KR101387285B1 - Ryodoraku Point Detecting System and Ryodoraku Point Detecting Method Using the Same - Google Patents

Abstract

According to a feature of the invention, the detection current applying unit 100 including a probe rod 110 and the electrode rod 120 to apply a detection current in contact with each other on a different position on the skin 10 of the subject; The detection control unit 200 is electrically connected to the detection current applying unit 100 and measures the skin current at the skin position P at which the detection rod 110 is contacted as the detection current is applied to the skin 10. ; And a display unit 300 connected to the detection control unit 200 and displaying various setting states and measured data on the screen window 311, wherein the detection control unit 200 includes the skin of the detection subject. Measure the base current flowing on the (10), and measure the skin current value of the skin position (P) in contact with the probe rod 110 in the state of setting the measured base current value as the initial value of the skin current measurement And, the transfer point detection system is characterized in that the control to display the measured skin current data on the screen window 311.

Description

Transfer Point Detection System and Ryodoraku Point Detecting System and Ryodoraku Point Detecting Method Using the Same}

The present invention relates to a transfer point detection system and a method for detecting a transfer point using the same, and more specifically, a current carrying amount is low due to relatively low skin electrical resistance on the skin of a subject using a probe and an electrode for applying a probe current to the skin. The present invention relates to a transfer point detection system for detecting a high transfer point (Ryodoraku Point) and a transfer point detection method using the same.

In general, the odor point (Ryodoraku Point) is a specific skin position where electricity flows better than other skin positions when the amount of energizing current of the human skin is measured, and includes acupuncture points, blood levels, bleeding, tenderness points, exercise points, and TP points. Can mean.

In order to measure such a transfer point, the skin electric resistance value measured by applying a detection current while contacting the probe with various points where the transfer point is expected to be positioned while the electrode serving as the common electrode is in contact with one position of the body. The location of the skin below this predetermined threshold was found to be a transfer point.

In addition, generally, a microcurrent called bioelectric currents always flows in the human body, and the magnitude of the biocurrent varies slightly from person to person according to age and basal metabolism.

However, in the conventional method of detecting the transfer point, the measurement error is generated according to the individual difference of the biocurrent because the detection current is applied to detect the position where the skin electric resistance value is the lowest without considering the biocurrent. There was this.

In addition, if the subject (patient) who wants to detect the transfer point is affected by the electromagnetic waves in the surroundings depending on the environment in which the subject is located, such as when an electric blanket or a hot bed is placed, an error in the skin electric resistance measurement value is caused by the electromagnetic waves. As a result, even in the same subject, there was a problem that the detection position of the transfer point was changed according to the measurement place.

In addition, in detecting the transfer point, it is determined that the position where the skin current according to the skin electrical resistance value is high is the transfer point. Since the difference was not considered, the difference in individual skin current value was not considered and there was a problem that an error could occur in the detection of the transfer point.

Korean Laid-Open Patent Publication No. 2011-0023215 (2011.03.08), low frequency stimulator for combination therapy

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to take an image of the subject's skin before conducting the point-of-detection in consideration of the bioelectric current communicating on the subject's skin and the electromagnetic wave effects surrounding the subject. The present invention provides a transfer point detection system and a method for detecting a transfer point using the same by initializing a skin current value for communicating with and measuring the skin current value for the transfer point detection.

In addition, another object of the present invention is to calculate the average skin current value by summing the skin current value measured for each individual, and the transfer point after setting the skin current value higher than the average skin current value by a certain ratio as the transfer point threshold value The present invention provides a transfer point detection system that minimizes a detection error of a transfer point according to a difference in individual skin current values, and a transfer point detection method using the same.

According to a feature of the invention, the detection current applying unit 100 including a probe rod 110 and the electrode rod 120 to apply a detection current in contact with each other on a different position on the skin 10 of the subject; The detection control unit 200 is electrically connected to the detection current applying unit 100 and measures the skin current at the skin position P at which the detection rod 110 is contacted as the detection current is applied to the skin 10. ; And a display unit 300 connected to the detection control unit 200 and displaying various setting states and measured data on the screen window 311, wherein the detection control unit 200 includes the skin of the detection subject. Measure the base current flowing on the (10), and measure the skin current value of the skin position (P) in contact with the probe rod 110 in the state of setting the measured base current value as the initial value of the skin current measurement And, the transfer point detection system is characterized in that the control to display the measured skin current data on the screen window 311.

According to another feature of the present invention, the skin current of the subject is measured and transferred through the probe rod 110 and the electrode rod 120 respectively connected to different positions on the subject's skin 10 and applying a probe current. A point detection method for detecting a point, comprising: a detection frequency setting step (S230) of detecting a frequency having a relatively high current carrying amount among preset frequency bands on the skin (10) and setting the detection frequency of the detection current; By contacting the probe rod 110 for each of the plurality of skin positions (P) corresponding to the skin area (A) to detect the transfer point, by applying a detection current set to the detection frequency for each skin position (P) An average skin current value calculating step (S240) of measuring a skin current value and calculating an average skin current value by summing the measured skin current values for each skin position P; A transfer point threshold setting step (S250) of setting a transfer point threshold value, which is a determination standard of the transfer point, based on the calculated average skin current value; And measuring the skin current value for each skin position P by contacting the probe rod 110 to the skin area A again and applying a detection current, wherein the measured skin current value is higher than the transfer point threshold value. A transfer point detection method is provided, including; a transfer point detection step (S260) of determining a skin position P as a transfer point.

According to another feature of the invention, the detection rod 110 and the electrode 120 in contact with the skin 10 and applying a detection current to measure the basic current value flowing on the skin 10 of the subject Basic current value measuring step (S210); And a skin current initial value setting step (S220) of setting the measured basic current value as an initial value of skin current measurement. The detection frequency setting step (S230) further includes the skin current initial value setting step (S220). A transfer point detection method is provided, characterized in that the detection frequency is detected by reflecting an initial value of skin current measurement set through.

As described above, according to the present invention,

First, in consideration of the biocurrents communicating on the subject's skin and the electromagnetic wave surrounding the subject, the skin current values communicated on the subject's skin before the point of detection is initialized, and then the skin current for the point of detection is determined. By measuring the value, the detection error of the transfer point can be minimized, and the constraint of the location of the transfer point is not generated. That is, even when the patient to be probed is lying in a position where electromagnetic waves are generated, such as an electric blanket and a hot bed, it is possible to detect an accurate transfer point without being affected by the electromagnetic waves.

Second, the average current value is calculated by summing the skin current values measured for each individual, and the skin current value higher than the average current value is set as the transfer point threshold value. The detection error of the transfer point due to the difference can be minimized.

1 is a block diagram showing the configuration of the transfer point detection system according to a preferred embodiment of the present invention,
Figure 2 is a perspective view showing the external configuration of the transfer point detection system according to a preferred embodiment of the present invention,
Figure 3 is a sectional perspective view showing the internal configuration of the probe bar according to a preferred embodiment of the present invention,
4 is a side view showing a configuration in which a point of contact with the skin and a detection current is applied through a probe tip of a probe according to a preferred embodiment of the present invention;
Figure 5 is a side view showing a configuration for applying a detection current while the line (Line) contact or surface (Area) contact with the skin through the probe roll of the probe according to a preferred embodiment of the present invention,
Figure 6 is a schematic diagram showing the skin region (A) and the skin position (P) of the subject according to a preferred embodiment of the present invention,
7 is a screen example showing each display window displayed on the screen window according to an embodiment of the present invention,
8 is an exemplary screen showing a difference in skin current values measured according to a pressure change in pressing a probe according to a preferred embodiment of the present invention.
9 is a screen example showing a state in which the optimum frequency is set through the transfer point detection system according to a preferred embodiment of the present invention,
10 is a screen example showing a state in which the average skin current value is calculated through the transfer point detection system according to a preferred embodiment of the present invention,
11 is a screen example showing a state of detecting the transfer point through the transfer point detection system according to a preferred embodiment of the present invention,
12 is a flow chart showing the procedure of the transfer point detection method according to a preferred embodiment of the present invention.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

First, referring to Figures 1 to 5 will be described the configuration and function of the transfer point detection system according to a preferred embodiment of the present invention.

Transfer point detection system 100 according to a preferred embodiment of the present invention, through the probe rod 110 and the electrode rod 120 is connected to a different position on the subject's skin 10 and applying a detection current, respectively. As a detection system for measuring the skin current of the subject to detect the transfer point, as shown in Figures 1 to 5, provided with a detection current applying unit 100, the detection control unit 200 and the display unit 300 do.

The detection current applying unit 100 is a component for applying a detection current by contacting each other at different positions on the skin 10 of the object to be detected, and the detection rod 110 as shown in FIGS. 2 and 7 to 11. ) And the electrode 120 is provided.

Here, the subject to be detected refers to a patient who wants to detect a transfer point by a probe such as a doctor, and the detection current is a current applied to the skin 10 through the probe rod 110 to measure skin resistance. (When the sensing current is applied) The subject may not feel the pain (for example, dullness) through which the current flows, but within a range where the skin electric resistance value can be properly measured (for example, after hydrogen ionization , DC 1.4V up to 20mA) is preferred. In addition, the skin current is a current value measured by the detection control unit 200 as the detection current is applied to the skin 10, and the skin current value is calculated by converting the skin electrical resistance value measured while applying the detection current. Can be displayed.

In addition, the electrode 120 is a component that performs the function of the common electrode to be in contact with the skin 10 so that the detection current is applied, made of a material with high electrical conductivity and the body case (through the electrode cable 422) 400 is electrically connected to and receives an appropriate detection current. In addition, the position of the skin contacting the electrode 120 on the subject's skin 10 is not fixed, but a round rod can be easily held in the subject's hand without the need for a separate fixing means such as a tape or a fixing strap. It is preferable that it is formed in a shape.

In addition, the probe rod 110 is a component for applying the probe current by contacting another position on the skin 10 to which the electrode rod 120 is in contact, and can be easily held in the probe's hand like a pen. It is preferable to be formed in a shape having, and the electrode 112, 113 in contact with the skin 10 is disposed at the end.

In more detail, the probe rod 110 has an outer shape, and at one side thereof, a probe rod case 111 to which an end of the probe rod cable 421 is fastened, and is mounted in the probe rod case 111 and is a probe rod. A variety of electronic components for operating the circuit 110 and the PCB 114 is electrically connected to the probe rod cable 421, and the other side of the probe rod case 111 in a state of rotationally connected with the PCB 114 Probe tip 112 in the form of a tip (tip) formed of an electrode material having a high electrical conductivity, and disposed on the side of the probe tip 112, is formed of an electrode material with a high electrical conductivity and the probe rod case 111 A probe roll 113 rotatably installed on the display panel, a display window 117 for displaying various data measured by being connected to the PCB 114, and an operation state or setting state of the detection control unit 200; Operation to operate It is provided, including a button (118).

Here, the probe roll 113 is rotated about the rotating shaft 116 from the other side to the probe rod case 111, is formed of a metal material with high electrical conductivity with the rotating shaft 116 and the rotating shaft 116 is the Since it is electrically connected to the PCB 114, the detection current can be applied through the circumferential surface of the probe roll 113 in contact with the skin 10 of the subject.

Therefore, the probe rod 110 is a probe tip 112 formed in the shape of a tip such as a needle shape when the skin area A to detect the transfer point is narrow or needs more accurate detection of the transfer point position as shown in FIG. 4. ) And the detection current can be applied by contacting the skin 10 with a point, and when the skin area A is wide or needs to be detected at an approximate transfer point position, a shape such as a rotating wheel is shown in FIG. 5. The probe roll 113 formed by the skin 10 is provided to measure the skin current value in a continuous form while applying a detection current by making a line (Line) contact or a surface (Area) contact with the skin 10.

In addition, the probe tip 112 is fixed to the inside of the probe rod case 111, as shown in Figure 3 is provided with an elastic member 115, such as a spring for pressing the probe tip 112 in a downward direction It is preferable that the top side can pressurize the skin 10 of the subject to be examined at a constant pressure. Although not shown in the drawing, an elastic member may be provided on the rotating shaft 116 of the probe roll 113 to buffer the probe roll 113 up and down, thereby placing the probe roll 113 on the skin 10. Of course, it may be provided to pressurize to a constant pressure.

As illustrated in FIG. 6, the skin region A refers to a region having a predetermined area to detect a transfer point on the subject's skin 10, and the skin position P is the skin region A. FIG. Means a position within the transfer point within the

The detection control unit 200 is a component for centrally controlling driving while storing various setting states of the transfer point detection system 100 and setting an operating state according to a preferred embodiment of the present invention. As the detection current is applied to the skin 10 through the detection current application unit 100 electrically connected to the measurement device 100, the skin current of the skin position P in contact with the detection rod 110 is measured.

Here, the detection control unit 200 measures the base current flowing on the skin 10 of the subject to be detected, and sets the measured base current value to an initial value (zeroing) of the skin current measurement. The skin current value of the skin position P at which 110 is contacted is measured, and the measured skin current data is controlled to be displayed on the screen window 311.

The basic current is a biocurrent of a subject to be detected, which means that the current is a biocurrent that can be changed depending on the surrounding electromagnetic waves depending on the environment in which the subject is located. That is, even if the basic current is the same subject to be detected, the magnitude of the current may be affected by the surrounding electromagnetic wave depending on the environment where the subject is located.

Therefore, in the transfer point detection system 100 according to a preferred embodiment of the present invention, the skin current value according to the basic current communicating on the subject's skin 10 before the transfer point of the subject is detected is '0'. By initializing to the state, it is possible to minimize the error in the detection of the transfer point by the basic current.

At this time, in measuring the basic current, the detection current having a plurality of preset frequencies from the frequency band (for example, 3kHz to 9.9kHz) in which the detection current can be smoothly energized to the human body is applied to the skin 10, respectively. You can initialize the basic current value measured for each frequency.

On the other hand, in general, the human body may vary in the magnitude of the frequency through which the current flows well according to the surrounding environment such as temperature, humidity and electromagnetic flows to the outside, and the body shape or skin state of the individual human body. Therefore, the detection control unit 200 according to a preferred embodiment of the present invention, by detecting the optimum frequency through which the current flows well for each subject as described above by setting the optimum frequency as the detection frequency for measuring skin current It is provided to detect the transfer point.

In more detail, in order to detect the detection frequency, after initializing a basic current value communicating on the skin 10 of the subject, the frequency of the detection current applied to the skin 10 is measured in the frequency band. The frequency having the largest skin current value may be set as the detection frequency according to the magnitude of the skin current value measured while changing therein.

In addition, in changing the frequency of the detection current within the frequency band, the frequency of the frequency is increased at a predetermined interval starting with the magnitude of the minimum frequency in the frequency band or starting at the magnitude of the maximum frequency. By reducing the magnitude, it is possible to change the frequency of the detection current. In addition, a method of changing to a plurality of predetermined frequencies preset in the frequency band may be used.

In addition, the detection control unit 200 may be provided with a database 210 for storing various data, such as measured or calculated data and a driving program for driving the transfer point detection system 100.

On the other hand, the detection control unit 200 is to transfer the probe to detect the skin position (P) having the largest skin current value measured by applying the detection current while contacting the probe rod 110 to the various skin position (P) of the subject. In this case, if the same criteria are applied to each subject to be fixed by simply fixing the determination point of the transfer point to be recognized as a transfer point, the difference in individual skin current values is not taken into account. May occur.

Accordingly, the detection control unit 200 according to the preferred embodiment of the present invention contacts the probe rod 110 with a plurality of skin positions P corresponding to the skin region A, thereby providing a skin position having the largest skin current value ( It is determined that P) is the transfer point to be detected, the average skin current value is calculated by summing the measured skin current values of the plurality of skin positions P, and then the transfer is performed based on the calculated average skin current value. It is provided to set the transfer point threshold value that is the criterion of the point.

Therefore, the skin current value for each skin position P is measured by contacting the probe rod 110 to the skin region A again and applying a detection current, wherein the measured skin current value is greater than the transfer point threshold value. High skin position (P) can be determined to be the transfer point.

Here, in setting the transfer point threshold value, a skin current value having a predetermined ratio (for example, 130%) larger than the calculated average skin current value may be set as the transfer point threshold value. At this time, the predetermined ratio is a factor for adjusting the resolution (Resolving Power) that can detect the transfer point of the transfer point detection system 100 according to a preferred embodiment of the present invention, if set low (for example 110%) Too many transfer points may be detected and when the predetermined ratio is set too high (for example, 150%), the transfer points may not be detected.

As described above, the transfer point threshold value, which is the judgment standard of the transfer point, is set based on the current value that increases a certain ratio to the average skin current value measured differently for each subject to be examined. This can solve the problem of error in point detection.

In addition, the detection control unit 200 may be mounted and mounted in a circuit configuration in the main body case 400. Here, the power switch 410 for selectively applying the driving power of the screen window 311, the speaker 320 and the transfer point detection system 100 to be described later may be mounted on the outside of the main body case 400.

As shown in FIG. 2, the display unit 300 is connected to the detection control unit 200 to display various setting states and measured data of the detection control unit 200 on the screen window 311. The display unit 310 displays various characters and images on the screen window 311, a driving method of the transfer point detection system 100, and a speaker 320 for outputting various settings and measurement states by voice or sound. It is provided by.

Here, FIG. 7 illustrates a screen example of the screen window 311 according to the preferred embodiment of the present invention. As shown in FIG. 7, a frequency, an average current value, and a measurement screen are displayed on the screen window 311, and the screen window 311 has previously stored measurement data when a transfer point is detected with different subjects. And a reset button 312 for deleting the setting items and measuring a basic current value flowing on the skin 10 of the new subject to be set as an initial value of skin current measurement for the detection of the transfer point, a frequency, an average current value, and The operation state display window 313 indicating the operation state of the current transfer point detection system 100, such as skin current measurement, and the operation button 118 mounted on the probe rod 110, An operation button 314 for operating the operation state and the setting state, a current display window 315 indicating a measured value of the basic current or skin current, a frequency display window 316 indicating the set optimum frequency, and It represents the waveform of the information data may be displayed, including a graphical display window 317.

Here, the initialization button 312 and the main body operation button 314 is the touch panel type of the screen window 311 is made of a touch panel is driven by the probe on the screen window 311 as the probe touches each button (312,314) Although illustrated as being a button, the present invention is not limited thereto, and is disposed on one side of the main body case 400 without being disposed on the screen window 311, and may be installed in the same form as a general push button to perform the same function. to be.

In addition, the speaker 320 outputs a separate notification sound (for example, '삑') when a predetermined data to be detected and detected is acquired in the process of detecting the detection frequency or detecting the transfer point. It is desirable to be provided to more easily identify the operating state of the point detection system 100.

In addition, the measurement data displayed on the screen window 311 is displayed on the display window 117 mounted on the probe bar 110 in the same manner, and the operation button 118 mounted on the probe bar 110 displays the screen window 311. In the same manner as the operation button 314 displayed in the) can be changed various setting state of the transfer point detection system 100, the subject to be detected without looking at the screen window 311 mounted to the main body case 400 The effect of changing the measured data and the setting state can be implemented while watching the skin 10 of the subject.

In addition, the skin current value measured while contacting the probe tip 112 or the probe roll 113 of the probe rod 110 to the skin 10 in a graph form through the screen window 311 as shown in FIG. While being displayed, when the probe rod 110 is pressurized to a constant pressure, approximately horizontal measurement data is displayed as shown in line 1, and the pressure for pressing the probe rod 110 to the skin 10 is not shown. Since the measurement data may be displayed in an irregular shape such as the second line, a beginner or an unfamiliar person who is not familiar with the operation of the probe rod 110 may re-measure by viewing the displayed measurement graph. Therefore, since a constant pressure is not applied, the measurement data can be prevented from occurring in advance.

Next, a transfer point detection method according to a preferred embodiment of the present invention will be described.

In the transfer point detection method according to a preferred embodiment of the present invention, the probe is connected to a different position on the subject's skin 10 and applied through a probe rod 110 and an electrode rod 120 to apply a probe current. As a detection method for detecting a transfer point by measuring skin current, as shown in FIG. 12, a basic current value measuring step (S210), an initial value of skin current setting step (S220), a detection frequency setting step (S230), and an average Skin current value calculation step (S240), the transfer point threshold value setting step (S250) and the transfer point detection step (S290) is provided.

First, the basic current value measuring step (S210) and the initial value of skin current setting step (S220) are driven to be ready, that is, the initial detection state to detect the transfer point of the new subject to be detected, as shown in FIG. As shown, by operating the reset button 312 displayed on the screen window 311, the basic current value measuring step (S210) and the measured basic current value to measure the basic current value flowing on the skin 10 of the subject The skin current initial value setting step (S220) of setting the initial value of skin current measurement for the transfer point detection may be controlled to be continuously operated.

In more detail, the basic current value measuring step (S210) may be performed by contacting the probe rod 110 and the electrode rod 120 with the skin 10 and applying a probe current to flow on the subject's skin 10. Measuring the basic current value, the skin current initial value setting step (S220) to be described later to the skin current value of the subject to be detected so as to initialize the skin current value according to the basic current and the surrounding electromagnetic wave Measure the base current, which depends on the effect.

Here, in measuring the basic current, the detection current having a plurality of preset frequencies from the frequency band (for example, 3 kHz to 9.9 kHz) in which the detection current can be smoothly energized to the human body is applied to the skin 10, respectively. By measuring the base current value measured for each frequency.

In addition, the skin current initial value setting step (S220) is a step of setting the basic current value measured through the above-described basic current value measuring step (S210) as the initial value of skin current measurement for the detection of the transfer point. Here, when the basic current value is measured for each frequency in the basic current value measuring step (S210), the measured basic current value may be initialized for each frequency.

The skin current value according to the basic current communicating on the skin 10 of the subject to be detected before the transfer point of the subject is detected through the basic current value measuring step S210 and the initial value of skin current setting step S220. By initializing the to '0' state it is possible to minimize the error in the detection of the transfer point by the base current.

In addition, in order to perform the basic current value measuring step (S210) and skin current initial value setting step (S220), the power switch of the main body case 400 of the transfer point detection system 100 according to a preferred embodiment of the present invention When the 410 is turned on to allow external power to be applied to the transfer point detection system 100, the driving point detection system 100 is driven and a driving screen is displayed on the screen window 311. While operating the main body operation button 314 displayed on the 311 to display "FIX (initialization)" on the operation status display window, the electrode 120 is held in the hand of the subject to be examined and the skin 10 When the detection rod 110 is contacted at a predetermined pressure to a position of the skin area A to be detected by the subject to be detected, and the detection rod is applied to the skin 10 while moving completely, The detection control unit 200 automatically The basic current value flowing on the skin 10 of the subject to be detected through the probe rod 110 and the electrode rod 120 is set, and the base current value measured for each frequency is set as an initial value of skin current measurement. .

In addition, the detection control unit 200 is a frequency setting screen on the screen window 311 so as to immediately perform the detection frequency setting step (S230) to be described later when the setting for the initial value of the skin current measurement described above is completed It is desirable to operate to display automatically.

Next, the detection frequency setting step (S230), the step of detecting the frequency of the relatively high current supply current of the preset frequency band on the skin 10 to set the detection frequency of the detection current, the current for each subject It detects the optimal frequency that works well and sets the optimum frequency as the detection frequency to measure the skin current so that the transfer point can be detected by the detection current with the set detection frequency.

In order to detect the detection frequency, the frequency having the largest skin current value among the measured skin current values is measured by measuring the magnitude of the skin current value for each frequency measured while changing the magnitude of the frequency within the preset frequency band. Set the detection frequency.

As shown in FIG. 9, when the operation state display window 313 is set to "frequency" and the probe rod 110 contacts the skin 10 and is slowly moved while pressing at a constant pressure, the probe controller 200 is moved. Is applied to the detection current while changing the magnitude of the frequency within a preset frequency band and operates to automatically set the frequency having the largest skin current value among the measured skin current values for each frequency as the detection frequency.

Next, the average skin current value calculating step (S240) is a step of calculating an average skin current value, which is basic data for setting the transfer point threshold value, and corresponds to the skin area A to detect the transfer point. Measuring the skin current value of each skin position (P) by applying the detection current set to the detection frequency by contacting the probe rod 110 for each of the plurality of skin positions (P). The average skin current value is calculated by summing each skin current value.

As shown in FIG. 11, the operation buttons 118 and 314 are operated to operate various skin positions P within the skin area A to detect the transfer point with the operation state display window 313 set to "average current." When contacting the probe rod 110 to a certain time and pressing a certain time, the detection control unit 200 measures the skin current value for each skin position (P), the skin measured by the skin position (P) when the measurement is complete The average skin current value can be calculated by summing the current values and dividing the sum by the number of skin positions P. FIG.

Next, the transfer point threshold setting step (S250) is a step of setting the transfer point threshold value for determining the transfer point, the average skin current value calculated through the above-described average skin current value calculation step (S240) The transfer point threshold value, which is a criterion for the transfer point, is determined based on the skin current value having a predetermined ratio greater than the average skin current value.

Here, the detection control unit 200 displays the average skin current value set through the average skin current value calculating step S240 and the transfer point threshold value set through the transfer point threshold setting step S250 as shown in FIG. 12. Displayed on the graph display window 317 of (311), respectively, the magnitude of the skin current value for each skin position (P) measured in the transfer point detection step (S290) to be described later easily with the average skin current value and the transfer point threshold value. It is preferable to be provided to be able to compare.

Next, the transfer point detection step (S290) is a step of detecting the transfer point in the skin area (A), by contacting the probe rod 110 to the skin area (A) again by applying a detection current to each The skin current value is measured for each skin position (P ₁ , P ₂ , P ₃ , P ₄ , P ₅ : see FIG. 11), but the measured skin current value is higher than the transfer point threshold value. Judging by it.

Here, when the operation state display window 313 is set to "measurement" by operating the operation buttons 118 and 314, the detection control unit 200, as shown in Figure 12 the detection rod 110 is a new skin position (P) Whenever a new skin current value is measured while contacting the skin current value can be accumulated and displayed on the graph display window 317, the probe rod 110 is measured at the current skin position (P) When the skin current value is greater than the transfer point threshold value, it is preferable that the position of the transfer point is more clearly identified by notifying the prober through the speaker 320.

By the respective configurations and functions of the transfer point detection system 100 and the transfer point detection method according to the preferred embodiment of the present invention as described above, the biocurrent and the target subject to communicate on the skin 10 of the subject are located. In consideration of the influence of electromagnetic waves in the surrounding area, the skin current value communicated on the subject's skin 10 may be initialized before the detection point detection, and the skin current value for the detection point detection may be measured to minimize the detection error at the transfer point. However, there is no restriction on the location of the transfer point.

That is, even when the patient to be probed is lying on the object generating electromagnetic waves, such as an electric blanket and a hot bed, it is possible to detect an accurate transfer point without being affected by the electromagnetic waves.

In addition, the average current value is calculated by summing the skin current values measured for each individual, and the skin current value having a certain ratio higher than the average current value is set as the transfer point threshold value. The detection error of the transfer point due to the difference can be minimized.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

10 ... skin 100 ... detection current
110.Probe rod 111.Probe rod case
112 Probe tip 113 Probe roll
117 ... Display window 118,314 ...
200 ... detection controller 210 ... database
300 Display unit 310 Display unit
320 ... speaker 400 ... body case
410 Power button 421 Probe bar cable
422 ... electrode cable
S210 ... Basic current value measurement step S220 ... Skin current initial value setting step
S230 ... Detection frequency setting step S240 ... Average skin current value calculation step
S250 ... Transfer Point Threshold Setting Step S260 ... Transfer Point Detection Step (S260)

Claims (3)

A probe current applying unit 100 including a probe rod 110 and an electrode rod 120 that apply a probe current to each other at different positions on the skin 10 of the subject;
The detection control unit 200 is electrically connected to the detection current applying unit 100 and measures the skin current at the skin position P at which the detection rod 110 is contacted as the detection current is applied to the skin 10. ; And
And a display unit 300 connected to the detection control unit 200 and displaying various setting states and measured data on the screen window 311.
The detection control unit 200 measures a base current value flowing on the skin 10 of the subject to be detected, sets the measured base current value as an initial value of the skin current measurement, and advances on the skin 10 in advance. Detects a frequency having a relatively high current carrying amount among the set frequency bands, sets the detection frequency of the detection current, and allows the detection current to be applied through the detection rod 110 at the set detection frequency to contact the detection rod 110. The transfer point, characterized in that for measuring the skin current value of the cut skin position (P), the control point so that the measured skin current value and the transfer point threshold value, which is the determination criteria of the transfer point, are displayed on the screen window 311. Detection system.
Transfer point detection method for detecting the transfer point by measuring the skin current of the subject through a probe rod 110 and an electrode rod 120 connected to different positions on the skin 10 of the subject and applying a detection current To
A detection frequency setting step (S230) of detecting a frequency having a relatively high current carrying amount among preset frequency bands on the skin (10) and setting the detection frequency of the detection current;
By contacting the probe rod 110 for each of the plurality of skin positions (P) corresponding to the skin area (A) to detect the transfer point, by applying a detection current set to the detection frequency for each skin position (P) An average skin current value calculating step (S240) of measuring a skin current value and calculating an average skin current value by summing the measured skin current values for each skin position P;
A transfer point threshold setting step (S250) of setting a transfer point threshold value, which is a determination standard of the transfer point, based on the calculated average skin current value; And
While contacting the probe rod 110 to the skin region A again, a detection current is applied to measure skin current value for each skin position P, wherein the measured skin current value is higher than the transfer point threshold value. Transfer point detection method comprising: a transfer point detection step (S260) to determine the position (P) as the transfer point.
3. The method of claim 2,
A basic current value measuring step (S210) of contacting the probe rod 110 and the electrode rod 120 with the skin 10 and applying a probe current to measure a base current value flowing on the skin 10 of the subject; And
Skin current initial value setting step of setting the measured basic current value to the initial value of the skin current measurement (S220); further includes,
The detection frequency setting step (S230), the detection point detection method, characterized in that for detecting the detection frequency by reflecting the initial value of the skin current measurement set through the skin current initial value setting step (S220).

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