological sign parameters of the user;

a matching unit 46, configured to determine the sleep state of the user according to the physiological sign parameter, where the sleep state includes: deep sleep, light sleep and awakening;

Specifically, the mode control unit is used to control:

Wherein, different parts of the smart bed vibrate synchronously.

Alternatively, the mode control unit is used to control:

Wherein, different parts of the smart bed vibrate synchronously.

This is an implementation device for a wake-up method for an intelligent bed provided by the second embodiment of the present invention, and its specific principle is the same as that of the method provided by the second embodiment of the present invention, so it will not be repeated.

The wake-up device for the smart bed in the embodiment of the present invention is an implementation device of the wake-up method in the embodiment of the present invention. For the specific principle, please refer to the wake-up method in the embodiment of the present invention, which will not be repeated here.

Other embodiments of the invention will readily occur to those skilled in the art upon consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention that follow the general principles of the invention and include common knowledge or techniques in the art not disclosed by this disclosure . The specification and examples are to be regarded as exemplary only, with the true scope and spirit of the invention being indicated by the following claims.

It should be understood that the present invention is not limited to the precise structures described above and illustrated in the accompanying drawings, and that various modifications and changes may be made without departing from its scope. Type the instructions here.

Claims

A wake-up method for an intelligent bed, comprising:

Obtain preset clock information, where the clock information is the clock information stored on the smart mobile terminal, cloud, smart bed or remote controller;

When detecting that the current time matches the clock information, send a wake-up command to the smart bed, where the wake-up command is used to control the smart bed to perform a preset wake-up action or a wake-up action that matches the sleep state of the user;

The awakening action includes: sine wave vibration, ladder vibration and wave vibration.
The wake-up method for an intelligent bed according to claim 1, characterized in that, before acquiring preset clock information, further comprising:

Based on the user's setting operation, the wake-up action is set to at least one of sine wave vibration, ladder vibration and wave vibration, or matches a personalized wake-up action.
The wake-up method for a smart bed according to claim 1, wherein the controlling the smart bed to perform a wake-up action matching the sleep state of the user comprises:

Obtain the collected physiological sign parameters of the user;

Determine the sleep state of the user according to the physiological sign parameter, where the sleep state includes: deep sleep, light sleep and awakening;

When it is determined that the sleep state is deep sleep, the smart bed performs the ladder vibration;

When it is determined that the sleep state is light sleep, the smart bed performs the wave vibration;

When it is determined that the user is in an awake state, the smart bed performs the sine wave vibration.
The wake-up method for a smart bed according to claim 3, wherein the physiological sign parameters include at least one of the following data: heart rate data, respiration rate data, body motion data and micro-motion data.
The control method according to any one of claims 1 to 4, wherein the sine wave vibration comprises:

The smart bed jumps to the preset vibration intensity and repeats the cycle in a manner of gradually increasing the vibration intensity to the highest vibration intensity within M seconds, and then gradually reducing the vibration intensity to the preset vibration intensity within N seconds;

Wherein, different parts of the smart bed vibrate synchronously.
The control method according to claim 4, wherein the sine wave vibration follows the following formula:

I=0.3+0.7sinЭ……………………………………(1)

Among them, I represents the intensity rate, and Э represents the vibration time.
The control method according to any one of claims 1 to 4, wherein the ladder vibration comprises:

The smart bed is cycled in a manner of shaking Q seconds with the same intensity at every interval of P seconds;

Wherein, the vibration periods of different parts of the smart bed do not overlap.
The control method according to any one of claims 1 to 4, wherein the wave vibration comprises:

The smart bed is cycled in a manner of gradually increasing the vibration intensity within X seconds, and then gradually weakening the vibration intensity within Y seconds;

Wherein, different parts of the smart bed vibrate synchronously.
A wake-up device for an intelligent bed, comprising:

an information acquisition unit, configured to acquire preset clock information, where the clock information is the clock information stored on the intelligent mobile terminal, the cloud, the intelligent bed or the remote controller;

a time comparison unit for judging whether the current time matches the clock information;

The mode control unit is used to send a wake-up command to the smart bed, where the wake-up command is used to control the smart bed to perform a preset wake-up action or a wake-up action that matches the sleep state of the user; the wake-up action includes: Zheng Xuan Bo vibration, ladder vibration and wave vibration.
The wake-up device for a smart bed according to claim 9, further comprising:

The user setting unit is used for the user to set the wake-up action to be at least one of sine wave vibration, ladder vibration and wave vibration, or to match the individual wake-up action.
The wake-up device for a smart bed according to claim 9, further comprising:

a physical sign collection unit, used for acquiring the collected physiological sign parameters of the user;

a matching unit, configured to determine the sleep state of the user according to the physiological sign parameter, and the sleep state includes: deep sleep, light sleep and awakening;

When it is determined that the sleep state is deep sleep, the smart bed performs the ladder vibration;

When it is determined that the sleep state is light sleep, the smart bed performs the wave vibration;

When it is determined that the user is in an awake state, the smart bed performs the sine wave vibration.
The wake-up device for a smart bed according to claim 11, wherein the physiological sign parameters include at least one of the following data: heart rate data, respiration rate data, body motion data and micro-motion data.
The wake-up device for an intelligent bed according to any one of claims 9 to 12, wherein the mode control unit is used to control:

The smart bed jumps to the preset vibration intensity and repeats the cycle in a manner of gradually increasing the vibration intensity to the highest vibration intensity within M seconds, and then gradually reducing the vibration intensity to the preset vibration intensity within N seconds;

Wherein, different parts of the smart bed vibrate synchronously.
The wake-up device for an intelligent bed according to any one of claims 9 to 12, wherein the mode control unit is used to control:

The smart bed is cycled in a manner of shaking Q seconds with the same intensity at every interval of P seconds;

Wherein, the vibration periods of different parts of the smart bed do not overlap.
The wake-up device for an intelligent bed according to any one of claims 9 to 12, wherein the mode control unit is used to control:

The smart bed is cycled in a manner of gradually increasing the vibration intensity within X seconds, and then gradually weakening the vibration intensity within Y seconds;

Wherein, different parts of the smart bed vibrate synchronously.