CN117598668A - Intelligent waist monitoring method, device and equipment - Google Patents

Abstract

The invention provides an intelligent waist monitoring method, device and equipment, and relates to the technical field of medical treatment. ‍ ‍ the method comprises the steps of: s1, detecting state data of the waist and non-guiding activity data of the waist by a waist detection device under the condition that a user does not trigger waist guiding operation; s2, under the condition that a user triggers lumbar guide operation, a first threshold value is established based on the state data of the lumbar; comparing the non-guiding activity data of the waist with a first threshold value, judging waist activity demands and matching corresponding waist activity guiding data; s3, based on the lumbar activity guiding data, a lumbar activity guiding operation is performed by the lumbar guiding device. The invention can detect the waist state and correctly guide the waist activity based on the waist state, is easy to understand and convenient for the user to implement, and effectively maintains the health of the waist of the user.

Description

Intelligent waist monitoring method, device and equipment

Technical Field

The invention belongs to the technical field of medical treatment, and particularly relates to an intelligent waist monitoring method, device and equipment.

Background

The waist support is an auxiliary device for supporting and stabilizing the waist. It is typically made of a soft and tough material such as elastic tape, bandages or leather. Lumbar supports relieve lumbar pressure and pain by providing pressure and support while helping to maintain a correct posture.

In modern society, people often sit for a long time, resulting in excessive lumbar pressure and poor posture. Lumbar support can correct posture by providing support and stability and alleviate lumbar fatigue and pain caused by sedentary sitting.

Due to lack of sufficient exercise, injuries such as muscle weakness and strain are easily caused. The lumbar support may provide additional support and stability, reducing the risk of lumbar injuries during exercise.

The problems of using electronic equipment for a long time with low head, incorrect sitting posture, humpback and the like can cause negative effects on the spine and the waist. The lumbar support can help correct the bad posture by providing support and light pressure to promote proper spinal alignment.

Insufficient lumbar activity can lead to a variety of health problems such as muscle atrophy, lumbago, instability of the spine, and the like. The current lumbar support design is mainly used for providing support and stability, and can not directly detect the activity of the lumbar.

When the activity of the waist is insufficient, the waist health is ensured by moving the waist. However, the waist injury is easily caused by improper waist movement.

Excessive lumbar exertion or incorrect posture may cause lumbar muscle strain, manifested as lumbar pain and discomfort. Severe movement, torsion or injury of the waist may lead to lumbar strain and sprain, manifested as pain, muscle tension and limitation of movement.

In particular, for those who have had a lumbar disorder or who have suffered a lumbar injury, it is critical how to ensure the amount of activity required by the lumbar region without affecting the health of the lumbar region.

In summary, how to provide an intelligent waist monitoring method capable of establishing waist activity requirements corresponding to waist conditions and guiding waist activity is a technical problem to be solved currently.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an intelligent waist monitoring method, device and equipment, which can detect state data of the waist and non-guiding activity data of the waist through a waist detection device under the condition that a user does not trigger waist guiding operation;

under the condition that the user triggers lumbar guide operation, a first threshold value is established based on the state data of the lumbar; comparing the non-guiding activity data of the waist with a first threshold value, judging waist activity demands and matching corresponding waist activity guiding data; based on the lumbar activity guiding data, a lumbar activity guiding operation is performed by the lumbar guiding device. The waist state can be detected, the waist activity can be guided correctly based on the waist state, the waist state is easy to understand and convenient for a user to implement, and the health of the waist of the user is effectively maintained.

The invention provides an intelligent waist monitoring method, which comprises the following steps:

s1, detecting state data of the waist and non-guiding activity data of the waist by a waist detection device under the condition that a user does not trigger waist guiding operation;

s2, under the condition that a user triggers lumbar guide operation, a first threshold value is established based on the state data of the lumbar; comparing the non-guiding activity data of the waist with a first threshold value, judging waist activity demands and matching corresponding waist activity guiding data;

s3, based on the lumbar activity guiding data, a lumbar activity guiding operation is performed by the lumbar guiding device. Further, the sensing system may further comprise a second sensor for sensing a neck pressure distribution and/or a temperature sensor for sensing a neck temperature.

Further, S2 includes subtracting the aforementioned non-boot activity amount data from the first threshold to obtain a second threshold; when the user triggers the lumbar guide operation, based on a second threshold, lumbar activity demand is determined and corresponding lumbar activity guide data is matched.

Further, S3 includes, during the lumbar activity under the guiding operation, counting the guiding activity amount data corresponding to the lumbar, comparing the guiding activity amount data with the second threshold, and executing the guiding operation of the corresponding lumbar activity based on the comparison result.

The present invention provides an intelligent lumbar support for implementing the intelligent lumbar monitoring method of any one of the above claims, comprising a lumbar support body comprising a lumbar detection device, a lumbar guide device and a user interface;

the waist detection device is used for detecting state data of the waist and non-guiding activity data of the waist;

the user interface is used for collecting lumbar guide operation triggered by a user;

the lumbar guide device is further configured to: according to lumbar guide triggering operation acquired by a user interface, a first threshold is established based on detected state data of the lumbar; comparing the non-guiding activity data of the waist with the first threshold value, judging waist activity demands and matching the corresponding waist activity guiding data; based on the lumbar activity guiding data, a lumbar activity guiding operation is performed by the lumbar guiding device.

Further, the waist support body comprises a plurality of waist support plates, and the waist support plates are of double-layer structures and comprise a first plate facing to the skin side of the waist and a second plate facing away from the skin side of the waist; at least the first plate is of a flexible structure; a cavity is formed between the first plate and the second plate; the waist detection device is movably arranged in the cavity.

Further, a movable massage structure is arranged in the cavity, and the waist is massaged through the movement of the massage structure.

Further, the massage structure comprises rollers arranged corresponding to the skin of the waist; the roller can jack up the flexible first plate so as to massage the waist skin, and/or the massage structure comprises an air bag, wherein a soft spike part is arranged on a contact surface of the air bag corresponding to the first plate, and the flexible first plate is jacked up through the spike part so as to massage the waist skin.

Further, the lumbar motion guiding device comprises lumbar support plates rotatably connected with each other; the included angle between the waist supporting plate and the waist is changed through the rotation of the waist supporting plate, so that the movement of the waist is guided.

Further, the lumbar guide device includes a projection structure through which the projection directs the user to perform activities of lumbar location and/or includes a voice player through which relevant prompts to guide lumbar activities are played.

The invention provides electronic equipment, which comprises a processor and a memory, wherein at least one instruction, at least one section of program, a code set or an instruction set is stored in the memory, and the instruction, the program, the code set or the instruction set is loaded and executed by the processor to realize the steps of the intelligent waist monitoring method according to any one of the above steps.

Compared with the prior art, the invention has the following advantages and positive effects by taking the technical scheme as an example:

the state data of the waist can be detected, and a first threshold value is established based on the state data of the waist, so that the activity demand of the waist is determined, and the guiding operation of the waist activity can be performed by the waist guiding device. The waist guiding device can conduct correct guiding on waist activities in various different modes, is easy to understand and convenient for users to implement, and can effectively maintain the health of the waist of the users.

The lumbar activity level is divided into a non-guided activity level and a guided activity level, and the lumbar activity level is guided by establishing a lumbar activity level demand while excluding the lumbar non-guided activity level. When the waist is guided to move, the data of the guiding movement amount of the waist is collected, so that the waist health is prevented from being damaged by excessive waist movement, and meanwhile, the personalized and proper waist movement amount guiding is provided according to different waist conditions of a user.

Drawings

Fig. 1 is a schematic structural view of a lumbar support body according to the present invention.

Fig. 2 is a schematic diagram illustrating connection between the waist detecting device and the waist supporting plate according to the present invention.

Fig. 3 is a schematic diagram of connection between the roller and the waist support plate.

Fig. 4 is a schematic structural view of an airbag according to the present invention.

Description of the reference numerals

An intelligent lumbar support 100;

the waist support comprises a waist support body 200, a waist support plate 210, a first plate 211, a second plate 212, a cavity 213, a sliding rail 214 and a rotary connecting piece 215; a waist detecting means 220;

the massage device comprises a massage structure 300, rollers 310, an air bag 320 and a spike 321.

Detailed Description

The technical scheme disclosed in the invention is described in detail in the following with reference to specific embodiments.

Techniques, methods known to those of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values.

The invention provides an intelligent waist support, which comprises a waist support body for supporting a waist.

The waist support body comprises a waist detection device.

By way of example and not limitation, lumbar detection devices include pressure sensors, accelerometers, gyroscopes, tension sensors, pedometers, motion trackers, temperature sensors, current sensors, blood oxygen saturation monitors, infrared sensors, and/or heart rate monitors.

Wherein obtaining the state data of the waist may be performed by:

by being able to measure the resistance or current flow of the tissue of the waist, such as by means of a current sensor, the tissue state of the waist, such as edema, blood circulation, etc., can be assessed. Blood oxygen saturation of the waist skin can be measured, for example, by a blood oxygen saturation sensor, providing information about the blood supply and oxygen supply to the waist. Infrared radiation in the lumbar region can be measured, for example, by infrared sensors, to obtain data concerning blood perfusion, inflammatory response, etc.

The tension sensor can be arranged in the waist supporting plates to measure the tension or the tension between the waist supporting plates, so that the tension state of the waist is detected.

Obtaining state data of the waist may be implemented by:

pressure sensors may be mounted inside the lumbar support plate for detecting pressure distribution and changes at the lumbar region.

When the waist moves, the waist can be contacted with the waist supporting plate, and the pressure applied to the waist supporting plate can be changed. By monitoring the pressure change with the pressure sensor, activity data of the waist can be obtained. Such as the user's waist being bent to the left, the pressure sensor on the left sensing an increase in pressure, and the duration of the increase in pressure until the user's waist returns to its original position, so that non-guided activity level information such as the magnitude and duration of the user's waist activity can be obtained by analyzing the data of the pressure sensor.

Accelerometers and gyroscopes can measure movement and posture of the waist, including rotational, tilt, and the like. By monitoring the change in acceleration and angular velocity, non-guided activity data of the lumbar region can be obtained. For example, when the user makes a lumbar left bending motion, the accelerometer will detect a change in the acceleration of the lumbar region in the horizontal direction and record the duration of the change. Meanwhile, the gyroscope can sense the rotation or rotation action of the waist and acquire related data by measuring the change of the angular velocity. Thus, by analyzing the data of the accelerometer and the gyroscope, the non-guiding activity amount information such as the amplitude, the speed, the duration and the like of the waist activity of the user can be obtained.

Also, the vibration generated during the waist movement can be calculated by the step counter. In addition, the heart rate change can be caused when the waist moves, and the heart rate change of the waist area can be monitored through the heart rate sensor, so that the movement amount of the waist can be indirectly reflected.

Not limited to the above, other components having similar functions may be provided, and the non-guided activity amount data of the waist portion may be comprehensively obtained.

The intelligent lumbar support comprises a 100 lumbar support body 200, wherein the lumbar support body 200 comprises a plurality of lumbar support plates 210, as shown in fig. 1 and 2, the lumbar support plates 210 are of a double-layer structure, and comprise a first plate 211 facing the skin side of the lumbar part and a second plate 212 far away from the skin side of the lumbar part.

Wherein at least the first plate 211 is of flexible construction.

A space is formed between the first plate 211 and the second plate 212, and a cavity 213 is formed. The waist detecting means 220 is movably disposed in the cavity 213.

The movement of the waist detecting device 220 in the cavity 213 may be implemented by providing a slide rail and a slider, for example and not by way of limitation.

Alternatively, the waist detecting means 220 is moved in the cavity 213 by providing a magnetic material by using the principle of attraction or repulsion of magnetic force, and the degree of movement is controlled by adjusting the magnitude of the magnetic force.

Not limited to the above, other implementations may be adopted.

By providing the waist detecting means 220 so as to be movable within the waist support plate 210, the waist detecting means 220 can be moved to different regions of the waist for detection, the number of devices provided in the same type can be reduced, and detection of different regions of the waist can be performed.

In addition, when there is a change in the waist region, the user may move to the region to perform corresponding detection.

For example, when a certain region of the waist of the user is active, the waist detection device 220 may move to the waist region to detect the waist state and the non-guided waist activity amount. The flexibility of having under the setting makes the monitoring to the different regions of waist more convenient and high-efficient.

The cavity 213 is provided therein with a movable massage structure 300 for massaging the waist by the movement of the massage structure 300. The movement of the massage structure 300 within the cavity 213 may be referred to as an embodiment of the lumbar detection device 220.

The massaging structure 300 changes position within the cavity 213 to enable massaging of different lumbar regions. In combination with the lumbar status data detected by the lumbar detection device 220, the massage structure 300 can move to a lumbar region with a relatively poor status to perform targeted massage. Specifically, for example, if the waist detecting device 220 detects that blood circulation is not smooth in a certain region of the waist, the massaging structure 300 moves to the region to perform massaging, thereby helping blood circulation to be smooth.

As one of the exemplary embodiments, the massage structure 300 shown in fig. 3 includes rollers 310 disposed corresponding to the skin of the waist. When the roller 310 moves, pressure can be applied to the flexible first plate 211 to deform the flexible first plate 211, so that the flexible first plate 211 is jacked up, and the roller 310 contacts the skin through the first plate 211 and moves to massage the skin of the waist.

As shown in fig. 4, the massage structure 300 includes the air bag 320, and also, the air bag 320 is inflated to apply pressure to the flexible first plate 211 at one side, so as to deform it, thereby contacting the waist skin, and massaging the waist skin by the back and forth movement of the air bag 320.

Still further, the soft spike 321 is disposed on the contact surface of the air bag 320 corresponding to the first plate 211, after the air bag 320 is inflated and swelled, the spike 321 is inflated to jack up the flexible first plate 211, a front-narrow and rear-wide bulge is formed on the first plate 211, and the front end of the bulge has small contact area, so that the pressure is larger, the waist skin can be applied with larger pressure, the effect of massaging the waist skin is improved, and the acupuncture points of the waist skin area can be stimulated, so that the health care effect is provided.

Preferably, the lumbar support body further comprises a lumbar guide and a user interface.

The user interface is used for collecting lumbar guide operation triggered by a user.

The lumbar guide device is further configured to: according to lumbar guide triggering operation acquired by a user interface, a first threshold is established based on detected state data of the lumbar; and comparing the non-guiding activity data of the waist with the first threshold value, and judging the waist activity requirement and matching the corresponding waist activity guiding data.

Based on the lumbar activity guiding data, a lumbar activity guiding operation is performed by the lumbar guiding device.

As shown in fig. 1, the waist support plates 210 are rotatably connected to each other as waist movement guiding means; the waist movement is guided by changing the angle between the waist support plate 210 and the waist by the rotation of the waist support plate 210.

In this embodiment, at least the first plate 211 of the waist support 210 facing the skin side of the waist is rotatably connected to each other.

Of course, the second plate 212 included in the lumbar support plate 210 at the side far from the skin of the lumbar part is also rotatably connected.

For example, when the data detected by the lumbar state detection device is compared with the first threshold value and it is determined that the user's lumbar region is inclined to the right, it is determined that the lumbar region activity demand is that the lumbar region needs to be rotated to the left, and lumbar region activity guidance data is outputted. Based on the lumbar activity guiding data, a lumbar activity guiding operation is performed by the lumbar guiding device. The lumbar support plate 210 is rotated rightward so that the first plate 211 on the left side is closer to the lumbar region. Such angle adjustment will exert a proper guiding force encouraging the waist to rotate to the left.

When the waist movement requirement is that the waist be inclined forward or backward, the waist support plate 210 can adjust the included angle accordingly. For example, if it is desired to tilt the waist forward, the waist support 210 may gradually approach the waist at the front portion to form a sloped curved surface to guide the waist forward.

When lumbar activity is required, the lumbar region needs to be guided to maintain a symmetrical posture, such as balance. In this case, the included angle of the waist support 210 may be adjusted equally to ensure that the guiding force is applied bilaterally symmetrically, thereby helping to maintain the equilibrium state.

When the waist movement is required to guide the waist to move forwards or backwards, the included angle of the waist support plate 210 can be adjusted so that a side plate consistent with the required movement direction is closer to the waist, corresponding guide force is applied to drive the waist to move towards the designated direction, and the like.

Optionally, the lumbar guide device further comprises a projection structure through which projection directs the user to perform lumbar position activities.

The projection structure guides the user to perform the activity of the lumbar position by projecting the lumbar guide mark corresponding to the lumbar activity guide data on the ground or the wall surface. For example, if the lumbar activity guide data includes a lumbar activity requirement that guides the user's lumbar movement to the left, the projection structure may project an arrow to the left to prompt the user to move lumbar activity in the direction of the arrow. So that the user can clearly understand that they should move the waist in the direction of the arrow. This way is intuitive and easy to understand, helping the user to perform the lumbar actions correctly.

Alternatively, the projection structure may directly project a figure that mimics the lumbar gestures and actions required in lumbar activity guidance data. This approach may more vividly demonstrate the correct lumbar activity and the user may simulate a figure in projection to accomplish the corresponding action. This approach may provide more intuitive guidance, particularly for complex lumbar maneuvers.

Optionally, and/or, the lumbar guide device includes a voice player through which relevant prompts to guide lumbar activity are played. For example, the voice player guides the waist of the user to complete the activities of rotating three turns clockwise and then rotating three turns anticlockwise.

In practice, the voice player and the projection structure described above may be combined. When the projection structure projects the waist guiding mark or the figure corresponding to the waist activity guiding data, the voice player plays the voice prompt corresponding to the waist activity guiding mark or the figure, so that the user can understand the projection meaning of the projection structure more conveniently.

The invention also provides an intelligent waist monitoring method based on the intelligent waist support, which comprises the following steps:

s1, when the user does not trigger the lumbar guide operation, the lumbar detection device 220 detects lumbar status data and lumbar non-guide activity data.

The non-guidance activity amount data herein refers to activity amount data of the user's waist in the case where the user does not trigger the waist guidance operation.

The recommended total activity required to maintain lumbar health daily varies for each user's lumbar region from state to state. In particular, the total activity data required is also different for users with intrinsic lumbar health problems than for users with intrinsic lumbar health.

In daily life, the waist of the user also generates activity. These activity data should also be accounted for in the total activity data, which means that the total activity of the lap should be the sum of the non-guided activity data of the lap plus the guided activity data of the lap.

Lumbar activity guidance data for guiding lumbar activity of a user should be based on the total activity level data minus daily naturally occurring activity level data, i.e. non-guiding activity level data, of the user's lumbar region.

The distinction between the unguided activity amount data and the guided activity amount data of the lumbar region may be made by judging whether or not the lumbar region guiding operation is actively triggered by the user. In the case of no triggered lumbar guide operation, the amount of activity generated by the lumbar region is non-guide activity amount data.

S2, under the condition that a user triggers lumbar guide operation, a first threshold value is established based on the state data of the lumbar; the non-leading activity data for the lumbar region is compared to a first threshold, and lumbar activity demand is determined and matched to corresponding lumbar activity leading data.

The first threshold here corresponds to the total activity data of the user's waist.

S2, subtracting the non-guided activity amount data from the first threshold value to obtain a second threshold value; when the user triggers the lumbar guide operation, based on a second threshold, lumbar activity demand is determined and corresponding lumbar activity guide data is matched.

The second threshold is data obtained by subtracting the lumbar non-guided activity level data from the lumbar total activity level data, and is an activity level difference of the lumbar total activity level of the user after the lumbar of the user is excluded from the naturally occurring activity level data. The data corresponds to the amount of activity that the lumbar is required to be guided to perform by the lumbar guide device.

Based on the second threshold, lumbar activity demand is determined and corresponding lumbar activity lead data is matched.

S3, based on the lumbar activity guiding data, a lumbar activity guiding operation is performed by the lumbar guiding device.

S3, in the lumbar region activity process under the guiding operation, counting the guiding activity amount data corresponding to the lumbar region, comparing the guiding activity amount data with a second threshold value, and executing the guiding operation of the corresponding lumbar region activity based on the comparison result.

When the user performs lumbar activity following the lumbar guide operation, the lumbar generates the activity amount under the guide, collects the activity amount data, compares the activity amount data with a second threshold value to obtain lumbar activity amount data to be guided, and performs the lumbar activity guide operation through the lumbar guide device based on the lumbar activity amount data matched with the corresponding lumbar activity guide data.

When the activity amount of the waist is the same as the second threshold, the user can be reminded of reaching the standard through the prompt, the user can not trigger the waist guiding operation any more in the rest time, and the natural activity amount of the waist is correspondingly reduced.

Under the condition that the total activity of the waist is divided into the non-guiding activity of the waist and the guiding activity of the waist, the activity requirement of the waist can be matched under the condition of eliminating the natural activity of the waist, the condition that the waist is excessively active and is unfavorable for the health of the waist can be avoided, and the waist activity matching and waist activity guiding more suitable for the waist requirement of a user are provided.

The invention also provides electronic equipment, which comprises a processor and a memory, wherein at least one instruction, at least one section of program, a code set or an instruction set is stored in the memory, and the instruction, the program, the code set or the instruction set is loaded and executed by the processor to realize the steps of the intelligent waist monitoring method according to any one of the above steps.

Within the scope of the present disclosure, terms such as "comprising" and the like should be interpreted by default as inclusive or open-ended, rather than exclusive or closed-ended, unless expressly defined to the contrary. All technical, scientific, or other terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Common terms found in dictionaries should not be too idealized or too unrealistically interpreted in the context of the relevant technical document unless the present disclosure explicitly defines them as such.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. An intelligent waist monitoring method is characterized in that ‍ ‍ comprises the following steps:

s1, detecting state data of the waist and non-guiding activity data of the waist by a waist detection device under the condition that a user does not trigger waist guiding operation;

s2, under the condition that a user triggers lumbar guide operation, a first threshold value is established based on the state data of the lumbar; comparing the non-guiding activity data of the waist with a first threshold value, judging waist activity demands and matching corresponding waist activity guiding data;

s3, based on the lumbar activity guiding data, a lumbar activity guiding operation is performed by the lumbar guiding device.

2. The intelligent lumbar monitoring method of claim 1, wherein: s2, subtracting the non-guided activity amount data from the first threshold value to obtain a second threshold value; when the user triggers the lumbar guide operation, based on a second threshold, lumbar activity demand is determined and corresponding lumbar activity guide data is matched.

3. The intelligent lumbar monitoring method of claim 2, wherein: s3, in the lumbar region activity process under the guiding operation, counting the guiding activity amount data corresponding to the lumbar region, comparing the guiding activity amount data with a second threshold value, and executing the guiding operation of the corresponding lumbar region activity based on the comparison result.

4. An intelligent lumbar support for implementing the intelligent lumbar monitoring method according to any one of the claims 1-3, characterized in that: the waist support comprises a waist support body, wherein the waist support body comprises a waist detection device, a waist guide device and a user interface;

the waist detection device is used for detecting state data of the waist and non-guiding activity data of the waist;

the user interface is used for collecting lumbar guide operation triggered by a user;

the lumbar guide device is further configured to: according to lumbar guide triggering operation acquired by a user interface, a first threshold is established based on detected state data of the lumbar; comparing the non-guiding activity data of the waist with the first threshold value, judging waist activity demands and matching the corresponding waist activity guiding data; based on the lumbar activity guiding data, a lumbar activity guiding operation is performed by the lumbar guiding device.

5. The intelligent lumbar support according to claim 4, wherein: the waist support body comprises a plurality of waist support plates which are of double-layer structures and comprise a first plate facing to one side of waist skin and a second plate far away from one side of waist skin; at least the first plate is of a flexible structure; a cavity is formed between the first plate and the second plate; the waist detection device is movably arranged in the cavity.

6. The intelligent lumbar support according to claim 5, wherein: a movable massage structure is arranged in the cavity, and the waist is massaged through the movement of the massage structure.

7. The intelligent lumbar support according to claim 6, wherein: the massage structure comprises rollers which are arranged corresponding to the skin of the waist; the roller can jack up the flexible first plate, so that the waist skin is massaged; and/or the massage structure comprises an air bag, wherein a soft spike part is arranged on the contact surface of the air bag corresponding to the first plate, and the flexible first plate is jacked up by the spike part, so that the waist skin is massaged.

8. The intelligent lumbar support according to claim 5, wherein: the waist movement guiding device comprises waist supporting plates which are connected with each other in a rotating way; the included angle between the waist supporting plate and the waist is changed through the rotation of the waist supporting plate, so that the movement of the waist is guided.

9. The intelligent lumbar support according to claim 5, wherein: the lumbar guide device comprises a projection structure, the user is guided to perform lumbar position activities through projection of the projection structure, and/or the lumbar guide device comprises a voice player, and relevant prompts for guiding lumbar activities are played through the voice player.

10. An electronic device comprising a processor and a memory, wherein the memory stores at least one instruction, at least one program, code set, or instruction set, the instruction, program, code set, or instruction set being loaded and executed by the processor to implement the steps of the lumbar intelligent monitoring method of any of claims 1-3.