CN216417442U - A device for nursing waist - Google Patents

Abstract

An apparatus for caring for the waist, comprising: the protection part is formed with a three-dimensional structure for correcting the abnormal posture of the waist of the user on one side of the waist of the patient attached to the protection part in a manner of receiving the guidance of the design parameters, and the protection part further comprises an actuating mechanism which is configured to drive one side of the waist of the human body attached to the protection part to move along the direction close to or far away from the waist of the human body.

Description

A device for nursing waist

Technical Field

The utility model relates to the field of waist nursing, in particular to a device for nursing waist.

Background

At present, most people suffer from lumbar diseases, such as lumbar disc herniation, and the like, so that equipment capable of protecting the waist of a user is urgently needed, and devices are also appeared on the market.

CN210542916U discloses waist nursing belt for internal medicine nursing, including nursing the box, nursing the both ends of box connect respectively and be equipped with the elasticity waistband, the elasticity waistband on the one end of keeping away from nursing the box be equipped with the connecting piece, nursing the box on be equipped with the recess, recess in-connection be equipped with the slide, the both ends of slide connect and be equipped with the stay cord, the other end of stay cord pass nursing box and elasticity waistband in proper order and connect and be equipped with the pull ring, the below of slide be equipped with the zone of heating, the bottom of nursing the box correspond the zone of heating and evenly lay the spring, the length direction that the upper surface on a parallel with nursing box of zone of heating be equipped with the track, the lower surface matching track of slide be equipped with the pulley, the upper surface of slide on connect the massage ball that is equipped with evenly distributed. Compared with the prior art, the utility model has the advantages that: the utility model ensures good hot compress effect, provides micro motion and massage and improves nursing effect.

It can be seen that the prior art does not design the individual waist condition of the user in a differentiated manner, and in the prior art, the problem part of the waist of the user may not be well treated, which easily causes the problem not solved, but the problem situation occurs in the problem-free place. In addition, for the user, due to inertia or other psychological or physiological influences, the passive control of the waist posture may not achieve a good correction effect, and the user lacks the power for correcting the posture, resulting in a poor correction effect.

Furthermore, on the one hand, due to the differences in understanding to the person skilled in the art; on the other hand, since the inventor has studied a lot of documents and patents when making the present invention, but the space is not limited to the details and contents listed in the above, however, the present invention is by no means free of the features of the prior art, but the present invention has been provided with all the features of the prior art, and the applicant reserves the right to increase the related prior art in the background.

SUMMERY OF THE UTILITY MODEL

To solve at least some of the problems of the prior art described above, the present invention provides a device for caring for the waist, comprising: the protection part is formed with a three-dimensional structure for correcting the abnormal posture of the waist of the user on one side of the waist of the patient attached to the protection part in a manner of receiving the guidance of the design parameters, and the protection part further comprises an actuating mechanism which is configured to drive one side of the waist of the human body attached to the protection part to move along the direction close to or far away from the waist of the human body.

Preferably, the protecting portion is divided into a front waist section, a rear waist section, a first side waist section and a second side waist section according to the position of contacting with the waist of the user, and the actuating mechanism is configured in a mode of matching the position and the number of the different sections divided by the protecting portion.

Preferably, the protection part is divided into two layers along two directions close to and far away from the waist of the human body, one side close to the waist of the human body is configured to be a soft layer, one side far away from the waist of the human body is configured to be a hard layer, and the three-dimensional structure is formed on the surface of the soft layer attached to the human body.

Preferably, the actuating mechanism includes a driving motor and a power supply source, the driving motor includes a rotating shaft and a motor main body, the rotating shaft is connected to the motor main body in a manner capable of being driven by the motor main body to rotate, and the motor main body is electrically coupled to the power supply source.

Preferably, the actuating mechanism further comprises a transmission unit, the driving motor is connected to the transmission unit in a transmission manner, and the driving direction of the driving motor and the driven direction of the transmission unit are both configured to be along a direction close to or far away from the waist of the human body.

Preferably, a screw thread spirally extending in an axial direction thereof is provided along a circumferential outer side surface of the rotating shaft of the driving motor, the transmission unit includes a moving stage and a ball, the moving stage is at least partially wound around the circumferential outer side of the rotating shaft, and the ball engaged with the screw thread of the rotating shaft is provided in the formed winding section.

Preferably, the transmission unit further comprises a transmission shaft having one end connected to the mobile station and the other end connected to the hard layer, an axial direction defined by a connecting line of both ends thereof being parallel to an axial direction of the rotation shaft and both pointing in the same direction as the driving direction and the driven direction.

Preferably, the detecting part further comprises a detector disposed on a side of the binding band near the user's waist, and the plurality of detectors are arranged on the binding band and configured in such a manner that a detecting surface formed by combining the detectors covers the user's waist.

Preferably, the detection part further comprises a data transmission module, and when the processor is arranged outside the user individual, the data transmission module is connected with the processor arranged outside the user individual in a communication coupling mode in a wireless mode.

Preferably, when the lumbar-back parameter indicates that the lumbar vertebrae of the user have a posture deviated to the left or right side, the shape and degree of the concavity of the first and second side waist sections in the protective part manufactured according to the design parameter to the side waist of the user, respectively, do not constitute a state symmetrical about the midline of the human body of the user.

The utility model has the following beneficial technical effects: before a user uses the protection part, the detection part is adopted to obtain a three-dimensional structure for manufacturing the surface of the protection part attached to the human body according to the unique waist physiological state of the user, each protection part aiming at the individual user can carry out symptomatic medicine administration according to the position which needs to be corrected by the user, the correction effect on the individual user is greatly improved, and the problem that the normal waist part of the user is damaged in an all-round way and regardless of the correction of the individual state of the user is avoided. In addition, the active correction is controlled by the aid of the detection result of the detection part in an active compression correction mode, so that correction effect on abnormal positions of the waist of a user is further improved, the user can correct the abnormal positions when the abnormal positions are selected incorrectly, and the sense of the user for autonomously adjusting the postures is developed.

Drawings

FIG. 1 is a schematic view of a portion of the drive mechanism of the present invention;

FIG. 2 is a schematic view of the protection part according to the present invention;

FIG. 3 is a schematic view of the enclosed structure of the detecting part of the present invention;

FIG. 4 is a schematic view of the detection part of the present invention after being unfolded;

FIG. 5 is a schematic diagram of the circuit connection of the detecting portion according to the present invention;

in the figure: 1000. a detection unit; 1100. binding a band; 1110. a connection unit; 1200. a detector; 1300. a power source; 1400. a processor; 1500. a data transmission module; 2000. a protection part; 2100. a front waist section; 2200. a rear waist section; 2300. a first side waist section; 2400. a second side waist section; 2500. an actuation mechanism; 2510. a drive motor; 2511. a motor main body; 2512. a rotating shaft; 2513. a thread; 2520. a power supply source; 2530. a transmission unit; 2531. a mobile station; 2532. a ball bearing; 2533. a transmission rod; 2600. a soft layer; 2700. a hard layer; 2800. and a regulation module.

Detailed Description

In the description of the present invention, it should be noted that, unless otherwise specified or limited, the terms "mounted," "connected," and "connected" in the specification should be interpreted broadly, and may be, for example, a fixed connection, a detachable connection, or an integral connection; the connection can be mechanical connection or electric connection, and also can be a combination of mechanical connection and electric connection; the electronic components can be installed by using a circuit of a lead, and can also be designed by using a simplified circuit board in modes of integration and the like. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific applications.

Before the protection part 2000 according to the present invention is used or obtained for an individual user, the body, particularly the waist part, of the individual user is subjected to a waist parameter observation during the daily life of the user by using the detection part 1000 for at least a certain period of time, and then a design parameter for the protection part 2000 is obtained after a preset numerical processing and design conversion or a manual analysis by a professional according to the detected waist parameter, and the design parameter generates a design and manufacture instruction for the thickness of four zones or elastic force in at least a three-dimensional structure of the protection part 2000 based on at least the physiological condition of the waist part expressed by the individual user during the daily life.

According to the above, the detecting part 1000 is used for detecting the waist condition of the individual user on line, and belongs to a process of advanced detection, which aims to collect as completely as possible the special and unique waist physiological conditions of the individual user different from other persons, so as to form design guidance for the protecting part 2000 subsequently used by the user, and the protecting part 2000 produced by the design guidance can adapt to the unique waist condition of the corresponding user and perform targeted correction on the waist position in a bad state. The present embodiment employs a detection section 1000 including at least a binding band 1100, a detector 1200, a power supply 1300, and a data processing unit, as shown in fig. 3 and 4. The binding band 1100 is configured to bind the detector 1200 at least to the waist of the user in a manner to fit the waist position of the user, and according to the most basic detection object to be solved by the present invention, is configured to bind the detector 1200 at least to the two side waist and back waist positions of the user, and preferably, to improve the detection stability of the detector 1200 on the human body, the binding band 1100 is configured to bind the detector 1200 to the structure of the user surrounding the waist, wherein the four sides including the front waist (partial abdomen position), the side waist and the back waist of the user surround the waist position of the user. It is preferred that the binding belt 1100 be deformably configured as a belt-like structure, preferably made of an elastic material to achieve wide applicability to different people, at least when bound to the waist of a user. In order to facilitate the user to wear the binding belt 1100 to the user, the annular binding belt 1100 is provided with an opening capable of being unfolded to an approximately two-dimensional planar structure, the two ends of the opening are provided with connecting units 1110 capable of being connected with each other to form the binding belt 1100 into an annular structure, if the binding belt 1100 is unfolded along the opening to be tiled on one surface, the binding belt 1100 is approximately in a two-dimensional rectangular or strip-shaped belt body shape, and the two connecting units 1110 are respectively distributed at the two ends of the binding belt having the length direction. The connection mode between the connection units 1110 has various options, for example, a connection mode of a hook surface and a loop surface of a common hook and loop tape in the market can be selected, a connection mode of a snap fastener can be selected, and connection modes such as a button and a buckle can be selected, and the connection modes only need to enable the binding belt 1100 to stably surround the waist of the user without falling.

The detector 1200 is arranged at one side of the binding belt 1100 close to the skin of the waist of the user when in use, and is pressed to the skin of the waist of the patient under the influence of the binding belt 1100, according to the detection requirement of the waist of the user, the detector 1200 mainly detects the bending condition of the waist of the user, for example, the condition that the waist of the user bends towards a certain direction when the user bends over the back or the waist is bent sideways, and the series of parameters are called as parameters of the waist back. Preferably, the detector 1200 employs the structure and function of the strain detector 1200, and more preferably, the flexible strain detector 1200 of the strain detector 1200 class is employed as the detector 1200 in this embodiment. At present, the flexible strain detector 1200 has many applications and researches in the field of smart clothes or smart wearing articles, at least one manufacturing form is to deposit a conductive material on a flexible material to form a thin sheet-like or film-like structure, the strain detector 1200 mainly utilizes the resistance value change caused by the deformation of the strain detector 1200 itself to measure the stress condition, and the approximate correlation between the stress and the curvature of the user waist can be obtained through limited times of experiments and the derivation of mathematical relations based on known scientific knowledge, so that the strain detector can be used for directly or indirectly representing the three-dimensional space structure of the user waist. Preferably, the detection surface formed by the plurality of detectors 1200 can cover at least most of the waist area of the user, and more preferably, it can cover the whole waist area of the user, in this design, each of the detectors 1200 is combined in a side-by-side parallel manner to form a matrix-like aggregate structure, and the detection surface refers to a large-area deformation detection area jointly generated after the deformation surfaces of the plurality of detectors 1200 form the aggregate structure. All of the detectors 1200 are electrically coupled to the power source 1300 and communicatively coupled to the processor 1400. The power supply 1300 may provide power to the detector 1200 in various ways, for example, a wireless charging way or a wired power supply way may be adopted, in this embodiment, a wired power supply structure is adopted, and preferably, the connection wire between the detector 1200 and the power supply 1300 passes through the inside of the binding belt 1100, that is, the binding belt 1100 may be regarded as being formed by overlapping at least two layers of belt structures, and a certain space for accommodating the wire can be formed at the middle part of the binding belt 1100 by utilizing the elastic deformation of the two layers of belt bodies, so that the wire can be arranged on the binding belt 1100 in a way that the user does not feel uncomfortable. The power supply 1300 for supplying power to each detector 1200 may be selected from a conventional chemical power supply 1300 or other energy source structure, for example, a dry battery, a rechargeable battery, a large-capacity storage battery, a solar cell panel, or even a kinetic energy battery, which converts kinetic energy generated by the user's movement into electric energy by cutting magnetic induction lines through a flywheel, a gyroscope, a pendulum, or other structures. Since the detector 1200 is of a passive detection type and has a very small volume and a resistance in the milliohm range, power consumption is substantially small when detecting, the capacity and output power of the power supply 1300 do not need to be large, and accordingly, the volume of the power supply 1300 does not need to be large. Therefore, preferably, the power source 1300 is disposed on the strap 1100, and more preferably, the power source 1300 is disposed on the other side of the strap 1100 from the surface contacting the waist of the patient. The power source 1300 may also be wrapped inside the two layers of the strap 1100 in the manner described above in which the strap 1100 wraps the wires. Preferably, all wires of the detector 1200 are gathered to one terminal and then electrically connected to the power source 1300, so that the user can conveniently replace the power source 1300 or charge the power source 1300.

The processor 1400 for analyzing the waist and back parameters obtained by the user detected by the detector 1200 is communicatively coupled to all the detectors 1200, and the processor 1400 is preferably an electronic component or an electronic assembly device with a data processing and calculating function, and may be, for example, an MCU chip, a single chip microcomputer, or a computer with a CPU, a mobile phone, or the like. The processor 1400 can be classified into two types, a portable type and a split type according to the processing difficulty of the detector 1200 for detecting data and the requirement of the processing level of the data. Under the portable condition, the detection data processing difficulty to detector 1200 is not high, and the operation process is comparatively simple, and is also not high to data processing demand, for example only need handle the testing result who reachs the foil gage and deposit this type of comparatively simple data processing process in the database according to chronogenesis and foil gage serial number with the result data after handling, can adopt comparatively miniature, can install the treater 1400 structure on user's body such as MCU chip, singlechip. In this case, if a user wants to perform advanced calculation operations such as fitting and splicing combination using the data stored in the database, the data in the database needs to be derived. Therefore, the detection part 1000 may further include a data transmission module 1500, and the data transmission module 1500 may transmit data to the outside in a wired or wireless manner. In a wired manner, the data transmission module 1500 is configured as a data interface structure, such as but not limited to a USB interface based on USB bus standard and its derivative variants, such as USB-C, micro-USB, and thunderbolt interface adopted by apple inc. In a wireless transmission mode, the data parameter module is configured as a structure of a wireless communication module, for example, but not limited to, wireless communication interaction with an external device having a wireless communication function may be performed in wireless communication modes such as WIFI, radio, mobile broadcast network, bluetooth, zigbee, wireless near field communication, and the like. Preferably, under the selection of the separate processor 1400, the processor 1400 may be implemented by a computer, a mobile phone, a tablet computer, a large central computing processor 1400, or other devices or facilities, so that more complex data processing and generation of design parameters may be directly implemented, in this scheme, the data output ends of all the detectors 1200 are collected to one data transmission module 1500 in a wireless transmission mode, and the data transmission module 1500 is responsible for transmitting data to the processor 1400 located outside the human body.

The processor 1400 processes the lumbar-back parameters detected by the detector 1200 to form design parameters for the protective part 2000 and sends the parameters as output to the manufacturer of the protective part 2000 to guide the manufacturer to follow-up manufacturing processes. The design parameters may include multi-dimensional parameter guidance, including at least three-dimensional structural parameters of the protective part 2000 and material parameters for material selection at each location of the protective part 2000. Preferably, the protecting part 2000 is also configured to be able to fully cover the front waist, side waist and rear waist portions of the user's waist region, and for convenience of description, the portions corresponding to the above positions may be respectively referred to as a front waist section 2100, a first side waist section 2300, a second side waist section 2400 and a rear waist section 2200, as shown in fig. 2, wherein the specific three-dimensional structure of each section is configured in a manner guided by the above-mentioned design parameters obtained by the processor 1400 processing the user's waist back parameters detected by the detector 1200, for example, according to the abnormal posture of the user with the left deviation of the lumbar vertebrae represented in the design parameters, then the second side waist section 2400 corresponding to the user in the design parameters is designed to enhance a convex arc to the inside of the human body on the basis of the normal non-side-deviated structure to forcibly correct the left-side-deviated waist of the user back to the normal position, correspondingly the first side waist section is due to the inward concave right side waist section 2300 thereof, may be configured to slightly reduce the arc it follows the waist of the user's right side to facilitate the return of the user's left side waist to a normal functional position. The design parameters in the same way can correct the problems of humpback, lumbar disc protrusion and the like of the front and back of the user. The three-dimensional structure here can be understood as a structure in three-dimensional space of a face that is fitted to or applied to the user's body side, since this portion is a part that improves or corrects the posture directly to the user's waist. The abnormal posture may be understood as a posture of the human waist deviating from a medically recommended posture of the normal human waist, such as a lateral curvature of the waist, a protrusion of the lumbar intervertebral disc, and the like. It can also be said that the design parameter is based on medical analysis and is produced to the problem of user's waist of back parameter characterization for the countermeasure design, and this process belongs to the process of rectifying, and this kind of process of rectifying is individual to the user, and the protection part 2000 that this embodiment adopted constitutes the scheme and can make every user always can accept the correction treatment that accords with its own waist problem when using, compares in ordinary back protection device, and its pertinence is stronger, and it is better to correct the treatment effect, and user experience comfort level is higher.

To facilitate understanding of the circuit portion and the software portion of the present embodiment, relevant examples of signals of the electronic components involved in the present embodiment are provided, as shown in fig. 5, and it should be noted that these examples do not limit all possible types of electronic components and circuit connection manners of the present invention.

Processor 1400 employs an STM32 series microchip processing unit, such as an STM32L496RET6STMCU microcontroller.

The detector 1200 is made using an Interlink Electronics FSR 400 compliant strain gage.

The data transmission module 1500 is configured as a standard USB-C interface in a wired manner.

The data transmission module 1500 is provided with an AP6256 dual-frequency WIFI + bluetooth module in a wireless manner.

The data acquisition software adopts EXLab data acquisition software developed by VTI Instruments.

The three-dimensional construction software for generating the three-dimensional structure of the protection part according to the acquired data simulation can adopt ADINA.

Preferably, the detecting part 1000 according to the present invention further has a control parameter for guiding the protecting part 2000 of the subsequent design to protect the user, in addition to the design parameter formed by detecting the waist and back parameters of the user after the processing. In this case, the protection unit 2000 not only passively corrects the user's waist by conforming to the three-dimensional design of the user's body, but also actively adjusts the user's waist in a posture driven by external energy. Specifically, the protecting part 2000 further comprises an actuating mechanism 2500, as shown in fig. 1, the actuating mechanism 2500 is configured to act on the front waist section 2100, the rear waist section 2200, the first side waist section 2300 and the second side waist section 2400 of the protecting part 2000 respectively to controllably bring the corresponding paragraphs into motion relative to the waist of the user, and so to speak, a peer-to-peer configuration is formed between the divided paragraphs of the protecting part 2000, which can be understood as that at least one actuating mechanism 2500 is driven at each paragraph. In order to achieve the above functional configuration, the actuating mechanism 2500 may adopt various structural forms having a driving function, and in this embodiment, the structural form of the actuating mechanism 2500 that generates a moving degree of freedom by using spiral engagement under the driving of a motor to form a driving effect is adopted.

Specifically, the actuator mechanism 2500 includes a drive motor 2510, a power supply 2520, and a transmission unit 2530, the drive motor 2510 has at least a rotating shaft 2512 and a motor main body 2511, the drive motor 2510 may be a brushless motor or other types of motor structures that are commonly available on the market, and the drive motor 2510 may be selected from a type having a smaller size in order to fit the size of the apparatus of the overall protector 2000 in the present embodiment. Rotation shaft 2512 is rotated by magnetic field conversion generated by energization of motor body 2511, and rotation shaft 2512 is provided with screw 2513 for meshing with other members.

The power of the actuating mechanism 2500 is derived from a power supply 2520 electrically coupled to the power supply, and the power supply 2520 may also adopt various types of energy sources, such as selected types of dry batteries, storage batteries, super capacitors, solar panels, wind energy panels, and the like, similar to the structure of the power supply 1300, and preferably, the power supply 2520 in this embodiment is selected from the structural form of a kinetic energy battery, and is provided with a chemical battery as a functional carrier for backup and energy storage. By converting the kinetic energy of the user as it moves into electrical energy to directly power the drive motor 2510 or to store electricity in rechargeable chemical batteries.

The transmission unit 2530 is a roller screw structure, and includes a moving table 2531 and balls 2532, at least a portion of the moving table 2531 is located around the rotating shaft 2512 of the driving mechanism, a plurality of balls 2532 arranged in series and engaged with the threads 2513 of the rotating shaft 2512 are arranged in a surrounding section, the relative rolling of the balls 2532 in the rotating shaft 2512 converts the torsion force of the rotating shaft 2512 into a force moving forwards and backwards along the axial direction of the rotating shaft, the balls 2532 and the moving table 2531 have a non-physical connection transmission relationship, and finally a degree of freedom for generating the moving table 2531 to move along the axial direction of the moving table is formed under the actuation of the driving motor 2510. This movement also has a degree of freedom of reciprocating movement due to forward and reverse rotations of the drive motor 2510. The transmission unit 2530 further includes a transmission lever 2533, and the transmission lever 2533 is disposed substantially in parallel with the axial direction of the rotation shaft 2512 and has one end coupled to the moving stage 2531 to move together therewith, so that the transmission lever 2533 also has a degree of freedom of reciprocating in the axial direction of the rotation shaft 2512. Preferably, the length of the transmission rod 2533 extending axially is equal to or greater than the length of the rotary shaft. The other end of the transmission rod 2533 is in contact with the protection part 2000, and preferably, four segments divided according to the protection part 2000 are respectively provided with corresponding four actuating mechanisms 2500 to realize independent control of each segment. The rear waist section 2200 of one of the segments is taken as an example to describe the detailed structure in the driving process, and the other segments are designed similarly and will not be described again. The other end of the transmission rod 2533 contacts the rear waist section 2200 away from the other side contacting the user's body and provides a power source close to or away from the user's waist to the rear waist section 2200, so that the rotation shaft 2512 and the transmission rod 2533 can be arranged in the same axial direction substantially in the radial direction of the approximate imaginary circle formed along the cross section of the human body, and it can be said that the driving direction of the driving motor 2510 and the driven direction of the transmission unit 2530 are in the direction close to or away from the human body. Preferably, at least the surface of the four segments of the protective part 2000 contacting the human body is formed as a soft layer 2600 having a predetermined three-dimensional structure, the soft layer 2600 is formed of a softer material, and the surface thereof contacting the waist of the user is produced as directed by design parameters, wherein the softer material may be selected from soft materials capable of being configured to a limited extent, such as silica gel, rubber, sponge, and the like. The side of the hard layer 2700 facing away from the human body is a hard layer 2700, the hard layer 2700 is made of a hard material, such as an engineering plastic, a metal, or a wood material, and the other end of the transmission rod 2533 is connected to the other side of the hard layer 2700 away from the side contacting the soft layer 2600. In use, the transmission rod 2533 transmits a force to the hard layer 2700 so that the soft layer 2600 attached to one side thereof is forced to approach or separate from the waist of the human body, thereby forming a deformation variable of the soft layer 2600, wherein the soft layer 2600 is driven to approach the waist of the user, and the soft layer 2600 is compressed in a deformation manner, so that the waist of the user feels a stronger compression force; similarly, when the soft layer 2600 is driven away from the waist of the user, it recovers to its natural form, and the compression force is reduced.

Preferably, the operation of the driving mechanism is guided by the above-mentioned regulation parameters, and specifically, a regulation module 2800 is provided, the regulation module 2800 is electrically and communicatively connected to the actuating mechanism 2500, and the regulation module 2800 controls various operating parameters of the actuating mechanism 2500, such as start and stop, torque of the driving motor 2510, and the like, according to the regulation parameters. Preferably, a certain detector 1200 may also be disposed on the protection portion 2000 to provide an auxiliary reference for regulating the actuating mechanism 2500, such as when to turn on, when to turn off, etc., to the regulating module 2800. Further preferably, the number and the detection area of the detectors 1200 provided in the protection part 2000 may be smaller than those of the detectors 1200 provided in the detection part 1000, and the positions and the number of the detectors 1200 may be set only according to the positions where the waist of the user needs to be corrected, which are reflected by the design parameters and the control parameters, and the detectors 1200 may not be provided in other positions where correction is not needed or in positions unrelated to the corrected positions. In this way, the detecting part 1000 can be set to have a common attribute, that is, a manufacturer can recycle the detecting part 1000 after a user uses it for a period of time and obtains corresponding design parameters and control parameters, and can give it to the next user after simple processing, thereby saving a large amount of cost for installing the detector 1200 and the purchase cost of the user.

It should be noted that the above-mentioned embodiments are exemplary, and that those skilled in the art, having benefit of the present disclosure, may devise various arrangements that are within the scope of the present disclosure and that fall within the scope of the utility model. It should be understood by those skilled in the art that the present specification and figures are illustrative only and are not limiting upon the claims. The scope of the utility model is defined by the claims and their equivalents.

Claims (10)

1. An apparatus for caring for the waist, comprising:

a detection part (1000) for detecting waist parameters of the user's waist and forming design parameters and regulation parameters for guiding the production of the protection part (2000),

a protective part (2000) which is used for being worn to the waist position of the user and forming correction aiming at the abnormal posture of the waist of the user represented by the waist parameter of the user,

it is characterized in that the preparation method is characterized in that,

the protector (2000) is formed with a three-dimensional structure for correcting an abnormal posture of the user's waist on a side thereof that fits the patient's waist in a manner to receive the design parameter guidance, and the protector (2000) further includes an actuator mechanism (2500) whose actuation direction can be arranged in a direction closer to or farther from the user's waist.

2. The device according to claim 1, characterized in that said protection portion (2000) is divided into a front waist section (2100), a rear waist section (2200), a first side waist section (2300) and a second side waist section (2400) according to the position of contact with the waist of the user, said actuating mechanism (2500) being equally arranged according to the position and number of the different sections divided by said protection portion (2000).

3. The device according to claim 2, wherein the protective part (2000) is divided into two layers in a direction close to and away from the waist of the human body, a soft layer (2600) is disposed on a side close to the waist of the human body, and a hard layer (2700) is disposed on a side away from the waist of the human body, and the three-dimensional structure is formed on a surface of the soft layer (2600) which is fitted to the human body.

4. The device according to claim 3, wherein the actuator mechanism (2500) includes a drive motor (2510) and a power supply source (2520), the drive motor (2510) includes a rotating shaft (2512) and a motor main body (2511), the rotating shaft (2512) is connected to the motor main body (2511) in such a manner that it can be driven by the motor main body (2511) to rotate, and the motor main body (2511) is electrically coupled to the power supply source (2520).

5. The device according to claim 4, wherein the actuating mechanism (2500) further comprises a transmission unit (2530), the driving motor (2510) is drivingly connected to the transmission unit (2530), and the driving direction of the driving motor (2510) and the driven direction of the transmission unit (2530) are both configured in a direction approaching or departing from the waist of the human body.

6. The device according to claim 5, wherein a screw thread (2513) spirally extending along an axial direction thereof is provided along a circumferential outer side surface of the rotation shaft (2512) of the driving motor (2510), the transmission unit (2530) includes a moving stage (2531) and a ball (2532), the moving stage (2531) is at least partially wound around a circumferential outer side of the rotation shaft (2512), and the ball (2532) engaged with the screw thread (2513) of the rotation shaft (2512) is provided in a formed winding section.

7. The apparatus according to claim 6, wherein the transmission unit (2530) further comprises a transmission shaft, one end of which is connected to the mobile station (2531) and the other end of which is connected to the stiff layer (2700), the axial direction defined by the line connecting the two ends thereof being parallel to the axial direction of the rotation shaft (2512) and both pointing in the same direction as the driving direction and the driven direction.

8. The apparatus according to claim 1, wherein the sensing part (1000) further comprises a detector (1200), the detector (1200) is provided on a side of the binding band (1100) close to the user's waist, and a plurality of the detectors (1200) are arranged on the binding band (1100) and configured in such a manner that the sensing surface formed by the combination thereof covers the user's waist.

9. The device according to claim 5, wherein the detection part (1000) further comprises a data transmission module (1500), and the data transmission module (1500) is wirelessly connected with the processor (1400) arranged outside the user individual in a communication coupling mode.

10. The device according to claim 2, wherein when the waist parameter indicates that the lumbar vertebrae of the user have a posture deviated to the left or right side, the first lateral waist section (2300) and the second lateral waist section (2400) in the protection portion (2000) manufactured according to the design parameter respectively form a state of not being symmetrical about the midline of the human body in cooperation with the shape and degree of the lateral waist recess of the user.

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