RU2246924C1 - Device for applying vertical underwater vertebral column traction - Google Patents

Abstract

FIELD: medical engineering.

SUBSTANCE: device has water tank, thoracic and pelvic belts for fixing patient vertebral column segments, loading mechanism connected to a belt for fixing patient vertebral column segment by means of rope-and-pulley system and having dial for showing loading force. The water tank is cabin vertically mounted on the floor and open on top and having door and light port in it and means for sealing the door. The loading mechanism is connected to the thoracic fixing belt using two additional ropes with rollers mounted on U-shaped frame in upper part of cabin casing.

EFFECT: comfortable conditions created for a patient; improved patient state control; high accuracy of loading.

15 cl, 11 dwg

Description

The invention relates to medicine, namely, orthopedics, traumatology and neuralgia, in particular to means for treating the thoracic, lumbar and sacral spine in case of impaired function, for example, with manoradicular syndrome, osteochandrosis, spondylosis, etc., by underwater traction.

A device is known for underwater vertical traction of the spine, comprising a pool, a control unit, a support platform with patient attachment elements, a loading mechanism with a cable block system, a pumping unit, an air source, an air preparation unit, a hydromassage and pneumomassage system, while the patient attachment elements are cervical a retainer, a chest retainer and a pelvic girdle, each connected to an autonomous loading mechanism (patent RU No. 2022546, A 61 H 1/02, publ. 11/15/1994).

A disadvantage of the known device is the bulkiness and complexity of the design, because the operation of this device requires large special rooms with a swimming pool for the procedure and placement of a pneumatic compressor, as well as significant energy and water consumption. In addition, immersing the patient in the pool from horizontal to vertical is unsafe, because control system and design are highly sophisticated. It is also problematic to disinfect the device after each patient.

The known device has a screw loading mechanism, which does not allow to create a constant pulling force due to the fact that at a load of 40 kg two spines move apart to 4 mm, and a whole section of the spine extends, although its load drops sharply. In addition, the device lacks force control, which is not safe, and the spinal traction scale cannot objectively reflect force.

A device for vertical underwater traction of the spine, comprising a swimming pool, a frame with fixation units of the shoulder girdle in the form of two axillaries and a composite head holder, a loading mechanism in the form of a self-braking winch with a dynamometer and connected to the pelvic girdle via a cable block system (patent RU No. 2106846, A 61 N 1/02, publ. March 20, 1998 - prototype).

The known device has a manual self-braking winch, which does not provide a constant pulling force of the spine due to the fact that this system is rigid and the patient is fixed on two axillas and during the procedure he involuntarily relaxes or strains the shoulder girdle, while the cable sags and the force sharply falls, it stretches and the effort increases. In addition, the entire spine is stretched from the tensile force, which leads to a drop in force to zero.

In addition, in the process of preparing for and during the procedure, the patient experiences significant inconvenience, as you have to independently descend into the pool in a diseased condition and climb out of it, fix the pelvic girdle on yourself, adjust the girdle of the shoulder girdle for your figure, hang on the armpits the whole procedure (30 minutes) with a load of more than 40 kg. At the same time, during the procedure, the patient is below the floor, and the attendants are above the patient’s head, which greatly complicates his control of the patient’s condition and the timely elimination of any deviations from the normal course of the procedure.

The disadvantage of this device is its bulkiness, which requires a special room with a swimming pool, large production areas and significant energy and water.

The problem to which the invention is directed, is to simplify the design of the device while increasing the convenience of treating patients.

The technical result of the invention is to increase patient comfort due to a design that provides a natural and comfortable position for the patient during the procedure, improves service conditions and controls the patient’s condition, reduces the material consumption of the device and improves the accuracy of loading applied tensile forces on the damaged spine, i.e. do not exceed the specified load with smooth loading and unloading.

The technical result is achieved by the fact that in a device for underwater vertical traction of the spine, containing a container for water, a chest and pelvic girdle for fixing sections of the patient’s spine, a loading mechanism connected to at least one girdle for fixing the spine by means of a cable block system and having a force indicator load, according to the invention, the water tank is made in the form of a cab vertically mounted on the floor and open from above with a door and a porthole in it and sealing means Believe, the loading mechanism is made in the form of a tank with water and a counterweight, which can be freely moved by cables and rollers mounted on brackets in the upper part of the cab body, while the loading mechanism is connected to the chest fixing belt with two additional cables with rollers mounted on П -shaped frame in the upper part of the cab body, and the pelvic fixation belt is fixed on the inner walls of the cab body.

The door sealing means is a U-shaped profile hermetically welded to the cab body along the perimeter of the doorway with a rubber band and lever locks with hinges that have the ability to adjust the gap between them.

The cabin body can be made in horizontal section rectangular with rectangular walls and a door.

The cabin body can be made oval in horizontal section with a wall and a door in horizontal section in the form of half rings.

The device is equipped with a system for supplying cold and hot water through a mixer and a check valve, a system for draining waste water through valves.

The loading mechanism is located on the outer rear wall of the cab body and is connected to the water supply and discharge system.

The device is equipped with means for controlling the water level in the cabin and in the tank of the loading mechanism.

Inside the body of the cab is installed with the possibility of adjustable movement in height, depending on the height of the patient, the pallet floor.

Additional rollers are mounted on a U-shaped frame with the ability to balance the tension forces of the cables from two opposite sides of the chest belt.

The device is equipped with a thermometer to control the temperature of the water.

The thoracic and pelvic girdles of fixation of the spine are made with the possibility of regulating the volume in accordance with the size of the patient.

The cab body is made of corrosion-resistant material, such as steel 12X18H9T.

The loading mechanism is configured to load up to 50 kg in the water tank.

The counterweight is made balancing the weight of the tank of the loading mechanism without water.

The cabin can be filled with sea water or water containing radon, sodium chloride, iodine bromine or hydrogen sulfide.

The invention is illustrated by drawings, where

figure 1 presents a General view of a device for underwater vertical traction of the spine;

figure 2 is a General view of a vertical cabin with rectangular walls and a door;

figure 3 is a vertical section of the sealed base of the cab body (figure 2);

figure 4 is a General view of a vertical cabin with an oval wall and a door;

figure 5 is a General view of the door hinge;

Fig.6 is a section aa (Fig.5);

Fig.7 is a section bB (Fig.5);

on Fig is a General view of the lever door lock;

in Fig.9 is a section bb (Fig.8);

figure 10 is a section GG (figure 8);

figure 11 is a General view of the device with means of fixation of the patient and the pipeline system for the supply and discharge of water.

The device for underwater vertical traction of the spine contains a water tank 1 made in the form of a cab vertically mounted on the floor and open from above, a loading mechanism 2 made in the form of a water tank and a counterweight, a thoracic 3 belt for fixing the spine, a pelvic 4 belt for fixing the spine, system pipeline 5 for supplying and discharging water.

The body of the vertical cabin can be made in horizontal section rectangular with rectangular walls and a door (figure 2) with a size of, for example, 800 × 700 mm and a height of 1900 mm from corrosion-resistant deformable sheets by welding. The cab door is made with a porthole 7 and a thermometer 8 and hermetically closed due to a rubber bundle 9 located between the cab body 10 and the door 6 in the U-shaped profile 11, hermetically welded to the cab body 10. The implementation of the base of the housing with a rubber band in section is shown in figure 3. The door 6 is connected to the housing 10 by hinges 12 and is closed by lever locks 13 to ensure the required sealing of the cabin by adjusting the gap between the housing 10 and door 6. Hinges 12 contain rods 14 and a stop 15 connected by a screw 16. The rod 14 is pressed against the base of the stop 15 by a bar and screws 17. The lever locks 13 contain rods 18 and a stop 19 connected by a screw 20. The hinges 12 and the locks 13 are installed on the housing 10 of the container 1 and the doors 6 are sealed with bolts 21 with nuts 22 on the sealant.

The tank 23 for water of the loading mechanism 2 is made with the possibility of free movement and has a counterbalance counterbalancing it 24. The tank 23 is connected to the counterweight 24 by means of two cables 25 suspended on rollers 26, which are mounted on the body 10 with brackets 27 (bolts and nuts) 1. Brackets 27 are installed on the housing 10 on the sealant. At the same time, the thoracic 3 belt of fixation of the spine is connected by two cables 28 to the tank 23 of the loading mechanism using rollers 26 and 29, brackets 27 and a U-shaped frame 30 installed in the upper part of the cabin body 10.

The pelvic 4 belt fixation of the spine is connected to two chains 31 mounted on the inner walls of the housing 10 of the tank 1 at its base.

The tank 23 for water of the loading mechanism 2 is equipped with a pointer 32 load efforts from 0 to 50 kg.

The housing 10 of the water tank 1 can be made oval in horizontal section with a wall and the door in horizontal section in the form of half rings (Fig. 4) with an internal size, for example, 1000 mm, a height of 1900 mm from corrosion-resistant deformable sheets. The container body 1 is made of two vertically mounted circular half rings 33, closed from below by half circles 34 and mounted on the floor. One section of the half-ring is equipped with a window 35 and a thermometer 36, is the door of the water tank 37 and is made with the possibility of hermetically closing - fitting to the other section in the form of a half-ring due to a rubber bundle 9 located between the body 38 of the tank 1 (similar to the case 10 in FIG. 2 ) and door 37 in the U-shaped profile 11, which is hermetically welded to the container body around the perimeter of the doorway. The door 37 is connected to the housing 38 by hinges 12 and is closed by lever locks 13. A water tank 1, in the form of a vertical sealed and oval-shaped top open in the horizontal section of the cab, is installed on floor 39. The water supply and discharge system contains a hot and cold water mixer 40 for feeding it through a valve 41, a check valve 42 into a container 1, a thermometer 43, a hot water valve 44, a cold water valve 45, a water drain valve 46 from a vessel 1, a flexible hose 47 for supplying and discharging water from the movable tank 23 of the loading mechanism 2, valve 48 for supplying water to the tank 23 The mechanisms loading 2, the water drain valve 49 of the movable tank 23. Based on the container body 1 placed floor-pan 50 with the possibility of controlled movement in height as a function of patient growth.

The device operates as follows.

For the treatment of diseases of the thoracic, lumbar and sacral spine on a patient above and below the damaged area of the spine, the required sizes are respectively thoracic 3 belt fixation of the spine and pelvic 4 belt fixation, so that the damaged area of the spine is located between them. An adjustable pallet floor 50 is set to a certain height, taking into account the growth of the patient or without him, so that the patient's head is above the upper edge of the cabin. The patient from floor level 39 of the room becomes on the pallet floor. Two hooks of the pelvic 4 fixation belt are connected with two chains 31 to the cabin in its lower part with the tension of the chains. Two rings of the chest 3 of the fixation belt are connected to two cables 28, for example, hooks (pos. Not shown), the second ends of which are connected to the water tank 23 of the loading mechanism. Then tightly close the door 6 using the lever locks 13. Close the valve 41. Open the valves 44 hot and cold 45 water and supply water to the mixer 40. Bring the water temperature in it to 34-37 ° C. The temperature of the water is controlled by a thermometer 43. The tap 41 is opened and warm water is supplied from the mixer 40 to the container 1, filling it to the level of the patient’s neck, i.e. on the shoulders of the patient. Close the valve 49 draining the water from the tank 23 of the loading mechanism. Open the valve 48 for supplying water to the tank 23 of the loading mechanism and smoothly supply water to it through a flexible hose 47. The load is monitored on a scale of the load indicator 32. Having collected the required load - the traction force set by the doctor, smoothly remove the water supply, closing the valve 48. Using a thermometer 8, the temperature of the water in the container 1 is monitored. The patient is kept under the traction load for the time specified by the doctor. After this, the load is gradually reduced by opening the drain valve 49. The drain valve 46 is opened from the tank 1. After draining, the locks 13 open the door 6. Disconnect the cable from the chest and lumbar spine fixation belts. The patient leaves the cab on floor 39 of the room. Both fixation belts - chest and pelvic are removed from the patient, a medical unloading corset is put on. The patient is placed on the couch and kept in a horizontal position the time specified by the doctor.

An advantage of the claimed device is that the patient is fixed with the help of the pelvic girdle to the cabin machines, a traction load is applied to the chest girdle of fixation of the spine. Such a solution unloads the patient from his own weight (in the well-known solutions, the patient hung with his whole weight and load of more than 40 kg on the shoulder pads throughout the procedure), because body weight is mainly fixed on the cab. The patient’s chest has a positive buoyancy component, which is offset by the weight of the head and neck above the water level. Therefore, the force created by the loading mechanism practically corresponds to the force applied to the patient’s spine.

In classical schemes, in particular, in the well-known analogue and prototype, when the patient is fixed by the shoulder girdle, the force acting on the spine consists of the weight of the patient’s entire body, the buoyancy force and created by the loading mechanism, which differs significantly from that indicated on the loading mechanism. In addition, the entire spine is stretched (both the sick and healthy departments), which creates unnecessary compression of healthy areas.

The proposed device allows you to apply tensile force in isolation only on the affected part of the spine, dosed load with a smooth increase at the beginning of the procedure and its smooth decrease at the end of the session, i.e. It is impossible to exceed the specified load on this device. Provides the freedom of manipulation of the maintenance staff when providing the patient with timely necessary assistance at any time of the session (if necessary, drain the water from the cab emergencyly, opening the locks on the rods and release the patient).

This device for underwater vertical traction of the spine is distinguished by the simplicity of the design in maintenance and operation, high reliability and durability, in addition, because the device is made in the form of a floor cabin, it can be used in ordinary rooms, in a small room on any floor and large production areas are not required, which allows it to be produced in bulk.

Claims (15)

1. A device for underwater vertical traction of the spine, comprising a container for water, a chest and pelvic girdle for fixing sections of the patient’s spine, a loading mechanism connected to at least one girdle for fixing the spine by means of a cable block system and having a load force indicator, characterized in that the tank for water it is made in the form of a cabin vertically mounted on the floor and open on top with a door with a porthole in it and means for sealing the door, the loading mechanism is made in the form of a ba with water and a counterweight, which can be freely moved by cables and rollers mounted on brackets in the upper part of the cab body, while the loading mechanism is connected to the chest fixing belt with two additional cables with rollers mounted on a U-shaped frame in the upper part of the body cabs, and the pelvic girdle fixation is fixed on the inner walls of the cab body. 2. The device according to claim 1, characterized in that the door sealing means is a U-shaped profile hermetically welded to the cabin body along the perimeter of the doorway with a rubber band and lever door locks with hinges that can adjust the gap between them. 3. The device according to claim 1, characterized in that the cabin body is made in a horizontal section rectangular, with rectangular walls and a door. 4. The device according to claim 1, characterized in that the cabin body is oval in horizontal section, with a wall and a door in horizontal section in the form of half rings. 5. The device according to claim 1, characterized in that it is equipped with a system for supplying cold and hot water through a mixer and a check valve, a system for draining waste water through valves. 6. The device according to claim 1, characterized in that the loading mechanism is located on the outer rear wall of the cab body and is connected to a water supply and discharge system. 7. The device according to claim 1, characterized in that it is equipped with means for controlling the water level in the cabin and in the tank of the loading mechanism. 8. The device according to claim 1, characterized in that the inside of the cabin is installed with the possibility of adjustable movement in height, depending on the height of the patient, the pallet floor. 9. The device according to claim 1, characterized in that the additional rollers are mounted on a U-shaped frame with the possibility of balancing the tension forces of the cables from two opposite sides of the chest belt. 10. The device according to claim 1, characterized in that it is equipped with a thermometer to control the temperature of the water. 11. The device according to claim 1, characterized in that the chest and pelvic girdles of fixation of the spine are made with the possibility of adjusting the volume in accordance with the size of the patient. 12. The device according to claim 1, characterized in that the cab body is made of a corrosion-resistant material, for example, steel 12X18H9T. 13. The device according to claim 1, characterized in that the loading mechanism is configured to load up to 50 kg of water in the tank. 14. The device according to claim 1, characterized in that the counterweight is made balancing the weight of the tank of the loading mechanism without water. 15. The device according to any one of claims 1 to 14, characterized in that the cabin in the device is filled with sea water or water containing radon, sodium chloride, iodine bromine or hydrogen sulfide.

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