CN112641549A

CN112641549A - Foot varus or foot valgus correction tool

Info

Publication number: CN112641549A
Application number: CN202011318629.2A
Authority: CN
Inventors: 刘利龙; 王博; 邓炎
Original assignee: Union Hospital Tongji Medical College Huazhong University of Science and Technology
Current assignee: Tongji Medical College of Huazhong University of Science and Technology; Union Hospital Tongji Medical College Huazhong University of Science and Technology
Priority date: 2020-11-23
Filing date: 2020-11-23
Publication date: 2021-04-13

Abstract

The invention discloses a tool for correcting the pronation or the supination of a foot, which comprises a shoe and two elastic bandages arranged on two sides of the shoe, wherein the upper end of each elastic bandage is connected with a leg fixing piece arranged across knees, and the tension of each elastic bandage can be adjusted, so that the elastic bandages with different tensions are arranged on two sides of the leg of a patient suffering from the pronation or the supination of the foot. The invention applies to fix the sole of a foot through a shoe, fix a leg fixing piece arranged across the knee, correct the pronation or the supination of the foot by adjusting the tension of the elastic bandage, for example, the tension of the elastic bandage for adjusting the outer side of the leg is larger than the tension of the elastic bandage for adjusting the inner side of the leg in the pronation condition of the foot, so the pronation of the foot is corrected slowly, the tension of the elastic bandage for adjusting the outer side of the leg is smaller than the tension of the elastic bandage for adjusting the inner side of the leg in the supination condition of the foot, so the supination of the foot is corrected slowly.

Description

Foot varus or foot valgus correction tool

Technical Field

The invention belongs to the field of medical appliances, and particularly relates to a tool for correcting varus pedis or valgus pedis.

Technical Field

The pronation refers to the condition of the medial deviation of the foot caused by the imbalance of muscle force due to the pathological changes of the nerve muscles, and is called as the pronation. Mainly seen in hereditary diseases, such as hereditary motor neuron disease and poliomyelitis sequelae, and pronation of feet is easy to occur in patients with cerebral palsy. Pronation manifests itself as inward rotation of the foot, which requires walking on a load outside the foot. Due to the fact that the walking mode is abnormal, the patient is difficult to walk, compensatory changes of ankles and knee joints can occur in the long-term foot varus process, and therefore poor performance of the whole lower limb is caused. Eversion of the foot is a deformity caused by abnormal development of foot tendons, accompanied by collapse of the flat foot and scaphoid, and in addition, eversion of the foot can cause eversion deformation of the ankle joint. It is thought that the ankle joint is passively corrected to a neutral position of 90 ° due to the tension of the tibialis anterior. At present, no tool can correct the foot varus or the foot valgus well.

Disclosure of Invention

The invention aims to provide a tool for correcting the varus or valgus of feet.

In order to achieve the purpose of the invention application, the invention application adopts the following technical scheme:

the tool for correcting the pronation or the supination of the foot comprises a shoe and two elastic bandages arranged on two sides of the shoe, wherein the upper end of each elastic bandage is connected with a leg fixing piece arranged across the knee, and the tension of each elastic bandage can be adjusted to enable the elastic bandages with different tensions to be arranged on two sides of the leg of a patient suffering from the pronation or the supination of the foot.

Further, shoes including correcting the heelpiece, a side of correcting the heelpiece is equipped with a plurality of fixed bands, the another side of correcting the heelpiece be equipped with fixed band matched with buckle, the both sides face of correcting the heelpiece is equipped with the elastic bandage of symmetry, the other end of elastic bandage is connected to the shank mounting, the shank mounting that stridees across the knee setting specifically be, the shank mounting includes two solid fixed rings that are connected, one of them solid fixed ring sets up on knee upper portion, another solid fixed ring sets up in the knee lower part.

Furthermore, the elastic bandage comprises two partial pressure belts which are respectively fixed at the rear end and the middle end of the correction base mat, the tail ends of the two partial pressure belts are fixed on a pressure ring, and the upper part of the pressure ring is connected with the fixing ring.

Further, the fixed ring is made of an undeformable material and is provided with a matched ring locking clamp.

Further, a sheet pressure type sensor is arranged on the pressure ring, the sheet pressure type sensor is arranged between the pressure dividing belt and the inner ring wall of the pressure ring, and the sheet pressure type sensor is used for acquiring the tension change of the pressure dividing belt; the sheet pressure type sensor is electrically connected with the pressure recording circuit board through a lead, a storage data acquisition port and a storage card are arranged on the pressure recording circuit board, and the sheet pressure type sensor is used for uploading pressure recording data to the storage card in real time.

The pressure recording circuit board comprises an analog-to-digital conversion circuit, a time sequence control circuit and a control circuit, wherein the analog-to-digital conversion circuit and the time sequence control circuit are electrically connected, the analog-to-digital conversion circuit, the control circuit, the memory card and the storage data acquisition port are electrically connected in sequence, the analog-to-digital conversion circuit is also electrically connected with the sheet pressure type sensor through a lead, the analog-to-digital conversion circuit completes sampling and analog-to-digital conversion of signals of different sheet pressure type sensors under the control of the time sequence control circuit, the control circuit is used for transmitting and storing digital signals of the sheet pressure type sensor in the memory card, and the storage data acquisition port adopts a USB data transmission protocol to read out storage data.

Further, pressure recording circuit board still including the bluetooth communication circuit of configuration, bluetooth communication circuit and control circuit electric connection, control circuit passes through bluetooth communication circuit and is connected with the smart mobile phone electricity, bluetooth communication circuit be used for transmitting the data of memory card for the smart mobile phone end through radio bluetooth agreement.

Furthermore, the voltage dividing belt comprises a plurality of sections of belt bases, the belt bases are connected through electromagnetic coil groups, each electromagnetic coil group is electrically connected with an electromagnetic coil control circuit, the electromagnetic coil control circuit is provided with a communication circuit and a communication protocol which are connected with a cloud computing system, the electromagnetic coil control circuit is used for acquiring command signals for controlling the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group through the cloud computing system, and the electromagnetic coil control circuit executes the magnetic force direction and the magnetic force magnitude control on each electromagnetic coil group; the electromagnetic coil control circuit is also used for feeding back the control state of each electromagnetic coil group to the cloud computing system; correspondingly, the cloud computing system is used for controlling the magnetic force direction and the magnetic force of each electromagnetic coil group according to the optimal scheme after the control state of each electromagnetic coil group, and sending command signals to the electromagnetic coil control circuit.

Further, the cloud computing system controls the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group according to the optimal scheme to send command signals to the electromagnetic coil control circuit, the cloud computing system obtains a data set of 'control state of each electromagnetic coil group' corresponding to each patient with foot varus or foot valgus with time sequence to estimate the actual application effect of each patient with foot varus or foot valgus, the optimal and classified command group which is sent to the control of the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group is screened according to the practical application effect of a large number of patients with the pronation or the pronation, the optimal command for controlling the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group is distributed to each patient with the varus or valgus on the basis of the optimal command group for controlling the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group and with classification and gradient.

Advantageous effects

This application is through the fixed sole of a foot of shoes, it is fixed to stride across the knee setting again with the shank mounting, correct the strephenopodia or turn up through adjustment elastic bandage tension, for example, make the tension of the elastic bandage of adjustment shank outside be greater than the tension of the inboard elastic bandage of shank in the condition of strephenopodia, the strephenopodia will be corrected slowly like this, make the tension of the elastic bandage of adjustment shank outside be less than the tension of the inboard elastic bandage of shank in the condition of strephenopodia, the strephenopodia will be corrected slowly like this.

The pressure sensor can record the tension change of the data partial pressure belt in real time, and the tension of the partial pressure belt is always equal to the pressure tested by the pressure sensor, so that the tension change of the partial pressure belt can be recorded to study or record the relation between the correction effect and the tension change, and the correction effect can be directly judged. The smart phone end can develop corresponding application, can acquire the tension change research of partial pressure belt or record the relation and the actual data of correcting effect and tension change through bluetooth communication, and can also display for the user through between the application that corresponds, and the user of being convenient for knows the progress and the effect of correcting more directly perceivedly. The cloud computing system can acquire the control state data set of each electromagnetic coil group corresponding to each varus or valgus patient with time sequence to estimate the actual application effect of each varus or valgus patient, and selects an optimal command group with classification and gradient for controlling the magnetic force direction and the magnetic force of each electromagnetic coil group according to the actual application effects of a large number of varus or valgus patients.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application

FIG. 2 is a schematic structural diagram of an embodiment of the present application

FIG. 3 is a schematic structural diagram of an embodiment of the present application

FIG. 4 is a schematic diagram of a circuit component of an embodiment of the present application

FIG. 5 is a schematic diagram of a circuit component of an embodiment of the present application

Fig. 6 is a partial structure and a schematic diagram of connection with cloud computing according to an embodiment of the present application.

Detailed Description

In concrete implementation, as shown in fig. 1, the embodiment of the present application comprises a shoe 1 and two elastic bandages 2 arranged on both sides of the shoe 1, the upper end of the elastic bandage 2 is connected with a leg fixing member 3 arranged across the knee, and the tension of the elastic bandage 2 can be adjusted to enable the elastic bandages 2 with different tensions to be arranged on both sides of the leg of a patient suffering from varus or valgus. The fixed sole of foot through shoes 1 in this application implementation, it is fixed to stride across the knee setting again with shank mounting 3, correct the toe-in or turn up through adjusting 2 tensions of elastic bandage, for example, make the tension of the elastic bandage 2 of adjustment shank outside be greater than the tension of the elastic bandage 2 of shank inboard in the condition of toe-in, the toe-in will be corrected slowly like this, make the tension of the elastic bandage 2 of adjustment shank outside be less than the tension of the elastic bandage 2 of shank inboard in the condition of toe-out, the toe-out will be corrected slowly like this.

In a more specific implementation, as shown in fig. 2 to 3, the shoe 1 includes a correction base pad 11, one side of the correction base pad 11 is provided with a plurality of fixing bands 10, the other side of the correction base pad 11 is provided with a buckle 12 matched with the fixing bands 10, the sole of the foot can be better fixed by the fixing bands 10 and the buckle 12, two sides of the correction base pad 11 are provided with symmetrical elastic bandages 2, the other ends of the elastic bandages 2 are connected to a leg fixing member 3, specifically, the leg fixing member 3 disposed across the knee includes two fixing rings 31 connected, one fixing ring 31 is disposed on the upper part of the knee, and the other fixing ring 31 is disposed on the lower part of the knee.

More specifically, the elastic bandage 2 includes two partial pressure bands 21 fixed to the rear end and the middle end of the corrective base pad 11, respectively, the ends of the two partial pressure bands 21 are fixed to the pressure ring 20, and the upper portion of the pressure ring 20 is connected to the fixing ring 31. The elastic bandage 2 can be applied to the shoe 1 or the correcting sole 11 more uniformly in tension distribution through the two partial pressure belts 21 fixed at the rear end and the middle end of the correcting sole 11 in use, so that the fixing effect and the correcting effect of the sole are better.

More specifically, fixed ring 31 is the indeformable material, is equipped with matched with ring lock card 30 on the fixed ring 31. The fixed ring 31 in implementation has a better fixing effect for the non-deformable material, certainly, elastic material layers such as rubber can be arranged on the periphery of the fixed ring 31 for comfort, and the size of the fixed ring 31 can be better adjusted by the ring locking clamp 30, so that the practicability is better.

More specifically, a sheet pressure sensor 201 is arranged on the pressure ring 20, the sheet pressure sensor 201 is arranged between the pressure dividing belt 21 and the inner annular wall of the pressure ring 20, and the sheet pressure sensor 201 is used for acquiring the tension change of the pressure dividing belt 21; the sheet pressure type sensor 201 is also electrically connected with a pressure recording circuit board 6 through a lead 4, a storage data acquisition port 5 and a storage card are arranged on the pressure recording circuit board 6, and the sheet pressure type sensor 201 is used for uploading pressure recording data to the storage card in real time. In specific implementation, the pressure sensor 201 can record the tension change of the data dividing belt 21 in real time, because the tension of the dividing belt 21 is always equal to the pressure tested by the pressure sensor 201, the tension change of the dividing belt 21 can be recorded to study or record the relationship between the correction effect and the tension change, and meanwhile, the correction effect can be directly judged.

In a more specific implementation, as shown in fig. 4, the pressure recording circuit board 6 includes an analog-to-digital conversion circuit, a timing control circuit, and a control circuit, the analog-to-digital conversion circuit and the timing control circuit are electrically connected, the analog-to-digital conversion circuit, the control circuit, a memory card, and a stored data acquisition port 5 are electrically connected in sequence, the analog-to-digital conversion circuit is further electrically connected with the sheet pressure sensor 201 through a wire 4, the analog-to-digital conversion circuit completes sampling and analog-to-digital conversion of signals of different sheet pressure sensors 201 under the control of the timing control circuit, the control circuit is configured to transmit and store digital signals of the sheet pressure sensors 201 in the memory card, and the stored data acquisition port 5 reads out stored data by using a USB data transmission protocol; in implementation, the analog-to-digital conversion circuit completes sampling and analog-to-digital conversion of signals of different sheet pressure sensors 201 under the control of the time sequence control circuit, the control circuit transmits and stores digital signals of the sheet pressure sensors 201 in a memory card, and the storage data acquisition port 5 adopts a USB data transmission protocol to read out storage data; therefore, the user can read the actual correction data from the memory card regularly and can know the correction progress and effect.

Specifically, the control circuit can adopt an stm32 singlechip, and the memory card adopts an SD memory card. The pressure recording circuit board 6 comprises an analog-digital conversion circuit, a time sequence stm32 single chip microcomputer and a stm32 single chip microcomputer which are configured, the analog-digital conversion circuit and the time sequence stm32 single chip microcomputer are electrically connected, the analog-digital conversion circuit, the stm32 single chip microcomputer, an SD memory card and a storage data acquisition port 5 are electrically connected in sequence, the analog-digital conversion circuit is further electrically connected with the sheet pressure type sensor 201 through a lead 4, the analog-digital conversion circuit completes sampling and analog-digital conversion of signals of different sheet pressure type sensors 201 under the control of the time sequence stm32 single chip microcomputer, the stm32 single chip microcomputer is used for transmitting and storing digital signals of the sheet pressure type sensor 201 in the SD memory card, and the storage data acquisition port 5 adopts a USB data transmission protocol to read out storage data; in implementation, the analog-to-digital conversion circuit completes sampling and analog-to-digital conversion of signals of different sheet pressure sensors 201 under the control of a time sequence stm32 single chip microcomputer, the stm32 single chip microcomputer transmits and stores digital signals of the sheet pressure sensors 201 in an SD memory card, and the storage data acquisition port 5 adopts a USB data transmission protocol to read out storage data; therefore, the user can regularly read the actual correction data from the SD memory card and can know the correction progress and effect.

In a more specific implementation, as shown in fig. 5, the pressure recording circuit board 6 further includes a bluetooth communication circuit, the bluetooth communication circuit is electrically connected to the control circuit, the control circuit is electrically connected to the smart phone through the bluetooth communication circuit, and the bluetooth communication circuit is configured to transmit data of the memory card to a smart phone end through a wireless bluetooth (e.g., NFC bluetooth module) protocol; in concrete implementation, corresponding applications can be developed on corresponding smart phone terminals, the smart phone terminals can acquire tension change research of the partial pressure belt 21 or record the relation between the correction effect and the tension change and actual data through Bluetooth communication, and can also display the correction effect and the tension change to users through 2 corresponding applications, so that the users can know the correction progress and effect more intuitively.

In a more specific implementation, as shown in fig. 6, the voltage dividing belt 21 includes a plurality of sections of belt bases 212, the belt bases 212 are connected through electromagnetic coil groups 210, each electromagnetic coil group 210 is electrically connected with an electromagnetic coil control circuit 7, the electromagnetic coil control circuit 7 is configured with a communication circuit and a communication protocol connected with the cloud computing system 8, the electromagnetic coil control circuit 7 is configured to obtain command signals for controlling the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group 210 through the cloud computing system 8, and the electromagnetic coil control circuit 7 performs magnetic force direction and magnetic force magnitude control on each electromagnetic coil group 210; the electromagnetic coil control circuit 7 is further configured to feed back the control state of each electromagnetic coil group 210 to the cloud computing system 8; correspondingly, the cloud computing system 8 is used for controlling the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group 210 according to the optimal scheme after the control state of each electromagnetic coil group 210, and sending command signals to the electromagnetic coil control circuit 7; in specific implementation, the solenoid control circuit 7 may directly perform one-touch adjustment on the tension of the shunt belt 21 by performing magnetic direction and magnetic force control on each solenoid group 210, and the cloud computing system 8 may obtain the control state of each solenoid group 210 and then send command signals to the solenoid control circuit 7 according to an optimal scheme for controlling the magnetic direction and magnetic force of each solenoid group 210, where cloud computing (cloudcomputing) is one of distributed computing and means decomposing a huge data computing processing program into numerous small programs through a network "cloud", and then processing and analyzing the small programs through a system composed of multiple servers to obtain results and return the results to a user, and the cloud computing has better dynamic extensibility, stability and scientificity, so that the solenoid control circuit 7 may perform more accurate and high magnetic force direction and magnetic force control on each solenoid group 210 And (5) effect.

In more specific implementation, the cloud computing system 8 sends command signals to the solenoid control circuit 7 according to the optimal scheme for controlling the magnetic force direction and the magnetic force magnitude of each solenoid group 210, specifically, the cloud computing system 8 obtains a data set of "control state of each solenoid group 210" corresponding to each patient with foot varus or foot valgus with time sequence to estimate the actual application effect of each patient with foot varus or foot valgus, selects an optimal command group sent for controlling the magnetic force direction and the magnetic force magnitude of each solenoid group 210 and having classification and gradient according to the actual application effect of a large number of patients with foot varus or foot valgus, and distributes the optimal command group to each patient with foot varus or foot valgus based on the optimal command group sent for controlling the magnetic force direction and the magnetic force magnitude of each solenoid group 210 and controls the magnetic force direction and the magnetic force magnitude of each solenoid group 210 Out command ". In the specific implementation, the "command group issued for controlling the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group 210" having the classification and the gradient is that "the command issued for controlling the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group 210" is generally a plurality of groups, and different classification situations are provided for different actual users, and even for the same user, the "command issued for controlling the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group 210" of the same class may have different gradients, so that in practice, the "cloud computing system 8 obtains the control state data group of each electromagnetic coil group 210 corresponding to each varus or valgus patient with time sequence to estimate the actual application effect of each varus or valgus patient, which is a enrichment and screening process, and the optimal and classification and gradient" for each electromagnetic coil group "is screened according to the actual application effects of a large number of varus or valgus patients The direction and magnitude of the magnetic force of the coil assembly 210 controls the command set "is the specific application process.

For example, a cloud computing management system includes: the system comprises a plurality of resource detection modules, a plurality of resource detection modules and a plurality of resource detection modules, wherein each resource detection module is used for acquiring state information data of one cloud computing system, which is associated with a cloud computing bottom product, the cloud computing bottom product is applied to each cloud computing system, and the cloud computing bottom products applied to at least two cloud computing systems are different; the logic processing module comprises an initialization logic processing module and a processing module, wherein the initialization logic processing module is used for acquiring initial state information data, which are acquired by the resource detection modules and are associated with cloud computing bottom products, of each cloud computing system from the resource detection modules, and performing unified initialization processing on the acquired initial state information data to obtain processed initial state information data, and the initialization processing comprises structural analysis and organization of the initial state information data and conversion of an execution object model; the management module is used for managing each cloud computing system according to the processed initial state information data; the storage module is used for storing the initial state information data of each cloud computing system obtained after the initialization logic processing module processes the initial state information data; wherein the logic processing module further comprises a synchronous logic processing module for executing the following functions: acquiring current state information data, which is acquired by the resource detection modules and is associated with cloud computing bottom products, of each cloud computing system from the resource detection modules according to a resource synchronization strategy; comparing the current state information data of each cloud computing system with the corresponding previous state information data or initial state information data read from the storage module in a logic structure manner, and analyzing logic change to obtain an action set needing to be executed, wherein the previous state information data refers to state information data behind the initial state information data; and carrying out corresponding processing on the previous state information data or the initial state information data according to the action set so as to realize resource synchronization; the management module is also used for managing each cloud computing system according to the latest state information data; the storage module is further used for storing the latest state information data of each cloud computing system, which are associated with the cloud computing bottom products, after the resources are synchronized; the resource synchronization strategy comprises a time-based synchronization strategy or an on-demand synchronization strategy; the logical change comprises one or any combination of the following: modification, deletion or addition of logical objects, movement of organizational structures, change of inherent properties of logical objects themselves and change of instantly changing properties of logical objects themselves.

Claims

1. The tool for correcting the pronation or the valgus of the foot is characterized by comprising a shoe and two elastic bandages arranged on two sides of the shoe, wherein the upper end of each elastic bandage is connected with a leg fixing piece arranged across the knee, and the tension of each elastic bandage can be adjusted to ensure that the elastic bandages with different tensions are arranged on two sides of the leg of a patient suffering from the pronation or the valgus of the foot.

2. The tool of claim 1, wherein the shoe comprises a corrective base pad, one side of the corrective base pad is provided with a plurality of fastening bands, the other side of the corrective base pad is provided with fasteners matching with the fastening bands, two sides of the corrective base pad are provided with symmetrical elastic bandages, and the other ends of the elastic bandages are connected to a leg fixing member disposed across the knee, in particular, the leg fixing member disposed across the knee comprises two connected fastening rings, one of which is disposed on the upper part of the knee and the other of which is disposed on the lower part of the knee.

3. The tool for correcting varus or valgus of foot according to claim 1, wherein the elastic bandage comprises two pressure-dividing strips fixed to the rear end and the middle end of the correction base pad, respectively, the ends of the two pressure-dividing strips are fixed to a pressure ring, and the upper part of the pressure ring is connected to the fixing ring.

4. The tool of claim 3, wherein the securing ring is made of a non-deformable material and the securing ring has a mating ring locking clip.

5. The tool according to claim 4, wherein the pressure ring is provided with a sheet pressure sensor, the sheet pressure sensor is arranged between the pressure dividing belt and the inner annular wall of the pressure ring, and the sheet pressure sensor is used for acquiring tension changes of the pressure dividing belt; the sheet pressure type sensor is electrically connected with the pressure recording circuit board through a lead, a storage data acquisition port and a storage card are arranged on the pressure recording circuit board, and the sheet pressure type sensor is used for uploading pressure recording data to the storage card in real time.

6. The tool for correcting varus or valgus of foot according to claim 5, the pressure recording circuit board comprises an analog-to-digital conversion circuit, a time sequence control circuit and a control circuit, the analog-to-digital conversion circuit and the time sequence control circuit are electrically connected, the analog-to-digital conversion circuit, the control circuit, the memory card and the storage data acquisition port are electrically connected in sequence, the analog-to-digital conversion circuit is electrically connected with the sheet pressure type sensor through a lead, the analog-to-digital conversion circuit finishes the sampling and analog-to-digital conversion of signals of different sheet pressure type sensors under the control of the time sequence control circuit, the control circuit is used for transmitting and storing the digital signals of the sheet pressure type sensor in the memory card, the storage data acquisition port adopts a USB data transmission protocol to read out the storage data.

7. The tool according to claim 1, wherein the pressure recording circuit board further comprises a bluetooth communication circuit, the bluetooth communication circuit is electrically connected to the control circuit, the control circuit is electrically connected to the smart phone through the bluetooth communication circuit, and the bluetooth communication circuit is configured to transmit data of the memory card to the smart phone via a wireless bluetooth protocol.

8. The tool for correcting varus or valgus according to claim 2, wherein the voltage dividing belt comprises a plurality of sections of belt bases, the belt bases are connected with each other through electromagnetic coil groups, each electromagnetic coil group is electrically connected with an electromagnetic coil control circuit, the electromagnetic coil control circuit is provided with a communication circuit and a communication protocol, the communication circuit and the communication protocol are connected with a cloud computing system, the electromagnetic coil control circuit is used for acquiring command signals for controlling the magnetic force direction and the magnetic force magnitude of each electromagnetic coil group through the cloud computing system, and the electromagnetic coil control circuit executes the magnetic force direction and the magnetic force magnitude control on each electromagnetic coil group; the electromagnetic coil control circuit is also used for feeding back the control state of each electromagnetic coil group to the cloud computing system; correspondingly, the cloud computing system is used for controlling the magnetic force direction and the magnetic force of each electromagnetic coil group according to the optimal scheme after the control state of each electromagnetic coil group, and sending command signals to the electromagnetic coil control circuit.

9. The tool according to claim 8, wherein the cloud computing system sends command signals to the solenoid control circuit according to an optimal scheme, the cloud computing system obtains a data set of "control state of each solenoid group" corresponding to each varus or valgus patient with time sequence to estimate the actual application effect of each varus or valgus patient, selects an optimal and classified "command group sent to control magnetic force direction and magnetic force magnitude of each solenoid group" according to the actual application effect of a large number of varus or valgus patients, and distributes optimal "to each electric motor" to each varus or valgus patient based on the "command group sent to control magnetic force direction and magnetic force magnitude of each solenoid group" with optimal and classified and gradient The magnetic force direction and magnitude of the magnetic force of the magnetic coil assembly control the issued command ".