KR20120100613A

KR20120100613A - Spinal rehabilitation and corrective exercise equipment for the spinal muscles

Info

Publication number: KR20120100613A
Application number: KR1020110019627A
Authority: KR
Inventors: 윤창로
Original assignee: 지디메디칼 주식회사
Priority date: 2011-03-04
Filing date: 2011-03-04
Publication date: 2012-09-12

Abstract

PURPOSE: A spinal muscle exercise device for rehabilitating and correcting spine is provided to facilitate the correction of spine and treatment of spinal diseases. CONSTITUTION: A spinal muscle exercise device for rehabilitating and correcting spine comprises a bed part(100), a driving part(200), a bed supporting part(300), and a frame part(400). In the bed part, a lumbar vertebra bed(110) and a thoracic vertebra bed(111) are equipped to be adjacent to each other. The bed part is supported in the bed part and is rotated at 90 degrees. The lumbar vertebra bed fixing plate is attached to the lower part of the lumbar vertebra bed. The thoracic vertebra bed fixing plate is attached to the lower part of the thoracic vertebra bed. The frame part is equipped with a second base, a bike box, and a first base.

Description

Spinal rehabilitation and corrective exercise equipment for the spinal muscles}

The present invention is a spinal muscle exercise device for spinal rehabilitation and correction, more specifically, the spine disease, such as scoliosis, scoliosis, spinal disc herniation, or left and right pelvis due to the user's simple device manipulation or physical exercise movement The present invention relates to a spinal muscle exercise device for spinal rehabilitation and correction, which allows to fundamentally correct or treat various spinal diseases that occur.

The spine is composed of the vertebral body and the arch of the central body, and is surrounded by the vertebrae and the vertebrae, and a large bore is formed in the center. The spine controls the body's movements and all the body's actions normally, such as the intestinal psoas, the standing muscles and the sphincter, which surrounds the spine.

However, due to the nature of people walking upright, unlike animals walking on four feet, supporting the weight of the human body and enabling various forms of exercise is to balance the weight of the lumbar spine and the pelvis in the spine, thereby supporting and supporting daily life as well as physical activity. To make it possible.

The spine should be arranged normally before and after the upper, lower, left, right, and right, and maintained at a normal angle. However, the spine support muscles are tense due to aging of the muscles supporting the spine, incorrect posture, or external shock for a long time, resulting in abnormal spine. In many cases, spinal diseases develop.

This can be caused by abnormalities in the spine, especially in the intervertebral discs with age, but the majority of them are found in the wrong lifestyle, such as abnormal sitting on the spine, such as sitting or sleeping posture. Can be.

In particular, children and adolescents in the growth phase when there is an abnormality in the spine is compressed to the growth line, accordingly there is a problem that the growth hormone secretion is not smoothly inhibited to promote growth.

In order to prevent this, it is desirable to perform regular stretching exercises, such as stretching the whole body, so that the body shape can be correctly corrected by the relaxing action of muscles and skeletons.

Therefore, in recent years, a variety of exercise equipment has been developed to enable stretching the spine while exercising upper or lower extremity. As an example, there is a chiropractic exercise device disclosed in Patent No. 0711104. The chiropractic exercise equipment is provided with a lower extremity exercise device that allows the user to lie down and exercise, a bed that the user can lie down, a pelvic belt for fixing the user's waist.

These spine exercise equipments allow the user to lap the waist with a pelvic belt and perform repeated exercises lying on the bed to repeatedly relax / recover the cervical and lumbar regions of the human body and to strengthen the support muscles around the spine, thereby correcting and treating the spine. Will be obtained.

However, these conventional chiropractic rehabilitation exercise equipment is to adjust or repair the wrong spine or lumbar spine because the user does nothing other than moving the body to relax / recover the lumbar spine or cervical spine while the waist tied to the bed There is a limit to doing so.

That is, in the case of spinal disease, the left and right pelvis are out of balance and very often develop. However, the conventional spinal rehabilitation exercise device as described above has a means for correcting or treating the left and right pelvis when it is distorted. It is not there.

In addition, conventionally used chiropractic rehabilitation exercise equipment is almost no correction / treatment effect for scoliosis or scoliosis.

The present invention has been made in order to solve the above problems, and an object of the present invention is to facilitate correction and treatment of spinal diseases such as scoliosis and scoliosis according to the disease state.

In addition, an object of the user is provided with a chair to sit and fix the lumbar and thoracic belt.

In addition, according to the user's body is fixed to the lumbar spine, when the state of reverse gravity pushes the handle, the thoracic vertebral plate is pushed to the rotating shaft connected to the handle is aimed to rotate left and right.

In addition, the airbag is provided inside the lumbar vertebra and thoracic vertebral discs, and the purpose of correcting the lumbar vertebra and thoracic vertebrae is to apply constant pressure by injecting air from the outside during use.

In addition, according to the user's leg length, the lumbar vertebrae and thoracic vertebrae are centered on the sliding control and the center of gravity weight by the shock absorber, rubber band and the spring to move.

In addition, the bike system, the stepper method using a weight, and the cylinder stepper method can be replaced by the purpose of changing the rehabilitation method according to the user's condition.

In order to achieve this object,

The present invention is a spinal muscle exercise device for chiropractic, the lumbar bed 110 and the thoracic spine bed 111 is provided adjacent to each other so that the user can lie down and rehabilitation exercises and spine correction, and the The driving unit 200 is supported by the bed unit 100 is supported by the bed support shaft 320 and rotated by 90 °, and the lumbar bed fixing plate 310 is attached to the lower surface of the lumbar bed 110, and the thoracic vertebrae bed ( 111) thoracic vertebrae bed fixing plate 311 is attached to the lower surface, the bed support shaft 320 is attached to the lumbar bed fixing plate 310 to the bed rotating shaft 321 installed on the bed support shaft 320 Coupled through, the bed support 300 for supporting the bed 100, the second base 411 for the foundation of the bed support 300, and the bike box is installed on the front of the bed 100 First base for the foundation of one of the 50, wire stepper box 51 and cylinder stepper box 52 A base 410 is provided, and a base is provided at one end of the first base 410 to adjust the distance between the first base 410 and the second base 411 based on the body length of the user. The frame unit 400 is provided with a control unit 412, the lumbar spine airbag 120 provided in the upper surface of the lumbar spine bed 100 and the thoracic spine airbag 121 is provided in the upper surface of the thoracic spine bed 111 And a lumbar airbag switch 21 and a thoracic airbag switch 22 to operate the lumbar airbag 120 and the thoracic airbag 121, which are provided in the remote controller 20, to operate the lumbar airbag 120 and the thoracic airbag switch 22. The chair shaft 31 is interpolated through the upper portion of the slide shaft 330 coupled to the lower surface of the bed support shaft 320 in order to fix the user in a seated state before operating the orthodontic apparatus 10. 31) the chair 30 is coupled to one end, the thoracic bed fixing plate 311 of the bed portion 100 A neck traction fixing frame 350 is provided on the surface to fix the user's neck, and the neck retractor adjusting member 351 which can adjust the neck position of the user is interpolated to the neck retractor fixing frame 350, and the neck retractor fixing frame A neck retractor adjusting handle 352 and a plurality of neck retractor adjusting grooves 353 are formed at the bottom of the neck and the neck retractor adjusting unit 351 to adjust and fix the neck retractor according to the user's spine state. It further comprises a bike box 50, a wire stepper box 51 and a cylinder stepper box 52 provided to be used.

In addition, the bed unit 100 is provided with a lumbar airbag 120 and a thoracic airbag 121 in the upper surface of the thoracic spine bed 111 in the upper surface of the lumbar bed 110 to correct the spine by injecting air, the lumbar spine The lumbar vertebrae fixing belt 130 is provided in both directions of the center of the bed 110, and the vertebral vertebrae fixing belt 131 is provided in both directions of the center of the thoracic vertebrae bed 111.

In addition, when the thoracic vertebrae bed fixing plate 311 is separated from the thoracic vertebral bed fixing plate 310 formed on the lumbar vertebrae bed fixing plate 310 and rotates from side to side, the thoracic bed fixing plate 311 is bidirectionally disposed on the lower surface of the thoracic bed fixing plate 311. Handle 140 is provided, the neck retractor fixing frame 350 is characterized in that the neck support 150 supporting the neck on one end of the upper surface.

In addition, the driving unit 200 is coupled to the protrusion plate 32 formed on the end surface of the chair shaft 31 by one side of the shock absorber fluid plate 212 by the fluid plate fixing pin 213, the shock absorber fluid plate 212 The other side of the shock absorber 210, the connecting plate 214 is coupled to the fluid plate fixing pin 213, the cylinder of the shock absorber 210 is coupled to one side of the universal joint 211, the universal The other side of the joint 211 is characterized in that the thoracic bed fixed plate 311 is coupled to the lower surface and the connecting pin.

In addition, the bed support 300 is coupled to the thoracic plate rotation axis 340 formed in the lumbar bed fixing plate 310 and the groove formed in the thoracic bed fixing plate 311, both sides of the thoracic bed fixing plate 311 during spinal rehabilitation and correction When the handle 140 is formed by pushing the thoracic vertebrae plate rotating shaft 340 is characterized in that the thoracic vertebrae bed fixed plate 311 is partially separated and rotated to the left and right.

In addition, the bed support shaft 320 is coupled through the lower surface of the lumbar bed fixing plate 310 and the bed rotating shaft 321, the bed support shaft 320 is coupled to the slide shaft 330, the slide The slide protrusion 333 formed on the inner surface of the shaft 330 and the slide groove 332 formed on the slide feeder 331 provided on the center upper surface of the second base 411 are coupled to each other. A slide fixing groove 335 is formed at the center of the side and the inner surface of the slide feeder 331 to adjust according to the user's body to fix the slide fixing pin 334.

In addition, the neck retractor adjuster 351 is provided with a "T" type neck retractor 40 for wrapping the user's neck on one surface, the neck retractor at the end of the "T" type neck retractor 40 It is characterized in that the band 41 is provided.

In addition, a base adjuster 412 is formed on one surface of the first base 410 of the frame part 400, and the base adjuster 412 is inserted into a groove formed in the second base 411. A base adjusting groove 414 is formed on both sides of the control unit 412 and the second base 411 to control the first base 410 and the second base 411 to be fixed by the base adjusting pin 413. It features.

In addition, the bike box 50, the wire stepper box 51 and the cylinder stepper box 52 are used according to the user's state, the first base 410 of the box frame 420 on both sides of one end One end is coupled to the box frame bolt 422, the other end of the box frame 420, the bike box 50, the wire stepper box 51 and the cylinder stepper box 52 is coupled to the box fixing bolt 421 It is characterized by.

In addition, the foot support frame 431 is formed at the center of the surface facing the box frame 420 coupled to the both sides of the first base 410, the center portion of the foot support frame 431 is "A" type It is bent and bonded to the upper surface of the first base 410, characterized in that the foot support 430 is formed to be parallel to both sides of the outer peripheral surface bent in the "b" shape of the foot support frame 431.

The present invention provides an effect to facilitate the correction and treatment according to the disease state for spinal diseases such as scoliosis or scoliosis.

In addition, the user sitting on a chair provided before use provides an effect that can be used to fix the lumbar and thoracic belt alone without the help of others.

In addition, the lumbar region is fixed according to the user's body, and when the reverse gravity state is pushed, the thoracic vertebrae are pushed out by the axis of rotation connected to the handle, rotated to the left and right, pulling the gluteus maximus, which is the pelvic muscle, to relax and correct the pelvis, and to support the thoracic spine. Relaxing contraction of the muscles of the mitral muscle strengthens the effect of treating the spine diseases, including the right angle of the spine and scoliosis.

In addition, an e-bag is provided inside the lumbar and thoracic vertebrae to provide the effect of correcting the spine.

In addition, the push-pushing action provides the effect of the lumbar spine relaxation in the pelvis and the effect of using the mitral muscle, the thoracic muscle, to correct and maintain the thoracic spine correctly.

In addition, it can be used by anyone by sliding adjustment according to the user's body length, and the lumbar vertebra and thoracic vertebrae are centered on the center of weight and the speed is controlled by shock absorbers, rubber bands and springs. Has

In addition, it is possible to replace the bike method, the stepper method using the weight, and the cylinder stepper method provides an effect that can be used to change the rehabilitation training method according to the user's condition.

1 is a perspective view of a spinal muscle exercise apparatus for the present invention spinal rehabilitation and correction.
Figure 2 is a cross-sectional view of the spinal muscle exercise apparatus for the present invention spinal rehabilitation and correction.
Figure 3 is a state diagram through the shock absorber for the spinal muscle exercise device for the present invention spinal rehabilitation and correction.
Figure 4 is a state diagram of the operation of the thoracic bed fixed plate for spinal muscle exercise apparatus for the present invention spinal rehabilitation and correction.
Figure 5 is a wire stepper embodiment using the body weight for the spinal muscle exercise device for the present invention spinal rehabilitation and correction.
Figure 6 is a cylinder stepper embodiment for the spinal muscle exercise device for the present invention spinal rehabilitation and correction.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a chiropractic device 10 according to the present invention. FIG. 2 is a cross-sectional view of the lumbar bed fixing plate 310 and the thoracic bed fixing plate 311 of FIG. 1, and FIG. 3 is a shock absorber 210 of FIG. 1. 4 is an operating state diagram of the thoracic vertebrae bed fixing plate 311 of FIG. 1, FIG. 5 is a view showing an embodiment of the wire stepper box 51 of FIG. 1, and FIG. 6 is a cylinder of FIG. 1. Figure shows a stepper box 52 embodiment.

As shown in the figure, the present invention, the remote control 20, lumbar airbag switch 21, thoracic airbag switch 22, chair 30, chair shaft 31, protrusion plate 32, neck retractor 40 ), Neck traction band 41, bike box 50, wire stepper box 51, cylinder stepper box 52 is provided, the bed portion 100 is lumbar bed 110, thoracic spine bed 111, Lumbar air bag (120), thoracic air bag (121), lumbar spine fixing belt 130, thoracic spine fixing belt 131, handle 140, neck support 150, the driving unit 200 is shock absorber 210 , A universal joint 211, a shock absorber flow plate 212, a flow plate fixing pin 213, and a connecting plate 214.

In addition, the bed support 300 is the lumbar bed fixing plate 310, the thoracic bed fixing plate 311, the bed support shaft 320, the bed rotating shaft 321, the slide shaft 330, the slide feed table 331, Slide groove 332, slide protrusion 333, slide fixing pin 334, slide fixing groove 335, thoracic vertebrae shaft 340, neck retractor fixing frame 350, neck retractor adjuster 351, neck retractor Control handle 352, the frame portion 400 is the first base 410, the second base 411, the base adjuster 412, the base adjustment pin 413, the base adjustment groove 414, The box frame 420, the box fixing bolt 421, the foot support 430, the foot support frame 431 is composed of.

As shown in the figure, the chiropractic device 10 of the present invention is largely the bed portion that is provided with a lumbar spine bed 110 and the thoracic spine bed 111 adjacent to each other so that the user can lie down and rehabilitation and spine correction ( 100), the driving unit 200 is supported by the bed portion 100 is supported by the bed support shaft 320 and rotated by 90 °, and the lumbar bed fixing plate 310 is attached to the lower surface of the lumbar bed 110 The thoracic bed fixing plate 311 is attached to the lower surface of the thoracic spine bed 111, and the bed support shaft 320 is installed on the lumbar bed fixing plate 310 on the bed support shaft 320. Coupled through the rotating shaft 321, the bed support 300 for supporting the bed 100, the second base 411 for the foundation of the bed support 300, and the front of the bed 100 The foundation of one of the bike box 50, the wire stepper box 51 and the cylinder stepper box 52 installed in the The first base 410 is provided, and the first base 410 to adjust the distance between the first base 410 and the second base 411 base adjuster 412 according to the user's body length It is composed of a frame portion 400 is provided with a base adjuster 412 at the end.

In addition, the remote control 20 for operating the lumbar spine airbag 120 provided in the upper surface of the lumbar spine bed 100 and the thoracic spine airbag 121 provided in the upper surface of the thoracic spine bed 111, and the remote control 20 The lumbar airbag switch 21 and the thoracic airbag switch 22 for operating the lumbar spine airbag 120 and the thoracic spine airbag 121, and the user sitting state before the user operates the spinal braces 10 The chair shaft 31 is interpolated through the upper portion of the slide shaft 330 coupled to the lower surface of the bed support shaft 320 in order to be fixed to the chair, and the chair 30 coupled to one end of the chair shaft 31 and the Neck retractor fixed frame 350 for fixing the user's neck is provided on the lower surface of the thoracic bed fixing plate 311 of the bed 100, the neck retractor adjustment to adjust the user's neck position on the neck retractor fixing frame (350) Stand 351 is interpolated, the neck retractor fixed frame 350 and A plurality of neck retractor adjusting grooves 353 are formed on the bottom surface of the neck retractor adjusting unit 351 to adjust and fix the neck retractor adjusting grooves according to the neck position, and to be used in accordance with the spine state of the user. The bike box 50, the wire stepper box 51, and the cylinder stepper box 52.

As described above, the configuration of each part of the present invention has been described, and the coupling state of the configuration will be described in detail with reference to the accompanying drawings.

1 illustrates a perspective view of the present invention, in which the bed part 100, the driving part 200, and the bed support part 300 are coupled to the frame part 400.

The frame unit 400 is coupled to the first base 410 and the second base 411, the first base 410 and the second base 411 is the first base 410 according to the user's body length Base adjustor 412 formed in the) is coupled to be adjusted.

The base adjuster 412 formed on the first base 410 is inserted into the groove formed on the second base 411, and the base adjuster formed on both sides of the base adjuster 412 and the second base 411. The base adjustment pin 413 is fixed to the groove 414 is inserted.

The assembled first base 410 and the second base 411 support the weight of the user and the bed 100, the driving unit 200 and the bed support 300, and can be adjusted according to the user's body length It is configured to.

One end of the box frame 420 is fixed to both sides of the first base 410 opposite to the base adjuster 412 by the box frame bolt 422, and on the surface facing the center of the box frame 420. A foot support frame 431 is formed, and the foot support frame 431 is bent in a "b" shape to be joined to the upper surface of the first base 410.

The foot support 430 is formed to be parallel to both sides of the bent outer circumferential surface of the foot support frame 431.

The foot support 430 is provided to allow the user to raise the foot when the user must stop during orthodontic and rehabilitation.

As shown in FIG. 1, in the bed part 100 of the present invention, the lumbar bed 110 and the thoracic spine bed 111 are attached to the lumbar bed fixing plate 310 and the thoracic bed fixing plate 311 of the bed support 300. The lumbar spine airbag 120 is provided inside the lumbar spine bed 110, and the thoracic spine airbag 121 is provided inside the thoracic spine bed 111 and is inflated due to air introduced from the outside.

Therefore, the lumbar spine airbag 120 and thoracic spine through the airbag 121 is to be corrected.

The lumbar spine fixing belt 130 is provided in both the center of the lumbar bed 110, the thoracic spine fixing belt 131 is provided in both the center of the thoracic spine bed 111 is wrapped around the lumbar region and thoracic region of the user It is to let.

In addition, the neck support 150 is provided on one end surface of the neck retractor adjuster 351 to support the neck when the user is lying on the lumbar bed 110 and the thoracic spine bed 111.

In addition, the handle 140 is provided so that the thoracic vertebrae bed 111 is separated from the lumbar vertebrae bed 110 so as to swing from side to side.

In addition, when the user pulls the handle 140, the thoracic vertebrae bed 111 that is bonded to the lumbar vertebrae bed 110 is separated.

As shown in FIG. 1 and FIG. 2, the bed support part 300 includes a lumbar bed fixing plate 310 and a thoracic bed fixing plate 311 that support the lumbar bed 110 and the thoracic bed 111. In order to rotate the thoracic vertebrae bed 111 to the left and right about the lumbar vertebrae bed 110, a thoracic vertebral plate rotating shaft 340 formed on the lumbar vertebrae bed fixing plate 310 is coupled to a groove formed on the lower side of the thoracic vertebrae bed fixing plate 311. do.

Therefore, when the handles on both sides formed on the thoracic bed fixing plate is pushed, the thoracic plate fixing shaft formed on the lumbar spine bed fixing plate is partially detached from the thoracic spinal bed fixing plate to rotate left and right.

The lumbar bed fixing plate 310 is coupled to the bed support shaft 320 through a bed rotating shaft 321, the bed support shaft 320 is coupled to the slide shaft 330.

The slide shaft 330 is coupled to the slide carriage 331 formed on the upper side of the center on the second base 411, the coupling relationship with the slide carriage 331 is a slide formed therein in the slide shaft 330 The protrusion 333 and the slide groove 331 is coupled to the slide groove 332 formed on one side.

A slide fixing groove 335 is formed at a side of the slide holder 331, and is fixed to both sides of the slide shaft 330 coupled with the slide holder 331 to fit the slide holder 335. The groove 335 is formed.

The slide fixing groove 335 formed in the slide feeder 331 and the slide shaft 330 is to be fixed by inserting the slide fixing pin 334 by adjusting according to the user's body.

Accordingly, the bed support 300 is the bed support shaft 320 is rotated by the bed portion 100 is rotated 90 ° around the bed rotating shaft 321.

In addition, a neck retractor fixing frame 350 is formed on the lower surface of the thoracic bed fixing plate 311 and is provided to be adjustable according to the user's body.

The neck retractor adjusting unit 351 is inserted into the neck retractor fixing frame 350, and the neck retractor adjusting groove 353 is disposed at a predetermined interval on the lower surface of the neck retractor adjusting unit 351 and the neck retractor fixing frame 350. Is formed, it is fixed by tightening the neck retractor adjustment handle 352 by adjusting the neck retractor adjuster 351 according to the user's body.

1, 3, 5 and 6, the drive unit 200 is provided with a bike box 210 for rehabilitation and calibration, in another embodiment the wire stepper box 211 and the cylinder The stepper box 212 consists of a replaceable use.

The bike box 210, the wire stepper box 211, and the cylinder stepper box 212 are coupled to the box frame 420 and the box fixing bolt 421 of the frame part 400.

The bike box 210 is to rehabilitation and orthodontic treatment by returning the drum inside the bike box 210 by pressing the pedal.

In addition, the protruding plate 32 and the shock absorber fluid plate 212 are coupled to the fluid plate fixing pin 213 at the end surface of the chair shaft 31, and the shock absorber 210 is provided in the other direction of the shock absorber fluid plate 212. The connecting plate 214 and the fluidized plate fixing pin 213 are connected.

The cylinder of the shock absorber 210 is coupled to the universal joint 211 by a connecting pin, and the other direction of the universal joint 211 connected to the cylinder of the shock absorber 210 is connected to the lower surface of the thoracic bed fixing plate 311. Are combined.

The shock absorber 210 is provided to rotate the bed portion 100 by 90 °, and the thoracic vertebrae bed 111 is moved left and right due to the universal joint 211.

Wire stepper box 211 of another embodiment of the drive unit 200 is to drive through the wires and rollers respectively connected to the back of the footrest using the user's weight.

In addition, the cylinder stepper box 212 according to another embodiment consists of connecting the cylinder to the back of the scaffold with a stepper using the cylinder, and adjusting and using the cylinder according to the user's force.

As shown in FIG. 1, the remote controller 20 of the present invention includes a lumbar airbag switch 21 and a thoracic airbag switch 22, and the remote controller 20 operates an air pump provided outside to lumbar spine. It is provided to flow into the airbag 120 and the thoracic airbag 121.

Therefore, the user injects a certain air through the remote control 20 to correct the spine by applying a certain pressure to the lumbar region and thoracic spine.

In the figure, the chair 30 is configured to receive the support of the chair shaft 31, and the chair shaft 31 is formed by inserting through the slide shaft 330.

The chair 30 serves to allow the user to easily sit and wear the lumbar spine fixing belt 130 and the thoracic spinal fixing belt 131 before the chiropractic 10 is operated.

In addition, the user can sit in the chair 30 to adjust the distance between the first base 410 and the second base 411.

Neck retractor 40 in the figure is joined to one side of the neck retractor adjuster 351, the end is formed of a "T" type, the neck retractor 40 is provided with a neck traction band 41 at the end It is.

The neck traction band 41 is configured to hold the neck so as not to move around the user's chin.

In addition, the user is made of a material that does not feel uncomfortable when worn.

As described above, the coupling between the components for each part has been described with reference to the drawings, and the operation state will be described in detail with reference to the drawings.

As shown in the drawings, the chiropractic device 10 of the present invention adjusts the spacing using the first base 110 and the second base 111 to fit the user sitting on the chair 30, It is used to fix the base adjustment pin 413 in the adjustment position.

Sit on the chair 30 to fix the lumbar region and the thoracic region of the body with the lumbar spine fixing belt 130 and the thoracic spine fixing belt 131, the bed portion 100 is pushed back by the user's force to rotate 90 °.

In order to rotate the bed unit 100 by 90 °, the bed support shaft 320, the bed rotation shaft 321, and the lumbar bed fixing plate 310 are combined and rotated.

In addition, the shock absorber fluid plate 212 and the shock absorber 210 coupled to the end of the chair shaft 31 is fixed to the lower surface of the thoracic bed fixing plate 311 to support the weight, and the shock absorber 210 is driven. As it is to operate slowly, the bed portion 100 is rotated by 90 ° again when the leg is lowered by the user is sitting on the chair (30).

In addition, in order to move the thoracic vertebrae bed fixing plate 311 to the left and right, the thoracic vertebrae plate rotating shaft 340 is formed on the lower side of the lumbar vertebrae bed fixing plate 310, the thoracic vertebral plate rotating shaft 340 and the thoracic vertebrae bed fixing plate 311 The thoracic region of the body is fixed by the lumbar lumbar fixation belt 130 by pushing the handle 140 formed on both sides of the thoracic vertebrae bed fixing plate 311, so that the thoracic bed fixing plate 310 is partially detached. The thoracic vertebrae bed fixing plate 311 is moved left and right.

When the rehabilitation and correction of the thoracic vertebrae bed fixing plate 311 is finished, when the handle 140 is pulled again, the thoracic vertebral bed fixing plate 311 is inserted into the thoracic vertebral plate rotation shaft 340, and when the leg is lowered, the shock absorber is automatically removed by the force ( 210 is operated to sit on the chair 30 to complete the operation.

In addition, the bike box 210, the wire stepper box 211 and the cylinder stepper box 212 is configured to be used in accordance with the user's state.

10. Chiropractic device 20. Remote control
21. Lumbar spine airbag switch 22. Thoracic spine airbag switch
30. Chair 31. Chair Axle
32. Protrusion plate 40. Neck retractor
41. Neck towing band 50. Bike box
51. Wire stepper box 52. Cylinder stepper box
100. Bed 110. Lumbar Bed
111. Thoracic vertebrae bed 120. Lumbar spine airbag
121. Thoracic spine airbag 130. Lumbar spine fixation belt
131. Thoracic vertebrae belt 140.Handle
150. Neck Support
200. Drive section 210. Shock absorber
211.Universal Joint 212. Shock Absorber Fluid Plate
213. Fluid plate fixing pin 214. Connection plate
300. Bed support 310. Lumbar bed fixing plate
311. Thoracic vertebrae bed fixing plate 320. Bed support shaft
321. Bed axis of rotation 330. Slide axis
331. Slide Feeder 332. Slide Groove
333. Slide protrusion 334. Slide pin
335. Slide fixing groove 340. Thoracic vertebrae shaft
350. Neck retractor retainer 351. Neck retractor guide
352. Neck Retractor Adjustment Handle 353. Neck Retractor Adjustment Groove
400. Frame part 410. First base
411. Second base 412. Base adjuster
413. Base adjustment pin 414. Base adjustment groove
420. Box Frame 421. Box Fixing Bolts
422. Box Frame Bolts 430. Foot Supports
431. Foot Support Frame

Claims

Spinal muscle exercise device for chiropractic,
A bed portion 100 in which the lumbar spine bed 110 and the thoracic spine bed 111 are provided adjacent to each other so that the user can lie down and perform rehabilitation and spinal correction;
The driving unit 200 is supported by the bed unit 100 is supported by the bed support shaft 320 to rotate to 90 °;
A lumbar bed fixing plate 310 is attached to the lower surface of the lumbar bed 110, a thoracic bed fixing plate 311 is attached to the lower surface of the thoracic bed 111, and the bed support shaft is attached to the lumbar bed fixing plate 310. A bed support part 300 coupled to the bed part support shaft 320 and installed on the bed part support shaft 320 to support the bed part 100;
One of the second base 411 for the foundation of the bed support 300, the bike box 50, the wire stepper box 51 and the cylinder stepper box 52 installed on the front of the bed 100 A first base 410 is provided for the base of the first base 410 to adjust the distance between the base base 410 and the first base 410 and the second base 411 according to the body length of the user ( 410, the frame portion 400 is provided with a base adjuster 412 at one end;
Remote control 20 for operating the lumbar spine air bag 120 provided in the upper surface of the lumbar spine bed 100 and the thoracic spine air bag 121 provided in the upper surface of the thoracic spine bed 111, and provided in the remote control 20 A lumbar airbag switch 21 and a thoracic airbag switch 22 for operating the lumbar airbag 120 and the thoracic airbag 121;
The chair shaft 31 is interpolated through the upper portion of the slide shaft 330 coupled to the lower surface of the bed support shaft 320 to fix the user in a sitting state before the user operates the chiropractic device 10. A chair 30 coupled to one end of the chair shaft 31;
A neck traction fixing frame 350 is provided on the lower surface of the thoracic vertebrae bed fixing plate 311 of the bed part 100 to fix the neck of the user, and the neck retractor for adjusting the neck position of the user on the neck retractor fixing frame 350 is provided. Adjuster 351 is interpolated, a plurality of neck retractor adjustment grooves (353) are formed on the lower surface of the neck retractor fixing frame 350 and the neck retractor adjusting unit 351 to adjust and fix the neck retractor to fit the neck position Handle 352;
A bike box 50, a wire stepper box 51 and a cylinder stepper box 52 which are provided to be replaced according to the spine of the user;
Spinal muscle exercise apparatus for spine rehabilitation and correction, characterized in that it further comprises.

The method according to claim 1,
The bed unit 100 is provided with a lumbar airbag 120 and a thoracic airbag 121 on the upper surface of the thoracic spine bed 111 in the upper surface of the lumbar bed 110 for injecting air to correct the spine. 110) The lumbar spine fixing belt 130 is provided in both directions of the center, the spinal muscle exercise device for spinal rehabilitation and correction, characterized in that the thoracic spine bed 111, the thoracic spine fixing belt 131 is provided in both directions.

The method according to claim 1,
When the thoracic vertebrae bed fixing plate 311 is separated from the thoracic vertebral bed fixing plate 310 formed on the lumbar vertebrae bed fixing plate 310 and rotates from side to side, the handle is bidirectionally disposed on the lower surface of the thoracic bed fixing plate 311 for the safety of the user. 140 is provided, the neck retractor fixing frame (350) spine muscle exercise equipment for spinal rehabilitation and correction, characterized in that the neck support 150 is provided to support the neck on one end of the upper surface.

The method according to claim 1,
One side of the shock absorber flow plate 212 is coupled to the protrusion plate 32 formed at one end of the chair shaft 31 by the flow plate fixing pin 213, and the other side of the shock absorber flow plate 212. The connecting plate 214 of the shock absorber 210 is coupled to the fluid plate fixing pin 213, the cylinder of the shock absorber 210 is coupled to one side of the universal joint 211, the universal joint ( 211) Spinal muscle exercise device for spinal rehabilitation and correction, characterized in that the other side is coupled to the lower thoracic bed fixed plate (311) and the connecting pin.

The method according to claim 1,
The bed support unit 300 is coupled to the thoracic plate rotation axis 340 formed in the lumbar spine bed fixing plate 310 and the groove formed in the thoracic spine bed fixing plate 311, and formed on both sides of the thoracic bed fixing plate 311 when spinal rehabilitation and correction Spinal muscle exercise device for spine rehabilitation and correction, characterized in that the thoracic spinal plate rotating shaft 340 by pushing the handle 140 is part of the thoracic vertebrae bed fixed plate 311 is rotated left and right.

The method according to claim 1,
The bed support shaft 320 is coupled via the lower surface of the lumbar bed fixing plate 310 and the bed rotating shaft 321, the bed support shaft 320 is coupled to the slide shaft 330, the slide shaft ( 330 is coupled to the slide projection 333 formed on the inner surface, the slide groove 332 formed in the slide feeder 331 provided on the upper surface of the center of the second base 411, and both sides of the slide shaft 330 A slide fixing groove 335 is formed at the center of the inner side of the slide feeder 331, and the spinal muscle exercise device for spinal rehabilitation and correction, characterized in that it is fixed according to the user's body and fixed by the slide fixing pin 334.

The method according to claim 1,
Neck retractor adjuster 351 is provided on one side of the neck retractor 40 of the "T" type for wrapping the user's neck, neck retractor band (T) type end of the neck retractor 40 ( Spinal muscle exercise equipment for spinal rehabilitation and correction, characterized in that the provided 41).

The method according to claim 1,
A base adjuster 412 is formed on one surface of the first base 410 of the frame part 400, and the base adjuster 412 is inserted into a groove formed in the second base 411, and the base adjuster 412 and the base adjusting groove 414 is formed on both sides of the second base 411 to adjust the first base 410 and the second base 411 to be fixed with a base adjusting pin 413. Spinal muscle exercise equipment for spine rehabilitation and correction.

The method according to claim 1,
The bike box 50, the wire stepper box 51, and the cylinder stepper box 52 are used according to a user's condition. One end of the box frame 420 is provided at both ends of one end of the first base 410. Coupled to the box frame bolt 422, the bike box 50, the wire stepper box 51 and the cylinder stepper box 52 to the box frame 420 of the other end is coupled to the box fixing bolt 421 Spinal muscle exercise equipment for spinal rehabilitation and correction.

The method according to claim 9,
The foot support frame 431 is formed at the center of the surface facing the box frame 420 coupled to both sides of the first base 410, the center portion of the foot support frame 431 is bent in a "b" shape Bonded to the upper surface of the first base 410, for the spine rehabilitation and correction, characterized in that the foot support 430 is formed in parallel to both sides of the outer peripheral surface bent in the "b" shape of the foot support frame 431 Spinal muscle exercise equipment.