CN112869298A - Heel pain insole capable of monitoring plantar pressure and automatically and intelligently inflating and deflating - Google Patents

Abstract

The invention provides a calcaneodynia insole capable of monitoring the pressure of a sole and automatically and intelligently inflating and deflating, which comprises an air cushion ring and an interlayer, wherein the air cushion ring forms the outline of the foot, the palm end of the foot is provided with an opening, and the interlayer is fixed on the inner side of the air cushion ring; the air cushion ring is made of elastic material, and the thickness of the inflated air cushion ring is larger than that of the interlayer; the upper surface of the interlayer is provided with at least one pressure monitoring component for monitoring pressure information borne by the heel; the interlayer is internally provided with: a storage processing part for receiving and processing the pressure information and sending signals; the inflation component is used for receiving signals and inflating the air cushion ring; and a power supply part, which is connected with the pressure monitoring part, the storage processing part and the inflation part; an air discharging component is arranged on the air cushion ring. The heel pain insole provided by the invention can support the edge of the heel of a patient through the air cushion ring with elasticity, so that the pain caused by the contact of the heel of the patient with the sole is avoided, the patient feels comfortable in the walking process, and the life quality of the patient is improved.

Description

Heel pain insole capable of monitoring plantar pressure and automatically and intelligently inflating and deflating

Technical Field

The invention relates to the technical field of calcaneodynia treatment equipment, in particular to a calcaneodynia insole which can monitor the pressure of a sole and automatically and intelligently inflate and deflate.

Background

Calcaneodynia is pain on the plantar surface of the heel caused by various chronic diseases, the pain is aggravated when people walk or stand, and obese people are common, and the calcaneodynia is frequently found in middle-aged and elderly people, particularly the middle-aged and elderly people 45-60 years old. Clinically, pain of a single foot or double heels when standing or walking is mainly characterized, and great influence is brought to daily life.

The causes of calcaneodynia are mainly divided into two types: 1) chronic strain of long standing work, such as guard and other occupations, long standing work or incorrect exercise posture can cause chronic strain of the plantar aponeurosis, eventually leading to chronic verification, resulting in heel pain; 2) for older elderly people, local degeneration of the plantar aponeurosis or fat pad can lead to the formation of chronic inflammation, resulting in heel pain. Calcaneodynia affects the daily life of the patient and severely reduces the quality of life of the patient.

At present, the treatment of calcaneodynia is mainly conservative treatment, and the symptoms of heel pain are relieved by taking orally anti-inflammatory and analgesic medicines and keeping measures such as hot compress, massage and the like on feet. When a user needs to go out, the user wears some shoes with soft soles or uses soft insoles to relieve the pain of heel parts.

The existing insoles designed aiming at the calcaneodynia generally adopt silica gel or other soft materials, and disperse the pressure born by the heel of a patient when the heel of the patient is landed, so as to relieve the pain. But through the cushioning of elastic material, it has very big inaccuracy, and has to correct staticizing, the initiative protection is weak, individual adaptation shortcoming such as poor. Therefore, there is a need for a new type of calcaneodynia insole that can be customized to the pressure of an individual's heel.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the heel pain insole which can monitor the pressure of the sole of a foot and automatically and intelligently inflate the heel of different patients aiming at the pressure born by the heels of the different patients.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides a calcaneodynia insole capable of monitoring the pressure of a sole and automatically and intelligently inflating and deflating, which comprises an air cushion ring and an interlayer, wherein the air cushion ring forms the outline of the foot, the palm end of the foot is provided with an opening, and the interlayer is fixed on the inner side of the air cushion ring; the air cushion ring is made of elastic material, and the thickness of the inflated air cushion ring is larger than that of the interlayer;

the upper surface of the interlayer is provided with at least one pressure monitoring component for monitoring pressure information borne by the heel;

the interlayer is internally provided with:

a storage processing part for receiving and processing the pressure information and sending signals;

the inflation component is used for receiving signals and inflating the air cushion ring; and

the power supply part is connected with the pressure monitoring part, the storage processing part and the inflation part;

an air discharging component is arranged on the air cushion ring.

Further, the interlayer is secured to the medial side of the air cushion ring corresponding to the heel portion.

Further, the pressure monitoring component is a membrane pressure sensor.

Further, the membrane pressure sensor is arranged on the interlayer corresponding to the plantar fascia and close to the inner side of the foot.

Furthermore, the inflating part is a direct current micro inflator pump.

Further, the power supply part is a direct current power supply which can be disassembled and replaced.

Furthermore, a power switch is arranged on the power supply part.

Further, the air discharge component is an air discharge valve arranged on the side wall of the air cushion ring.

Further, the air discharging component is a micro air plug arranged on the side wall of the air cushion ring.

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

the heel pain insole capable of monitoring the pressure of the sole and automatically and intelligently inflating and deflating is characterized in that the air cushion ring and the interlayer connected with the air cushion ring are arranged, the pressure monitoring part, the inflating part and the like are arranged in the interlayer, when the monitored pressure is greater than a set threshold value, the inflating part can be started to inflate the air cushion ring, after the air cushion ring is inflated, the thickness of the interlayer is smaller than that of the air cushion ring, the interlayer is supported in a suspended state by the air cushion ring, the heel part of a patient is prevented from contacting the harder interlayer, the edge of the heel of the patient is supported by the elastic air cushion ring, pain caused by the fact that the heel of the patient contacts the sole is avoided, the patient feels comfortable in the walking process, and the life quality of the heel pain.

Drawings

FIG. 1 is a top view of a calcaneous insole capable of monitoring plantar pressure and automatically and intelligently inflating and deflating according to an embodiment of the present invention;

FIG. 2 is a side view of a calcaneous insole capable of monitoring plantar pressure and automatically and intelligently inflating and deflating according to an embodiment of the present invention;

FIG. 3 is a top view of a calcaneous insole capable of monitoring plantar pressure and automatically and intelligently inflating and deflating according to an embodiment of the present invention;

FIG. 4 is a side view of a calcaneous insole capable of monitoring plantar pressure and automatically and intelligently inflating and deflating according to an embodiment of the present invention;

wherein the reference numerals are: 1-air cushion ring, 2-interlayer, 3-pressure monitoring part, 11-air release valve, 12-micro air plug, 21-storage processing part, 22-inflation part, 23-power supply part and 231-power switch.

Detailed Description

The invention provides a calcaneodynia insole which can monitor the pressure of a sole and automatically and intelligently inflate and deflate.

The invention will be better understood from the following detailed description of the invention with reference to the drawings and specific examples, without limiting the scope of the invention.

Example 1

As shown in fig. 1 to 2, the present embodiment provides a calcaneodynia insole capable of monitoring plantar pressure and automatically and intelligently inflating and deflating, which includes an air cushion ring 1 forming a foot outline and having an opening at a sole end, and an interlayer 2, wherein the interlayer 2 is fixed at an inner side of the air cushion ring 1; the air cushion ring 1 is made of elastic material, and the thickness of the inflated air cushion ring 1 is larger than that of the interlayer 2; namely, the air cushion ring 1 can play a supporting role for the interlayer 2 after being inflated, the heel of a patient is contacted with the interlayer 2 when the air cushion ring 1 is not inflated, and the edge of the heel is contacted with the air cushion ring 1 after being inflated;

the interlayer 2 is fixed on the inner side of the part, corresponding to the heel part, of the air cushion ring 1, and the upper layer and the lower layer of the interlayer 2 are both connected with the outer wall of the air cushion ring 1.

The outer side of the upper layer of the interlayer 2 is provided with at least one pressure monitoring component 3 for monitoring the pressure information borne by the heel.

The pressure monitoring part 3 is a membrane pressure sensor. The thin film pressure sensor is arranged on the interlayer 2 at a position corresponding to the plantar fascia and close to the inner side of the foot, namely the position of the midline of the heel close to the inner side of the foot.

The interlayer 2 is internally provided with:

a storage processing part 21 for receiving and processing the pressure information and transmitting a signal;

the inflation component 22 is used for receiving signals and inflating the air cushion ring 1; and

a power supply unit 23 for connecting the pressure monitoring unit 3, the storage processing unit 21, and the inflation unit 22;

the air cushion ring 1 is provided with an air discharging component.

The inflation component 22 is a direct current micro inflator pump; the power supply part 23 is a detachable and replaceable direct current power supply, such as a button battery or a rechargeable battery, and the like, and supplies power to the storage processing part 21, the inflation part 22 and the pressure monitoring part 3;

the storage processing component 21 is an IC chip, and can receive pressure information generated by the contact between the heel and the interlayer 2 monitored by the pressure monitoring component 3, store a threshold value of pressure that can be preset in the processing component 21, and send a signal to the inflating component 22 to start inflating the air cushion ring 1 if the pressure information is greater than the preset pressure threshold value; after a period of inflation, if the pressure information is less than the preset pressure threshold, the signal transmission to the inflation component 22 is stopped. It should be understood that other processing components known in the art, such as PCB boards, may be used as the storage processing component 21.

The storage processing part 21 is provided with Bluetooth and can be connected with a terminal, and the terminal can be a mobile phone, a notebook computer, an intelligent watch and the like. The storage processing component 21 can store the collected pressure information and upload the pressure information to the terminal for observation and storage, so that the heel pain patient can refer to the motion amplitude to cause the overlarge pressure between the heel part and the interlayer 2, the corresponding relation between the observation pressure information and the heel pain is implemented, the patient can adjust the walking speed in time, and the heel pain deterioration and pain caused by the overlarge pressure of the heel part are avoided.

The pressure threshold value in the storage processing part 21 can be specifically set according to the pain feeling of the heel of the patient, such as aching pain, slight stabbing pain, periodic pain, severe pain, difficulty in walking, difficulty in standing and other pain feelings with different levels, different pressure threshold values are preset according to different pain feelings, the insole with higher pressure threshold value is used by the patient with lower pain, and when the pressure generated by the heel and the interlayer 2 is higher, the inflation part 23 is started to inflate; when a patient with severe pain uses the insole with a lower pressure threshold value, the inflation component 23 is started to inflate when a smaller pressure is generated between the heel and the interlayer 2, so that the air cushion ring 1 can support the heel.

The power supply part 23 is provided with a power switch 231, and the power switch 231 is arranged in the upper layer of the interlayer 2, it should be understood that the interlayer 2 can support the foot part when the air cushion ring 1 is not inflated because of the high-strength plastic or other materials, and protect the parts arranged therein, such as the storage processing part 21, the inflation part 22, the power supply part 23, and the like. Corresponding through holes are arranged in the upper layer of the interlayer 2 and used for disassembling and replacing the power supply part 23; the power switch 231 may be any switch in the prior art, such as a slide rail type switch or a button type switch, provided that the wearing and use of the insole is not affected.

The power supply part 23 may not be provided with the power switch 231, and the power supply part 23 may be provided with a battery as a detachable and replaceable direct current power supply, so that the storage processing part 21 and the inflation part 22 can be started to operate by the pressure monitoring part 3, and the power supply part 23 can be removed to stop the operation.

It should be noted that, on the premise that the normal operation of each component is satisfied, the distances between the pressure monitoring component 3, the power supply component 23, the storage processing component 21 and the inflation component 22 should be reduced as much as possible, so that the occupied area of the interlayer 2 is reduced, the size of the functional device is reduced, redundancy is avoided, and the insole is convenient to wear and use.

In the preferred embodiment, the air release component is an air release valve 11 arranged on the side wall of the air cushion ring 1, and the air release valve 11 needs to be opened manually for air release. The deflation valve is specifically provided with a through hole and a bolt on the side wall of the air cushion ring 1, the inner wall of the through hole and the bolt are provided with matched threads, and the root of the bolt is also provided with a sealing ring for sealing the deflation valve 11, so that the air leakage of the air cushion ring 11 is avoided. It will be appreciated that the release valve 11 may be of any form known in the art which is capable of sealing the air gasket 1 and when opened is capable of releasing air from the air gasket 1 to return the insole to an unused condition.

When the heel pain insole provided by the embodiment is used, under the condition that the power supply component 23, the pressure monitoring component 3, the storage processing component 21 and the inflation component 22 are normal, a patient puts the insole into a shoe, and obviously, the size of the insole is provided with different specifications, namely, the air cushion ring 1 and the interlayer 2 are provided with different specifications, and the insole is designed according to the actual shoe size; then, the power switch 231 is started, and the power supply part 23, the pressure monitoring part 3, the storage processing part 21 and the inflation part 22 enter a working state; then the patient puts the foot with the calcaneodynia into the shoe, stands after wearing, because the air cushion ring 1 is not inflated at this time, the heel of the patient contacts with the upper layer of the interlayer 2 and contacts with the pressure monitoring part 3, the pressure monitoring part 3 acquires the pressure of the contact of the foot of the patient with the interlayer 2 and transmits the pressure information to the storage processing part 21, the storage processing part 21 compares the pressure information with a preset pressure threshold value, if the actual pressure is greater than the pressure threshold value, the storage processing part 21 sends a signal to the inflating part 22, the inflating part 22 starts to inflate the air cushion ring 1, after the air cushion ring 1 is inflated, the air cushion ring gradually plays a supporting role for the interlayer 2 to float, and gradually separates the foot of the patient from the interlayer 2, so that the foot of the patient does not contact with the pressure monitoring part 3, at this time, the pressure monitoring part 3 floats, so that the monitored pressure is gradually reduced, when the storage processing part 21 judges that the pressure information is smaller than the preset pressure threshold value, the signal is stopped being sent to the inflating part 22, the inflating part 22 stops working, and the inflation of the air cushion ring 1 is completed.

Due to the support of the air cushion ring 1, the edge of the heel of the patient is in contact with the air cushion ring 1, the painful part is not in contact with the insole, and the weight of the body is not born, so that the pain of the heel pain can be relieved.

When a patient jumps or runs, the impact force and the pressure on the insole are increased, so that the air cushion ring 1 is compressed, in the process of compressing the air cushion ring, if the heel of the patient is in contact with the interlayer 2, it is proved that the gas in the air cushion ring 1 is not enough to support the pressure of the patient in jumping or running, the pressure monitoring part 3 on the outer side of the upper layer of the interlayer 2 monitors the pressure change and sends the pressure change to the storage processing part 21, the storage processing part 21 compares the pressure with a preset pressure threshold value, if the pressure is greater than the pressure threshold value, the inflating part 23 is started to continue inflating, finally, the air cushion ring 1 can support the pressure of the patient in jumping or running, the heel is ensured not to be in contact with the interlayer 2, and the pain of the heel.

Obviously, the gas in the gas cushion ring 1 is more than the gas in the gas cushion ring 1 when the patient jumps or runs, and at the moment, the gas 1 in the gas cushion ring 1 can ensure that the heel part of the patient is supported by the gas cushion ring 1 and does not contact with the interlayer 2 or the sole no matter the patient runs or walks, so that the patient does not need to deflate the gas cushion ring 1 after the patient is converted from running to walking.

After the use, the heel pain insole can be taken out of the shoe, the power switch 231 is turned off, and if the power switch 231 is not arranged, the direct-current power supply in the power supply part 23 is removed; then the air release valve 11 is opened, the air cushion ring 1 is pressed to release air, the size of the insole is reduced after the air cushion ring 1 releases air, and the insole is convenient to use next time.

Because the calcaneodynia shoe-pad that this embodiment provided can judge whether aerify according to the pressure that produces between heel and intermediate layer 2, consequently, can carry out the support of aerifing according to individual heel pressure and pain to the patient of different weight and the patient that the painful sense degree of calcaneodynia is different, and individual suitability is better.

Example 2

As shown in fig. 3 to 4, the air bleeding component in the calcaneodynia insole provided in the present embodiment is a micro air plug 12 provided on the side wall of the air cushion ring 1, and the arrangement of the other components is the same as that in embodiment 1.

The micro air plug 12 is made of silica gel or rubber and is disposed on the sidewall of the air cushion ring 1, and a micro air hole is disposed therebetween.

The diameter of the micro air plug 12 is small, and the micro air plug 12 can release the gas in the air cushion ring 1 when the air cushion ring 1 is pressed; when the air cushion ring 1 is not under pressure, the micro air plug 12 is closed because of the elasticity of the air cushion ring 1 and the self-made of silica gel or rubber, the air cushion ring 1 keeps closed, and air is not discharged through the micro air plug 12 any more.

When a patient walks by using the heel pain insole provided by the embodiment, the air cushion ring 1 is in an inflated state and supports the heel part of the patient, when the patient steps on, the air cushion ring 1 is under pressure, so that the micro air plug 12 is under positive pressure and is opened, and part of gas in the air cushion ring 1 is discharged, when a certain amount of gas in the air cushion ring 1 is discharged, the thickness of the air cushion ring 1 is smaller than that of the interlayer 2, the air cushion ring 1 no longer supports the heel, the heel is in contact with the interlayer 2, at the moment, the pressure monitoring part 3 is in contact with the heel and monitors the pressure change and sends the pressure change to the storage processing part 21, the storage processing part 21 compares the pressure change with a preset pressure threshold, and if the pressure change is larger than the pressure threshold, a signal is sent to the inflating part 22 for inflation. When the patient lifts the foot, the air cushion ring 1 is not pressurized, the micro air plug 12 is not pressurized by the air and closes, and the air in the air cushion ring 1 is not discharged. In the above cycle, the gas level in the air bearing ring 1 is maintained at a stable level according to the pressure of the heel of the patient by the deflation of the micro air plugs 12 and the inflation of the inflation member 22, and when the gas in the air bearing ring 1 is excessive, the micro air plugs 12 receive positive pressure, and the excessive gas in the air bearing ring 1 can be discharged.

Those skilled in the art will appreciate that the number of micro gas plugs 12 and the size of the internal gas holes thereof are arranged to match the inflation rate of the inflation member 22 to maintain the gas level in the gas gasket 1.

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 or alterations to this practice will occur to those skilled in the art and are intended to be within the scope of this 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 (9)

1. The heel pain insole capable of monitoring the pressure of the sole of a foot and automatically and intelligently inflating and deflating is characterized by comprising an air cushion ring (1) and an interlayer (2), wherein the air cushion ring (1) forms the outline of the foot and is provided with an opening at the sole end, and the interlayer (2) is fixed on the inner side of the air cushion ring (1); the air cushion ring (1) is made of elastic materials, and the thickness of the inflated air cushion ring (1) is larger than that of the interlayer (2);

the upper surface of the interlayer (2) is provided with at least one pressure monitoring component (3) for monitoring pressure information borne by the heel;

the interlayer (2) is internally provided with:

a storage processing unit (21) for receiving and processing the pressure information and sending signals;

an inflation component (22) for receiving the signal and inflating the air cushion ring (1); and

a power supply part (23) which is connected with the pressure monitoring part (3), the storage processing part (21) and the inflation part (22);

an air discharging component is arranged on the air cushion ring (1).

2. The calcaneodynic insole as claimed in claim 1, wherein said interlayer (2) is fixed to the inner side of said air cushion ring (1) in correspondence of the heel portion.

3. The calcaneodynic insole according to claim 1, characterized in that said pressure monitoring means (3) are thin film pressure sensors.

4. The calcaneodynic insole as claimed in claim 3, wherein said thin film pressure sensors are arranged in said sandwich layer (2) in correspondence of the plantar fascia, close to the inner side of the foot.

5. The calcaneodynic insole of claim 1, wherein said pneumatic means (22) is a dc micro-pump.

6. The calcaneodynia insole as claimed in claim 1, wherein said power supply means (23) is a removable and replaceable dc power supply.

7. The calcaneodynia insole as claimed in claim 1, wherein said power supply means (23) is provided with a power switch (231).

8. The calcaneodynia insole as claimed in claim 1, wherein said deflation means are deflation valves (11) provided on the side walls of said air cushion ring (1).

9. The calcaneodynia insole as claimed in claim 1, wherein said deflation means are micro-air plugs (12) provided on the side walls of said air cushion ring (1).

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