The present disclosure relates to the technical field of insoles, more particular to a smart insole special for golf.
Golf is a game practiced outdoors, for which the course is required to have pleasant winds between hills and have ponds and streams that create so-called “water hazards”. Such features make golf a sport both physically beneficial and mentally beneficial.
Existing insoles have some deficiencies in moisture transfer, which could easily cause wet toes and insufficient comfort to wear.
The present disclosure aims to solve the shortcomings in the existing technologies and provide a smart insole special for golf that can solve the problems in the existing technologies.
In order to achieve the above aim, the present disclosure employs the following technical solution.
A smart insole special for golf includes a toe portion and a heel portion, wherein inside the toe portion and the heel portion is formed a communicated cavity, the toe portion is formed with a groove, inside which groove is formed a plurality of through holes, the through holes are communicated with the cavity, one end inside the cavity close to the heel portion has a top fixedly connected to a partition block, and the cavity has an area located at a bottom of the heel portion filled with a porous sponge.
The cavity is internally fixedly connected to a plurality of pressure sensors at intervals, the heel portion has a bottom of an inside thereof fixedly provided with a control box, and the control box is provided internally with a storage battery, Bluetooth and a controller.
Preferably, inside the partition block is formed an accommodation cavity, the partition block has a side face formed with a filling hole, the filling hole has an inner side fixedly connected to an elastic film, the elastic film has an upper end and a lower end fixedly connected to an inner wall of the cavity, and the accommodation cavity is filled with refreshing powder.
The accommodation cavity is formed with a discharge hole at a bottom of one end thereof close to the heel portion, the partition block and the cavity have support bars provided at intervals therebetween, and the discharge hole is positioned above a channel between the two support bars.
Preferably, the refreshing powder is composed of boric acid, zinc oxide, salicylic acid, borneol, menthol, camphor and talc powder.
Preferably, the accommodation cavity has one end close to the heel portion provided with a curved bar.
Preferably, the heel portion has a massage bump provided on an upper side of a front end thereof.
Preferably, the heel portion has a rear end formed with an air inlet, the air inlet has an inner side provided with a shielding film, and the shielding film has an upper end and a lower end fixedly connected to an inner wall of the air inlet respectively.
The present disclosure has the following advantages. The smart insole special for golf provided by the present disclosure is applicable to the case that the toes perspire slightly. The wearer just needs to trample on the heel portion using his heel, whereby repeatedly extruding the porous sponge. The porous sponge is restored to cooperate with the one-way refill of air of the air inlet, making the air blown into the through holes of the groove of the toe portion, so that the toes get aired more rapidly and the comfort is improved.
In the case that the toes perspire heavily, if the sweat is not wicking in a timely manner, it could easily soak the toes, causing the limbs to become white and bloated. When it is inconvenient to take off the shoes, the wearer may raise the toe portion and let the heel portion repeatedly touch the ground. Since the sole does not apply a force to the position of the partition block, a gap is formed between the curved bar and the top wall of the accommodation cavity, so that the refreshing powder filled in the accommodation cavity may fall into the channel formed between the two support bars. By the time, as the heel repeatedly touches the ground, the cavity of the porous sponge is repeatedly compressed to blow air to the channel formed between the two support bars, so that the refreshing powder is blown to the toe portion to keep the toes dry and comfortable.
To make the purpose, the technical scheme and the advantages of the present disclosure more clearly understood, the present disclosure is described below in further detail in conjunction with accompanying drawings and embodiments. It should be understood that the specific embodiments described below are merely to illustrate, but to limit, the present disclosure.
As shown in
The cavity 3 is internally fixedly connected to a plurality of pressure sensors at intervals, the heel portion 2 has a bottom of an inside thereof fixedly provided with a control box, and the control box is provided internally with a storage battery, Bluetooth and a controller. The storage battery is provided with a USB interface, to ease charging. When a wearer of the smart insole is exercising, the pressure sensor acquires the weight and pressure information of the user, the heading direction, gesture, acceleration value and sampling rate of the foot, and collects the exercise habits of the wearer. Then the collected information is transmitted to a mobile phone through the Bluetooth, to generate models for different users, whereby to perform training adjustment or provide suggestions by means of the data.
Inside the partition block 4 is formed an accommodation cavity 41. The partition block 4 has a side face formed with a filling hole, and the filling hole has an inner side fixedly connected to an elastic film. The elastic film has an upper end and a lower end fixedly connected to an inner wall of the cavity 3. The accommodation cavity 41 is filled with refreshing powder. The refreshing powder is composed of boric acid, zinc oxide, salicylic acid, borneol, menthol, camphor and talc powder.
The filling hole is configured to refill the refreshing powder into the accommodation cavity 41. The elastic film is jacked open during the refilling course. The refilled refreshing powder enters the accommodation cavity 41 from a lateral side of the elastic film. When the refilling tube gets away, the elastic film is restored to seal the filling hole again. By the time, press the partition block 4, and the refreshing powder will not leak.
The accommodation cavity 41 is formed with a discharge hole 42 at a bottom of one end thereof close to the heel portion 2. The partition block 4 and the cavity 3 have support bars 43 provided at intervals therebetween. The discharge hole 42 is positioned above a channel between the two support bars 43. The accommodation cavity 41 has one end close to the heel portion 2 provided with a curved bar 44. The heel portion 2 has a massage bump 45 provided on an upper side of a front end thereof.
The heel portion 2 has a rear end formed with an air inlet 21, the air inlet 21 has an inner side provided with a shielding film 22, and the shielding film 22 has an upper end and a lower end fixedly connected to an inner wall of the air inlet 21 respectively. In combination of the compression and resilience of the porous sponge 5, air flow is formed and guided into the cavity 3. When the porous sponge 5 is compressed, the shielding film 22 blocks the air inlet 21. When the porous sponge 5 is restored, since the through hole 12 is a narrow hole, air first jacks open the shielding film 22 to enter the cavity 3, thereby achieving an effect of one-way transmission of air toward the through hole 12. The present disclosure presents a 3D profile, conforming to the contour of a human foot and conforming to the ergonomic structural design.
The present disclosure is used in combination with breathable mesh style golf shoes, which can achieve two different usage modes and acquire two different effects.
In the case that the toes perspire slightly, the wearer just needs to trample on the heel portion 2 using his heel, whereby repeatedly extruding the porous sponge 5. The porous sponge 5 is restored to cooperate with the one-way refill of air of the air inlet 21, making the air blown into the through holes 12 of the groove 11 of the toe portion 1, so that the toes get aired more rapidly and the comfort is improved.
In the case that the toes perspire heavily, if the sweat is not wicking in a timely manner, it could easily soak the toes, causing the limbs to become white and bloated. When it is inconvenient to take off the shoes, the wearer may raise the toe portion 1 by 30-45 degrees and let the heel portion 2 repeatedly touch the ground. Since the sole does not apply a force to the position of the partition block 4, a gap is formed between the curved bar 44 and the top wall of the accommodation cavity 41, so that the refreshing powder filled in the accommodation cavity 41 may fall into the channel formed between the two support bars 43. By the time, as the heel portion 2 repeatedly touches the ground, the cavity of the porous sponge 5 is repeatedly compressed to blow air to the channel formed between the two support bars 43, so that the refreshing powder is blown to the toe portion 1 to keep the toes dry and comfortable.
The present disclosure can be combined with different application scenarios, select different usage modes, and improve the comfort specifically.
Although the above has shown and described the embodiments of the present disclosure, it is understandable for the ordinary skill in the art that many modifications, changes, substitutions and transformations may be made to these embodiments without departing from the spirit and principle of the present disclosure. The scope covered by the present disclosure is defined by the claims appended hereinafter and equivalents thereof.