CN113440398A

CN113440398A - Cell activation energy pad

Info

Publication number: CN113440398A
Application number: CN202110728150.4A
Authority: CN
Inventors: 张红凯
Original assignee: Shanghai Liang Liang Bio Technology Co ltd
Current assignee: Shanghai Liang Liang Bio Technology Co ltd
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2021-09-28
Anticipated expiration: 2041-06-29
Also published as: CN113440398B

Abstract

The invention discloses a cell activation energy pad, which comprises an audio generator, wherein the audio generator is used for outputting sound, and two sound output ends of the audio generator are symmetrically arranged at two sides of the audio generator; the active resonance pieces are arranged on the inner isolation pad in an array mode and used for absorbing sound waves of the audio generator and resonating. According to the invention, the reflection block and the activation resonance piece matched with the reflection block are arranged, so that part of sound waves are uniformly reflected between the reflection block and the activation resonance piece, the activation resonance piece can be activated in a large area, the sound waves are continuously reflected in the resonance channel, when the natural frequency of the resonance piece is the same as the frequency of the sound waves, the same frequency resonance is kept, after the resonance of the resonance piece, the vibration sense is transmitted to a human body, cells of the human body with weak vibration can vibrate along with the resonance piece, and the cells can correct the originally disordered cell frequency into the frequency of the sound waves along with the resonance, so that the purpose of activating the cell energy is achieved.

Description

Cell activation energy pad

Technical Field

The invention relates to the technical field of energy pads, in particular to a cell activation energy pad.

Background

The temperature generated by friction vibration between cells can improve blood circulation, promote inflammation absorption and tissue cell metabolism, and has effects of relieving inflammation, relieving swelling, relieving pain, activating normal cells, repairing damaged cells, separating excretion, and calcification abnormal cells. However, although the prior art has the acoustic wave to adjust the cell activity frequency, the probe is usually small, and can only move to activate the cell energy in a large range, and cannot simultaneously activate the cell energy in a large range.

Disclosure of Invention

The present invention is directed to solving the above problems and providing a cell activation energy pad.

In order to achieve the purpose, the invention adopts the following technical scheme:

a cell activation energy pad, comprising:

the audio generator is used for outputting sound, and two sound output ends of the audio generator are symmetrically arranged on two sides of the audio generator;

the number of the reflecting blocks is multiple, and the reflecting blocks are arranged on the side face of the audio generator;

the number of the inner shock insulators is two, the inner shock insulators are symmetrically arranged on two sides of the audio generator, a reflection cavity is formed among the inner shock insulators, the audio generator and the reflection block, and sound waves of the audio generator are continuously reflected in the reflection cavity;

the number of the outer shock insulators is two, the outer shock insulators are symmetrically arranged, and a sound insulation cavity is formed between the outer shock insulators and the inner shock insulators;

the active resonance pieces are arranged on the inner isolation pad in an array mode and used for absorbing sound waves of the audio generator and resonating.

Optionally, the reflection block is arranged in parallel with the audio generator.

Optionally, one end of each reflecting block is a plane, the other end of each reflecting block is an arc surface, and the reflecting blocks and the audio generator are connected in a seamless mode.

Optionally, a protection pad is attached to one outer side of the outer spacer, and the shape and area of the protection pad are the same as those of the outer spacer.

Optionally, two of the outer spacers are commonly connected with a side seal edge for sealing therebetween.

Optionally, the active resonance component includes a reflection plate, a resonance plate, and a connection block fixedly connecting the reflection plate and the resonance plate, a reflection channel is disposed in the connection block, a resonance channel is disposed in the resonance plate, one end of the reflection channel located at the reflection plate is communicated with the reflection cavity, and the reflection channel located at one side of the resonance plate is communicated with the resonance channel.

Optionally, the reflection plate, the resonance plate and the connection block form an i-shaped structure.

Optionally, the reflection plate is disposed on the inner side of the inner spacer, the connection block is located in the sound insulation cavity, and the resonance plate is disposed on the outer side of the outer spacer.

Optionally, the adjacent reflective sheets are connected seamlessly.

Optionally, a gap is provided between adjacent reflective sheets.

The invention has the following advantages:

the invention enables partial sound waves to be uniformly reflected between the reflection block and the activation resonance piece matched with the reflection block, thereby activating the activation resonance piece in a large area, the reflected sound waves enter the reflection channel and enter the resonance channel along the reflection channel, the sound waves are continuously reflected in the resonance channel, when the natural frequency of the resonance piece is the same as the frequency of the sound waves, the same frequency resonance is kept, after the resonance of the resonance piece, the vibration sense is transmitted to the human body, cells of the human body with weaker vibration can vibrate along with the resonance piece until the resonance is carried out at the synchronous speed, the cells can correct the originally disordered cell frequency into the frequency of the sound waves by following the resonance, thereby achieving the purpose of activating the cell energy, the human body can generate the resonance by outputting the 7.8hz sound waves, the people often resonating with the 7.8hz sound waves is equal to the people who are often charged, the spirit is full and healthy, the emotion is relaxed, the immunity of the human body is improved, and the psychological pressure is reduced; the cell of the human body can be activated and relaxed through the graceful and active music melody, and the graceful music melody is adopted, so that the human body can relax, even infants can carry out prenatal education, and different music frequencies can be adopted to adapt to different crowds and different parts when the infant care device is used.

Drawings

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

FIG. 2 is a schematic structural diagram of an active resonator according to the present invention;

FIG. 3 is a schematic diagram of the reflection of sound waves between the plane of the reflection block and the active resonator in the present invention;

FIG. 4 is a schematic view of the reflected sound wave between the arc surface of the reflection block and the active resonator in the present invention.

In the figure: 1 audio generator, 2 reflection block, 3 reflection cavity, 4 inner spacer, 5 sound insulation cavity, 6 outer spacer, 7 protection pad, 8 active resonance piece, 81 reflection piece, 82 connection piece, 83 resonance piece, 84 resonance channel, 85 reflection channel and 9 side sealing edge.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1, audio generator 1 is used for outputting sound, and audio generator 1 can adopt common loudspeaker, ultrasonic wave equipment, sonar, low frequency sound wave equipment etc. on the market, and audio generator 1's sound output end is two and the symmetry sets up in audio generator 1 both sides to can realize both sides output sound wave.

In this embodiment, a low-frequency sound wave device is used for outputting terahertz sound waves, specifically, 7.8hz sound waves can be output, a human body is equivalent to an electric network, and if excited by the 7.8hz sound waves, the terahertz sound waves can resonate with bioelectricity of the human body, so that the current balance in the human body is coordinated, the self-healing function of the human body is recovered, the health condition is recovered, the aging is delayed, the service life is prolonged, the life quality is improved, and people who often resonate with the 7.8hz sound waves are charged frequently, so that the natural spirit is full, the body health is realized, the emotion is relaxed, the immunity of the human body is improved, and the psychological pressure is reduced.

Referring to fig. 1, the number of reflection blocks 2 is plural and is disposed at a side of the audio generator 1, and in the present embodiment, the reflection blocks 2 are disposed in parallel with the audio generator 1, and an angle between the reflection blocks 2 and the audio generator 1 determines a reflection effect of the sound wave.

One end of the reflection block 2 is a plane, and the reflection of the sound wave can be referred to as shown in fig. 3, and since the plane is flat, the sound wave can be reflected uniformly between the reflection block and the resonance member 8, and the activation resonance member 8 is driven to resonate uniformly.

The other end of the reflection block 2 is a cambered surface, the reflection of the sound wave can refer to fig. 4, wherein part of the sound wave is reflected by the cambered surface and gradually lost and offset, and only part of the sound wave can enter the active resonance part 8 to drive the active resonance part to resonate.

The reflection blocks 2 and the audio generator 1 are connected seamlessly, so that most of sound waves are reflected in the reflection cavity 3.

Referring to fig. 1, the number of the inner partition pads 4 is two, and the inner partition pads are symmetrically arranged on two sides of the audio generator 1, a reflection cavity 3 is formed between the inner partition pads 4 and the audio generator 1 and between the inner partition pads 4 and the reflection block 2, and sound waves of the audio generator 1 are continuously reflected in the reflection cavity 3.

Referring to fig. 1, the number of the outer spacers 6 is two, and the outer spacers 6 are symmetrically arranged, a sound insulation cavity 5 is formed between the outer spacers 6 and the inner spacers 4, and the outer spacers 6 are made of porous materials, so that sound waves can be absorbed.

Referring to fig. 1, 2, 3 and 4, the active resonance members 8 are arranged in an array on the inner spacer 4, and the active resonance members 8 are configured to absorb sound waves of the acoustic generator 1 and resonate.

The active resonance member 8 comprises a reflection plate 81, a resonance plate 83 and a connecting block 82 fixedly connecting the reflection plate 81 and the resonance plate 83, a reflection channel 85 is arranged in the connecting block 82, a resonance channel 84 is arranged in the resonance plate 83, the reflection channel 85 is positioned at one end of the reflection plate 81 and communicated with the reflection cavity 3, and the reflection channel 85 is positioned at one side of the resonance plate 83 and communicated with the resonance channel 84.

One part of the sound wave is absorbed by the reflection sheet 81, the other part of the sound wave is reflected by the reflection sheet, the reflected sound wave enters the reflection channel 85 and enters the resonance channel 84 along the reflection channel 85, the sound wave is continuously reflected in the resonance channel 84, when the natural frequency of the resonance sheet 83 is the same as the frequency of the sound wave, the same frequency resonance is kept, after the resonance of the resonance sheet 83, the vibration sense is transmitted to the human body, cells of the human body with weaker vibration can vibrate along with the resonance sheet 83 until the resonance is carried out at the synchronous speed, the cells can correct the originally disordered cell frequency into the frequency of the sound wave along with the resonance, the purpose of activating the cell energy is achieved, the cells of the human body can be activated and relaxed through the melodies of the graceful human body, the music can relax the human body, the disorder of the body frequency caused by the disorder of the autonomic nervous tension can be avoided, and the hypnosis can be achieved, the effect of relaxing the mood adopts graceful music melody, not only can let the adult relax, just can all carry out the antenatal training with the baby even, and born child also can adapt to external environment betterly, and the mood also can be more stable, more easily takes place the resonance with graceful audio frequency and 7.8HZ frequency, does benefit to the quality that improves the foetus later stage, can adopt different music frequency to adapt to different crowds and different positions when using.

In this embodiment, the reflective sheet 81, the resonator plate 83, and the connecting block 82 constitute an i-shaped structure, the i-shaped structure allows the reflective sheet 81 to be disposed on the inner side of the inner spacer 4, the connecting block 82 to be disposed in the sound-insulating cavity 5, and the resonator plate 83 to be disposed on the outer side of the outer spacer 6.

The outer side of the outer isolation pad 6 is attached with a protection pad 7, and the shape and the area of the protection pad 7 are the same as those of the outer isolation pad 6. The protection pad 7 is used for covering the active resonator 8 and has the function of reducing the vibration sense.

The two outer spacers 6 are connected with a side sealing edge 9 for sealing the two outer spacers, and the side sealing edge 9 is arranged to wrap the reflecting block 2 and the like in the side sealing edge 9 and create a sealed environment.

The adjacent reflection sheets 81 can be connected in a seamless manner, the sound waves can be reflected uniformly between the reflection sheets 81 by the seamless connection, a gap can be formed between the reflection sheets and the gap, and a part of the sound waves can penetrate through the gap inner spacer 4 to be absorbed.

The above description is only a preferred embodiment of the present invention, and not intended to be exhaustive or to limit the scope of the present invention, and any person skilled in the art can substitute or change the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. A cell activation energy pad, comprising:

the audio generator (1) is used for outputting sound, and the two sound output ends of the audio generator (1) are symmetrically arranged on the two sides of the audio generator (1);

the number of the reflecting blocks (2) is multiple, and the reflecting blocks (2) are arranged on the side face of the audio generator (1);

the number of the inner shock insulators (4) is two, the inner shock insulators are symmetrically arranged on two sides of the audio generator (1), a reflection cavity (3) is formed among the inner shock insulators (4), the audio generator (1) and the reflection block (2), and sound waves of the audio generator (1) are continuously reflected in the reflection cavity (3);

the number of the outer shock insulators (6) is two, the outer shock insulators (6) are symmetrically arranged, and a sound insulation cavity (5) is formed between the outer shock insulators (6) and the inner shock insulators (4);

the active resonance piece (8), the active resonance piece (8) is arranged on the inner spacer (4) in an array mode, and the active resonance piece (8) is used for absorbing sound waves of the audio generator (1) and resonating.

2. A cell activation energy pad as claimed in claim 1, wherein the reflection block (2) is arranged in parallel with the audio generator (1).

3. The cell activation energy pad as claimed in claim 1, wherein one end of the reflection block (2) is a plane, the other end of the reflection block (2) is a cambered surface, and the reflection blocks (2) and the reflection block (2) are connected with the audio generator (1) in a seamless manner.

4. The cell activation energy pad as claimed in claim 1, wherein the outer side of the outer spacer (6) is attached with a protection pad (7), and the shape and area of the protection pad (7) are the same as those of the outer spacer (6).

5. A cell activation energy pad according to claim 1, wherein two outer spacers (6) are joined together by a side seal (9) that seals between them.

6. The cell activation energy pad according to claim 1, wherein the activation resonance member (8) comprises a reflection plate (81), a resonance plate (83) and a connecting block (82) fixedly connecting the reflection plate and the resonance plate, a reflection channel (85) is formed in the connecting block (82), a resonance channel (84) is formed in the resonance plate (83), the reflection channel (85) is located at one end of the reflection plate (81) and is communicated with the reflection cavity (3), and the reflection channel (85) is located at one side of the resonance plate (83) and is communicated with the resonance channel (84).

7. The cell activation energy pad according to claim 6, wherein the reflection sheet (81), the resonance sheet (83) and the connection block (82) form an I-shaped structure.

8. A cell activation energy pad as claimed in claim 6, wherein the reflective sheet (81) is disposed on the inner side of the inner spacer (4), the connecting block (82) is disposed in the sound-insulating cavity (5), and the resonant sheet (83) is disposed on the outer side of the outer spacer (6).

9. The cell activation energy pad as claimed in claim 6, wherein the adjacent reflective sheets (81) are connected seamlessly.

10. The cell activation energy pad as claimed in claim 6, wherein a gap is provided between adjacent reflective sheets (81).