CN216724908U - Graphene air cushion ankle guard - Google Patents

Abstract

The utility model provides a graphene air cushion ankle guard, which comprises: the ankle guard body is internally provided with an interlayer; the air cushions are strip-shaped and arranged in the interlayer; when the ankle guard body is fixed on the ankle, the plurality of air cushions surround the ankle; the graphene heating module is arranged in the interlayer and used for heating to carry out physiotherapy on ankles; the temperature control module is arranged in the interlayer, is connected with the graphene heating module and is used for controlling the graphene heating module to carry out heating physiotherapy on the ankle within a preset temperature range; and the fixing part is arranged on the ankle guard body and used for fixing the ankle guard body on the ankle. The graphene air cushion ankle guard provided by the utility model combines the functions of fixing and heating physiotherapy on the ankle joint, solves the disadvantage that the traditional ankle guard and ankle joint physiotherapy device cannot simultaneously play roles in supporting, fixing and thermotherapy, and is more practical.

Description

Graphene air cushion ankle guard

Technical Field

The utility model relates to the technical field of novel physiotherapy equipment, in particular to a graphene air cushion ankle guard.

Background

Ankle joint injuries are the most common diseases in joint and ligament injuries, accounting for 40% of all sports injuries. Immediately after injury, the patient suffers from pain and swelling and skin bruising on the injured part. Ankle injuries often involve soft tissue damage, loosening and even tearing of ligaments, and require stable fixation to promote repair after joint replacement. In the rehabilitation process, muscles, tendons and ligaments around joints are often stiff and rigid due to local pain stimulation and lack of activities, so that the risks of tendon degeneration and heterotopic ossification are increased, the ankle joint is stiff, and in addition, if the joint surfaces are subjected to aseptic inflammation stimulation caused by trauma for a long time, the joint surfaces are easy to accelerate aging and degeneration, and arthritis is caused.

Conservative treatment is generally adopted at present for mild ankle joint injury. Conservative treatment mainly comprises brace fixation and physiotherapy. The physical therapy is mainly divided into cold compress for the first 48 hours after injury and heat cure for the latter. The course of conservative treatment is long, usually up to 3 to 6 months. At present, the cold compress treatment aiming at the early stage of ankle joint injury is popularized more perfectly, and sufficient attention is not paid to the heat treatment and the supporting and fixing aiming at the later stage. The local thermotherapy can accelerate local microcirculation and tissue fluid and lymph metabolism, thereby reducing local proinflammatory factors and relieving joint aging and degeneration degree. In addition, the local heat treatment can also eliminate the stiff feeling of the achilles tendon and the ligament, increase the flexibility of muscles near the ankle joint and improve the prognosis when relieving the pain of a patient with ankle joint injury. Therefore, long-term physical therapy recovery of ankle joint injuries is very important for disease prognosis.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides the graphene air cushion ankle guard which can be attached to the ankle joint for effective support after the ankle joint is damaged and can carry out effective hot compress physical therapy on the ankle joint.

The utility model adopts the following technical scheme for solving the technical problems:

the utility model provides a graphene air cushion ankle guard, which comprises:

the ankle guard body is internally provided with an interlayer;

the air cushions are strip-shaped and arranged in the interlayer; when the ankle guard body is fixed on the ankle, the plurality of air cushions surround the ankle;

the graphene heating module is arranged in the interlayer and used for heating to carry out physiotherapy on the ankle;

the temperature control module is arranged in the interlayer, is connected with the graphene heating module and is used for controlling the graphene heating module to carry out heating physiotherapy on the ankle within a preset temperature range; and

the fixing part is arranged on the ankle guard body and used for fixing the ankle guard body on the ankle.

Further, the ankle guard body is made of high molecular polymer through three-dimensional weaving.

Further, the graphene heating module includes:

the graphene heating sheets are used for heating physiotherapy;

the first control unit is connected with the plurality of graphene heating sheets and controls the graphene heating sheets to heat; and

the first power supply is connected with the first control unit and the plurality of graphene heating sheets.

Further, the temperature control module includes:

the temperature detection components are used for detecting and sending temperature information in the graphene air cushion ankle guard;

the analog-to-digital conversion unit is connected with the plurality of temperature detection components and used for converting the temperature information into signals and sending the signals;

the second control unit is connected with the analog-to-digital conversion unit and the first control unit, receives the signals, judges whether the temperature information is in a preset temperature interval or not, and sends a control signal to the first control unit; and

and the second power supply is connected with the plurality of temperature detection components, the analog-to-digital conversion unit and the second control unit.

Further, divide into a plurality of vertically arranged subregion in the intermediate layer, include:

a plurality of first partitions are internally provided with air cushions; and

the plurality of second partitions are internally provided with graphene heating sheets and temperature detection components;

in the interlayer, a plurality of first partitions and a plurality of second partitions are sequentially arranged at intervals.

Furthermore, the temperature detection component is a temperature sensor, and the material of the temperature detection component comprises graphene.

Furthermore, the temperature control module further comprises a remote control unit connected with the second control unit and used for remotely adjusting the preset temperature interval.

Furthermore, the whole ankle guard body is rectangular except two adjacent corners; when the ankle support body is fixed to the ankle, the narrower portion of the lower end thereof is disposed at a position corresponding to the Achilles tendon.

Further, the fixing member includes:

the transverse fixing belt is arranged on one side of the ankle guard body and is parallel to the bottom edge of the rectangle; the transverse fixing belt is fixed on the ankle guard body around the shank; and

the oblique fixing band is arranged on the oblique edge of the ankle guard body; the oblique fixing belt is fixed on the ankle guard body around the foot;

be provided with the magic on horizontal fixed band and the slant fixed band and paste the son face, be provided with the magic that matches with the magic subsides son face on the ankle guard body and paste female face.

Furthermore, the middle section of the oblique fixing band is provided with a super-elastic skin-attached anti-slip fabric at a position corresponding to the sole of the human body.

By adopting the technical scheme, compared with the prior art, the utility model has the following technical effects:

the graphene air cushion ankle guard provided by the utility model is provided with the strip-shaped air cushion structures which are longitudinally arranged, so that powerful support can be provided for ankle joints, the problem of local compression of the traditional steel sheet support on medial malleolus and lateral malleolus can be solved, and the graphene air cushion ankle guard can be more attached to the surfaces of the ankle joints; this internal graphite alkene heating module and the temperature control module that still sets up of ankle guard can carry out the hot compress physiotherapy to the ankle joint continuously and steadily, promotes local blood circulation, eliminates proinflammatory factor for the ankle joint is recovered. The graphene air cushion ankle guard provided by the utility model combines the functions of fixing and heating physiotherapy on the ankle joint, solves the disadvantage that the traditional ankle guard and ankle joint physiotherapy device cannot simultaneously play roles in supporting, fixing and thermotherapy, and is more practical.

Drawings

Fig. 1 is a schematic diagram of an internal interlayer structure of a graphene air cushion ankle guard provided in an embodiment of the present invention;

fig. 2 is a schematic view of a graphene air cushion ankle guard provided in an embodiment of the present invention;

fig. 3 is a schematic view of a graphene heating module in a graphene air cushion ankle guard provided in an embodiment of the present invention;

fig. 4 is a schematic diagram of a temperature control module in an ankle brace of a graphene air cushion according to an embodiment of the present invention;

fig. 5 is a schematic view illustrating that the graphene air cushion ankle guard is fixed to an ankle joint according to an embodiment of the present invention;

wherein the reference numerals are: 10-ankle support body, 11-first partition, 12-second partition, 20-air cushion, 30-graphene heating module, 31-graphene heating sheet, 32-first control unit, 33-first power supply, 40-temperature control module, 41-temperature detection component, 42-analog-digital conversion unit, 43-second control unit, 44-second power supply, 45-remote control unit, 50-fixing component, 51-transverse fixing band, 52-oblique fixing band and 521-super-elastic skin-attached anti-slip fabric.

Detailed Description

The present invention provides a graphene air cushion ankle guard, and the following detailed description is made for better understanding of the technical solution of the present invention with reference to the accompanying drawings, but not for limiting the scope of the present invention.

As shown in fig. 1 to 4, the present invention provides a graphene air cushion ankle brace, which includes an ankle brace body 10, a plurality of air cushions 20, a graphene heating module 30, a temperature control module 40, and a fixing member 50. The ankle guard body 10 is internally provided with an interlayer, the plurality of air cushions 20, the graphene heating module 30 and the temperature control module 40 are all arranged in the interlayer, and the fixing part 50 is arranged on the outer surface of the ankle guard body 10 to fix the ankle guard body 10 on the ankle.

The ankle support body 10 is made of a polymer three-dimensional knitted fabric, and in a preferred embodiment of the utility model, the ankle support body 10 is made of a polyurethane nanofiber three-dimensional knitted fabric, has high elasticity, and is suitable for wearing.

The air cushions 20 are strip-shaped and arranged in the interlayer; when the ankle support body 10 is fixed on the ankle, the plurality of air cushions 20 surround the ankle; play the supporting role to the ankle joint of damage to for traditional ankle joint brace, air cushion 20 can laminate unqualified ankle joint surface better, avoid leading to the discomfort to ankle joint part position oppression.

The graphene heating module 30 is used for heating and physiotherapy on the ankle and comprises a plurality of graphene heating sheets 31, a first control unit 32 and a first power supply 33. The first power supply 33 is connected with and supplies power to the graphene heating sheet 31 and the first control unit 32; the plurality of graphene heating sheets 31 are all connected with the first control unit 32 and generate heat under the control of the first control unit, so that heating physiotherapy is performed on the ankle joint.

Temperature control module 40 connects graphite alkene heating module 30 for control graphite alkene heating module 30 heats the physiotherapy at a preset temperature interval to the ankle. The temperature control module 40 specifically includes a plurality of temperature detection parts 41, an analog-to-digital conversion unit 42, a second control unit 43, and a second power supply 44. The plurality of temperature detection components 41 are used for detecting and sending temperature information in the ankle guard of the graphene air cushion; the analog-to-digital conversion unit 42 is connected with the plurality of temperature detection components 41 and is used for converting the temperature information into a signal and sending the signal; the second control unit 43 is connected to the analog-to-digital conversion unit 42 and the first control unit 32, receives the signal, determines whether temperature information corresponding to the signal is within a preset temperature range, and sends a control signal to the first control unit 32, so that the first control unit 32 controls the graphene heating sheet 31 to start heating or close; the second power supply 44 is connected to the plurality of temperature detection parts 41, the analog-to-digital conversion unit 42, and the second control unit 43 to supply power.

For example, after ankle injury, if physiotherapy needs to be performed at a temperature of 37 ℃ to 39 ℃, the preset temperature interval may be set in the second control unit 43 to be 37 ℃ to 39 ℃, and if the plurality of temperature detection components 41 detect that the average temperature in the ankle guard is lower than 37 ℃, the second control unit 43 sends a control signal to the first control unit 32, so that the plurality of graphene heating sheets 31 are heated; if the plurality of temperature detecting components 41 detect that the average temperature in the ankle brace is higher than 39 ℃, the second control unit 43 sends a control signal to the first control unit 32, so that the plurality of graphene heating sheets 31 are turned off to stop heating, thereby maintaining the temperature in the ankle brace within a preset temperature range.

The temperature detection member 41 is a temperature sensor, and the material thereof includes graphene. The graphene material has high-efficiency electric heat conversion performance, so that the graphene heating sheet 31 is higher in heating efficiency and more power-saving than a traditional resistance electric heating sheet. And the graphene temperature sensor is more accurate.

The temperature control module 40 further includes a remote control unit 45 connected to the second control unit 43 for remotely adjusting the preset temperature range. The remote control unit 45 may be configured as an APP on a mobile phone, a tablet computer, or a smart watch, and is connected to the second control unit 43 through a wireless connection manner such as bluetooth or WLAN, and the preset temperature range may be adjusted according to a requirement, for example, 37 ℃ to 39 ℃ or 39 ℃ to 41 ℃.

The interior of the interlayer is divided into a plurality of vertically arranged partitions, including a plurality of first partitions 11 and a plurality of second partitions 12. An air cushion 20 is arranged in each first partition 11; each second partition 12 is internally provided with a graphene heating sheet 31 and a temperature detection component 41; in the interlayer, the first sub-areas 11 and the second sub-areas 12 are sequentially arranged at intervals, so that the supporting function of the air cushion 20 and the heating function of the graphene heating module 30 are arranged at intervals, and the physical therapy function is better.

As shown in fig. 5, the ankle support body 10 has a rectangular shape except two adjacent corners, and has a hexagonal shape; when the ankle support body 10 is fixed to the ankle, the narrow middle point of the lower end of the ankle support body is wrapped at the position corresponding to the achilles tendon, and the two sides of the ankle support body 10 are crossed in front of the tibia.

The fixing member 50 includes a lateral fixing strap 51 and an oblique fixing strap 52. The transverse fixing strap 51 is arranged on one side of the ankle guard body 10 and is parallel to the rectangular bottom edge without two corners; the lateral fixing strap 51 is looped around the lower leg and then fixed to the ankle support body 10. The oblique fixing strap 52 is arranged on the oblique edge of the ankle support body 10; the diagonal fixing band 52 is fixed to the ankle support body 10 around the foot. The ankle support body 10 can be fixed to the ankle joint by the lateral fixing strap 51 and the diagonal fixing strap 52 without being separated or slipping on the lower leg.

The lateral fixing band 51 and the oblique fixing band 52 are provided with hook and loop fastener surfaces, and the ankle guard body 10 is provided with a hook and loop fastener surface matched with the hook and loop fastener surfaces. The transverse fixing band 51 and the oblique fixing band 52 are respectively wound around the lower leg and the sole by the magic tape surface and the magic tape mother surface, and then are adhered to the ankle guard body 10 for fixing.

The middle section of the oblique fixing band 52 is provided with a super-elastic skin-attached anti-slip fabric 521 corresponding to the sole of the human body, so that the ankle guard is more comfortable to use. In a preferred embodiment of the present invention, the super elastic anti-slip skin-contacting fabric 521 is disposed on the oblique fixing band 52 at a position corresponding to the contact of the two sides of the sole.

The function principle of the graphene air cushion ankle guard provided by the utility model is to generate a fixing support effect and a thermal therapy effect on an ankle joint. The ankle guard is internally provided with the longitudinal and qi-moving pad strip, can be applied to irregular ankle joints under the condition of pressurization, generates powerful support, and is not easy to cause local tenderness.

The embodiments of the present invention have been described in detail, but the embodiments are merely examples, and the present invention is not limited to the embodiments described above. Any equivalent modifications and substitutions to the practice would be obvious to those skilled in the art and are intended to be within the scope of the present invention. Accordingly, equivalent changes and modifications made without departing from the spirit and scope of the present invention should be covered by the present invention.

Claims (10)

1. The utility model provides a graphite alkene air cushion ankle guard which characterized in that includes:

the ankle guard body (10) is internally provided with an interlayer;

a plurality of air cushions (20) in the shape of strips arranged in the interlayer; when the ankle protection body (10) is fixed on the ankle, the plurality of air cushions (20) surround the ankle;

the graphene heating module (30) is arranged in the interlayer and used for heating to carry out physiotherapy on the ankle;

the temperature control module (40) is arranged in the interlayer, is connected with the graphene heating module (30) and is used for controlling the graphene heating module (30) to carry out heating physiotherapy on the ankle within a preset temperature range; and

and a fixing part (50) which is arranged on the ankle protecting body (10) and is used for fixing the ankle protecting body (10) on the ankle.

2. The graphene air cushion ankle brace according to claim 1, wherein the ankle brace body (10) is made of a high polymer three-dimensional knit.

3. The graphene air cushion ankle brace according to claim 1, wherein the graphene heating module (30) comprises:

a plurality of graphene heating sheets (31) for performing a heating physiotherapy;

a first control unit (32) which is connected to the plurality of graphene heating sheets (31) and controls the graphene heating sheets (31) to heat; and

a first power supply (33) connected to the first control unit (32) and the plurality of graphene heating sheets (31).

4. The graphene air cushion ankle brace according to claim 3, wherein the temperature control module (40) comprises:

a plurality of temperature detection components (41) for detecting and transmitting temperature information in the graphene air cushion ankle guard;

the analog-to-digital conversion unit (42) is connected with the plurality of temperature detection components (41) and is used for converting the temperature information into a signal and sending the signal;

the second control unit (43) is connected with the analog-to-digital conversion unit (42) and the first control unit (32), receives the signal, judges whether the temperature information is in the preset temperature interval or not, and sends a control signal to the first control unit (32); and

and a second power supply (44) connected to the plurality of temperature detection means (41), the analog-to-digital conversion unit (42), and the second control unit (43).

5. The graphene air cushion ankle brace of claim 4, wherein the interlayer is divided into a plurality of vertically disposed partitions, comprising:

a plurality of first partitions (11) in which said air cushions (20) are arranged; and

a plurality of second partitions (12) in which the graphene heating sheets (31) and the temperature detection member (41) are disposed;

in the interlayer, the first subareas (11) and the second subareas (12) are sequentially arranged at intervals.

6. The graphene air cushion ankle brace according to claim 4, wherein the temperature detection component (41) is a temperature sensor.

7. The graphene air cushion ankle brace according to claim 4, wherein the temperature control module (40) further comprises a remote control unit (45) connected to the second control unit (43) for remotely adjusting the preset temperature interval.

8. The graphene air cushion ankle guard according to claim 1, wherein the whole ankle guard body (10) is rectangular except two adjacent corners; when the ankle support body (10) is fixed to the ankle, the narrower portion of the lower end thereof is disposed at a position corresponding to the Achilles tendon.

9. The graphene air cushion ankle brace according to claim 8, wherein the fixing member (50) comprises:

the transverse fixing belt (51) is arranged on one side of the ankle guard body (10) and is parallel to the bottom edge of the rectangle; the transverse fixing belt (51) is fixed on the ankle guard body (10) by surrounding the lower leg; and

the oblique fixing belt (52) is arranged on the oblique edge of the ankle guard body (10); the oblique fixing belt (52) is fixed on the ankle protecting body (10) around the foot;

the lateral fixing strap (51) with be provided with the magic on the slant fixed strap (52) and paste the son face, be provided with on ankle guard body (10) with the female face is pasted to the magic that the son face matches.

10. The graphene air cushion ankle guard according to claim 9, wherein a super-elastic skin-contacting anti-slip fabric (521) is disposed at a position corresponding to a sole of a human body in the middle section of the oblique fixing strap (52).

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