Comfortable taste shoes of music rhythm
Technical Field
The invention relates to the field of shoes, in particular to an interesting shoe with comfortable music rhythm, which can enable a music module to play continuously in the walking process of children, improve the integrity of music and enable the music to be heard more comfortably.
Background
In order to improve the interest of the shoes, one method is to embed a music chip in the shoes, and then control whether the music chip is opened or not by controlling a path between the music chip and a power supply, so as to control whether the music chip works or not. However, since the pace frequency of children is generally high, the music played by the music chip is very short due to the adoption of the structure, and the quality of the played music is affected. In view of the above, the present inventors have made extensive studies on the above-mentioned drawbacks of the prior art, and have made this invention.
Disclosure of Invention
The invention mainly aims to provide interesting shoes with comfortable music rhythm, and the interesting shoes are used for solving the problem that the quality of the music is influenced because the music played by a music chip is short in the prior art.
In order to achieve the above purpose, the solution of the invention is:
an interesting shoe with comfortable music rhythm comprises a sole and an upper, wherein a power supply and a music chip are arranged in the sole at a position corresponding to the arch of foot, a contact plate is arranged at the heel of the sole and is connected with the power supply through a wire, a first conductive column is arranged on the contact plate, and a conductive jack is arranged in the first conductive column;
the sole is also provided with a second conductive column, the lower end of the second conductive column is provided with a conductive plug, the music chip is connected with the second conductive column, and the music chip and the power supply form a closed loop when the conductive jack of the first conductive column is communicated with the conductive plug of the second conductive column;
the interesting shoe further comprises a first magnet and a second magnet, wherein the first magnet is arranged on the first conductive column, the second magnet is arranged on the second conductive column, the first magnet and the second magnet are in attraction with each other, an elastic component is further arranged on the upper portion of the second conductive column, the elastic component is provided with a foam layer located at the top and a spring connected to the bottom of the foam layer, and the spring is connected with the second conductive column.
Further, be provided with two electrically conductive jacks on the first electrically conductive post, first magnet is located between two electrically conductive jacks, second magnet is located the second and leads the interior and be the attraction state each other with first magnet of post.
Furthermore, be provided with a plurality of shock attenuation post respectively corresponding to preceding sole region and heel region in the sole, each shock attenuation post all has interior cavity structure, and each shock attenuation post all adopts the PU material to make, then is provided with foaming ETPU particle in the interior cavity structure, still be formed with the opening on the cushion column, this opening provides the inlet port that ETPU particle got into interior cavity structure.
Further, the opening is located in an upper region of the shock-absorbing column and the opening is gradually upward from the outside to the inside.
After the structure is adopted, the interesting shoes with comfortable music rhythm are characterized in that when a child walks frequently, the return spring needs to be reset in the gap between two tramples, so that when the return spring is not completely reset, the next trample comes, and the music is always in a playing state; if the children are at rest, after the reset spring resets, the first conductive column and the second conductive column are separated, so that the music player stops playing music.
Compared with the prior art, the method fully utilizes the deformation time of the foam layer in the deformation process, and utilizes the deformation time and the attraction force between the first magnet and the second magnet to ensure that the first conductive column and the second conductive column can attract for a period of time, so as to keep the music chip in a power supply state. When children stopped trampling, the foam blanket deformation reset completely, under the effect of spring, the second is led electrical pillar and can be left first and lead electrical pillar, so let the music chip stop the power supply, stop the broadcast of music.
Drawings
FIG. 1 is a schematic view of a pair of fun shoes with comfortable music rhythm according to the present invention.
Fig. 2 is an overall schematic view of the interesting shoe.
Fig. 3 is a schematic structural view of the shock-absorbing column of the present invention.
In the figure:
a sole-1; a contact plate-11; a first conductive post-12;
a conductive jack-121; a first magnet-122; a second conductive post-13;
a conductive plug-131; a second magnet-132; -an elastic component-14;
foam layer-141; a spring-142; an upper-2;
a power supply-3; a music chip-4; a shock-absorbing column-5;
inner cavity structure-51; opening-52; ETPU particle-53.
Detailed Description
In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.
As shown in fig. 1 to 3, the present invention relates to a pair of fun shoes with comfortable music rhythm, which comprises a sole 1 and an upper 2, wherein the sole 1 is provided with a power supply 3 and a music chip 4 in positions corresponding to the arch of foot, the sole 1 is provided with a contact plate 11 at the heel, the contact plate 11 is connected with the power supply 3 through a conducting wire, the contact plate 11 is provided with a first conducting pillar 12, and the first conducting pillar 12 is provided with a conducting jack 121.
The sole 1 is further provided with a second conductive column 13, the lower end of the second conductive column 13 is provided with a conductive plug 131, the music chip 4 is connected with the second conductive column 13, and the music chip 4 forms a closed loop with the power supply 3 when the conductive jack 121 of the first conductive column 12 is communicated with the conductive plug 131 of the second conductive column 13. Preferably, the outer edge of the conductive post 13 is formed as an insulating layer.
The fun shoe further comprises a first magnet 122 and a second magnet 132, wherein the first magnet 122 and the second magnet 132 are respectively arranged on the first conductive column 12 and the second conductive column 13, the first magnet 122 and the second magnet 132 are in a mutually attracted state, an elastic component 14 is further arranged on the upper portion of the second conductive column 13, the elastic component 14 is provided with a foam layer 141 located at the top and a spring 142 connected to the bottom of the foam layer 141, and the spring 142 is connected with the second conductive column 13.
Therefore, when a child walks frequently, the return spring 142 needs to be reset in the gap between two treading, so that when the return spring 142 is not completely reset, the next treading is forthcoming, and the music is always in a playing state; if the child is at rest, after the return spring 142 is returned, the first conductive pillar 12 and the second conductive pillar 13 will be separated, so that the music player stops playing music.
Compared with the prior art, the deformation time of the foam layer 141 in the deformation process is fully utilized, and the deformation time and the attraction force between the first magnet 122 and the second magnet 132 are utilized to ensure that the first conductive column 12 and the second conductive column 13 can attract each other for a period of time, so that the music chip 4 is kept in a power supply state. When the child stops stepping on, the foam layer 141 is completely deformed and reset, and under the action of the spring 142, the second conductive pillar 13 will leave the first conductive pillar 12, so that the music chip 4 stops supplying power to stop playing music.
As shown in fig. 1, in the present embodiment, two conductive insertion holes 121 are disposed on the first conductive pillar 12, the first magnet 122 is located between the two conductive insertion holes 121, and the second magnet 132 is located in the second conductive pillar 13 and is attracted to the first magnet 122.
As shown in fig. 2 and 3, a plurality of shock-absorbing columns 5 are respectively disposed in the sole 1 corresponding to the forefoot area and the heel area, each shock-absorbing column 5 has an inner cavity structure 51, each shock-absorbing column 5 is made of PU material, foamed ETPU particles 53 are disposed in the inner cavity structure 51, an opening 52 is further formed on the shock-absorbing column, and the opening 52 provides an entrance for the ETPU particles 53 to enter the inner cavity structure 51. The opening 52 is located in the upper region of the shock-absorbing column 5 and the opening 52 is gradually upward from the outside to the inside.
In this embodiment, the cushion column be hexahedron structure, including the support limit of being connected with the connection limit that base and stress layer are connected and with the connection limit, two support limits of each side are the mirror image setting. The buffer column is provided with an inner cavity structure 51, hexahedral structures formed by the connecting edge and the supporting edge of the buffer column are made of PU materials, foamed ETPU particles 53 are arranged in the inner cavity structure 51, an opening 52 is formed in the buffer column, the opening 52 provides an inlet for the ETPU particles 53 to enter the inner cavity structure 51, and when the ETPU particles 53 are completely filled, the opening 52 is sealed by a sealing device; preferably, the opening 52 is located at the upper part of the hexahedral structure, and the opening 52 is gradually upward from the outside to the inside, so that by the structural design of the opening 52, the reaction force F of the ETPU particles 53 in the inner cavity structure 51 against the hexahedral structure is not consistent with the plug filled in the opening 52, thereby ensuring the durability of the whole product and the quality of the whole product. The invention greatly improves the shock absorption performance of the whole sole 1 by utilizing the elastic performance of the ETPU particles 53 and matching with the comprehensive performance of the PU material.
In order to enable the whole sports shoe to be cool, a plurality of color balls are embedded at the periphery of the shoe, each color ball is arranged in a cavity, the cavity is covered and molded by an outer cover made of transparent materials, in order to enable the color balls to have a better effect, the surface of each color ball comprises a temperature sensing color changing material layer formed by coating, the temperature sensing color changing material layer on the surface of each color ball is provided with a temperature threshold value, and when the temperature in the cavity structure is smaller than the temperature threshold value, the color balls are in a first color (non-red); when the temperature is higher than the temperature threshold value, the color ball is red. More specifically, the temperature threshold value of the color ball is continuously reduced along the direction from the front sole to the heel area. Such shoes very conveniently use in children's shoes field, so, the head of a family can know the temperature of children's foot through observing roughly like this to know the comfortable degree of children's foot, in order to avoid many children to have rotten the foot and all not in time inform the emergence of situations such as adult.
As a better scheme, a communicating cavity is further arranged between the accommodating cavity and the inner cavity of the shoe, and the communicating cavity can enable the color balls to sense the temperature inside the shoe more accurately.
The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.