CN219071953U - Auxiliary limb exercise device for severe patients - Google Patents

Abstract

The utility model belongs to the technical field of medical instruments, and particularly relates to an auxiliary limb exercise device for severe patients, which comprises a seat plate, wherein the bottom of the seat plate is fixedly connected with supporting legs, the bottom of the supporting legs is fixedly connected with universal wheels, the bottom of the seat plate is fixedly connected with a bearing seat, the bearing seat is rotationally connected with a first sliding sleeve, the bottom of the first sliding sleeve is rotationally connected with a first sliding rod, the bottom end of the first sliding rod is fixedly connected with a pedal supporting plate, the top surface of the pedal supporting plate is rotationally connected with a pedal, the right side of the first sliding sleeve is rotationally connected with a second sliding sleeve, the inner side of the second sliding sleeve is rotationally connected with a second sliding rod, a spring is arranged at the left side of the second sliding rod in the cavity of the second sliding sleeve, the right end of the second sliding rod is rotationally connected with the bottom of the seat plate, the top surface of the seat plate is fixedly connected with a back plate, a handrail is fixedly connected between the left side of the back plate and the top surface of the seat plate, the height of the pedal can be adjusted so as to adapt to patients with different sizes, and ankle joints can be trained while the inner muscle strength training of lower limbs.

Description

Auxiliary limb exercise device for severe patients

Technical Field

The utility model belongs to the technical field of medical appliances, and particularly relates to an auxiliary limb exercise device for severe patients.

Background

Rehabilitation training refers to physical activity after injury that is beneficial to restoring or improving function. Besides serious injury requiring rest treatment, general injury does not need to completely stop physical exercise, keeps a good physical state through rehabilitation training, can prevent muscle atrophy and contracture through rehabilitation training, and maintains good heart and lung functions by healthy limb exercise capacity, can lead organism energy metabolism to be balanced through rehabilitation training after injury, prevents weight increase, and shortens the time required for rehabilitation exercise after injury.

The conventional auxiliary training device cannot perform ankle joint training and lower limb adduction muscle strength training at the same time, and cannot be well adapted to patients with different body types.

Disclosure of Invention

The utility model provides an auxiliary limb exercise device for severe patients, which provides a pedal, a first sliding sleeve, a first sliding rod and an arc plate, wherein the extending length of the first sliding rod can be adjusted to control the height of the pedal so as to adapt to patients with different body types, and the training of ankle joints can be performed while the adduction muscle strength training of lower limbs is performed.

The utility model provides the following technical scheme: the utility model provides a severe patient is with supplementary limbs exercise device, includes the seat, seat bottom fixed connection landing leg, landing leg bottom fixed connection universal wheel, seat bottom fixed connection bearing frame, the bearing frame rotates and connects first slip sleeve, first slip sleeve bottom intracavity sliding connection first slide bar, first slide bar bottom fixed connection footboard backup pad, footboard backup pad top surface rotates and connects the footboard, first slip sleeve right side rotates and connects the second slip sleeve, second slip sleeve intracavity sliding connection second slide bar, second slip sleeve intracavity is located second slide bar left side is provided with the spring, second slide bar right-hand member rotates and connects the seat bottom, seat top surface fixed connection backplate, backplate right side fixed connection promotes the handrail, backplate left side with fixed connection handrail between the seat top surface, the handrail includes and the horizontal pole, montant outside fixed mounting spring holder, montant top threaded connection traction handle.

The spring is fixedly arranged in the spring seat, the end part of the inner ring of the spring is fixedly connected with a traction shaft, the traction shaft penetrates through the front side and the rear side of the vertical rod and is rotationally connected with the front side and the rear side of the vertical rod, a rope winding seat is fixedly arranged on the outer side of the traction shaft, a traction rope is wound on the rope winding seat, and the other end of the traction rope is fixedly connected with the bottom end of the traction grip; the patient pulls the traction handle upwards to do upper limb traction training, and the traction handle pulls the traction rope to drive the rope winding seat and the traction shaft to rotate, and the traction shaft rotates to drive the clockwork spring to twist to generate deformation, and after the traction handle is loosened, the clockwork spring rebounds to drive the traction shaft and the rope winding seat to rotate reversely, so that the traction rope is recovered, and the clockwork spring provides downward traction force for the traction rope when the traction handle is pulled upwards, so that the effect of upper limb traction training is improved.

Wherein, the left side of the first sliding sleeve is fixedly provided with an arc plate; the right side of the patient's shank is attached to the cambered surface on the left side of the cambered plate, so that the contact area with the patient's shank is increased, the touch feeling of the patient is more comfortable, and the limiting effect on the shank is achieved.

The first stabilizer bar is fixedly connected between the supporting legs, and the second stabilizer bar is fixedly connected between the first stabilizer bar and the seat plate; the structural stability between the supporting leg and the seat plate is enhanced, and the supporting leg is prevented from deforming.

Wherein, the included angle between the supporting leg and the seat plate is one hundred twenty degrees; the device can be prevented from being overturned by overlarge shaking amplitude when a patient performs limb training.

The outer side of the bottom end of the traction grip is provided with threads, and the top end of the traction grip is fixedly connected with a circular baffle; the traction grip can be used as a grip when the upper limb training is not performed, a patient holds the traction grip to prevent the traction grip from sliding off the device, and the round baffle can prevent the traction grip from sliding off the hand of the patient when the upper limb training is performed.

The spring is fixedly connected between the bottom surface of the pedal and the top surface of the pedal supporting plate; after the pedal is loosened, the spring rebounds to drive the pedal to lift to the original position, and the operation is repeated so as to train the ankle joint.

The outer side of the first sliding sleeve is in threaded connection with a fixing bolt; tightening the fixing bolt fixes between the first sliding rod and the first sliding sleeve, and prevents the first sliding rod from continuing to slide.

The beneficial effects of the utility model are as follows: patient sits on the seat, the arc left side cambered surface of shank right side laminating arc, increased the area of contact with patient's shank, make patient's sense of touch more comfortable and played the spacing effect to the shank, unscrew fixing bolt, remove the fixed between first slide bar and the first sliding sleeve, slide first slide bar from top to bottom, drive the footboard backup pad and reciprocate, thereby adjust the height of footboard, make the bottom surface of footboard top surface laminating patient both feet screw up fixing bolt, fix between first sliding sleeve and the first slide bar, thereby fix the height of footboard, can adapt to the patient of different heights, the suitability of this device has been improved, patient's pedal compression footboard and pedal backup pad spring, after loosening the footboard, the spring resilience drives the footboard lifting to the original place, thereby carry out ankle joint's training, patient shank promotes the arc right, drive first sliding sleeve anticlockwise rotation, first sliding sleeve promotes the second sliding sleeve and makes the second sliding sleeve take place to rotate, make the second sliding bar slide in the second sliding sleeve and compress the spring in the second sliding sleeve, cancel the shank to exert the left force to exercise the second sliding sleeve, the lower limb is rotated left, the exercise can take over the muscle top of the second sliding sleeve, the patient is rotated left, the muscle top of the second sliding sleeve is made to the muscle is rotated to the second limb, the exercise the lower limb is taken turns the muscle to the lower limb, the muscle is the exercise the muscle is the lower limb to the muscle is the muscle, the muscle is the second sliding. The patient's both arms are placed on the horizontal pole top surface, hold the traction handle with both hands and prevent from following this device landing, twist the threaded connection between traction handle and the montant of driving the traction handle cancellation, upwards pull the traction handle, traction handle pulling haulage rope drives rope seat and traction shaft rotation, traction shaft rotation drives clockwork spring and twists reverse and produce deformation, after loosening the traction handle, clockwork spring kick-backs, drives traction shaft and rope seat reversal to retrieve the haulage rope, repeat above-mentioned operation and carry out upper limbs traction training.

Other personnel can push the device to move through holding and pushing the right end of the handle under the cooperation of the universal wheels, so that the position of a patient is transferred, and the use convenience is improved.

None of the parts of the device are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a diagram showing the effect of rotation of the first sliding sleeve according to the present utility model;

FIG. 3 is a left side view of the present utility model;

FIG. 4 is an enlarged view of section A of the present utility model;

FIG. 5 is a top view of the present utility model;

in the figure: 1. a seat plate; 2. a support leg; 3. a universal wheel; 4. a bearing seat; 5. a first sliding sleeve; 6. a first slide bar; 7. a pedal support plate; 8. a pedal; 9. a second sliding sleeve; 10. a second slide bar; 11. a back plate; 12. pushing the handle; 13. an armrest; 14. a vertical rod; 15. a cross bar; 16. spring seats; 17. traction grip; 18. a clockwork spring; 19. a traction shaft; 20. a rope rolling seat; 21. a traction rope; 22. an arc-shaped plate; 23. a first stabilizer bar; 24. a second stabilizer bar; 25. and (5) fixing bolts.

Detailed Description

Referring to fig. 1-5, the present utility model provides the following technical solutions: the utility model provides a severe patient is with supplementary limbs exercise device, includes seat 1, seat 1 bottom fixed connection landing leg 2, landing leg 2 bottom fixed connection universal wheel 3, seat 1 bottom fixed connection bearing frame 4, bearing frame 4 rotates and connects first sliding sleeve 5, first sliding sleeve 5 bottom intracavity sliding connection first slide bar 6, first sliding rod 6 bottom fixed connection footboard backup pad 7, footboard backup pad 7 top surface rotates and connects footboard 8, first sliding sleeve 5 right side rotates and connects second sliding sleeve 9, second sliding sleeve 9 intracavity is located second sliding sleeve 9 intracavity is provided with the spring in the left side of second sliding rod 10, second sliding rod 10 right-hand member rotates and connects seat 1 bottom, seat 1 top surface fixed connection backplate 11, backplate 11 right side fixed connection promotes the handrail 12, fixed connection 13 between backplate 11 left side and the seat 1 top surface, handrail 13 includes 14 and 15, spring holder 14 outside 13, the montant is fixed connection 13, the top is equipped with spring holder fixed connection 17.

In this embodiment: the spring seat 16 is internally and fixedly provided with a spring 18, the end part of the inner ring of the spring 18 is fixedly connected with a traction shaft 19, the traction shaft 19 penetrates through the front side and the rear side of the vertical rod 14 and is rotationally connected with the front side and the rear side of the vertical rod, the outer side of the traction shaft 19 is fixedly provided with a rope seat 20, the rope seat 20 is wound with a traction rope 21, and the other end of the traction rope 21 is fixedly connected with the bottom end of the traction grip 17; the patient pulls the traction grip 17 upwards to do upper limb traction training, the traction grip 17 pulls the traction rope 21 to drive the rope rolling seat 20 and the traction shaft 19 to rotate, the traction shaft 19 rotates to drive the clockwork spring 18 to twist so as to generate deformation, after the traction grip 17 is loosened, the clockwork spring 18 rebounds to drive the traction shaft 19 and the rope rolling seat 20 to rotate reversely, so that the traction rope 21 is recovered, and the clockwork spring 18 provides downward traction force for the traction rope 21 when the traction grip 17 is pulled upwards, so that the effect of upper limb traction training is improved.

The left side of the first sliding sleeve 5 is fixedly provided with an arc-shaped plate 22; the right side of the patient's lower leg is attached to the cambered surface on the left side of the cambered plate 22, so that the contact area with the patient's lower leg is increased, the touch feeling of the patient is more comfortable, and the limiting effect on the lower leg is achieved.

A first stabilizer bar 23 is fixedly connected between the supporting legs 2, and a second stabilizer bar 24 is fixedly connected between the first stabilizer bar 23 and the seat plate 1; the structural stability between the support leg 2 and the seat plate 1 is enhanced, and the support leg 2 is prevented from being deformed.

The included angle between the supporting leg 2 and the seat plate 1 is one hundred twenty degrees; the device can be prevented from being overturned by overlarge shaking amplitude when a patient performs limb training.

Threads are arranged on the outer side of the bottom end of the traction grip 17, and the top end of the traction grip 17 is fixedly connected with a circular baffle; the traction grip 17 can be used as a grip when the upper limb training is not performed, a patient holds the traction grip 17 to prevent the traction grip 17 from sliding off the device, and the round baffle can prevent the traction grip 17 from sliding out of the hand of the patient when the upper limb training is performed.

A spring is fixedly connected between the bottom surface of the pedal 8 and the top surface of the pedal support plate 7; after the patient presses the pedal 8 to compress the spring and releases the pedal 8, the spring rebounds to drive the pedal 8 to lift to the original position, and the operation is repeated, so that the ankle joint training is performed.

The outer side of the first sliding sleeve 5 is in threaded connection with a fixing bolt 25; tightening the fixing bolt 25 fixes between the first slide bar 6 and the first slide sleeve 5, preventing the first slide bar 6 from continuing to slide.

The working principle and the using flow of the utility model are as follows: the patient sits on the seat plate 1, the right side of the lower leg is attached to the left cambered surface of the cambered plate 22, the contact area with the lower leg of the patient is increased, the touch feeling of the patient is more comfortable, the limiting effect on the lower leg is achieved, the fixing bolt 25 is unscrewed, the fixing between the first sliding rod 6 and the first sliding sleeve 5 is released, the first sliding rod 6 is slid up and down, the pedal support plate 7 is driven to move up and down, the height of the pedal 8 is adjusted, the top surface of the pedal 8 is attached to the bottom surface of the feet of the patient, the fixing bolt 25 is screwed down, the first sliding sleeve 5 and the first sliding rod 6 are fixed, the height of the pedal 8 is fixed, the patient with different heights can be accommodated, the applicability of the device is improved, the patient presses the pedal 8 to compress the springs between the pedal 8 and the pedal support plate 7, and the springs rebound drive the pedal 8 to be lifted to the original place after the pedal 8 is loosened, the operation is repeated to train the ankle joint, the patient's lower leg pushes the arc 22 rightwards to drive the first sliding sleeve 5 to rotate anticlockwise, the first sliding sleeve 5 pushes the second sliding sleeve 9 rightwards and enables the second sliding sleeve 9 to rotate, the second sliding rod 10 slides in the second sliding sleeve 9 and compresses the spring in the second sliding sleeve 9, after the force applied by the lower leg to the arc 22 is cancelled, the spring in the second sliding sleeve 9 rebounds to push the second sliding sleeve 9 to slide leftwards, the second sliding sleeve 9 pushes the first sliding sleeve 5 leftwards to drive the first sliding sleeve 5 to rotate clockwise, the arc 22 drives the patient's lower leg to move leftwards, the actions are repeated, the patient's lower limb is trained by adduction muscle force, the patient is placed on the top surface of the cross rod 15, the traction grip 17 is held by both hands to prevent sliding from the device, screwing the traction grip 17 to cancel the threaded connection between the traction grip 17 and the vertical rod 14, pulling the traction grip 17 upwards, pulling the traction grip 17 to pull the traction rope 21 to drive the rope rolling seat 20 and the traction shaft 19 to rotate, driving the clockwork spring 18 to twist to generate deformation by the rotation of the traction shaft 19, and after loosening the traction grip 17, rebounding the clockwork spring 18 to drive the traction shaft 19 and the rope rolling seat 20 to reverse, thereby recovering the traction rope 21, repeating the operation to carry out upper limb traction training, and other personnel can push the device to move under the cooperation of the universal wheel 3 by holding and pushing the right end of the handrail 12, thereby transferring the position of a patient and improving the convenience of use.

Claims (8)

1. An auxiliary limb exercise device for severe patients, which is characterized in that: the novel pedal support comprises a seat plate, landing leg bottom fixed connection landing leg, landing leg bottom fixed connection universal wheel, seat plate bottom fixed connection bearing frame, the bearing frame rotates and connects first sliding sleeve, first sliding sleeve bottom intracavity sliding connection first slide bar, first sliding rod bottom fixed connection footboard backup pad, footboard backup pad top surface rotates and connects the footboard, first sliding sleeve right side rotates and connects the second sliding sleeve, second sliding sleeve intracavity sliding connection second sliding rod, the second sliding sleeve intracavity is located second sliding rod left side is provided with the spring, second sliding rod right-hand member rotation is connected seat plate bottom, seat plate top surface fixed connection backplate, backplate right side fixed connection promotes the handrail, handrail left side with fixed connection between the seat plate top surface, the handrail includes montant and horizontal pole, montant outside fixed mounting spring holder, horizontal pole top threaded connection traction handle.

2. The limb exercise assisting device for severe patients according to claim 1, wherein: the spiral spring is fixedly installed in the spiral spring seat, the end part of the inner ring of the spiral spring is fixedly connected with a traction shaft, the traction shaft penetrates through the front side and the rear side of the vertical rod and is rotationally connected with the vertical rod, a rope winding seat is fixedly installed on the outer side of the traction shaft, a traction rope is wound on the rope winding seat, and the other end of the traction rope is fixedly connected with the bottom end of the traction grip.

3. The limb exercise assisting device for severe patients according to claim 1, wherein: the left side of the first sliding sleeve is fixedly provided with an arc-shaped plate.

4. The limb exercise assisting device for severe patients according to claim 1, wherein: the first stabilizer bar is fixedly connected between the supporting legs, and the second stabilizer bar is fixedly connected between the first stabilizer bar and the seat plate.

5. The limb exercise assisting device for severe patients according to claim 1, wherein: the included angle between the supporting leg and the seat plate is one hundred twenty degrees.

6. The limb exercise assisting device for severe patients according to claim 1, wherein: the outer side of the bottom end of the traction handle is provided with threads, and the top end of the traction handle is fixedly connected with a circular baffle.

7. The limb exercise assisting device for severe patients according to claim 1, wherein: and a spring is fixedly connected between the bottom surface of the pedal and the top surface of the pedal supporting plate.

8. The limb exercise assisting device for severe patients according to claim 1, wherein: and the outer side of the first sliding sleeve is in threaded connection with a fixing bolt.

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