CN222657406U - An arm exercise device for patients undergoing surgery for neurological diseases - Google Patents

Abstract

The utility model discloses an arm exercise device for postoperative treatment of a neurological disease, which belongs to the field of medical devices and includes a base; two sets of bending mechanisms are mounted on the base, and a support plate is installed between the two sets of bending mechanisms. The arm exercise device for postoperative treatment of a neurological disease has the advantages of being able to perform reciprocating bending and relaxation of the patient's arm, reducing human operation, and improving the arm rehabilitation exercise effect. By controlling the angle rotation movement of the bending seat, the bending seat can be rotated and drive the support plate to bend, thereby achieving reciprocating bending and relaxation of the arm. The arm is bent and relaxed by the electric drive of the bending mechanism. When in use, human operation is greatly reduced, and the efficiency of relaxing the patient's arm is improved. At the same time, by controlling the reciprocating bending movement of the bending mechanism, the patient's arm can be reciprocated, thereby greatly improving the exercise effect of the patient's arm after the neurological disease operation.

Description

Nervous system disease postoperative arm exercise equipment

Technical Field

The utility model belongs to the field of medical equipment, and particularly relates to arm exercise equipment after nervous system disease operation.

Background

Neurological diseases refer to diseases or abnormalities affecting the central nervous system (including the brain and spinal cord) or the peripheral nervous system (including the nerve and neuromuscular junctions), which may involve a variety of aspects including dysfunction of neurons, abnormalities in nerve conduction, problems with neuromuscular junctions, etc., common neurological diseases including epilepsy, stroke and parkinson's disease.

When a patient performs a nerve disease operation, the physical function of the patient is affected by the operation to be weakened, medical staff is required to perform recovery of the physical function of the patient at the moment, so that the patient can live independently as soon as possible, arm exercise recovery is one of important steps in the recovery of the physical function, the existing nerve disease operation post-operation arm rehabilitation exercise is mostly performed by massaging and recovering arms through exercise equipment, the patient is matched with the patient to take weights so as to achieve the effect of exercise recovery, the existing arm exercise device lacks a bending and relaxing structure of the arms of the patient, the arm joints of the patient still needs to be manually lifted by medical staff or a protector to enable the arms of the patient to be relaxed and bent, the manual nursing is complicated, the physical consumption is large, the patient is difficult to condition for a long time, and the recovery speed is slow, so that the problem is solved by the nervous system operation post-operation arm exercise equipment.

Disclosure of utility model

The present utility model has been made in view of the above-described problems occurring in the prior art.

Therefore, the utility model aims to provide the arm exercise equipment after the nervous system diseases operation, which solves the problems that the existing arm exercise equipment after the nervous system diseases operation lacks the function of bending and relaxing the arm of a patient, and the arm joint of the patient still needs to be manually lifted by medical staff or a nursing worker to make the arm joint of the patient relax and bend, and the manual nursing is complicated and has high physical consumption, so that the recovery exercise efficiency of the patient after the operation is lower, and has the advantages of reciprocating bending and relaxing the arm of the patient, reducing the manual operation and improving the recovery exercise effect of the arm.

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

The arm exercise equipment after the nervous system disease operation comprises a base table, wherein the base table is arranged on a horizontal table top, two groups of bending mechanisms are assembled on the base table, and a supporting plate is commonly arranged between the two groups of bending mechanisms;

The bending mechanism comprises a sliding seat arranged on the base table, the sliding seat is a U-shaped seat, two side walls of the sliding seat are provided with through holes in a straight line penetrating manner, fixed shafts are arranged in the two through holes, deep groove ball bearings are arranged outside the fixed shafts in a filling and matching manner, and the bending seat is rotationally connected to the outside of the deep groove ball bearings;

The support plate is supported on the upper end faces of the two bending seats, and a soft pillow is arranged on the upper end face of the support plate.

Preferably, the tail end of the bending seat is provided with an ear plate in a protruding mode, and a notch is formed in the ear plate.

Preferably, the bending mechanism further comprises a guide rod motor fixed on the upper end face of the base table, the output end of the guide rod motor is connected with a main shaft, and the other end of the main shaft is connected with a front arm fork.

Preferably, the front arm fork is a U-shaped fork, a limiting rod is clamped at the front end of the front arm fork, and the limiting rod penetrates through the notch and is arranged in the notch in a sliding manner.

Preferably, the sliding grooves are formed in two sides of the sliding seat, the inner grooves are formed in the sliding grooves, the front arm fork slides in the sliding grooves, and the inner grooves are matched with the limiting rods in size.

Preferably, the soft pillow is internally filled with a high-density foam cushion and medical absorbent cotton, and medical gauze is wrapped outside the high-density foam cushion.

In the technical scheme, the utility model has the technical effects and advantages that:

1. According to the utility model, through mutual movement coordination of a plurality of parts in the bending mechanism, in actual use, medical staff can wrap clean medical gauze outside the soft pillow, then a patient places the arm on the soft pillow, the angle rotation movement of the bending seat is controlled, so that the bending seat can perform angle rotation and drive the supporting plate to bend, at the moment, the arm of the patient can follow the movement of the supporting plate to realize reciprocating bending and loosening of the arm, compared with the traditional manual bending and loosening of the arm of the patient, the bending and loosening of the arm are realized through the electric drive of the bending mechanism, during use, manual operation is greatly reduced, the efficiency of relaxing the arm of the patient is improved, and meanwhile, the reciprocating bending movement of the bending mechanism is controlled, so that the arm of the patient can perform reciprocating bending, the exercise effect of the arm of the patient after the nerve disease operation is greatly improved, and the whole practicability is high.

2. According to the utility model, the soft pillow is used for supporting the arms of a patient, the high-density sponge cushion filled in the soft pillow is matched with the medical gauze wrapped outside the soft pillow, so that when the arms of the patient are bent and exercised, medical staff can timely disinfect the soft pillow, the sanitary safety of the soft pillow is ensured, and meanwhile, the high-density sponge cushion can provide more comfortable support for the arms of the patient, so that the whole of the patient is more comfortable and sanitary when the arms of the patient are bent and exercised.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic view of the overall installation structure of the present utility model;

FIG. 2 is a schematic view of an assembly of the bending mechanism of the present utility model on a base table;

FIG. 3 is a schematic view of a bending mechanism according to the present utility model;

Fig. 4 is a schematic view showing an assembly structure of the support plate on the folding seat.

Reference numerals illustrate:

1. The device comprises a base table, a bending mechanism, a guide rod motor, a main shaft, a front arm fork, a 231, a limiting rod, a 24, a sliding table seat, a 241, a sliding groove, a 242, an inner groove opening, a 25, a fixed shaft, a 26, a deep groove ball bearing, a 27, a bending seat, a 271, a notch, a 3, a supporting plate, a 31 and a soft pillow.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

The embodiment of the utility model discloses arm exercise equipment after nervous system disease operation.

1-4, The arm exercise equipment after the nervous system disease operation comprises a base table 1, wherein the base table 1 is arranged on a horizontal table top, two groups of bending mechanisms 2 are assembled on the base table 1, and a supporting plate 3 is commonly arranged between the two groups of bending mechanisms 2;

The bending mechanism 2 comprises a sliding seat 24 arranged on the base table 1, the sliding seat 24 is a U-shaped seat, two side walls of the sliding seat 24 are provided with through holes in a straight line penetrating way, fixed shafts 25 are arranged in the two through holes, deep groove ball bearings 26 are arranged outside the fixed shafts 25 in a filling fit way, and the bending seat 27 is connected with the outside of the deep groove ball bearings 26 in a rotating way;

The support plate 3 is supported on the upper end surfaces of the two bending seats 27, the upper end surface of the support plate 3 is provided with a soft pillow 31, when the medical care personnel can wrap clean medical gauze outside the soft pillow 31, then a patient places the arm on the soft pillow 31, the set bending seat 27 can rotate at an angle by taking the deep groove ball bearing 26 as the center of a circle through the rotary connection between the fixed shaft 25 and the deep groove ball bearing 26, the bending seat 27 can drive the support plate 3 to turn at an angle through controlling the angular rotation of the bending seat 27, at the moment, the arm of the patient can follow the turning movement of the support plate 3 to realize the reciprocating bending and loosening of the arm, compared with the traditional manual bending and loosening of the arm of the patient, the arm of the patient can be bent and loosened through the electric drive of the bending mechanism 2, and the arm of the patient can be bent and curved in a reciprocating way through controlling the reciprocating mode of the bending mechanism 2, so that the exercise effect of the arm of the patient after the nerve disease operation is greatly improved;

Meanwhile, when different patients are used, the whole appliance needs to be disinfected, the soft pillow 31 is arranged to support the arms of the patients, the high-density sponge cushion filled in the soft pillow 31 is matched with medical gauze wrapped outside the soft pillow, and when the patients bend the arms, medical staff can timely disinfect the soft pillow 31.

Referring to fig. 3, the tail end of the bending seat 27 is provided with a protruding lug plate, and a notch 271 is formed in the lug plate, in actual use, the bending seat 27 can rotate at an angle by taking the deep groove ball bearing 26 as a center of a circle through the rotation connection between the fixed shaft 25 and the deep groove ball bearing 26, and when the notch 271 is pulled by external acting force, the bending seat 27 can rotate outside the fixed shaft 25 and finally drive the supporting plate 3 to turn at an angle through the protruding lug plate and the notch 271.

Referring to fig. 2-3, the bending mechanism 2 further comprises a guide rod motor 21 fixed on the upper end surface of the base table 1, a main shaft 22 is connected to the output end of the guide rod motor 21, and a front arm fork 23 is connected to the other end of the main shaft 22. In use, a medical staff can drive the main shaft 22 to push out and retract radially through the guide rod motor 21 by connecting an external power supply and a controller to the guide rod motor 21, and meanwhile, the front arm fork 23 can move radially through the connection of the main shaft 22 and the front arm fork 23.

In use, through the connection between the front arm fork 23 and the limit rod 231, the limit rod 231 is matched with the sliding of the limit rod 231 in the notch 271, when the guide rod motor 21 is connected with a power supply and moves, the main shaft 22 can be radially pushed out to drive the front arm fork 23 to be radially pushed out, at the moment, the front arm fork 23 can slide in the notch 271, and finally, through the rotation fit between the fixed shaft 25 and the deep groove ball bearing 26, the bending seat 27 is arranged to rotate at an angle by taking the fixed shaft 25 as a center point, at the moment, the support plate 3 and the soft pillow 31 arranged on the bending seat 27 are synchronously rotated at an angle, and when the arm of a patient is placed on the soft pillow 31, the arm of the patient can be exercise in a reciprocating mode through the angle overturning of the support plate 3 and the reciprocating motion of the guide rod motor 21.

Referring to fig. 3, sliding grooves 241 are formed on both sides of the sliding seat 24, an inner notch 242 is formed in the sliding groove 241, the front arm fork 23 slides in the sliding groove 241, the inner notch 242 is matched with the size of the limit rod 231, in use, the sliding groove 241 can limit the position of the front arm fork 23, so that the front arm fork 23 can slide radially in the sliding groove 241 all the time, the limit rod 231 can slide through the inner notch 242, and the limit rod 231 can be installed in the notch 271 in a penetrating manner, when the guide rod motor 21 drives the main shaft 22 to move, the limit rod 231 can drive the notch 271 to rotate along the center of the fixed shaft 25, and further the bending seat 27 is driven to rotate along the center of the fixed shaft 25.

Referring to fig. 4, the soft pillow 31 is internally filled with a high-density foam pad and medical absorbent cotton, the medical gauze is wrapped outside the high-density foam pad, the support of the arm of a patient by the arranged soft pillow 31 is matched with the high-density foam pad filled in the soft pillow 31 and the medical gauze wrapped outside, the high-density foam pad can provide more comfortable support for the arm of the patient, so that the whole body of the patient is more comfortable when the arm of the patient is bent and exercised, and meanwhile, medical staff can use sterile alcohol to sterilize the medical gauze outside the soft pillow 31 before the exercise equipment is used for exercising the arm of the patient, so that the use safety of the soft pillow 31 is ensured, and the soft pillow 31 is more sanitary when the arm of the patient is supported.

Principle of operation

The utility model relates to a nerve system disease postoperative arm exercise device:

When a medical staff uses the arm exercise device to exercise and recover arms of a patient after a nerve disease operation, an external power supply is connected to a guide rod motor 21, under the electric drive of the guide rod motor 21, the output end of the guide rod motor 21 drives a main shaft 22 and pushes out a front arm fork 23, the front arm fork 23 slides in a sliding groove 241 and a limiting rod 231 is penetrated in a notch 271, so that the set front arm fork 23 drives a bending seat 27 to move along with the movement when being pushed radially, and finally, the set bending seat 27 rotates at an angle by taking a fixed shaft 25 as a center point when the front arm fork 23 is pushed radially through the rotating connection of a deep groove ball bearing 26, and at the moment, a supporting plate 3 and a soft pillow 31 arranged on the bending seat 27 synchronously rotate at an angle;

The medical staff wraps the clean medical gauze outside the soft pillow 31, then the patient places the arm on the soft pillow 31, the bending seat 27 can rotate in angle and drive the soft pillow 31 to turn in angle finally, at the moment, the arm of the patient can follow the turning motion of the supporting plate 3, the reciprocating bending and relaxing of the arm are realized, compared with the traditional manual bending and relaxing of the arm of the patient, the bending and relaxing of the arm are realized through the electric drive of the bending mechanism 2, when the multifunctional bending machine is used, the manual operation is greatly reduced, the relaxing efficiency of the arm of the patient is improved, meanwhile, the reciprocating turning motion of the bending mechanism 2 is controlled, the arm of the patient can be bent in a reciprocating manner, the training effect of the arm of the patient after the nerve disease operation is greatly improved, and the overall practicability is high.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (6)

1. The arm exercise equipment after the nervous system disease operation comprises a base table (1), and is characterized in that the base table (1) is arranged on a horizontal table top, two groups of bending mechanisms (2) are assembled on the base table (1), and a supporting plate (3) is commonly installed between the two groups of bending mechanisms (2);

The bending mechanism (2) comprises a sliding seat base (24) arranged on the base table (1), the sliding seat base (24) is a U-shaped seat, two side walls of the sliding seat base (24) are provided with through holes in a straight line penetrating mode, fixed shafts (25) are arranged in the two through holes, deep groove ball bearings (26) are arranged outside the fixed shafts (25) in a filling and matching mode, and the bending seat (27) is connected to the outside of the deep groove ball bearings (26) in a rotating mode;

The support plates (3) are supported on the upper end faces of the two bending seats (27), and soft pillows (31) are arranged on the upper end faces of the support plates (3).

2. The arm exercise device after nerve system diseases operation of claim 1, wherein an ear plate is arranged at the tail end of the bending seat (27) in a protruding mode, and a notch (271) is formed in the ear plate.

3. The arm exercise device after the nervous system diseases operation according to claim 1, wherein the bending mechanism (2) further comprises a guide rod motor (21) fixed on the upper end face of the base table (1), the output end of the guide rod motor (21) is connected with a main shaft (22), and the other end of the main shaft (22) is connected with a forearm fork (23).

4. The arm exercise device after the nervous system disease operation according to claim 3, wherein the front arm fork (23) is a U-shaped fork, a limiting rod (231) is clamped at the front end of the front arm fork (23), and the limiting rod (231) is arranged in the notch (271) in a penetrating manner and is arranged in a sliding manner in the notch (271).

5. The arm exercise device after nerve system diseases operation of claim 4, wherein sliding grooves (241) are formed in two sides of the sliding seat (24), inner notches (242) are formed in the sliding grooves (241), the forearm fork (23) slides in the sliding grooves (241), and the inner grooves (242) are matched with the limit rods (231) in size.

6. The arm exercise device after the nervous system disease operation according to claim 1, wherein the soft pillow (31) is internally filled with a high-density foam cushion and medical absorbent cotton, and medical gauze is wrapped outside the high-density foam cushion.