CN115670389B - Shrinkage control method and control device of sleep monitoring equipment - Google Patents

Abstract

The invention relates to the technical field of equipment control, in particular to a shrinkage control method and a shrinkage control device of sleep monitoring equipment. The sleep monitoring equipment is provided with a retractable retention strap and a limiting mechanism for preventing the retention strap from being retracted. When the sleep monitoring equipment is used, firstly, the user brain electricity real-time signals acquired by the sleep monitoring equipment are read, then the total duration time corresponding to the brain electricity real-time signals in the brain electricity signal setting interval is counted, when the total duration time is longer than a duration threshold value, the user is determined to enter a sleep setting state, at the moment, the control limiting mechanism is disabled, the limiting mechanism after the disabling does not limit the position of the retention belt any more, the retention belt naturally recovers to a contracted state, namely, the retention belt is contracted into the sleep monitoring equipment, so that the retention belt is not fixed at the head of the user any more, the sleep monitoring equipment is separated from the head of the user, the user is prevented from being pressed and bound, and finally the influence on the sleep quality of the user is avoided.

Description

Shrinkage control method and control device of sleep monitoring equipment

Technical Field

The invention relates to the technical field of equipment control, in particular to a shrinkage control method and a shrinkage control device of sleep monitoring equipment.

Background

The sleep monitoring device is fixed on the head of the user, and the sleep quality of the user is monitored. However, even if the user has achieved a good sleep quality, if no other user removes the sleep monitor device from the user's head, the sleep monitor device may still be fixed to the user's head, and the sleep monitor device may generate a pressing and binding feeling for the user, thereby affecting the sleep quality of the user.

In summary, the sleep monitoring apparatus in the prior art affects the sleep quality of the user while monitoring the sleep quality of the user.

Accordingly, there is a need for improvement and advancement in the art.

Disclosure of Invention

In order to solve the technical problems, the invention provides a shrinkage control method and a control device of sleep monitoring equipment, which solve the problem that the sleep quality of a user is influenced while the sleep quality of the user is monitored by the sleep monitoring equipment in the prior art.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

in a first aspect, the present invention provides a method for controlling shrinkage of a sleep monitoring device, including:

reading an electroencephalogram real-time signal of a user acquired by sleep monitoring equipment;

counting the total duration corresponding to the electroencephalogram real-time signal in an electroencephalogram set interval, wherein the electroencephalogram set interval corresponds to a sleep set state;

and when the total duration time is longer than the duration threshold value, controlling a limiting mechanism of the sleep monitoring equipment to be disabled, and enabling the retention strap of the sleep monitoring equipment to be restored to a contracted state by the limiting mechanism after the disabling.

In one implementation manner, the sleep monitoring device is provided with a gesture detector, and the method for reading the real-time signal of the brain electricity of the user acquired by the sleep monitoring device includes:

reading the user gesture acquired by the gesture detector;

when the user posture is a lying posture, counting the duration of the lying posture;

and when the duration time of the lying posture is longer than the set duration time, reading the brain electricity real-time signals of the user acquired by the sleep monitoring equipment.

In one implementation manner, the counting the total duration corresponding to the electroencephalogram real-time signal being located in an electroencephalogram set interval, where the electroencephalogram set interval corresponds to a sleep set state, includes:

counting a first duration corresponding to the intermediate value of the electroencephalogram real-time signal equal to the electroencephalogram set interval;

counting the intermediate value of the electroencephalogram real-time signal different from the electroencephalogram set interval and the corresponding second duration time in the electroencephalogram set interval;

and weighting and calculating the first duration and the second duration to obtain the total duration, wherein the weight of the first duration is greater than that of the second duration.

In one implementation, the sleep monitoring device further comprises the following components:

an apparatus main body;

the transmission assembly is positioned in the equipment main body, is rotationally connected with the equipment main body, is connected with the end part of the retention belt, is matched with the limiting mechanism and is used for controlling the retention belt to shrink;

and the second magnet is magnetically connected with the limiting mechanism and is used for controlling the position of the limiting mechanism relative to the transmission assembly.

In one implementation, the limiting mechanism comprises the following components:

a cylinder;

the locking gear is used for forming meshing connection with the transmission assembly;

the first magnet penetrates through the cylinder body and is matched with the cylinder body to form a hole shaft, one end of the first magnet is connected with the locking gear, and the other end of the first magnet is magnetically connected with the second magnet.

In one implementation, when the total duration is greater than a duration threshold, controlling a stop mechanism of a sleep monitoring device to disable, the stop mechanism after disabling causing a retention strap of the sleep monitoring device to resume a contracted state, comprising:

changing the current direction of the second magnet when the total duration is greater than a duration threshold;

monitoring the movement displacement of the locking gear after the second magnet changes the current direction;

and when the movement displacement is larger than a displacement threshold, cutting off the current of the second magnet, wherein the displacement threshold corresponds to the disabling displacement of the locking gear.

In one implementation, the retention strap includes the following components:

the number of the belt bodies is two;

and the auxiliary electrodes are respectively arranged at different positions of the two belt bodies and are used for generating electric signals to stimulate the sleep of the user and/or detect the sleep state of the user, and the surfaces of the auxiliary electrodes are coated with adhesive materials.

In a second aspect, an embodiment of the present invention further provides a contraction control apparatus of a sleep monitoring device, where the apparatus includes the following components:

the signal reading module is used for reading the brain electrical real-time signals of the user acquired by the sleep monitoring equipment;

the time length statistics module is used for counting the total time length corresponding to the time length that the electroencephalogram real-time signal is positioned in an electroencephalogram set interval, and the electroencephalogram set interval corresponds to a sleep set state;

and the contraction control module is used for controlling the limiting mechanism of the sleep monitoring equipment to be disabled when the total duration is longer than the duration threshold value, and enabling the retention belt of the sleep monitoring equipment to be restored to a contracted state by the limiting mechanism after the disabling.

In a third aspect, an embodiment of the present invention further provides a terminal device, where the terminal device includes a memory, a processor, and a contraction control program of a sleep monitor device stored in the memory and capable of running on the processor, and when the processor executes the contraction control program of the sleep monitor device, the processor implements the steps of the contraction control method of the sleep monitor device.

In a fourth aspect, an embodiment of the present invention further provides a computer readable storage medium, where a contraction control program of a sleep monitor device is stored in the computer readable storage medium, where the contraction control program of the sleep monitor device is executed by a processor, to implement the steps of the contraction control method of the sleep monitor device.

The beneficial effects are that: the sleep monitoring equipment is provided with a retractable retention strap and a limiting mechanism for preventing the retention strap from being retracted. When the sleep monitoring equipment is used, firstly, the user brain electricity real-time signals acquired by the sleep monitoring equipment are read, then the total duration time corresponding to the brain electricity real-time signals in the brain electricity signal setting interval is counted, when the total duration time is longer than a duration threshold value, the user is determined to enter a sleep setting state, at the moment, the control limiting mechanism is disabled, the limiting mechanism after the disabling does not limit the position of the retention belt any more, the retention belt naturally recovers to a contracted state, namely, the retention belt is contracted into the sleep monitoring equipment, so that the retention belt is not fixed at the head of the user any more, the sleep monitoring equipment is separated from the head of the user, the user is prevented from being pressed and bound, and finally the influence on the sleep quality of the user is avoided.

Drawings

FIG. 1 is a block diagram of a sleep monitoring device in an embodiment of the present invention;

FIG. 2 is an overall flow chart of the present invention;

fig. 3 is a schematic block diagram of an internal structure of a terminal device according to an embodiment of the present invention.

Detailed Description

The technical scheme of the invention is clearly and completely described below with reference to the examples and the drawings. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It is found that the sleep monitoring device is fixed on the head of the user, and the sleep quality of the user is monitored. However, even if the user has achieved a good sleep quality, if no other user removes the sleep monitor device from the user's head, the sleep monitor device may still be fixed to the user's head, and the sleep monitor device may generate a pressing and binding feeling for the user, thereby affecting the sleep quality of the user.

In order to solve the technical problems, the invention provides a shrinkage control method and a control device of sleep monitoring equipment, which solve the problem that the sleep quality of a user is influenced while the sleep quality of the user is monitored by the sleep monitoring equipment in the prior art. When the method is implemented, firstly, the brain electricity real-time signals of the user, which are acquired by the sleep monitoring equipment, are read; then counting the total duration time corresponding to the position of the electroencephalogram real-time signal in the electroencephalogram set interval; when the total duration is longer than the duration threshold, the limiting mechanism 4 of the sleep monitoring device is controlled to be disabled, and once the limiting mechanism 4 is disabled, the two elastic retention belts 2 on the sleep monitoring device are restored to the contracted state, namely the retention belts 2 are not fixed at the head of the user any more, so that the sleep monitoring device is caused to fall off from the head of the user. According to the invention, after the user enters the sleep setting state, the sleep monitoring equipment automatically falls off from the head of the user, so that the compression constraint of the sleep monitoring equipment on the head of the user is reduced, and the sleep quality of the user is ensured.

For example, two adhesive elastic retention bands 2 are provided on the sleep monitoring device, when the user just starts sleeping, in order to monitor whether the user enters into deep sleep (sleep setting state), the two adhesive elastic retention bands 2 are adhered to the head of the user, so that the sleep monitoring device is fixed on the head of the user to monitor the electroencephalogram signals of the user. When the brain electrical signal of the user is monitored when the brain electrical signal reaches the deep sleep state, the two viscous elastic retention belts 2 are controlled to shrink into the sleep monitoring equipment, so that the sleep monitoring equipment is separated from the head of the user, and the sleeping quality of the user in the deep sleep state is prevented from being influenced.

Exemplary apparatus

The embodiment provides a sleep monitoring device, as shown in fig. 1, the device comprises a device main body 1, a retention belt 2 connected with the device main body 1, a transmission assembly 3 connected with the retention belt 2, a limit mechanism 4 meshed with the transmission assembly 3, and a second magnet 5 for adjusting the position of the limit mechanism 4, wherein the second magnet 5 is an electromagnet, and the second magnet 5 is fixed on the device main body 1.

The apparatus body 1 includes upper and lower housings 11, a main electrode 12 fixed to the outside of one of the housings 11, and a barrel 13 fixed to the inside of the housing 11, the main electrode 12 having tackiness.

The retention strap 2 comprises two elastic straps 21, and a secondary electrode 22 fixed to the outer side of each strap 21, the secondary electrode 22 having an adhesive property.

The number of the transmission components 3 is two, each group comprises a rod body 31, a transmission gear 32 and a blocking gear 33, the transmission gear 32 and the blocking gear 33 are fixed at the rod body of the rod body 31 and are arranged up and down, the top end of the rod body 31 is positioned inside the spring barrel 13 on one of the shells 11, the bottom end of the rod body 31 is rotatably arranged on the other shell 11, and the two groups of transmission gears 32 are driven by an intermediate gear.

The limiting mechanism 4 comprises a cylinder 41, a first magnet 43 penetrating through the cylinder 41, and a locking gear 42 adsorbed on one end of the first magnet 43 outside the cylinder 41, wherein the size of the locking gear 42 is larger than the aperture of the cylinder 41, and the size of the end part of the other end of the first magnet 43 is larger than the aperture of the cylinder 41.

When the sleep monitoring device is needed, the current direction of the second magnet 5 is controlled so that the second magnet 5 attracts the first magnet 43, so that the first magnet 43 together with the lock gear 42 attracted thereto moves in the direction in which the second magnet 5 is located, so that the lock gear 42 is not in contact with the blocking gear 33. Then, one of the belt bodies 21 is pulled, the belt body 21 drives the rod body 31 connected to the end portion of the belt body to rotate, the rotation of the rod body 31 enables the transmission gear 32 on the belt body to rotate, and the rotation of the transmission gear 32 drives the rotation of the other rod body 31, so that the belt body 21 connected with the other rod body 31 is in a stretching shape. Then, the magnetism of the second magnet 5 is changed, so that the second magnet 5 generates repulsive force to the first magnet 43 to enable the first magnet 43 to move a certain distance, and the locking gear 42 contacts with the blocking gear 33 to fix the blocking gear 33, further fix the rod 31, and finally fix the length of the belt 21 connected with the rod 31. Finally, the sub-electrodes 22 on the two bands 21 are adhered to the head of the user, thereby fixing the apparatus main body 1 to the head of the user. The main electrode 12 then monitors the user's brain electrical signals and the auxiliary electrode 22 emits a stimulating signal that stimulates the user to go to deep sleep. When the user brain electrical signal monitored by the main electrode 12 indicates that the user enters into deep sleep, the magnetism of the second magnet 5 is changed again, so that the second magnet 5 adsorbs the first magnet 43, and further, the locking gear 42 connected with the first magnet 43 is not contacted with the blocking gear 33, and the locking function of the blocking gear 33 is finished. After the blocking gear 33 is restored to the free state, the spring inside the spring barrel 13 is in a wound state, and after the locking is finished, the spring drives the rod body 31 to rotate in the process of restoring to the non-wound state, so that the belt body 21 connected with the rod body 31 is driven to shrink into the shell 11. The tape body 21, during contraction, urges the adhesive counter electrode 22 thereon to be detached from the head of the user, thereby causing the apparatus main body 1 to be detached from the head of the user.

Exemplary method

The shrinkage control method of the sleep monitoring device of the embodiment can be applied to a terminal device, and the terminal device can be a terminal product with a control function, such as a controller and the like. In this embodiment, as shown in fig. 2, the shrinkage control method of the sleep monitoring apparatus specifically includes the following steps:

s100, reading brain electricity real-time signals of the user, which are acquired by the sleep monitoring equipment.

The sleep monitoring device of the embodiment is internally provided with a posture detector for detecting whether the user is in a sitting and lying posture or a lying posture, and if the user is in the sitting and lying posture, analysis of the acquired electroencephalogram signal is unnecessary because the user is in the sitting and lying posture and does not exhibit deep sleep. Step S100 includes steps S101, S102, S103 as follows:

s101, reading the user gesture acquired by the gesture detector.

S102, when the user gesture is a lying gesture, counting duration time of the lying gesture.

And S103, reading the brain electrical real-time signals of the user acquired by the sleep monitoring equipment when the duration time of the lying posture is longer than the set duration time.

Only when the duration of the lying posture of the user reaches the set duration (ten minutes), the user can possibly start to enter the sleep state, and at the moment, the brain electrical real-time signals acquired by the sleep monitoring equipment are read to accurately reflect whether the sleep state of the user is in deep sleep or not. If the brain electrical signals are read when the user is in the lying posture, redundancy of useless brain electrical signals can be caused, and even the user can be misjudged to enter a deep sleep state.

And S200, counting the total duration corresponding to the electroencephalogram real-time signal in an electroencephalogram set interval, wherein the electroencephalogram set interval corresponds to a sleep set state.

The sleep setting state of the embodiment is a deep sleep state, the deep sleep state corresponds to a standard electroencephalogram signal, and when the acquired electroencephalogram real-time signal is equal to the standard electroencephalogram signal, the user is in the deep sleep state. Step S200 includes steps S201, S202, S203 as follows:

s201, counting a first duration corresponding to the electroencephalogram real-time signal equal to a middle value (standard electroencephalogram) of the electroencephalogram set section.

The electroencephalogram signal setting interval in this embodiment is five microvolts with the intermediate value floating up and down.

S202, counting the intermediate value of the electroencephalogram real-time signal different from the electroencephalogram set interval and the second duration corresponding to the electroencephalogram real-time signal in the electroencephalogram set interval.

S203, the first duration and the second duration are calculated in a weighted mode, and the total duration is obtained, wherein the weight of the first duration is larger than that of the second duration.

When the brain electrical real-time signal of the user is equal to the standard brain electrical signal, the user is indicated to be in deep sleep at the moment. If the electroencephalogram real-time signal is equal to the standard electroencephalogram signal and then deviates from the standard electroencephalogram signal, but still is located in the electroencephalogram signal setting interval, the fact that the user is in a deep sleep state is indicated, but the sleep state is unstable, therefore, the stability of the user in the deep sleep state needs to be comprehensively judged according to the first duration and the second duration, and the user in the stable deep sleep state can be accurately judged only when the total duration formed by the first duration and the second duration is longer than a duration threshold.

And S300, when the total duration is longer than a duration threshold, controlling the limiting mechanism 4 of the sleep monitoring equipment to be disabled, and enabling the retention strap 2 of the sleep monitoring equipment to be restored to a contracted state by the limiting mechanism 4 after the disabling.

In one embodiment, step S300 includes steps S301, S302, S303 as follows:

s301, when the total duration is longer than a duration threshold, changing the current direction of the second magnet 5.

S302, monitoring the displacement of the lock gear 42 after the second magnet 5 changing the current direction.

S303, when the movement displacement is greater than a displacement threshold, the current of the second magnet 5 is cut off, and the displacement threshold corresponds to the disabling displacement of the locking gear 42.

The total duration time is longer than the duration time threshold, which indicates that the user is in a stable deep sleep state, at this time, the current direction of the second magnet 5 is changed, after the current direction is changed, the second magnet 5 generates repulsive force to the first magnet 43, so that the first magnet 43 is driven to move, the first magnet 43 moves to drive the locking gear 42 connected with the first magnet to move, and once the locking gear 42 moves for a certain distance, the locking gear is no longer meshed with the blocking gear 33, so that the rod body 31 where the blocking gear 33 is located rotates freely under the action of the spring barrel 13, and the belt 21 is contracted due to the rotation of the spring barrel 13.

In summary, the sleep monitoring device of the present invention is provided with a retractable retention strap 2 and a limiting mechanism 4 for preventing the retention strap 2 from being retracted. When the sleep monitoring equipment is used, firstly, the user brain electricity real-time signals acquired by the sleep monitoring equipment are read, then the total duration time corresponding to the brain electricity real-time signals in the brain electricity signal setting interval is counted, when the total duration time is longer than a duration threshold value, the user is determined to enter a sleep setting state, at the moment, the control limiting mechanism 4 is disabled, the position of the retention belt 2 is not limited by the limiting mechanism 4 after the disabling, the retention belt 2 naturally recovers to a contracted state, namely, the retention belt 2 is contracted into the sleep monitoring equipment, so that the retention belt 2 is not fixed at the head of the user any more, the sleep monitoring equipment is separated from the head of the user, the user is prevented from being pressed and bound, and finally the influence on the sleep quality of the user is avoided.

Exemplary apparatus

The embodiment also provides a shrinkage control device of the sleep monitoring equipment, which comprises the following components:

the signal reading module is used for reading the brain electrical real-time signals of the user acquired by the sleep monitoring equipment;

the time length statistics module is used for counting the total time length corresponding to the time length that the electroencephalogram real-time signal is positioned in an electroencephalogram set interval, and the electroencephalogram set interval corresponds to a sleep set state;

and the contraction control module is used for controlling the limiting mechanism 4 of the sleep monitoring equipment to be disabled when the total duration is longer than the duration threshold value, and enabling the retention strap 2 of the sleep monitoring equipment to be restored to a contracted state by the limiting mechanism 4 after the disabling.

Based on the above embodiment, the present invention also provides a terminal device, and a functional block diagram thereof may be shown in fig. 3. The terminal equipment comprises a processor, a memory, a network interface, a display screen and a temperature sensor which are connected through a system bus. Wherein the processor of the terminal device is adapted to provide computing and control capabilities. The memory of the terminal device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The network interface of the terminal device is used for communicating with an external terminal through a network connection. The computer program, when executed by a processor, implements a method of controlling constriction of a sleep monitoring apparatus. The display screen of the terminal equipment can be a liquid crystal display screen or an electronic ink display screen, and the temperature sensor of the terminal equipment is preset in the terminal equipment and is used for detecting the running temperature of the internal equipment.

It will be appreciated by persons skilled in the art that the functional block diagram shown in fig. 3 is merely a block diagram of some of the structures associated with the present inventive arrangements and is not limiting of the terminal device to which the present inventive arrangements are applied, and that a particular terminal device may include more or fewer components than shown, or may combine some of the components, or may have a different arrangement of components.

In one embodiment, there is provided a terminal device including a memory, a processor, and a contraction control program of a sleep monitor device stored in the memory and executable on the processor, the processor implementing the following operation instructions when executing the contraction control program of the sleep monitor device:

reading an electroencephalogram real-time signal of a user acquired by sleep monitoring equipment;

counting the total duration corresponding to the electroencephalogram real-time signal in an electroencephalogram set interval, wherein the electroencephalogram set interval corresponds to a sleep set state;

and when the total duration is longer than the duration threshold, controlling the limiting mechanism 4 of the sleep monitoring equipment to be disabled, and enabling the retention strap 2 of the sleep monitoring equipment to be restored to a contracted state by the limiting mechanism 4 after the disabling.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (5)

1. A shrinkage control method of a sleep monitoring apparatus, comprising:

reading an electroencephalogram real-time signal of a user acquired by sleep monitoring equipment;

counting the total duration corresponding to the electroencephalogram real-time signal in an electroencephalogram set interval, wherein the electroencephalogram set interval corresponds to a sleep set state;

when the total duration is longer than a duration threshold, controlling a limiting mechanism of the sleep monitoring equipment to be disabled, and enabling a retention strap of the sleep monitoring equipment to be restored to a contracted state by the limiting mechanism after the disabling;

the utility model discloses a sleep monitoring equipment, be provided with gesture detector on the sleep monitoring equipment, read the brain electricity real-time signal of the user that sleep monitoring equipment gathered, include:

reading the user gesture acquired by the gesture detector;

when the user posture is a lying posture, counting the duration of the lying posture;

when the duration time of the lying posture is longer than the set duration time, reading an electroencephalogram real-time signal of the user acquired by the sleep monitoring equipment;

the statistics of the total duration corresponding to the electroencephalogram real-time signal being located in an electroencephalogram set interval, the electroencephalogram set interval corresponding to a sleep set state, includes:

counting a first duration corresponding to the intermediate value of the electroencephalogram real-time signal equal to the electroencephalogram set interval;

counting the intermediate value of the electroencephalogram real-time signal different from the electroencephalogram set interval and the corresponding second duration time in the electroencephalogram set interval;

the first duration and the second duration are weighted and calculated to obtain total duration, and the weight of the first duration is greater than that of the second duration;

the sleep monitoring device comprises the following components:

an apparatus main body;

the transmission assembly is positioned in the equipment main body, is rotationally connected with the equipment main body, is connected with the end part of the retention belt, is matched with the limiting mechanism and is used for controlling the retention belt to shrink;

the second magnet is magnetically connected with the limiting mechanism and is used for controlling the position of the limiting mechanism relative to the transmission assembly;

the limiting mechanism comprises the following components:

a cylinder;

the locking gear is used for forming meshing connection with the transmission assembly;

the first magnet penetrates through the cylinder body and is matched with the cylinder body through a hole shaft, one end of the first magnet is connected with the locking gear, and the other end of the first magnet is magnetically connected with the second magnet;

and when the total duration is longer than a duration threshold, controlling a limiting mechanism of the sleep monitoring device to be disabled, enabling a retention strap of the sleep monitoring device to be restored to a contracted state by the limiting mechanism after the disabling, and comprising:

changing the current direction of the second magnet when the total duration is greater than a duration threshold;

monitoring the movement displacement of the locking gear after the second magnet changes the current direction;

and when the movement displacement is larger than a displacement threshold, cutting off the current of the second magnet, wherein the displacement threshold corresponds to the disabling displacement of the locking gear.

2. The method of shrinkage control of a sleep monitoring device as set forth in claim 1, wherein the retention strap comprises the following components:

the number of the belt bodies is two;

and the auxiliary electrodes are respectively arranged at different positions of the two belt bodies and are used for generating electric signals to stimulate the sleep of the user and/or detect the sleep state of the user, and the surfaces of the auxiliary electrodes are coated with adhesive materials.

3. A contraction control device of a sleep monitoring apparatus, the device comprising:

the signal reading module is used for reading the brain electrical real-time signals of the user acquired by the sleep monitoring equipment;

the time length statistics module is used for counting the total time length corresponding to the time length that the electroencephalogram real-time signal is positioned in an electroencephalogram set interval, and the electroencephalogram set interval corresponds to a sleep set state;

the contraction control module is used for controlling a limiting mechanism of the sleep monitoring equipment to be disabled when the total duration is longer than a duration threshold value, and enabling the retention belt of the sleep monitoring equipment to be restored to a contracted state by the limiting mechanism after the disabling;

the utility model discloses a sleep monitoring equipment, be provided with gesture detector on the sleep monitoring equipment, read the brain electricity real-time signal of the user that sleep monitoring equipment gathered, include:

reading the user gesture acquired by the gesture detector;

when the user posture is a lying posture, counting the duration of the lying posture;

when the duration time of the lying posture is longer than the set duration time, reading an electroencephalogram real-time signal of the user acquired by the sleep monitoring equipment;

the statistics of the total duration corresponding to the electroencephalogram real-time signal being located in an electroencephalogram set interval, the electroencephalogram set interval corresponding to a sleep set state, includes:

counting a first duration corresponding to the intermediate value of the electroencephalogram real-time signal equal to the electroencephalogram set interval;

counting the intermediate value of the electroencephalogram real-time signal different from the electroencephalogram set interval and the corresponding second duration time in the electroencephalogram set interval;

the first duration and the second duration are weighted and calculated to obtain total duration, and the weight of the first duration is greater than that of the second duration;

the sleep monitoring device comprises the following components:

an apparatus main body;

the transmission assembly is positioned in the equipment main body, is rotationally connected with the equipment main body, is connected with the end part of the retention belt, is matched with the limiting mechanism and is used for controlling the retention belt to shrink;

the second magnet is magnetically connected with the limiting mechanism and is used for controlling the position of the limiting mechanism relative to the transmission assembly;

the limiting mechanism comprises the following components:

a cylinder;

the locking gear is used for forming meshing connection with the transmission assembly;

the first magnet penetrates through the cylinder body and is matched with the cylinder body through a hole shaft, one end of the first magnet is connected with the locking gear, and the other end of the first magnet is magnetically connected with the second magnet;

and when the total duration is longer than a duration threshold, controlling a limiting mechanism of the sleep monitoring device to be disabled, enabling a retention strap of the sleep monitoring device to be restored to a contracted state by the limiting mechanism after the disabling, and comprising:

changing the current direction of the second magnet when the total duration is greater than a duration threshold;

monitoring the movement displacement of the locking gear after the second magnet changes the current direction;

and when the movement displacement is larger than a displacement threshold, cutting off the current of the second magnet, wherein the displacement threshold corresponds to the disabling displacement of the locking gear.

4. A terminal device, characterized in that the terminal device comprises a memory, a processor and a contraction control program of a sleep monitoring device stored in the memory and executable on the processor, the processor implementing the steps of the contraction control method of a sleep monitoring device according to any one of claims 1-2 when executing the contraction control program of the sleep monitoring device.

5. A computer readable storage medium, characterized in that the computer readable storage medium has stored thereon a contraction control program of a sleep monitoring device, which when executed by a processor, implements the steps of the contraction control method of a sleep monitoring device according to any one of claims 1-2.

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