CN217163038U - Cervical vertebra rehabilitation training device - Google Patents

Abstract

The utility model discloses a cervical vertebra rehabilitation trainer, which comprises a head sleeve, a slide block and an elastic resistance rope, wherein the head sleeve is provided with a wearing cavity and a rotating track, the slide block is arranged on the rotating track and slides along the rotating track, and the sliding friction force can be adjusted; one end of the elastic resistance rope is detachably connected with the sliding block, and the other end of the elastic resistance rope is detachably arranged on the external auxiliary fixing piece. The utility model discloses a headgear cover that has clamping mechanism establishes overhead at the training person, elastic resistance rope one end is fixed, the other end is connected with the slider, the training person rotates the head and makes the slider slide on the rotatory track of headgear, carry out the rotation training to the cervical vertebra, the action of certainly making according to the training person, can also bend and stretch training such as to the cervical vertebra to for being suitable for different training persons, setting up clamping mechanism wearing the chamber, and in order to prevent to cause the damage to training person's head, clamping mechanism all is equipped with protective structure.

Description

Cervical vertebra rehabilitation training device

Technical Field

The utility model belongs to the technical field of the recovered apparatus of cervical vertebra, concretely relates to cervical vertebra rehabilitation training device.

Background

Cervical spondylosis, also known as cervical syndrome, is a series of clinical symptoms and signs combined syndrome caused by degenerative changes and secondary changes of cervical intervertebral discs, cervical vertebral joints and related muscles, ligaments and fascia, which stimulate or press tissues such as the surrounding spinal cords, nerves and blood vessels. At present, cervical spondylosis is mainly based on cervical traction and massage to relieve pain, muscle strength rehabilitation training of the cervical spondylosis mainly utilizes an elastic band to train, rotary motion cannot be performed, fixation is not easy, labor of therapists is increased, and social resource waste is caused.

SUMMERY OF THE UTILITY MODEL

To the deficiencies described in the prior art, the utility model provides a cervical vertebra rehabilitation training device.

The utility model discloses the technical scheme who adopts does:

a cervical vertebra rehabilitation trainer comprises a head sleeve, a sliding block and an elastic resistance rope, wherein the head sleeve is provided with a wearing cavity and a rotating track, and the sliding block is arranged on the rotating track and slides along the rotating track; one end of the elastic resistance rope is detachably connected with the sliding block, and the other end of the elastic resistance rope is detachably arranged on the external auxiliary fixing piece.

As a preferred scheme of the utility model, the slide block is provided with a chute and a traction connecting part, the chute is of a T-shaped structure, the rotating track is provided with a T-shaped stopper at a position corresponding to the chute, and the T-shaped stopper is matched with the chute to realize the sliding of the slide block on the rotating track; and the gasket is installed with the position that T type stopper corresponds to the spout inner wall, changes different gaskets and can change the frictional force between slider and the rotatory track to be suitable for different training intensity.

As an optimized scheme of the utility model, be equipped with the resistance adjustment structure between slider and the rotatory track, can adopt adjusting screw or adjust knob to change spout and rotatory track contact dynamics, and then realize changing the resistance when the slider rotates, when not needing to slide, direct lock die can, when needing to slide, make have certain sliding gap between spout and the rotatory track.

As a preferred embodiment of the present invention, the headgear is provided with a clamping mechanism on the inner wall of the wearing cavity and/or a tightening structure on the upper portion of the wearing cavity and/or on the lower portion of the wearing cavity. The clamping mechanism can stabilize the head of a trainer in the wearing cavity, the tightening structure is used for assisting in limiting the head, the tightening structure on the upper portion adopts a magic tape structure, the tightness can be adjusted to be suitable for the heads of different trainers, and the tightening structure on the upper portion can prevent the head of the trainer from moving upwards; the tightening structure of the lower part can adopt a magic tape structure and also can use a rope buckle structure on the helmet, so that the head of a trainer is prevented from moving downwards.

As a preferred embodiment of the present invention, the clamping mechanism comprises an inflatable clamping structure and/or a cushion block clamping structure. The inflatable clamping structure or the cushion block clamping structure can be independently adopted, and the inflatable clamping structure and the cushion block clamping structure can be matched.

As a preferred scheme of the utility model, the inflation clamping structure comprises an inflation and deflation valve, an air pipe and a clamping air bag, the air pipe is arranged in the inflation and deflation channel of the headgear, the air pipe is communicated with the clamping air bag through the inflation and deflation valve, and the clamping air bag is positioned in the wearing cavity; the source inflation port of the trachea exposes out of the headgear, an external inflation device is adopted for inflation or the source inflation port of the trachea is communicated with the saccule, the saccule is arranged in a pressing inflation cavity of the headgear, the saccule is directly placed in the headgear, and the air can be directly pumped in by hand when the air needs to be inflated; when the air needs to be deflated, the air in the clamping air bag can be exhausted by pressing the inflation and deflation valve.

As a preferred scheme of the utility model, the elastic cushion is wrapped outside the clamping air bag, and an expansion space is reserved between the elastic cushion and the clamping air bag; the elastic pad is fixed on the head sleeve. The elastic cushion is made of rubber cushion, a certain gap is formed between the elastic cushion and the inner wall of the wearing cavity of the head sleeve during installation, space is provided for the inflation and expansion of the clamping air bag, and the elastic cushion wraps the positions of the wearing cavity, which are in contact with the head, so that the damage to a trainer during training is avoided;

as an optimized scheme of the utility model, the cushion presss from both sides tight structure, including pressing from both sides tight cushion, pressing from both sides tight auxiliary erection spare, press from both sides tight auxiliary erection spare and install and wear the intracavity wall, press from both sides tight cushion and the detachable installation of tight auxiliary erection spare. The clamping cushion block adopts a foam block, the clamping auxiliary mounting part adopts a hook surface of a magic tape, the foam block can be stuck on the hook surface, the foam block has different thicknesses, and the proper foam block can be replaced according to different trainers, so that the heads of the trainers can be stabilized in the wearing cavity.

As a preferred scheme of the utility model, the head cover comprises an upper head cover ring piece, a track ring plate and a lower head cover ring piece; the upper head sleeve ring piece and the lower head sleeve ring piece are positioned at two sides of the track ring plate and are fixedly connected with the track ring plate; an inflation and deflation channel and a pressing inflation cavity are formed between the upper head sleeve ring piece and the track ring plate; the track ring plate is provided with a rotating track; the abdicating hole of the upper head cover ring piece, the abdicating hole of the track ring plate and the abdicating hole of the lower head cover ring piece form a wearing cavity together.

The utility model adopts the head sleeve to be sleeved on the head of a trainer, one end of the elastic resistance rope is fixed, the other end is connected with the slider, the trainer rotates the head to enable the slider to slide on the rotating track of the head sleeve, and the resistance adjusting structure changes the contact force of the chute and the rotating track, thereby realizing the change of the resistance when the slider rotates, when the slider does not need to slide, the slider is directly locked, and when the slider needs to slide, a certain sliding clearance is formed between the chute and the rotating track; the rotary cervical vertebra training device is used for performing rotary training on the cervical vertebra, bending and stretching of the cervical vertebra can be performed according to actions of trainees, a clamping mechanism is arranged in a wearing cavity to be suitable for different trainees, and the clamping mechanism is provided with a protection structure such as an elastic cushion and a foam block to prevent the head of the trainee from being damaged; and the utility model discloses a clamping mechanism can be aerify and press from both sides tight structure also can be that the cushion presss from both sides tight structure and can also combine to press from both sides tightly, aerifys tight structure and adopts built-in sacculus directly to aerify pressing from both sides tight gasbag, presss from both sides tightly the head after pressing from both sides tight gasbag inflation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the assembly schematic diagram of the sliding block and the rail ring plate of the present invention.

Fig. 3 is a schematic structural view of the pneumatic clamping structure of the present invention.

Detailed Description

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

Example (b):

a cervical vertebra rehabilitation training device is shown in figure 1 and comprises a head sleeve 1, a sliding block 2 and an elastic resistance rope 3. In this embodiment, the headgear 1 adopts a structure including an upper headgear ring 103, a track ring plate 104, and a lower headgear ring; the upper head collar piece 103 and the lower head collar piece are positioned at two sides of the track ring plate 104 and are fixedly connected with the track ring plate 104; an inflation and deflation channel and a pressing inflation cavity are formed between the upper head sleeve ring piece 103 and the track ring plate 104; the track ring plate 104 is provided with a rotating track 101; the abdicating hole of the upper head sleeve ring piece 103, the abdicating hole of the track ring plate 104 and the abdicating hole of the lower head sleeve ring piece together form a wearing cavity.

The slider 2 is mounted on the rotating track 101 and slides along the rotating track 101; as shown in fig. 2, in order to prevent the sliding block from falling, the sliding block 2 is provided with a sliding groove 200 and a traction connecting portion 201, the sliding groove 200 is of a T-shaped structure, a T-shaped limiting block 102 is arranged at a position of the rotating track 101 corresponding to the sliding groove 200, and the T-shaped limiting block 102 is matched with the sliding groove 200 to realize the sliding of the sliding block on the rotating track; and the gasket is installed with the position that T type stopper corresponds to the spout inner wall, changes different gaskets and can change the frictional force between slider and the rotatory track to be suitable for different training intensity.

And be equipped with resistance adjustment structure between slider 2 and rotatory track 101, can adopt adjusting screw or adjust knob to change the spout and the contact dynamics of rotatory track, and then realize changing the resistance when the slider rotates, when not needing to slide, directly lock can, when needing to slide, make have certain sliding gap between spout and the rotatory track.

One end of the elastic resistance rope 3 is detachably connected with the traction connecting part 201 of the slider 2, and the other end of the elastic resistance rope 3 is detachably mounted on the external auxiliary fixing part.

The inner wall of the wearing cavity 100 is provided with a clamping mechanism, and the head cover 1 is provided with a tightening structure at the upper part of the wearing cavity and the lower part of the wearing cavity.

The clamping mechanism can stabilize the head of a trainer in the wearing cavity, the tightening structure is used for assisting in limiting the head, the tightening structure on the upper portion adopts a magic tape structure, the tightness can be adjusted to be suitable for the heads of different trainers, and the tightening structure on the upper portion can prevent the head of the trainer from moving upwards; the tightening structure of the lower part can adopt a magic tape structure and also can use a rope buckle structure on the helmet, so that the head of a trainer is prevented from moving downwards.

The clamping mechanism comprises an inflatable clamping structure and a cushion block clamping structure. In order to save cost, the inflatable clamping structure and the cushion block clamping structure are respectively arranged at the positions corresponding to the forehead and the back of the head.

Of course, the inflatable clamping structure or the cushion block clamping structure can be adopted independently, as long as the head of the trainer can be clamped.

The inflation clamping structure, as shown in fig. 3, comprises an inflation/deflation valve 400, an air tube 401 and a clamping air bag 403, wherein the air tube 401 is installed in the inflation/deflation channel of the headgear 1, the air tube 401 is communicated with the clamping air bag 403 through the inflation/deflation valve 400, the clamping air bag 403 is located in the wearing cavity 100, an elastic cushion 405 is wrapped outside the clamping air bag 403, and an expansion space is reserved between the elastic cushion and the clamping air bag; the elastic pad 405 is fixed to the head cover 1. The elastic cushion adopts the rubber pad, has certain clearance with wearing intracavity wall of headgear during the installation, inflates inflation for pressing from both sides tight gasbag and provides the space to the position that the elastic cushion will wear the chamber and contact with the head all wraps up, avoids training person's harm during the training.

A source inflation port of the air pipe 401 is communicated with the balloon 404, the balloon 404 is arranged in a pressing inflation cavity of the headgear, an opening of the pressing inflation cavity exposes the balloon, and when inflation is needed, manual pumping is directly carried out; when the air needs to be deflated, the air in the clamping air bag can be exhausted by pressing the inflation and deflation valve.

Of course, the headgear 1 may be exposed from the source inflation port of the air tube 401, and an external inflation device may be used for inflation.

The cushion block clamping structure comprises a clamping cushion block 500 and a clamping auxiliary mounting part 501, wherein the clamping auxiliary mounting part 501 is mounted on the inner wall of the wearing cavity 100, and the clamping cushion block 500 and the clamping auxiliary mounting part 501 are detachably mounted. The clamping cushion block adopts a foam block, the clamping auxiliary mounting part adopts a hook surface of a magic tape, the foam block can be stuck on the hook surface, the foam block has different thicknesses, and the proper foam block can be replaced according to different trainers, so that the heads of the trainers can be stabilized in the wearing cavity.

When the cervical vertebra rotation rehabilitation training device is used specifically, a protective cap can be firstly arranged on the head, then the head cap is arranged on the head, then the saccule is used for pressurizing, so that the head cap is tightly attached to the head to be fixed, the friction force between the rotation track and the sliding block is adjusted, finally, one end of the elastic resistance rope 3 is hung into the sliding block, the other end of the elastic resistance rope is fixed by an anchor point, and the cervical vertebra rotation rehabilitation training is started. In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (8)

1. The utility model provides a cervical vertebra rehabilitation training device which characterized in that: the elastic resistance head cover comprises a head cover (1), a sliding block (2) and an elastic resistance rope (3), wherein the head cover (1) is provided with a wearing cavity (100) and a rotating track (101), and the sliding block (2) is arranged on the rotating track (101) and slides along the rotating track (101); one end of the elastic resistance rope (3) is detachably connected with the sliding block (2), and the other end of the elastic resistance rope (3) is detachably arranged on the external auxiliary fixing piece.

2. The cervical rehabilitation training device of claim 1, wherein: the inner wall of the wearing cavity (100) of the head cover (1) is provided with a clamping mechanism, and/or the upper part of the wearing cavity and/or the lower part of the wearing cavity of the head cover (1) is provided with a tightening structure.

3. The cervical rehabilitation training device of claim 2, wherein: the clamping mechanism comprises an inflatable clamping structure and/or a cushion block clamping structure.

4. The cervical rehabilitation training device of claim 3, wherein: the inflation clamping structure comprises an inflation and deflation valve (400), an air pipe (401) and a clamping air bag (403), wherein the air pipe (401) is arranged in an inflation and deflation channel of the headgear (1), the air pipe (401) is communicated with the clamping air bag (403) through the inflation and deflation valve (400), and the clamping air bag (403) is positioned in the wearing cavity (100); the source inflation port of the air pipe (401) is exposed out of the head sleeve (1) or the source inflation port of the air pipe (401) is communicated with the balloon (404), and the balloon (404) is arranged in the pressing inflation cavity of the head sleeve.

5. The cervical rehabilitation training device of claim 4, wherein: an elastic pad (405) is wrapped outside the clamping air bag (403), and an expansion space is reserved between the elastic pad and the clamping air bag; the elastic pad (405) is fixed on the head cover (1).

6. The cervical rehabilitation training device of claim 4, wherein: the cushion block clamping structure comprises a clamping cushion block (500) and a clamping auxiliary mounting part (501), wherein the clamping auxiliary mounting part (501) is arranged on the inner wall of the wearing cavity (100), and the clamping cushion block (500) and the clamping auxiliary mounting part (501) are detachably arranged.

7. The cervical rehabilitation training device of claim 4, wherein: the head sleeve (1) comprises an upper head sleeve ring piece (103), a track ring plate (104) and a lower head sleeve ring piece; the upper head sleeve ring piece (103) and the lower head sleeve ring piece are positioned at two sides of the track ring plate (104) and are fixedly connected with the track ring plate (104); an inflation and deflation channel and a pressing inflation cavity are formed between the upper head sleeve ring piece (103) and the track ring plate (104); the track ring plate (104) is provided with a rotating track (101); the abdicating hole of the upper head cover ring piece (103), the abdicating hole of the track ring plate (104) and the abdicating hole of the lower head cover ring piece form a wearing cavity together.

8. The cervical rehabilitation training device of claim 1, wherein: and a resistance adjusting structure is arranged between the sliding block (2) and the rotating track (101).

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