CN108303927B - Control method of alarm clock wake-up system - Google Patents

Abstract

The invention provides a control method of an alarm clock awakening system, which comprises the steps of S1, drawing and memorizing a first pressure curve and a second pressure curve by the alarm clock awakening system; s2, acquiring first identity information input by a first user and a first awakening strategy to acquire second identity information input by a second user and a second awakening strategy; s3, the first electronic weighing unit monitors the pressure of the bed body covered on the first electronic weighing unit; the second electronic weighing unit monitors the pressure of the bed body covered on the second electronic weighing unit; s4, comparing, if matching is successful, determining that the pressure monitored by the first electronic weighing group is from the first user, and executing the first awakening strategy, otherwise executing the second awakening strategy; the control method of the alarm clock wake-up system can effectively and independently wake up one of two users, and avoids the problem that the traditional alarm clock can wake up two users at the same time.

Description

Control method of alarm clock wake-up system

Technical Field

The invention relates to the technical field of life, in particular to a control method of an alarm clock wake-up system.

Background

The prior alarm clock wake-up device generally adopts a ring mode sent by an alarm clock or other modes to wake up a sleeper. However, if the couple is a couple or two persons are in the same bed under other conditions, after the alarm clock wakes up one sleeper, the other sleeper is also forced to wake up.

Therefore, it is necessary to design a control method of an alarm clock wake-up system capable of separately waking up a corresponding sleeper at a time point when two persons get up in the same bed.

Disclosure of Invention

The invention provides a control method of an alarm clock wake-up system, which can effectively realize that corresponding sleepers can be waken up individually at the time points of getting up when two persons are in the same bed, and aims to solve the technical problem that in the traditional alarm clock wake-up mode, when two persons are in the same bed, after an alarm clock wakes up one sleeper, the other sleeper is also forced to wake up.

The invention is realized by the following steps:

a control method of an alarm clock awakening system is characterized in that the alarm clock awakening system comprises a bed body, a first electronic weighing group, a second electronic weighing group, an input display screen and a control center; the input display screen is connected with the control center, and the first electronic weighing group and the second electronic weighing group are arranged in parallel along the length direction of the bed body, wherein the first electronic weighing group comprises a plurality of first electronic weighing units arranged at intervals at a first interval along the length direction of the bed body, and the second electronic weighing group comprises a plurality of second electronic weighing units arranged at intervals at a second interval along the length direction of the bed body; each first electronic weighing unit is connected with a first vibration motor, and each second electronic weighing unit is connected with a second vibration motor; the first electronic weighing unit and the second electronic weighing unit are both connected with the control center; the first vibration motor and the second vibration motor are both connected with the control center; the first electronic weighing group and the second electronic weighing group are attached below the surface of the bed body and used for monitoring the pressure acting on the surface of the bed body; the first vibration motor and the second vibration motor are arranged below the surface of the bed body and are attached to one side corresponding to the first electronic weighing unit or one side of the second electronic weighing unit to drive the surface of the bed body to vibrate; the control method comprises the following steps:

s1, the alarm clock awakening system switches the input display screen into a memory mode, acquires identity information input by a first user through the input display screen, namely first identity information, when the first user lies on a bed body and covers the first electronic weighing group, the first electronic weighing units in the first electronic weighing group detect gravity and transmit signals of the first electronic weighing units to the control center respectively, the control center collects and draws signals of the first electronic weighing units into a first pressure curve according to the length direction of the bed body and memorizes the first pressure curve, and the first pressure curve comprises a first lying pressure curve when the first user lies and a first side lying pressure curve when the first user lies on the side; acquiring identity information input by a second user, namely second identity information, when the second user lies on the bed body and covers the second electronic weighing group, the second electronic weighing units in the second electronic weighing group detect gravity and transmit signals of the second electronic weighing units to the control center respectively, the control center collects and draws signals of the second electronic weighing units into a second pressure curve according to the length direction of the bed body and memorizes the second pressure curve, and the second pressure curve comprises a second lying pressure curve when the second user lies and a second side lying pressure curve when the second user lies on the side;

s2: the alarm clock awakening system switches the input display screen into an awakening mode, and acquires first identity information and a first awakening strategy input by a first user through the input display screen; acquiring second identity information and a second awakening strategy input by a second user; wherein the first wake-up policy comprises a first wake-up time and the second wake-up policy comprises a second wake-up time;

s3: the first electronic weighing unit monitors the pressure of the bed body covered on the first electronic weighing unit; the second electronic weighing unit monitors the pressure of the bed body covered on the second electronic weighing unit;

s4: when the pressure is detected, the first electronic weighing unit transmits a first pressure signal detected by the first electronic weighing unit to the control center, and the second electronic weighing unit transmits a second pressure signal detected by the second electronic weighing unit to the control center;

s5: the control center collects and draws the first pressure signals detected by the first electronic weighing unit into a first comparative pressure curve according to the length direction of the bed body; the control center collects and plots second pressure signals detected by the second electronic weighing unit according to the length direction of the bed body to form a second comparative pressure curve;

s6: the control center compares the first comparison pressure curve and the second comparison pressure curve with the first pressure curve respectively and matches the first comparison pressure curve, if the first comparison pressure curve and the second comparison pressure curve are matched successfully, the pressure monitored by the first electronic weighing group is determined to come from the first user, and the first awakening strategy is executed; the control center compares the first comparison pressure curve and the second comparison pressure curve with the second pressure curve respectively and matches the first comparison pressure curve and the second comparison pressure curve, if the first comparison pressure curve and the second comparison pressure curve are matched successfully, the pressure monitored by the second electronic weighing group is determined to come from the second user, and the second awakening strategy is executed; the first awakening strategy comprises that when the actual time reaches the first awakening time, the control center controls the first vibration motor or the second vibration motor to work so as to awaken the first user or the second user independently; the second awakening strategy comprises that when the actual time reaches the second awakening time, the control center controls the second vibration motor or the first vibration motor to work so as to awaken the second user or the first user independently.

As a further improvement, in the step S5: and in five minutes before the first awakening time and the second awakening time, the control center collects and draws the first comparison pressure curve and the second comparison pressure curve in real time.

As a further improvement, in the step S6: the first electronic weighing unit judges that the matching is successful when the pressure difference value of the first electronic weighing unit signal and the first pressure signal detected by the first electronic weighing unit in the memory mode and the wake-up mode is in the range of 1 kg; and the second electronic weighing unit judges that the matching is successful when the pressure difference value of the second electronic weighing unit signal and the second pressure signal detected by the second electronic weighing unit in the memory mode and the wake-up mode is in the range of 1 kg.

As a further improvement, the lengths of the first electronic weighing group and the second electronic weighing group are respectively defined as d, wherein the range of d is 1.5-2.3 meters; the plurality of first electronic weighing units and the plurality of second electronic weighing units are respectively and uniformly arranged at intervals, and the distance between every two adjacent first electronic weighing units or every two adjacent second electronic weighing units is defined as h, wherein the range of h is 1-3 cm.

As a further improvement, the first electronic weighing unit and the second electronic weighing unit are miniature sheet pressure gauges.

As a further improvement, a time module is further arranged in the control center to determine the actual time, and the control center is further connected with a power supply.

As a further improvement, the control center is a single chip microcomputer.

As a further improvement, in the width direction of the bed body, the distance between the first electronic weighing group and the second electronic weighing group and the edge of the bed body is one third of the width of the bed body.

The invention has the beneficial effects that:

1. the control method of the alarm clock awakening system integrally adopts the control steps, the pressure distribution curve corresponding to each user can be effectively memorized by the control center firstly, the control steps comprise that the pressure distribution curves of the user in the two conditions of lying and lying on the side can effectively ensure the accurate judgment of the user in different sleeping postures, and then the memorized pressure distribution curve is compared and matched with the actually detected pressure distribution curve, so that the time point of the user needing to be awakened and the specific position of the user which are successfully matched are judged, the vibration of the corresponding position of the bed body is accurately and efficiently realized to achieve the purpose of awakening the user needing to be awakened at the time independently, and the problem that the other person is awakened when the two persons are in the same bed in the traditional alarm clock awakening mode is solved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic diagram of a top view of an alarm clock wake-up system according to the present invention;

fig. 2 is a schematic side view of an alarm clock wake-up system according to the present invention.

Description of the main elements

A bed body 10,

A first electronic weighing group 20,

A first electronic weighing unit 21,

A second electronic weighing group 30,

A second electronic weighing unit 31,

An input display screen 40,

A control center 50,

A first vibration motor 60,

A second vibration motor 70,

A power supply 80,

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 2, in an embodiment, a method for controlling an alarm clock wake-up system includes a bed 10, a first electronic weighing group 20, a second electronic weighing group 30, an input display screen 40, and a control center 50; the input display screen 40 is connected with the control center 50, and the first electronic weighing group 20 and the second electronic weighing group 30 are arranged in parallel along the length direction of the bed 10, wherein the first electronic weighing group 20 includes a plurality of first electronic weighing units 21 arranged at intervals at a first interval along the length direction of the bed 10, and the second electronic weighing group 30 includes a plurality of second electronic weighing units 31 arranged at intervals at a second interval along the length direction of the bed 10; wherein, each first electronic weighing unit 21 is connected with a first vibration motor 60, and each second electronic weighing unit 31 is connected with a second vibration motor 70; the first electronic weighing unit 21 and the second electronic weighing unit 31 are both connected with the control center 50; the first vibration motor 60 and the second vibration motor 70 are both connected to the control center 50; the first electronic weighing group 20 and the second electronic weighing group 30 are attached below the surface of the bed body 10 and used for monitoring the pressure acting on the surface of the bed body 10; the first vibration motor 60 and the second vibration motor 70 are arranged below the surface of the bed body 10 and are attached to one side corresponding to the first electronic weighing unit or one side of the second electronic weighing unit to drive the surface of the bed body 10 to vibrate; the control method comprises the following steps:

s1, the alarm clock awakening system switches the input display screen 40 into a memory mode, acquires identity information input by a first user through the input display screen 40, and when the first user lies on the bed body 10 and covers the first electronic weighing group 20, the first electronic weighing units 21 in the first electronic weighing group 20 detect gravity and transmit signals of the first electronic weighing units 21 to the control center 50 respectively, the control center 50 collects and draws signals of the first electronic weighing units 21 into first pressure curves according to the length direction of the bed body 10 and memorizes the first pressure curves, wherein the first pressure curves comprise a first lying pressure curve when the first user lies and a first side lying pressure curve when the first user lies on the side; acquiring identity information input by a second user, namely second identity information, when the second user lies on the bed body 10 and covers the second electronic weighing group 30, the second electronic weighing units 31 in the second electronic weighing group 30 detect gravity and transmit signals of the second electronic weighing units 31 to the control center 50 respectively, the control center 50 collects and draws signals of the second electronic weighing units 31 into a second pressure curve according to the length direction of the bed body 10 and memorizes the second pressure curve, and the second pressure curve comprises a second lying pressure curve when the second user lies and a second side lying pressure curve when the second user lies on the side;

s2: the alarm clock awakening system switches the input display screen 40 into an awakening mode, and acquires first identity information and a first awakening strategy input by a first user through the input display screen 40; acquiring second identity information and a second awakening strategy input by a second user; wherein the first wake-up policy comprises a first wake-up time and the second wake-up policy comprises a second wake-up time;

s3: the first electronic weighing unit 21 monitors the pressure of the bed body 10 covered thereon; the second electronic weighing unit 31 monitors the pressure of the bed body 10 covered thereon;

s4: when the pressure is detected, the first electronic weighing unit 21 transmits a first pressure signal detected by the first electronic weighing unit to the control center 50, and the second electronic weighing unit 31 transmits a second pressure signal detected by the second electronic weighing unit to the control center 50;

s5: the control center 50 summarizes and plots the first pressure signals detected by the first electronic weighing unit 21 according to the length direction of the bed body 10 to form a first comparative pressure curve; the control center 50 summarizes and plots the second pressure signals detected by the second electronic weighing unit 31 according to the length direction of the bed body 10 to form a second comparative pressure curve;

s6: the control center 50 compares and matches the first comparative pressure curve and the second comparative pressure curve with the first pressure curve, if the matching is successful, it is determined that the pressure monitored by the first electronic weighing group 20 is from the first user, and the first wake-up strategy is executed; the control center 50 compares and matches the first comparative pressure curve and the second comparative pressure curve with the second pressure curve, if the matching is successful, it is determined that the pressure monitored by the second electronic weighing group 30 is from the second user, and the second wake-up strategy is executed; wherein the first wake-up strategy comprises that when the actual time reaches the first wake-up time, the control center 50 controls the first vibration motor 60 or the second vibration motor 70 to work so as to wake up the first user or the second user separately; the second wake-up strategy includes that when the actual time reaches the second wake-up time, the control center 50 controls the second vibration motor 70 or the first vibration motor 60 to work so as to wake up the second user or the first user separately.

The first pressure curve, the second pressure curve, the first pressure curve and the second pressure curve are pressure line graphs which are formed by sequentially connecting pressure values received by each electronic weighing unit in the same direction along the length direction of the bed body 10, the abscissa of the pressure line graph is a mark value of different electronic weighing units, and the ordinate of the pressure line graph is a pressure value.

The overall adoption of such control steps can effectively memorize the pressure distribution curve corresponding to each user through the control center 50, which can effectively ensure the accurate judgment of the user under the different sleeping postures by the pressure distribution curve under the two conditions of lying and lying on the side of the user, and then compare and match the memorized pressure distribution curve with the actually detected pressure distribution curve, thereby judging the time point when the user successfully matched with the pressure distribution curve needs to be awakened and the specific position of the user, accurately and efficiently realizing the vibration of the corresponding position of the bed body 10 to achieve the purpose of independently awakening the user who needs to be awakened at the time, and avoiding the problem that the other person is awakened when two persons are awakened when the two persons are in the same bed in the traditional alarm clock awakening mode.

Further, in the step S5: within five minutes before the first wake-up time and the second wake-up time, the control center 50 draws the first comparative pressure curve and the second comparative pressure curve in a real-time summary manner, and by adopting the acquisition time period, power consumption can be effectively saved, and too much useless work can be avoided when the distance from the wake-up time is still long.

Further, in the step S6: when the pressure difference value of the first electronic weighing unit 21 signal and the first pressure signal detected by the first electronic weighing unit 21 in the memory mode and the wake-up mode is within the range of 1kg, the matching is judged to be successful; the pressure difference value of the second pressure signal and the signal of the second electronic weighing unit 31 detected by the second electronic weighing unit 31 in the memory mode and the wake-up mode is within the range of 1kg, which is determined as successful matching, and since the contact area of the muscle and the bed body 10 may be changed due to slight change of the sleeping posture angle of the human body during the sleeping process, the pressure value is also changed, so that the pressure difference value is allowed to be within 1kg, thereby ensuring accurate matching under different sleeping posture angles.

Referring to fig. 1, in the embodiment, the lengths of the first electronic weighing group and the second electronic weighing group are defined as d, respectively, where d ranges from 1.5 meters to 2.3 meters; the plurality of first electronic weighing units and the plurality of second electronic weighing units are respectively and uniformly arranged at intervals, and the distance between every two adjacent first electronic weighing units or every two adjacent second electronic weighing units is defined as h, wherein the range of h is 1-3 cm. The distance between two adjacent first electronic weighing units or two adjacent second electronic weighing units is not too compact because the user is not judged by the height, so that the number of the first electronic weighing units and the second electronic weighing units can be reduced to control the cost, and the length ranges of the first electronic weighing group 20 and the second electronic weighing group 30 are selected to meet the height range of most people.

Referring to fig. 1, in an embodiment, the bed body 10 is generally a soft mattress with an elastically deformable surface, the electronic weighing unit is a micro sheet pressure gauge, and is disposed in the mattress, and the distance between the pressure detection sheet and the upper surface of the mattress is 2mm to 3mm, so that when a user lies on the bed, pressure can be more accurately applied to the electronic weighing unit.

Further, the control center 50 may be a common single chip microcomputer, and a corresponding program may be input into the single chip microcomputer, and since each operation of the control center 50 in the control method may be implemented by a simple program, which is well known to those skilled in the art, the detailed description of the program is omitted here, a time module is further disposed in the control center 50 to determine the actual time, and the control center 50 is further connected to a power supply 80 for supplying power to the control center 50, the first weighing group, the second weighing group, the first vibration motor 60, and the second vibration motor 70.

Referring to fig. 1, in the embodiment, in the width direction of the bed 10, the distance from the first electronic weighing group 20 and the second electronic weighing group 30 to the edge of the bed 10 is one third of the width of the bed 10, and such a position arrangement can ensure that the positions of the electronic weighing groups are all located on the average position of the bed 10, thereby facilitating the pressure collection and preventing the user from being unable to sleep in a position too deviated from the bed.

Further, first vibrating motor 60 with the inside miniature vibrating motor who often uses of cell-phone can directly be chooseed for use to second vibrating motor 70, and its power and vibration rate are all less, and general vibration range is several centimetres within ranges for the central radius at the vibration source, just so can guarantee when waking a user shaking, thereby can not wake up another user because the vibration range is too big to lead to whole bed body 10 vibration.

In addition, the number of the electronic weighing groups can be more than two, so that the sleeping bed is suitable for the sleeping conditions of more users in the same bed.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A control method of an alarm clock awakening system is characterized in that the alarm clock awakening system comprises a bed body, a first electronic weighing group, a second electronic weighing group, an input display screen and a control center; the input display screen is connected with the control center, and the first electronic weighing group and the second electronic weighing group are arranged in parallel along the length direction of the bed body, wherein the first electronic weighing group comprises a plurality of first electronic weighing units arranged at intervals at a first interval along the length direction of the bed body, and the second electronic weighing group comprises a plurality of second electronic weighing units arranged at intervals at a second interval along the length direction of the bed body; each first electronic weighing unit is connected with a first vibration motor, and each second electronic weighing unit is connected with a second vibration motor; the first electronic weighing unit and the second electronic weighing unit are both connected with the control center; the first vibration motor and the second vibration motor are both connected with the control center; the first electronic weighing group and the second electronic weighing group are attached below the surface of the bed body and used for monitoring the pressure acting on the surface of the bed body; the first vibration motor and the second vibration motor are arranged below the surface of the bed body and are attached to one side corresponding to the first electronic weighing unit or one side of the second electronic weighing unit to drive the surface of the bed body to vibrate; the control method comprises the following steps:

s1, the alarm clock awakening system switches the input display screen into a memory mode, acquires identity information input by a first user through the input display screen, namely first identity information, when the first user lies on a bed body and covers the first electronic weighing group, the first electronic weighing units in the first electronic weighing group detect gravity and transmit signals of the first electronic weighing units to the control center respectively, the control center collects and draws signals of the first electronic weighing units into a first pressure curve according to the length direction of the bed body and memorizes the first pressure curve, and the first pressure curve comprises a first lying pressure curve when the first user lies and a first side lying pressure curve when the first user lies on the side; acquiring identity information input by a second user, namely second identity information, when the second user lies on the bed body and covers the second electronic weighing group, the second electronic weighing units in the second electronic weighing group detect gravity and transmit signals of the second electronic weighing units to the control center respectively, the control center collects and draws signals of the second electronic weighing units into a second pressure curve according to the length direction of the bed body and memorizes the second pressure curve, and the second pressure curve comprises a second lying pressure curve when the second user lies and a second side lying pressure curve when the second user lies on the side;

s2: the alarm clock awakening system switches the input display screen into an awakening mode, and acquires first identity information and a first awakening strategy input by a first user through the input display screen; acquiring second identity information and a second awakening strategy input by a second user; wherein the first wake-up policy comprises a first wake-up time and the second wake-up policy comprises a second wake-up time;

s3: the first electronic weighing unit monitors the pressure of the bed body covered on the first electronic weighing unit; the second electronic weighing unit monitors the pressure of the bed body covered on the second electronic weighing unit;

s4: when the pressure is detected, the first electronic weighing unit transmits a first pressure signal detected by the first electronic weighing unit to the control center, and the second electronic weighing unit transmits a second pressure signal detected by the second electronic weighing unit to the control center;

s5: the control center collects and draws the first pressure signals detected by the first electronic weighing unit into a first comparative pressure curve according to the length direction of the bed body; the control center collects and plots second pressure signals detected by the second electronic weighing unit according to the length direction of the bed body to form a second comparative pressure curve;

s6: the control center compares the first comparison pressure curve and the second comparison pressure curve with the first pressure curve respectively and matches the first comparison pressure curve, if the first comparison pressure curve and the second comparison pressure curve are matched successfully, the pressure monitored by the first electronic weighing group is determined to come from the first user, and the first awakening strategy is executed; the control center compares the first comparison pressure curve and the second comparison pressure curve with the second pressure curve respectively and matches the first comparison pressure curve and the second comparison pressure curve, if the first comparison pressure curve and the second comparison pressure curve are matched successfully, the pressure monitored by the second electronic weighing group is determined to come from the second user, and the second awakening strategy is executed; the first awakening strategy comprises that when the actual time reaches the first awakening time, the control center controls the first vibration motor or the second vibration motor to work so as to awaken the first user or the second user independently; the second awakening strategy comprises that when the actual time reaches the second awakening time, the control center controls the second vibration motor or the first vibration motor to work so as to awaken the second user or the first user independently.

2. The method for controlling an alarm clock wake-up system according to claim 1, wherein in the step S5: and in five minutes before the first awakening time and the second awakening time, the control center collects and draws the first comparison pressure curve and the second comparison pressure curve in real time.

3. The method for controlling an alarm clock wake-up system according to claim 1, wherein in the step S6: the first electronic weighing unit judges that the matching is successful when the pressure difference value of the first electronic weighing unit signal and the first pressure signal detected by the first electronic weighing unit in the memory mode and the wake-up mode is in the range of 1 kg; and the second electronic weighing unit judges that the matching is successful when the pressure difference value of the second electronic weighing unit signal and the second pressure signal detected by the second electronic weighing unit in the memory mode and the wake-up mode is in the range of 1 kg.

4. The method for controlling an alarm clock wake-up system according to claim 1, characterized in that: defining the lengths of the first electronic weighing group and the second electronic weighing group as d respectively, wherein the range of d is 1.5-2.3 meters; the plurality of first electronic weighing units and the plurality of second electronic weighing units are respectively and uniformly arranged at intervals, and the distance between every two adjacent first electronic weighing units or every two adjacent second electronic weighing units is defined as h, wherein the range of h is 1-3 cm.

5. The method for controlling an alarm clock wake-up system according to claim 1, characterized in that: the first electronic weighing unit and the second electronic weighing unit are miniature sheet pressure gauges.

6. The method for controlling an alarm clock wake-up system according to claim 1, characterized in that: the control center is further internally provided with a time module for determining the actual time, and is further connected with a power supply.

7. The method for controlling an alarm clock wake-up system according to claim 1, characterized in that: the control center is a singlechip.

8. The method for controlling an alarm clock wake-up system according to claim 1, characterized in that: in the width direction of the bed body, the distance between the first electronic weighing group and the second electronic weighing group and the edge of the bed body is one third of the width of the bed body.

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