CN210813504U - Pillow type full brain wave frequency band simulated brain function regulator - Google Patents

Abstract

The utility model discloses a full brain wave frequency channel simulation brain function regulator of headrest formula, including pillow, pillowcase and brain wave analog signal generating device, the pillowcase laminating is at the surface of pillow, and appearance phase-match between them, the position that the inside that brain wave analog signal generating device is located the pillow is close to the corner, and the inside of pillow is close to the position evenly distributed of front end and has four dry electrodes, brain wave analog signal generating device's upper end surface is provided with intensity adjust knob and frequency adjust knob, and intensity adjust knob is located one side of frequency adjust knob, brain wave analog signal generating device's rear end surface is provided with the wave form and selects the knob. The utility model discloses a be provided with a series of structures and make this device can adjust brain function in very wide range brainwave frequency channel in the use for improve insomnia, cognitive function resumes etc. and can avoid the external uncomfortable experience that arouses, optimize the use.

Description

Pillow type full brain wave frequency band simulated brain function regulator

Technical Field

The utility model relates to a brain function adjusting instrument technical field specifically is the brain function adjusting instrument of full brain wave frequency channel simulation of headrest formula.

Background

The health big data research in 2018 years in China shows that the hazards of insomnia, sleep disorder, fatigue and low brain cognitive function become public health problems of the whole society. The sick people mainly focus on brainwork as main personnel, the sleep of the people is seriously influenced due to the particularity of the work, for example, brain fatigue, insomnia and the like, the cognitive function of the brain is low, the work efficiency is low after the time passes, the serious people even can not work continuously, and the bidirectional alternating pulse is a mode of alternating current stimulation. Because the stimulation polarity is changed alternately, the polarization phenomenon can not be generated to the human body.

Compared with the granted Chinese patent CN201320379370.1, the highland portable brain function physiotherapy instrument comprises electrode bodies, wherein the electrode bodies are electrically connected with a brain wave analog signal generating device, the brain wave analog signal generating device is also provided with a waveform selection knob, a frequency adjustment knob, an intensity adjustment knob and a power switch, the highland portable brain function physiotherapy instrument further comprises a pair of glasses, the two electrode bodies are respectively arranged on the inner side surfaces of two glasses legs of the glasses, the tail ends of the glasses legs are provided with cable wires, one ends of the cable wires are connected with the electrode bodies, the other ends of the cable wires are inserted into jacks of the brain wave analog signal generating device through plugs, and the working process of the brain wave analog signal generating device and the process of the matching action between the cable wires and related components are recorded.

Many devices for adjusting sleep based on vibration, magnetic field, far infrared thermal therapy or emission are available in the market, but the devices adjust the sleep indirectly, the effect is uncertain, and side effects such as ' magnetic therapy ' can be generated, the sleep of people can be adjusted by forming a magnetic field through a magnetic body attached in a pillow, the effect is different from person to person, the ' vibration ' or far infrared thermal therapy ' relieves the tension of neck muscles through vibration or thermal induction of certain frequency generated by a vibration or heat generating device, the adjustment of the sleep is indirect, and the effect is different from person to person. The problem that the power of an amplifier is strong and weak and whether the amplifier can reliably penetrate the skull exists in the 'emission' simulated sleep regulation is solved, the individual difference of the regulation effect is large and uncertain, and the use performance of the regulation effect is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a full brain wave frequency channel of headrest formula simulation brain function regulator to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a pillow-type full brain wave frequency band simulated brain function regulator comprises a pillow core, a pillow case and a brain wave simulated signal generating device, wherein the pillow case is attached to the outer surface of the pillow core, the shapes of the two are matched, the brain wave analog signal generating device is positioned in the pillow inner near the corner, four dry electrodes are uniformly distributed in the pillow core close to the front end, the outer surface of the upper end of the brain wave analog signal generating device is provided with an intensity adjusting knob and a frequency adjusting knob, and the intensity adjusting knob is positioned at one side of the frequency adjusting knob, the outer surface of the rear end of the brain wave analog signal generating device is provided with a waveform selecting knob, the outer surface of one side of the brain wave analog signal generating device is provided with a power switch and a timing control switch, and the power switch is positioned behind the timing control switch, and the outer surface of the other side of the brain wave analog signal generating device is provided with a jack.

Through adopting above-mentioned technical scheme, can adjust brain function in very wide range brain wave frequency channel for improve insomnia, cognitive function resumes etc. and can avoid external uncomfortable experience that arouses, can be convenient for wash and maintain simultaneously.

Preferably, the four dry electrodes are electrically connected in parallel through flexible wires, the other ends of the flexible wires are led to one corner of the pillow along the edge of the pillow case and inserted into the insertion holes, and the pillow consists of a pillow core and the pillow case.

By adopting the technical scheme, the brain wave analog signal generating device is used for guiding the current output by the brain wave analog signal generating device into brain tissues so as to regulate brain functions.

Preferably, the inside of the brain wave analog signal generating device is detachably provided with a lithium battery, and the brain wave analog signal generating device is electrically connected with the lithium battery.

Through adopting above-mentioned technical scheme, convenient to use person changes the lithium cell.

Preferably, the waveform selection knob is matched with the waveform control circuit and used for selecting and adjusting waveforms, the frequency adjustment knob is connected with the brain wave frequency control circuit, the intensity adjustment knob is used for adjusting the amplitude, and the amplitude intensity can be continuously adjusted.

Through adopting above-mentioned technical scheme, this appearance of adjusting can be applicable to different brain function states.

Preferably, the timing control switch is matched with the timing control circuit, and the timing control circuit can control the brain wave simulation generating circuit.

By adopting the technical scheme, the brain-strengthening electric conduction electrode can be memorized and is led into brain tissues through the dry electrode.

Preferably, the dry electrode is made of non-woven fabrics, the outer surface of the dry electrode is consistent with the material of the pillow inner, and the pillow inner is made of plastic sponge.

By adopting the technical scheme, the material adapts to the shape of the skull through plasticity, so that the head and the neck are supported more comfortably, and the dry electrode has conductive property and can be used under dry or anhydrous conditions.

Preferably, a chip is arranged in the brain wave analog signal generating device, and the chip is matched with the brain wave analog signal generating circuit and used for selecting the frequency and the waveform of the analog brain wave, and the frequency of the electric wave can be continuously adjusted.

By adopting the technical scheme, the brain wave analog signal generating device can adapt to different brain function adjustments.

To sum up, the utility model discloses following beneficial effect has:

the brain wave analog signal generating device has small volume, can be hidden in a pillow, avoids uncomfortable experience caused by external arrangement, can be freely disassembled and is convenient to clean and maintain, can be used for improving insomnia and difficulty in falling asleep, and the brain works for a long time to recover the cognitive function, and has an improvement effect on memory decline caused by the memory function, the pillow core of the regulator is made of a plastic sponge material, and the material adapts to the shape of the skull through plasticity to ensure that the head and the neck are supported more comfortably, the pillow case can be detached from the pillow core, the pillow is convenient to clean, the dry electrode is in a non-contact mode, the outer surface of the dry electrode is basically consistent with the material of the surface cloth of the pillow, and the discomfort that the copper foil electrode is in direct contact with the skin can be avoided.

Drawings

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

fig. 2 is a schematic view of a partial structure of the brain wave analog signal generating device of the present invention;

FIG. 3 is a schematic block diagram of the pillow of the present invention;

fig. 4 is a schematic block diagram of the brain wave analog signal generating device of the present invention.

In the figure: 1. a pillow core; 2. a pillowcase; 3. a brain wave analog signal generating device; 4. a dry electrode; 5. a waveform selection knob; 6. a power switch; 7. a strength adjusting knob; 8. a frequency adjustment knob; 9. a jack; 10. and controlling the switch in a timing mode.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-2, the present invention provides an embodiment: a pillow-type full brain wave frequency band simulated brain function regulator comprises a pillow core 1, a pillow case 2 and a brain wave simulated signal generating device 3, wherein the pillow case 2 is attached to the outer surface of the pillow core 1, the shapes of the pillow case and the pillow case are matched, the brain wave simulated signal generating device 3 is positioned in the pillow core 1 and close to the corners, four dry electrodes 4 are uniformly distributed in the pillow core 1 and close to the front end, the regulator is placed in the pillow core 1, the pillow core 1 is made of a plastic sponge material, the material adapts to the shape of a skull through plasticity, the head and neck are supported more comfortably, comfortable sleep is guaranteed, the pillow case 2 is sleeved on the outer surface of the pillow core 1, the pillow case 2 can be detached from the pillow core 1 and is convenient to clean, the brain wave simulated signal generating device 3 is placed in the pillow core 1, the four dry electrodes 4 are connected in parallel through soft leads to one corner of the pillow along the edge of the pillow case 2, the external surface of the non-contact dry electrode 4 is basically consistent with the material of the cloth on the surface of the pillow, so that the discomfort of the direct contact of the copper foil electrode with the skin can be avoided.

Referring to fig. 3, an intensity adjusting knob 7 and a frequency adjusting knob 8 are arranged on the outer surface of the upper end of the brain wave analog signal generating device 3, the intensity adjusting knob 7 is positioned on one side of the frequency adjusting knob 8, a waveform selecting knob 5 is arranged on the outer surface of the rear end of the brain wave analog signal generating device 3, a power switch 6 and a timing control switch 10 are arranged on the outer surface of one side of the brain wave analog signal generating device 3, the power switch 6 is positioned behind the timing control switch 10, a jack 9 is arranged on the outer surface of the other side of the brain wave analog signal generating device 3, the brain wave stimulating frequency of the brain wave analog signal generating device 3 is adjusted by operating the frequency adjusting knob 8 to cooperate with the brain wave frequency control circuit, the frequency range is continuously adjustable from 1 to 30Hz, when sleep needs to be improved, a frequency range from 1Hz to 4Hz is selected, when relaxation is needed, a frequency range from 8Hz, when the brain wave analog signal generating device 3 needs to be refreshed or the cognitive function is recovered, a frequency band exceeding 8Hz-12Hz is selected, a corresponding single waveform can be selected from waveforms such as intermittent waves, continuous waves, sparse and dense waves under the combined action of the waveform selection knob 5 and the waveform control circuit, the amplitude of the waveform is adjusted between 0 and 999 microvolts through the intensity adjusting knob 7, the timing control switch 10 is operated and matched with the timing control circuit to turn on and off the brain wave analog signal generating device 3 on time, and the timing control circuit can automatically control the brain wave analog generating circuit.

Referring to fig. 4, the rechargeable lithium battery supplies power, the power switch 6 is turned on to make the brain wave analog signal generating device 3 enter a working state, the corresponding function is adjusted by the relevant switch and the knob to make the brain wave analog signal generating device adapt to the brain function to be adjusted, then the brain wave analog signal generating device 3 outputs bidirectional alternate pulse waves (frequency range is 1-30Hz) through the jack 9, because the stimulation polarity of the bidirectional alternate pulse waves is continuously changed alternately, the polarization phenomenon is not generated to the human body, then the bidirectional alternate pulse waves are output through the waveform output circuit, and are led into the dry electrode 4 through the flexible lead, and are led into the scalp tissue through the dry electrode 4 to adjust the brain tissue of the human body, the brain function can be adjusted in a wide brain wave frequency band, including promoting sleep, restoring consciousness, improving cognitive ability, avoiding the limitation of single frequency adjustment, the volume of the brain wave analog signal generating device 3 is small and exquisite, the adjusting instrument can be hidden in the pillow, uncomfortable experience caused by external arrangement is avoided, the adjusting instrument can be freely detached and is convenient to clean and maintain, the adjusting instrument can be used for improving insomnia and difficulty in falling asleep, the brain is tired in working for a long time, the cognitive function is recovered, and meanwhile the adjusting instrument has an improving effect on memory decline caused by the function.

Furthermore, the four dry electrodes 4 are electrically connected in parallel through flexible wires, the other ends of the flexible wires are led to one corner of the pillow along the edge of the pillow case 2 and inserted into the jack 9, and the pillow consists of the pillow core 1 and the pillow case 2 and is used for guiding the current output by the brain wave analog signal generating device 3 into brain tissues so as to adjust brain functions.

Further, the inside demountable installation of brain wave analog signal generating device 3 has the lithium cell, brain wave analog signal generating device 3 and lithium cell electric connection, and the person of being convenient for uses changes the lithium cell.

Further, the waveform selection knob 5 is matched with the waveform control circuit and used for selecting and adjusting waveforms, the frequency adjustment knob 8 is connected with the brain wave frequency control circuit, the intensity adjustment knob 7 is used for adjusting the amplitude, the amplitude intensity can be continuously adjusted, and the adjusting instrument can be suitable for different brain function states by adjusting the intensity adjustment knob 7 and the frequency adjustment knob 8 of the brain wave analog signal generating device 3.

Further, the timing control switch 10 is matched with a timing control circuit, and the timing control circuit can control the brain wave simulation generating circuit so as to memorize the brain wave simulation generating circuit and lead the brain wave simulation generating circuit into brain tissues through the dry electrode 4.

Further, the dry electrode 4 is made of non-woven fabrics, the outer surface of the dry electrode 4 is consistent with the material of the cloth of the pillow core 1, the pillow core 1 is made of plastic sponge, the material adapts to the shape of the skull through plasticity, the head and the neck are supported comfortably, and the dry electrode 4 has the conductive characteristic and can be used under the dry or anhydrous condition.

Further, a chip is arranged in the brain wave analog signal generating device 3, the chip is matched with the brain wave analog signal generating circuit and used for selecting the frequency and the waveform of analog brain waves, and the frequency of the electric waves can be continuously adjusted, so that the brain wave analog signal generating device 3 can adapt to different brain function adjustments.

It should be noted that the utility model relates to a pillow type full brain wave frequency band simulated brain function regulator, when in use, a user puts the regulator into a pillow core 1, the pillow core 1 is made of a plastic sponge material, the material adapts to the shape of the skull through plasticity, the head and the neck are supported more comfortably, the comfortable sleep is ensured, a pillow case 2 is sleeved on the outer surface of the pillow core 1, the pillow case 2 can be detached from the pillow core 1 and is convenient to clean, a brain wave simulation signal generating device 3 is put into the pillow core 1, four dry electrodes 4 are connected in parallel through flexible wires and are led to one corner of the pillow along the edge of the pillow case 2 to be connected with the brain wave simulation signal generating device 3, the outer surface of the non-contact dry electrodes 4 is basically consistent with the material of the cloth on the surface of the pillow, the discomfort of direct contact of the copper foil electrodes with the skin can be avoided, then the rechargeable lithium battery is used for power supply, the power switch 6 is turned on to make the brain wave analog signal generating device 3 enter a working state, the brain wave analog signal generating device 3 outputs bidirectional alternating pulse waves (frequency range is 1-30Hz) through the jack 9, because the polarity of the stimulation is continuously and alternately changed, the polarization phenomenon can not be generated to the human body, the brain wave stimulation frequency of the brain wave analog signal generating device 3 is adjusted by operating the frequency adjusting knob 8 to be matched with the brain wave frequency control circuit, the frequency range is continuously adjustable from 1-30Hz, when the sleep is required to be improved, the frequency band of 1Hz-4Hz is selected, when the sleep is required to be improved, the frequency band of 8Hz-12Hz is selected, when the refreshment or the cognitive function is required to be recovered, the frequency band exceeding 8Hz-12Hz is selected, and the waveform selecting knob 5 is matched with the waveform control circuit to act together, the continuous waves and intermittent waves, selecting corresponding single waveform from the sparse-dense waves and other waveforms, adjusting the amplitude of the waves between 0-999 microvolts by an intensity adjusting knob 7, operating a timing control switch 10 to match with a timing control circuit, and turning on and off the brain wave analog signal generating device 3 on time, wherein the timing control circuit can automatically control the brain wave analog generating circuit, then outputting bidirectional alternate pulse waves by a waveform output circuit, so that the pulse waves enter a dry electrode 4 through a flexible lead and are guided into scalp tissues through the dry electrode 4 to adjust the brain tissues of a person, and the brain functions can be adjusted in a wide range of brain wave frequency bands, including sleep promotion, consciousness restoration, cognitive ability improvement and avoidance of limitation of single frequency adjustment, and the brain wave analog signal generating device 3 has small volume, can be hidden in a pillow, avoids discomfort caused by external arrangement, and can be freely disassembled, the adjusting instrument is convenient to clean and maintain, can be used for improving insomnia, difficulty in falling asleep, brain long-time working fatigue and cognitive function recovery, has an improving effect on memory decline caused by the fatigue, and is practical.

The utility model discloses brain ripples analog signal generating device 3, wave form selection knob 5, switch 6, intensity adjust knob 7, frequency adjust knob 8, jack 9 and the cooperation process each other all adopt the utility model provides a background data is given, and cooperate the utility model discloses a description of specification, affiliated technical field personnel can reach its use to obtain corresponding result of use, the event does not have the one-to-one disclosure.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. Pillow formula brain wave frequency channel simulation brain function adjusting instrument entirely, including pillow (1), pillowcase (2) and brain wave analog signal generating device (3), its characterized in that: the pillow case (2) is attached to the outer surface of the pillow inner (1), the pillow inner and the pillow inner are matched in appearance, the brain wave analog signal generating device (3) is located in the position, close to corners, of the inner portion of the pillow inner (1), four dry electrodes (4) are evenly distributed on the position, close to the front end, of the inner portion of the pillow inner (1), the outer surface of the upper end of the brain wave analog signal generating device (3) is provided with an intensity adjusting knob (7) and a frequency adjusting knob (8), the intensity adjusting knob (7) is located on one side of the frequency adjusting knob (8), the outer surface of the rear end of the brain wave analog signal generating device (3) is provided with a waveform selecting knob (5), the outer surface of one side of the brain wave analog signal generating device (3) is provided with a power switch (6) and a timing control switch (10), and the power switch (6) is located behind the, the outer surface of the other side of the brain wave analog signal generating device (3) is provided with a jack (9).

2. The headrest type full brain wave frequency band simulated brain function regulator of claim 1, characterized in that: the four dry electrodes (4) are electrically connected in parallel through flexible wires, the other ends of the flexible wires are led to one corner of the pillow along the edge of the pillow case (2) and inserted into the insertion holes (9), and the pillow consists of a pillow core (1) and the pillow case (2) together.

3. The headrest type full brain wave frequency band simulated brain function regulator of claim 1, characterized in that: the inside demountable installation of brain wave analog signal generating device (3) has the lithium cell, and brain wave analog signal generating device (3) and lithium cell electric connection.

4. The headrest type full brain wave frequency band simulated brain function regulator of claim 1, characterized in that: the waveform selection knob (5) is matched with the waveform control circuit and used for selecting and adjusting waveforms, the frequency adjustment knob (8) is connected with the brain wave frequency control circuit, the intensity adjustment knob (7) is used for adjusting the amplitude, and the amplitude intensity can be continuously adjusted.

5. The headrest type full brain wave frequency band simulated brain function regulator of claim 1, characterized in that: the timing control switch (10) is matched with the timing control circuit, and the timing control circuit can control the brain wave simulation generation circuit.

6. The headrest type full brain wave frequency band simulated brain function regulator of claim 1, characterized in that: the dry electrode (4) is made of non-woven fabrics, the outer surface of the dry electrode (4) is consistent with the material of the pillow core (1), and the pillow core (1) is made of plastic sponge.

7. The headrest type full brain wave frequency band simulated brain function regulator of claim 1, characterized in that: the brain wave analog signal generating device (3) is internally provided with a chip which is matched with the brain wave analog signal generating circuit and used for selecting the frequency and the waveform of analog brain wave, and the frequency of the electric wave can be continuously adjusted.

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