CN216568597U - Novel ventilating health-care insole - Google Patents

Abstract

The utility model relates to the technical field of insoles, in particular to a novel ventilation health-care insole which comprises a ventilation insole body, wherein a bearing airbag cushion is arranged at the heel position of the ventilation insole body; a cavity is formed in the bearing airbag cushion, and high-resilience sponge is filled in the cavity; a plurality of air injection holes are arranged on the surface of one side of the supporting air bag pad, which is in contact with the air permeable insole body, at intervals; the side of bearing gasbag pad has seted up the suction hole, is equipped with miniature check valve on the suction hole, and the outside air of bearing gasbag pad passes through miniature check valve and inhales in the cavity of bearing gasbag pad. When the bearing airbag cushion is pressed, the gas in the bearing airbag cushion is exhausted into the breathable insole body through the gas ejecting holes, so that the breathable insole body is ventilated; when the pressure on the bearing airbag cushion disappears, a negative pressure state is formed inside the bearing airbag cushion, air is discharged into the bearing airbag cushion through the miniature one-way valve, and the bearing airbag cushion recovers to the original state. The utility model solves the problem of poor ventilation of the existing insole.

Description

Novel ventilating health-care insole

Technical Field

The utility model relates to the technical field of insoles, in particular to a novel ventilating health-care insole.

Background

The insole is used for filling the gap between the sole and the sole, preventing the sole from sliding in the shoe and playing the role of supporting and damping the foot.

In the actual use process, the insole is arranged in the shoe, so that the gap between the sole and the sole is reduced, the insole is difficult to ventilate actively when in use, bacteria are easy to breed, and the shoe and the insole are smelly. Therefore, how to improve the ventilation of the insole is for the problem to be solved.

In addition, 2011, 5/11/2011, the "magnetic therapy product registration technology review guidance principles" issued by the State food and drug administration provides: the magnetic field can regulate the biological magnetic field in vivo, generate induction micro current, change the permeability of cell membrane, change the activity of certain enzyme, expand blood vessel and accelerate blood flow, thus achieving the auxiliary treatment effects of relieving pain, reducing swelling and the like.

Based on the above, the utility model provides the ventilating health-care insole which is good in ventilation and has health-care performance.

SUMMERY OF THE UTILITY MODEL

Therefore, aiming at the problems, the utility model provides a novel ventilation health-care insole, which solves the problem that the existing insole has poor ventilation.

In order to achieve the purpose, the utility model adopts the following technical scheme: a novel ventilation health-care insole comprises a breathable insole body, wherein a supporting airbag cushion is arranged at the heel position of the breathable insole body;

a cavity is formed in the bearing airbag cushion, and high-resilience sponge is filled in the cavity;

a plurality of air injection holes are formed on the surface of one side of the supporting air bag pad, which is in contact with the air-permeable insole body, at intervals;

the bearing airbag cushion is characterized in that an air suction hole is formed in the side face of the bearing airbag cushion, a miniature one-way valve is arranged on the air suction hole, and air outside the bearing airbag cushion is sucked into a cavity of the bearing airbag cushion through the miniature one-way valve.

Furthermore, a plurality of magnetic sheets are arranged on the upper surface of the breathable insole body.

Further, a PCB circuit board is arranged in the cavity for supporting the airbag cushion;

the PCB is integrated with a battery, a microprocessor, a vibration switch, an acceleration sensor and a Bluetooth module;

the battery is electrically connected with a power end of the microprocessor, the vibration switch and the acceleration sensor are respectively electrically connected with the microprocessor, and the Bluetooth module is in communication connection with the microprocessor.

Further, a wireless charging circuit module and a charging protection circuit module are integrated on the PCB;

the wireless charging circuit module is electrically connected with the battery through the charging protection circuit module.

Furthermore, a piezoelectric sensor is arranged on the upper surface of the breathable insole body; the piezoelectric sensor is electrically connected with the microprocessor on the PCB circuit board through a lead.

Furthermore, an electric quantity detection circuit module is integrated on the PCB; the battery is electrically connected with the electric quantity detection circuit module, and the electric quantity detection circuit module is electrically connected with the microprocessor.

By adopting the technical scheme, the utility model has the beneficial effects that: this novel health care shoe-pad of ventilating air permeability is good, and the user dresses and is provided with this novel health care shoe-pad of ventilating air when walking, and when bearing gasbag pad pressurized, the inside gas of bearing gasbag pad is discharged into gas permeability shoe-pad body through the fumarole, makes gas permeability shoe-pad body ventilate. Pressure disappears on the bearing airbag cushion, and the bearing airbag cushion is supported to high resilience sponge reconversion, makes the inside negative pressure state that forms of bearing airbag cushion, and in the air passed through miniature check valve and drove into bearing airbag cushion, bearing airbag cushion reconversion.

Furthermore, a plurality of magnetic sheets are arranged on the upper surface of the air-permeable insole body, and the magnetic sheets arranged on the upper surface of the air-permeable insole body can adjust the internal biological magnetic field, so that induction micro-current is generated, blood circulation is promoted, and a health-care function is achieved.

Further, still PCB circuit board in bearing gasbag pad, the user can be connected mobile terminal equipment such as cell-phone or intelligent bracelet with this novel health care shoe-pad bluetooth of ventilating, opens/close meter step function and human body and sit the response function for a long time through this health care shoe-pad of ventilating of mobile terminal equipment control. When a person walks with the shoe provided with the ventilation health-care insole, if the vibration switch is vibrated and switched on, and the piezoelectric sensor is pressed to generate an electric signal which is transmitted to the microprocessor, the microprocessor judges that the person walks, and the person counts steps based on the analysis of the acceleration sensor. The user can be connected mobile terminal equipment such as cell-phone or intelligent bracelet with this novel health care shoe-pad bluetooth of ventilating, receives meter step information through mobile terminal equipment.

If the vibration switch is not conducted, but the piezoelectric sensor is pressed to generate an electric signal and transmit the electric signal to the microprocessor, the microprocessor judges that the user is in a sitting state at the moment, the microprocessor calculates the time of the user in the sitting state, and when the time of the user in the sitting state exceeds a set value, prompt information is sent to the mobile terminal device to remind the user of moving.

If the vibration switch is not conducted and the piezoelectric sensor is not pressed, the microprocessor automatically waits after the set time so as to save the electric energy.

Drawings

FIG. 1 is a cross-sectional view of the novel ventilating health insole;

FIG. 2 is a schematic view of the upper surface structure of the novel ventilation health insole;

FIG. 3 is a cross-sectional view of a support airbag cushion of an embodiment of the present invention;

FIG. 4 is a schematic view of a support airbag cushion according to an embodiment of the present invention;

FIG. 5 is a block diagram of the circuit connections of an embodiment of the present invention.

Detailed Description

The utility model will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1-5, this embodiment provides a novel ventilation health insole, which comprises a ventilation insole body 1, and in this embodiment, it is preferable that the ventilation insole body 1 is made of sponge. In actual setting, the breathable insole body 1 can also be made of cloth. The magnetic sheets 3 are arranged on the upper surface of the air-permeable insole body 1, in the embodiment, preferably, each magnetic sheet 3 is arranged on the upper surface of the air-permeable insole body 1 in an adhering manner (only three magnetic sheets are shown in fig. 2, in the actual arrangement, more than three magnetic sheets can be arranged; preferably, the magnetic sheets are arranged at acupuncture points of the feet of the human body, such as Yongquan acupuncture points). The magnetic therapy product registration technical review guiding principle issued by the State food and drug administration of supervision and administration proposes: "magnetic fields are currently thought to regulate biological magnetic fields in vivo, produce induced microcurrents, alter cell membrane permeability, alter the activity of certain enzymes and dilate blood vessels, accelerate blood flow".

And a supporting airbag cushion 2 is also arranged at the heel position of the breathable insole body 1. A cavity 20 is formed in the bearing airbag cushion 2, and high-resilience sponge 5 is filled in the cavity 20. A plurality of air injection holes 22 are arranged on the surface of one side of the bearing airbag cushion 2, which is in contact with the breathable insole body 1, at intervals. The side of bearing gasbag pad 2 has seted up suction opening 21, be provided with miniature check valve 6 on the suction opening 21. The air outside the bearing airbag cushion 2 is sucked into the cavity 20 of the bearing airbag cushion 2 through the micro one-way valve 6. Specifically, when a user wears the novel ventilation health-care insole and walks, when the bearing airbag cushion 2 is pressed, the gas in the bearing airbag cushion 2 is exhausted into the breathable insole body 1 through the gas ejecting holes 22, so that the breathable insole body 1 is ventilated; pressure disappears on bearing gasbag pad 2, and bearing gasbag pad 2 is supported to high resilience sponge 5 reconversion, makes 2 inside negative pressure states that form of bearing gasbag pad, the air passes through in miniature check valve 6 discharges into bearing gasbag pad 2, bearing gasbag pad 2 reconversion.

Preferably, still be provided with PCB circuit board 4 in the cavity 20 of bearing gasbag pad 2, integrated microprocessor 40, battery 41, wireless charging circuit module 42, protection circuit module 43 that charges, electric quantity detection circuit module 44, vibrations switch 45, acceleration sensor 46 and bluetooth module 47 on PCB circuit board 4.

In this embodiment, it is preferable that the microprocessor 40 employs an MT8980 processor; the acceleration sensor 46 is a three-axis acceleration sensor. The wireless charging circuit module 42, the charging protection circuit module 43, the electric quantity detection circuit module 44, the vibration switch 45, the acceleration sensor 46 and the bluetooth module 47 are all conventional devices.

The wireless charging circuit module 43 is electrically connected to the battery 41 through the charging protection circuit module 42, and charges the battery 41 in a wireless charging manner. The battery 41 is electrically connected to a power supply terminal of the microprocessor 40 to supply power to the microprocessor 40. The battery 41 is electrically connected with the electric quantity detection circuit module 44, and the electric quantity detection circuit module 44 is electrically connected with the microprocessor 40; the power of the battery 41 is detected by the power detection circuit module 44 and transmitted to the microprocessor 40. The vibration switch 45 and the acceleration sensor 46 are respectively electrically connected with the microprocessor 40, and the bluetooth module 47 is in communication connection with the microprocessor 40.

The piezoelectric sensor 6 is electrically connected to the microprocessor 40 through a wire (not shown in the drawings, and the method of laying the wire is a conventional technique in the art and will not be described in detail here).

The user can be connected mobile terminal equipment such as cell-phone or intelligent bracelet with this novel health care shoe-pad bluetooth of ventilating, opens/closes meter step function and human sedentary response function, specific through this health care shoe-pad of ventilating of mobile terminal equipment control:

when a person walks with the shoe provided with the ventilation health-care insole, if the vibration switch 45 is vibrated and conducted and the piezoelectric sensor 6 is pressed to generate an electric signal and transmit the electric signal to the microprocessor 40, the microprocessor 40 judges that the person walks, starts a step counting function and analyzes the step counting based on the acceleration sensor 46.

If the vibration switch 45 is not turned on, but the piezoelectric sensor 6 is pressed to generate an electric signal and transmit the electric signal to the microprocessor 40, the microprocessor 40 judges that the person is in a sedentary state, the human body sedentary induction function is started after a certain time (such as 2min), the microprocessor 40 calculates the time of the user in the sedentary state, and when the time of the user in the sedentary state exceeds a set value (such as 30min), prompt information is sent to the mobile terminal device to remind the user of moving.

If the vibration switch 45 is not turned on and the piezoelectric sensor 6 is not pressed, the microprocessor 40 automatically waits for a predetermined time (e.g., 5min) to save power.

And when the electric quantity of the battery 41 is detected to be lower than the preset value, sending low-electric-quantity prompt information to the mobile terminal equipment to remind a user of charging.

The bluetooth module 47 on the PCB 4 may be replaced by a Wi-Fi module.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. A novel ventilation health-care insole comprises a breathable insole body and is characterized in that: a supporting airbag cushion is also arranged at the heel position of the breathable insole body;

a cavity is formed in the bearing airbag cushion, and high-resilience sponge is filled in the cavity;

a plurality of air injection holes are formed on the surface of one side of the supporting air bag pad, which is in contact with the air-permeable insole body, at intervals;

the bearing airbag cushion is characterized in that an air suction hole is formed in the side face of the bearing airbag cushion, a miniature one-way valve is arranged on the air suction hole, and air outside the bearing airbag cushion is sucked into a cavity of the bearing airbag cushion through the miniature one-way valve.

2. The novel ventilated health insole according to claim 1, wherein: and a plurality of magnetic sheets are also arranged on the upper surface of the breathable insole body.

3. A novel ventilating health insole according to claim 1 or 2, characterized in that: a PCB circuit board is also arranged in the cavity for supporting the airbag cushion;

the PCB is integrated with a battery, a microprocessor, a vibration switch, an acceleration sensor and a Bluetooth module;

the battery is electrically connected with a power end of the microprocessor, the vibration switch and the acceleration sensor are respectively electrically connected with the microprocessor, and the Bluetooth module is in communication connection with the microprocessor.

4. The novel ventilated health insole according to claim 3, wherein: the PCB circuit board is also integrated with a wireless charging circuit module and a charging protection circuit module;

the wireless charging circuit module is electrically connected with the battery through the charging protection circuit module.

5. The novel ventilated health insole according to claim 4, wherein: a piezoelectric sensor is further arranged on the upper surface of the breathable insole body;

the piezoelectric sensor is electrically connected with the microprocessor on the PCB circuit board through a lead.

6. The novel ventilated health insole of claim 5, wherein: the PCB is also integrated with an electric quantity detection circuit module;

the battery is electrically connected with the electric quantity detection circuit module, and the electric quantity detection circuit module is electrically connected with the microprocessor.

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