Decompression traction device for human sub-health state
Technical Field
The invention relates to the technical field of human body sub-health rehabilitation training instruments, in particular to a decompression traction device for a human body in a sub-health state.
Background
As is well known, in modern society, with the improvement of civilization degree, people who are engaged in long-term head-lowering and desk-bending work and engaged in worker T industry and Internet industry are increasingly increased, because neck muscles are in a rigid state for a long time during working, strain is easily caused and causes protrusion of cervical intervertebral discs, hyperosteogeny or inflammation of cervical vertebrae, the cervical spondylosis is promoted to be frequently generated and highly generated, and a plurality of serious complications such as lassitude, memory decline, headache, nerve pain and the like are caused, great pain is brought to patients, furthermore, the lumbar degenerative disease caused by long-term working is also a common disease, is commonly found in adults and mainly accompanied by the protrusion of lumbar intervertebral discs, the hyperosteogeny of lumbar vertebrae, the strain of lumbar muscles, the lateral bending of lumbar vertebrae and other diseases, and because most of the patients with the lumbar spondylosis are accompanied by the diseases
Chronic lumbar muscle or fascia strain, abnormal physiological curvature, lumbar degeneration and other factors compress nerves, and finally cause lumbocrural pain.
At present, the most effective measure for treating cervical vertebra and lumbar vertebra diseases is to treat the diseases by a traction method, namely, traction force is applied to the cervical vertebra and the lumbar vertebra through the principle of mechanical acting force and counterforce to widen the intervertebral space so as to achieve the treatment effect, the traction treatment is safe and effective for preventing and treating cervical vertebra diseases and lumbar degenerative diseases, the existing traction treatment is generally that a patient lies on a traction bed for treatment, the traction in the horizontal direction cannot maintain normal physiological curvature, and the decompression effect is not ideal.
How to solve the above technical problems is the subject of the present invention.
Disclosure of Invention
The invention aims to provide a decompression traction device for a human body in a sub-health state.
The invention is realized by the following measures: the utility model provides a draw gear is decompressed to human sub-health state, includes that the bottom surface is equipped with the bottom plate of supporting leg, sets up the hang plate of bottom plate one end, wherein, the hang plate with be equipped with the regulation between the bottom plate the hang plate with the adjustment mechanism of contained angle between the bottom plate set up foot stop gear on the hang plate.
The adjusting mechanism comprises fixed rods respectively arranged on two of the supporting legs of the bottom plate, a rotating shaft penetrating through round holes at the free end parts of the fixed rods, a gear set arranged at one end of the rotating shaft, a guide piece meshed with the gear set, a sector gear taking the rotating shaft of the guide piece as a central rotating shaft, an annular sleeve arranged on the sector gear, and a linkage rod sleeved in the annular sleeve by a hinged rod at one end;
the bottom surface of the bottom plate is provided with a human body magnetic field analyzer for detecting the sub-health condition of a human body, because the human body magnetic field belongs to a biological magnetic field, the physiological magnetic field of internal organs of the human body is detected by adopting a weak magnetic field measuring method of the magnetic field analyzer, an infrared probe of the human body magnetic field analyzer can collect and analyze magnetic field parameters of organ partitions projected on the surface of the human body, and a corresponding area on the surface of a liver body actively and passively scans the area through a magnetic field, collects signals and compares magnetic field signals of a normal liver area to form a magnetic field treatment environment, wraps or irradiates the liver area, emits normal magnetic field waves and guides cells with abnormal liver cell magnetic field to recover to a normal magnetic field wave band; the human body magnetic field analyzer is beneficial to decompression of sub-health conditions of a human body, and can realize detection of magnetic fields of internal organs of the human body and form a magnetic field treatment environment to help the recovery of the organs; the human body magnetic field analyzer belongs to the prior art, and is not described in detail herein.
Still including connecting actuating lever on the guide, the hinge hole has been seted up to the department of buckling in actuating lever middle section, the hinge hole with fixed axle sliding fit on the bottom plate side.
The gear set includes with the gear wheel of guide part bottom medial surface arc section tooth's socket looks meshing, connect in a gear wheel side, and rather than the pinion that sets up with one heart, the pinion with sector gear meshes mutually.
The foot limiting mechanism comprises a driving gear assembly and a driven gear assembly which are positioned on one side of the inclined plate, a connecting rod arranged between the driving gear assembly and the driven gear assembly, an auxiliary gear assembly I and an auxiliary gear assembly II which are positioned on the other side surface of the inclined plate and respectively correspond to the driving gear assembly and the driven gear assembly, a linkage roller which is bridged between the driving gear assembly and the auxiliary gear assembly I, and a limiting roller which is positioned between the driven gear assembly and the auxiliary gear assembly II and is made of flexible materials.
The driving gear assembly, the driven gear assembly, the auxiliary gear assembly I and the auxiliary gear assembly II are formed by a gear A and a gear B which are connected with each other in an abutting mode and connecting rods positioned on two sides of the gear A and the gear B.
One end of the connecting rod is respectively arranged on the connecting columns corresponding to the two side surfaces of the lower section of the inclined plate.
And the other end parts of the gear A and the link rod in the driven gear assembly and the gear A and the link rod in the secondary gear assembly II are respectively arranged on connecting columns corresponding to two side surfaces of the upper section of the inclined plate.
One end of the connecting rod is sleeved at one end part of the limiting roller, and the other end of the connecting rod is sleeved at one end part of the linkage roller.
The through hole at the other end of the linkage rod is sleeved on one side surface of the inclined plate and is arranged on the connecting column of the driving gear assembly.
The top surface of the inclined plate is provided with a heel pad made of flexible materials.
In actual use, the invention comprises the following steps: the upper half of a user lies on the bottom plate horizontally, the legs are placed on the inclined plate, the feet pass through a gap between the limiting roller and the inclined plate, the heels are placed on the heel pads, the driving rod is held by hands, the guide piece is driven to rotate around the rotating shaft of the guide piece, the gear wheel in the gear set is meshed with the tooth groove of the inner side face arc section at the bottom of the guide piece, at the moment, the gear wheel in the gear set rotates around the rotating shaft, the pinion and the gear wheel synchronously rotate, the sector gear rotates around the rotating shaft due to the meshing of the sector gear and the pinion, the included angle between the inclined plate and the bottom plate is adjusted through the linkage rod sleeved with the annular sleeve on the sector gear, meanwhile, in the process of adjusting the included angle between the inclined plate and the bottom plate, the connecting rod bridged between the driving gear assembly and the driven gear assembly drives the linkage roller between the driving gear assembly and the auxiliary gear assembly I, the realization is to the spacing and the massage of foot, and when the contained angle between hang plate and the bottom plate grow gradually, the interlock roller is close with spacing roller relative distance, and the clearance between spacing roller and the hang plate diminishes promptly, realizes spacing and the effect of massage of hugging closely of spacing roller to foot, because the contained angle grow gradually between hang plate and the bottom plate, realizes the tractive to the shank, drives the tensile motion of human upper half simultaneously, accords with the tractive of human physiology curve, has the decompression effect to user's health.
The invention has the beneficial effects that: the foot limiting mechanism solves the problems that the discomfort caused to the human body by the straight line traction in the prior fixing mode and the human body physiological curve are not met; the limit roller limits and massages the foot, and the included angle between the inclined plate and the bottom plate is gradually changed, so that the traction force is soft, the traction process is more comfortable, and a user can manually control the pressing force on the driving rod according to the comfort level of the user, so that the traction force on the body is controlled; when the upper half of a user lies on the bottom plate horizontally, legs are placed on the inclined plate, feet pass through a gap between the limiting roller and the inclined plate, heels are placed on the heel pads, the driving rod is held by hands, the guide piece is driven to rotate around a rotating shaft of the guide piece, the gear wheel in the gear set is meshed with the tooth groove of the arc section of the inner side face of the bottom of the guide piece, the gear wheel in the gear set rotates around the rotating shaft, the pinion and the gear wheel rotate synchronously, the sector gear rotates around the rotating shaft due to the fact that the sector gear is meshed with the pinion, an included angle between the inclined plate and the bottom plate is adjusted through the linkage rod sleeved with the annular sleeve on the sector gear, and the whole adjusting process; meanwhile, in the process of adjusting the included angle between the inclined plate and the bottom plate, the connecting rod bridged between the driving gear assembly and the driven gear assembly drives the relative distance between the linkage roller positioned between the driving gear assembly and the secondary gear assembly I and the relative distance between the driven gear assembly and the secondary gear assembly II to the limiting roller, when the included angle between the inclined plate and the bottom plate is gradually increased, the relative distance between the linkage roller and the limiting roller is close, namely the gap between the limiting roller and the inclined plate is reduced, the functions of clinging the foot to the limiting roller and massaging are achieved, and the included angle between the inclined plate and the bottom plate is gradually increased, so that the leg can be pulled, meanwhile, the stretching motion of the upper half of the human body can be driven, the pulling of the physiological curve of the human body is met, and the decompression effect is achieved on the body.
Drawings
Fig. 1 is a schematic overall structure diagram of an embodiment of the present invention.
Fig. 2 is a front view of fig. 1.
Fig. 3 is a schematic overall structure diagram of the embodiment of the present invention.
Fig. 4 is a schematic overall structure diagram of the embodiment of the present invention.
Fig. 5 is a partial structural diagram of an embodiment of the present invention.
Fig. 6 is a partial structural diagram of an embodiment of the present invention.
FIG. 7 is a schematic structural diagram illustrating a positional relationship between a foot-limiting mechanism and an inclined plate according to an embodiment of the present invention.
Fig. 8 is a schematic structural diagram of an adjusting mechanism in an embodiment of the invention.
Wherein the reference numerals are: 1. supporting legs; 2. a base plate; 20. a fixed shaft; 3. an inclined plate; 30. connecting columns; 4. an adjustment mechanism; 40. fixing the rod; 41. a rotating shaft; 42. a gear set; 420. a bull gear; 421. a pinion gear; 43. a guide member; 430. a rotating shaft; 431. an arc-shaped section tooth socket; 44. a sector gear; 440. an annular sleeve; 45. a linkage rod; 46. a drive rod; 5. a foot limiting mechanism; 50. a drive gear assembly; 51. a driven gear assembly; 52. a connecting rod; 53. a pinion assembly I; 54. a pinion assembly II; 55. a linkage roller; 56. a limiting roller; 6. a gear A; 7. a gear B; 8. a link rod; 9. a heel pad.
Detailed Description
In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.
Referring to fig. 1 to 8, the present invention is: the utility model provides a draw gear is decompressed to human sub-health state, includes that the bottom surface is equipped with bottom plate 2 of supporting leg 1, sets up the hang plate 3 in 2 one ends of bottom plate, wherein, is equipped with the adjustment mechanism 4 of adjusting the contained angle between hang plate 3 and the bottom plate 2, sets up foot stop gear 5 on hang plate 3.
The adjusting mechanism 4 comprises a fixed rod 40 respectively arranged on two of the supporting legs 2 of the bottom plate 2, a rotating shaft 41 penetrating through a circular hole at the free end part of the fixed rod 40, a gear set 42 arranged at one end of the rotating shaft 41, a guide piece 43 engaged with the gear set 42, a sector gear 44 taking a rotating shaft 430 of the guide piece 43 as a central rotating shaft, an annular sleeve 440 arranged on the sector gear 44, and a linkage rod 45 with one end sleeved in the annular sleeve 440;
the device further comprises a driving rod 46 connected to the guide piece 43, a hinge hole is formed in the bending part of the middle section of the driving rod 46, and the hinge hole is in sliding fit with the fixing shaft 20 on the side face of the bottom plate 2.
The gear set 42 includes a large gear 420 engaged with a tooth groove 431 formed in an arc section of the inner side surface of the bottom of the guide 43, and a small gear 421 connected to one side surface of the large gear 420 and concentrically disposed therewith, the small gear 421 being engaged with the sector gear 44.
The foot limiting mechanism 5 comprises a driving gear assembly 50 and a driven gear assembly 51 which are positioned on one side of the inclined plate 3, a connecting rod 52 arranged between the driving gear assembly 50 and the driven gear assembly 51, a pinion assembly I53 and a pinion assembly II54 which are positioned on the other side surface of the inclined plate 3 and respectively correspond to the driving gear assembly 50 and the driven gear assembly 51, a linkage roller 55 bridged between the driving gear assembly 50 and the pinion assembly I53, and a limiting roller 56 which is positioned between the driven gear assembly 51 and the pinion assembly II54 and is made of flexible materials.
The driving gear assembly 50, the driven gear assembly 51, the auxiliary gear assembly I53 and the auxiliary gear assembly II54 are composed of a gear A6, a gear B7 and links 8 positioned on two sides of the gear A6 and the gear B7 which are in contact with each other.
One end of the gear B7 in the driving gear assembly 50, one end of the link 8 and the gear B7 in the pinion assembly I53 are respectively arranged on the connecting column 30 corresponding to the two sides of the lower section of the inclined plate 3.
The gear A6 in the driven gear assembly 51, the other end of the link 8, and the gear A6 in the pinion assembly II54 are respectively arranged on the connecting columns 30 corresponding to the two sides of the upper section of the inclined plate 3.
One end of the connecting rod 52 is sleeved on one end of the limiting roller 56, and the other end is sleeved on one end of the linkage roller 55.
The through hole at the other end of the linkage rod 45 is sleeved on one side surface of the inclined plate 3 and is arranged on the connecting column 30 of the driving gear assembly 50.
A heel pad 9 made of a flexible material is provided on the top surface of the inclined plate 3.
In actual use, the invention comprises the following steps: the upper half of the user lies on the bottom plate 2, the legs are arranged on the inclined plate 3, the feet pass through the gap between the limiting roller 56 and the inclined plate 3, the heels are arranged on the heel pad 9, the guide piece 43 is driven to rotate around the rotating shaft 430 while the driving rod 46 is held by hand, because the large gear 420 in the gear set 42 is meshed with the tooth socket 431 of the inner side surface of the bottom of the guide piece 43, at the moment, the large gear 420 in the gear set 42 rotates around the rotating shaft 41, the small gear 421 and the large gear 420 rotate synchronously, because the sector gear 44 is meshed with the small gear 421, the sector gear 44 rotates around the rotating shaft 430, the included angle between the inclined plate 3 and the bottom plate 2 is adjusted through the linkage rod 45 sleeved with the annular sleeve 440 on the sector gear 44, meanwhile, in the process of adjusting the included angle between the inclined plate 3 and the bottom plate 2, the connecting rod 52 bridged between the driving gear assembly 50 and the driven gear assembly 51 drives the linkage roller 55 between the driving gear assembly 50 and the relative distance of the limiting roller 56 between the movable gear assembly 51 and the pinion gear assembly II54 realizes the limiting and massage to the feet, when the included angle between the inclined plate 3 and the bottom plate 2 gradually becomes larger, the relative distance between the linkage roller 55 and the limiting roller 56 is close, namely the gap between the limiting roller 56 and the inclined plate 3 becomes smaller, the effect of the limiting roller 56 on the close contact limiting and massage to the feet is realized, because the included angle between the inclined plate 3 and the bottom plate 2 gradually becomes larger, the traction to the legs is realized, the stretching motion of the upper half of the human body is driven uniformly, the traction which conforms to the physiological curve of the human body is realized, and the decompression effect is realized to the body of a user.
The technical features of the present invention which are not described in the above embodiments may be implemented by or using the prior art, and are not described herein again, of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions or substitutions which may be made by those skilled in the art within the spirit and scope of the present invention should also fall within the protection scope of the present invention.