The spinal column drawing-off gas column maneuver of multilamellar gas column type spinal column pad
Technical field
The present invention relates to multilamellar gas column type spinal column pad, relate in particular to the spinal column drawing-off gas column maneuver of multilamellar gas column type spinal column pad.
Background technology
Vertebra also claims spinal column, backbone, by the special vertebra of form and intervertebral disc, is linked, and is positioned at center, back, the upper skull that connects, and middle part is connected with rib, and lower end and hipbone form pelvis.Spinal column has 7, cervical vertebra, 12 of thoracic vertebras, 5,1 rumpbone of lumbar vertebra (synthetic by 5 sacrals) and 1 coccyx and sacrum (being synthesized by 4 caudal vertebras) totally 26 (adult) vertebra independently from top to bottom.Vertebra inside forms the ridge pipe of a stringer from top to bottom, inside has spinal cord.Spinal column is a quite soft structure that again can be movable.Along with the movement load of health, the shape of spinal column can have sizable change.
In recent years, people, for cause and livelihood, work day by day busy, and diet is unhealthy and do not get enough athletic exercise, and most people is all in sub-health state.The people who is more particularly engaged in mental work, is sitting in office all day, facing to computer work, the long-term sitting posture that keeps is bent over one's desk working, very easily cause endocrinopathy, ophthalmic, sacred disease etc., and be mostly chronic disease, treatment is difficult, treatment cycle is long and easily outbreak repeatedly.The vertebra class disease such as hyperosteogeny, intervertebral disc prolapse, sciatica, cervical spondylosis particularly, general medicine is difficult to radical cure, be to adopt naturopathy means mostly, client need goes to hospital or rehabilitation center carry out massage, acupuncture or use the rehabilitations such as equipment draws.
And the spinal traction device using is at present generally rigid structure, by pulling force, spinal column is drawn, for example the patent No. is 200820025712.9, patent name is in the patent of a < < spine traction bed > >, a kind of spine traction bed is disclosed, comprise a body, head traction frame and step fixed mount, it is characterized in that: the two ends of described bed body are provided with mobile bed plate, described head traction frame is arranged on mobile bed plate, described step fixed mount is arranged on mobile bed plate, one side of described bed body is provided with traction frame, project organization of the present invention is simple, easy to use, flexible operation, corrective force distributes rationally, spinal column is played to good correcting, the traction of twocouese stretches, avoid the fatigue that spinal column fragment position is caused.
Adopt at present this rigid structure the spinal column of human body to be proofreaied and correct to the method for traction, cannot stretch to human spine's every skeleton, to the therapeutic effect of spinal column class disease not obvious; Meanwhile, in therapeutic process, human body, without any comfortable sensation, even can be felt pain.
Summary of the invention
In order to overcome the deficiencies in the prior art, the object of the present invention is to provide a kind of spinal column drawing-off gas column maneuver of the multilamellar gas column type spinal column pad that can stretch to every vertebra of spinal column.
Technical scheme of the present invention is: the spinal column drawing-off gas column maneuver of multilamellar gas column type spinal column pad, described multilamellar gas column type spinal column pad is arranged on a body, multilamellar gas column type spinal column pad is sequentially rearranged by more than 10 groups multilamellar gas column structures, multilamellar gas column type spinal column pad is wrapped with spongy layer, the inflation cross section of multilamellar gas column type spinal column pad is elliptical cylinder-shape matrix, when human body lies in multilamellar gas column type spinal column pad, the cervical region of human body is to being placed between buttocks on multilamellar gas column type spinal column pad, every group of multilamellar gas column structure is vertical with human spine, between two adjacent groups multilamellar gas column structure, interconnect, described multilamellar gas column structure comprises the two-layer above gas column sequentially connecting, every layer of gas column is all connected with valve, the valve of described adjacent layer gas column passes through pipeline connection, described multilamellar gas column structure also comprises air-channel system and controller, described air-channel system comprises control valve and air pump, the described valve of respectively organizing the wherein one deck gas column in multilamellar gas column structure is connected with each control valve by pipeline respectively, each control valve is respectively equipped with air inlet pipe and exhaustor, each control valve is connected with air pump by air inlet pipe, each control valve is also connected with controller, in described controller, be also provided with buffer, in buffer, store the sequencing contro table of respectively organizing the inflation of multilamellar gas column structure or aerofluxus more than two, described controller is according to the sequencing contro table in buffer, control the opening and closing of each control valve, corresponding control is respectively organized multilamellar gas column structure and is inflated or aerofluxus, each is organized multilamellar gas column structure and according to putting in order, forms corrugated arching upward, formation is rolled to each vertebra of human spine, support, beat, stretch or lead racking and do.
In the present invention, described controller is by controlling the opening and closing of control valve, and when each vertebra of human spine is carried out to scroll actions, its concrete operations are:
1) described controller is controlled and is opened N control valve and inflate to corresponding N group multilamellar gas column structure, is full of the ground floor gas column that N organizes multilamellar gas column structure;
2) controller is controlled and to be continued to open N control valve and continue to inflate to the N group multilamellar gas column structure of correspondence, is full of the second layer gas column that N organizes multilamellar gas column structure; Meanwhile, controller is also controlled and is opened N+1 control valve and inflate to corresponding N+1 group multilamellar gas column structure, is full of the ground floor gas column of N+1 group multilamellar gas column structure;
3) controller continues respectively to control and opens N and N+1 control valve, continue respectively to inflate to corresponding N group and N+1 group multilamellar gas column structure, be full of respectively the 3rd layer of gas column of N group multilamellar gas column structure and the second layer gas column of N+1 group multilamellar gas column structure, at this moment three layers of gas column of N group multilamellar gas column structure reach inflation saturation, and N group multilamellar gas column structure stretches to the vertebra in the human spine of correspondence position; Meanwhile, controller is also controlled and is opened N+2 control valve, starts to inflate to N+2 group multilamellar gas column structure, is full of the ground floor gas column of N+2 group multilamellar gas column structure; Three groups of multilamellar gas column structures form corrugated Wave crest and wave trough;
4) controller is controlled and is opened N control valve, and N group multilamellar gas column structure is carried out to aerofluxus, makes the ground floor gas column aerofluxus of N group multilamellar gas column structure complete; Simultaneously, controller continues respectively control and opens N+1 and N+2 control valve, continue respectively to inflate to corresponding N+1 group and N+2 group multilamellar gas column structure, the 3rd layer of gas column of N+1 group multilamellar gas column structure is full of, the second layer gas column of N+2 group multilamellar gas column structure is full of, at this moment N+1 group multilamellar gas column structure reaches inflation saturation, and N+1 group multilamellar gas column structure stretches to the vertebra in the human spine of correspondence position; Meanwhile, controller is also controlled and is opened N+3 control valve, starts to inflate to N+3 group multilamellar gas column structure, and the ground floor gas column of N+3 group multilamellar gas column structure is full of; At this moment, N+1 group, N+2 group and N+3 group multilamellar gas column structure form corrugated Wave crest and wave trough;
5) controller is controlled and is opened N and N+1 control valve, and N group and N+1 multilamellar gas column structure are carried out to aerofluxus, makes the second layer gas column aerofluxus of N group multilamellar gas column structure complete, and the ground floor gas column aerofluxus of N+1 multilamellar gas column structure is complete; Simultaneously, controller continues respectively control and opens N+2 and N+3 control valve, continue respectively to inflate to corresponding N+2 group and N+3 group multilamellar gas column structure, the 3rd layer of gas column of N+2 group multilamellar gas column structure is full of, the second layer gas column of N+3 group multilamellar gas column structure is full of, at this moment N+2 group multilamellar gas column structure reaches inflation saturation, and N+2 group multilamellar gas column structure stretches to the vertebra in the human spine of correspondence position; Simultaneously, controller is also controlled and is opened N+4 control valve, starts to inflate to N+4 group multilamellar gas column structure, and the ground floor gas column of N+4 group multilamellar gas column structure is full of, at this moment, N+2 group, N+3 group and N+4 group multilamellar gas column structure form corrugated Wave crest and wave trough;
6) controller is controlled and to be opened N, N+1 and N+2 control valve, N group, N+1 and N+2 group multilamellar gas column structure are carried out to aerofluxus, make the 3rd layer of gas column aerofluxus of N group multilamellar gas column structure complete, make the second layer gas column aerofluxus of N+1 group multilamellar gas column structure complete, the ground floor gas column aerofluxus of N+2 group multilamellar gas column structure is complete; Simultaneously, controller continues respectively control and opens N+3 and N+4 control valve, continue respectively to inflate to corresponding N+3 group and N+4 group multilamellar gas column structure, the 3rd layer of gas column of N+3 group multilamellar gas column structure is full of, the second layer gas column of N+4 group multilamellar gas column structure is full of, at this moment N+3 group multilamellar gas column structure reaches inflation saturation, and N+3 group multilamellar gas column structure stretches to the vertebra in the human spine of correspondence position; Meanwhile, controller is also controlled and is opened N+5 control valve, starts to inflate to N+5 group multilamellar gas column structure, makes the ground floor gas column of N+5 group multilamellar gas column structure enter to be full of;
Loop step 1) to the operation of step 6), each is organized multilamellar gas column structure and according to putting in order, forms corrugated arching upward, and each organizes multilamellar gas column structure when inflation saturation, in the state of arching upward and to the human spine of correspondence position, stretches.
In the present invention, described controller is by controlling the opening and closing of control valve, and when human spine's thoracic is beaten to action, its concrete operations are:
1) described controller is controlled the control valve of opening multilamellar gas column structure corresponding to human spine's thoracic, and to this group multilamellar gas column structure inflation, three gas columns of this group multilamellar gas column structure is full of;
2) controller controls the control valve cut out multilamellar gas column structure corresponding to human spine's thoracic, makes this group multilamellar gas column structure maintenance inflated condition;
3) controller is controlled the control valve open multilamellar gas column structure corresponding to human spine's thoracic, this group multilamellar gas column structure is exitted complete;
4) repeating step 1) to the operation of step 3), make this group multilamellar gas column structure repeat to beat action to human spine's thoracic.
Further, in the present invention, described controller is by controlling the opening and closing of control valve, when human spine's lumbar vertebra is beaten to action, set the corresponding Y group of human spine's lumbar vertebra, Y+1 group, Y+2 group multilamellar gas column structure, these concrete operations of beating action are:
1) described controller is controlled respectively the control valve of opening Y+1 and Y+2 group multilamellar gas column structural correspondence, and these two groups of multilamellar gas column structures are inflated, and three layers of gas column of Y+1 group and Y+2 group multilamellar gas column structure are all full of;
2) controller is controlled the control valve of opening Y group multilamellar gas column structural correspondence, and to this group multilamellar gas column structure inflation, three layers of gas column of Y group multilamellar gas column structure is all full of; Meanwhile, controller is controlled respectively the control valve of opening Y+1 and Y+2 group multilamellar gas column structural correspondence, and these two groups of multilamellar gas column structures are carried out to aerofluxus, makes three layers of equal aerofluxus of gas column of Y+1 group and Y+2 group multilamellar gas column structure complete;
3) repeating step 1) to step 2) operation, Y group, Y+1 group, Y+2 group multilamellar gas column respective outer side edges, beat human spine's lumbar vertebra.
Further, described multilamellar gas column type spinal column pad comprises 16-20 group multilamellar gas column structure.
Further, after described every layer of gas column inflation, be elliptical cylinder-shape, long is 60-120cm, width is 8-12cm, after inflation, is highly 4-5cm.
Further, described respectively group more than multilamellar gas column structure maximum arches upward and recessed difference in height reaches 12cm.
Further, between described each layer of gas column, gluing connection or each layer of gas column are contained in cellular Bouguer container cavity.
The spinal column drawing-off gas column maneuver of multilamellar gas column type spinal column pad of the present invention, adopt controller to control the opening and closing of each intake valve and each air bleeding valve, control and respectively organize multilamellar gas column structure according to corrugated the arching upward of formation that put in order, form each vertebra of human spine is rolled, supports, beats, stretched or leads racking and do.The present invention successfully by gas column structure applications in spinal traction device, human spine is carried out in drafting process, not only can make human body feel comfortably cool, but also can carry out drawing-off to every skeleton of spinal column, reach the object of correct spinal.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the present invention is further detailed explanation:
Fig. 1 is the structural representation of multilamellar gas column type spinal column pad of the present invention;
Fig. 2 is the structural representation of one group of multilamellar gas column structure of the present invention.
The specific embodiment
Below in conjunction with the specific embodiment, the present invention is further detailed explanation.
As shown in Figure 1 or 2, the spinal column drawing-off gas column maneuver of multilamellar gas column type spinal column pad, described multilamellar gas column type spinal column pad 10 is arranged on a body, multilamellar gas column type spinal column pad 10 is sequentially rearranged by more than 10 groups multilamellar gas column structures 20, multilamellar gas column type spinal column pad 10 is wrapped with spongy layer 30, the inflation cross section of multilamellar gas column type spinal column pad 10 is elliptical cylinder-shape matrix, when human body lies in multilamellar gas column type spinal column pad 10, the cervical region of human body is to being placed between buttocks on multilamellar gas column type spinal column pad 10, every group of multilamellar gas column structure 20 is vertical with human spine, between two adjacent groups multilamellar gas column structure 20, interconnect, described multilamellar gas column structure 20 comprises the two-layer above gas column 21 sequentially connecting, every layer of gas column 21 is all connected with valve 40, the valve 40 of described adjacent layer gas column passes through pipeline connection, described multilamellar gas column structure 20 also comprises air-channel system 50 and controller 60, described air-channel system 50 comprises control valve 51 and air pump 52, the described valve 40 of respectively organizing the wherein one deck gas column in multilamellar gas column structure 20 is connected with each control valve 51 by pipeline respectively, each control valve 51 is respectively equipped with air inlet pipe 511 and exhaustor 512, each control valve 51 is connected with air pump 52 by air inlet pipe 511, each control valve 51 is also connected with controller 60, in described controller 60, be also provided with buffer 61, in buffer 61, store the sequencing contro table of respectively organizing 20 inflations of multilamellar gas column structure or aerofluxus more than two, described controller 60 is according to the sequencing contro table in buffer 61, control the opening and closing of each control valve 51, corresponding control is respectively organized multilamellar gas column structure 20 and is inflated or aerofluxus, each is organized multilamellar gas column structure 20 and according to putting in order, forms corrugated arching upward, formation is rolled to each vertebra of human spine, support, beat, stretch or lead racking and do.
Multilamellar gas column type spinal column pad 10 of the present invention comprises 16-20 group multilamellar gas column structure, and while guaranteeing that human body lies in multilamellar gas column type spinal column pad 10, the cervical region of human body is to being placed between buttocks on multilamellar gas column type spinal column pad 10.
After every layer of gas column 21 inflations of the present invention, be elliptical cylinder-shape, long is 60-120cm, and width is 8-12cm, after inflation, is highly 4-5cm.While being applied in multilamellar gas column type spinal column pad 10 because of gas column 21 of the present invention, for gas column 21 and human body back are better fitted, after described gas column 21 inflations, be elliptical cylinder-shape.In order to make many group multilamellar gas column structures 20 be used in conjunction with in process and can stretch to human spine's every vertebra, the width of the every layer of gas column 21 in multilamellar gas column structure 20 can not surpass 12cm, and the poor need of overall height of multilamellar gas column structure 20 dipping and heavings are greater than 12cm.Because the difference in height of gas column 21 requires greatly, and that width requires is smaller, so if adopt the gas column structure of existing monolayer, cannot realize above-mentioned requirement completely, can only just can reach above-mentioned requirements by multilamellar gas column structure 20 of the present invention.Many group multilamellar gas column structures 20 are used in conjunction with in process, controller 60 is according to the sequencing contro table in buffer 61, control the opening and closing of each control valve 51, thereby control is respectively organized multilamellar gas column structure 20 and is inflated and aerofluxus, each is organized multilamellar gas column structure 20 and according to putting in order, forms corrugated arch upward or recessed, thereby reaches the effect that human spine's every vertebra is stretched.
Of the present invention respectively group more than multilamellar gas column structure 20 maximums arch upward and recessed difference in height reaches 12cm, thus can stretch to human spine.Meanwhile, multilamellar gas column type spinal column pad of the present invention 10 couples of human spine carry out in drawing process, not only can make human body feel comfortably cool, but also can stretch to every vertebra of spinal column, reaches the object of correct spinal.
Between described each layer of gas column 21, gluing connection or each layer of gas column are contained in cellular Bouguer container cavity 70, thereby can prevent that each layer of gas column 21 is shifted in inflation or exhaust process.
Below by three specific embodiments, set forth the spinal column drawing-off gas column maneuver of multilamellar gas column type spinal column pad of the present invention.
Embodiment 1 carries out the concrete operations of scroll actions for multilamellar gas column type spinal column pad to human spine.
In the present embodiment, described controller 60 is by controlling the opening and closing of control valve 51, and when each vertebra of human spine is carried out to scroll actions, its concrete operations are:
1) described controller 60 is controlled and is opened N control valve 51 and inflate to corresponding N group multilamellar gas column structures 20, is full of the ground floor gas column 21 that N organizes multilamellar gas column structure 20;
2) controller 60 is controlled and is continued to open N control valve 51 and continue to inflate to corresponding N group multilamellar gas column structure 20, is full of the second layer gas column 21 that N organizes multilamellar gas column structure 20; Meanwhile, controller 60 is also controlled and is opened N+1 control valve 51 and inflate to corresponding N+1 group multilamellar gas column structures 20, is full of the ground floor gas column 21 of N+1 group multilamellar gas column structure 20;
3) controller 60 continues respectively to control and opens N and N+1 control valve 51, continue respectively to inflate to corresponding N group and N+1 group multilamellar gas column structure 20, be full of respectively the 3rd layer of gas column 21 of N group multilamellar gas column structure 20 and the second layer gas column 21 of N+1 group multilamellar gas column structure 20, at this moment three layers of gas column 21 of N group multilamellar gas column structure 20 reach inflation saturation, and the vertebra in the human spine of 20 pairs of correspondence positions of N group multilamellar gas column structure stretches; Meanwhile, controller 60 is also controlled and is opened N+2 control valve 51, starts to inflate to N+2 group multilamellar gas column structure 20, is full of the ground floor gas column 21 of N+2 group multilamellar gas column structure 20; Three groups of multilamellar gas column structures 20 form corrugated Wave crest and wave trough;
4) controller 60 is controlled and is opened N control valve 51, and N group multilamellar gas column structure 20 is carried out to aerofluxus, makes ground floor gas column 21 aerofluxuss of N group multilamellar gas column structure 20 complete; Simultaneously, controller 60 continues respectively control and opens N+1 and N+2 control valve 51, continue respectively to inflate to corresponding N+1 group and N+2 group multilamellar gas column structure 20, the 3rd layer of gas column 21 of N+1 group multilamellar gas column structure 20 is full of, the second layer gas column 21 of N+2 group multilamellar gas column structure 20 is full of, at this moment N+1 group multilamellar gas column structure 20 reaches inflation saturation, and the vertebra in the human spine of 20 pairs of correspondence positions of N+1 group multilamellar gas column structure stretches; Meanwhile, controller 60 is also controlled and is opened N+3 control valve 51, starts to inflate to N+3 group multilamellar gas column structure 20, and the ground floor gas column 21 of N+3 group multilamellar gas column structure 20 is full of; At this moment, N+1 group, N+2 group and N+3 group multilamellar gas column structure 20 form corrugated Wave crest and wave trough;
5) controller 60 is controlled and is opened N and N+1 control valve 51, N group and N+1 multilamellar gas column structure 20 are carried out to aerofluxus, make second layer gas column 21 aerofluxuss of N group multilamellar gas column structure 20 complete, ground floor gas column 21 aerofluxuss of N+1 multilamellar gas column structure 20 are complete; Simultaneously, controller 60 continues respectively control and opens N+2 and N+3 control valve 51, continue respectively to inflate to corresponding N+2 group and N+3 group multilamellar gas column structure 20, the 3rd layer of gas column 21 of N+2 group multilamellar gas column structure 20 is full of, the second layer gas column 21 of N+3 group multilamellar gas column structure 20 is full of, at this moment N+2 group multilamellar gas column structure 20 reaches inflation saturation, and the vertebra in the human spine of 20 pairs of correspondence positions of N+2 group multilamellar gas column structure stretches; Simultaneously, controller 60 is also controlled and is opened N+4 control valve 51, start to inflate to N+4 group multilamellar gas column structure 20, the ground floor gas column 21 of N+4 group multilamellar gas column structure 20 is full of, at this moment, N+2 group, N+3 group and N+4 group multilamellar gas column structure 20 form corrugated Wave crest and wave trough;
6) controller 60 is controlled and is opened N, N+1 and N+2 control valve 51, N group, N+1 and N+2 group multilamellar gas column structure 20 are carried out to aerofluxus, make the 3rd layer of gas column 21 aerofluxus of N group multilamellar gas column structure 20 complete, make second layer gas column 21 aerofluxuss of N+1 group multilamellar gas column structure 20 complete, ground floor gas column 21 aerofluxuss of N+2 group multilamellar gas column structure 20 are complete; Simultaneously, controller 60 continues respectively control and opens N+3 and N+4 control valve 51, continue respectively to inflate to corresponding N+3 group and N+4 group multilamellar gas column structure 20, the 3rd layer of gas column 21 of N+3 group multilamellar gas column structure 20 is full of, the second layer gas column 21 of N+4 group multilamellar gas column structure 20 is full of, at this moment N+3 group multilamellar gas column structure 20 reaches inflation saturation, and the vertebra in the human spine of 20 pairs of correspondence positions of N+3 group multilamellar gas column structure stretches; Meanwhile, controller 60 is also controlled and is opened N+5 control valve 51, starts to inflate to N+5 group multilamellar gas column structure 20, makes the ground floor gas column 21 of N+5 group multilamellar gas column structure 20 enter to be full of;
Loop step 1) to the operation of step 6), each is organized multilamellar gas column structure 20 and according to putting in order, forms corrugated arching upward, and each organizes multilamellar gas column structure 20 when inflation saturation, in the state of arching upward and to the human spine of correspondence position, stretches.
In the present invention, multilamellar gas column type spinal column pad is similar with scroll actions to the support of each vertebra of human spine, the action that stretches.
Embodiment 2 beats the concrete operations of action for 10 couples of human spine's of multilamellar gas column type spinal column pad thoracic.
Described controller 60 is by controlling the opening and closing of control valve 51, and when human spine's thoracic is beaten to action, its concrete operations are:
1) described controller 60 is controlled the control valve 51 of opening multilamellar gas column structure 20 corresponding to human spine's thoracic, and to these group multilamellar gas column structure 20 inflations, three layers of gas column 21 of this group multilamellar gas column structure 20 is full of;
2) controller 60 controls the control valve 51 of cutting out multilamellar gas column structure 20 corresponding to human spine's thoracic, makes this group multilamellar gas column structure 20 maintenance inflated conditions;
3) controller 60 is controlled the control valve 51 of opening multilamellar gas column structure 20 corresponding to human spine's thoracic, makes this group multilamellar gas column structure 20 exit complete;
4) repeating step 1) to the operation of step 3), make 20 couples of human spine's of this group multilamellar gas column structure thoracic repeat to beat action.
Embodiment 3 beats the concrete operations of action for 10 couples of human spine's of multilamellar gas column type spinal column pad lumbar vertebra.
Described controller 60, by controlling the opening and closing of control valve 51, when human spine's lumbar vertebra is beaten to action, is set the corresponding Y group of human spine's lumbar vertebra, Y+1 group, Y+2 group multilamellar gas column structure, and these concrete operations of beating action are:
1) described controller 60 is controlled respectively the control valve 51 of opening Y+1 and Y+2 group multilamellar gas column structure 20 correspondences, and these two groups of multilamellar gas column structures 20 are inflated, and three layers of gas column 21 of Y+1 group and Y+2 group multilamellar gas column structure are all full of;
2) controller 60 is controlled the control valve 51 of opening Y group multilamellar gas column structure 20 correspondences, and to these group multilamellar gas column structure 20 inflations, three layers of gas column 21 of Y group multilamellar gas column structure 20 is all full of; Meanwhile, controller 60 is controlled respectively the control valve 51 of opening Y+1 and Y+2 group multilamellar gas column structure 20 correspondences, and these two groups of multilamellar gas column structures 20 are carried out to aerofluxus, makes the equal aerofluxus of three layers of gas column 21 of Y+1 group and Y+2 group multilamellar gas column structure 20 complete;
3) repeating step 1) to step 2) operation, Y group, Y+1 group, Y+2 group multilamellar gas column structure 20 coordinate, and human spine's lumbar vertebra is beaten.