CN115845215A

CN115845215A - Blood pressure reduction training equipment

Info

Publication number: CN115845215A
Application number: CN202211233978.3A
Authority: CN
Inventors: 许承兆; 李信达; 林懿苑; 吴承儒
Original assignee: Liangsheng Technology Co ltd
Current assignee: Zhuhai Shinliang Maibao Medical Technology Co ltd
Priority date: 2022-10-10
Filing date: 2022-10-10
Publication date: 2023-03-28

Abstract

The invention discloses a blood pressure lowering training device, which comprises a head frame unit corresponding to the head shape of a user, an audio stimulation unit for broadcasting a beat music piece to two ears of the user, a display unit comprising a display module for displaying a virtual image and blood pressure information and a blood pressure measuring module for measuring blood pressure, and a control unit electrically connected with the audio stimulation unit and the display unit, so that the hypertension patient can perform various blood pressure lowering exercises in one use process, and the use will of the hypertension patient is effectively improved.

Description

Blood pressure reduction training equipment

Technical Field

The invention relates to the field of training devices, in particular to a blood pressure reduction training device.

Background

Generally, a patient with hypertension usually takes medicines to control the blood pressure, and another way of controlling the blood pressure is to require the patient to exercise, however, some patients with hypertension do not want to exercise actively because of lack of exercise habits, and therefore, there is a need to develop a device for the patient to exercise intentionally.

Disclosure of Invention

The invention aims to solve the technical problem that partial hypertension patients are often unwilling to actively exercise due to no exercise habit, so that the development of equipment for enabling the hypertension patients to intentionally exercise is necessary.

In order to solve the technical problems, the invention provides the following technical scheme:

comprises a head frame unit, an audio frequency stimulating unit, a display unit and a control unit.

The head frame unit corresponds to the head shape of a user and comprises two ear parts corresponding to two ears of the user and a top side part which is connected between the two ear parts and spans the top of the head of the user.

The audio frequency stimulation unit comprises two loudspeakers arranged at the ears, the loudspeakers are used for broadcasting beat frequency music to the ears of the user, and the beat frequency music has a frequency difference.

The display unit comprises a display module and a blood pressure measuring module, wherein the display module is arranged on the head frame unit and used for displaying a virtual image for the eyes of the user to watch, the blood pressure measuring module is used for measuring the blood pressure of the user and outputting blood pressure measuring information through signals, and the display module can display the blood pressure measuring information measured by the blood pressure measuring module.

The control unit is electrically connected with the loudspeaker and the display unit, stores data information of the beat frequency music, can control the loudspeaker to broadcast the beat frequency music according to a preset command, and controls the display module to change the virtual image.

According to the technical scheme provided by the blood pressure reduction training equipment, the invention has the following technical effects:

the device is provided with a loudspeaker capable of broadcasting the beat frequency music and a display module capable of displaying the virtual image and the blood pressure information, so that the hypertension patient can perform various types of training capable of adjusting and reducing blood pressure in one-time use process, and the use will of the hypertension patient is effectively improved.

Drawings

FIG. 1 is a schematic side view of a user of the device for lowering blood pressure in a lying position;

fig. 2 is a schematic structural diagram of a head frame unit, an audio frequency stimulation unit, a head acupoint stimulation unit and an electronic stimulation unit in the blood pressure lowering training device of the present invention;

fig. 3 is a schematic side view of the head frame unit, the audio frequency stimulation unit, the head acupoint stimulation unit and the electronic stimulation unit of the blood pressure lowering training device according to the present invention;

fig. 4 is a schematic rear view of the head frame unit, the audio frequency stimulation unit, the head acupoint stimulation unit and the electronic stimulation unit of the blood pressure lowering training device of the present invention;

fig. 5 is a schematic top view of a head frame unit, an audio frequency stimulation unit, a head acupoint stimulation unit and an electronic stimulation unit of the blood pressure lowering training device according to the present invention;

FIG. 6 is a schematic view of a partial cross-sectional structure of a head acupoint stimulation unit in the blood pressure lowering training device of the present invention;

fig. 7 is a schematic cross-sectional structural diagram of an electronic stimulation unit in the blood pressure reduction training device of the present invention;

FIG. 8 is a schematic diagram of a display pattern of a display module of the device for training hypotensive activity according to the present invention;

FIG. 9 is a schematic diagram of a state of use of the pulse unit in the device for reducing blood pressure;

FIG. 10 is a schematic diagram of another state of use of the rhythm bed unit in the device for lowering blood pressure;

FIG. 11 is a side view of a blood pressure lowering training device of the present invention;

FIG. 12 is a diagram of the systolic blood pressure after the physical stimulation of laser light by the blood pressure lowering training device of the present invention.

Wherein the reference numbers are as follows:

<xnotran> 2: , 21: , 22: , 221: , 222: , 223: , 224: , 23: , 24: , 241: , 242: , 25: , 251: , 252: , 253: , 254: , 3: , 31: , 32: , 321: , 322: , 323: , 324: , 33: , 34: , 35: , 351: , 352: , 4: , 41: , 5: , 51: , 52: , 6: , 61: , 62: , 63: , 64: , 7: , 71: , 711: , 72: , 721: , 722: , 723: , 724: , 725: , 726: , 73: , 731: , 732: , 733: , 734: , 735: , 736: , 8: , 81: , 811: , 82: , 83: , 831: , 832: , 9: , 10: , A1 ～ A2: , B1 ～ B4: , C1 ～ C5: , </xnotran> X is the front-back direction.

Detailed Description

In order to make the technical means, the inventive features, the objectives and the effects of the invention easily understood and appreciated, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the specific drawings, and it is obvious that the described embodiments are a part of the embodiments of the present invention, but not all of the embodiments.

All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention.

In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present invention, and the relative relationship between the terms and the terms is not to be construed as a scope of the present invention.

The invention provides a blood pressure lowering training device, which aims to provide a loudspeaker capable of broadcasting beat music and a display module capable of displaying virtual images and blood pressure information, so that a hypertensive can perform various adjustable blood pressure lowering training in one-time use process, and the use will of the hypertensive is effectively improved.

As shown in fig. 1, 2 and 3, the blood pressure lowering training device of the present invention comprises a single motor bed unit 2, a head frame unit 3, an audio stimulation unit 4, a head acupoint stimulation unit 5, a limb acupoint stimulation unit 6, an electronic stimulation unit 7, a display unit 8, a control unit 9 and an irradiation unit 10.

The rhythm bed unit 2 comprises a base 21, a bed module 22 disposed on the base 21, a periodic acceleration module 23 disposed between the base 21 and the bed module 22 and capable of performing periodic acceleration motion, a driving module 24 disposed on the bed module 22, and a pedal module 25 disposed on the bed module 22.

The bed module 22 has a middle portion 221 provided above the base 21, an upper body portion 222 swingably provided on the front side of the middle portion 221 in a front-rear direction X, a lower body portion 223 swingably provided on the rear side of the middle portion 221 in the front-rear direction X, and a fixing belt 224 provided on the middle portion 221.

The periodic acceleration module 23 is disposed between the base 21 and the middle portion 221, and can be controlled to drive the middle portion 221 to move back and forth along the front-back direction X. In the present embodiment, the periodic acceleration is a process of driving the middle portion 221 to horizontally reciprocate along the front-back direction X for a predetermined time.

The driving module 24 has a first driving member 241 disposed between the middle portion 221 and the upper body portion 222 and controlled to drive the upper body portion 222 to swing relative to the middle portion 221, and a second driving member 242 disposed between the middle portion 221 and the lower body portion 223 and controlled to drive the lower body portion 223 to swing relative to the middle portion 221. In this embodiment, the first driving element 241 can drive the upper body 222 to swing at an angle ranging from 90 degrees horizontally upward to 45 degrees horizontally downward relative to the middle part 221, and the second driving element 242 can drive the lower body 223 to swing at an angle ranging from 45 degrees horizontally upward to 45 degrees horizontally downward relative to the middle part 221.

In the present embodiment, the periodic acceleration module 23, the first driving element 241 and the second driving element 242 are composed of a motor and a transmission mechanism, which are not the main technical features of the present invention, and therefore, the description thereof will not be further described.

The pedal module 25 has a supporting portion 251 disposed on the lower body portion 223, a crank 252 pivotally disposed on the supporting portion 251, two pedals 253 disposed on opposite sides of the crank 252, and a sensor 254 disposed on the crank 252 for outputting a rotation status of the crank 252 to a sensing signal. In the present embodiment, the sensor 254 is a rotational speed sensor, and the sensing signal corresponds to the rotational speed of the crank 252.

As shown in fig. 2, 3 and 4, the headgear unit 3 corresponds to a user's head shape and includes two ears 31 corresponding to the ears of the user, a top side portion 32 connected between the two ears 31 and spanning the top of the user's head, a rear side portion 33 connected between the two ears 31 and spanning the user's back cranium, a front side portion 34 connected between the ears 31 and spanning the user's forehead, and a middle portion 35 connected between the ears 31 and located between the top side portion 32 and the front side portion 34.

As shown in fig. 2, 3 and 5, the top portion 32 has a top area 321 located at the center between the two ear portions 31, a left area 322 and a right area 323 connected between the two ear portions 31 and the top area 321, respectively, and a first mounting groove 324 located at the left area 322, and the middle portion 35 has a left front area 351 corresponding to the left area 322, and a second mounting groove 352 located at the left front area 351.

The audio stimulation unit 4 comprises loudspeakers 41 arranged at both ears 31, the loudspeakers 41 being adapted to broadcast a beat Music (Frequency Following Response Music) to the ears of the user, the beat Music having a Frequency difference. In this embodiment, the frequency difference of the beat music is between 4Hz and 14Hz.

As shown in fig. 3, 5 and 6, the head acupoint stimulation unit 5 includes three head acupoint media 51 disposed on the head frame unit 3, and three resistance measurement media 52 respectively adjacent to the head acupoint media 51, and the head acupoint media 51 are used for physically stimulating the head acupoints of the user by outputting laser light. In the present embodiment, the wavelength of the laser light of the head acupoint medium 51 is between 500nm and 900nm, and each resistance measuring medium 52 is used for measuring the body resistance of the user to confirm whether the corresponding head acupoint medium 51 is located in the low-resistance acupoint region.

As shown in fig. 3, 4 and 5, one of the head acupoint media 51 is adjustably positioned at the center of the vertex area 321 to correspond to the point of the user's baihui (international acupoint code GV 20), which is denoted by a numeral A1.

Two of the head acupoint media 51 are adjustably positioned at a distance of seven times a finger-inch from the center of the vertex area 321 toward the back and spaced two or five times the distance of two points toward the two ears 31 to correspond to two Fengchi acupoints (International acupoint code GB 20) of the user, respectively, as indicated by number A2 in the drawing. In this embodiment, the distance between the fingers is substantially two points and three centimeters.

As shown in fig. 1, the limb acupoint stimulation unit 6 includes a glove 61, four hand acupoint media 62 disposed on the glove 61, a foot cover 63, and five foot acupoint media 64 disposed on the foot cover 63.

The hand point medium 62 and the foot point medium 64 are used for outputting laser beams to the hand point and the foot point of the user for physical stimulation, respectively. In the present embodiment, the wavelengths of the laser light of the hand acupoint medium 62 and the foot acupoint medium 64 are both 500nm to 900nm.

One of the hand point mediums 62 is indicated by a reference number B1 in the drawing, and one of the hand point mediums 62 is indicated by a reference number B2 in the drawing, and one of the hand point mediums 62 is indicated by a reference number B3 in the drawing, and one of the hand point mediums 62 is indicated by a reference number LI4 in the drawing, and is adjustable to a shenmen point (international point code HT 7) in the drawing, and is adjustable to a kini point (international point code PC 6) in the drawing, and one of the hand point mediums 62 is adjustable to a quchi point (international point code LI 11) in the drawing, and is indicated by a reference number B4 in the drawing.

One of the foot point media 64 is adjustably positioned to correspond to taichong acupoint (international acupoint code LR 3) of the user, which is denoted by reference numeral C1 in the drawing, one of the foot point media 64 is adjustably positioned to correspond to taixi acupoint (international acupoint code KI 3) of the user, which is denoted by reference numeral C2 in the drawing, one of the foot point media 64 is adjustably positioned to correspond to the sanyinjiao acupoint (international acupoint code SP 6) of the user, which is denoted by reference numeral C3 in the drawing, one of the foot point media 64 is adjustably positioned to correspond to fenghuanglongi acupoint (international acupoint code ST 40) of the user, which is denoted by reference numeral C4 in the drawing, one of the foot point media 64 is adjustably positioned to correspond to tsuri acupoint (international acupoint code ST 36) of the user, and which is denoted by reference numeral C5 in the drawing.

As shown in fig. 1, 2 and 6, the above-mentioned way of corresponding to the acupuncture points of the user is to measure the resistance of the skin of the human body near the acupuncture points, and to use the lowest resistance position as the position of the acupuncture point, and then to fine tune to make the corresponding

acupuncture point media

51, 62 and 64 correspond to the position to complete the positioning of the acupuncture points. In the present embodiment, the head hole medium 51 is positioned by measuring the resistance through the resistance measuring medium 52.

As shown in fig. 2, 5 and 7, the electrical stimulation unit 7 includes three electrical stimulation media 71, a first mounting seat 72 and a second mounting seat 73, which respectively correspond to the left area 322, the left anterior area 351 and the anterior portion 34.

The three electrical stimulation media 71 corresponding to the left area 322, the left anterior area 351 and the anterior portion 34 respectively correspond to a C3 position (i.e. the position of the electrical stimulation media 71 arranged on the left area 322 in the figure), an F3 position (i.e. the position of the electrical stimulation media 71 arranged on the left anterior area 351 in the figure) and an SO position (i.e. the position of the electrical stimulation media 71 arranged on the anterior portion 34 in the figure) in the international 10-20 brain wave electrode positions, and are used for outputting current to the head of the user to perform transcranial electrical stimulation or outputting electromagnetic pulses to perform one of physical stimulation of transcranial magnetic stimulation.

The first setting seat 72 has a first sliding member 721 disposed at the bottom of the top side portion 32, a first screw member 722 passing through the first mounting groove 324 from the side of the top side portion 32 opposite to the first sliding member 721 and screwed to the first sliding member 721 for fixing the first sliding member 721, a first positioning member 723 passing through the first screw member 722 slidably from the side of the first sliding member 722 opposite to the first sliding member 721 and passing through the first screw member 722, a first mounting block 724 disposed at the side of the first sliding member 721 opposite to the top side portion 32 and screwed to the first positioning member 723, two first conductive strips 725 disposed at the bottom of the top side portion 32, and two first elastic conductive members 726 compressibly passing through the first sliding member 721 and the first mounting block 724 and electrically connecting the first conductive strips 725 respectively, wherein the electrical stimulation medium 71 corresponding to the left side region 322 is disposed at the side of the first mounting block 724 opposite to the top side portion 32 and electrically connected to the first elastic conductive members 726.

The second setting seat 73 has a second sliding part 731 disposed at the bottom of the middle part 35, a second screw part 732 passing through the second mounting groove 352 from the side of the middle part 35 opposite to the second sliding part 731 and screwed to the second sliding part 731 for fixing the second sliding part 731, a second positioning part 733 passing through the second screw part 732 from the side of the second screw part 732 opposite to the second sliding part 731 and slidably, a second mounting platform 734 disposed at the side of the second sliding part 731 opposite to the middle part 35 and screwed to the second positioning part 733, two second conductive strips 735 disposed at the bottom of the middle part 35, and two second elastic conductive elements 735 compressibly passing through the second sliding part 731 and the second mounting platform 734 and electrically connecting the second conductive strips 735, respectively, the electrical stimulation medium 71 corresponding to the left front region 351 is disposed at the side of the second mounting platform 734 opposite to the middle part 35 and electrically connecting the second elastic conductive elements 736.

In this embodiment, the physical stimulation is direct current for transcranial direct current stimulation (tDCS), the current is 1mA to 2mA, and the current density is 0.03mA/cm ² ～0.09mA/cm ² But not limited thereto, the magnetic stimulation may be an electromagnetic pulse for Transcranial Magnetic Stimulation (TMS), the electromagnetic frequency is substantially 1Hz, two of the positions C3 and F3 in the electrical stimulation medium 71 respectively corresponding to the positions of the international 10-20 brain wave electrodes are anodes, and one of the positions SO in the electrical stimulation medium 71 corresponding to the positions of the international 10-20 brain wave electrodes is a cathode.

Each electrical stimulation medium 71 has a plurality of conductive pillars 711 arranged in parallel to output a physical stimulus.

As shown in fig. 1, 2 and 5, the display unit 8 includes a display module 81 disposed on the front side 34 of the head unit 3 for displaying a virtual image for the user to watch with his eyes, a blood pressure measuring module 82 for measuring the blood pressure of the user and outputting the measurement result in signal form, and a pulse transit time monitoring module 83 for measuring the Pulse Transit Time (PTT) of the user. In this embodiment, the virtual image is a VR image, the blood pressure measuring module 82 is an electronic sphygmomanometer that can be worn on the upper arm of the user, the pulse wave transmission time monitoring module 83 can measure the Heart Rate (HR) by holding the heart rate sensor 831 with a hand and measure the photoplethysmography (PPG) by wearing the photoplethysmography sensor 832 with the index finger, and then the pulse wave transmission time is calculated and obtained, and the blood pressure information measured by the blood pressure measuring module 82 and the calculated pulse wave transmission time are displayed on the display module 81, and a method for enabling the user to relax is displayed, so that the user can use the self physiological feedback signal to evaluate the changes of the autonomic nerve and the cardiovascular system, and can use the self physiological condition.

The display unit 8 can be switched between a display mode and an optical frequency stimulation mode, in the display mode, the display module 81 displays the virtual image for the eyes of the user to watch, in the optical frequency stimulation mode, the display module 81 stimulates the eyes of the user with a blinking picture, and in the optical frequency stimulation mode, the blinking picture displayed by the display module 81 is blinked with ultraviolet-free blue light with a wavelength of 450 nm-465 nm. In this embodiment, the display mode and the optical frequency stimulation mode can be executed simultaneously. As shown in fig. 1 and 8, the flickering screen displayed by the display module 81 is a rectangular flickering light 811 located at an outer frame of the virtual image, but the present invention is not limited thereto.

As shown in fig. 1, 2 and 5, the control unit 9 is electrically connected to the periodic acceleration module 23, the driving module 24, the sensor 254, the speaker 41, the head acupoint medium 51, the resistance measuring medium 52, the hand acupoint medium 62, the foot acupoint medium 64, the electrical stimulation medium 71 and the display unit 8, and stores data information of the beat music, and can control the periodic acceleration module 23 to perform periodic acceleration motion according to a preset command, the driving module 24 drives the upper body 222 and the lower body 223 to swing, the speaker 41 broadcasts the beat music, the head acupoint medium 51 sends physical stimulation, the hand acupoint medium 62 sends physical stimulation, the foot acupoint medium 64 sends physical stimulation, the electrical stimulation medium 71 sends physical stimulation, and receives and changes the virtual image in the display module 81 according to the sensing signal or the measurement result of the physiological feedback signal measured by the blood pressure measuring module 82 and the pulse wave transmission time monitoring module 83. In this embodiment, the data information, the virtual image, the preset command and the content of the method for displaying the data information and the virtual image to enable the user to relax are downloaded through a cloud network and then stored in the control unit 9.

The irradiation unit 10 is disposed on the foot cover 63, and is used for emitting ultraviolet-free flickering blue light with a wavelength of 450 nm-465 nm to the user. In the embodiment, the irradiation unit 10 is an LED, and in other embodiments, the irradiation unit 10 may be disposed on the glove 61 or other positions, and is not limited to be disposed at a single position.

As shown in fig. 1 and 9 (illustrating a state where an upper body swings upward and a lower body swings downward), when in use, a hypertensive wears the headgear unit 3 and watches the display module 81, and wears the blood pressure measurement module 82, lies on the bed module 22, and fixes the hypertensive with the fixing belt 224, and then gives a satellite teaching film and a static interactive decompression self-relaxation exercise film such as isometric breathing and abdominal breathing through the display module 81, and determines whether the patient is in a self-relaxation state through the transmission time of the pulse wave measured by the pulse wave transmission time monitoring module 83, and if the patient does not reach the self-relaxation state, the patient can further reach the self-relaxation state through film teaching in cooperation with visual feedback, and then can start to cyclically tread the pedal 253 for thirty minutes after treading both feet on the pedal 253, and in this process, the control unit 9 controls the speaker 41 to broadcast the beat frequency for 30 minutes, so as to stimulate the neural circuit of the hypertensive and train the reflex to adjust the blood pressure so as to display the exercise amount of the patient, and display the measurement module 82 can display the measurement information of the hypertension.

Further, as shown in fig. 1, 9 and 10 (illustrating the state when the user steps on the two pedals), during the training process, the control unit 9 can further control the first driving element 241 and the second driving element 242 according to the preset command to make the upper body 222 and the lower body 223 repeatedly swing for several times and last for 10 minutes, that is, when the upper body 222 inclines upwards, the lower body 223 inclines downwards (see fig. 9), and when the upper body 222 inclines downwards, the lower body 223 inclines upwards (see fig. 10), so that the hypertensive is linked to synchronously swing in a passive training manner, so as to further stimulate the neural circuit of the hypertensive and train the baroreflex to lower the blood pressure of the hypertensive. It should be noted that in human physiology, the baroreceptor receptors are mainly located in the aortic arch and the carotid sinus, and when the baroreceptors on the aortic arch and the carotid sinus sense the blood pressure change (too high or too low), they will be transmitted to the vasomotor center of the Yangtze brain through the tenth pair of vagus nerve and the ninth pair of glossopharyngeal nerves, and then transmitted out by the sympathetic or parasympathetic nerves to regulate the blood pressure. If the blood pressure is kept high all the time, the baroreflex receptor is mistakenly normal (it is passivated) over time, the decrease of the sympathetic and parasympathetic nerval initial heartbeat rate cannot be regulated to cause hypertension, which is caused by long-term factors, so that the human body can be trained on the baroreflex by the inclination and the swing of the body.

If the user cannot step on the pedal 253 in a circulating manner, the control unit 9 can control the periodic acceleration module 23 to perform horizontal periodic acceleration movement along the front-back direction X for at least thirty minutes according to the preset command when the bed module 22 is adjusted to return to the original non-inclined posture, during which the flow rate of blood flow of the hypertensive is increased due to passive training, so that the cells release nitric oxide, and the blood vessel is relaxed, and the blood pressure of the hypertensive can be adjusted and reduced, thereby completing the whole set of training process.

As shown in fig. 2, 5 and 11 (illustrating the state when the user steps on the two pedals), if the training effect is to be further enhanced, the user can further wear the glove 61 and the foot cover 63, then lie on the bed module 22, then the control unit 9 controls the head acupoint medium 51, the hand acupoint medium 62 and the foot acupoint medium 64 to match the corresponding acupoints and output the physical stimulation for three to five minutes, meanwhile, the control unit 9 controls the electrical stimulation medium 71 to perform the physical stimulation for ten to twenty minutes, and meanwhile, the control unit 9 controls the speaker 41 to broadcast the beat frequency music for 30 minutes, so that the neural circuit of the hypertensive can be stimulated and the baroreflex can be trained to lower the blood pressure of the hypertensive. It should be noted that, when the head acupoint medium 51 is physically stimulated, the resistance value is measured through the resistance measurement medium 52, and the resistance value is adjusted to the minimum value, so that it is ensured that the head acupoint medium 51 is located at the correct acupoint.

In addition, the blood pressure of the hypertensive can be further reduced through the blinking screen displayed by the display unit 8 in the optical frequency stimulation mode and the blinking blue light irradiated by the irradiation unit 10.

By means of the training process, the hypertensive can perform the exercise of circularly stepping on the pedal 253, receive the stimulation of the beat music, the acupuncture points 51, 62 and 64 and the brain areas, and the inclination and periodic accelerated exercise of the bed module 22 in one training process, and can achieve the effect of reducing blood pressure after different stimulations, thereby being beneficial to improving the symptoms of hypertension after long-term use.

In addition, when the user uses the blood pressure lowering device, the virtual image will change, such as a landscape change, along with the stepping of the pedal 253, so that the user can feel fun, and the use will of the user can be greatly improved, and the user can enjoy the use.

As shown in fig. 1, 5 and 12, it is noted that in this embodiment, seven subjects were tested, head acupoints (baihui acupoint A1 and fengchi acupoint A2) were stimulated through the head acupoint medium 51, hand acupoints (Hegu acupoint B1, shenmen acupoint B2 and Quchi acupoint B4) were stimulated through the hand acupoint medium 62, and foot acupoints (Taichong acupoint C1, fenglong acupoint C4 and Zusanli acupoint C5) were stimulated through the foot acupoint medium 64, and after each acupoint was stimulated with laser light sequentially from head to foot for 5 minutes, the result of the change in systolic blood pressure was measured, and it was shown that the average systolic blood pressure was reduced by about 4mmHg after stimulation with laser light, and a statistically significant difference was achieved, thereby proving that the hypotension effect was achieved by physical stimulation of laser light on a specific acupoint.

Then, the results of the experiments are described, seven subjects are subjected to periodic accelerated exercise experiments with an average systolic blood pressure of about 135mmHg, and after a single periodic accelerated exercise is performed for 30 minutes through the rhythm bed unit 2, the results of the measurement of the change in the systolic blood pressure of the subject show that the systolic blood pressure is reduced by about 9.8mmHg, the diastolic blood pressure is reduced by about 5.0mmHg, the heartbeat is reduced by 6.8 at rest, the blood flow regulation and relaxation function is increased by 5% and a significant difference is achieved, and since the periodic accelerated exercise of the rhythm bed unit 2 can increase the flow rate of the blood flow and release nitric oxide from cells, it can be proved that the periodic accelerated exercise of the rhythm bed unit 2 can relax blood vessels and further regulate the blood pressure of the hypertensive.

Then, an electronic stimulation experiment is carried out by using the average blood pressure and the systolic pressure of seven testees of about 135mmHg, after a single transcranial direct current stimulation is carried out for 20 minutes through the current of 1mA, the change result of the systolic pressure of the testees is measured, and the result shows that the systolic pressure is reduced by about 4mmHg, so that the effect of reducing the blood pressure can be proved by physical stimulation of transcranial direct current stimulation.

And then, carrying out an audio stimulation experiment by using the average blood pressure and the systolic pressure of seven testees to be tested to measure the result of the change of the systolic pressure after carrying out single beat music for at least 20 minutes by using the frequency difference of the beat music between 4Hz and 14Hz, wherein the result shows that the systolic pressure is reduced by about 3mmHg, the heartbeat is reduced by 5 times at rest, the standard high-frequency power of a parasympathetic activity index is increased by 4n.u., and the standard low-frequency power of a sympathetic activity index is reduced by 3n.u., so that the effect of reducing the blood pressure by the physical stimulation of the frequency beat music can be proved.

In addition, an experiment is carried out by using the average blood pressure and the systolic pressure of seven testees of about 135mmHg, flashing blue light is irradiated through the irradiation unit 10 to carry out optical frequency stimulation, after a single optical frequency stimulation is carried out for 30 minutes, the result of measuring the change of the systolic pressure shows that the systolic pressure is reduced by about 7mmHg, the diastolic pressure is reduced by about 5mmHg, the blood flow regulation and relaxation function is increased by 2 percent and achieves obvious difference, and the result shows that the optical frequency stimulation can increase the flow rate of blood flow and promote cells to release nitric oxide, so that the optical frequency stimulation can relax blood vessels, and further regulate and reduce the blood pressure of a hypertension patient.

In summary, by installing the rhythm bed unit 2 capable of swinging and performing periodic accelerated exercise, the pedal module 25 capable of being stepped on, the speakers 41 capable of broadcasting beat music, the head acupoint media 51 capable of stimulating acupoints, the hand acupoint media 62 and the foot acupoint media 64 capable of stimulating brain regions, the electrical stimulation media 71 capable of stimulating brain regions, and the display module 81 capable of displaying the virtual image and blood pressure information, the hypertensive can perform various training capable of adjusting and reducing blood pressure in one use process, so as to effectively improve the use will of the hypertensive, thereby achieving the purpose of the present invention.

In conclusion, the blood pressure lowering training device provided by the invention is provided with the loudspeaker capable of broadcasting the beat frequency music and the display module capable of displaying the virtual image and the blood pressure information, so that the hypertension patient can perform various blood pressure lowering training in one-time use process, and the use intention of the hypertension patient is effectively improved.

Specific embodiments of the invention have been described above. It is to be understood that the invention is not limited to the particular embodiments described above, in that devices and structures not described in detail are understood to be implemented in a manner common in the art; various changes or modifications may be made by one skilled in the art within the scope of the claims without departing from the spirit of the invention, and without affecting the spirit of the invention.

Claims

1. A blood pressure lowering training device, comprising:

a head frame unit corresponding to a head shape of a user and including two ear portions corresponding to both ears of the user and a top side portion connected between the two ear portions and crossing over a top of the head of the user;

the audio stimulation unit comprises loudspeakers arranged at the two ears, the loudspeakers are used for broadcasting beat frequency music to the ears of the user, and the beat frequency music has a frequency difference;

the display unit comprises a display module and a blood pressure measuring module, wherein the display module is arranged on the head frame unit and used for displaying a virtual image for the eyes of the user to watch, the blood pressure measuring module is used for measuring the blood pressure of the user and outputting blood pressure measuring information in a signal mode, and the display module is used for displaying the blood pressure measuring information measured by the blood pressure measuring module;

and the control unit is electrically connected with the loudspeaker and the display unit, stores data information of the beat frequency music, controls the loudspeaker to broadcast the beat frequency music according to a preset command, and controls the display module to change the virtual image.

2. The blood pressure lowering exercise device of claim 1, wherein the beat frequency music piece has a frequency difference between 4Hz and 14Hz;

the headgear unit further includes a posterior portion connected between the two ears and spanning the user's cranium, the top portion having a top region centered between the two ears;

the head acupuncture point stimulating unit comprises three head acupuncture point media which are arranged on the head frame unit, are electrically connected and are controlled by the control unit according to preset commands to send out physical stimulation, the head acupuncture point media are used for outputting laser light to the head acupuncture points of the user to carry out physical stimulation, one of the head acupuncture point media is arranged at the center of the top area in an adjustable position to correspond to the Baihui acupuncture points of the user, and two of the head acupuncture point media are arranged at the rear side part in an adjustable position, are positioned at a one-finger-inch distance which is seven times the rear direction of the center of the top area and are respectively spaced at a distance which is two points and two fingers and five-finger-inch distances in the direction of the ears to respectively correspond to the two air pool acupuncture points of the user;

the distance between the finger and the cun is two points and three centimeters, and the wavelength of the laser light of the head acupuncture point medium is 500 nm-900 nm.

3. The device as claimed in claim 2, wherein the head acupoint stimulation unit further comprises three resistance measurement media electrically connected to the control unit and respectively adjacent to the head acupoint media, the resistance measurement media being used to measure the body resistance of the user to confirm whether the corresponding head acupoint media is located in the low resistance acupoint region.

4. The device as claimed in claim 2, further comprising a limb acupoint stimulating unit, wherein the limb acupoint stimulating unit comprises a glove and four hand acupoint media disposed on the glove and electrically connected to the control unit, the hand acupoint media being used for outputting laser light to physically stimulate the hand acupoints of the user, one of the hand acupoint media being adjustably positioned corresponding to the Hegu acupoint of the user, one of the hand acupoint media being adjustably positioned corresponding to the Shenmen acupoint of the user, one of the hand acupoint media being adjustably positioned corresponding to the Neiguan acupoint of the user, and one of the hand acupoint media being adjustably positioned corresponding to the Quchi acupoint of the user;

the wavelength of the laser light of the hand acupuncture point medium is 500 nm-900 nm;

the limb acupoint stimulation unit also comprises a foot sleeve and five foot acupoint media which are arranged on the foot sleeve and electrically connected with the control unit, wherein the foot acupoint media are used for outputting laser light to the foot acupoints of a user to carry out physical stimulation, one of the foot acupoint media can be adjusted to correspond to the Taichong acupoint of the user, one of the foot acupoint media can be adjusted to correspond to the Taixi acupoint of the user, one of the foot acupoint media can be adjusted to correspond to the Sanyinjiao acupoint of the user, one of the foot acupoint media can be adjusted to correspond to the Fenglong acupoint of the user, and one of the foot acupoint media can be adjusted to correspond to the Zusanli acupoint of the user;

the wavelength of the laser light of the foot acupuncture point medium is 500 nm-900 nm.

5. The device of claim 1, wherein the headgear unit further comprises an anterior portion connected between the two ears and across the forehead of the user and connected to the display unit, and a middle portion connected between the two ears and between the top portion and the anterior portion, the top portion having a top region centered between the two ears, a left side region and a right side region connected to the two ears and the top region, respectively, the middle portion having a left anterior region corresponding to the left side region;

the electronic stimulation unit comprises three electric stimulation media which respectively correspond to the left side area, the left front area and the front side part, are electrically connected with the control unit and send out physical stimulation according to preset command control, and the three electric stimulation media which respectively correspond to the left side area, the left front area and the front side part correspond to a C3 position, an F3 position and an SO position in international 10-20 brain wave electrode positions and are used for outputting current to the head of the user to perform transcranial electric stimulation or outputting electromagnetic pulses to perform transcranial magnetic stimulation;

when the output of the electric stimulation medium is a direct current type, the current is between 1mA and 2mA, and the current density is 0.03mA/cm ² ～0.09mA/cm ² ；

When the output of the electric stimulation medium is in an electromagnetic pulse type, the electromagnetic frequency is 1Hz.

6. The blood pressure reduction training device of claim 5, wherein the electrical stimulation medium has a plurality of conductive pillars arranged in parallel to output physical stimulation, the electrical stimulation medium is an anode corresponding to the C3 position and the F3 position of the International 10-20 System electroencephalogram electrode positions, respectively, and the electrical stimulation medium is a cathode corresponding to the SO position of the International 10-20 System electroencephalogram electrode positions;

the electronic stimulation unit also comprises a first installation groove positioned on the left side area, a second installation groove positioned on the left front area, a first setting seat and a second setting seat, wherein the first setting seat is provided with a first sliding piece arranged at the bottom of the top side, a first screw locking piece which is opposite to one side of the first sliding piece from the top side and penetrates through the first installation groove and is screwed on the first sliding piece so as to fix the first sliding piece, a first positioning piece which is opposite to one side of the first sliding piece from the first screw locking piece and penetrates through the first screw locking piece in a sliding manner, a first installation platform which is opposite to one side of the top side of the first sliding piece and is screwed on the first positioning piece, a plurality of first conductive strips arranged at the bottom of the top side, and a plurality of first elastic conductive pieces which are compressively penetrated through the first sliding piece and the first installation platform and are respectively and electrically connected with the first conductive strips, and the electric stimulation medium corresponding to the left side area is arranged on the first installation platform opposite to one side of the top side and is electrically connected with the first elastic conductive pieces;

the second setting base has a second sliding part disposed at the bottom of the middle part, a second screw part passing through the second mounting groove from the middle part opposite to one side of the second sliding part and screwed to the second sliding part for fixing the second sliding part, a second positioning part passing through the second screw part from one side of the second screw part opposite to one side of the second sliding part and sliding, a second mounting platform disposed at one side of the second sliding part opposite to the middle part and screwed to the second positioning part, a plurality of second conductive strips disposed at the bottom of the middle part, and a plurality of second elastic conductive pieces compressively passing through the second sliding part and the second mounting platform and electrically connected to the second conductive strips, respectively, wherein the electro-stimulation medium corresponding to the left anterior area is disposed at one side of the second mounting platform opposite to the middle part and electrically connected to the second elastic conductive pieces.

7. The blood pressure lowering training device of claim 1, further comprising a uniform ambulatory unit, the rhythm bed unit comprises a base, a bed module arranged on the base, a periodic acceleration module arranged between the base and the bed module and used for periodic acceleration movement, a driving module arranged on the bed module, and a pedal module arranged on the bed module, the bed module is provided with a middle part arranged above the base, an upper body part arranged on the front side of the middle part in a swinging way along the front-back direction, and a lower body part arranged on the rear side of the middle part in the swinging way along the front-back direction, the periodic acceleration module is arranged between the base and the middle part and is controlled to drive the middle part to move back and forth along the front and back directions, the driving module is provided with a first driving piece which is arranged between the middle part and the upper body part and is controlled to drive the upper body part to swing relative to the middle part, and a second driving piece which is arranged between the middle part and the lower body part and is controlled to drive the lower body part to swing relative to the middle part, the pedal module is provided with a supporting part arranged on the lower body part, a crank pivoted on the supporting part, two pedals respectively arranged on two opposite sides of the crank, and a sensor arranged on the crank and outputting the rotation state of the crank into a sensing signal, the periodic acceleration module, the driving module and the sensor are electrically connected with the control unit, the control unit controls the periodic acceleration module to perform periodic acceleration motion according to a preset command, the driving module drives the upper body part and the lower body part to swing, the control unit receives and controls the display module to change the virtual image according to the sensing signal;

the bed module is also provided with a fixed waistband arranged at the middle part;

the first driving piece drives the upper body part to swing relative to the middle part at a swing angle ranging from 90 degrees horizontally upwards to 45 degrees horizontally downwards;

the second driving part drives the lower body part to swing relative to the middle part at a swing angle ranging from 45 degrees horizontally upwards to 45 degrees horizontally downwards.

8. The device of claim 1, wherein the display unit further comprises a pulse wave transit time monitoring module for measuring the pulse wave transit time of the user, the display module displaying the pulse wave transit time data measured by the pulse wave transit time monitoring module;

the display unit is switched between a display mode and an optical frequency stimulation mode, and in the display mode, the display module displays the virtual image for the eyes of the user to watch;

in the light frequency stimulation mode, the display module stimulates the two eyes of the user by a flickering picture, and the flickering picture displayed by the display module flickers by the blue light without ultraviolet light with the wavelength of 450 nm-465 nm.

9. The device of claim 1, further comprising an irradiation unit electrically connected to the control unit, the irradiation unit configured to emit UV-free blue light with a wavelength of 450nm to 465nm to the user.

10. The device of any one of claims 1-9, wherein the data message, the virtual image, and the predetermined command are pre-stored in the control unit after being downloaded via a cloud network.