CN209847490U

CN209847490U - Passive posture corrector

Info

Publication number: CN209847490U
Application number: CN201920389714.4U
Authority: CN
Inventors: 唐孝康; 唐孝云; 王志辉; 陈丹蓉; 周宏鹏; 黄伟军
Original assignee: Quanzhou Shufang Information Technology Co Ltd
Current assignee: Quanzhou Shufang Information Technology Co Ltd
Priority date: 2019-03-26
Filing date: 2019-03-26
Publication date: 2019-12-27
Anticipated expiration: 2029-03-26

Abstract

The utility model discloses a passive form posture correction ware, respond to the piece including backbone, corrector body, lumbar vertebrae roof and cervical vertebra, the corrector fixed band that constitutes through 1680 trajectory nylon belt on the backbone is fixed with the corrector body, and this body coupling of corrector through the liftable in lumbar vertebrae roof top has the cervical vertebra to respond to the piece, and the spiro union has the sleeve pipe of liftable regulation on the screw bolt, the lumbar vertebrae roof includes roof shell, backup pad, sleeve pipe, first extension board, protruding board and second extension board, and bar spout internally mounted has the slip pivot, and two sets of fixed band mounting holes have been seted up to roof shell upper end and lower extreme, and corrector fixed band demountable installation is on the fixed band mounting hole. This passive form posture correction ware places the response piece and pastes in the cervical vertebra position, breaks away from this position and can initiate the alarm and remind the effect, and telescopic bracket adjusts cervical vertebra and lumbar vertebrae position, and the spiral that has screwed up withstands the lumbar vertebrae position with the lumbar vertebrae roof arch, corrects its waist gesture.

Description

Passive posture corrector

Technical Field

The utility model relates to an gesture correction equipment technical field specifically is a passive form gesture unscrambler.

Background

Serious humpback deformity can form an ugly posture, which not only can bring pain to patients psychologically, but also can cause lifelong disability, secondly, the humpback deformity is often combined with thoracic deformity, diaphragm movement limitation, viscera compression, chest and abdomen attachment and the like, respiratory, circulatory and digestive functions are greatly influenced, respiratory and digestive system diseases are easily induced, once acute abdomen disease occurs, a proper operation access is difficult to find, moreover, the gravity center of the humpback patient is positioned in front of lower limbs, so the gravity center is unstable, various injuries are easily caused by falling down, especially, the spine of the ankylosing spondylitis patient is fused into a long bone, traumatic spine fracture is easy to occur, severe patients can combine paraplegia, more serious spinal stenosis caused by the humpback deformity can occur, late paraplegia which is difficult to treat often occurs, the existing posture correction equipment has a complex structure and heavy formed structure quality, the burden of the spine is formed and the operation is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem lie in overcoming prior art's gesture correction equipment structure complicated, and the structural quality of formation is heavier, forms the burden of backbone, and defect such as inconvenient of operation provides a passive form gesture corrector. The passive posture corrector comprises a spine, a corrector body, a lumbar top plate and a cervical vertebra induction sheet, has a simple structure, reduces the whole weight of the structure, and lightens the burden of a body.

In order to achieve the above object, the utility model provides a following technical scheme: a passive posture corrector comprises a spine, a corrector body, a lumbar vertebra top plate and cervical vertebra induction sheets, wherein the corrector body is fixed on the spine through a corrector fixing band consisting of 1680 ballistic nylon belts, the cervical vertebra induction sheets arranged above the corrector body are in contact with the cervical vertebra position at the upper part of the spine, the lumbar vertebra top plate arranged below the corrector body is fixed at the lumbar vertebra position below the spine, the cervical vertebra induction sheets are connected above the lumbar vertebra top plate through a liftable corrector body, a spiral bolt is screwed at the bottom of the lumbar vertebra top plate, a sleeve pipe capable of being regulated in a liftable mode is screwed at the upper end of the spiral bolt, the lower part of the sleeve pipe is slidably installed inside a limiting plate, and the limiting plate is fixed on a top plate shell;

the lumbar vertebrae roof includes the roof shell, a supporting plate, the sleeve pipe, first extension board, protruding board and second extension board, and roof shell middle part is fixed with the backup pad, and the bar spout has been seted up to roof shell below side, bar spout internally mounted has the slip pivot, and the slip pivot is worn to put on sleeve pipe and first extension board, first extension board front end is articulated mutually with the protruding board, and second extension board front end is articulated mutually with the protruding board, and the second extension board rear end articulates on the roof shell through fixed rotating shaft, two sets of fixed band mounting holes have been seted up to roof shell upper end and lower extreme, and corrector fixed band demountable installation is on the fixed band mounting hole.

Preferably, the corrector body comprises a lumbar vertebra top plate, a telescopic supporting rod and a cervical vertebra induction sheet, the included angle range between the cervical vertebra induction sheet and the horizontal plane is 45-80 degrees, and the cervical vertebra induction plate can be driven to adjust the angle by rotating the knob of the adjusting shaft.

Preferably, the outer side of the spiral bolt is provided with anti-skid grains, the lifting range of a sleeve screwed with the upper end of each anti-skid grain is 0-5 cm, and the length of each strip-shaped sliding groove is 0-5 cm.

Preferably, the cervical vertebra induction sheet comprises a cervical vertebra induction plate, an adjusting shaft, a cervical vertebra induction sheet mounting seat and an adjusting shaft knob, the upper end of the cervical vertebra induction plate is connected with the adjusting shaft in a threaded manner, the middle part of the adjusting shaft is fixed with the cervical vertebra induction plate capable of rotating along with the adjusting shaft, the adjusting shaft knob is fixed on the side surface of the adjusting shaft, the cervical vertebra induction plate is of an arc-shaped structure, the upper end of the cervical vertebra induction plate is fixed with the induction sheet, and the RFP-603 pressure induction sheet is arranged on the upper end of the cervical vertebra induction plate.

Preferably, but roof shell inside is fixed with the editor's singlechip, and can edit singlechip electric connection has the response piece to the response piece is the forced induction piece, is fixed with bee calling organ on the roof shell of simultaneously editable singlechip below, and bee calling organ electric connection can edit the singlechip, and can edit the inside battery that sets up of singlechip electric connection roof shell.

Preferably, the sleeve is of a T-shaped structure, a cross rod at the upper end of the T is placed inside a U-shaped groove at the lower end of the first support plate, rotatable sliding rotating shafts penetrate through two sides of the cross rod at the upper end of the sleeve and two sides of the U-shaped groove at the lower end of the first support plate, and two ends of each sliding rotating shaft are placed inside the strip-shaped sliding grooves.

Preferably, the sliding rotating shaft moves to the left side of the strip-shaped sliding groove, so that the first support plate and the protruding plate are placed inside the top plate shell in parallel, and the lower portion of the protruding plate is in contact with the upper end of the support plate.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the device mainly comprises an induction sheet, a telescopic bracket, a screw and a lifting mechanism, wherein the induction sheet is placed and attached to the cervical vertebra part, an alarm reminding function can be initiated when the induction sheet is separated from the cervical vertebra part, the cervical vertebra and lumbar vertebra positions are adjusted by the telescopic bracket, the screw is screwed up to push the protrusion of the lumbar vertebra top plate against the lumbar vertebra part, and the waist posture of the equipment is corrected;

2. the height of the lumbar vertebra part can be adjusted by arranging a slidable structure in the lumbar top plate and jacking up the convex plate, the posture of the waist can be corrected by rotating the spiral bolt through a simple structure, the structure is simple, the whole weight of the structure is reduced, and the burden of the body is lightened;

3. through rotating the adjustable cervical vertebra tablet of regulating spindle knob, and then adjust the inclination of cervical vertebra tablet for the arc cervical vertebra tablet of top is inseparabler with the cervical vertebra laminating.

Drawings

FIG. 1 is a schematic view of the installation of the structural brace body of the present invention;

FIG. 2 is a perspective view of the structural brace body of the present invention;

FIG. 3 is a schematic view of the lumbar vertebrae top plate of the present invention;

FIG. 4 is a schematic view of the cervical vertebra induction plate of the present invention;

FIG. 5 is a schematic sectional view of the cervical vertebra sensor of the present invention;

FIG. 6 is a schematic view of the structure control flow of the present invention;

fig. 7 is a schematic view of the installation section of the structural convex plate of the present invention.

Reference numbers in the figures: 1. spine, 2, the unscrambler body, 3, the unscrambler fixed band, 4, helical screw bolt, 5, lumbar vertebrae roof, 6, telescopic support rod, 7, cervical vertebra response piece, 8, the roof shell, 9, the backup pad, 10, the fixed band mounting hole, 11, the bar spout, 12, the limiting plate, 13, anti-skidding line, 14, the sleeve pipe, 15, the pivot that slides, 16, first extension board, 17, the bellying board, 18, the second extension board, 19, fixed rotating shaft, 20, cervical vertebra response board, 21, the regulating spindle, 22, cervical vertebra response piece mount pad, 23, the regulating spindle knob, 24, the response piece, 25, can edit the singlechip, 26, the battery, 27, bee calling organ.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a passive posture corrector comprises a spine 1, a corrector body 2, a lumbar vertebra top plate 5 and a cervical vertebra induction sheet 7, wherein the corrector body 2 is fixed on the spine 1 through a corrector fixing band 3 consisting of 1680 ballistic nylon belts, the cervical vertebra induction sheet 7 arranged above the corrector body 2 is contacted with the cervical vertebra position at the upper part of the spine 1, the lumbar vertebra top plate 5 arranged below the corrector body 2 is fixed at the lumbar vertebra position below the spine 1, the corrector body 2 comprises the lumbar vertebra top plate 5, a telescopic supporting rod 6 and the cervical vertebra induction sheet 7, the included angle range between the cervical vertebra induction sheet 7 and the horizontal plane is 45-80 degrees, the cervical vertebra induction sheet 7 comprises a cervical vertebra induction plate 20, an adjusting shaft 21, a cervical vertebra induction sheet mounting seat 22 and an adjusting shaft knob 23, the upper end of the cervical vertebra induction plate 20 is in threaded connection with the adjusting shaft 21, and the middle part of the adjusting shaft 21 is fixed with the cervical vertebra induction plate 20 which can rotate along with the adjusting shaft 21, an adjusting shaft knob 23 is fixed on the side surface of the adjusting shaft 21, the cervical vertebra induction plate 20 is of an arc structure, an induction sheet 24 and an RFP-603 pressure induction sheet are fixed at the upper end of the cervical vertebra induction plate 20, the cervical vertebra induction plate 20 can be driven to carry out angle adjustment by rotating the adjusting shaft knob 23, the cervical vertebra induction sheet 7 is connected above the lumbar vertebra top plate 5 through a liftable corrector body 2, a spiral bolt 4 is screwed at the bottom of the lumbar vertebra top plate 5, an anti-skid thread 13 is arranged on the outer side of the spiral bolt 4, the lifting range of a sleeve 14 screwed at the upper end of the anti-skid thread 13 is 0-5 cm, the length of a strip-shaped chute 11 is 0-5 cm, a sleeve 14 which can be regulated in a lifting manner is screwed at the upper end of the spiral bolt 4, the lower part of the sleeve 14 is slidably arranged inside a limiting plate 12, the limiting plate 12 is fixed on the top, the editable single-chip microcomputer 25 is electrically connected with an induction sheet 24, the induction sheet 24 is a pressure induction sheet, a buzzer 27 is fixed on the top plate shell 8 below the editable single-chip microcomputer 25, the buzzer 27 is electrically connected with the editable single-chip microcomputer 25, and the editable single-chip microcomputer 25 is electrically connected with a storage battery 26 arranged in the top plate shell 8;

the lumbar vertebra top plate 5 comprises a top plate shell 8, a supporting plate 9, a sleeve 14, a first support plate 16, a convex plate 17 and a second support plate 18, the supporting plate 9 is fixed at the middle part of the top plate shell 8, a strip-shaped chute 11 is arranged on the side surface below the top plate shell 8, a sliding rotating shaft 15 is arranged in the strip-shaped chute 11, the sliding rotating shaft 15 penetrates through the sleeve 14 and the first support plate 16, the sleeve 14 is of a T-shaped structure, a cross rod at the upper end of the T is placed in a U-shaped groove at the lower end of the first support plate 16, the rotatable sliding rotating shaft 15 penetrates through the cross rod at the upper end of the sleeve 14 and two sides of the U-shaped groove at the lower end of the first support plate 16, two ends of the sliding rotating shaft 15 are placed in the strip-shaped chute 11, the sliding rotating shaft 15 moves on the left side of the strip-shaped chute 11, so, the front end of the first support plate 16 is hinged to the protruding plate 17, the front end of the second support plate 18 is hinged to the protruding plate 17, the rear end of the second support plate 18 is hinged to the top plate shell 8 through the fixed rotating shaft 19, two groups of fixing belt mounting holes 10 are formed in the upper end and the lower end of the top plate shell 8, and the corrector fixing belt 3 is detachably mounted on the fixing belt mounting holes 10.

The working principle is as follows: when the passive posture corrector is used, firstly, the corrector fixing band 3 is arranged on the fixing band mounting hole 10, then the corrector body 2 is fixed on the body through the corrector fixing band 3, thereby leading the lumbar vertebra top plate 5 to be positioned at the lumbar vertebra position, adjusting the height of the cervical vertebra induction sheet 7 through the telescopic supporting rod 6, so that the cervical vertebra induction plate 20 arranged on the cervical vertebra induction plate 7 is tightly attached to the cervical vertebra, when the cervical vertebra is bent, the induction plate 24 arranged on the cervical vertebra induction plate 20 is separated from the cervical vertebra to transmit signals, then the signals are transmitted to the editable single chip microcomputer 25, then an alarm is given by a buzzer 27, then the screw bolt 4 is manually rotated, the sleeve 14 is pushed to move forwards, and further pushes the sliding rotating shaft 15 to slide on the strip-shaped sliding chute 11, so that the first support plate 16 jacks up the convex plate 17, so that the fixed rotating shaft 19 jacks up the lumbar vertebrae to correct the posture, which is the whole process of the operation of the passive posture corrector.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a passive form posture correction ware, includes backbone (1), unscrambler body (2), lumbar vertebrae roof (5) and cervical vertebra response piece (7), its characterized in that: a corrector fixing band (3) formed by 1680 ballistic nylon belts is fixed on the spine (1) and is provided with a corrector body (2), a cervical vertebra induction sheet (7) arranged above the corrector body (2) is contacted with the cervical vertebra position at the upper part of the spine (1), a lumbar vertebra top plate (5) arranged below the corrector body (2) is fixed at the lumbar vertebra position below the spine (1), a cervical vertebra induction sheet (7) is connected above the lumbar vertebra top plate (5) through the liftable corrector body (2), a spiral bolt (4) is screwed at the bottom of the lumbar vertebra top plate (5), the upper end of the spiral bolt (4) is screwed with a sleeve (14) which can be regulated in a lifting way, the lower part of the sleeve (14) is slidably arranged in a limiting plate (12), and the limiting plate (12) is fixed on a top plate shell (8);

the lumbar vertebra top plate (5) comprises a top plate shell (8), a supporting plate (9), a sleeve (14), a first supporting plate (16), a convex plate (17) and a second supporting plate (18), the supporting plate (9) is fixed in the middle of the top plate shell (8), a strip-shaped chute (11) is arranged on the side surface below the top plate shell (8), a sliding rotating shaft (15) is arranged in the strip-shaped chute (11), the sliding rotating shaft (15) is arranged on the sleeve (14) and the first support plate (16) in a penetrating way, the front end of the first support plate (16) is hinged with the convex plate (17), the front end of the second support plate (18) is hinged with the convex plate (17), the rear end of the second support plate (18) is hinged on the top plate shell (8) through a fixed rotating shaft (19), two groups of fixing belt mounting holes (10) are arranged at the upper end and the lower end of the top plate shell (8), and the corrector fixing belt (3) is detachably arranged on the fixing belt mounting hole (10).

2. The passive posture corrector of claim 1, wherein: the corrector body (2) comprises a lumbar vertebra top plate (5), a telescopic supporting rod (6) and a cervical vertebra induction sheet (7), the included angle range between the cervical vertebra induction sheet (7) and the horizontal plane is 45-80 degrees, and the cervical vertebra induction plate (20) is driven to carry out angle adjustment by rotating an adjusting shaft knob (23).

3. The passive posture corrector of claim 1, wherein: the anti-skidding thread (13) is arranged on the outer side of the spiral bolt (4), the lifting range of a sleeve (14) screwed at the upper end of the anti-skidding thread (13) is 0-5 cm, and the length of the strip-shaped sliding groove (11) is 0-5 cm.

4. The passive posture corrector of claim 1, wherein: cervical vertebra response piece (7) are including cervical vertebra response board (20), regulating spindle (21), cervical vertebra response piece mount pad (22) and regulating spindle knob (23), and the spiro union has regulating spindle (21) on cervical vertebra response board (20), and regulating spindle (21) middle part is fixed with can be along with regulating spindle (21) pivoted cervical vertebra response board (20), regulating spindle (21) side is fixed with regulating spindle knob (23), cervical vertebra response board (20) are the arc structure, and cervical vertebra response board (20) upper end is fixed with response piece (24), and RFP-603 forced induction piece.

5. The passive posture corrector of claim 1, wherein: but roof shell (8) inside is fixed with editor's singlechip (25), and can edit singlechip (25) electric connection has response piece (24) to response piece (24) are the forced induction piece, are fixed with bee calling organ (27) on roof shell (8) of editable singlechip (25) below simultaneously, and bee calling organ (27) electric connection can edit singlechip (25), and can edit singlechip (25) electric connection roof shell (8) inside battery (26) that set up.

6. The passive posture corrector of claim 1, wherein: the sleeve (14) is of a T-shaped structure, a cross rod at the upper end of the T is placed in a U-shaped groove at the lower end of the first support plate (16), a rotatable sliding rotating shaft (15) penetrates through the cross rod at the upper end of the sleeve (14) and two sides of the U-shaped groove at the lower end of the first support plate (16), and two ends of the sliding rotating shaft (15) are placed in the strip-shaped sliding groove (11).

7. The passive posture corrector of claim 1, wherein: the sliding rotating shaft (15) moves on the left side of the strip-shaped sliding groove (11), so that the first support plate (16) and the protruding plate (17) are placed inside the top plate shell (8) in parallel, and the lower part of the protruding plate (17) is in contact with the upper end of the support plate (9).