CN202932931U - Shoes for correcting splay feet - Google Patents

Abstract

The utility model provides a pair of shoes for correcting splay feet. Each shoe comprises a shoe body and further a flexible pressure sensor, a pressure detection circuit and a wireless sending module, wherein the flexible pressure sensor is connected with the pressure detection circuit; the pressure detection circuit is connected with the wireless sending module; and the flexible pressure sensor, the pressure detection circuit and the wireless sending module are integrated inside the shoe. According to the shoes, the flexible pressure sensor is applied and is mainly used for reflecting stress magnetite according to the magnetite of resistance and then collected foot stress information can be sent to terminal equipment through the pressure detection circuit and the wireless sending module; and the foot stress information can be compared with a standard foot stress condition to send out real-time alarming information. The shoes disclosed by the utility model are used for correcting bad walking postures and the splay feet of people.

Description

Correct knock-kneed footwear

Technical field

This utility model relates to a kind of shoes, the knock-kneed footwear of especially a kind of correction.

Background technology

At present due to reasons such as some bad habits of individual and child learn to walk too early, stand period, increasing people has formed this bad habit of splayfoot when walking.Have that knock-kneed people's foot is stressed has very large difference with the normal person, the inboard stressed meeting of pigeon-toed is larger, otherwise the outside of toe out is stressed just larger.In order to help people to correct this custom, some companies set about producing and correct footwear and correct shoe pad.

The correction footwear that Le Kang step Science and Technology Ltd. in Beijing produces are most species on present stage market, can design dissimilar shoes for different foot diseases.But the knock-kneed footwear of the correction of its production are all to adopt some physics correcting methods, namely with some fixedly the mode of ankle realize correcting knock-kneed function.This rigid physics correcting method is served discomfort to the user band sometimes, can affect to a certain extent the development and application of correcting footwear.

Summary of the invention

The utility model proposes the knock-kneed footwear of a kind of correction, adopt non-physics correcting method, utilize the pliable pressure sensor to come each local stressing conditions of perception foot, then the stressed information exchange of the foot that collects is crossed wireless sending module and be transmitted into terminal unit, then the normal foot stressing conditions with standard compares, the information that sounds a warning is in real time corrected people's walking posture.

The technical solution adopted in the utility model is: the knock-kneed footwear of a kind of correction, comprise the shoes body, also comprise pliable pressure sensor, pressure detection circuit and wireless sending module, described pliable pressure sensor Bonding pressure testing circuit, pressure detection circuit connects wireless sending module; Pliable pressure sensor, pressure detection circuit and wireless sending module are integrated in the inside of footwear;

Described pliable pressure sensor comprises foot sensor, connecting line, junction point; The foot sensor comprises substrate, the row electrod-array that is arranged on flexible lower substrate top surface, the array of row electrodes that is arranged on flexible upper substrate lower surface and the quick printing ink array of one deck power in the middle of row electrod-array and array of row electrodes on flexible lower substrate, flexibility; The quick printing ink array of this power is at force sensing resistance of infall intermediate formation of the row of the columns and rows electrod-array of each row electrod-array; On substrate under described flexibility, the quick printing ink array of row electrod-array, power that is arranged on flexible lower substrate top surface, the array of row electrodes that is arranged on flexible upper substrate lower surface, flexibility, substrate is combined closely successively; Described force sensing resistance is electrically connected to row electrod-array and array of row electrodes; Connecting line connects row electrod-array and the array of row electrodes in the foot sensor, and junction point; Junction point Bonding pressure testing circuit.

Described pressure detection circuit comprises MCU, power module, DA module, AD module, selector, operational amplifier; MCU connects power module, DA module, AD module; The DA module connects the row electrod-array; The AD module connects selector; Selector connects a plurality of operational amplifiers; Described a plurality of operational amplifier connects array of row electrodes; Described MCU also connects wireless sending module.

MCU adjusts and gathers voltage the DA module operation, gathers voltage and at first is added on the row electrod-array of foot sensor by the DA module; After the foot sensor was subject to the pressure of foot, the row of the row electrod-array of foot sensor force part were by the row of force sensing resistance conducting array of row electrodes; Those force sensing resistances corresponding to above-mentioned foot sensor force part connect separately operational amplifier by array of row electrodes, and each operational amplifier is exported output voltage corresponding to each force sensing resistance; The output voltage of the corresponding operational amplifier of the force sensing resistance that selector gating foot sensor force part is corresponding, and send the AD module to; The AD module is carried out the conversion of analog to digital of the output voltage of operational amplifier, and the digitized signal after changing sends to MCU; MCU analyzes and produces the foot stress data, and this foot stress data is sent to terminal unit by wireless sending module; Terminal unit will be compared with the foot stressing conditions of standard from the foot stress data that MCU receives, and can send warning message.

Described MCU controls power module, for AD module and the normal operation of DA module provide voltage, and reduces the power consumption of system.MCU is controlling whole system and the normal operation of coherent system each several part.

Advantage of the present utility model: this utility model can transmit in real time foot and be subjected to force information, remind people to take correct walking posture, overcome in the past physics and corrected some discomforts that knock-kneed method is brought to user, more comfortablely helped accurately people and correct this bad habit of splayfoot.

Description of drawings

Fig. 1 is pliable pressure sensor schematic diagram of the present utility model.

Fig. 2 is pressure detection circuit connection diagram of the present utility model.

The specific embodiment

The utility model is described in further detail below in conjunction with concrete drawings and Examples.

As shown in Figure 1 and Figure 2:

The knock-kneed footwear of a kind of correction comprise the shoes body, also comprise pliable pressure sensor, pressure detection circuit and wireless sending module, described pliable pressure sensor Bonding pressure testing circuit, and pressure detection circuit connects wireless sending module; Pliable pressure sensor, pressure detection circuit and wireless sending module are integrated in the inside of footwear.

Described pliable pressure sensor comprises foot sensor 1, connecting line 4, junction point 5; Foot sensor 1 comprises substrate on flexible lower substrate, flexibility, the row electrod-array 2 that is arranged on flexible lower substrate top surface, the array of row electrodes 3 that is arranged on flexible upper substrate lower surface and the quick printing ink array of one deck power in the middle of row electrod-array 2 and array of row electrodes 3; The quick printing ink array of this power is at force sensing resistance of infall intermediate formation of the row of the columns and rows electrod-array 3 of each row electrod-array 2, when not being under pressure, the resistance of described force sensing resistance trends towards infinity, i.e. every row of every columns and rows electrod-array 3 of row electrod-array 2 conducting hardly when not being under pressure, the resistance of described force sensing resistance changes with the pressure that is subject to is different; On substrate under described flexibility, the quick printing ink array of row electrod-array 2, power that is arranged on flexible lower substrate top surface, the array of row electrodes 3 that is arranged on flexible upper substrate lower surface, flexibility, substrate is combined closely successively; Described force sensing resistance is electrically connected to row electrod-array 2 and array of row electrodes 3; Row electrod-array 2 and array of row electrodes 3 that connecting line 4 connects in foot sensor 1, and junction point 5; Junction point 5 Bonding pressure testing circuits.

Digital-to-analogue conversion), AD module (AD: analog digital conversion), selector, operational amplifier described pressure detection circuit comprises MCU (microprocessor), power module, DA module (DA:; MCU connects power module, DA module, AD module; The DA module connects row electrod-array 2; The AD module connects selector; Selector connects a plurality of operational amplifiers; Described a plurality of operational amplifier connects array of row electrodes 3; Described MCU also connects wireless sending module.

This utility model has been used the pliable pressure sensor, and the knock-kneed footwear of correction before are all the correcting methods that has adopted physics.The pliable pressure sensor is mainly that the size by resistance reflects stressed size.Then be subjected to the foot that collects force information to send to terminal unit by pressure detection circuit and wireless sending module, compare and send real-time warning message with the foot stressing conditions of standard, correct people's the bad appearance of walking.Concrete work process is as described below:

MCU adjusts and gathers voltage the DA module operation, gathers voltage and at first is added on the row electrod-array 2 of foot sensor 1 by the DA module; Be subject to the pressure of foot when foot sensor 1 after, in foot sensor 1 force part, the quick printing ink array of power changes in the resistance of the force sensing resistance of the infall intermediate formation of each row electrod-array 2 and array of row electrodes 3, and the row of the row electrod-array 2 of foot sensor 1 force part are by the row of force sensing resistance conducting array of row electrodes 3; The operational amplifier that those force sensing resistances corresponding to above-mentioned foot sensor 1 force part connect separately by array of row electrodes 3 is as the input resistance of separately operational amplifier; The output voltage of each operational amplifier is subject to the impact of the resistance size of those force sensing resistances corresponding to foot sensor 1 force part, thereby exports output voltage corresponding to each force sensing resistance; The output voltage of the corresponding operational amplifier of the force sensing resistance that selector gating foot sensor 1 force part is corresponding, and send the AD module to; The AD module is carried out the conversion of analog to digital of the output voltage of operational amplifier, and the digitized signal after changing sends to MCU; MCU analyzes and produces the foot stress data, and this foot stress data is sent to terminal unit by wireless sending module; Terminal unit will be compared with the foot stressing conditions of standard from the foot stress data that MCU receives, if do not mate, send warning message, correct people's walking posture, and then correct this bad custom of walking of splayfoot.

Under described flexibility on substrate, flexibility the material of substrate be PET or polyimides.

Described row electrod-array 2, array of row electrodes 3 are to adopt silver slurry silk screen printing or CVD film build method to form on flexible substrate.

Described MCU controls power module, for AD module and the normal operation of DA module provide voltage, and reduces the power consumption of system.MCU is controlling whole system and the normal operation of coherent system each several part.

The quick printing ink array of described power can adopt the graphene film array.

Claims (2)

1. correct knock-kneed footwear for one kind, comprise the shoes body, it is characterized in that: also comprise pliable pressure sensor, pressure detection circuit and wireless sending module, described pliable pressure sensor Bonding pressure testing circuit, pressure detection circuit connects wireless sending module; Pliable pressure sensor, pressure detection circuit and wireless sending module are integrated in the inside of footwear;

Described pliable pressure sensor comprises foot sensor (1), connecting line (4), junction point (5); Foot sensor (1) comprises substrate, the row electrod-array (2) that is arranged on flexible lower substrate top surface, the array of row electrodes (3) that is arranged on flexible upper substrate lower surface and the quick printing ink array of one deck power in the middle of row electrod-array (2) and array of row electrodes (3) on flexible lower substrate, flexibility; The quick printing ink array of this power is at force sensing resistance of infall intermediate formation of the row of the columns and rows electrod-array (3) of each row electrod-array (2); On substrate under described flexibility, the quick printing ink array of row electrod-array (2), power that is arranged on flexible lower substrate top surface, the array of row electrodes (3) that is arranged on flexible upper substrate lower surface, flexibility, substrate is combined closely successively; Described force sensing resistance is electrically connected to row electrod-array (2) and array of row electrodes (3); Connecting line (4) connects row electrod-array (2) and the array of row electrodes (3) in foot sensor (1), and junction point (5); Junction point (5) Bonding pressure testing circuit;

Described pressure detection circuit comprises MCU, power module, DA module, AD module, selector, operational amplifier; MCU connects power module, DA module, AD module; The DA module connects row electrod-arrays (2); The AD module connects selector; Selector connects a plurality of operational amplifiers; Described a plurality of operational amplifier connects array of row electrodes (3); Described MCU also connects wireless sending module;

MCU adjusts and gathers voltage the DA module operation, gathers voltage and at first is added on the row electrod-array (2) of foot sensor (1) by the DA module; After foot sensor (1) was subject to the pressure of foot, the row of the row electrod-array (2) of foot sensor (1) force part were by the row of force sensing resistance conducting array of row electrodes (3); Those force sensing resistances corresponding to above-mentioned foot sensor (1) force part pass through array of row electrodes (3) connection operational amplifier separately, and each operational amplifier is exported output voltage corresponding to each force sensing resistance; The output voltage of the corresponding operational amplifier of the force sensing resistance that selector gating foot sensor (1) force part is corresponding, and send the AD module to; The AD module is carried out the conversion of analog to digital of the output voltage of operational amplifier, and the digitized signal after changing sends to MCU; MCU analyzes and produces the foot stress data, and this foot stress data is sent to terminal unit by wireless sending module; Terminal unit will be compared with the foot stressing conditions of standard from the foot stress data that MCU receives, and can send warning message.

2. knock-kneed footwear of correction as claimed in claim 1 is characterized in that: described MCU controls power module, for AD module and DA module provide voltage.

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