RU118193U1 - DEVICE FOR REHABILITATION OF PATIENTS WITH LOWER EXTREMITY PARALYSIS (OPTIONS) - Google Patents

Abstract

1. A device for the rehabilitation of patients with paralysis of the lower extremities, containing a frame made in the form of a walker mounted on front and rear wheel supports, and equipped with patient attachment elements in the form of belts connected by flexible rods to the frame, characterized in that the frame of the walker is made P -shaped in plan to accommodate the patient between its longitudinal elements, the walkers are made adjustable in height and width, at least one of the support wheels is equipped with a reverse braking mechanism, in the frame two longitudinal rod elements are made adjustable in length, these elements are connected by one cross member, on which one support wheels are mounted, and the other support wheels are mounted on the free ends of the longitudinal rod elements, with longitudinal rod elements in the area of the patient's location between them, in front of the crossbar connecting these elements, two vertical posts are installed, on which with the possibility of movement and fixation in a given position nii, a crossbar is installed with supports for the patient's knees, made with the possibility of adjusting their spatial position relative to this bar, with longitudinal rod elements in the area of the crossbar connecting these elements, two vertical posts are connected, on which they are fixed with the possibility of moving up and down along them and fixing in a given position of the lower transverse bar and the upper transverse bar, while one adjustable lengthwise elastic rod with a T-shaped belt is attached to the upper transverse bar to fix the patient's pelvis, and two adjustments are attached to the lower transverse bar

Description

The utility model relates to medicine and is intended for the rehabilitation of patients with paralysis of the lower extremities, including for patients with tetraplegia and children with cerebral palsy for their independent movement in space in an upright position. The utility model can be used as a simulator for producing posotonic reflexes, training muscles of the back and lower extremities, and also as a means of facilitating the movement of patients with paralysis and plegia in space in an upright position.

Known devices with knees, pelvic and thoracic retainers are very bulky ("Parapodium") or immobile ("Lokomat") and therefore poorly effective.

Regular walkers for patients cannot be used for patients with deep paresis of the lower extremities, with tetraparesis and with tetraplegia.

A known simulator for learning to walk in a natural algorithm in the rehabilitation of patients with cerebral palsy, which consists of functionally and electrically interconnected: plastic tents on wheels with a metal tripod; 3 tanks attached to a tripod and designed to supply air to the mount; inflatable mounts; a pump with manual or automatic air supply to tanks and inflatable mounts; training boots; colloidal fluid; a pump that provides automatic alternating fluid flow into the boot chambers in a natural walking algorithm; 4 soft tubes connecting the fluid supply pump and the boot chamber; front and heel arch support located on the sole of the boots; 4 sound and light elements located in the boot chambers; and an electric motor that provides step-by-step advancement of the tent together with the patient at a given pace. The vertical part of the tripod is integrated in the central part of the rear wall of the tent, and the horizontal part in the central part of the dome. The tanks are attached to the tripod at the level of the head, neck and torso of the patient and have holes on the side and front walls framed by cylinders with screw caps. Inflatable mounts are designed to support the head, neck and torso in a stable upright position and are elastic corrugated hoses, one end of which is sewn into a hat, collar or vest, and the other is worn on the respective cylinders of the tanks. Training boots are divided into front and rear cameras and are made of 2 layers of water-repellent and elastic fabric with a porous layer between them. Colloidal fluid freely circulates in the inner space of the front and rear chambers of the boots, providing weighting of the corresponding part of the limb. The green liquid is intended for feeding into the front cameras, and the red color is for feeding boots into the rear cameras. Soft tubes connect the fluid supply pump and the boot chambers: 2nd green - to supply fluid to the front chambers, 2nd red - to supply fluid to the rear boot chambers. Tubes are put on the cylinders, framing the holes in the upper part of the bootlegs. The arch supports are located on the sole of the boots and have 2 metal plates with the contacts of the electric circuit, which, under the influence of gravity of the liquid, close and include electrically connected sound and light elements located in the chambers of the boots. These elements provide synchronous sound and light effects when weighting the corresponding part of the limb. (RU 2351304, A61H 3/00, A61H 3/04, A47D 13/04, publ. 04/10/2009).

The disadvantage of this simulator is its complexity of manufacture and use. In addition, the disadvantage of this simulator is that it does not allow the patient to use internal forces and his own capabilities for resuscitation and organization of internal recovery processes. This simulator belongs to the category of warm-ups, which forcefully move parts of the body relative to each other in the area of possible movements in order to ensure blood flow and oxygen saturation of tissues, as well as training of weak muscles. Such movements of the massage plan do not form the origin of recovery processes in the body: this is possible only in conditions when the patient begins to move, prompting the body to restore lost functions.

The utility model is aimed at creating a mobile lightweight compact device for the possibility of independent movement of patients with paresis, paralysis and plegia of the upper and lower extremities in an upright position.

This useful model is aimed at achieving a technical result, which consists in increasing the efficiency of the moving device by ensuring that patients with paralysis of the upper extremities carry out independent exercises in the form of passive or active movements.

The specified technical result for the first embodiment is achieved by the fact that in the device for the rehabilitation of patients with paralysis of the lower extremities, containing a frame made in the form of walkers mounted on the front and rear wheel supports, and equipped with patient attachment elements in the form of belts connected by flexible rods with frame, the frame of the walker is made U-shaped in plan for placing the patient between its longitudinal elements, the walker is made adjustable in height and width, at least one of the support wheels are equipped with a reverse braking mechanism, in the frame two longitudinal rod elements are made adjustable in length, these elements are connected by one crossbar on which one support wheels are mounted, and other support wheels are mounted on the free ends of the longitudinal rod elements, with longitudinal rod elements in the patient’s area between them, in front of the cross-link connecting these elements, two vertical posts are installed, on which, with the possibility of movement and fixing in a predetermined position, is installed cross member with stops for the patient’s knees, made with the possibility of adjusting their spatial position relative to this bar, two vertical posts are connected to the longitudinal rod elements in the region of the cross member connecting these elements, on which are fixed with the possibility of moving up and down on them and fixing in a predetermined lower position a transverse bar and an upper transverse bar, with one elastic rod adjustable in length with a T-shaped belt for fixing t the patient’s basics, and two elastic traction adjustable along the length with attachments for fixing the patient’s shoes are attached to the lower transverse bar.

The specified technical result for the second embodiment is achieved by the fact that in the device for the rehabilitation of patients with paralysis of the lower extremities, containing a frame made in the form of walkers mounted on the front and rear wheel supports, and equipped with patient attachment elements in the form of belts connected by flexible rods with frame, the frame of the walker is made U-shaped in plan for placing the patient between its longitudinal elements, the walker is made adjustable in height and width, at least one of the support wheels are equipped with a reverse braking mechanism, in the frame two longitudinal rod elements are made adjustable in length, these elements are connected by one crossbar on which one support wheels are mounted, and other support wheels are mounted on the free ends of the longitudinal rod elements, with longitudinal rod elements in the patient’s area between them, in front of the cross-link connecting these elements, two vertical posts are installed, on which, with the possibility of movement and fixing in a predetermined position, is installed cross with stops for the patient’s knees, made with the possibility of adjusting their spatial position relative to this bar, with the longitudinal rod elements in the region of the cross-link connecting these elements, two vertical posts are connected, on which they are fixed with the possibility of moving up and down on them and fixing in a predetermined position transverse a strap to which an elastic rod with a T-shaped belt, adjustable in length, is attached to fix the patient's pelvis, and the front axis of the device is made in the form of a crank two U-shaped projections, which are coupling with mounts for the lower elastic rods, equipped with means for fixing the patient's footwear front.

The specified technical result for the third embodiment is achieved in that a device for the rehabilitation of patients with paralysis of the lower extremities, comprising a frame made in the form of walkers mounted on wheel supports and equipped with patient attachment elements in the form of belts connected by flexible rods with a frame, a frame of walkers T-shaped in plan, one front support wheel mounted on a longitudinal frame element made adjustable in length, and other support wheels mounted on the ends of the transverse e of the frame element, at least one of the support wheels is equipped with a reverse braking mechanism, a vertical stand is connected to the longitudinal frame element, which carries hand supports in the form of a rudder, and an axis in the form of a crank with two U-shaped protrusions is connected to the front wheel, on which there are couplings with fasteners for lower elastic rods equipped with devices for fixing the patient’s shoes in front.

The specified technical result for the fourth embodiment is achieved by the fact that in the device for the rehabilitation of patients with paralysis of the lower extremities, containing a frame made in the form of walkers mounted on the front and rear wheel supports, and equipped with patient attachment elements in the form of belts connected by flexible rods with frame, the frame of the walker is made U-shaped in plan for placing the patient between its longitudinal elements, the walker is made adjustable in height and width, at least one of the support wheels equipped with a reverse braking mechanism, in the frame two longitudinal rod elements are made adjustable in length, these elements are connected by one cross-beam on which one support wheels are mounted, and other support wheels are mounted on the free ends of the longitudinal rod elements, with longitudinal rod elements in the patient’s area between them, in front of the cross-link connecting these elements, two vertical posts are installed, on which, with the possibility of moving and fixing in a given position, they are installed a cross member with stops for the patient’s knees, made with the possibility of adjusting their spatial position relative to this strap, with two longitudinal upright posts connected to the longitudinal rod elements in the region of the cross member connecting these elements, on which are fixed with the possibility of moving up and down on them and fixing in a predetermined position the lower cross bar and the upper cross bar, with one elastic rod adjustable in length with a T-shaped belt for fixation attached to the upper cross bar and the patient’s pelvis, and two elastic traction adjustable along the length with devices for fixing the patient’s shoes are made in the form of stirrups and attached to the front lower bar, and either to the knee supports in front and side or to the longitudinal supports for the patient’s hands through the rings mounted on the knees left and right, or to the longitudinal supports for the hands directly, or attached to an additional rear cross bar.

These features are significant and interconnected with the formation of a stable set of essential features sufficient to achieve the desired technical result.

This useful model is illustrated by specific examples, which, however, are not the only possible ones, but clearly demonstrate the possibility of achieving the above set of features of the required technical result.

In FIG. 1 is a general side view of the device, a four-wheeled embodiment, a direct axis of the wheel drive;

FIG. 2 is a general side view of the device, a four-wheeled embodiment, a top view, the axis of the wheel drive is made with U-shaped protrusions of the crank;

FIG. 3 - view from above on the device, three-wheeled version;

FIG. 4 - rear view of the device with attached W-shaped rods, both in conjunction with the front rods and independently without front rods.

In the framework of this utility model, a device is considered for the rehabilitation of patients with paralysis of the lower extremities, including for patients with tetraplegia and children with cerebral palsy for their independent movement in space in an upright position. This device can also be used as a simulator for producing posotonic reflexes, training the muscles of the back and lower extremities, and also as a means of facilitating the movement of patients with paralysis and plegia in space in an upright position.

According to this utility model, a device for rehabilitation of patients with paralysis of the lower extremities is considered as the first example of execution, which comprises a frame made in the form of walkers mounted on the front and rear wheel supports and equipped with patient attachment elements in the form of belts connected by flexible rods with a frame . This frame is made U-shaped in plan for placing the patient between its longitudinal elements, walkers are made adjustable in height and width, at least one of the support wheels is equipped with a reverse braking mechanism. In the frame, two longitudinal rod elements are made adjustable in length, these elements are connected by one cross member on which one support wheels are mounted, and the other support wheels are mounted on the free ends of the longitudinal rod elements. With the longitudinal rod elements in the patient’s location area, two vertical posts are installed between them in front of the cross-link connecting these elements, on which, with the possibility of moving and fixing in a predetermined position, a cross-bar is installed with stops for the patient’s knees, configured to adjust their spatial position relative to this bar. Two vertical posts are connected to the longitudinal rod elements in the region of the cross-member connecting these elements, on which the lower transverse bar and the upper transverse bar are fixed with the possibility of moving up and down on them and fixed in a predetermined position, with one adjustable in length attached to the upper transverse bar elastic traction with a T-shaped belt for fixing the patient’s pelvis, and two length-adjustable elastic traction with devices for fixing the patient’s shoes are attached to the lower transverse bar.

The following is an example of a specific implementation of this embodiment of the utility model.

The device consists of a solid base frame 1, made in the form of conventional walkers, adjustable in height and width, the frame is mounted on wheel supports 2. The rear two wheel supports 2, (the rear and front wheel supports can be any in diameter, one of the wheels of these supports can be larger or smaller in diameter of others), have a reverse braking mechanism 3, made in the form of a ratchet mechanism or in any other way (for example, the use of an overrunning clutch is possible).

On the vertical racks of the device at the back, on the patient side, there is a transverse bar 4 connected to the frame, made with stops 5 for the patient's knees (knee supports), adjustable in position: height, width and in the sagittal direction (front - back).

The structure of the device may include latch shanks 6, which are attached to the knees by a swivel joint 7 with a transverse axis of rotation.

On the front vertical racks fixed lower transverse bar 8 with the possibility of movement up and down vertical racks. There is also an upper cross bar 9 with the possibility of moving up and down along the same vertical struts. One elastic rod 10 is attached to the upper transverse bar 9, and two elastic rods 10 with front stoppers 11 stop (devices for fixing the patient’s shoes in front) are attached to the lower transverse bar 8. All elastic rods can be adjusted in length. The device includes a T-shaped belt 12 of soft material having a front ring 13 for attachment to the upper elastic rod 10.

The device may include a height-adjustable and in the sagittal direction emphasis 14 for the thoracic region, which can be made in the form of a countertop with a cutout for the chest in front and a soft strong belt - retainer 15 at the back. In the upper part of the device, there may be levers 16 for the hands, adjustable in width, height and in the sagittal direction. At the level of the pelvis, a stop 17 and a belt 18 for fixing the pelvis 18, made of durable soft material, can also be mounted adjustable in height and in a sagittal direction. The device may have forward brakes 19, which are independently adjustable or controlled by brake levers 20 located on the steering wheel or on the supports for the hands of a patient or assistant. Between the brake levers and the forward brake there is a flexible connection in the form of a cable 21.

If, according to the first embodiment, the movement of the walkers is carried out by rolling the wheels while moving the patient’s legs and under the influence of the efforts of his hands located on the frame, then in the second embodiment (Fig. 2) there is a wheel drive that provides forcible movement of the patient’s legs after the movement of the walkers is initiated. The front axis of the device can be made in the form of a crank (Fig. 2) with two U-shaped protrusions 22, on which there are couplings 23 with fasteners for lower elastic rods 10, equipped with front stoppers 11 feet (devices for fixing the patient’s shoes in front).

Such a device comprises a frame made in the form of walkers mounted on the front and rear wheel supports and equipped with patient attachment elements in the form of belts connected by flexible rods to the frame. The walker frame is made U-shaped in plan for placing the patient between its longitudinal elements, the walkers are made adjustable in height and width, at least one of the support wheels is equipped with a reverse braking mechanism. In the frame, two longitudinal rod elements are made adjustable in length, these elements are connected by one cross-beam on which one support wheels are mounted, and the other supporting wheels are mounted on the free ends of the longitudinal rod elements, with longitudinal rod elements in the patient’s area between them before connecting these elements two vertical racks are installed on the cross member, on which a cross member with stops for the patient’s knees is installed, with the possibility of movement and fixing in a predetermined position, in made with the possibility of adjusting their spatial position relative to this bar. In this part, the second embodiment coincides with the construction of the first example of FIG. one.

In the second embodiment, two vertical posts are connected to the longitudinal rod elements in the region of the cross-link connecting these elements, on which a transverse bar is fixed with the possibility of movement up and down, to which a transverse strap is attached with a length-adjustable elastic rod with a T-shaped belt to fix the patient's pelvis. The front axis of the device is made in the form of a crank with two U-shaped protrusions, on which there are couplings with fasteners for lower elastic rods equipped with devices for fixing the patient’s shoes in front.

The device according to the third embodiment comprises a frame made in the form of walkers mounted on wheel supports and equipped with patient attachment elements in the form of belts connected by flexible rods with a frame made T-shaped in plan, one front support wheel mounted on a longitudinal frame element, made adjustable in length, and other support wheels are mounted at the ends of the transverse frame element, at least one of the support wheels is equipped with a reverse braking mechanism, with a longitudinal frame element connected There is a vertical stand carrying hand supports in the form of a rudder. and an axis in the form of a crank with two U-shaped protrusions, on which there are couplings with fastenings for lower elastic rods equipped with devices for fixing the patient’s shoes in front, is connected to the front wheel.

The third embodiment (Fig. 3) is a device that is designed on a 3-wheel support and made in the form of a frame 1 T-shaped with stops 5 for the knees (knees), pelvis and thoracic retainers. One front wheel 2 of the device may have a swivel mechanism made in the form of a rudder 24 of a bicycle. The front crank axis can be firmly connected to the front wheel of the three-wheeled device and have L-shaped protrusions 25 to which couplings are attached for fastening the lower elastic rods 10 that carry the front stoppers 11 feet (devices for fixing the patient’s shoes in front). The device may have stops 26 for the hands of an assistant, which are located behind (Fig. 1).

In the fourth embodiment (Fig. 4), repeating the design of the first embodiment, the front traction for the feet can be made in the form of stirrups (Fig. 4) and attached to the front lower bar and / or to the knees in front and side. The device may have an additional rear transverse bar 27 with the possibility of movement in the sagittal (front to back) direction.

In the device, the front tie rods for the feet can be made in the form of stirrups, attached to the longitudinal supports for the patient’s hands and pass through rings 28 fixed to the knees on the left and right, or to the longitudinal supports for the hands directly, and attached to the additional rear cross bar 25 together or separately (Fig. 4).

The device may have several lower front rods for the feet of the patient, made in the form of stirrups and having several bottom brackets for the sole of the patient’s shoes.

In the device (Fig. 4), an roller 29 having a transverse (sagittal) axis of rotation through which one of the elastic rods for the feet and such traction has W- can be mounted on an additional rear transverse bar 27 at the level of the patient's pelvis fixator or at the level of the thoracic region. shaped, the middle part of the traction passes through the roller, and the lateral ends are attached to the main frame at the level of the thoracic retainer or at the level of the pelvis retainer to the longitudinal handrails for the spruce and on the right sides.

The device operates as follows.

Option 1. A patient with a mild form of paresis (for example, with paralysis of the feet) fixes shoes to the lower elastic rods 10 with the help of front fixators 11 feet. And the knees are inserted into the knees. He gets into the device, resting his hands on the upper longitudinal runners of the walker, and rests his knees on the stops 5 for the knees. If necessary, he can fix the pelvis using a soft belt 18 for fastening the pelvis. Adjustment of the lower elastic rods 10 is carried out by changing their tension and moving on the vertical struts of the lower front transverse bar 8 in height. Thus, the toe of the paralyzed foot is raised to the optimum height for moving forward. U-turns of paralyzed feet to the optimum angle for walking is carried out by moving the lower elastic rods along the lower bar in the transverse direction.

The patient pushes the device forward. The reverse braking mechanism 3 lock the device in this position. The lower elastic rods are pulled. The patient, deviating to the side, transfers the center of gravity to any limb. One of the lower elastic rods shifts the less stressed limb forward. Then the patient transfers the center of gravity by tilting to an advanced limb and then the second limb also moves forward. Toes of the feet due to fastening by elastic rods to the lower front transverse bar when moving the legs forward will be directed upwards and not touch the floor.

Option 2. For patients with paralysis and paresis of the lower extremities, a device is used that includes a patient's pelvic retainer made in the form of a T-shaped belt 12, the upper parts of which pass around the pelvis, and the lower part passes backwards between the patient’s legs and is attached to the upper parts in front. The patient is placed in the device so that the patient’s knees rest against the knees. The rings 13 of the belt are fastened to the upper elastic rod 10 and adjusted so that the patient can hold the pelvis in an upright position. The patient's feet are attached to the lower elastic rods 10 using the front stoppers 11. The elastic rods are adjusted in length so that the tension is minimal in the initial vertical position and, at the same time, the patient can maintain a vertical position.

The patient pushes the device forward. The upper and lower elastic rods are pulled. The patient, deviating to the side, transfers the center of gravity to any limb. One of the lower elastic rods shifts the less stressed limb forward. Then the patient transfers the center of gravity by tilting to an advanced limb and then the second limb also moves forward. The pelvis of the patient due to the upper elastic traction also moves forward. Backward movement of the device is prevented by the reverse braking mechanism.

By adjusting the upper front cross bar up and down and tensioning the upper elastic traction, it is ensured that the tension of the elastic traction does not interfere with the movement of the device forward when the patient moves the device.

Option 3. With tetraplegia, a device is used that includes stops 5 for the knees, a patient pelvis fixer made in the form of a T-shaped belt 12 and an emphasis 14 for the patient’s thoracic region. The patient is installed in the device, as in the second embodiment, and his thoracic region is additionally fixed to the abutment 14 with soft clips 15. The patient applies pressure to the thoracic emphasis. The device moves a little forward. Elastic traction is pulled. The patient oscillates the body from side to side, thus transferring the center of gravity from foot to foot and carries out the movement of the body forward, as described in the second embodiment.

Option 4. Movement of the patient in space is carried out in the device (in Fig. 2, having a front axle made in the form of a crank 19. Elastic traction for feet is attached to the couplings 20 of the U-shaped protrusions of the crank. When moving the device forward, the front wheels rotate the front axle and U-shaped protrusions alternately pull the lower elastic rods, thereby facilitating the movement of the lower limbs of the patient. All other actions are described in options 1-3.

Option 5. If the elastic rods are made in the form of stirrups (Fig. 4), the rods are adjusted so that they do not reach the floor in a free state, and when the sole of the patient’s shoes is placed on them, a slight tension of the elastic rods is created. The patient inserts his legs into the stirrups and movement in space is carried out as in options 1-4, only the front lower links going to the lower front bar of the device in this case can not be used.

Option 6. If the device has a roller with a sagittal axis of rotation (Fig. 4) and one of the rods for the feet has a W-shape, then transferring the center of gravity, this helps the patient transfer the center of gravity from one leg to another. Movement in space is carried out as in options 1-5. In this case, the front lower elastic rods may not participate in the movement.

The device was used in the rehabilitation of 21 patients aged 3 years to 50 years for 30. Of these: 4 were with lower paraparesis, 12 with lower paraplegia, 5 patients were with tetraplegia. The causes of paresis and plegium were spinal injuries, the condition after operations for spinal tumors and spinal hernias, multiple sclerosis, myelitis, etc.

After 1-2 days of training, all patients were able to independently control the device and move in space in an upright position. All patients showed a sharp improvement in psychoemotional tone. The posotonic reflexes improved. An increase in muscle tone of the back and lower extremities was noted. An improvement in tissue blood flow in the lower extremities was recorded and central hemodynamics improved. The function of the pelvic organs improved. A persistent tendency to healing bedsores was noted.

Claims (7)

1. Device for the rehabilitation of patients with paralysis of the lower extremities, containing a frame made in the form of walkers mounted on the front and rear wheel supports, and equipped with patient attachment elements in the form of belts connected by flexible rods with a frame, characterized in that the frame of the walker is made P -shaped in plan for placing the patient between its longitudinal elements, the walker is made adjustable in height and width, at least one of the support wheels is equipped with a reverse braking mechanism, in the frame two are longitudinal x the rod elements are made adjustable in length, these elements are connected by one cross-member, on which one support wheels are mounted, and the other support wheels are mounted on the free ends of the longitudinal rod elements, with two longitudinal rod elements in the patient’s area between them before the cross-link connecting these elements vertical racks, on which, with the possibility of moving and fixing in a predetermined position, a cross bar is installed with stops for the patient’s knees, made with the possibility of by adjusting their spatial position relative to this bar, two vertical posts are connected to the longitudinal rod elements in the area of the cross-link connecting these elements, on which the lower transverse bar and the upper transverse bar are fixed in a predetermined position, while attached to the upper transverse bar is one adjustable in length elastic rod with a T-shaped belt for fixing the patient’s pelvis, and two adjustments are attached to the lower transverse bar Rui lengthwise elastic thrust with means for fixing the patient's shoe. 2. The device according to claim 1, characterized in that at least one of the support wheels is equipped with a braking mechanism, which is connected by a cable to the control handle mounted on the frame in the area of the patient’s hands. 3. The device according to claim 1, characterized in that the stops for the patient’s knees are made adjustable in height, width and in a sagittal direction relative to the strap. 4. The device according to claim 1, characterized in that the patient’s shins are attached to the stops for the patient’s knees with swivel joints with a transverse axis of rotation. 5. A device for the rehabilitation of patients with paralysis of the lower extremities, comprising a frame made in the form of walkers mounted on the front and rear wheel supports and equipped with patient attachment elements in the form of belts connected by flexible rods with a frame, characterized in that the frame of the walkers is made P -shaped in plan for placing the patient between its longitudinal elements, the walker is made adjustable in height and width, at least one of the support wheels is equipped with a reverse braking mechanism, in the frame two are longitudinal x the rod elements are made adjustable in length, these elements are connected by one cross-member, on which one support wheels are mounted, and the other support wheels are mounted on the free ends of the longitudinal rod elements, with two longitudinal rod elements in the patient’s area between them before the cross-link connecting these elements vertical racks, on which, with the possibility of moving and fixing in a predetermined position, a cross bar is installed with stops for the patient’s knees, made with the possibility of by adjusting their spatial position relative to this bar, two vertical posts are connected to the longitudinal rod elements in the region of the cross-link connecting these elements, on which the transverse bar is fixed with a possibility of movement up and down, to which a length-adjustable elastic bar is attached traction with a T-shaped belt for fixing the pelvis of the patient, and the front axis of the device is made in the form of a crank with two U-shaped protrusions, on which there are couplings with fasteners s for the lower elastic rods, equipped with means for fixing the patient's footwear front. 6. A device for the rehabilitation of patients with paralysis of the lower extremities, containing a frame made in the form of walkers mounted on wheel supports and equipped with patient attachment elements in the form of belts connected by flexible rods with a frame, characterized in that the frame of the walkers is made T-shaped in plan, one front support wheel is mounted on a longitudinal frame element made adjustable in length, and other support wheels are mounted on the ends of the transverse frame element, at least one of the support wheels is equipped with fur with a reverse braking system, a vertical strut is connected to the longitudinal frame element, which carries handlebars in the form of a rudder, and an axis in the form of a crank with two U-shaped protrusions, on which there are couplings with fasteners for lower elastic rods equipped with a front arm, is connected devices for fixing the patient’s shoes in front. 7. A device for the rehabilitation of patients with paralysis of the lower extremities, comprising a frame made in the form of walkers mounted on the front and rear wheel supports and equipped with patient attachment elements in the form of belts connected by flexible rods with a frame, characterized in that the frame of the walkers is made P -shaped in plan for placing the patient between its longitudinal elements, the walker is made adjustable in height and width, at least one of the support wheels is equipped with a reverse braking mechanism, in the frame two are longitudinal x the rod elements are made adjustable in length, these elements are connected by one cross-beam, on which one support wheels are mounted, and the other support wheels are mounted on the free ends of the longitudinal rod elements, two longitudinal rod elements are installed between them in front of the connecting cross member vertical racks on which, with the possibility of moving and fixing in a predetermined position, a cross bar is installed with stops for the patient’s knees, made with the possibility of by adjusting their spatial position relative to this bar, two vertical posts are connected to the longitudinal rod elements in the region of the cross-link connecting these elements, on which the lower transverse bar and the upper transverse bar are fixed in a predetermined position, while attached to the upper transverse bar is one adjustable in length elastic traction with a T-shaped belt for fixing the patient’s pelvis, and two adjustable in length elastic traction with a device beats for fixing the patient’s shoes are made in the form of stirrups and are attached to the front lower bar and / or to the knee supports in front and side or to the longitudinal supports for the patient’s hands through the rings fixed on the knees on the left and right, or to the longitudinal supports for hands directly , or attached to an additional rear cross bar.