RU2085172C1 - Apparatus for backbone traction - Google Patents

Abstract

FIELD: medical technics. SUBSTANCE: invention relates to technics designed for unloading backbone, prophylaxis and treatment of neurological manifestations of vertebral osteochondrosis. Apparatus contains basis 1 with stake 2 attached to it; traction mechanism, vibrator 7, and patient's attachment facilities. Basis is made as a straddle apt to be secured on horizontal surface under patient's weight. On the top of stake, traction mechanism - double-shoulder lever 4 is installed, one of its shoulders being formed with patient's attachment facilities allowing change of distance between them in horizontal plane, whereas end of the second counterbalancing shoulder connected with stake through spring supports vibrator. Such a design of apparatus makes possible backbone traction using constant effort with simultaneous mechanical vibration. EFFECT: simplified design and facilitated transportation. 3 cl, 1 dwg

Description

 The invention relates to medical equipment, namely, devices for the treatment of the spine, can be used for the prevention and treatment of neurological manifestations of osteochondrosis of the spine.

 Known devices for stretching the spine by stretching it with simultaneous mechanical vibration, for example a table for vibrotraction, on which the patient is located in a horizontal position and which contains the exhaust mechanism, vibrator, patient attachment element, base [1] Its disadvantage is cumbersome, limited use by stationary conditions medical facilities.

 The closest analogue is a device for treating the ligamentous-muscular apparatus of various parts of the body [2] It contains a base with a stand, an exhaust mechanism, a vibrator and a patient attachment element. Its disadvantages include the complexity of design and transportation.

 A comparative analysis of the analogue and the claimed device shows that they have the following common features: the presence of a base, strut, exhaust mechanism, vibrator and patient attachment elements. And the claimed device differs from the prototype in that the base to which the stand is attached is made in the form of a stand with the possibility of its fixation on a horizontal surface by the patient’s body weight. A fork-shaped two-arm lever, which is an exhaust mechanism, is installed on the upper end of the rack, one shoulder of which is formed by patient attachment elements with the possibility of changing the distance between them in the horizontal plane in accordance with the anthropometric indicator of the patient, and a vibrator is strengthened at the end of the second shoulder, which is counterbalanced. The counterweight arm of the lever with the possibility of rolling in a vertical plane is connected to the stand by means of a spring and a screw mechanism for adjusting and measuring the tensile force of the spring. The patient’s fastening elements are formed by axillary elements, which are mounted with their non-circular holes on the first bar of the corresponding section and whose elongated saddle ends are designed to contact the patient during the procedure, while the first bar is connected with its middle part to form the counterweight arm of the lever with a bar perpendicular to it.

 By increasing the height of the rack on the axillary elements, patient attachment elements used in the treatment of osteochondrosis of the cervical spine (for example, in the form of a Glisson loop) can be fixed.

 The drawing schematically shows a device, General view.

 The device comprises a base made in the form of a stand 1, a stand 2 attached to it with a screw 3 to change its height, a fork-shaped two-arm lever formed by axillary elements 4, a rod 5 and a rod 6 connected to it, which is a counterweight shoulder of the lever, a vibrator 7. The spring 8 is connected to the screw mechanism 9 and to the dynamometer 10. The device in the drawing is shown in working condition when the horizontal position of the lever with the vibrator 7 is provided by the patient's effort (not shown in the drawing) applied to the muscular elements. The articulation of the forked two-arm lever with the upper end of the strut 2 (it is not shown separately in the drawing, since it does not contain any novelty elements, but this articulation is simply not visible in the selected projection) allows this lever to swing in a vertical plane. In practical design, the mounting of the vibrator 7 on the rod 6 (in contrast to the schematic image) is carried out using a clutch rigidly connected to the structure of the vibrator 7 having a locking screw, the risk and the ability to move along the rod 6, the cross-sectional shape of which does not matter. On the rod 6 there is a scale calibrated in kilograms and allowing to determine the force transmitted through the axillary elements 4 to the patient and provided by the weight of the vibrator 7. When the stand 1 is fixed in the horizontal plane, the two-arm lever in the free position with the shoulder 6 rests on a compressed spring 8, the presence of which allows to reduce the weight of the vibrator while ensuring the necessary force transmitted through the axillary elements to the patient and directed upwards. With a certain range of efforts provided by the spring 8, the vibrator 7 can be rigidly fixed in one position on the shoulder 6 of the two-arm lever.

 The device operates as follows.

 First, the device is set up depending on the anthropometric data of the patient sitting on the stand 1 during the procedure. To do this, the possibilities of changing the height of the rack 2 and changing the distance between the axillary elements 4. Using the screw mechanism 9, as well as the possible movement of the vibrator 7 along the rod 6 , a constant component of the spinal traction effort is established. Then the vibrator 7 is turned on. The tensile forces of the spine through the rods 5 and 6 are transmitted to the axillary elements 4 pressed against the patient's body. Thus, the spine is stretched by constant force (due to the weight of the rod 6 with the vibrator 7 and the force of the spring 8) with simultaneous mechanical vibration.

 This embodiment of the device allows to simplify its design, transportation, to expand the scope of practical use. The device can be used to relax the ligamentous-muscular apparatus of the spine after intensive loads associated with physical work, sports exercises, for the prevention and treatment of neurological manifestations of osteochondrosis of the spine.

Claims (3)

 1. A device for stretching the spine, containing a base with a stand, an exhaust mechanism, a vibrator and patient attachment elements, characterized in that the base to which the stand is attached is made in the form of a stand with the possibility of its fixation on a horizontal surface by the patient’s body weight, at the upper end a fork-shaped two-arm lever is installed by the strut, one shoulder of which is formed by patient attachment elements with the possibility of changing the distance between them in a horizontal plane in tvetstvii with anthropometric parameters of the patient, and at the end of the second arm, which is a counterweight, fortified vibrator.  2. The device according to claim 1, characterized in that the counterweight arm of the lever with the possibility of swinging in a vertical plane is connected to the rack by means of a spring and a screw mechanism with the ability to adjust and measure the tensile force of the spring.  3. The device according to claims 1 and 2, characterized in that the patient's fastening elements are formed by axillary elements which, with their non-circular holes, are mounted on the first bar of the corresponding section and whose elongated saddle ends are designed to contact the patient during the procedure, the first bar its middle part is connected to the second rod forming the counterweight shoulder of the lever perpendicular to it.