WO2020263130A1 - Spinal traction device - Google Patents

Abstract

The invention relates to medical equipment. The present device consists of a rectangular base to which are fastened two pairs of legs on each of the left side and the right side. Affixed to said legs from above is a rectangular structure, forming a parallel motion linkage. Rectangular frames are fastened to said rectangular structures. The parallel motion linkages are connected to one another by a centre transverse bar with a built-in hydraulic cylinder. A support with a synchronization mechanism is disposed in the centre of the base. Transverse supports are connected from above by an articulated linkage in the form of a scissors mechanism. Above a main frame and the rectangular frames there is mounted a rectangular board. A viscoelastic polyurethane foam is arranged thereabove. The invention makes it possible to perform spinal traction on apparently healthy persons for prophylactic purposes as well as on persons with disorders of the spine or other organs of the musculoskeletal system, and to provide a uniform and controlled load.

Description

SPINE EXTENSION DEVICE

DESCRIPTION

The invention relates to medicine and medical technology, and more specifically to means for therapeutic and mechanical effects on the spine.

The device for stretching the spine contains a frame of longitudinal and transverse slats, one of which can rotate to change the distance between the elbow rests. The slewing ledge is secured with an adjusting strap. Elastic rods are attached to the transverse slats of the frame, designed to create a traction force. The hip belt is connected to the elastic rods by means of slings. The slings have a badge and can be adjusted in length. Elbow rests and longitudinal strips have support cushions for softer contact with the forearm (RU 148673 U1 10.12.2014).

The device contains a couch, a unit for traction of the lumbar spine, elements for fixing a patient, a hollow body, a unit for traction of the cervical spine, two limit switches, a removable bridge, a control unit, a control panel, a strain gauge, two thermal effect elements, a lock for the angle of rotation of the pelvic section, two adjustable patella height and transport unit. The couch consists of a chest and pelvic sections, made in the form of metal frames, on which platforms are installed, sheathed with artificial turf on top, and the platform of the pelvic section is equipped with rollers that provide longitudinal movement along the X axis. The pelvic section is equipped with a hinge installed in the longitudinal plane of the couch and provides its rotation about the vertical axis Z. The hollow body is installed on the base, and the couch is placed on this body and is equipped with a head section, also made in the form of a metal frame and on which there is a platform sheathed with artificial turf on top and hingedly connected to the chest section of the couch. The cervical spine traction unit is located on the head section and is formed by a platform, which is connected to a metal cable through a traction lever placed in a bushing with a fixing screw, and is also formed by a flat head support, a fixing strap, two occipital wedges made with the possibility of changing the distance between them, and a head section tilt angle lock, consisting of a gas spring and an end handrail. The two limit switches are integrated in the corresponding through-slots in the can section. A removable jumper is placed, if necessary, in one of the two grooves of this section and thus ensures the presence / absence of a mechanical connection between the electric drive and the pelvic section. The control unit is integrated into the hollow body. The control panel and the emergency button are made remote and connected through appropriate cables to the control unit. The load cell has a mechanical input that interacts with the electric drive, and the electrical output is connected to the control unit. Two thermal elements are built into the platforms of the chest and pelvic sections and connected to the control unit. The lock for the angle of rotation of the pelvic section is located between the chest and pelvic sections. Two height-adjustable knee pads with a common stand connect them to the platform of the pelvic section. The fixation elements of the thoracic and lumbar spine, as well as the joints of the lower extremities, are made in the form of fastening belts equipped with traction belts. The lumbar spine traction unit is formed by an electric drive, a slide placed on the guides and interacting with this electric drive, two traction levers and a bracket, one end of which is rigidly connected to the slide and the other end with a metal cable, and the base is equipped with a transport unit. The transport unit contains two support wheels and two support washers installed at the ends of a transverse axis lying in a vertical plane and passing through the center of gravity of the device, a lifting-lowering lever with a shaft built into the base and also lying in the specified vertical plane, two eccentrics, rigidly connected with the shaft of the lifting-lowering lever, two bushings fixed on the base and equipped with pushers rigidly connected to the support washers and interacting with the corresponding eccentrics (RU 2612842 C1 13.03.2017).

The disadvantages of the known devices are as follows: first, a number of devices require an assistant. Secondly, the known devices have a complex structure and large dimensions. Thirdly, the known devices often injure the fixed patient. The objective of the invention is to provide a small-sized, efficient and easy-to-use device for stretching the spine, convenient and safe to use, does not require an assistant, and has enhanced operational capabilities.

The technical result of the invention is to create a convenient device suitable for use at home, which can be used both by practically healthy people, for the purpose of prophylaxis, and by persons with diseases of the spine or other organs of the musculoskeletal system. In addition, the device allows for a uniform and dosed load on the spine. The proposed device can be used without assistants in any setting, without control panels and patient fixation, while stretching the spine effortlessly due to gravity is provided.

The specified technical result is achieved by the device for stretching the spine has the following design features. The device for stretching the spine is made in the form of a single bed.

The device contains a rectangular base (1), on which two pairs of legs (2) on the right and left are fixed, forming inner and outer pairs of legs, at an acute angle to the base. At the same time, rectangular structures (3) are fixed from each side to the four legs from above, connecting these four legs, forming a parallelogram mechanism with the possibility of spring-loaded movement. Rectangular structures form two pairs of transverse supports, two internal (4) and two external (5). On rectangular structures, rectangular frames are fixed on both sides, which are half the size of rectangular structures. In this case, these rectangular frames (14) are located above the outer legs - the length, and their width reaches the projection on the rectangular structure of the middle of the distance between the outer and inner legs. In addition, the top of the inner legs is connected by a gas lift (6) to the bottom of the outer legs. Parallelogram mechanisms are interconnected by a central crossbar (7), in which a hydraulic cylinder is built. In the center of the base there is a support on which the synchronization mechanism (16) is fixed, connected to a reverse acting hydraulic cylinder (9) with a return mechanism, filled with hydraulic oil, which slows down the stretching of the device. In this case, the speed of movement of the hydraulic cylinder rod is controlled by the fine-tuning throttle, the fine-tuning throttle regulator is brought out to the side of the device, and regulates the stretching speed (23). The hydraulic cylinder also contains a tee (17), a hose (18), a check valve (19) and an oil reservoir (20). The inner transverse supports from above are connected on both sides by a hinge-lever mechanism in the form of Nyurberg scissors (10). The upper part of the specified rectangular structures of the parallelogram mechanism is represented by a linear guide (11) for moving the rollers. Between the rectangular frames, the main frame (12) is installed on the rectangular structures of the parallelogram mechanism. The lower part of the main frame is equipped with rollers for moving along the counterpart of the rectangular structures of the parallelogram mechanism of the linear guide. The upper part of the frame has linear guides. On top of the main frame and rectangular frames, a rectangular shield with lamellas (8) is installed; on the lower part of the rectangular shield there are rollers for moving along the counterpart of the main frame and rectangular frames of linear guides. From the bottom to the lamellas along the long sides of the rectangular shield are attached the central hinges of the hinge-lever mechanism in the form of Nyurberg scissors (10). Visco-elastic polyurethane foam (15) is installed on top of the rectangular shield with lamellas.

In addition, if necessary, the device for stretching the spine must be equipped with a heating device. The specified heating device is represented by heating elements (21), which can be installed on the upper plane of the lamella, in the middle of the length of the lamella, namely, between the lamellae and viscoelastic polyurethane foam. The heating elements operate from a constant power supply, and are equipped with a temperature control unit, which is located between the heating element and the power supply, which converts the 220 V AC to 12 V. Said heating elements operate at a low voltage of 12 volts and are equipped with an emergency shutdown mechanism to prevent the possibility of overheating or fire. Heating temperature from 30 to 60 degrees. Connection diagram: Power supply-regulator-heating element, spiral wires are used for connection. Along with the above, the device can be supplemented with vibration motors (22) to perform vibration massage if not necessary, while the vibration massage device (vibration motors) and heating can be installed both together and separately.

In this case, the vibration motors are attached to the lamellas from the bottom. On the lower plane of the lamella, in the middle. Power consumption 12 Volts. Connection diagram: Power supply - regulator - vibration motor, while spiral wires are used for connection.

When installing a viromassage device simultaneously with a heating device, I install them on one power supply, a 220 V to 12 V voltage converter.

These vibration motors alternate with heating elements on the lamellas. At the same time, their regulators (24 and 25) are installed in the middle on the side of the device so that the person lying can freely reach him with his hand.

All device functions can work independently of each other. That is, you can turn on the vibration massage function without stretching the device, or heating, you can turn on all functions at the same time. The most basic function, stretching (lengthening) of the device, works due to the weight of a person, does not require electricity. For other functions, power is required.

The throttle (pulling speed) regulator is mechanical.

The regulator of temperature and vibration massage is electronic, it may even be more correct to call it a control unit. The heating will turn on / off and the temperature will be adjusted from 30 to 60 degrees. Vibratory massage will be on / off and have several modes.

The proposed device works as follows. The patient lies down on the spinal traction device, independently without anyone's help, the patient is not fixed with anything. Then, under the influence of the patient's weight, the parallelogram mechanisms, the hydraulic cylinder, the synchronization mechanism and the hinge-link mechanism in the form of Nyrberg scissors and the device begins to lengthen. The task of the hydraulic cylinder is to slow down the stretching of the bed.

Example 1 of a specific implementation of a device for stretching the spine.

A rectangular base (1) is chosen, on which two pairs of legs are fixed on the right and left (2), forming inner and outer pairs of legs, at an acute angle of 45 ° to the base. At the same time, rectangular structures (3) are fixed from each side to four legs from above, connecting the four legs, forming a parallelogram mechanism with the possibility of spring-loaded movement. Rectangular structures form two pairs of transverse supports, two internal (4) and two external (5). On rectangular structures, rectangular frames are fixed on both sides, which are half the size of rectangular structures. The top of the inner legs is connected with a gas lift (6) to the bottom of the outer legs. Parallelogram mechanisms are interconnected by a central crossbar (7), in which a hydraulic cylinder is built. In the center of the base, a synchronization mechanism (16) is fixed on the support, which is connected to a reverse-acting hydraulic cylinder (9) with a return mechanism filled with hydraulic oil, which slows down the stretching of the device. In this case, the speed of movement of the hydraulic cylinder rod is controlled by the fine-tuning throttle, the fine-tuning throttle regulator is brought out to the side of the device, and regulates the stretching speed (23). The hydraulic cylinder also contains a tee (17), a hose (18), a check valve (19) and an oil reservoir (20). Internal transverse supports from above are connected from two sides with a hinge-lever mechanism in the form of Nyurberg scissors (10). The upper part of the rectangular structures of the parallelogram mechanism is represented by a linear guide (11) for moving the rollers. Between the rectangular frames, the main frame (12) is installed on the rectangular structures of the parallelogram mechanism. The lower part of the main frame is equipped with rollers for moving along the counterpart of the rectangular structures of the parallelogram mechanism of the linear guide. The upper part of the frame has linear guides. On top of the main frame and rectangular frames, a rectangular shield with lamellas (8) is installed on the lower part of the rectangular shield there are rollers for moving along the counterpart of the main frame and rectangular frames of linear guides. From the bottom to the lamellas along the long sides of the rectangular shield are attached the central hinges of the hinge-lever mechanism in the form of Nyurberg scissors (10). Visco-elastic polyurethane foam (15) is installed on top of the rectangular shield with lamellas. Then the patient is placed on the resulting structure and the body weight activates the synchronization mechanism, parallelogram mechanisms, articulating-lever mechanism in the form of Nyurberg scissors and a hydraulic cylinder; the device begins to stretch, and stretches from 1 to 120 mm minimum, with the stretching speed being controlled by the fine tuning throttle. That will allow you to carry out a uniform and dosed load on the spine. Demonstrates the possibility of using devices without assistants in any setting, without control panels and patient fixation, while stretching the spine effortlessly due to gravity is provided.

Example 2 of a specific implementation of a device for stretching the spine.

A rectangular base (1) is chosen, on which two pairs of legs are fixed on the right and left (2), forming inner and outer pairs of legs, at an angle of 90 ° to the base. At the same time, rectangular structures (3) are fixed from each side to four legs from above, connecting the four legs, forming a parallelogram mechanism with the possibility of spring-loaded movement. Rectangular structures form two pairs of transverse supports, two internal (4) and two external (5). On rectangular structures, rectangular frames are fixed on both sides, which are half the size of rectangular structures. The top of the inner legs is connected with a gas lift (6) to the bottom of the outer legs. Parallelogram mechanisms are interconnected by a central crossbar (7), in which a hydraulic cylinder is built. In the center of the base, a synchronization mechanism (16) is fixed on the support, which is connected to a reverse-acting hydraulic cylinder (9) with a return mechanism filled with hydraulic oil, which slows down the stretching of the device. In this case, the speed of movement of the hydraulic cylinder rod is controlled by the fine-tuning throttle, the fine-tuning throttle regulator is brought out to the side of the device, and regulates the stretching speed (23). The hydraulic cylinder also contains a tee (17), a hose (18), a check valve (19) and an oil reservoir (20). Internal transverse supports from above are connected on both sides with a hinge a lever mechanism in the form of Nyrberg scissors (10). The upper part of the rectangular structures of the parallelogram mechanism is represented by a linear guide (11) for moving the rollers. Between the rectangular frames, the main frame (12) is installed on the rectangular structures of the parallelogram mechanism. The lower part of the main frame is equipped with rollers for moving along the counterpart of the rectangular structures of the parallelogram mechanism of the linear guide. The upper part of the frame has linear guides. On top of the main frame and rectangular frames, a rectangular shield with lamellas (8) is installed on the lower part of the rectangular shield there are rollers for moving along the counterpart of the main frame and rectangular frames of linear guides. From the bottom to the lamellas along the long sides of the rectangular shield are attached the central hinges of the hinge-lever mechanism in the form of Nyurberg scissors (10). Visco-elastic polyurethane foam (15) is installed on top of the rectangular shield with lamellas. Then the patient is placed on the resulting structure and the body weight activates the synchronization mechanism, parallelogram mechanisms, a hinge-lever mechanism in the form of Nyurberg scissors and a hydraulic cylinder; since the angle of the legs was 90 °, stretching of the device does not occur, which demonstrates the operation of the device, only if the acute angle of the legs to the base is observed.

The device is illustrated by drawings of FIG. 1-4, where: 1 - rectangular base; 2 - legs; 3 - rectangular structure; 4 - internal transverse supports; 5 - external transverse supports; 6 - gas lift; 7 - central crossbar; 8 - rectangular shield with lamellas; 9 - reverse acting hydraulic cylinder; 10 - a hinge-lever mechanism in the form of Nyurberg scissors; 11 - linear guide; 12 - main frame; 13 - fine tuning choke; 14 - rectangular frames; 15 - viscoelastic polyurethane foam; 16 - synchronization mechanism; 17 - tee; 18 - hose; 19 - check valve; 20 - oil reservoir; 21 - heating elements; 22 - vibration motors; 23 - stretching speed regulator; 24 - temperature regulator; 25 - vibration massager regulator.

Claims

Spine Traction Formula

1. The device for stretching the spine is made in the form of a single bed, characterized in that it consists of a rectangular base on which two pairs of legs are fixed on the right and left, forming inner and outer pairs of legs, at an acute angle to the base; on each side, a rectangular structure is fixed to the four legs from above, connecting these four legs, forming a parallelogram mechanism with the possibility of spring-loaded movement, rectangular structures form two pairs of transverse supports, two internal and two external; on rectangular structures, rectangular frames are fixed on both sides, which are half the size of rectangular structures, their length is located above the outer legs, and their width reaches the projection on the rectangular structure of the middle of the distance between the outer and inner legs; the top of the inner legs is connected by a gas lift to the bottom of the outer legs; the parallelogram mechanisms are interconnected by a central crossbar, into which a hydraulic cylinder is built; in the center of the base there is a support on which a synchronization mechanism is fixed, connected to a reverse-acting hydraulic cylinder with a return mechanism, filled with hydraulic oil, the speed of the hydraulic cylinder rod is controlled by a fine-tuning throttle; the inner transverse supports from above are connected on both sides by a hinge-lever mechanism in the form of Nuremberg scissors; the upper part of said rectangular structures of the parallelogram mechanism is represented by a linear guide for moving the rollers; between the rectangular frames on the rectangular structures of the parallelogram mechanism, the main frame is installed, the lower part of the main frame is equipped with rollers for moving along the counterpart of the rectangular structures of the parallelogram mechanism of the linear guide; the upper part of the main frame has linear guides; on top of the main frame and rectangular frames a rectangular shield with lamellas is installed, on the lower part of the rectangular shield with lamellas there are rollers for moving along the counterpart of the main frame and rectangular frames of linear guides; from below to the lamellas along the long sides of the rectangular shield are attached central

SUBSTITUTE SHEETS (RULE 26) hinges of the linkage mechanism in the form of Nuremberg scissors; Viscoelastic polyurethane foam is installed on top of the rectangular panel with lamellas.

2. The device according to claim. 1, characterized in that it is equipped with a heating device, represented by heating elements installed in the upper plane of the lamella, in the middle of the length of the lamella, between the lamellae and viscoelastic polyurethane foam.

3. A device according to claim 1 or 2, characterized in that it is equipped with a device for vibration massage, represented by vibration motors, fixed on the lower plane of the lamella, in the middle.

SUBSTITUTE SHEETS (RULE 26)