CN110664047A - Follow intelligent shoes of audio frequency vibrations - Google Patents

Abstract

The invention discloses an intelligent shoe capable of vibrating along with audio frequency, which comprises a vamp, a sole, a heel, a battery pack, a vibrator and a fixing device, wherein the sole is provided with a sole hole; the middle part of the sole is provided with a square groove, and the battery pack is arranged in the square groove; the vibrator is fixed on the sole and the vamp, and the fixing device is arranged at the heel of the shoe; the battery pack and the vibrator are connected through a lead. The shoe comprises at least one vibrator, the vibrator can be operated to vibrate along with the audio rhythm, the experience of listening to songs, playing games and watching movies is obviously improved, and therefore the body and mind can feel personally on the scene.

Description

Follow intelligent shoes of audio frequency vibrations

Technical Field

The invention relates to the technical field of shoes, in particular to an intelligent shoe capable of vibrating along with audio.

Background

Shoes play an important role in life as a daily wear necessity. The footwear products on the market are designed to meet the needs of consumers in an effort to seek aesthetic, practical, and comfortable properties. This demand oriented has resulted in fewer and less interactive footwear products. Shoes with a vibration function on the market are mainly used for health care massage, and shoe products which are used for entertainment and can interact with feet are lacked. Most of intelligent shoes can only give enjoyment in sense of hearing to people by providing a single music playing function intelligently, and the sense of immersion is not enough.

Disclosure of Invention

The invention aims to overcome the defects and provide the intelligent shoe capable of vibrating along with audio.

In order to achieve the purpose, the technical solution of the invention is as follows: an intelligent shoe capable of vibrating along with audio frequency comprises a vamp, a sole and a heel; it is characterized by also comprising a battery pack, a vibrator and a fixing device; the middle part of the sole is provided with a square groove, and the battery pack is arranged in the square groove; the vibrator is arranged on the vamp and the sole, the fixing device is arranged at the heel of the shoe, and the battery pack and the vibrator are connected through a lead.

Preferably, the fixing device is provided with a control switch and a charging port, the control switch and the charging port are integrated on a PCB, the PCB is hidden inside the fixing device, and the control switch and the charging port are exposed out of the fixing device. The wireless charging mode can be adopted, at the moment, a charging port is not required to be arranged, and only the control switch is reserved.

Preferably, the fixing device can be made of one or more of a plastic TPU material, a plastic PCB material and a metal titanium alloy material.

Preferably, the battery pack comprises a micro data processing device, a battery and a TPU sleeve box; the battery and the micro data processing device are placed in the TPU sleeve, and the micro data processing device, the control switch, the charging port and the vibrator are connected with the battery through wires.

Preferably, the micro data processing device is provided with an MCU processor and a wireless communication module, the MCU processor is connected with the mobile phone through the wireless communication module, the mobile phone transmits audio data to the MCU processor, and the MCU processor identifies, analyzes and converts the audio track data into a vibrator vibration signal.

Preferably, the audio data selects different transcoding values according to different amplitude intervals, each transcoding value corresponds to a current intensity, and the electrical parameters are distributed in a difference gradient mode according to the size sequence of the corresponding transcoding values. After transcoding the audio amplitude into a vibration signal, performing secondary filtering on the transcoded vibration information by adopting a screening mode of comparing a difference value of the preceding transcoding and the subsequent transcoding (aiming at filtering partial intermediate frequency of a music climax part to highlight a vibration effect); the method of further filtering may be by comparing the change of the wave at either side of the middle of the wave, if the change is less than a range, the transcoded value of the wave will default to follow the previous value. And sending the transcoded vibration signal to a micro data processing device positioned on the shoe in a wireless transmission mode (such as Bluetooth communication and the like), and controlling a vibrator positioned on the shoe to vibrate correspondingly by the micro data processing device according to the vibration signal.

Preferably, the vibrator comprises a modified vibrating motor and a TPU box, and the vibrating motor is arranged in the TPU box. The influence of pressure from a person on the vibration motor is reduced, the vibration effect is amplified, and noise sound heard from the outside is reduced.

Due to the adoption of the technical scheme, the invention has the remarkable technical effects that: the invention relates to an intelligent shoe capable of vibrating along with audio frequency, which is used for enhancing the sensory perception of entertainment experience. More particularly, the vibrating shoe device comprises at least one vibrator, audio is analyzed, transcoding is carried out on the audio, the audio is transmitted to the micro data processing device of the intelligent shoe, the vibrator carries out vibration with different intensities according to transcoding values, and the condition that only sound is heard when the intelligent shoe is connected with the mobile phone Bluetooth is improved. The mobile phone can vibrate correspondingly when playing music, video, incoming call ringtone and message reminding, so that the body is immersed in the physical portable experience of being personally on the scene. The problem that the existing shoes vibrating along with music cannot simultaneously give consideration to rhythm vibration and APP work applying expansion is solved. The audio transcoding analysis method has the advantages that transcoding analysis is conducted on audio, part of unnecessary vibration is reduced through an algorithm, the vibration effect is enhanced, and the use scene is enriched.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a circuit diagram of the present invention;

FIG. 3 is a schematic view of a sole and heel of the present invention;

FIG. 4 is a schematic representation of an upper of the present invention;

FIG. 5 is a schematic diagram of audio amplitude according to the present invention;

fig. 6 shows the vibration signal after transcoding is completed according to the present invention.

In the figure: 1. a sole; 2. a shoe upper; 3. a heel of a shoe; 4. a fixing device; 5. a battery pack; 6. a vibrator; 7. a control switch; 8. a charging port; 9. a micro data processing device; 10. a battery; 11. a PCB board; 12. and (4) conducting wires.

Detailed Description

The invention is further described below with reference to the figures and the specific embodiments.

As shown in fig. 1-4, an intelligent shoe capable of vibrating with audio frequency comprises a vamp 2, a sole 1, a heel 3, a battery pack 5, a vibrator 6 and a fixing device 4; a square groove is formed in the middle of the sole 2, and the battery pack 5 is arranged in the square groove; the vibrator 6 is fixed on the vamp 1 and the sole 2, and the fixing device can be made of other materials such as a plastic TPU material, a plastic PCB material, a metal titanium alloy material and the like; the fixing device and the heel adopt any one of a seamless process, an adhesive process, a stitching process and a weaving process. The fixing device 4 is provided with a control switch 7 and a charging port 8, and the control switch 7 and the charging port 8 are integrated on a PCB 11. The battery 10 can also be charged by wireless charging, and the charging port 8 is not necessary. The battery pack 5, the vibrator 6, the control switch 7 and the charging port 8 are connected through a wire 12, and the wire 12 is placed in a wire groove.

The number of vibrators 6 in this embodiment is 5, and the vibrators are respectively arranged on the edges of two ends of the vamp 2, so that the coverage of the vibrators 6 is wider. The vibrator 6 comprises a modified vibration motor and a TPU box, and the vibration motor is arranged in the TPU box. The influence of pressure from people on the vibration motor during vibration is greatly reduced, the vibration effect is amplified, and meanwhile, noise and sound heard from the outside during vibration are reduced; the vibration motor can be placed in a TPU sleeve box, or a mode without the sleeve box can be selected, and the vibration motor is directly fixed on the vamp or the sole by adopting a glue coating process, a film absorbing process and a weaving process, so that a waterproof effect is achieved. The fixing device 4 is arranged at the heel of the shoe by adopting a TPU transparent film through a seamless process, the TPU transparent film is provided with a control switch 7 and a charging port 8, the control switch 7 and the charging port 8 are integrated on a PCB11, the PCB11 is hidden at the inner side of the TPU transparent film, and the control switch 7 and the charging port 8 are exposed out of the TPU transparent film; therefore, the user can charge the intelligent shoe and control the switch more conveniently.

The battery combination package 5 comprises a micro data processing device 9, a battery 10 and a TPU sleeve box; the battery 10 and the micro data processing device 9 are placed in a TPU sleeve, and the micro data processing device 9, the control switch 7, the charging port 8 and the vibrator 6 are connected with the battery 10 through a wire 12. The micro data processing device 9 is provided with an MCU processor and a wireless communication module, the MCU processor is connected with the mobile phone through the wireless communication module, the mobile phone transmits audio data to the MCU processor, and the MCU processor identifies, analyzes and converts sound track data into a vibration signal of the vibrator 6.

The audio data selects different transcoding values according to different amplitude intervals, each transcoding value corresponds to one electrical parameter, and the electrical parameters corresponding to each transcoding value are distributed in a difference gradient mode. The electrical parameter may be current, voltage, capacitance, resistance, and the like. After transcoding the audio amplitude into a vibration signal, carrying out secondary filtering on the transcoded vibration information by adopting a screening mode of comparing a difference value of the transcoding before and after the audio amplitude is transcoded into a vibration signal, and aiming at filtering partial intermediate frequency of a music climax part to highlight the vibration effect; the delay problem of audio transcoding can be solved by correcting delayed playing or transcoding in advance. The method of further filtering may be by comparing the change of the wave at either side of the middle of the wave, if the change is less than a range, the transcoded value of the wave will default to follow the previous value. The vibration signal after will transcoding passes through wireless transmission module, sends the miniature data processing device that is located on the shoes, and bluetooth communication is adopted to this embodiment, and the MCU treater on miniature data processing device 9 carries out corresponding vibration according to this vibration signal control vibrator that is located on the shoes. The audio selects different transcoding values according to different amplitude intervals, and each transcoding value corresponds to a current intensity; how to select different conversion values is realized through the MCU processor, and simultaneously, the MCU processor also carries out matching setting on each conversion value and the set current intensity.

The audio is specifically divided into ten transcoding values. (1) When the amplitude interval is 0-1000, the transcoding value is 0; (2) when the amplitude interval is 1000-2500, the transcoding value is 1; (3) when the amplitude interval is 2500-4000, the transcoding value is 2; (4) when the amplitude interval is 4000-5500, the code conversion value is 3; (5) when the amplitude interval is 5500-7000, the transcoding value is 4; (6) when the amplitude interval is 7000-10000, the transcoding value is 5; (7) when the amplitude interval is 10000-15000, the transcoding value is 6; (8) when the amplitude interval is 15000-20000, the transcoding value is 7; (9) when the amplitude interval is 20000-25000, the transcoding value is 8; (10) when the amplitude interval is larger than 25000, the transcoding value is 9; where transcoded value 0 represents no current and transcoded value 9 represents the highest current.

The working principle of the application is as follows: a user is connected with the intelligent shoe through the Bluetooth through an intelligent terminal such as a mobile phone, the mobile phone plays music, videos, incoming call ringtone and message reminding, and simultaneously transmits audio signals to the MCU processor of the miniature data processing device, the MCU processor selects different transcoding values according to different amplitude intervals of the audio data, each transcoding value corresponds to one current intensity, a vibration signal is transmitted to the vibrator 6, and the vibrator 6 vibrates in different intensities according to different transcoding values. When a user listens to music, the vibrator on the shoe vibrates along with the audio rhythm, so that the experience of listening to songs, playing games and watching movies is remarkably improved, and the body and mind of the user are immersed in the feeling of being personally on the scene. In addition, the LED lamps can be matched, the LED lamps have various colors such as red, green and yellow, and different colors of the LED lamps can be switched according to different vibration intensities during vibration, so that the LED lamps are cool. When the conversion code value is 0, the vibration intensity is low, the LED light is softer, the color switching speed and frequency are slow, the vibration intensity is continuously improved along with the increase of the conversion code value, the LED light is more dazzling, and the color switching speed and frequency are far faster.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, and all equivalent changes and modifications made in the claims of the present invention should be included in the scope of the present invention.

Claims (8)

1. An intelligent shoe capable of vibrating along with audio frequency comprises a vamp, a sole and a heel; it is characterized by also comprising a battery pack, a vibrator and a fixing device; the middle part of the sole is provided with a square groove, and the battery pack is arranged in the square groove; the vibrator is arranged on the vamp and the sole, the fixing device is arranged at the heel of the shoe, and the battery pack and the vibrator are connected through a lead.

2. The intelligent shoe capable of following audio vibration according to claim 1, wherein the fixing device is provided with a control switch and a charging port, the control switch and the charging port are integrated on a PCB, the PCB is hidden inside the fixing device, and the control switch and the charging port are exposed out of the fixing device.

3. The intelligent shoe capable of vibrating along with the audio frequency of claim 1, wherein the fixing device is made of one or more of a plastic TPU material, a plastic PCB material and a metal titanium alloy material.

4. The intelligent shoe following audio vibration according to any one of claims 1-2, wherein the battery pack comprises a micro data processing device, a battery, a TPU cartridge; the battery and the micro data processing device are placed in the TPU sleeve, and the micro data processing device, the control switch, the charging port and the vibrator are respectively connected with the battery through wires.

5. The intelligent shoe capable of vibrating along with the audio frequency is characterized in that the micro data processing device is provided with an MCU processor and a wireless communication module, the MCU processor is connected with a mobile phone through the wireless communication module, the mobile phone transmits the audio data to the MCU processor, and the MCU processor identifies, analyzes and converts the audio track data into a vibration signal of the vibrator.

6. The intelligent shoe capable of vibrating along with the audio frequency as claimed in claim 3, wherein the audio data selects different transcoding values according to different amplitude intervals, each transcoding value corresponds to one electrical parameter, and the electrical parameters are distributed in a difference gradient mode according to the size sequence of the corresponding transcoding values.

7. The intelligent shoe capable of following audio vibration of claim 6, wherein the electrical parameters comprise current, voltage, capacitance and resistance.

8. The intelligent shoe capable of following audio vibration of claim 1, wherein the vibrator comprises a vibration motor and a TPU box, and the vibration motor is arranged in the TPU box.

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