CN211433988U - Wearable cerebral apoplexy rehabilitation device based on flexible touch - Google Patents

Abstract

The utility model discloses a wearable cerebral apoplexy rehabilitation device based on flexible touch, wherein a bionic artificial muscle and a sliding block are arranged on one side of a palm main body, and a palm touch massage ball is arranged on the other side; the bionic artificial muscles and the sliding blocks are arranged at intervals, and at least three bionic artificial muscles are arranged on the five fingers of the palm main body; the palm main body is connected with the bionic upper limb through a wrist rotating ring; the air power source inputs air for bionic artificial muscle. The utility model discloses the high alcohol steam drive arrangement of safety in utilization, through the regeneration of patient's repeatability autonomic training in order to promote the nerve fiber tip, use the bionic artificial pneumatic muscle drive of flexible structure to receive the trainer of secondary injury in order to avoid the joint, protect the patient in physiology and psychology when reaching recovered effect.

Description

Wearable cerebral apoplexy rehabilitation device based on flexible touch

Technical Field

The utility model relates to a rehabilitation technical field, more specifically the wearable cerebral apoplexy rehabilitation device based on flexible touch sense that says so relates to.

Background

In order to solve the problems that the population of China is increasingly aged, the flexibility of limbs caused by aging is reduced, and the number of stroke hemiplegia patients is increased continuously, the traditional operation treatment has the defects that the period is too long, a therapist needs to accompany for a long time, and the number of the therapists is limited by the number of the therapists, and the equivalent rate is low. Therefore, the existing stroke rehabilitation device has the following problems:

1. most of the existing medical rehabilitation equipment adopts motor drive of a pure mechanical structure, can only rehabilitate joints with larger structures such as hands or wrists, has dexterous fingers, is heavy and not easy to install, has poor torque control, and easily causes secondary damage to patients.

2. The existing driving control modes mainly comprise two modes, namely cerebral nerve intention control and external appointed program control, wherein the cerebral nerve intention control has high cost, and the external appointed program control has poor forced rehabilitation effect.

3. Bending sensors are mostly adopted for detecting joint bending, the sensitivity is low, and only 0-75 degrees can be detected.

4. The stretching amount of pneumatic muscles in the upper limb rehabilitation arm driven by the steel wire rope with the self-tensioning function is difficult to keep consistent with the rotation angle of the single-arm component, and the bending range is fixed and cannot be adjusted.

Therefore, how to provide a flexible wearable cerebral apoplexy rehabilitation device capable of avoiding causing secondary damage is a problem that needs to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a wearable cerebral apoplexy rehabilitation device based on flexible touch, the high alcohol steam drive arrangement of safety in utilization, through the regeneration of patient's repeatability autonomic training in order to promote the nerve fiber tip, the bionic artificial pneumatic muscle drive that uses flexible structure receives the trainer of secondary injury in order to avoid the joint, has had rigid structure's stability and flexible structure's travelling comfort concurrently, protects the patient in physiology and psychology when reaching recovered effect.

In order to achieve the above object, the present invention provides the following technical solutions:

a flexible haptic based wearable stroke rehabilitation device comprising: an air power source, a bionic spine, bionic shoulders, bionic upper limbs and bionic hands; the bionic ridge is connected with the bionic upper limb through the bionic shoulder; the bionic hand comprises: the palm massage ball comprises a palm main body, a wrist rotating ring, bionic artificial muscles, a sliding block and a palm tactile massage ball; the bionic artificial muscle and the sliding block are arranged on one side of the palm main body, and the palm tactile massage ball is arranged on the other side; the bionic artificial muscles and the sliding blocks are arranged at intervals, and at least three bionic artificial muscles are arranged on the five fingers of the palm main body; the palm main body is connected with the bionic upper limb through the wrist rotating ring; the air power source inputs air for the bionic artificial muscle.

Through foretell technical scheme, the utility model discloses a technological effect lies in: each finger adopts three air bags, so that multi-joint independent driving can be realized, and the air bags are provided with sliding pairs, so that the driver and the surface of the finger cannot generate friction when the finger is bent; the regeneration of nerve fiber ending is promoted in order to the automatic training of repeatability through the patient, uses the bionic artificial pneumatic muscle drive of flexible construction to receive the trainer of secondary injury in order to avoid the joint, has had the stability of rigid construction and the travelling comfort of flexible construction concurrently, protects the patient in physiology and psychology when reaching recovered effect.

Preferably, in the above wearable brain stroke rehabilitation device based on flexible touch sense, the bionic ridge comprises: pneumatic tendon, human bionic vertebra, monofilament nylon relative displacement internal line, pneumatic tendon adjusting movable pulley and pneumatic tendon adjusting fixed pulley; the pneumatic tendons are distributed on two sides of the bionic spine of the human body and are connected with the air power source through a switch electromagnetic valve; the pneumatic tendon adjusting movable pulley is arranged at the top end of the pneumatic tendon; the pneumatic tendon adjusting fixed pulley is fixed on the large arm supporting rod; monofilament nylon relative displacement interior line one end is fixed in pneumatic tendon and adjusts the movable pulley upper end, walks around behind pneumatic tendon and adjusts the fixed pulley, walks around the lower extreme that pneumatic tendon adjusted the movable pulley again, passes the baffle again and gets into monofilament nylon relative displacement external line.

Through foretell technical scheme, the utility model discloses a technological effect lies in: the pneumatic tendon can be adjusted to adjust the displacement of the movable pulley to amplify the displacement of the pneumatic tendon, and the pneumatic tendon can be adjusted to adjust the design of the fixed pulley to be suitable for different users and adjust the range of joint motion. The position of the fixed pulley on the large arm supporting rod is adjusted by adjusting the pneumatic tendon, so that the rehabilitation training of the specified range of each joint is realized.

Preferably, in the above wearable brain stroke rehabilitation device based on flexible touch sense, the bionic shoulder comprises: the shoulder fixing reinforcing part and the shoulder fixing connecting part; the two ends of the shoulder fixing and reinforcing piece and the shoulder fixing and connecting piece are respectively fixed on the bionic spine and the bionic upper limb; the outer monofilament nylon relative displacement line is fixed with the shoulder fixing and reinforcing piece, the inner monofilament nylon relative displacement line penetrates through the shoulder fixing and reinforcing piece to be connected with the large arm joint rod, and the inner monofilament nylon relative displacement line pulls the large arm joint rod to enable the angle range of the large arm joint rod and the shoulder fixing and reinforcing piece to be 90-0 degrees.

Through foretell technical scheme, the utility model discloses a technological effect lies in: the bionic shoulder adopts a suspension supporting mechanism, the force of the shoulder is dispersed to the bionic spine of a human body, the comfort is improved, and meanwhile, the motion error caused by different inclination angles when the large arm is put down and lifted is avoided.

Preferably, in the above wearable stroke rehabilitation device based on flexible touch sensation, the bionic upper limb includes a large arm support rod, a large arm fitting rod, an elbow rotation structure, a small arm support rod and a small arm fixing sliding part; the large arm support rod is connected with the shoulder fixing connecting piece, the large arm attaching rod is fixed with the large arm support rod, and an elbow rotating structure is arranged at the top end of the large arm attaching rod; one end of the forearm supporting rod is connected with the upper arm attaching rod through the elbow rotating mechanism, and the other end of the forearm supporting rod is fixedly connected with the wrist rotating ring through the forearm fixing sliding part.

Preferably, in the above wearable brain stroke rehabilitation device based on flexible touch sense, the elbow rotation structure includes: an elbow rotation block and an elbow housing; the small arm fixed sliding piece is fixed with the elbow rotating block; the elbow shell is fixed with the large arm attaching rod; the pneumatic tendon adjusts the monofilament nylon relative displacement interior line of movable pulley and the monofilament nylon relative displacement interior line that pneumatic tendon connects is fixed respectively the both ends of elbow rotatory piece.

Through foretell technical scheme, the utility model discloses a technological effect lies in: the elbow designs the spacing automatic mechanism that straightens of hidden form, and under the drive of monofilament nylon relative displacement interior line, preceding forearm is crooked, and big arm rotary disk and forearm rotary disk produce axial displacement because of rotating simultaneously, and after relative displacement inside and outside line laxity, two rolling discs make the forearm put down again because of recovering relative displacement.

Preferably, in the wearable cerebral apoplexy rehabilitation device based on flexible touch sense, the bionic artificial muscle and the palm touch sense massage ball are of hollow structures and internally contain volatile liquid; and heating the volatile liquid through a heating circuit.

Through foretell technical scheme, the utility model discloses a technological effect lies in: the bending state of the fingers on the affected side and the state of the holding object are detected through the silica gel pressure sensor, and signals are respectively sent to the finger bending driver and the touch massage ball.

Preferably, in the wearable brain stroke rehabilitation device based on flexible touch sense, the bionic artificial muscle and the sliding block form a sliding pair; the small cylinder connected in the sliding block is sleeved in the sleeve on the outer side of the sliding block.

Through foretell technical scheme, the utility model discloses a technological effect lies in: a sliding pair is formed between the multi-joint driving muscle and the sliding block, so that the bending angle of the fingers is larger, and the fingers can be bent more smoothly.

Preferably, in the wearable stroke rehabilitation device based on the flexible touch sense, the wearable stroke rehabilitation device further comprises a limiting baffle; spacing separation blade is provided with 2 at least, fixes respectively on forearm bracing piece and big arm laminating pole.

Through foretell technical scheme, the utility model discloses a technological effect lies in: the arm of the patient is restrained to move synchronously with the device.

Preferably, in foretell wearable cerebral apoplexy rehabilitation device based on flexible sense of touch, still include silica gel pressure sensor, silica gel pressure sensor is provided with a plurality ofly, installs on bionical upper limbs and bionical hand, contacts with the user.

Through foretell technical scheme, the utility model discloses a technological effect lies in: according to the size and structure of the joint, the proper wearable attaching shape is prepared by silica gel, a bidirectional diaphragm is embedded at the position where the joint is protruded when the joint is bent, the diaphragm is squeezed when the joint is bent, the diaphragm and the pressure when the joint is bent are enabled to be in direct proportion to each other, the resistance of the silica gel sensor is enabled to be changed, the change is detected through an electronic circuit, and a corresponding bending standard signal is converted and output, so that the bending range of-180 degrees to 180 degrees can be detected.

Preferably, in the above wearable brain stroke rehabilitation device based on flexible touch sense, a central controller is further included; the central controller is connected with a switch battery valve to control the start and stop of the air power source; simultaneously with silica gel pressure sensor electric connection control bionic artificial muscle and palm touch massage ball's contraction and expansion.

Can know via foretell technical scheme, compare with prior art, the utility model discloses a wearable cerebral apoplexy rehabilitation device based on flexible touch, the high alcohol steam drive arrangement of safety in utilization, through the regeneration of patient's repeatability autonomic training in order to promote the nerve fiber tip, the training device that uses flexible construction's bionical artifical pneumatic muscle drive to receive secondary damage in order to avoid the joint has had rigid construction's stability and flexible construction's travelling comfort concurrently, when reaching rehabilitation effect protects the patient in physiology and psychology. Switch battery valve links to each other with central controller, when silica gel pressure sensor measures the joint motion crooked, central controller control switch solenoid valve is opened, air power supply, switch solenoid valve, pneumatic tendon connects and forms the gas circuit, when switch solenoid valve opens, air power supply is pneumatic tendon input air, make pneumatic tendon inflation shorten, pneumatic tendon adjustment structure movable pulley, pneumatic tendon adjustment structure fixed pulley, monofilament nylon relative displacement interior line, connect big arm laminating pole respectively, elbow rolling disc and wrist rotatory ring, pneumatic tendon shortens and makes monofilament nylon relative displacement interior line and monofilament nylon relative displacement exterior line take place relative displacement, make the shoulder realize lifting up and put down, the elbow realizes crooked and straightening, the wrist realizes rotating and swaying. When detecting the hand and taking the object, silica gel pressure sensor detects finger bending angle and palm internal pressure state to with signal input central controller output current, make circuit resistance in bionical artificial muscle and the palm touch massage ball generate heat through the electric current, make its inside alcohol evaporation pressurization, make bionical artificial muscle and palm touch massage ball inflation, bionical artificial muscle is connected with the sliding block and forms the sliding pair, produce the slip with the sliding block when bionical artificial muscle inflation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the inner wiring of the monofilament nylon relative displacement of the bionic spine of the present invention;

FIG. 3 is a schematic view of an elbow rotation structure according to the present invention;

FIG. 4 is a schematic view of the simulated shoulder structure of the present invention;

FIG. 5 is a schematic view of the wrist rotary ring of the present invention;

FIG. 6 is a schematic diagram of a heating circuit according to the present invention;

fig. 7 is a schematic view of the finger structure of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The embodiment of the utility model discloses wearable cerebral apoplexy rehabilitation device based on flexible touch, the high alcohol steam drive arrangement of safety in utilization, through the regeneration of patient's repeatability autonomic training in order to promote the nerve fiber tip, the bionic artificial pneumatic muscle drive that uses flexible structure receives the trainer of secondary injury in order to avoid the joint, has had the stability of rigid structure and flexible structure's travelling comfort concurrently, protects the patient in physiology and psychology when reaching recovered effect.

As shown in fig. 1, a wearable stroke rehabilitation device based on flexible touch sense includes: the bionic hand comprises an air power source 1, a bionic ridge, a bionic shoulder, a bionic upper limb and a bionic hand; the bionic ridge is connected with the bionic upper limb through the bionic shoulder; the bionic hand comprises: the palm body, the wrist rotating ring 14, the bionic artificial muscle 15, the sliding block 16 and the palm tactile massage ball 17; the bionic artificial muscle 15 and the sliding block 16 are arranged on one side of the palm main body, and the palm tactile massage ball 17 is arranged on the other side; the bionic artificial muscles 15 and the sliding blocks 16 are arranged at intervals, and at least three bionic artificial muscles 15 are arranged on the five fingers of the palm main body; the palm main body is connected with the bionic upper limb through a wrist rotating ring 14; the air power source 1 inputs air for the bionic artificial muscle 15.

In order to further optimize the above technical solution, as shown in fig. 1 and 2, the bionic spine comprises: pneumatic tendon 3, human body bionic vertebra 4, monofilament nylon relative displacement inner line 8, monofilament nylon relative displacement outer line 10, pneumatic tendon adjusting movable pulley 5 and pneumatic tendon adjusting fixed pulley 6; the pneumatic tendons 3 are distributed on two sides of the bionic spine 4 of the human body and are connected with the air power source 1 through the switch electromagnetic valve 2; the top end of the pneumatic tendon 3 is provided with a pneumatic tendon adjusting movable pulley 5; the pneumatic tendon adjusting fixed pulley 6 is fixed on the large arm supporting rod 18; one end of the monofilament nylon relative displacement inner wire 8 is fixed at the upper end of the pneumatic tendon adjusting movable pulley 5, and after bypassing the pneumatic tendon adjusting fixed pulley 6, the monofilament nylon relative displacement inner wire bypasses the lower end of the pneumatic tendon adjusting movable pulley 5 and then passes through the baffle to enter the monofilament nylon relative displacement outer wire 10.

In order to further optimize the above technical solution, as shown in fig. 1, the bionic upper limb includes a large arm support rod 18, a large arm fitting rod 11, an elbow rotation structure 12, a small arm support rod and a small arm fixing sliding part 13; the large arm support rod 18 is connected with the shoulder fixing connecting piece 9, the large arm attaching rod 11 is fixed with the large arm support rod 18, and the top end of the large arm attaching rod 11 is provided with an elbow rotating structure 12; one end of the small arm supporting rod is connected with the large arm attaching rod 11 through an elbow rotating mechanism, and the other end of the small arm supporting rod is fixedly connected with the wrist rotating ring 14 through a small arm fixing sliding part 13.

In order to further optimize the above technical solution, as shown in fig. 1 and 4, the bionic shoulder comprises: a shoulder fixing reinforcing member 7 and a shoulder fixing connecting member 9; two ends of the shoulder fixing and strengthening piece 7 and the shoulder fixing and connecting piece 9 are respectively fixed on the bionic ridge and the bionic upper limb; the monofilament nylon relative displacement outer line 10 is fixed with the shoulder fixing and reinforcing piece 7, the monofilament nylon relative displacement inner line 8 penetrates through the shoulder fixing and reinforcing piece 7 to be connected with the large arm joint rod 11, and the monofilament nylon relative displacement inner line 8 pulls the large arm joint rod 11 to enable the angle range of the large arm joint rod 11 and the shoulder fixing and reinforcing piece 7 to be 90-0 degrees.

In order to further optimize the above technical solution, as shown in fig. 1 and 3, the elbow rotating structure 12 includes: an elbow rotation block 122 and an elbow housing 121; the small arm fixed slider 13 is fixed to the elbow rotation block 122; the elbow housing 121 is fixed with the large arm attaching rod 11; the monofilament nylon relative displacement inner line 8 of the pneumatic tendon adjusting movable pulley 5 and the monofilament nylon relative displacement inner line 8 connected with the pneumatic tendon 3 are respectively fixed at two ends of the elbow rotation block 122.

In order to further optimize the technical scheme, the bionic artificial muscle and palm touch massage ball 17 is of a hollow structure and internally provided with volatile liquid; and simultaneously heating the volatile liquid through a heating circuit.

In order to further optimize the above technical solution, as shown in fig. 6, the heating circuit adopts an arduino mega 2560 controller 19, and an AD pin of the controller 19 is connected with a silica gel pressure sensor 21; a digital pin of the controller 19 is connected with the ULN2003 driver 20, and the ULN driver 20 is used for driving the heating resistor 22; the heating resistor is in contact with volatile alcohol.

In order to further optimize the technical scheme, as shown in fig. 5, the monofilament nylon relative displacement outer line 10 is fixed to the bottom end of the wrist rotating ring outer portion 141, the monofilament nylon relative displacement inner line 8 penetrates through the bottom end of the wrist rotating ring outer portion 141 to be connected with the upper end of the wrist rotating ring inner portion 142, and the monofilament nylon relative displacement inner line 8 pulls the upper end of the wrist rotating ring inner portion 142 to be close to the bottom end of the wrist rotating ring outer portion 141 to generate axial displacement, so that wrist rotation is achieved.

In order to further optimize the above technical solution, as shown in fig. 7, the bionic artificial muscle 15 and the sliding block 16 form a sliding pair; the sliding pair is supported by the basic framework, the small cylinder 161 on the basic framework is matched with the sleeve 162, and when the bionic artificial muscle 15 expands, the sliding blocks slide relatively without friction with fingers.

In order to further optimize the technical scheme, the device also comprises a limiting baffle sheet; spacing separation blade is provided with 2 at least, fixes respectively on forearm bracing piece and big arm laminating pole 11.

In order to further optimize the technical scheme, the bionic hand-held device further comprises a plurality of silica gel pressure sensors 21, wherein the silica gel pressure sensors 21 are arranged on the bionic upper limbs and the bionic hands and are in contact with a user.

In order to further optimize the technical scheme, the system also comprises a central controller; the central controller is connected with the switch electromagnetic valve 2 to control the start and stop of the air power source 1.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A wearable cerebral apoplexy rehabilitation device based on flexible touch sense, characterized by comprising: an air power source, a bionic spine, bionic shoulders, bionic upper limbs and bionic hands; the bionic ridge is connected with the bionic upper limb through the bionic shoulder; the bionic hand comprises: the palm massage ball comprises a palm main body, a wrist rotating ring, bionic artificial muscles, a sliding block and a palm tactile massage ball; the bionic artificial muscle and the sliding block are arranged on one side of the palm main body, and the palm tactile massage ball is arranged on the other side; the bionic artificial muscles and the sliding blocks are arranged at intervals, and at least three bionic artificial muscles are arranged on the five fingers of the palm main body; the palm main body is connected with the bionic upper limb through the wrist rotating ring; the air power source inputs air for the bionic artificial muscle.

2. The wearable brain stroke rehabilitation device based on flexible haptics according to claim 1, characterized in that the bionic spine comprises: pneumatic tendon, human bionic vertebra, monofilament nylon relative displacement inner line, monofilament nylon relative displacement outer line, pneumatic tendon adjusting movable pulley and pneumatic tendon adjusting fixed pulley; the pneumatic tendons are distributed on two sides of the bionic spine of the human body and are connected with the air power source through a switch electromagnetic valve; the pneumatic tendon adjusting movable pulley is arranged at the top end of the pneumatic tendon; the pneumatic tendon adjusting fixed pulley is fixed on the large arm supporting rod; monofilament nylon relative displacement interior line one end is fixed in pneumatic tendon and adjusts the movable pulley upper end, walks around behind pneumatic tendon and adjusts the fixed pulley, walks around the lower extreme that pneumatic tendon adjusted the movable pulley again, passes the baffle again and gets into monofilament nylon relative displacement external line.

3. The wearable brain stroke rehabilitation device based on flexible touch sense of claim 2, wherein the bionic upper limb comprises a large arm support rod, a large arm fitting rod, an elbow rotating structure, a small arm support rod and a small arm fixing sliding part; the large arm support rod is connected with the shoulder fixing connecting piece, the large arm attaching rod is fixed with the large arm support rod, and an elbow rotating structure is arranged at the top end of the large arm attaching rod; forearm bracing piece one end with big arm laminating pole passes through elbow revolution mechanic connects, the other end with rotatory ring of wrist carries out fixed connection through forearm fixed sliding part.

4. The flexible haptic based wearable stroke rehabilitation device according to claim 3, wherein the bionic shoulder comprises: the shoulder fixing reinforcing part and the shoulder fixing connecting part; the two ends of the shoulder fixing and reinforcing piece and the shoulder fixing and connecting piece are respectively fixed on the bionic spine and the bionic upper limb; the outer monofilament nylon relative displacement line is fixed with the shoulder fixing and reinforcing piece, the inner monofilament nylon relative displacement line penetrates through the shoulder fixing and reinforcing piece to be connected with the large arm joint rod, and the inner monofilament nylon relative displacement line pulls the large arm joint rod to enable the angle range of the large arm joint rod and the shoulder fixing and reinforcing piece to be 90-0 degrees.

5. The wearable brain stroke rehabilitation device based on flexible haptics according to claim 3, characterized in that the elbow rotating structure comprises: an elbow rotation block and an elbow housing; the small arm fixed sliding piece is fixed with the elbow rotating block; the elbow shell is fixed with the large arm attaching rod; the pneumatic tendon adjusts the monofilament nylon relative displacement interior line of movable pulley and the monofilament nylon relative displacement interior line that pneumatic tendon connects is fixed respectively the both ends of elbow rotatory piece.

6. The wearable brain stroke rehabilitation device based on flexible touch sense of claim 1, wherein the bionic artificial muscle and palm touch sense massage ball is of a hollow structure and internally provided with volatile liquid; and heating the volatile liquid through a heating circuit.

7. The wearable brain stroke rehabilitation device based on flexible touch sense of claim 1, wherein the bionic artificial muscle and the sliding block form a sliding pair; the small cylinder connected in the sliding block is sleeved in the sleeve on the outer side of the sliding block.

8. The wearable brain stroke rehabilitation device based on flexible touch sense according to claim 4, characterized by further comprising a limit stop; spacing separation blade is provided with 2 at least, fixes respectively on forearm bracing piece and big arm laminating pole.

9. The wearable brain stroke rehabilitation device based on flexible touch sense of claim 2, further comprising a plurality of silica gel pressure sensors, wherein the silica gel pressure sensors are arranged on the bionic upper limbs and the bionic hands and are in contact with the user.

10. The wearable brain stroke rehabilitation device based on flexible haptics according to claim 9, further comprising a central controller; and the central controller is connected with a switch battery valve to control the start and stop of the air power source.

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