RU2807564C1 - Electromechanical spinal traction apparatus - Google Patents

Abstract

FIELD: medical devices.

SUBSTANCE: electromechanical device for stretching the spine by stretching the body by the legs, installed on the user's bed, consists of a body, inside of which there is an electric motor, a reduction gear, a shaft, and a tension cord. The body is made in the form of a box and has external eyelets for installing at least one strap for fastening on the back of the bed. Inside the box there is an electric motor driven by an external control panel that rotates the reduction gear to reduce the speed of revolutions transmitted from the engine to the shaft winding the cord, the latter has one end for fixing on the shaft, and the other end with a carabiner for the H-shaped gripping legs for fixation on the user's body.

EFFECT: invention provides the possibility of improving the efficiency of the spinal traction process at home.

7 cl, 2 dwg

Description

The invention relates to medical equipment, and specifically to devices for spinal traction, and can be used for the prevention, rehabilitation and treatment of patients with neurological manifestations of cervical and thoracolumbar osteochondrosis of the spine.

Numerous devices are known for unloading and stretching the spine, in which the patient is in a standing, sitting or lying position. In this case, the patient is rigidly fixed to the device in the area of the feet, pelvic, shoulder girdle or head. The spinal stretching force created by the physical effort of the patient himself or his body weight, or with the help of an electric motor, is transmitted to the patient’s spine through a system of blocks and directed along the spinal column. Devices are also known that use solely the patient's body weight to create a tensile force. Most of these devices, due to their complexity, can only be used in medical hospitals. Mechanical products designed for home use use the user’s muscle strength, which limits the duration of the procedure to the physical capabilities of each individual person. In addition, the very physical tension of certain categories of muscles entails the impossibility of extreme relaxation, which is the goal of the spinal traction technique.

At the same time, scientific research on traction (stretching) of the spine states that, for the best result, immediately after the traction procedure, a person should remain in a horizontal, relaxed state of rest for at least 1.5-2 hours, and this factor alone radically affects the result of the procedure traction (Ya.Yu. Popelyansky “Dosed intermittent stretching of the lumbar spine on a horizontal plane”).

The problem to which the invention is aimed is to increase the efficiency of the spinal traction process, even for independent use at home, due to the patient's long stay at rest immediately after the traction procedure.

At the current level of science, a device for spinal traction is known (patent RU 2612842 C1), containing a housing, a control system consisting of a program-time block and a switching unit connected in series, an actuator, patient fastening elements kinematically connected to the actuator using a flexible connection , a displacement compensator and a vibrator located between the housing and the displacement compensator roller. The negative aspects of this product are that it cannot be used at home; it can only be used with the help of trained personnel. In addition, this product is not suitable for resting the patient, which means that after the procedure the user is forced to stand up and again put stress on the spine.

The invention is also known on the market: Device for underwater horizontal traction of the spine, patent RU 2465882 C2. This product is used in medical institutions and uses the body’s ability to gain weightlessness in water, which provides certain advantages over dry traction. It is a bathroom in which there is a table on which the patient sits and the traction procedure takes place, with the ability to go below the water level. The negative side of this product is the inability to use at home, as well as the need to get up after the procedure and thereby put stress on the spine immediately after the procedure. Which again reduces the effectiveness of the procedure itself.

The Chattanooga® TX™ Traction Unit product (https://canadaclinicsupply.com/product/chattanooga-tx-traction-unit/) was taken as a prototype of the proposed solution. It is a housing with a built-in electric motor, a pulling mechanism and a nylon cable. The disadvantage of this design is that it is used as an integral part of a more complex structure, and not as an independent device. Also, to use it, you need an assistant to set up the control unit, like previous products, this does not imply the possibility of use at home.

The technical result of the presented invention - an electromechanical device for traction of the spine by pulling the body by the legs with the possibility of installation on a bed, is improved efficiency of the process of traction of the spine at home.

The technical result is achieved by the following set of essential features - an electromechanical device for traction of the spine by pulling the body by the legs, installed on the user's bed, consisting of a housing, inside of which there is an electric motor, a gearbox, a shaft, a tension cord, characterized in that the housing is made in the form of a box and has external eyes for installing at least one belt for fastening on the headboard, inside the box there is an electric motor, which is driven by an external control panel and rotates the gearbox to reduce the speed of revolutions transmitted from the engine to the shaft that winds the cord, the latter has one end to be secured to the shaft, and the other end with a carabiner for an H-shaped leg grip to be secured to the user's body.

It is possible to design the device so that its body is made of metal. It is possible to design the apparatus in such a way that the outer lugs are located on different sides of the body for different installation options on the body of the user's bed. It is possible to design the device so that its electric motor is designed to use a battery. It is possible to design the device in such a way that the battery is located inside the device body. It is possible to design the device in such a way that the external control panel has a cable connection to the electric motor of the device. It is possible to design the apparatus in such a way that the gearbox is formed as an integral part of the shaft on which the cord of the apparatus is wound, stretching the user's body. It is possible to design the device so that its cord is made of synthetic materials and can be designed for a load of more than 100 kg.

At the end of the procedure, the person does not get up, but continues to lie down and can sleep peacefully. And in such a horizontal, relaxed state, metabolic processes in the bone and muscle tissues of the body occur as efficiently as possible. In addition, stretching occurs due to the friction force between the body and the bed, which means that a person will not be able to exceed the critical tension force and cause harm to himself, which allows the device to be used at home.

The technical essence of the proposed technical solution is illustrated by drawings, which do not cover, and certainly do not limit the entire scope of claims of this technical solution, but are only illustrative material for a particular case of implementation:

In FIG. Figure 1 shows a projection of an electromechanical apparatus for spinal traction. The device consists of a box body, on the body of the device there are eyes for a belt, a belt inserted into the eyes, inside the case there is a battery, an electric motor, an external control panel for the electric motor on a wire, a gearbox, a pulling shaft of the device, a cord, and a leg grip.

In FIG. Figure 2 shows an electromechanical apparatus for spinal traction in perspective. The image shows the housing box, eyelets, strap, cord and foot grip.

The structural elements listed above are made as follows: the body of the apparatus 1 is made in the form of a box with a metal frame, which has external eyes 9 for installing belts 8, with the help of which the apparatus is secured to the headboard of the bed; inside the box 1 there is a battery 2, which powers the electric motor 3. The electric motor is activated using an external control panel on wire 4, then, to reduce the rotation speed of shaft 6 and increase the tension power of cord 7, a reduction gear 5 is installed, the cord, being attached to the shaft, is wound onto it, and at the other end the cord has a carabiner for fastening to the foot grip 10 for fastening to the user's body.

The technical result described above with the help of the presented electromechanical apparatus for traction of the spine by pulling the body by the legs with the possibility of installation on the bed is implemented as follows: the belt of the apparatus is threaded through the back of the user's bed and fixed in the eyes of the apparatus, then the user, immediately before going to bed, fixes his legs in a foot grip, and he picks up a remote control panel for an electric motor; using the remote control, the user, being in a supine position, pulls the cord, which begins to pull the user’s body by the legs, while the friction force that arises between the user’s body and the bed causes the spine to stretch.

Claims (8)

1. An electromechanical device for traction of the spine by pulling the body by the legs, installed on the user’s bed, consisting of a housing, inside of which there is an electric motor, a gearbox, a shaft, a tension cord, characterized in that the housing is made in the form of a box and has external eyes for installation as at least one belt for fastening on the headboard, inside the box there is an electric motor, which is activated by an external control panel and rotates the gearbox to reduce the speed of revolutions transmitted from the engine to the shaft that winds the cord, the latter has one end for fastening to the shaft, and the other end with a carabiner for an H-shaped leg grip to secure it to the user's body. 2. The device according to claim 1, characterized in that its body is made of metal. 3. The device according to claim 1, characterized in that the external lugs are located on different sides of the body for various installation options on the body of the user’s bed. 4. The device according to claim 1, characterized in that its electric motor is designed to use a battery. 5. The device according to claim 4, characterized in that the battery is located inside the device body. 6. The device according to claim 1, characterized in that the external control panel has a cable connection to the electric motor of the device. 7. The device according to claim 1, characterized in that the gearbox is made as an integral part of the shaft on which the cord of the device is wound, pulling the user’s body. 8. The device according to claim 1, characterized in that its cord is made of synthetic materials and is designed for a load of more than 100 kg.

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