CN204207991U - Intelligent spinal rehabilitation training devices - Google Patents

Abstract

A kind of intelligent spinal rehabilitation training devices, comprises upper limb climbing mechanism that order arranges, abdominal support mechanism and lower limb and to sway one's hips climbing mechanism; Upper limb climbing mechanism comprises two upper limb and to creep guide rail, is respectively installed with upper limb and creeps slide block on two upper limb creep guide rail, and upper limb is creeped handrail slide block is provided with for people's grasped.The lower limb climbing mechanism that sways one's hips comprises fan-shaped swing slide plate and crank and rocker mechanism, and crank and rocker mechanism is connected with the transmission of fan-shaped swing slide plate and fan-shaped swing slide plate can be driven to swing.Fan-shaped swing slide plate is embedded with two fan-shaped movable blocks, two fan-shaped movable blocks are separately installed with shank supporting mechanism.This utility model achieves the switching of active training and passive exercise, and the loud noise of crawling that can realize under main passive form sways one's hips and creeps, and kneel support and sway one's hips and creep, climbing to a higher point sways one's hips creeps, the multiple training mode of creeping that sways one's hips such as facedown.

Description

Intelligent spinal rehabilitation training devices

Technical field

This utility model relates to medical rehabilitation instrument, particularly the intelligent spinal rehabilitation training devices of one.

Background technology

Spondylopathy is the frequently-occurring disease of middle-aged and elderly people, and the incidence trend of spondylopathy presents rejuvenation in recent years, especially this trend teen-age vertebra lateral bending and rear convex pathological changes obvious.At present, modern clinical treatment many employings medicine in early stage and operative treatment spondylopathy, and the rehabilitation in later stage adopts the creeping exercise of physical exercise therapy, this therapy is evident in efficacy.Sports medical science expert point out, the inducement of spondylopathy is attributed to that time of mankind's upright (comprising seat) too much causes.Under gravity, long erectility makes vertebra load-bearing excessive, creeps, and can alleviate the vertebra load-bearing uprightly caused for a long time, changes human spine's mechanical structure and stress.When creeping, health gravity is distributed to extremity, thus significantly reduces the burden of gravity to cervical vertebra, thoracic vertebra, lumbar vertebra.The more important thing is that human vertebra is in level when creeping, it is the freest and state that is that loosen, cervical vertebra, thoracic vertebra, lumbar vertebra recovery have arrived normal physiological anatomic architecture position, maintain the normal condition of 4 bending physiological curves of vertebra, the various forms of training of creeping carried out in this state strengthen the strength of muscle group around spinal column, correct the lateral bending of vertebra and rear convex, improve extensibility and the balanced capacity of vertebra, reach the object for the treatment of lumbar muscle strain, sciatica, cervical spondylosis and lumbar spondylosis and disease about spine.

Evidence-based medicine EBM also shows, the scoliosis stretching repetition training of level can improve spinal column side direction pliability, strengthening and stabilizing spine, the structure (bending recessed part) stretching nervous, the structure (bending convex part) of the lax physics of strengthening, but the rehabilitation of scoliosis is most all will through the process of training from continuous passive motion to active exercise, therefore carry out the corresponding training and test significant of creeping that dynamically swayed one's hips.At present both at home and abroad some product of lateral bending training of creeping that initiatively sways one's hips, mainly realize under standing state, the severe case for needing assisted movement to train cannot be realized, more cannot realize the assessment of scoliosis, and current physical training functional training product also lacks image, intuitively visual feedback effect, such patient and instrument just can not carry out interaction, and patient can not judge rehabilitation training effect, do not excite the interest of patient, this long-term and dull training, the rehabilitation process of patient can be affected, cause rehabilitation efficacy undesirable.

Current existing instrumental function is single, can only realize single creep function or scoliosis stretching.Clinical needs cannot be met.

Utility model content

The purpose of this utility model, exactly in order to solve the problem, provides a kind of intelligent spondylopathy device for healing and training.

The purpose of this utility model is achieved in that a kind of intelligent spinal rehabilitation training devices, comprises upper limb climbing mechanism that order arranges, abdominal support mechanism and lower limb sway one's hips climbing mechanism;

Described upper limb climbing mechanism comprises further:

Upper limb is creeped base;

Upper limb creep before push rod, be arranged on upper limb and creep the front portion of base, its lower end and upper limb base of creeping is movably connected;

Upper limb is creeped rear push-rod, is arranged on upper limb and creeps the rear portion of base, and its lower end and upper limb base of creeping is movably connected;

Upper limb is creeped panel, and before creeping with upper limb, the movable upper end of push rod is connected;

Upper limb is creeped tie-beam, is connected with the creep movable upper end of rear push-rod of upper limb;

Upper limb is creeped fixed support, and its lower end and upper limb base of creeping is movably connected, and upper end and upper limb tie-beam of creeping is movably connected;

Two upper limb are creeped guide rail, and its one end panel of creeping with upper limb is respectively fixedly linked, and other end tie-beam of creeping with upper limb is respectively movably connected;

Two upper limb are creeped slide block, are set in two upper limb and creep on guide rail, be separately installed with the handrail for people's grasped on two upper limb creep slide block;

The described lower limb climbing mechanism that sways one's hips comprises further:

Lower limb are creeped base;

Lower limb creep before push rod, be arranged on lower limb and creep the front portion of base, its lower end and lower limb base of creeping is movably connected;

Lower limb are creeped rear push-rod, are arranged on lower limb and creep the rear portion of base, and its lower end and lower limb base of creeping is movably connected;

Lower limb are creeped tie-beam, and before creeping with lower limb, the movable upper end of push rod is connected;

Lower limb are creeped panel, and its one end and lower limb tie-beam of creeping is movably connected, and the creep movable upper end of rear push-rod of the other end and lower limb is connected;

Lower limb are creeped fixed support, and its one end and lower limb base of creeping is movably connected, and the other end and lower limb tie-beam of creeping is movably connected;

Fan-shaped swing slide plate, it is arranged on lower limb and creeps on panel and to be rotatably connected with lower limb tie-beam of creeping, and fan-shaped swing slide plate is provided with two axial elongated slots be arranged in parallel;

Two fan-shaped movable blocks, can to move forward and backward along elongated slot in two elongated slots being inlaid in fan-shaped swing slide plate respectively, two fan-shaped movable blocks are respectively equipped with many arc chutes;

Two shank supporting mechanisms, are connected with the arc chute of two fan-shaped movable blocks respectively and can arcuately move left and right by chute;

Adjustable link, is connected to the distance between scalable two shank supporting mechanisms between two shank supporting mechanisms;

Crank and rocker mechanism, is arranged on lower limb and creeps on base and be connected with the transmission of fan-shaped swing slide plate fan-shaped swing slide plate can be driven to swing.

Described abdominal support mechanism comprises:

Two base for supporting, it is respectively equipped with horizontal concrete chute;

Sliding beam, can transversely move by chute between the horizontal concrete chute being arranged on two base for supporting;

Slide block, is sleeved on sliding beam and can moves along sliding beam;

Support bar, is connected on slide block;

Supporting pad, is connected on support bar;

Support panel, is connected on supporting pad.

Also comprise bindiny mechanism, the lower limb that this bindiny mechanism divides another creep with the upper limb of upper limb climbing mechanism base plate and lower limb to sway one's hips climbing mechanism base plate of creeping is movably connected, and upper limb climbing mechanism and the lower limb climbing mechanism that sways one's hips realizes folding by this bindiny mechanism; Described abdominal support mechanism is arranged on lower limb and creeps the front portion of base plate.

Also comprise upper limb to creep main passive switching mechanism, upper limb main passive switching mechanism of creeping is arranged on upper limb and creeps lower panels being connected by the slide block transmission of creeping of driving chain and upper limb.

Also comprise information management system, this information management system comprises controller, operation display, upper limb displacement transducer, lower limb displacement angle sensor and pressure transducer; Controller is arranged on creep base plate or lower limb of upper limb and creeps on base plate, operation display is arranged on upper limb and creeps on panel, upper limb displacement transducer is arranged on creep guide rail and upper limb of upper limb and creeps between slide block, lower limb displacement angle sensor is arranged on fan-shaped moving slide board, between the supporting pad that pressure transducer is arranged on abdominal support mechanism and support panel; Operation display is connected with the controller signal of telecommunication respectively with each sensor.

Described shank supporting mechanism comprises base for supporting, knee supporting bracket and foot support holder, and base for supporting is connected with the arc chute of the fan-shaped movable block of lower limb and can arcuately moves left and right by chute; The front portion of knee supporting bracket and base for supporting is fixedly linked, foot support holder is connected with the rear adjustable of base for supporting, by regulating the link position scalable knee supporting bracket of foot support holder from the distance between foot support holder to adapt to different lower-leg length; Described adjustable link is connected between two base for supporting.

Described support bar comprises lower beam, upper boom, loop bar and sleeve, and lower beam and upper boom are movably connected collapsible, and loop bar is threaded with upper boom adjustable-height, and sleeve movable set is on lower beam and can be threaded with loop bar; Described supporting pad is connected on loop bar.

Described information management system also comprises the spinal column locational space sensing device for being through on the person, this spinal column locational space sensing device comprise one with the strap of human spine position adaptation, strap both sides are connected with bandage, strap is provided with two Bluetooth wireless transmission sensors, and two Bluetooth wireless transmission sensors are connected with described controller wireless telecommunications respectively.

This utility model achieves the switching of active training and passive exercise, be applicable to the most process all will passing through training from continuous passive motion to active exercise of rehabilitation of disease about spine, and adopt lower limb to sway one's hips the climbing mechanism form that be connected collapsible with the split of upper limb climbing mechanism, decrease the volume of instrument.

Specifically, this utility model has the following advantages and feature:

1, this patent upper limb climbing mechanism adopts rectilinear motion, simulates the feature of the upper extremity exercise in crawling process, combines lower limb along certain circular motion simultaneously, achieves the side waist motion of spinal column.It is the brand-new training method of one of spinal column training motion.Loud noise of crawling under the main passive form of instrument integration is creeped, and sways one's hips and creeps, and kneel support and sway one's hips and creep, climbing to a higher point sways one's hips creeps, the multiple training mode of creeping that sways one's hips such as facedown.

2, abdominal support mechanism is introduced in the structure, realize the training carrying out various pattern under loss of weight in various degree, be applicable to the rehabilitation training at the initial stage of spinal column patient, the up-down adjustment of abdominal support mechanism realizes loss of weight in various degree, before and after abdominal support mechanism, left and right adjusting, changes spinal column at thoracic vertebra, the lumbar vertebra degree of crook of level, realizes the training of comfortable personalization.

3, pressure sensing is set in abdominal support mechanism, in upper limb climbing mechanism, displacement transducer is set, lower limb displacement angle sensor is set in lower limb climbing mechanism, and be provided with vertebral location space sensing device, the moving displacement of upper and lower limbs, vertebra, thoracic vertebra, the mobility of lumbar vertebra survey, the angle of vertebra and the isoparametric mensuration of gradient can be realized.

Accompanying drawing explanation

Fig. 1 is the perspective view of the intelligent spinal rehabilitation training devices of this utility model;

Fig. 2 be this utility model creep for climbing to a higher point state diagram is set;

Fig. 3 is that this utility model sways one's hips to creep for ladder and arranges state diagram;

Fig. 4 is the structural representation of the upper limb climbing mechanism in this utility model;

Fig. 5 is that lower limb in this utility model sway one's hips the structural representation of climbing mechanism;

Fig. 6 is the structural representation of the abdominal support mechanism in this utility model;

Fig. 7 is the structural representation of the spinal column locational space sensing device in this utility model.

Detailed description of the invention

See Fig. 1, Fig. 2, Fig. 3, intelligent spinal rehabilitation training devices of the present utility model, comprises upper limb climbing mechanism 1 that order arranges, abdominal support mechanism 2 and lower limb sways one's hips climbing mechanism 3.

Coordinate see Fig. 4, the upper limb climbing mechanism 1 in this utility model comprise upper limb creep base 11, upper limb creep before push rod 12, upper limb rear push-rod 13, upper limb panel 14, upper limb creep fixed support 16 and two upper limb of tie-beam 15, upper limb of creeping of creeping of creeping to creep guide rail 17.Upper limb creep before push rod 12 be arranged on upper limb and creep the front portion of base, its lower end and upper limb base of creeping is movably connected, and upper end and upper limb panel 14 of creeping is movably connected.Upper limb rear push-rod 13 of creeping is arranged on upper limb and creeps the rear portion of base, and its lower end and upper limb base of creeping is movably connected, and upper end and upper limb tie-beam 15 of creeping is movably connected.Upper limb the creep middle part of base of the lower end of fixed support 16 and upper limb of creeping is movably connected, and upper end and upper limb tie-beam of creeping is movably connected.Two upper limb one end of guide rail 17 panel 14 of creeping with upper limb respectively of creeping is fixedly linked, and other end tie-beam 15 of creeping with upper limb is respectively movably connected.On two upper limb creep guide rail 17, be respectively installed with upper limb to creep slide block 18, upper limb is creeped the handrail 19 slide block is provided with for people's grasped.Upper limb creep before push rod 12 and upper limb rear push-rod 13 of creeping be electric expansion push rod.By regulating the release distance of two push rods to control to creep the inclination angle of the level height of panel and itself and horizontal plane, the training of creeping of different modes can be met.

Coordinate see Fig. 5, the lower limb in this utility model sway one's hips climbing mechanism 3 comprise lower limb creep base 31, lower limb creep before push rod 32, lower limb rear push-rod 33, lower limb creep tie-beam 35, lower limb of panel 34, lower limb of creeping of creeping to creep fixed support 36, the fan-shaped movable block of 37, two, fan-shaped swing slide plate 38, two shank supporting mechanisms 39 and crank and rocker mechanism 30.Lower limb creep before push rod 32 be arranged on lower limb and creep the front portion of base, its lower end and lower limb base of creeping is movably connected.Lower limb rear push-rod 33 of creeping is arranged on lower limb and creeps the rear portion of base, and its lower end and lower limb base of creeping is movably connected.Lower limb creep tie-beam 35 creep with lower limb before the movable upper end of push rod 32 be connected.Lower limb one end of panel 34 and lower limb tie-beam 35 of creeping of creeping is movably connected, and the creep movable upper end of rear push-rod 33 of the other end and lower limb is connected.The lower limb lower end of fixed support 36 and lower limb base of creeping of creeping is movably connected, and upper end and lower limb tie-beam 35 of creeping is movably connected.Fan-shaped swing slide plate 37 is arranged on lower limb and creeps on panel 34 and to be rotatably connected with lower limb tie-beam 35 of creeping, and fan-shaped swing slide plate is provided with two axial elongated slots 371 be arranged in parallel.Can move forward and backward along elongated slot in two elongated slots that two fan-shaped movable blocks 38 are inlaid in fan-shaped swing slide plate respectively, two fan-shaped movable blocks are respectively equipped with many arc chutes 381.Two shank supporting mechanisms 39 are connected with the arc chute of two fan-shaped movable blocks respectively and can arcuately move left and right by chute, this shank supporting mechanism comprises base for supporting, knee supporting bracket 391 and foot support holder 392, and base for supporting is connected with the arc chute of the fan-shaped movable block of lower limb and can arcuately moves left and right by chute; The front portion of knee supporting bracket and base for supporting is fixedly linked, foot support holder is connected with the rear adjustable of base for supporting, by regulating the link position scalable knee supporting bracket of foot support holder from the distance between foot support holder to adapt to different lower-leg length, adjustable link 393 is connected with, by the distance between adjustable link 393 scalable two shank supporting mechanisms between the base for supporting of two shank supporting mechanisms.Crank and rocker mechanism 30 is arranged on lower limb and creeps on base and be connected with the transmission of fan-shaped swing slide plate 37 fan-shaped swing slide plate can be driven to swing.

Lower limb in this utility model creep before push rod 32 and lower limb rear push-rod 33 of creeping be electric expansion push rod.Lower limb creep panel can by the release of former and later two push rods highly regulate its height and with horizontal plane angulation: the two push rods panel-level that keeps suitable release distance simultaneously to act on just can making creeping rises; Push rod 32 drops to minimum, creep when only having push rod 33 to act on panel and horizontal plane angled meet overlook needs of creeping.Push rod launched portion is arranged with facedown and creeps angle (0-20 degree) scale.

Coordinate see Fig. 6, the abdominal support mechanism 2 in this utility model comprises two base for supporting 21, sliding beam 22, slide block 23, support bar 24, supporting pad 25 and support panel 26.Two base for supporting 21 are respectively equipped with horizontal concrete chute; Can transversely move by chute between the horizontal concrete chute that sliding beam 22 is arranged on two base for supporting; Slide block 23 is sleeved on sliding beam and can moves along sliding beam; Support bar 24 is connected on slide block; Supporting pad 25 is connected on support bar; Support panel 26 is connected on supporting pad.Support bar 24 wherein comprises lower beam, upper boom, loop bar 241 and sleeve 242, and lower beam and upper boom are movably connected collapsible, and loop bar is threaded with upper boom adjustable-height, and sleeve movable set is on lower beam and can be threaded with loop bar; Lower beam is connected with slide block 23, and supporting pad 25 is connected on loop bar 241.Abdominal support mechanism can according to the demand for the treatment of, and the feature of individual abdominal part and comfort tuning height, upper end support panel 26 is nick type.Support bar 24 can realize folding, and support bar 24 only need be made vertically sleeve rotating upwards to be entangled upper boom when needs work, support bar the first half can be free to slide, and realizes the up-down adjustment of supporting pad.

Coordinate see Fig. 1, Fig. 2, Fig. 3, this utility model also comprises bindiny mechanism 4, this bindiny mechanism base plate and the lower limb lower limb of climbing mechanism base plate of creeping that sways one's hips of creeping with the upper limb of upper limb climbing mechanism is respectively movably connected, and upper limb climbing mechanism and the lower limb climbing mechanism that sways one's hips realizes folding by this bindiny mechanism; Abdominal support mechanism 2 is arranged on lower limb and creeps the front portion of base plate.

Coordinate see Fig. 1, this utility model also comprises upper limb and to creep main passive switching mechanism 6; Upper limb main passive switching mechanism 6 of creeping is arranged on upper limb and creeps lower panels being connected by the slide block transmission of creeping of driving chain 61 and upper limb.

Coordinate see Fig. 1, this utility model also comprises information management system, and this information management system comprises operation display 5, (not shown next with lower component) controller, upper limb displacement transducer, lower limb displacement angle sensor and pressure transducer; Controller is arranged on creep base plate or lower limb of upper limb and creeps on base plate, operation display is arranged on upper limb and creeps on panel, upper limb displacement transducer is arranged on creep guide rail and upper limb of upper limb and creeps between slide block, lower limb displacement angle sensor is arranged on fan-shaped moving slide board, between the supporting pad that pressure transducer is arranged on abdominal support mechanism and support panel; Operation display is connected with the controller signal of telecommunication respectively with each sensor.Operation display 5 is made up of holder, strut, hinge of living and display floater, wherein holder is fixed on upper limb by screw and creeps on panel, strut is divided into two parts, upper part can slide up and down the height regulating panel, head connects living of being connected with display by pin cut with scissors, the angle of display can be regulated.Strut can be retracted to minimum placement when not in use.

Coordinate see Fig. 7, this utility model information management system also comprises the spinal column locational space sensing device 8 for being through on the person, this spinal column locational space sensing device comprise one with the strap 81 of human spine position adaptation, strap both sides are connected with bandage 82, strap is provided with two Bluetooth wireless transmission sensors, 83, two Bluetooth wireless transmission sensors be connected with described controller wireless telecommunications respectively.Sensor 83 is divided into upper and lower two, and be fixed on strap 81, strap both sides are furnished with bandage up and down, can conveniently be through on trainee's health, for sensor detect trainee in the training process spinal column location parameter provide convenient.

Coordinate see Fig. 2, before the upper limb of upper limb climbing mechanism is creeped, push rod 12 releases long distance, upper limb creeps rear push-rod 13 when releasing relative short distance, upper limb panel 14 of creeping is ramp-like, again according to upper limb creep the release length of rear push-rod 13 regulate lower limb sway one's hips the lower limb of climbing mechanism creep before push rod 32, before lower limb are creeped release distance and the upper limb of push rod 32 creep rear push-rod 13 release distance quite, the lower limb of climbing mechanism of finally being swayed one's hips by lower limb rear push-rod 33 of creeping is released distance and is transferred to relatively short, now creep panel 14 and lower limb of upper limb are creeped ramp-like together with panel 34, namely the creep mode that sways one's hips of climbing to a higher point is become.

Coordinate see Fig. 3, when push rod 12 and upper limb before the upper limb of upper limb climbing mechanism is creeped creep rear push-rod 13 release identical distance time, upper limb creeps panel 14 in level, same adjustment lower limb sway one's hips the lower limb of climbing mechanism creep before push rod 32 and lower limb rear push-rod 33 of creeping release identical distance, and push rod 12 and upper limb creep the release of rear push-rod 13 apart from short before creeping than upper limb, namely become ladder and to sway one's hips creep mode.

The occupation mode of intelligent spinal rehabilitation training devices of the present utility model is as follows: before using, training devices is in initial position, namely two panels of creeping all are in extreme lower position, patient is facilitated to climb up use, doctor regulates the distance between knee supporting bracket 391 and foot support holder 392 according to the lower-leg length of patient, and regulates the distance between two shank supporting mechanisms by adjustable link 393.Be placed in the knee supporting bracket on shank supporting mechanism as patient knees, heel is against in foot support holder, and both hands are held on the handrail that upper limb creeps on slide block, realize cat crawling.If patient only uses heel to be against in foot support holder, both hands are held on the handrail that upper limb creeps on slide block, can realize foot Handball Association and adjust and creep.Also scalable lower limb sway one's hips the release of push rod of climbing mechanism highly regulate its height and with horizontal plane angulation, and link with the push rod of upper limb climbing mechanism and regulate, be adjusted to certain height, the facedown carrying out 0 ~ 20 degree of descending is creeped, also can realize the release distance that two push rods keep suitable, panel-level rising of creeping can be made, bow before upper body, straight-arm support ground, makes whole leg training part do training in Reduction of Students' Study Load and keeps balance to do the descending training of creeping of ladder.Cranking lever endplay device, can realize the function that sways one's hips.

Claims (8)

1. an intelligent spinal rehabilitation training devices, is characterized in that: comprise upper limb climbing mechanism that order arranges, abdominal support mechanism and lower limb sway one's hips climbing mechanism;

Described upper limb climbing mechanism comprises further:

Upper limb is creeped base;

Upper limb creep before push rod, be arranged on upper limb and creep the front portion of base, its lower end and upper limb base of creeping is movably connected;

Upper limb is creeped rear push-rod, is arranged on upper limb and creeps the rear portion of base, and its lower end and upper limb base of creeping is movably connected;

Upper limb is creeped panel, and before creeping with upper limb, the movable upper end of push rod is connected;

Upper limb is creeped tie-beam, is connected with the creep movable upper end of rear push-rod of upper limb;

Upper limb is creeped fixed support, and its lower end and upper limb base of creeping is movably connected, and upper end and upper limb tie-beam of creeping is movably connected;

Two upper limb are creeped guide rail, and its one end panel of creeping with upper limb is respectively fixedly linked, and other end tie-beam of creeping with upper limb is respectively movably connected;

Two upper limb are creeped slide block, are set in two upper limb and creep on guide rail, be separately installed with the handrail for people's grasped on two upper limb creep slide block;

The described lower limb climbing mechanism that sways one's hips comprises further:

Lower limb are creeped base;

Lower limb creep before push rod, be arranged on lower limb and creep the front portion of base, its lower end and lower limb base of creeping is movably connected;

Lower limb are creeped rear push-rod, are arranged on lower limb and creep the rear portion of base, and its lower end and lower limb base of creeping is movably connected;

Lower limb are creeped tie-beam, and before creeping with lower limb, the movable upper end of push rod is connected;

Lower limb are creeped panel, and its one end and lower limb tie-beam of creeping is movably connected, and the creep movable upper end of rear push-rod of the other end and lower limb is connected;

Lower limb are creeped fixed support, and its one end and lower limb base of creeping is movably connected, and the other end and lower limb tie-beam of creeping is movably connected;

Fan-shaped swing slide plate, it is arranged on lower limb and creeps on panel and to be rotatably connected with lower limb tie-beam of creeping, and fan-shaped swing slide plate is provided with two axial elongated slots be arranged in parallel;

Two fan-shaped movable blocks, can to move forward and backward along elongated slot in two elongated slots being inlaid in fan-shaped swing slide plate respectively, two fan-shaped movable blocks are respectively equipped with many arc chutes;

Two shank supporting mechanisms, are connected with the arc chute of two fan-shaped movable blocks respectively and can arcuately move left and right by chute:

Adjustable link, is connected to the distance between scalable two shank supporting mechanisms between two shank supporting mechanisms;

Crank and rocker mechanism, is arranged on lower limb and creeps on base and be connected with the transmission of fan-shaped swing slide plate fan-shaped swing slide plate can be driven to swing.

2. intelligent spinal rehabilitation training devices as claimed in claim 1, is characterized in that: described abdominal support mechanism comprises:

Two base for supporting, it is respectively equipped with horizontal concrete chute;

Sliding fine strain of millet, can transversely move by chute between the horizontal concrete chute being arranged on two base for supporting;

Slide block, is sleeved on sliding beam and can moves along sliding beam;

Support bar, is connected on slide block;

Supporting pad, is connected on support bar;

Support panel, is connected on supporting pad.

3. intelligent spinal rehabilitation training devices as claimed in claim 1, it is characterized in that: also comprise bindiny mechanism, this bindiny mechanism base plate and the lower limb lower limb of climbing mechanism base plate of creeping that sways one's hips of creeping with the upper limb of upper limb climbing mechanism is respectively movably connected, and upper limb climbing mechanism and the lower limb climbing mechanism that sways one's hips realizes folding by this bindiny mechanism; Described abdominal support mechanism is arranged on lower limb and creeps the front portion of base plate.

4. intelligent spinal rehabilitation training devices as claimed in claim 1, it is characterized in that: also comprise upper limb and to creep main passive switching mechanism, upper limb main passive switching mechanism of creeping is arranged on upper limb and creeps lower panels being connected by the slide block transmission of creeping of driving chain and upper limb.

5. intelligent spinal rehabilitation training devices as claimed in claim 1, it is characterized in that: also comprise information management system, this information management system comprises controller, operation display, upper limb displacement transducer, lower limb displacement angle sensor and pressure transducer; Controller is arranged on creep base plate or lower limb of upper limb and creeps on base plate, operation display is arranged on upper limb and creeps on panel, upper limb displacement transducer is arranged on creep guide rail and upper limb of upper limb and creeps between slide block, lower limb displacement angle sensor is arranged on fan-shaped moving slide board, between the supporting pad that pressure transducer is arranged on abdominal support mechanism and support panel; Operation display is connected with the controller signal of telecommunication respectively with each sensor.

6. intelligent spinal rehabilitation training devices as claimed in claim 1, it is characterized in that: described shank supporting mechanism comprises base for supporting, knee supporting bracket and foot support holder, base for supporting is connected with the arc chute of the fan-shaped movable block of lower limb and can arcuately moves left and right by chute; The front portion of knee supporting bracket and base for supporting is fixedly linked, foot support holder is connected with the rear adjustable of base for supporting, by regulating the link position scalable knee supporting bracket of foot support holder from the distance between foot support holder to adapt to different lower-leg length; Described adjustable link is connected between two base for supporting.

7. intelligent spinal rehabilitation training devices as claimed in claim 2, is characterized in that; Described support bar comprises lower beam, upper boom, loop bar and sleeve, and lower beam and upper boom are movably connected collapsible, and loop bar is threaded with upper boom adjustable-height, and sleeve movable set is on lower beam and can be threaded with loop bar; Described supporting pad is connected on loop bar.

8. intelligent spinal rehabilitation training devices as claimed in claim 5, it is characterized in that: described information management system also comprises the spinal column locational space sensing device for being through on the person, this spinal column locational space sensing device comprise one with the strap of human spine position adaptation, strap both sides are connected with bandage, strap is provided with two Bluetooth wireless transmission sensors, and two Bluetooth wireless transmission sensors are connected with described controller wireless telecommunications respectively.