CN213697860U - Low-frequency vibration wearing device - Google Patents

Abstract

A low frequency vibration wearable device, comprising: the illuminating unit, low-frequency vibration unit and wearing piece, the illuminating unit includes illuminating part and first lamellar body, low-frequency vibration unit electric connection illuminating unit, low-frequency vibration unit includes second lamellar body and loudspeaker, wearing piece connects illuminating unit and low-frequency vibration unit, and take wearing piece setting on illuminating unit and low-frequency vibration unit's outer peripheral edges, wearing piece wears on the thing that is surveyed, illuminating part outwards sends visible light, the wavelength of visible light is between 380nm to 750nm, visible light shines first lamellar body, and the first lamellar body of excitation is outwards shone out the infrared light, loudspeaker outwards sends the sound wave, the frequency of sound wave is between 10Hz to 200Hz, sound wave and infrared light act on the thing that is surveyed simultaneously; therefore, the tested object can control the energy balance in the tested object and increase the liquid circulation and the fluidity by passing through the sound wave and the infrared light.

Description

Low-frequency vibration wearing device

Technical Field

The utility model discloses a low frequency vibration device especially indicates a low frequency vibration who improves brownian's motion dresses device.

Background

The movement of particles was discovered in 1826 by british scientists "brownian" observing pollen suspended in water under a microscope and this molecular movement was later called "brownian movement". Clinically, it is proved that in the case of early ischemic cerebral apoplexy, the "brownian motion" of water molecules in brain cells is reduced because the blood perfusion in the focus is reduced, the functions of Na +, K +, -ATP enzyme pump (tranporter) on the brain nerve cell membrane are weakened, and Na +, Ca2+ in extracellular fluid flows into cells to cause cytotoxic edema, so that the nerve cell outer space is reduced, the diffusion speed of water molecules is reduced, and the "brownian motion" of water molecules is limited.

However, "brownian motion" is also applied to the activity of surviving tumor cancer cells, has an intact cell membrane, water is the most important component of the human body, and because the cell walls in the human body form natural barriers to block the "brownian motion" of water molecules, the water molecules in the cells are more limited, the motion of the water molecules is smaller, the water molecules outside the cells are less limited, and the motion of the water molecules is larger. Therefore, the denser and more complete area of cells, the more obstacles are formed, and the more restricted the movement of water molecules. Since tumors are an abnormal proliferation of cells in the body, the cell density will be higher than normal tissue, blocking the "brownian motion" of water molecules.

In addition, in 1968, Canadian scholars, "vienna austria," and Germany have reported documents and studies that light with a wavelength of 450nm to 1100nm is used to photochemically activate the mitochondria of blood cells, and that low-energy lasers are mainly Biostimulation (Biostimulation) which is to stimulate biological cells and induce or enhance physiological reactions by giving appropriate energy, activate the cells, repair damaged cells and produce a protective membrane to protect the body from the toxic effects of free radicals and middle-molecular substances, thereby achieving the anti-aging effect.

The principle of Low Energy Phototherapy (LEPT) therapy is to utilize photobiological modulation (photobiological modulation) to irradiate cells with Low energy visible light to stimulate energy factory-granule (mitochondria) of the cells to generate more energy, thereby prolonging the life cycle of the cells and achieving the purpose of therapy. This is the same reason that plant cells need to be photosynthesized by sunlight to generate energy. Because the energy output of the light irradiation is milliwatts (milliwatts), the clinical application has almost no heat energy generation, and the risk of scar caused by scald is avoided.

On the other hand, the modern society has fast pace of life and complex social environment, and the living pressure of people is getting bigger and bigger, so that the sleeping quality of people is generally not high; meanwhile, most of the elderly or people with lumbar muscle strain often have difficulty in falling asleep due to the pain of the waist or other parts during rest or sleep. Acoustic wave medicine is the detection or treatment of human diseases by energy using scientific instruments, and the modes and principles of the detection or treatment differ according to the form of energy. In the bioelectricity experiment, electrical characteristic research is utilized to find that the response of the object to be tested (plants and animals) to the current is abnormal in the internal function, and the related response value can be really measured by the change of a current value, and the nerve is stimulated by a trace amount of current, so that the overall change and the state of the function of the object to be tested are analyzed.

The horn device in the market does not have a structure for providing combined output of sound wave and infrared light wavelength, so as to control the brownian motion of micro particles or particles in the object to be measured in the fluid, and furthermore, the limiting problem, the energy imbalance problem and the abnormal liquid circulation problem relative to the brownian motion of water molecules or micro particles in the object to be measured can not be controlled.

Therefore, the inventors of the present invention have observed the above-mentioned deficiency and have conducted the production of the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main objective is providing a low frequency vibration wearing device, and it sees through the setting of wearing the piece, makes low frequency vibration wearing device wear and is being surveyed the thing to can control and increase to the brown motion of being surveyed the inside of object, and see through sound wave and infrared light by the thing, with reach the control and survey the inside energy balance of thing and increase liquid circulation and mobility.

In order to achieve the above object, the utility model provides a device is dressed in low frequency vibration, it contains: the illuminating unit comprises a lamp holder, at least one luminous piece and a first sheet body, wherein the luminous piece is arranged in the lamp holder, and the first sheet body is connected with the lamp holder and covers the luminous piece; the low-frequency vibration unit is electrically connected with the lighting unit and comprises a second sheet body and a loudspeaker, the loudspeaker comprises a frame, a magnetic return piece and an elastic wave, the second sheet body is arranged on the frame, the magnetic return piece is arranged on the bottom side of the frame, a groove is concavely arranged at the middle position of the magnetic return piece, a magnetic cylinder and a voice coil are arranged at the middle position of the groove, the voice coil is sleeved on the magnetic cylinder in a linear displacement manner, and the middle position of the elastic wave is sleeved on the voice coil; the wearing piece is connected with the lighting unit and the low-frequency vibration unit, is provided with the outer peripheries of the lighting unit and the low-frequency vibration unit, and is worn on a tested object; the first sheet body and the second sheet body are selected from one or a combination of biological ceramic sheets and plant sheets, the visible light irradiates the first sheet body and excites the first sheet body to radiate infrared light outwards, the first sheet body and the second sheet body have the characteristic of absorbing infrared light photons in the visible light, the loudspeaker outwards emits a sound wave, the frequency of the sound wave is between 10Hz and 200Hz, and the sound wave and the infrared light simultaneously act on the detected object.

Preferably, the wearing piece is a watchband, and the wearing piece has flexibility.

Preferably, the first sheet and the second sheet are flexible, and the first sheet and the second sheet have a property of emitting infrared photons in the visible light.

Preferably, the first sheet and the second sheet are biological ceramic sheets, and the first sheet and the second sheet contain a plurality of oxidized mineral particles.

Preferably, the wavelength of the infrared light photons absorbed by the first sheet body comprises 2.75 micrometers to 3.59 micrometers of mid-infrared light.

Preferably, the wavelength of the infrared light photons absorbed by the first sheet body comprises far infrared light of 6 microns to 20 microns.

Preferably, the first sheet and the second sheet are selected from one of a thin sheet, a thick sheet and a film.

Preferably, the first sheet and the second sheet are plant sheets.

Preferably, the oxidized mineral particles are evenly distributed on the first sheet and the second sheet.

Preferably, wherein the oxidized mineral particles comprise a plurality of alumina particles.

The utility model provides a low-frequency vibration wearing device, it mainly by the setting of this first lamellar body and this second lamellar body, and the setting of this wearing piece of collocation, make this low-frequency vibration wearing device can dress on this measured thing firmly, and this first lamellar body and this second lamellar body be biological potsherd or plant piece, this visible light arouses this first lamellar body and outwards shines out this infrared light, and absorb the characteristic of the infrared light photon in this visible light, for this utility model's low-frequency vibration wearing device is when the operating condition, this sound wave and this infrared light of its output, and then can control and or increase the brownian motion to this measured thing inside; more specifically, the sound wave and the infrared light are output by the device in a combined manner, so that the energy balance in the tested object is controlled, and the liquid circulation and the fluidity are increased.

Drawings

Fig. 1 is a perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic diagram of a first embodiment of the present invention.

Fig. 3 is an exploded view of a low frequency vibration unit according to a first embodiment of the present invention.

Fig. 4 is an exploded view of a lighting unit according to a first embodiment of the present invention.

Fig. 5 is a schematic view of a usage status of the first embodiment of the present invention.

Fig. 6 is a graph showing the luminous spectrum and energy distribution of the glass sheet according to the first embodiment of the present invention.

Fig. 7 is a graph showing the luminous spectrum and energy distribution of the glass sheet according to the first embodiment of the present invention.

Fig. 8 is a graph showing the luminous spectrum and energy distribution of the glass sheet according to the first embodiment of the present invention.

FIG. 9 is a diagram of Brownian motion analysis of small molecules in liquid recorded through a laser clamp experiment in a glass sheet according to a first embodiment of the present invention.

Fig. 10 is a diagram illustrating meridian energy analysis before irradiation according to the first embodiment of the present invention.

Fig. 11 is a diagram illustrating meridian energy analysis after irradiation according to the first embodiment of the present invention.

Fig. 12 is a schematic view of a usage status of the second embodiment of the present invention.

Description of the reference numerals

100 low-frequency vibration wearing device

10 lighting unit

11: lamp holder

12 luminous element

121 visible light

13 first sheet

131 infrared light

20 low frequency vibration unit

21 the second sheet body

22: horn

221 frame

222 magnetic return element

2221 groove

223 elastic wave

224 magnetic column

225 voice coil

226 sound wave

30 wearing piece

200 measured object

Detailed Description

(embodiment 1)

Hereinafter, an embodiment of a first embodiment of a low frequency vibration wearable device according to the present invention will be described with reference to the drawings.

Please refer to fig. 1 to 4, fig. 1 is a perspective view of a first embodiment of the present invention, fig. 2 is a schematic view of the first embodiment of the present invention, fig. 3 is an exploded view of a low frequency vibration unit of the first embodiment of the present invention, and fig. 4 is an exploded view of a lighting unit of the first embodiment of the present invention. The utility model discloses a device 100 is dressed in low frequency vibration, it contains:

an illumination unit 10, the illumination unit 10 includes a socket 11, at least one light emitting element 12 and a first sheet 13, the light emitting element 12 is disposed in the socket 11, the first sheet 13 is connected to the socket 11 and covers the light emitting element 12.

A low frequency vibration unit 20, the low frequency vibration unit 20 being electrically connected to the lighting unit 10, the low frequency vibration unit 20 comprising a second sheet 21 and a speaker 22, the speaker 22 comprising a frame 221, a magnetic loop 222 and an elastic wave 223, the second sheet 21 being disposed on the frame 221, the magnetic loop 222 being disposed on the bottom side of the frame 221, a groove 2221 being recessed in the middle of the magnetic loop 222, a magnetic cylinder 224 and a voice coil 225 being disposed in the middle of the groove 2221, the voice coil 225 being linearly movably disposed on the magnetic cylinder 224, and the voice coil 225 being disposed in the middle of the elastic wave 223.

A wearing part 30, the wearing part 30 connects the lighting unit 10 and the low frequency vibration unit 20, and the wearing part 30 is disposed on the outer periphery of the lighting unit 10 and the low frequency vibration unit 20, the wearing part 30 is worn on a tested object 200.

As shown in fig. 2, the light emitting element 12 emits a visible light 121 outwards, the wavelength of the visible light 121 is between 380nm and 750nm, the first sheet 13 and the second sheet 21 are selected from one or a combination of a bio-ceramic sheet and a plant sheet, the visible light 121 irradiates the first sheet 13 and excites the first sheet 13 to irradiate an infrared light 131 outwards, the first sheet 13 and the second sheet 21 have a characteristic of absorbing infrared photons in the visible light 121, the speaker 22 emits a sound wave 226 outwards, the frequency of the sound wave 226 is between 10Hz and 200Hz, and the sound wave 226 and the infrared light 131 simultaneously act on the object 200.

In this embodiment, the first sheet 13 and the second sheet 21 have flexibility, the first sheet 13 and the second sheet 21 are selected from one of a thin sheet, a thick sheet and a thin film, the first sheet 13 and the second sheet 21 are bio-ceramic sheets, the first sheet 13 and the second sheet 21 include a plurality of oxidized mineral particles, the oxidized mineral particles are evenly distributed on the first sheet 13 and the second sheet 21, and the oxidized mineral particles include a plurality of alumina particles.

Specifically, the first sheet 13 and the second sheet 21 are bioceramic sheets, and 80% to 99.9% of the first sheet 13 and the second sheet 21 are the oxidized mineral particles, and the oxidized mineral particles include 60% to 95% of the alumina particles, the first sheet 13 absorbs infrared photons with a wavelength of 2.75 micrometers to 3.59 micrometers of mid-infrared light, and the first sheet 13 absorbs infrared photons with a wavelength of 6 micrometers to 20 micrometers of far-infrared light. However, the present invention is not limited thereto, and in another preferred embodiment, the first sheet 13 and the second sheet 21 are plant sheets.

For further understanding of the structural features, operational features, and intended advantages of the invention, reference will now be made to the use of the invention in conjunction with the following description, which is believed to provide a more thorough and detailed understanding of the invention, as illustrated in the accompanying drawings:

in the use state, the "Brownian motion" is described again, and the Brownian motion is the random motion of fine particles or particles in the fluid. The brownian motion process is a normally distributed, independently incremental, continuous random process.

Please refer to fig. 5 to 9, fig. 5 is a schematic view of a usage status of the present invention according to a first embodiment, fig. 6 is a light emission spectrum and energy distribution diagram of a glass sheet according to a first embodiment of the present invention, fig. 7 is a light emission spectrum and energy distribution diagram of a glass sheet according to a first embodiment of the present invention, fig. 8 is a light emission spectrum and energy distribution diagram of a glass sheet according to a first embodiment of the present invention, and fig. 9 is a brownian motion analysis diagram of small molecules in liquid recorded by a laser clamp experiment in a glass sheet according to a first embodiment of the present invention. The wearing member 30 is a watch band, and the wearing member 30 has flexibility. The wearing member 30 is worn on the wrist of the tested object 200, but the present invention is not limited thereto, and the wearing member 30 may be a head band, a belt, or a belt-worn wearing component, and the wearing position is changed according to the user's needs.

And when the user state, the utility model discloses mainly by the setting of this first lamellar body 13 and second lamellar body 21, this visible light 121 shines this first lamellar body 13 to stimulate this first lamellar body 13 and outwards shine out this infrared light 131, and this first lamellar body 13 and this second lamellar body 21 have the characteristic of absorbing the infrared light photon in this visible light 121, and have the characteristic of granting the infrared light photon in this visible light 121, for supply the utility model discloses a during low frequency vibration wearing device 100 operation state, this sound wave 226 and this infrared light 131 of its output, and then can control and or increase to this by the internal brownian motion of the object 200 that receives.

It should be further noted that different wavelengths represent different colors of light and have different effects. Red light with the wavelength of 639nm is the longest in visible light 121 with naked eyes, has the deepest penetrating power, can be suitable for any skin, promotes blood circulation, stimulates fibroblasts and collagen, accelerates metabolism of melanin, increases oxygen and nutrition delivery, has the effects of resisting aging, improving fine lines, removing spots, lightening dark circles and eliminating sinkers, and can also make the skin smooth, fine and elastic; blue light with a wavelength of 468nm has the functions of diminishing inflammation, sterilizing, regulating cell immunity, improving skin metabolism, relieving and purifying follicular inflammation and oil production, and is commonly used for inhibiting acne bacillus, regulating sebaceous glands, treating acne, removing acne, improving skin problems such as large pores and the like; green light with wavelength of 525nm is the basic color tone of nature, has effects of neutralizing, balancing and calming, can be used for treating cutis laxa, comedo and acne caused by fatigue, and can achieve the effects of reducing melanin generation and improving skin darkness; yellow light with wavelength of 590nm can promote cell metabolism, enhance blood and lymph circulation, accelerate wound healing, metabolize melanin, promote oxygen exchange effect of cells, improve skin color, and effectively absorb nutrition molecules of health product.

More specifically, the first sheet 13 is irradiated with three kinds of visible laser beams (488nm,532nm,633nm) with different energy and wavelength, respectively, so that the laser beams pass through the light-transmitting interface of the bio-ceramic sheet, and the energy difference between before and after the light passes through is analyzed; as shown in fig. 6 to 8, after the first sheet 13 of this embodiment absorbs the infrared red photon in the visible light 121, it will constantly emit light energy lower than the original excitation light by 0.361eV and 0.368 eV; this result indicates that the light energy of 0.361eV and 0.368eV is within the Absorption band width (Absorption band), in other words, the energy difference should be generated by infrared photons emitted during energy conversion during photoluminescence caused by light passing through the bio-ceramic interface. In addition, fig. 9 shows the brownian motion change before and after the action of the object 200 measured by a Laser tracking apparatus (Laser tracking apparatus) during the operation.

Referring to fig. 10 and 11, fig. 10 is a diagram illustrating a meridian energy analysis before irradiation according to a first embodiment of the present invention, and fig. 11 is a diagram illustrating a meridian energy analysis after irradiation according to a first embodiment of the present invention. The low frequency vibration wearing device 100 irradiates on twelve meridians of the tested object 200, in this embodiment, taking liver meridian as an example, before irradiation, the value of liver meridian is more than 67.7, and after irradiation, the value of liver meridian is between 35.2 and 56.3.

Therefore, it can be further known from the above description that the sound wave 226 and the infrared light 131 simultaneously act on the object 200 to be tested, so as to control the energy balance inside the object 200 to be tested and increase the liquid circulation and fluidity.

(embodiment 2)

Please refer to fig. 12, fig. 12 is a schematic view illustrating a usage status of the second embodiment of the present invention. The main structural difference of the second embodiment is that the wearing member 30 is a necklace, and the low-frequency vibration wearing device 100 is worn on the neck of the tested object 200, but the present invention is not limited thereto, and in another preferred embodiment not shown, the wearing member 30 is a shoe or a safety helmet, and the illumination unit 10 and the low-frequency vibration unit 20 are assembled to the wearing member 30. Therefore, the second embodiment can increase the application range of the low frequency vibration wearable device 100 of the present invention.

It is worth mentioning that, the utility model discloses can be according to this sound wave 226 and this visible light 121 of user's demand control output, the control parameter setting that its used can include the wavelength of sound output pulse frequency, triangle-shaped wave, frequency, volume control and this visible light 121, adjusts according to the user demand to reach best test and result of use.

It is worth mentioning that the subject 200 can be a liquid in an animal or plant body or a liquid in a static object.

The features of the present invention and the expected effects achieved by the same are stated as follows:

the utility model discloses a low-frequency vibration wearing device 100, it mainly by the setting of this first lamellar body 13 and this second lamellar body 21, and the setting of this wearing piece 30 of collocation, make this low-frequency vibration wearing device 100 wear on this measured object 200 firmly, and this visible light 121 arouses this first lamellar body 13 and outwards shines this infrared light 131, and this first lamellar body 13 and this second lamellar body 21 have the characteristic of absorbing the infrared light photon in this visible light 121, for the utility model discloses a when low-frequency vibration wearing device 100 is in the operating condition, this sound wave 226 and this infrared light 131 of its output, and then can control and increase the brownian motion to this measured object 200 inside; more specifically, the sound wave 226 and the infrared light 131 are used to control the energy balance inside the object 200 and increase the liquid circulation and fluidity.

Therefore, the utility model discloses have following implementation efficiency and technical efficiency:

one of them, the utility model discloses see through this setting of wearing piece 30, make this low frequency vibration dress device 100 can stabilize and wear on this receives the measuring thing 200 to this low frequency vibration dress device 100 has convenient to carry's advantage, can be when going out or travelling, compromise the amusement and alleviate fatigue, function of insomnia, and continuously exert the efficiency.

Two, the utility model discloses see through the setting of this first lamellar body 13 and this second lamellar body 21, this first lamellar body 13 and this second lamellar body 21 have the characteristic of absorbing the infrared light photon in this visible light 121, and have the characteristic of granting the infrared light photon in this visible light 121, shine this by the measuring object 200 with the mode of physics nature, so that solve the relative restricted problem of internal water molecule brownian motion, and when the function, the hydrogen bond that its infrared light absorption characteristic can control the water molecule changes, increase the circulation or the mobility of water, blood or other liquid.

Thirdly, the utility model discloses seeing through this lighting unit 10 and this low frequency vibration unit 20's setting, it can control and or increase to this by the inside brownian motion of test object 200, more can by the utility model discloses merge this sound wave 226 of output and this infrared light 131 to reach and control this by the inside energy balance of test object 200 and increase liquid circulation and mobility.

Fourthly, the present invention replaces the traditional invasive method with the non-invasive sound wave 226 and the infrared light 131 to improve the efficacy of the inside of the tested object 200.

To sum up, the utility model discloses have its splendid progressive nature in like product, look over the technical data about this type of structure at home and abroad simultaneously, also do not discover to have the same structure to exist earlier in the literature, so, the utility model discloses the time has possessed novel patent essential, and the belonged law proposes the application.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the features of the embodiments can be utilized in various combinations and even permutations of the embodiments without significant repulsion. Moreover, the equivalent structural changes made by applying the present specification and claims should be construed as being included in the scope of the present invention.

Claims (8)

1. A low frequency vibration wearable device, comprising:

the illuminating unit comprises a lamp holder, at least one luminous piece and a first sheet body, wherein the luminous piece is arranged in the lamp holder, and the first sheet body is connected with the lamp holder and covers the luminous piece;

the low-frequency vibration unit is electrically connected with the lighting unit and comprises a second sheet body and a loudspeaker, the loudspeaker comprises a frame, a magnetic return piece and an elastic wave, the second sheet body is arranged on the frame, the magnetic return piece is arranged on the bottom side of the frame, a groove is concavely arranged at the middle position of the magnetic return piece, a magnetic cylinder and a voice coil are arranged at the middle position of the groove, the voice coil is sleeved on the magnetic cylinder in a linear displacement manner, and the middle position of the elastic wave is sleeved on the voice coil; and

the wearing piece is connected with the lighting unit and the low-frequency vibration unit, is provided with the outer peripheries of the lighting unit and the low-frequency vibration unit, and is worn on a tested object;

the first sheet body and the second sheet body are selected from one or a combination of biological ceramic sheets and plant sheets, the visible light irradiates the first sheet body and excites the first sheet body to radiate infrared light outwards, the first sheet body and the second sheet body have the characteristic of absorbing infrared light photons in the visible light, the loudspeaker outwards emits a sound wave, the frequency of the sound wave is between 10Hz and 200Hz, and the sound wave and the infrared light simultaneously act on the detected object.

2. The low frequency vibration wearing apparatus of claim 1, wherein said wearing member is a band, said wearing member having flexibility.

3. The low frequency vibration wearable device according to claim 1, wherein the first sheet and the second sheet are flexible, the first sheet and the second sheet having a property of emitting infrared photons in the visible light.

4. The low frequency vibration wearable device according to claim 1, wherein the first sheet and the second sheet are bio-ceramic sheets.

5. The low frequency vibration wearable device of claim 1, wherein the first patch absorbs infrared photons at a wavelength comprising mid-infrared light between 2.75 microns and 3.59 microns.

6. The low frequency vibration wearable device of claim 1, wherein the first patch absorbs infrared photons at a wavelength comprising from 6 microns to 20 microns of far infrared light.

7. The low frequency vibration wearable device of claim 1, wherein the first panel and the second panel are selected from one of a thin panel, a thick panel and a film.

8. The low frequency vibration wearing apparatus of claim 1, wherein the first sheet and the second sheet are plant sheets.

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