TWI584219B - human body frequency diagnostic analysis apparatus and improvement method OF health assessmenT - Google Patents

Description

Human body frequency diagnostic analysis equipment and health assessment improvement method

The invention relates to a human body frequency diagnostic analysis device and a health assessment improvement method, in particular to a human body frequency diagnosis and analysis device and a health assessment improvement method capable of diagnosing and analyzing human body frequency to further examine health conditions.

According to Chinese medicine, Chinese medicine believes that the human body has a delicate distribution system that is responsible for the transmission of subtle substances such as " qi " and " blood ". This transmission network is called the human body meridian system, which is used to connect the organs and limbs, and to run the blood and blood passages. The larger one is the meridians, and the branches of the meridians are the collaterals. In addition, Chinese medicine believes that each organ of the human body has a frequency, and if the frequency is unbalanced, it indicates that the organ has a problem. Western medicine also advocates that prevention is better than cure. Therefore, it is recommended that people conduct regular health checkups. Health checkups are about understanding the health of individuals to detect early symptoms or risk factors and to receive early treatment. However, general health checks can only be used to check whether organs are already Changes occur, and can not be prevented before the organ changes, so often seek the assistance and treatment of the doctor after the disease occurs, but often can not restore the original state of health, and even leave sequelae, resulting in life disability; therefore, prevention Medicine has gradually gained the attention of the public. Preventive medicine focuses on maintaining, promoting and maintaining the health of the general public, specific groups or individuals. Preventive medicine mainly includes health promotion and disease prevention. Among them, health promotion mainly includes life forms and life. Environment and medical system; prevention of diseases is to evaluate and improve health risk factors before the human body produces diseases, and further restrict the development of the disease. The present inventors have intensively conducted research in view of this, and thus the present invention has been produced.

Therefore, the main object of the present invention is to provide a human body frequency diagnostic analysis device and a health assessment improvement method capable of diagnosing and analyzing human body frequencies for further examination of health conditions.

To achieve the above object, the human body frequency diagnostic analysis device of the present invention comprises a transmitter/receiver, a detecting unit and a control unit, wherein the transmitter/receiver end is connected to the head of the human body and can be driven to emit a launch. a frequency, the further human head is fed back a feedback frequency via the transmitter/receiver; the detecting unit is coupled to the transmitter/receiver for driving the aforementioned transmitter/receiver, and causing the transmitter/receiver to transmit the aforementioned transmitting frequency Receiving the feedback frequency; the control unit is connected to the detecting unit for controlling the detecting unit; the control unit comprises an operation unit, a database and a screen, wherein the operation unit is used for computing and comparing Transmitting the frequency and the feedback frequency and generating a two-line spectrogram to view the maximum drop value of the frequency segment of the two-line spectrogram, the maximum drop difference being the human body frequency offset; the database is used to compare the double line a spectrogram and generating a detection information; the screen is used to display the two-line spectrogram and the detection information.

The human body frequency diagnostic analysis device further includes a heartbeat sensor for connecting a pulse (or a heart part) of the human body to obtain a heartbeat number value, the control unit having an input unit, And inputting the value of the heartbeat number, and calculating, by the operation unit, the value of the heartbeat number input, generating a plurality of estimated frequency values, and further comparing the maximum difference value between the estimated frequency value and the frequency segment of the two-line spectrogram The maximum drop value is the imbalance of the human body's meridian frequency.

The human body frequency diagnostic analysis device described above, wherein the frequency segment detectable by the human body frequency diagnostic analysis device is 1.8 to 8.2 Hz.

Another main object of the present invention is to provide a method for improving human health assessment, comprising the steps of: connecting one end of a transmitter/receiver to a head of a human body and being driven to emit a transmission frequency, further enlarging the head of the body via The transmitter/receiver feedbacks a feedback frequency; borrowing a detection unit and the transmitter/receiver to drive the aforementioned transmitter/receiver, causing the transmitter/receiver to transmit the aforementioned transmission frequency, and receiving the feedback frequency; The unit is connected to the detecting unit to control the detecting unit; the control unit comprises an arithmetic unit, a database and a screen, wherein the operating unit is used to calculate the feedback frequency and generate a two-line spectrogram, and further view The maximum drop value of the frequency segment of the two-line spectrogram, the maximum drop difference is the human body frequency offset; the database is used to compare the two-line spectrogram and generate a detection information; the screen is used to display the Two-line spectrogram and the detection information.

The above-described human health assessment improvement method, wherein the human health assessment improvement method can detect a frequency segment of 1.8 to 8.2 Hz.

The above-mentioned method for improving human health assessment, further comprising the steps of: connecting a pulse beat (or a heart part) of the human body with a heartbeat sensor to obtain a heartbeat number value; the control unit has an input unit for inputting The heartbeat number value is obtained by calculating the heartbeat number value input by the operation unit, and generating a plurality of speculative frequency values, and comparing the estimated difference frequency value with the frequency segment of the two-line spectrogram, the maximum drop value of the frequency segment That is, the body's meridian frequency is out of tune.

The above-mentioned method for improving human health assessment, wherein the human health assessment improvement method can be used in conjunction with a rhythm that can emit a rhythm wave, and the motive is in contact with the human body, and the rhythm wave of the maximum drop value is emitted to improve the human body. The purpose of frequency.

The above-mentioned human health assessment improvement method, wherein the human health assessment improvement method can be combined with an essential oil to achieve the purpose of improving human health.

The present invention has been described in detail with reference to the accompanying drawings in which: FIG.

Referring to the first figure, the human body frequency diagnostic analysis device 1 of the present invention comprises:

a transmitter/receiver 10 having one end connected to the head of the human body and capable of being driven to transmit a transmission frequency, and further a human head is fed back a feedback frequency via the transmitter/receiver 10;

a detecting unit 11 connected to the transmitter/receiver 10 for driving the aforementioned transmitter/receiver 10, causing the transmitter/receiver 10 to transmit the aforementioned transmitting frequency and receiving the feedback frequency;

a heartbeat sensor 12 for connecting a pulse (or a heart part) of the human body to obtain a heartbeat number value;

A control unit 13 is connected to the detecting unit 11 for controlling the detecting unit 11; the control unit 13 includes an operating unit 14, a screen 15, an input unit 16, and a database 17, and the operating unit 14 is used for Calculating the transmission frequency and the feedback frequency to generate a two-line spectrogram; the input unit 16 is configured to input the heartbeat number value, and the operation unit 14 calculates the input of the heartbeat number value to generate a plurality of speculative frequency values; The database 17 is used to compare the two-line spectrogram and generate a detection information; the screen 15 is used to display the two-line spectrogram and the detection information.

Referring to the first and second figures, when detecting whether the human body frequency is out of adjustment, after connecting one end of the transmitter/receiver 10 to the head of the human body, the control unit 13 controls the detecting unit 11 to drive the transmitter/receiver 10 to transmit. Transmitting the frequency to the head of the human body, and further the head of the body is fed back the feedback frequency via the transmitter/receiver 10; the detecting unit 11 receives the feedback frequency and further transmits the signal to the control unit 13 to cause the operation unit 14 to operate. And comparing the transmission frequency with the feedback frequency to generate the two-line spectrogram, further comparing with the database 17, and generating the detection information to learn that the imbalance of the human body requires pre-treatment prevention, and The two-line spectrogram and the detection information are displayed on the screen 15. The maximum drop value in the frequency segment of the two-line spectrogram is the human body frequency offset (as shown in the fourth figure, the maximum drop value is located at 6.6HZ). At).

Referring to the first and third figures, when detecting whether the human body meridian frequency is out of adjustment, the heartbeat sensor 12 is connected with the pulse (or the heart part) of the human body to obtain the heartbeat number value, and the heartbeat number value is input into the input unit. In the 16th, after the operation unit 14 calculates and generates a plurality of estimated frequency values, the maximum difference value between the estimated frequency value and the frequency segment of the two-line spectrogram is the human body meridian frequency offset. At the end of the figure, as shown in the fifth figure, 72 is input as the number of heartbeats, and after the operation, a plurality of speculative frequencies are known, and then the estimated frequency is compared with the two-line spectrogram, and the maximum drop value is found at 6.6 Hz. That is, it is known that the stomach of the human body has problems with the meridians.

The human health assessment improvement method of the present invention is used in conjunction with a human body frequency diagnostic analysis device, and the human health assessment improvement method includes:

Passing a transmitter/receiver end to the head of the human body and being driven to transmit a transmission frequency, and further causing the head to feedback a feedback frequency via the transmitter/receiver;

Passing a detection unit and the transmitter/receiver to drive the aforementioned transmitter/receiver, causing the transmitter/receiver to transmit the aforementioned transmission frequency and receiving the feedback frequency;

Connect a heartbeat sensor to the pulse (or heart part) of the human body to obtain a heartbeat number value;

Connected to the detecting unit by a control unit to control the detecting unit; the control unit has an arithmetic unit for calculating and comparing the transmitting frequency and the feedback frequency to generate a two-line spectrogram, the two-line spectrogram The maximum drop value of the frequency segment is the imbalance of the human organ frequency; the control unit has a database for comparing the two-line spectrogram and generating a detection information; the control unit has a screen for displaying The two-line spectrogram and the detection information; the control unit has an input unit for inputting the heartbeat number value, and the operation unit calculates the number of the heartbeat number input, and generates a plurality of speculative frequency values, and further compares The maximum difference value between the estimated frequency value and the frequency segment of the two-line spectrogram is the imbalance of the human body's meridian frequency. It is known that the imbalance of the human meridian needs pre-treatment.

In addition, the law can be used to generate a uniform motion with the human body, and the motive can adjust the frequency of the rhythm wave, for example, the maximum drop value is located at 6.6 Hz, that is, the frequency of the motive is adjusted to 6.6 Hz, so that The law motivation outputs a 6.6HZ rhythm wave to adjust the body frequency; in addition, it can also be used with an essential oil for the human organ or meridian where the problem occurs to achieve the purpose of improvement.

Therefore, by diagnosing the human body frequency, it is possible to further understand whether the human organ or the meridian frequency is out of balance to understand the health condition to further adjust the human body or the meridian frequency.

In conclusion, the present invention can achieve the intended function and purpose, and the detailed description can be implemented by those skilled in the art, and the above embodiments are only used to illustrate the present invention, and all equivalent structures. Changes may still be made without departing from the scope of the invention.

1‧‧‧ Human body frequency diagnostic analysis equipment
10‧‧‧transmit/receiver
11‧‧‧Detection unit
12‧‧‧heartbeat sensor
13‧‧‧Control unit
14‧‧‧ arithmetic unit
15‧‧‧ screen
16‧‧‧Input unit
17‧‧‧Database

The first figure shows a block diagram of an embodiment of the present invention. The second figure shows a flow chart of the use of detecting human body frequency in the embodiment of the present invention. The third figure shows a flow chart for detecting the frequency of the human body meridian according to the embodiment of the present invention. The fourth figure shows a reference diagram of the two-line spectrogram of the embodiment of the present invention. The fifth figure shows a reference diagram of the human body meridian frequency in the embodiment of the present invention.

1‧‧‧ Human body frequency diagnostic analysis equipment

10‧‧‧transmit/receiver

11‧‧‧Detection unit

12‧‧‧heartbeat sensor

13‧‧‧Control unit

14‧‧‧ arithmetic unit

15‧‧‧ screen

16‧‧‧Input unit

17‧‧‧Database

Claims (10)

A human body frequency diagnostic analysis device includes: a transmitter/receiver having one end connected to a head of a human body and capable of being driven to transmit a transmission frequency, and further causing a head of the body to feedback a feedback frequency via the transmitter/receiver; a detecting unit connected to the transmitter/receiver for driving the aforementioned transmitter/receiver, causing the transmitter/receiver to transmit the aforementioned transmitting frequency and receiving the feedback frequency; and a control unit connected to the detecting unit Controlling the detecting unit; the control unit has an operation unit for calculating the transmitting frequency and the feedback frequency and generating a two-line spectrogram, wherein the maximum drop value of the frequency segment of the two-line spectrogram is the human body frequency offset The control unit has a database for comparing the two-line spectrogram and generating a detection information; the control unit has a screen for displaying the two-line spectrogram and the detection information to obtain a human body Or whether the body's meridians are out of balance, you can pre-emptive treatment. The human body frequency diagnostic analysis device according to the first aspect of the invention, wherein the human body frequency diagnostic analysis device further comprises a heartbeat sensor for connecting a pulse (or a heart part) of the human body to obtain a heartbeat number value; The control unit has an input unit for inputting the value of the heartbeat number, and the operation unit calculates the value of the heartbeat number input to generate a plurality of estimated frequency values, and further compares the estimated frequency value with the two-line spectrogram The maximum drop value of the frequency segment, which is the imbalance of the human body's meridian frequency. The human body frequency diagnostic analysis device according to claim 1 or 2, wherein the frequency segment detectable by the human body frequency diagnostic analysis device is 1.8 to 8.2 Hz. The human body frequency diagnostic analysis device according to claim 1 or 2, wherein the human body frequency diagnostic analysis device can be used with a legal motive capable of emitting a rhythm wave, the motive is in contact with the human body, and the maximum is issued. The rhythmic wave of the difference is used to achieve the purpose of improving the body frequency. The human body frequency diagnostic analysis device according to claim 1 or 2, wherein the human body frequency diagnostic analysis device can be used with an essential oil to achieve the purpose of improving human health. A method for improving human health assessment includes the steps of: connecting a transmitter/receiver end to a head of a human body and being driven to transmit a transmission frequency, and further causing a human body to feedback a feedback frequency via the transmitter/receiver Passing a detection unit and the transmitter/receiver to drive the aforementioned transmitter/receiver, causing the transmitter/receiver to transmit the aforementioned transmission frequency and receiving the feedback frequency; and connecting to the detection unit by a control unit to control the a detection unit; the control unit has an operation unit for calculating the feedback frequency and generating a two-line spectrogram, wherein the maximum drop value of the frequency segment of the two-line spectrogram is a human body frequency offset; the control unit has a The data library is configured to compare the two-line spectrogram and generate a detection information; the control unit has a screen for displaying the two-line spectrogram and the detection information. The method for improving human health assessment according to claim 6, wherein the method further comprises the following steps: connecting a heartbeat sensor (or a heart part) with a heartbeat sensor to obtain a heartbeat number value; the control unit An input unit is configured to input the value of the heartbeat number, and the operation unit calculates the value of the heartbeat number input to generate a plurality of estimated frequency values, and compares the estimated frequency value with the frequency segment of the two-line spectrogram The maximum drop value of the frequency segment is the imbalance of the human body's meridian frequency. The human health assessment improvement method according to claim 6 or 7, wherein the human health assessment improvement method can detect a frequency of 1.8 to 8.2 Hz. The method for improving human health assessment according to claim 6 or 7, wherein the human health assessment improvement method can be used with a legal motive that can emit a rhythm wave, and the motive is in contact with the human body and issues the maximum The rhythmic wave of the difference is used to achieve the purpose of improving the body frequency. The method for improving human health assessment according to claim 6 or 7, wherein the human health assessment improvement method can be combined with an essential oil to achieve the purpose of improving human health.