CN113274701A - Orthopedics is with taking exercise recovery device - Google Patents

Abstract

The invention provides an exercise recovery device for orthopedics department, which relates to the technical field of recovery instruments and comprises a bottom frame mechanism, wherein the bottom frame mechanism comprises a bottom support plate, one end of the upper side surface of the bottom support plate is fixedly connected with a rotary connecting frame, the rotary connecting frame is rotatably connected with a transmission touch panel mechanism, a first guide pulley block is fixedly arranged on the lower side surface of the bottom frame mechanism, and a second guide pulley block is fixedly arranged on one side of the rotary connecting frame, which is far away from the first guide pulley block, corresponding to the upper side surface of the bottom support plate. The portable medical infusion support is convenient to carry and install, and the convenience in use is greatly improved.

Description

Orthopedics is with taking exercise recovery device

Technical Field

The invention relates to the technical field of rehabilitation instruments, in particular to an exercise recovery device for orthopedics and traumatology.

Background

The bone injury science of the traditional Chinese medicine is a science for researching and preventing injuries and diseases of skin, flesh, bones, muscles, qi and blood, viscera and meridians of human bodies, has a long history of the bone injury science of the traditional Chinese medicine, is created and developed in the long-term struggle between people of all nationalities and the injuries and diseases of the traumas, forms a rich theoretical system, becomes an independent discipline, is an important component of the Chinese medicine, and makes a contribution to the flourishing of the Chinese nation and the development of the medicine.

However, most of the existing recovery auxiliary instruments for orthopedics and traumatology are simple in structure and single in function, and only can recover a fixed part, so that the instrument is not convenient to carry and has a large workload when facilities are arranged in a hospital.

For example, publication numbers are: CN 212700356U's "a hand nursing and exercising device for orthopedics department", the hand nursing and exercising device for orthopedics department is formed by combining a first chest expander, a second chest expander and a large reset tension spring, one end of the large reset tension spring is detachably connected with the first chest expander, and the other end of the large reset tension spring is detachably connected with the second chest expander; the utility model discloses a device is tempered in hand nursing for orthopedics department simple structure, low cost possesses the function of tempering arm and finger simultaneously to the accessible tensiometer is surveyd the arm recovery condition of self, and the hand grab handle through hollow out construction can accelerate the interior air flow speed of grab handle and scatter through fretwork department with small-size fan, makes the contact position air flow of grab handle and hand accelerate, makes the nice and cool not perspire of hand, and the grab handle can not skid because of the sweat again.

For example, publication numbers are: CN111330226A multifunctional rehabilitation training device for orthopedics department, which structurally comprises a movable seat and a rehabilitation machine, wherein the movable seat is spliced and connected with the rehabilitation machine and consists of a backrest, armrests and a bottom frame mechanism, and the backrest is connected with the armrests in an installing manner; the foot moving device automatically moves the sole to play a role in saving labor, and the rear support is matched and fixed to realize that the lower limb is firmly fixed on the foot moving device and matched with the upper body to perform sitting and standing actions; the back lifting device and the inner handrail play a role in assisting the patient in rehabilitation, so that the training time of lower limb rehabilitation activities is prolonged, a doctor or family can do the exercise with little help if necessary, and the use is very convenient.

Therefore, the existing bone fracture recovery instrument has single function, is inconvenient to carry and use, has the condition of complicated structure and inconvenient use, and has improvement.

Disclosure of Invention

The invention aims to solve the problems that most of recovery auxiliary instruments for orthopedics and traumatology in the prior art are simple, have single functions, can only recover fixed parts, are inconvenient to carry, have large work when facilities are arranged in a hospital, have complicated structures and are inconvenient to use.

In order to achieve the purpose, the invention adopts the following technical scheme: an exercise recovery device for orthopedics department comprises a bottom frame body mechanism, wherein the bottom frame body mechanism comprises a bottom supporting plate, a rotary connecting frame is fixedly connected at one end of the upper side surface of the bottom supporting plate, the rotary connecting frame is rotatably connected with a transmission touch plate mechanism, a first guide pulley block is fixedly arranged on the lower side surface of the bottom frame body mechanism, a second guide pulley block is fixedly arranged at the position, corresponding to the upper side surface of the bottom support plate, of one side of the rotary connecting frame away from the first guide pulley block, the first guide pulley block and the second guide pulley block are both connected on the stretching mechanism, the upper side surface of the bottom supporting plate is connected with the lower side of the transmission touch plate mechanism through a treading weighting mechanism, the upper side surface of the bottom supporting plate is fixedly provided with a push-pull weighting mechanism, and the push-pull weighting mechanism is fixedly connected with the transmission touch plate mechanism.

As a preferred embodiment, transmission touch panel mechanism includes S type footboard, the last side of S type footboard has inlayed a plurality of anti-skidding lines, the one of anti-skidding line is served and is equipped with the rotation limit, rotate the limit and rotate and be connected between the link, fixed welding has the connecting block on the one end outside of rotating the limit is kept away from to S type footboard, a side both ends of S type footboard at connecting block place respectively with draw fixed connection between the both ends of cover, the contact has the diving board on the downside of S type footboard, through rivet connection between a side and the bottom sprag board that S type footboard was kept away from to the diving board.

As a preferred embodiment, the treading weighting mechanism comprises a limiting ring, limiting slide rods are fixed on the outer sides of two opposite ends of the limiting ring, the two limiting slide rods are respectively inserted on two ends of a sliding hanger rod in a sliding manner, two ends of one side, away from the limiting ring, of the sliding hanger rod are respectively and fixedly welded with a double-track frame rod, one end, away from the sliding hanger rod, of the double-track frame rod is vertically fixed on a load pushing frame plate, the load pushing frame plate is arranged between the two limiting slide rods, a sliding connecting rod is fixedly welded on one side, away from the double-track frame rod, of the load pushing frame plate, a spring group is fixedly installed in the middle of the sliding connecting rod, and a plurality of groups of weighting blocks are fixed on the double-track frame rod.

As a preferred embodiment, the push-pull weighting mechanism includes a shaft lever, two ends of the shaft lever are rotatably connected with three guide pulley blocks, two ends of each three guide pulley block are provided with positioning support plates, the positioning support plates are fixedly connected with the shaft lever, the lower ends of the positioning support plates are fixedly welded with the bottom support plate, each three guide pulley block is correspondingly provided with a first telescopic pull rope, one end of the first telescopic pull rope is connected with a volute spring, a push rod is fixed in the middle of the volute spring, two ends of the push rod are correspondingly and fixedly mounted on the two positioning support plates, one end of the first telescopic pull rope, which is far away from the volute spring, is fixed with an end rope fixing frame, and the two end rope fixing frames are both fixedly mounted on the lower side panel of the S-shaped pedal.

As a preferred embodiment, the stretching mechanism includes an elastic foot sleeve, the two ends of one side of the elastic foot sleeve are fixedly connected with connecting buckles, each connecting buckle is fixedly connected with a second telescopic pull rope, one end of the second telescopic pull rope, which is far away from the connecting buckle, is buckled with a hanging buckle, and the hanging buckle is fixedly welded on the lower side panel of the S-shaped pedal.

As a preferred embodiment, the elastic plate comprises a U-shaped plate, a plurality of elastic rods are arranged at the middle section of the U-shaped plate, a plurality of driving lever convex teeth are fixed on two side edges of the inner side surface of each elastic rod, tuning forks are in contact with the lower sides of tooth tips of the driving lever convex teeth, and the lower ends of the tuning forks are fixedly welded on the U-shaped plate.

As a preferred embodiment, the weight is including carrying the pouring weight, the both ends department of carrying the pouring weight all cuts and the draw-in groove, the draw-in groove corresponds the setting with the slip jib, the upper side face inside of carrying the pouring weight is fixed with the extension spring that resets, the extension spring that resets is kept away from the one end of carrying the pouring weight and is consolidated fixed connection between the magnet, the department is fixed with the location and inlays the pole in the middle of the upper side face of carrying the pouring weight, the location inlays the pole and keeps away from one of carrying the pouring weight and serves fixed welding and have a hand ring, it has the caulking groove that agrees with the pole to open the chisel on the lower side panel of.

As a preferable embodiment, a telescopic lifting rope is fixed in the middle of the sliding suspension rod, the telescopic lifting rope is arranged through the limiting ring, and one end of the telescopic lifting rope, which is far away from the sliding suspension rod, is fixedly connected with the connecting block.

As a preferred embodiment, the second telescopic pull rope is slidably connected with the first guide pulley block and the second guide pulley block, the second telescopic pull rope penetrates through the bottom support plate, and the second telescopic pull rope penetrates through the rope body anti-slip hoop.

As a preferred embodiment, the downside of the one end that No. two guide pulley blocks were kept away from to the bottom sprag board is fixed with rubber fixed suction cup, the bottom sprag board department that corresponds above the rubber fixed suction cup link up and is equipped with the opening.

Compared with the prior art, the invention has the advantages and positive effects that:

1. the leg swing training device can be used for leg swing training and trampling training of the legs of a patient, and meanwhile, the arm part of the patient can be pushed and pulled for training, so that the practicability and the application range of the leg swing training device in use are greatly improved.

2. According to the invention, the design of the rotary connection between the bottom support plate and the S-shaped pedal enables a patient to provide resistance force during treading by utilizing the treading weight mechanism and the push-pull weight mechanism connected between the bottom support plate and the S-shaped pedal when the patient treads the S-shaped pedal, so that the exercise effect is realized, the design can also be used as a pressing mode, meanwhile, the S-shaped pedal can be pulled up very conveniently due to the design of the pull sleeve, and the design enables the invention to have the forms of treading, pressing and pulling during use, so that the invention has the effects of exercising leg push-off action and arm push-pull action of the patient, and the diversity of the invention during use is improved.

3. According to the invention, the S-shaped pedal and the telescopic lifting rope are connected through the connecting block, so that the telescopic lifting rope can be stretched when a patient tramples the S-shaped pedal, the weight increasing block is lifted by utilizing the connection of the sliding suspender, the double-track frame rod and the load pushing frame plate, the effect of increasing the trampling resistance is achieved, the exercise purpose is realized, the number of the weight increasing block can be adjusted according to the requirement of the patient, and meanwhile, the design of the spring group enables the tensile force applied to the weight increasing block to be buffered when the weight increasing block is pulled, the change amplitude of the tensile force is reduced, and the injury probability of the patient is reduced.

4. In the invention, the elastic foot sleeve can be sleeved on the sole of a patient or can be directly gripped by a hand and pulled, the S-shaped pedal is pulled through the second telescopic pull rope, and the treading weighting mechanism and the push-pull weighting mechanism can apply corresponding reaction force to the S-shaped pedal when the S-shaped pedal is pulled, so that the reaction force which can be stably changed when the elastic foot sleeve is pulled can be increased, the exercise effect is achieved, and the practicability of the invention is further expanded.

5. According to the invention, through the designed mutual matching of the tuning fork and the convex teeth of the shifting lever, when the elastic rod is extruded and deformed, the convex teeth of the shifting lever can move relative to the tuning fork, and the tuning fork can vibrate when the elastic rod and the shifting lever are staggered, so that the tuning fork can generate sound, and the frequency of the sound is changed according to the trampling frequency of a patient, so that the patient can clearly exercise according to the sound rhythm, the rhythm during exercise is improved, and the probability of reduction of the exercise effect caused by unstable rhythm is reduced.

6. According to the invention, when the first telescopic pull rope is pulled through the designed volute spring, the volute spring can utilize the interaction force generated by the self deformation to enable the first telescopic pull rope to generate stronger reaction force on the S-shaped pedal through the end rope fixing frame, so that the exercise effect is realized, and the reliability of the invention in use is improved.

Drawings

FIG. 1 is a perspective view of an exercise recovery device for orthopedic use in accordance with the present invention;

FIG. 2 is a perspective view showing the connection of the stepping and weighting mechanism of the exercise recovery device for orthopedics and traumatology in accordance with the present invention;

FIG. 3 is a perspective view of the stretching mechanism of the exercise recovery device for orthopedics and traumatology according to the present invention;

FIG. 4 is a perspective view of the push-pull weight mechanism of the exercise recovery device for orthopedics and traumatology according to the present invention;

FIG. 5 is a perspective view of a springboard of the exercise recovery device for orthopedics and traumatology according to the present invention;

FIG. 6 is a perspective view of a bottom frame mechanism of an exercise recovery device for orthopedic use in accordance with the present invention;

FIG. 7 is a perspective view of the rubber fixing suction cup connection of the exercise recovery device for orthopedics and traumatology according to the present invention;

FIG. 8 is a perspective view of a drive touch plate mechanism of an exercise recovery device for use in orthopedics and traumatology according to the present invention;

FIG. 9 is a perspective view of a stepping mechanism of the exercise recovery device for orthopedics and traumatology department in accordance with the present invention;

FIG. 10 is a perspective view of the weight attachment of the exercise recovery device for orthopedics and traumatology in accordance with the present invention;

FIG. 11 is a perspective view of a push-pull weight mechanism of the exercise recovery device for orthopedic use in accordance with the present invention;

FIG. 12 is a perspective view of a stretching mechanism of the exercise recovery device for orthopedics and traumatology according to the present invention;

FIG. 13 is a perspective view of a weight of the exercise recovery device for orthopedics and traumatology according to the present invention;

in the figure: 1. a bottom frame mechanism; 2. a drive touch plate mechanism; 3. a stepping load mechanism; 4. pushing and pulling the weighting mechanism; 5. a stretching mechanism;

11. a bottom support plate; 12. a rubber fixed sucker; 13. a first guide pulley block; 14. a second guide pulley block; 15. the rope body anti-drop hoop; 16. the connecting frame is rotated;

21. an S-shaped pedal; 22. anti-skid lines; 23. rotating the edge; 24. connecting blocks; 25. pulling the sleeve; 26. a spring plate;

31. a limiting ring; 32. a limiting slide bar; 33. a sliding boom; 34. a telescopic lifting rope; 35. a double-track frame rod; 36. a load pushing frame plate; 37. a sliding connecting rod; 38. a spring set; 39. a weighting block;

41. a shaft lever; 42. a third guide pulley block; 43. positioning a support plate; 44. an anti-drop fixed rod; 45. a volute spring; 46. a first telescopic pull rope; 47. an end rope fixing frame;

51. an elastic foot sleeve; 52. a connecting buckle; 53. a second telescopic pull rope; 54. hanging buckles;

261. a U-shaped plate; 262. a spring rod; 263. a deflector rod convex tooth; 264. a tuning fork;

391. a weight carrier; 392. a card slot; 393. a return tension spring; 394. reinforcing the magnet; 395. positioning the embedded rod; 396. a bracelet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1, fig. 6, fig. 7 and fig. 8, the present invention provides a technical solution: an exercise recovery device for orthopedics department comprises a bottom support body mechanism 1, wherein the bottom support body mechanism 1 comprises a bottom support plate 11, a rubber fixing sucker 12 is fixedly installed on the lower side surface of one end, away from a second guide pulley block 14, of the bottom support plate 11, an opening is formed in the position, corresponding to the bottom support plate 11, above the rubber fixing sucker 12, in a penetrating manner, a rotating connecting frame 16 is fixedly connected to one end of the upper side surface of the bottom support plate 11, the rotating connecting frame 16 is rotatably connected with a transmission touch panel mechanism 2, a first guide pulley block 13 is fixedly installed on the lower side surface of the bottom support body mechanism 1, a second guide pulley block 14 is fixedly installed on one side, away from the first guide pulley block 13, of the rotating connecting frame 16, corresponding to the upper side surface of the bottom support plate 11, the first guide pulley block 13 and the second guide pulley block 14 are both connected to a stretching mechanism 5, and the upper side surface of the bottom support plate 11 is connected with the lower side of the transmission touch panel mechanism 2 through a treading weighting mechanism 3, the upper side surface of the bottom supporting plate 11 is fixedly provided with a push-pull weighting mechanism 4, and the push-pull weighting mechanism 4 is fixedly connected with the transmission touch plate mechanism 2.

In this embodiment, the treading mechanism is formed by combining the designed bottom frame mechanism 1 and the transmission touch plate mechanism 2, the leg mechanism of the patient with leg injury can be exercised for rehabilitation, the function of increasing weight during treading and stretching is provided for the invention through the designed bottom frame mechanism 1, the transmission touch plate mechanism 2 and the treading weighting mechanism 3, convenience is provided for the patients in different recovery stages, meanwhile, the force required by the patient during use is further increased through the design of the bottom frame mechanism 1, the transmission touch plate mechanism 2 and the push-pull weighting mechanism 4, and convenience is provided for stretching through the design of mutual matching of the stretching mechanism 5, the treading weighting mechanism 3 and the push-pull weighting mechanism 4.

Example 2

As shown in fig. 1, 2, 3, 4 and 8, the transmission touch panel mechanism 2 includes an S-shaped pedal 21, a plurality of anti-slip stripes 22 are embedded in an upper side surface of the S-shaped pedal 21, one end of each anti-slip stripe 22 is provided with a rotating edge 23, the rotating edge 23 is rotatably connected with the rotating connecting frame 16, a connecting block 24 is fixedly welded on an outer side of one end of the S-shaped pedal 21 away from the rotating edge 23, two ends of one side edge of the S-shaped pedal 21 where the connecting block 24 is located are respectively fixedly connected with two ends of a pull sleeve 25, an elastic plate 26 is contacted on a lower side surface of the S-shaped pedal 21, and one side edge of the elastic plate 26 away from the S-shaped pedal 21 is connected with the bottom supporting plate 11 through a rivet.

In the embodiment, when the patient steps on the S-shaped pedal 21, the resistance force during stepping can be provided by the stepping weight mechanism 3 and the push-pull weight mechanism 4 connected between the bottom support plate 11 and the S-shaped pedal 21 through the design of the rotary connection between the bottom support plate 11 and the S-shaped pedal 21, so that the exercise effect is realized, the design can also be used in a pressing mode, meanwhile, the S-shaped pedal 21 can be very conveniently pulled up through the design of the pull sleeve 25, the design enables the invention to have the modes of stepping, pressing and pulling during use, so that the invention has the effects of exercising leg pushing actions and arm pushing and pulling actions of the patient, and the diversity of the invention during use is improved.

Example 3

As shown in fig. 1, 9 and 10, the treading weighting mechanism 3 includes a limiting ring 31, two limiting slide rods 32 are fixed on the outer sides of the two opposite ends of the limiting ring 31, the two limiting slide rods 32 are respectively inserted on the two ends of a sliding suspension rod 33 in a sliding manner, a telescopic suspension rope 34 is fixed in the middle of the sliding suspension rod 33, the telescopic suspension rope 34 penetrates through the limiting ring 31, one end of the telescopic suspension rope 34 far away from the sliding suspension rod 33 is fixedly connected with a connecting block 24, two double-track frame rods 35 are vertically fixedly welded on the two ends of one side of the sliding suspension rod 33 far away from the limiting ring 31, one end of the double-track frame rod 35 far away from the sliding suspension rod 33 is vertically fixed on a load-carrying push frame plate 36, the load-carrying push frame plate 36 is arranged between the two limiting slide rods 32, a sliding link 37 is fixedly welded on one side of the load carrying push frame plate 36 far away from the double-track frame rod 35, a spring group 38 is fixedly installed in the middle of the sliding link 37, a plurality of groups of weight-increasing blocks 39 are fixed on the double-frame rod 35.

In this embodiment, the design of connecting through connecting block 24 between S type footboard 21 and the flexible lifting rope 34, make and to stretch flexible lifting rope 34 when the patient tramples S type footboard 21, thereby utilize the slip jib 33, the connection of double track hack lever 35 and load carrying frame plate 36 lifts up weight 39, reach the effect that increases and trample the resistance, realize the purpose of taking exercise, the quantity of weight 39 can be adjusted according to patient' S demand this moment, the design of spring assembly 38 makes when weight 39 is pulled, its pulling force that receives can be cushioned simultaneously, reduce the range of pulling force change, reduce the injured probability of patient.

Example 4

As shown in fig. 1, 4 and 11, the push-pull weighting mechanism 4 includes a shaft rod 41, two ends of the shaft rod 41 are rotatably connected with three guide pulley blocks 42, two ends of each three guide pulley block 42 are respectively provided with a positioning support plate 43, the positioning support plates 43 and the shaft rod 41 are fixedly connected, the lower end of each positioning support plate 43 is fixedly welded to the bottom support plate 11, each three guide pulley block 42 is correspondingly provided with a first telescopic pull rope 46, one end of each first telescopic pull rope 46 is connected with a volute spring 45, a push rod 44 is fixed in the middle of the volute spring 45, two ends of the push rod 44 are correspondingly and fixedly installed on the two positioning support plates 43, one end of each first telescopic pull rope 46 far away from the volute spring 45 is fixed with an end rope fixing frame 47, and the two end rope fixing frames 47 are both fixedly installed on the lower side panel of the S-shaped pedal 21.

In the embodiment, when the first telescopic pull rope 46 of the present invention is pulled by the designed volute spring 45, the volute spring 45 can utilize the interaction force generated by the self deformation to make the first telescopic pull rope 46 generate a stronger reaction force to the S-shaped pedal 21 through the end rope fixing frame 47, so as to achieve the effect of exercise and improve the reliability of the present invention in use.

Example 5

As shown in fig. 1, 3 and 12, the stretching mechanism 5 includes an elastic foot sleeve 51, a connecting buckle 52 is fixedly connected to both ends of one side of the elastic foot sleeve 51, a second telescopic pull rope 53 is fixedly connected to each connecting buckle 52, a sliding connection is arranged between the second telescopic pull rope 53 and the first guide pulley block 13 and the second guide pulley block 14, the second telescopic pull rope 53 penetrates through the bottom support plate 11, the second telescopic pull rope 53 penetrates through the rope body anti-separation hoop 15, a hanging buckle 54 is buckled to one end of the second telescopic pull rope 53 far away from the connecting buckle 52, and the hanging buckle 54 is fixedly welded to the lower side plate of the S-shaped pedal 21.

In the present embodiment, the elastic foot cover 51 may be fitted over the sole of the foot of the patient, or may be grasped directly by the hand and pulled, and the S-shaped pedal 21 is pulled by the second retractable cord 53, and the stepping weight mechanism 3 and the push-pull weight mechanism 4 apply corresponding reaction forces thereto when the S-shaped pedal 21 is pulled, so that the reaction force that can be stably changed when the elastic foot cover 51 is pulled is increased, thereby achieving the exercise effect and further expanding the practicability of the present invention.

Example 6

As shown in fig. 1, 4 and 5, the elastic plate 26 includes a U-shaped plate 261, a plurality of elastic rods 262 are disposed at a middle section of the U-shaped plate 261, a plurality of lever convex teeth 263 are fixed on both sides of an inner side surface of the elastic rods 262, a tuning fork 264 is in contact with a lower portion of a tooth tip of each lever convex tooth 263, and a lower end of the tuning fork 264 is fixedly welded on the U-shaped plate 261.

In this embodiment, through the designed mutual matching of the tuning fork 264 and the lifting lever convex tooth 263, when the elastic rod 262 is extruded and deformed, the lifting lever convex tooth 263 can move relative to the tuning fork 264, and when the two are dislocated with each other, the tuning fork 264 vibrates, so as to generate sound, and the frequency of the sound generation changes according to the trampling frequency of a patient, so that the patient can clearly exercise according to the sound rhythm, the rhythm during exercise is improved, and the probability of the reduction of the exercise effect caused by unstable rhythm is reduced.

Example 6

As shown in fig. 1, 2, 9, 10 and 13, the weight 39 includes a weight 391, two ends of the weight 391 are both cut and provided with a slot 392, the slot 392 is provided corresponding to the sliding hanger 33, a return tension spring 393 is fixed inside an upper side surface of the weight 391, one end of the return tension spring 393 far away from the weight 391 is fixedly connected with the reinforcing magnet 394, a positioning embedded rod 395 is fixed in the middle of the upper side surface of the weight 391, one end of the positioning embedded rod 395 far away from the weight 391 is fixedly welded with a bracelet 396, and an embedded groove matched with the positioning embedded rod 395 is cut on a lower side surface of the weight 391.

In this embodiment, when the weights 39 are stacked, the positioning embedded bars 395 on the upper side of the weights 391 are matched with the embedded grooves on the lower side of the weights 391, so that the adjacent weights 391 can be combined with each other, thereby increasing the stability when stacked, and meanwhile, the designed reinforcing magnet 394 is used for absorbing the adjacent weights 391, thereby further increasing the overall stability when the weights 391 are stacked, and improving the stability of the present invention when in use.

The working principle is as follows:

as shown in fig. 1-13, when the present invention is used, when a user needs to do rehabilitation exercise to the leg, the user can step on the lower end of the S-shaped pedal 21 with the heel, then place the sole on the anti-skid veins 22, and then perform the exercise to the lower leg part by stepping on, when stepping on, the U-shaped plate 261 and the elastic rod 262 are squeezed to generate deformation, and the reaction force generated in the process provides resistance to stepping on, so as to improve the exercise effect when stepping on;

meanwhile, the relative displacement generated by the S-shaped pedal 21 and the bottom supporting plate 11 can also cause the S-shaped pedal 21 to pull the weighting block 39 to displace through the telescopic lifting rope 34, and the reaction force generated in the process directly acts on the S-shaped pedal 21, so that the reaction force provided by the invention during the stepping exercise can be improved, and at the moment, the end rope fixing frame 47 connected with the S-shaped pedal 21 can pull the volute spring 45 through the first telescopic pulling rope 46 to generate elastic deformation, so that the reaction force provided by the S-shaped pedal 21 during the stepping exercise can be further improved, and the exercise effect of the invention can be further improved;

the principle of exercising the arms of the patient is the same as the above principle by pressing the S-shaped pedal 21 with the arms;

the pull sleeve 25 designed by the invention can be used by a patient to pull the anti-skid veins 22 to enable the anti-skid veins to rotate reversely, and the treading weighting mechanism 3 and the pushing and pulling weighting mechanism 4 are used for providing relative reaction force, thereby achieving the effect of exercising the inner muscles and wrists of the arms of the patient and further expanding the application range of the invention; when the elastic foot sleeve 51 designed by the invention is sleeved on the sole of the patient, the patient can exercise the legs of the patient in all directions by swinging the legs, so that the convenience of the invention in use is further improved.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims (10)

1. The utility model provides an orthopedics is with tempering device, includes bottom support body mechanism (1), its characterized in that: the bottom support body mechanism (1) comprises a bottom support plate (11), a rotary connecting frame (16) is fixedly connected at one end of the upper side of the bottom support plate (11), the rotary connecting frame (16) is rotatably connected with a transmission touch panel mechanism (2), a first guide pulley block (13) is fixedly installed on the lower side surface of the bottom support body mechanism (1), one side, away from the first guide pulley block (13), of the rotary connecting frame (16) is fixedly provided with a second guide pulley block (14) corresponding to the upper side of the bottom support plate (11), the first guide pulley block (13) and the second guide pulley block (14) are both connected on a stretching mechanism (5), the upper side surface of the bottom support plate (11) is connected with the lower side of the transmission touch panel mechanism (2) through a treading weighting mechanism (3), and a push-pull weighting mechanism (4) is fixedly installed on the upper side surface of the bottom support plate (11), the push-pull weighting mechanism (4) is fixedly connected with the transmission touch plate mechanism (2).

2. The exercise recovery device for orthopedics department of claim 1, characterized in that: transmission touch panel mechanism (2) are including S type footboard (21), the last side of S type footboard (21) is embedded to have a plurality of anti-skidding line (22), one of anti-skidding line (22) is served and is equipped with rotation limit (23), rotate limit (23) and rotate and be connected between link (16), fixed weld has connecting block (24) on the one end outside of rotating limit (23) is kept away from in S type footboard (21), a side both ends of S type footboard (21) at connecting block (24) place respectively with draw fixed connection between the both ends of cover (25), it has diving board (26) to touch on the downside of S type footboard (21), through rivet connection between a side that S type footboard (21) was kept away from in diving board (26) and bottom sprag board (11).

3. The exercise recovery device for orthopedics department of claim 1, characterized in that: the treading weighting mechanism (3) comprises a limiting ring (31), limiting slide rods (32) are fixed on the outer sides of two opposite ends of the limiting ring (31), the two limiting slide rods (32) are respectively inserted on two ends of a sliding suspender (33) in a sliding way, the two ends of one side of the sliding suspender (33) far away from the limit ring (31) are vertically and fixedly welded with double-track frame rods (35), one end of the double-track frame rod (35) far away from the sliding hanger rod (33) is vertically fixed on the load pushing frame plate (36), the load-carrying walking frame plate (36) is arranged between the two limiting slide rods (32), a sliding connecting rod (37) is fixedly welded on one side surface of the loading pushing frame plate (36) far away from the double-track frame rod (35), a spring group (38) is fixedly arranged in the middle of the sliding connecting rod (37), and a plurality of groups of weighting blocks (39) are fixed on the double-track frame rod (35).

4. The exercise recovery device for orthopedics department of claim 1, characterized in that: the push-pull weighting mechanism (4) comprises a shaft lever (41), two ends of the shaft lever (41) are respectively and rotatably connected with a third guide pulley block (42), two ends of each third guide pulley block (42) are respectively provided with a positioning support plate (43), the positioning support plates (43) are fixedly connected with the shaft lever (41), the lower end of each positioning support plate (43) is fixedly welded with the bottom supporting plate (11), each third guide pulley block (42) is correspondingly provided with a first telescopic pull rope (46), one end of each first telescopic pull rope (46) is connected with a volute spring (45), the middle of each volute spring (45) is fixedly provided with a push rod (44), two ends of each push rod (44) are correspondingly and fixedly arranged on the two positioning support plates (43), one end of each first telescopic pull rope (46) far away from the volute spring (45) is fixedly provided with an end rope fixing frame (47), and the two end rope fixing frames (47) are fixedly arranged on the lower side panel of the S-shaped pedal (21).

5. The exercise recovery device for orthopedics department of claim 1, characterized in that: the stretching mechanism (5) comprises elastic foot sleeves (51), wherein connecting buckles (52) are fixedly connected to two ends of one side of each elastic foot sleeve (51), each connecting buckle (52) is fixedly connected with a second telescopic pull rope (53), one end, far away from the connecting buckles (52), of the second telescopic pull rope (53) is buckled with a hanging buckle (54), and the hanging buckle (54) is fixedly welded on the lower side panel of the S-shaped pedal (21).

6. The exercise recovery device for orthopedics department of claim 2, wherein: the elastic plate (26) comprises a U-shaped plate (261), the middle stage of the U-shaped plate (261) is provided with a plurality of elastic rods (262), a plurality of deflector rod convex teeth (263) are fixed on two sides of the inner side of the elastic rods (262), each of the deflector rod convex teeth (263) is in contact with a tuning fork (264) below the tooth tip, and the lower end of the tuning fork (264) is fixedly welded on the U-shaped plate (261).

7. The exercise recovery device for orthopedics department according to claim 3, characterized in that: weight (39) are including weight bearing piece (391), the both ends department of weight bearing piece (391) all cuts a hole and draw-in groove (392), draw-in groove (392) correspond the setting with slide hanger rod (33), the inside extension spring that resets (393) that is fixed with of the upside face of weight bearing piece (391), fixed connection between one end that weight bearing piece (391) was kept away from in extension spring that resets (393) and reinforcement magnet (394), the middle department of the upside face of weight bearing piece (391) is fixed with location embedded rod (395), the fixed welding in one end that weight bearing piece (391) was kept away from in location embedded rod (395) has hand ring (396), it has the caulking groove that agrees with location embedded rod (395) to open the chisel on the lower side board of weight bearing piece (391).

8. The exercise recovery device for orthopedics department according to claim 3, characterized in that: the middle of the sliding suspender (33) is fixed with a telescopic lifting rope (34), the telescopic lifting rope (34) penetrates through the limiting ring (31) and is fixedly connected with the connecting block (24) at one end of the telescopic lifting rope (34) far away from the sliding suspender (33).

9. The exercise recovery device for orthopedics department of claim 5, wherein: sliding connection sets up between No. two flexible stay cord (53) and a guide pulley block (13) and No. two guide pulley block (14), No. two flexible stay cord (53) run through bottom sprag board (11) and set up, No. two flexible stay cord (53) run through rope body anticreep hoop (15) and set up.

10. The exercise recovery device for orthopedics department of claim 1, characterized in that: bottom sprag board (11) keep away from the one end downside fixed mounting of No. two guide pulley group (14) has rubber fixed suction cup (12), bottom sprag board (11) department that rubber fixed suction cup (12) top corresponds link up and is equipped with the opening.

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