CN219699166U - Novel shoe pad - Google Patents

Abstract

The utility model discloses a novel insole in the technical field of medical auxiliary appliances, which comprises an insole body, an alarm terminal, a gravity sensor, a processor, a transmission component and an adjusting component, wherein the gravity sensor, the processor, the transmission component and the adjusting component are arranged in the insole body; compared with the prior art, the utility model has the beneficial effects that the gravity sensor is arranged to detect the pressure, the processor is used for judging whether to send out an alarm signal, and the patient can judge whether the load to the patient exceeds the standard according to whether to send out the alarm sound, thereby being beneficial to rehabilitation and shortening the rehabilitation period.

Description

Novel shoe pad

Technical Field

The utility model relates to the technical field of medical auxiliary appliances, in particular to a novel insole.

Background

In the rehabilitation period, a doctor can recommend the patient to move down the bed, the patient's affected limb is not recommended to bear load in the early stage of rehabilitation, and the patient's affected limb is gradually recovered as the rehabilitation time is longer and longer, at the moment, the doctor can recommend the patient to try to bear load in the affected limb according to the condition of the patient, the load amount slowly increases along with the progress of rehabilitation time, and the problem is that the patient cannot clearly know the representation or feedback of the value of the load amount recommended by the doctor in the actual movement, for example, the doctor recommends the patient to train 5kg of the affected limb, and the patient cannot know whether the pressure applied by the patient to the affected limb is within 5kg or not, so that the condition is aggravated due to the fact that the patient applies excessive pressure to the affected limb or the patient cannot gradually adapt to the load amount of the affected limb due to the fact that the pressure is too small, and the rehabilitation period is prolonged.

There is a need for a device that allows a patient to intuitively know the pressure threshold to which a doctor suggests that an affected limb is subjected.

In summary, the applicant proposes a new insole.

Disclosure of Invention

In view of the problem that the patient in the prior art cannot clearly and intuitively know that the pressure threshold value applied by the doctor to the affected limb is frequently exceeded or is far less than the value near the threshold value, thereby prolonging the rehabilitation period, the technical scheme of the utility model provides a novel insole for solving the problem.

In order to achieve the technical purpose, the utility model adopts the following technical scheme:

a novel insole comprises an insole body, an alarm terminal, a gravity sensor, a processor, a transmission component and an adjustment component, wherein the gravity sensor, the processor, the transmission component and the adjustment component are arranged in the insole body; the gravity sensor is used for detecting pressure values of affected limbs of a patient acting on a heel area and a front plantar area when the patient stands, and sending the detected values to the processor; the adjusting component is used for setting the value of the alarm signal sent by the processor; the processor is used for comparing the received pressure value with the value set by the adjusting component and then determining whether to send an alarm signal to the transmission component; the transmission component is used for transmitting the alarm signal sent by the processor to the alarm terminal; the alarm terminal is used for receiving the alarm signal sent by the transmission component and sending out alarm sound.

By using the insole, medical staff firstly sets the value giving an alarm through the adjusting component according to the recovery condition of the affected limb of a patient and informs the patient that the patient is kept to apply pressure to the affected limb as much as possible under the premise that the alarm terminal is not required to give an alarm when the patient moves, the working principle is that the gravity sensors in the heel area and the front plantar area on the insole body detect the pressure value fed back by the affected limb stepping on the ground and transmit the pressure value to the processor, the processor receives the pressure value and compares the pressure value with the previously set value giving the alarm, if the received pressure value is larger than the set value, the processor gives an alarm signal to the transmitting component, the transmitting component sends the alarm signal to the alarm terminal, the alarm terminal receives the alarm signal to give an alarm sound, so that the patient knows that the pressure applied to the affected limb is too large, the load of the affected limb is reduced, if the pressure value received by the processor is smaller than the set value, the alarm signal is not sent, and the processor continues to receive the pressure value detected by the gravity sensor and compares the pressure value, so that the patient knows whether the pressure applied to the affected limb exceeds the recommended value of the doctor or not, and the recovery period of the affected limb is helped.

The power supply assembly is respectively and electrically connected with the gravity sensor, the processor and the transmission assembly, the adjusting assembly is embedded in the alarm terminal, the adjusting assembly and the alarm terminal share an independent power supply, the power supply assembly is embedded in the arch area of the insole body, and the power supply assembly is used for supplying power to the gravity sensor, the processor and the transmission assembly; the power supply assembly is arranged in the arch area of the insole body, so that the foot can be effectively prevented from being pressed to the power supply assembly, and the insole is more comfortable to use.

Further defined, the alarm terminal is in a bracelet shape; the alarm terminal is arranged to be worn on the hand of the patient in a bracelet shape, so that the patient can feel alarm sound more easily.

Further limited, the battery jar and the battery cover have been seted up to the arch of foot district of shoe-pad body, and power module is button cell, and power module locates in the battery jar, carries out spacingly through the battery cover and prevents that it from deviating from.

Further defined, the insole body has a plurality of sizes; the patient can select the multiple sizes, the use is more comfortable, and the detection result is more accurate.

Compared with the prior art, the utility model has the beneficial effects that the gravity sensor is arranged to detect the pressure, the processor is used for judging whether to send out an alarm signal, and the patient can judge whether the load to the patient exceeds the standard according to whether to send out the alarm sound, thereby being beneficial to rehabilitation and shortening the rehabilitation period.

Drawings

FIG. 1 is a simplified schematic diagram of the structure of the present utility model;

FIG. 2 is an internal schematic view of the insole body;

FIG. 3 is a schematic diagram of the connection relationship of the components of the present utility model.

Corresponding marks in the drawings are respectively: 1-insole body, 2-gravity sensor, 3-processor, 4-alarm terminal, 5-adjusting component, 6-transmission component, 7-power module, 8-battery cover, 9-battery jar, 10-power key.

Detailed Description

In order that those skilled in the art will better understand the technical solution of the present utility model, reference will be made to the following drawings and examples.

Examples:

1-3, the novel insole comprises an insole body 1, an alarm terminal 4, a gravity sensor 2, a processor 3, a transmission component 6 and an adjustment component 5, wherein the gravity sensor 2 is arranged in the insole body 1, the gravity sensor 2 is arranged in a heel area and a front plantar area of the insole body 1, the gravity sensor 2 and the transmission component 6 are respectively and electrically connected with the processor 3, and the adjustment component 5 and the alarm terminal 4 are both in signal connection with the transmission component 6; the gravity sensor 2 is used for detecting pressure values of affected limbs of a patient acting on a heel area and a front plantar area when standing, and sending the detected values to the processor 3; the adjusting component 5 is used for setting the value of the alarm signal sent by the processor 3; the processor 3 is configured to compare the received pressure value with the value set by the adjusting component 5, and then determine whether to send an alarm signal to the transmitting component 6; the transmission component 6 is used for sending the alarm signal sent by the processor 3 to the alarm terminal 4; the alarm terminal 4 is used for receiving the alarm signal sent by the transmission component 6 and sending out alarm sound; the power supply assembly 7 is respectively and electrically connected with the gravity sensor 2, the processor 3 and the transmission assembly 6, the adjusting assembly 5 is embedded in the alarm terminal 4, the adjusting assembly 5 and the alarm terminal 4 share an independent power supply, the power supply assembly 7 is embedded in the arch area of the insole body 1, and the power supply assembly 7 is used for supplying power to the gravity sensor 2, the processor 3 and the transmission assembly 6; the alarm terminal 4 is in a hand ring shape; the foot arch area of the insole body 1 is provided with a battery groove 9 and a battery cover 8, the power supply component 7 is a button battery, the power supply component 7 is arranged in the battery groove 9, and the battery cover 8 is used for limiting and preventing the button battery from falling off; the insole body 1 has various sizes; the transmission component 6 can be bluetooth, WIFI, etc., and the alarm terminal 4 and the shoe pad body 1 are respectively provided with a power key 10 for controlling the on-off of a power supply, the power key 10 of the shoe pad body 1 is also arranged in the arch area, the alarm terminal 4 and the shoe pad body 1 are matched, one alarm terminal 4 is only automatically connected with one shoe pad body 1, the detection interval time of the gravity sensor 2 is 1 second, and the processor 3 is used for comparing the numerical value with the numerical value of the gravity sensor 2 of the two areas.

With the insole, medical staff firstly sets the value giving an alarm through the adjusting component according to the recovery condition of the patient's affected limb and informs the patient that the patient is not required to apply pressure to the affected limb as much as possible under the premise that the alarm terminal gives an alarm when the patient moves, the working principle is that the gravity sensor 2 in the heel area and the front plantar area on the insole body detects the pressure value fed back by the affected limb when stepping on the ground, the pressure value is transmitted to the processor 3, the processor 3 receives the pressure value and compares the pressure value with the previously set value giving an alarm, if the received pressure value is larger than the set value, the processor 3 gives an alarm signal to the transmitting component 6, the transmitting component 6 sends the alarm signal to the alarm terminal 4, the alarm terminal 4 receives the alarm signal to give an alarm sound, so that the patient knows that the pressure applied to the affected limb is too large, the pressure of the affected limb is reduced, if the pressure value received by the processor 3 is smaller than the set value, the alarm signal is not sent, the processor 3 continues to receive the pressure value detected by the gravity sensor 2 and compares, if the pressure value received by the processor 3 is smaller than the set value, and if the patient knows that the recovery period of the patient is better than the value applied to the affected limb, and the recovery period is shortened; the power supply assembly 7 is arranged in the arch area of the insole body 1, so that the foot can be effectively prevented from being pressed to the power supply assembly 1, and the insole is more comfortable to use; the patient can select the multiple sizes, the use is more comfortable, and the detection result is more accurate.

Compared with the prior art, the utility model has the beneficial effects that the gravity sensor is arranged to detect the pressure, the processor is used for judging whether to send out an alarm signal, and the patient can judge whether the load to the patient exceeds the standard according to whether to send out the alarm sound, thereby being beneficial to rehabilitation and shortening the rehabilitation period.

It should be noted that the gravity sensor, the processor, the adjusting component and the alarm terminal adopted in the utility model are all common existing technologies in the field of the internet of things.

The novel insole provided by the utility model is described in detail above, and the description of specific embodiments is only for helping to understand the method and core ideas of the utility model. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (2)

1. The novel insole comprises an insole body, an alarm terminal, a gravity sensor, a processor, a transmission component and an adjusting component, wherein the gravity sensor is arranged in the insole body, the gravity sensor is arranged in a heel area and a front plantar area of the insole body, the gravity sensor and the transmission component are respectively and electrically connected with the processor, and the adjusting component and the alarm terminal are in signal connection with the transmission component;

the gravity sensor is used for detecting pressure values of affected limbs of a patient acting on the heel area and the front plantar area when standing, and sending the detected values to the processor;

the adjusting component is used for setting the value of the alarm signal sent by the processor;

the processor is used for comparing the received pressure value with the value set by the adjusting component and then determining whether to send an alarm signal to the transmission component;

the transmission component is used for transmitting an alarm signal sent by the processor to the alarm terminal;

the alarm terminal is used for receiving the alarm signal sent by the transmission component and sending out alarm sound;

still including power supply unit, power supply unit respectively with gravity sensor, treater and transmission subassembly electricity are connected, adjusting part inlays and locates inside the alarm terminal, adjusting part with the alarm terminal shares an independent power, power supply unit inlays and locates the arch of foot district of shoe-pad body, power supply unit is used for gravity sensor, treater and transmission subassembly power supply, its characterized in that: the alarm terminal is in a bracelet shape; the foot arch area of the insole body is provided with a battery groove and a battery cover, the power supply component is a button battery, and the power supply component is arranged in the battery groove.

2. The novel insole according to claim 1, wherein: the insole body has a plurality of sizes.