CN211986197U - Novel supplementary recovered drive of many air cavitys hand device - Google Patents

Abstract

The utility model provides a novel multi-air cavity hand auxiliary rehabilitation driving device, which comprises a controller, a shell, an air cavity, an air pipe and a sensor; the controller is connected with the air pipe; the air pipe is connected with the air cavity; the trachea is inserted into the shell; the sensor is connected the controller, the shell wraps up the air cavity with the sensor, be provided with fibre reinforced structure on the shell, its characterized in that: the trachea comprises a flexion-extension main trachea, an abduction-adduction left trachea and an abduction-adduction right trachea; the air cavities comprise a flexion-extension main air cavity, an abduction-adduction left air cavity and an abduction-adduction right air cavity; the main flexion and extension air pipe is connected with the main flexion and extension air cavity; the abduction-adduction left air pipe is connected with the abduction-adduction left air cavity; the abduction-adduction right air pipe is connected with the abduction-adduction right air cavity. The utility model has the advantages that: many different types of rehabilitation movements can be achieved.

Description

Novel supplementary recovered drive of many air cavitys hand device

Technical Field

The utility model relates to a medical instrument, in particular to a novel supplementary recovered drive of many air cavitys hand device.

Background

The hand is an important organ of the human body, and the quality of life is seriously affected by the functional disorder of the hand.

The clinical application proves that the continuous passive movement can compensate the deficiency of the active movement of the patient, increase the activity of the limbs of the patient and reduce the corresponding complications during the early rehabilitation period of the cranial nerve injury after the limb operation of the patient. In addition, in the case where the fingers of a patient are paralyzed and contractually contracted due to a central nerve injury such as cerebral infarction, etc., the recovery speed of the fingers of the patient can be increased if the fingers of the patient can be assisted to move.

Among the prior art, there are a large amount of hand function training gloves, wherein, mainly divide into two kinds pneumatic gloves and motor drive, it all can carry out rehabilitation training to patient's dysfunction side hand. However, the existing hand function training gloves can only realize the finger flexion and extension actions to a certain degree due to the design problem of the driving device, but are difficult to realize other types of actions, such as abduction and adduction. Since it has only one air cavity, more complicated actions cannot be realized.

Therefore, a finger rehabilitation driving device capable of realizing various different types of rehabilitation actions is urgently needed in the market.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model discloses a novel supplementary recovered drive of single air chamber hand, the technical scheme of the utility model is implemented like this:

a novel multi-air-cavity hand auxiliary rehabilitation driving device comprises a controller, a shell, an air cavity, an air pipe and a sensor; the controller is connected with the air pipe; the air pipe is connected with the air cavity; the trachea is inserted into the shell; the sensor is connected the controller, the shell wraps up the air cavity with the sensor, be provided with fibre reinforced structure on the shell, its characterized in that: the trachea comprises a main flexion and extension trachea, an abduction and adduction left trachea, an abduction and adduction right trachea, an extension left trachea and an extension right trachea; the air cavities comprise a flexion and extension main air cavity, an abduction and adduction left air cavity, an abduction and adduction right air cavity, an extension left air cavity and an extension right air cavity; the main flexion and extension air pipe is connected with the main flexion and extension air cavity; the abduction-adduction left air pipe is connected with the abduction-adduction left air cavity; the abduction-adduction right air pipe is connected with the abduction-adduction right air cavity; the stretching left air cavity is positioned below the abduction and adduction left air cavity, and the stretching right air cavity is positioned below the abduction and adduction right air cavity.

Preferably, the device further comprises at least four fixing pieces; the fixing piece is arranged at the lower part of the shell; the sensor is mounted on the mount.

Preferably, a bellows is also included; the corrugated pipe is arranged between the fixing piece and the fixing piece; the number of the corrugated pipes is equal to the number of the fixing pieces minus one.

Preferably, the material of the fixing member is selected from one or more of engineering plastics, stainless steel and aluminum alloy.

Preferably, the material of the housing is selected from one or more of the group consisting of high performance silicone, rubber and PVC.

Preferably, the sensors are attitude sensors and tactile sensors.

Preferably, the number of the fixing pieces is four; one of the fixing pieces is positioned on the palm; the lengths of the rest fixing pieces are similar to the lengths of the finger knuckles of the fingers, and the lengths of the rest fixing pieces correspond to the lengths of the corresponding finger knuckles.

By implementing the technical scheme of the utility model, the technical problem that only a single type of rehabilitation action can be realized in the prior art can be solved; implement the technical scheme of the utility model, can realize the technological effect of the recovered action of multiple different grade type.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed 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 one embodiment of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a cross-sectional view of a novel multi-air-cavity hand-assisted rehabilitation drive device;

FIG. 2 is a bottom view of a novel multi-air-cavity hand-assisted rehabilitation drive;

FIG. 3 is a bottom perspective view of a novel multi-air-cavity hand-assisted rehabilitation drive;

fig. 4 is a side view of a novel multi-air-cavity hand auxiliary rehabilitation driving device.

In the above drawings, the reference numerals denote:

1-a housing;

2-an air cavity;

21-flexing and extending the main air cavity; 22-abduction and adduction of the left air cavity; 23-abduction and adduction of the right air cavity; 24-stretching the left air cavity; 25-stretching the right air cavity;

3-the trachea;

31-flexion and extension of the main trachea; 32-abduction and adduction of the left trachea; 33-abduction and adduction of the right trachea;

4-a sensor;

5-a fixing piece;

6-corrugated pipe.

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 efforts belong to the protection scope of the present invention.

In a specific embodiment, as shown in fig. 1 to 4, a novel multi-air-cavity hand auxiliary rehabilitation driving device comprises a controller, a shell 1, an air cavity 2, an air pipe and a sensor 4; the controller is connected with the air pipe; the air pipe is connected with the air cavity 2; the trachea is inserted into the housing 1; the sensor 4 is connected with the controller, the housing 1 wraps the air cavity 2 and the sensor 4, and the housing 1 is provided with a fiber reinforced structure, and is characterized in that: the trachea comprises a main flexion-extension trachea 31, an abduction-adduction left trachea 32 and an abduction-adduction right trachea 33; the air cavity 2 comprises a flexion-extension main air cavity 21, an abduction-adduction left air cavity 22 and an abduction-adduction right air cavity 23; the flexion and extension main air pipe 31 is connected with the flexion and extension main air cavity 21; the abduction-adduction left air tube 32 is connected with the abduction-adduction left air cavity 22; the abduction-adduction right air duct 33 is connected to the abduction-adduction right air chamber 23.

In the specific embodiment, the controller is used for controlling the inflation and deflation of the air pipe, the air pipe is used for guiding air into the air cavity 2, and the sensor 4 is used for collecting the shape of the device and transmitting the collected shape to the controller, so that the controller can control the state of the device conveniently; the flexion and extension main air pipe 31 and the flexion and extension main air cavity 21 are used for achieving flexion and extension actions of the device, the controller controls the flexion and extension main air pipe 31 to inflate into the flexion and extension main air cavity 21, then the flexion and extension main air cavity 21 expands, the shell 1 expands forwards, the flexion action of the device is completed, and the controller controls the flexion and extension main air pipe 31 to deflate after the flexion and extension action of the device is completed; the abduction-adduction left air cavity 22 and the abduction-adduction right air cavity 23 are respectively used for realizing the left abduction-adduction and the right abduction-adduction of the device; when the device needs to be unfolded and folded rightward, the controller controls the unfolding and folding left air pipe 32 to be unfolded and folded outward and fold inward and the left air cavity 22 to be inflated, the unfolding and folding left air cavity 22 is expanded to drive the shell 1 to be expanded rightward and forward, so that the device is unfolded and folded rightward, and then the controller controls the unfolding and folding left air pipe 32 to be deflated, so that the device is straightened; the shell 1 is provided with a fiber reinforced structure, the fiber reinforced structure can play a role in strength on one hand and play a role in limitation on the other hand, and the deformation direction of the shell caused by the expansion of the air cavity can be limited under the fiber reinforced structure, so that the deformation direction is limited in a specific direction; through the interaction between the modules, the fingers move in two different directions of flexion and extension and abduction and adduction in the rehabilitation process, so that the defect that the fingers can only move in a single direction in the prior art is overcome.

In a preferred embodiment, as shown in fig. 1 to 4, at least four fixing pieces 5 are further included; the fixing piece 5 is arranged at the lower part of the shell 1; the sensor 4 is mounted on the mount 5.

In this preferred embodiment, the fixing member 5 is located at a lower portion within the housing 1, to which the sensor 4 is fixed, in the conventional finger joint rehabilitation product, since the fixing member 5 is not used, the sensor 4 is easily displaced during use, which in turn leads to the failure to obtain correspondingly accurate parameters and, ultimately, to the failure of the controller to achieve accurate control of the device configuration, however, after the use of the fixing 5, the sensor 4 can be effectively fixed at a fixed position, does not change along with the movement of the device, thereby realizing that the sensor 4 measures the information of a certain fixed position, realizing the accurate cognition of the controller to the device shape, therefore, the effective control of the air inflation and deflation behaviors can be realized, the shape change of the device is controlled, and the rehabilitation exercise of various different types of finger joints is realized.

In a preferred embodiment, as shown in fig. 1-4, the trachea also includes an extended left trachea 34 and an extended right trachea 35; the air cavities further comprise an extended left air cavity 24 and an extended right air cavity 25; the extended left air chamber 24 is located below the abduction-adduction left air chamber 22, and the extended right air chamber 25 is located below the abduction-adduction right air chamber 23.

In this preferred embodiment, the left and right air tubes 34 and 35 and the left and right air chambers 24 and 25 are extended for upward lifting and retracting movement of the fingers beyond the palm plane, and when the upward lifting movement is performed, the controller controls the main flexion and extension air chamber 21 to be deflated, and the left and right air tubes 34 and 35 are extended to be inflated into the left and right air chambers 24 and 25, thereby achieving the upward lifting movement beyond the palm plane, and then the controller controls the main flexion and extension air chambers 21 to be inflated, and the left and right air chambers 24 and 25 to be deflated, thereby achieving the retracting movement of the device.

In a preferred embodiment, as shown in fig. 1 to 4, a bellows 6 is further included; the corrugated pipe 6 is arranged between the fixing piece 5 and the fixing piece 5; the number of bellows 6 is equal to the number of mounts 5 minus one.

In this preferred embodiment, a bellows 6 is provided between the fixing member 5 and the fixing member 5 corresponding to each joint of the finger, and the bellows 6 is used to achieve a buffering function between the fixing member 5 and the fixing member 5 on one hand and to achieve a better fit to the finger by cooperation between the fixing member 5 and the bellows 6 on the other hand.

In a preferred embodiment, as shown in fig. 1 to 4, the material of the fixing member 5 is selected from one or more of engineering plastics, stainless steel and aluminum alloy; the material of the shell 1 is selected from one or more of high-performance silica gel, rubber and PVC; the sensor 4 is a posture sensor and a touch sensor.

In the preferred embodiment, the engineering plastic has excellent heat resistance and cold resistance, excellent mechanical performance in a wide temperature range, good corrosion resistance, less environmental influence and good durability compared with general plastic; compared with metal materials, the method has the advantages of easy processing, high production efficiency, simplified procedure and cost saving; the material has good dimensional stability and electrical insulation; the weight is light, the specific strength is high, the friction resistance and the wear resistance are outstanding, meanwhile, stainless steel or aluminum alloy and other rigid materials can be selected, and the actual material selection can be adjusted according to the actual cost and the actual requirement; the high-performance silica gel has excellent water resistance, excellent electric insulation, good elasticity and scalability, is very suitable for being used as the shell 1, and can also be made of rubber and PVC or other soft materials; the attitude sensor can realize accurate measurement and control on the bending form of the product, and the touch sensor can realize accurate control on the force.

In a preferred embodiment, as shown in fig. 1 to 4, the number of the fixing members 5 is four; one of the fixing pieces 5 is positioned on the palm; the lengths of the rest of the fixing parts 5 are similar to the lengths of the finger knuckles of the fingers, and the lengths of the rest of the fixing parts 5 correspond to the lengths of the corresponding finger knuckles.

In this kind of preferred embodiment, the quantity of mounting 5 is four, and one of them sets up on the palm, and remaining 3 mountings 5 are designed according to the knuckle length of corresponding finger, both can be greater than the length of corresponding finger knuckle, also can be less than or equal to, can adjust or customize according to actual conditions, mutually support between 6 with the bellows in the motion process, can realize the laminating to the finger well in the recovered motion process, improve the comfort level in user's recovered process on the one hand, on the other hand can realize better recovered motion.

It should be understood that the above description is only exemplary of the present invention, and is not intended to limit the present invention, and that any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included within the scope of the present invention.

Claims (7)

1. The utility model provides a novel supplementary recovered drive of many air chambeies hand, includes controller, shell, air chamber, trachea and sensor, the controller is connected the trachea, the trachea is connected the air chamber, the trachea inserts the shell, the sensor is connected the controller, the shell parcel the air chamber with the sensor, be provided with fibre reinforced structure on the shell, its characterized in that: the trachea comprises a main flexion and extension trachea, an abduction and adduction left trachea, an abduction and adduction right trachea, an extension left trachea and an extension right trachea; the air cavities comprise a flexion and extension main air cavity, an abduction and adduction left air cavity, an abduction and adduction right air cavity, an extension left air cavity and an extension right air cavity; the main flexion and extension air pipe is connected with the main flexion and extension air cavity; the abduction-adduction left air pipe is connected with the abduction-adduction left air cavity; the abduction-adduction right air pipe is connected with the abduction-adduction right air cavity; the stretching left air cavity is positioned below the abduction and adduction left air cavity, and the stretching right air cavity is positioned below the abduction and adduction right air cavity.

2. The novel multi-air-cavity hand auxiliary rehabilitation driving device as claimed in claim 1, wherein: the device also comprises at least four fixing pieces; the fixing piece is arranged at the lower part of the shell; the sensor is mounted on the mount.

3. The novel multi-air-cavity hand auxiliary rehabilitation driving device as claimed in claim 2, wherein: also comprises a corrugated pipe; the corrugated pipe is arranged between the fixing piece and the fixing piece; the number of the corrugated pipes is equal to the number of the fixing pieces minus one.

4. The novel multi-air-cavity hand auxiliary rehabilitation driving device as claimed in claim 2, wherein: the fixing piece is made of one or more materials selected from engineering plastics, stainless steel and aluminum alloy.

5. The novel multi-air-cavity hand auxiliary rehabilitation driving device as claimed in claim 1, wherein: the material of the shell is selected from one or more of high-performance silica gel, rubber and PVC.

6. The novel multi-air-cavity hand auxiliary rehabilitation driving device as claimed in claim 1, wherein: the sensors are attitude sensors and touch sensors.

7. The novel multi-air-cavity hand auxiliary rehabilitation driving device as claimed in claim 3, wherein: the number of the fixing pieces is four; one of the fixing pieces is positioned on the palm; the lengths of the rest fixing pieces are similar to the lengths of the finger knuckles of the fingers, and the lengths of the rest fixing pieces correspond to the lengths of the corresponding finger knuckles.

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