JP3245270U - Bionic skeleton lumbar decompression device - Google Patents

Abstract

The present invention provides a bionic skeleton lumbar decompression device that reduces pressure on the lumbar vertebrae, allows for movements such as rotation and flexion, and promotes recovery from lumbar disc herniation. A bionic skeleton lumbar spinal decompression device is provided with a thoracic fixing device 1 that can be wrapped around the patient's chest and fixed, and a lumbar fixing device 2 that can be wrapped and fixed around the patient's waist, There is a bionic spine 3 that supports the chest fixture, and the bionic spine includes a thoracic joint block with one end connected to the chest fixture, a lumbar joint block 32 with one end connected to the lumbar fixture, and a lumbar joint block. and a plurality of support joint blocks 33 connected from bottom to top between the support joint block and the thoracic joint block, the lowest support joint block and the lumbar joint block, the uppermost support joint block and the thoracic joint block, and Adjacent support joint blocks are all connected by a universal ball. [Selection diagram] Figure 1

Description

The present invention relates to a bionic skeleton lumbar decompression device.

Lumbar spondylolisthesis is a common disease that seriously affects people's ability to work and live. It is caused by excessive pressure on the lower back due to obesity, weight bearing, prolonged sitting, and incorrect posture. Such diseases can have a negative impact on a patient's daily work and life, and can particularly cause lumbar disc herniation.
In clinical practice, doctors often recommend patients to rest on a hard bed to avoid standing for long periods of time, which can worsen lower back symptoms, but patients often sit in bed for long periods of time due to work, etc. Since this is not possible, an artificial abdominal girth is used. It stabilizes the entire lumbar vertebrae so that they do not move, reducing damage to the lumbar vertebrae. However, the current abdominal circumference is fixed by wrapping around the entire waist, making it impossible to change or bend the waist, which limits patients' activities and makes life inconvenient.
Therefore, the present invention has been made in view of the above-mentioned drawbacks.

The purpose of the present invention is to provide a bionic skeleton lumbar decompression device that overcomes the shortcomings of existing technology, relieves pressure on the patient's lumbar spine, and allows the patient to turn and bend.

The present invention is realized through the following technical measures.

A bionic skeleton lumbar spinal decompression device comprising a thoracic fixing device 1 that can be wrapped around the chest of a patient and fixed, and a lumbar fixing device 2 that can be wrapped and fixed around the waist of the patient, the thoracic fixing device 1 The bionic spine 3 supporting the lumbar region fixing device 2 and the thoracic fixing device 1 is provided between the bionic spine 3 and the thoracic joint block 31 whose one end is connected to the thoracic fixing device 1, and It includes a lumbar joint block 32 connected to the lumbar fixation device 2, and a plurality of support joint blocks 33 connected from bottom to top between the lumbar joint block 32 and the thoracic joint block 31. The joint block 33 and the lumbar joint block 32, the uppermost support joint block 33 and the thoracic joint block 31, and the adjacent support joint block 33 are all connected by a universal ball 4.

The bionic skeleton lumbar decompression device is provided with a universal ball 4 at both ends of the support joint block 33, and a spherical groove 5 that allows one end of the adjacent universal ball 4 to be extended and slidably fitted. The thoracic joint block 31 is provided with a universal ball 4 that slides on the spherical groove 5 on the adjacent support joint block 33, and the lumbar joint block 32 is provided with a universal ball 4 that slides on the spherical groove 5 on the adjacent support joint block 33. A movable spherical groove 5 is provided, and between the thoracic joint block 31 and the lumbar joint block 32 there is a connecting piece 6 that connects a plurality of supporting joint blocks 33 in series, and the connecting piece 6 is a universal ball. It passes through the center of 4.

In the bionic skeleton lumbar decompression device, four vertical grooves 7 communicating with the spherical groove 5 are provided along the circumferential direction on the outer periphery of the spherical groove 5, and the outer wall of the universal ball 4 has vertical grooves 7. 7 is provided with four rocking pieces 8 inserted one by one along the circumferential direction, and a rocking piece 8 is provided between the portion of the rocking piece 8 inserted into the vertical groove 7 and the vertical groove 7. A gap is provided for the piece 8 to swing.

In the bionic skeleton lumbar decompression device, the support joint block 33 is provided with a through hole 331 passing through the universal ball 4 and the spherical groove 5, the connecting piece 6 is a steel wire, and one end of the steel wire has a plurality of holes. The other end of the steel wire is connected to the thoracic joint block 31 through the through holes 331 of the plurality of support joint blocks 33.

In the bionic skeleton lumbar decompression device, the thoracic joint block 31 is fixedly connected to the thoracic fixture 1, the lumbar joint block 32 is movably connected to the lumbar fixture 2, and the lumbar joint block 32 is movably connected to the lumbar fixture 2. An adjustment device 9 is provided between the lumbar joint block 32 and the lumbar joint block 32 to adjust the distance between the lumbar region fixing device 2 and the chest fixing device 1 by driving the lumbar joint block 32 up and down.

In the bionic skeleton lumbar decompression device, a mounting base 10 is provided on the outside of the lumbar fixation member 2, a slide cavity 101 is provided on the mounting base 10, and the adjustment device 9 is mounted on the lumbar joint block 32. A rack 91 is arranged and one end of which can be slidably inserted into the slide cavity 101, and a drive device 92 that drives the rack 91 to slide the waist joint block 32 up and down.

In the bionic skeleton lumbar decompression device, the mounting base 10 is provided with a mounting cavity 102 connected to a slide cavity 101, and a drive device 92 is rotatably provided in the mounting cavity 102 and is connected to the rack 91. The adjustment knob 922 includes a meshing gear 921 and an adjustment knob 922 that is rotatably provided on the mounting base 10 and, when the gear 921 rotates, the gear 921 drives the rack 91 to slide up and down along the slide cavity 101. .

In the bionic skeleton lumbar decompression device, the lumbar fixation device 2 and the thoracic fixation device 1 are elastic split ring bodies, and the fixation device 30 is tightened in the opening of the split ring body, and the split ring body is attached to the patient using both ends. Fix it.

The bionic skeleton lumbar spinal decompression device is characterized in that an airbag 40 is provided inside the open ring main body, and can be attached to the patient by enveloping it when inflated, and the airbag 40 is provided with a device. . The air tube 50 connected to the air bag 40 is used to inflate the air bag 40 or to deflate the air bag 40. be done.

In the bionic skeleton lumbar decompression device, the fixing device 30 includes a buckle 301 fixed to one end of the split ring body, a fixing strap 302 having one end fixed to the other end of the split ring body, and a fixing strap 302. A first Velcro 303 provided at the other end, and a second Velcro 304 located on the side of the fixing strap 302 and bonded to the first Velcro 303 after the end of the fixing strap 302 passes through the buckle 301. It is equipped with

Compared with existing technology, the present invention has the following advantages:
1. The present invention is fixed to the hip through the lumbar fixation device, the thoracic fixation device is fixed to the chest, and there is an adjustable and movable bionic spine between the lumbar fixation device and the thoracic fixation device, and a bionic skeleton. The lumbar decompression device can lift the patient's upper body, reduce the pressure on the lumbar vertebrae, and perform movements such as rotation and flexion, without affecting the patient's daily life or work, and can improve the recovery of lumbar disc herniation. Facilitate.
2. The present invention allows the lumbar joint block to be moved up and down through the adjustment device to adjust the distance between the lumbar fixation device and the thoracic fixation device, thereby adjusting the length of the living spine. This allows the bionic spine to function properly in patients of different body lengths by meeting the following needs:
3. In this invention, the airbag is attached to the inside of the chest fixture and waist fixture, and when the fixing device is used to adjust the tightness of the chest fixture and waist fixture, the airbag after filling will be attached to the human body. It is designed to fit. It also improves patient comfort as it contains the right amount of gas, fits better to the human body, and secures the chest brace and lumbar brace to the patient's body.

FIG. 1 is a first three-dimensional diagram of the present invention; FIG. 3 is a second three-dimensional diagram of the present invention; FIG. 3 is a first schematic diagram of the exploded structure of the present invention; FIG. 3 is a second schematic diagram of the exploded structure of the present invention; FIG. 3 is a schematic diagram of the connection structure between adjacent support joint blocks of the present invention;

The invention will be further described below in conjunction with the accompanying drawings.
As shown in FIGS. 1 to 5, the bionic skeleton lumbar decompression device includes a thoracic fixing device 1 that can be wrapped around the patient's chest and fixed, and a lumbar fixing device 2 that can be wrapped and fixed around the patient's lower back. A bionic skeleton lumbar decompression device comprising: a bionic spine 3 supporting the thoracic fixing device 1 is provided between the lumbar fixing device 2 and the thoracic fixing device 1; A thoracic joint block 31 whose one end is connected to the thoracic fixator 1, a lumbar joint block 32 whose one end is connected to the lumbar fixator 2, and a space between the lumbar joint block 32 and the thoracic joint block 31 from bottom to top. The lowermost support joint block 33 and the lumbar joint block 32, the uppermost support joint block 33 and the thoracic joint block 31, and the adjacent support joint block 33 are are also connected by a universal ball 4. The thoracic fixation device 1 and the lumbar fixation device 2 are made of polyethylene and have an elastic hard plastic shell structure to shape the human body mechanism, and the bionic spine 3 can be made of stainless steel and is made of polyethylene to shape the human body mechanism. Designed to mimic a multilayer laminate structure. The present invention is fixed to the hip via a lumbar fixing device 2, a thoracic fixing device 1 is fixed to the chest, and an adjustable and movable bionic spine 3 is arranged between the lumbar fixing device 2 and the thoracic fixing device 1. has been done. The bionic skeleton lumbar decompression device can lift the patient's upper body, reduce pressure on the lumbar vertebrae, and perform movements such as rotation and flexion, without affecting the patient's daily life or work, and prevents lumbar disc herniation. promote recovery.

Specifically, both ends of the support connection block 33 are provided with spherical grooves 5 into which the universal balls 4 and one ends of adjacent universal balls 4 are slidably fitted. A universal ball 4 is slidably fitted into the waist joint block 32, and a spherical groove 5 into which the universal ball 4 is slidably fitted is provided in the adjacent support joint block 33. Between each block 32, a connecting piece 6 that connects a plurality of support joint blocks 33 in series passes through the center of the universal ball 4. A similar rotational effect can also be obtained by providing a spherical groove in the thoracic joint block 31 and a universal ball in the lumbar joint block 32.

Specifically, on the outer periphery of the spherical groove 5, four vertical grooves 7 are provided along the circumferential direction and are connected to the spherical groove 5, and on the outer wall of the universal ball 4, the vertical grooves 7 are formed in the circumferential direction. Four rocking pieces 8 are provided which are inserted one by one along the vertical groove, and between the vertical groove 7 and the portion of the rocking piece 8 that is inserted into the vertical groove 7, the rocking piece 8 swings. A gap is provided for this purpose. The width of the longitudinal groove 7 is greater than the thickness of the rocking piece 8, and when the patient needs to change direction, each joint can rotate through a small angle around the vertical axis, and the combination of multiple joints allows , the chest fixator 1 can be rotated in the horizontal direction, realizing a rotation function. Since the length of the longitudinal groove 7 extending outward is longer than the length extending outward of the guide slider 8, each joint can rotate back and forth and left and right about the horizontal axis when the patient needs to bend forward. By combining a plurality of joints, the thoracic fixing device 1 can freely bend in space relative to the lumbar fixing device 2, and can realize a bending function.

The support joint block 33 is provided with a through hole 331 passing through the universal ball 4 and the spherical groove 5, the connecting piece 6 is a steel wire, and one end of the steel wire is connected to the through hole 331 of the plurality of support joint blocks 33. The other end of the steel wire is connected to the thoracic joint block 31 through the through holes 331 of the plurality of support joint blocks 33. The connecting member 6 may be a string made of a high strength material such as a high performance fiber string.

As shown in FIG. 2, the thoracic joint block 31 is fixedly connected to the thoracic fixture 1, and the lumbar joint block 32 is movably connected to the lumbar fixture 2. An adjustment device 9 is provided between the joint block 32 and the adjusting device 9 which can drive the waist joint block 32 up and down to adjust the distance between the waist fixture 2 and the chest fixture 1. The present invention adjusts the length of the living spine by driving the lumbar joint block 32 up and down via the adjustment device 9 and adjusting the distance between the lumbar region fixing device 2 and the thoracic fixing device 1. This allows the bionic spine to be used very efficiently, accommodating the needs of patients of different body lengths.

Specifically, a mounting base 10 is provided on the outside of the waist fixture 2 and is fixedly connected to the waist fixture 2 via a rivet or the like. Reference numeral 9 denotes a rack 91 that is disposed on the waist joint block 32 and whose one end can be slidably inserted into the slide cavity 101, and a drive device that drives the rack 91 to slide the waist joint block 32 up and down. 92.

Specifically, the mounting base 10 is provided with a mounting cavity 102 that communicates with the slide cavity 101, and the drive device 92 is rotatably provided within the mounting cavity 102 and includes a gear 921 that meshes with the rack 91. and an adjustment knob 922 which is rotatably provided on the mounting base 10 and which drives the rack 91 to slide up and down along the slide cavity 101 when the gear 921 rotates. When the adjustment knob 922 is rotated, the gear 921 rotates, and the gear 921 rotates and engages with the rack 91 to adjust the length of the rack 91 protruding from the slide cavity 101 and further move the waist joint block 32 upward. , or by moving downward to control the distance from the waist fixture 2 and the chest fixture 1.

In the present invention, the lumbar region fixing device 2 and the chest fixing device 1 are elastic split ring bodies, and a split ring body is attached to the opening of the split ring body to tighten and fix both ends of the split ring body. A fixing device 30 is provided. The human body has different thorax and waist circumferences depending on age, gender, and weight. Adhesion with the ingredient 1 is improved. The fixture 1 is adapted to different body types and is used by people of different body types.

Furthermore, an airbag 40 is provided inside the split ring body and can be worn by enveloping a patient when inflated. An air tube 50 is provided which is used to remove gas from the air bag 40 in order to deflate the air bag 40. Since the chest fixing part 1 and the waist fixing part 2 are lined with an airbag 40, a fixing device 30 is used to adjust the tightness of the chest fixing part 1 and the waist fixing part 2, and an air tube is attached to the airbag 40. 50, the airbag 40 is connected to the airbag 40. Once the appropriate amount of gas is inflated by the air pump, the airbag 40 can be installed. To fit the human body, to better fix the chest fixing part 1 and the waist fixing part 2 to the patient's body, and to make the patient's experience more comfortable.

Specifically, the fixing device 30 includes a buckle 301 fixed to one end of the split ring body, a fixing strap 302 having one end fixed to the other end of the split ring body, and a fixing strap 302 provided at the other end of the fixing strap 302. A second Velcro 304 is located on the side of the fixing strap 302 and is adhered to the first Velcro 303 after the end of the fixing strap 302 passes through the buckle 301. In use, after the free end of the fixing strap 302 has passed through the buckle, the tightness can be adjusted by the cooperation of the first Velcro 303 and the second Velcro 304.

Claims (10)

A bionic skeleton lumbar spinal decompression device comprising a thoracic fixing device (1) that can be wrapped around the patient's chest and fixed, and a lumbar fixing device (2) that can be wrapped and fixed around the patient's waist, the device comprising: A bionic spine (3) supporting the chest fixture (1) is provided between the waist fixture (2) and the chest fixture (1), and one end of the bionic spine (3) supports the chest fixture (1). A thoracic joint block (31) connected to the device (1), a lumbar joint block (32) whose one end is connected to the lumbar fixation device (2), a lumbar joint block (32) and a thoracic joint block (31). Including a plurality of support joint blocks (33) connected from bottom to top between them, the lowest support joint block (33), the waist joint block (32), and the top support joint block (33). A bionic skeleton lumbar decompression device characterized in that the thoracic joint block (31) and the adjacent support joint block (33) are all connected by a universal ball (4). Both ends of the support joint block (33) are provided with a universal ball (4) and a spherical groove (5) that allows one end of the adjacent universal ball (4) to be extended and slidably fitted into the chest. The joint block (31) is provided with a universal ball (4) that slides with the spherical groove (5) on the adjacent support joint block (33), and the lumbar joint block (32) is provided with a universal ball (4) that slides with the spherical groove (5) on the adjacent support joint block (33). A spherical groove (5) that slides on the universal ball (4) on the block (33) is provided, and a plurality of supporting joint blocks ( 33) in series in sequence, the connecting piece (6) passing through the center of the universal ball (4). Skeleton lumbar decompression device. Four vertical grooves (7) communicating with the spherical groove (5) are provided along the circumferential direction on the outer periphery of the spherical groove (5), and vertical grooves (7) are provided on the outer wall of the universal ball (4). 7) are provided with four rocking pieces (8) that are inserted one by one along the circumferential direction, and the portion of the rocking piece (8) inserted into the vertical groove (7) and the vertical groove ( 3. The bionic skeleton lumbar decompression device according to claim 2, characterized in that a gap is provided between the rocking piece (8) and the rocking piece (8). The support joint block (33) is provided with a through hole (331) passing through the universal ball (4) and the spherical groove (5), the connecting piece (6) is a steel wire, and one end of the steel wire is connected to the waist joint block (32) through the through holes (331) of the plurality of support joint blocks (33), and the other end of the steel wire is connected to the through hole (331) of the plurality of support joint blocks (33). Bionic skeleton lumbar decompression device according to claim 2, characterized in that it is connected to the thoracic joint block (31) through the thoracic joint block (31). The thoracic joint block (31) is fixedly connected to the thoracic fixture (1), and the lumbar joint block (32) is movably connected to the lumbar fixture (2), and the lumbar joint block (32) is movably connected to the lumbar fixture (2). 2) and the lumbar joint block (32), there is an adjustment device (9) that can drive the lumbar joint block (32) up and down to adjust the distance between the lumbar fixation device (2) and the chest fixation device (1). The bionic skeleton lumbar decompression device according to claim 1, characterized in that: A mounting base (10) is provided on the outside of the lumbar fixation device (2), a slide cavity (101) is provided on the mounting base (10), and the adjustment device (9) is mounted on a lumbar joint block (32). a rack (91) disposed above and one end of which can be slidably inserted into the slide cavity (101); and a drive that drives the rack (91) to slide the lumbar joint block (32) up and down. Bionic skeleton lumbar decompression device according to claim 5, characterized in that it comprises a device (92). The mounting base (10) is provided with a mounting cavity (102) that communicates with the slide cavity (101), and the drive device (92) is rotatably provided in the mounting cavity (102) and A gear (921) that meshes with the rack (91) is rotatably provided on the mounting base (10), and as the gear (921) rotates, the gear (921) drives the rack (91) and slides. Bionic skeleton lumbar decompression device according to claim 6, characterized in that it comprises an adjustment knob (922) for sliding up and down along the cavity (101). The lumbar region fixing device (2) and the chest fixing device (1) are elastic split ring bodies, and both ends of the split ring body are tightened to the openings of the split ring body to fix the split ring body to the patient. Bionic skeleton lumbar decompression device according to claim 1, characterized in that a fixation device (30) is provided for. An airbag (40) that can be worn by enveloping a patient when inflated is provided inside the split ring body, and communicates with the airbag (40) to inflate the airbag (40). 9. An air tube (50) according to claim 8, characterized in that it comprises an air tube (50) used to vent gas from the airbag (40) in order to inflate the airbag (40) and deflate the airbag (40). Bionic skeleton lumbar decompression device. The fixing device (30) includes a buckle (301) fixed to one end of the split ring body, a fixing strap (302) having one end fixed to the other end of the split ring body, and a fixing strap (302). A first Velcro (303) provided at the other end, and a first Velcro (303) located on the side of the fixing strap (302), after the end of the fixing strap (302) passes through the buckle (301). Bionic skeleton lumbar decompression device according to claim 8, characterized in that it comprises a second Velcro (304) adhered to the lumbar decompression device.