KR20060095638A - 8 constitution diagnostic sensor device with multi-layer structure to prevent signal interference - Google Patents

Abstract

This invention uses the cover of multi-layered non-metallic insulation material on the upper and lower part of the sensor of the 8 constitution diagnostic pulser to reduce the condenser phenomenon between the sensor and the skin of the human body, thereby reducing the signal noise and increasing the adhesion to the human skin. Multi-layer for stable signal extraction, while the three pressure sensors are independently fixed to the air pressure bar to reduce interference between each sensor and facilitate independent signal extraction for each sensor. An object of the present invention is to provide a sensor device for diagnosing 8 constitutions.

In order to achieve the above object, the multi-layered 8-constitution diagnostic sensor device for preventing signal interference according to the present invention is to measure the pulse wave generated at the various parts of the blood vessels as a result of repeating the contraction and relaxation of the heart. The pulsator is used to measure the shape and intensity of the freezing wave. The pulsator is used to measure the pulsating wave from the pulsations located on the subject's wrist. In the 8 constitution diagnostic sensor device, wherein the sensor device is laminated on the upper and lower parts using a cover of a non-metallic insulating material, and the lower part is independently fixed to the air pressure bar, respectively, the signal interference prevention Provided is a multi-layered 8-constitution diagnostic sensor device for.

Description

Multi-layered sensor for 8-type constitution determination with least signal interference}

Figure 1 shows three pulse points located on the wrist of the subject measuring the pulse wave for 8 constitution determination,

Figure 2 shows a conventional pulsator,

Figure 3 shows a cross-section around the sensor pressure to measure the pulsating wave in the pulsator of Figure 2,

4 illustrates an example of a pulsation wave measured from the sensor of FIG. 2,

FIG. 5 illustrates a pulsator in which a multi-layered constitution diagnostic sensor device for preventing signal interference according to an embodiment of the present invention is installed.

FIG. 6 is a cross-sectional view of a multi-layered 8-constitution diagnostic sensor device for preventing signal interference of FIG. 5;

FIG. 7 illustrates an example of a pulsation wave measured from a multi-layered 8 constitution diagnostic sensor device for preventing signal interference of FIG. 6.

<Brief description of symbols for the main parts of the drawings>

110: air pressure bar

111, 112, 113: Pressure sensor

111 ', 112', 113 ': sensor top cover

, 112

, 113

: 센서 하부 커버111

, 112

, 113

: Sensor lower cover

114: sensor support

120: main body

121: pneumatic device

122: key input unit

123: display unit

131: pneumatic pipe

132 signal line

The present invention relates to a sensor device of an 8-diagnosis diaphragm, and more particularly, three sensor devices, each of which is laminated using a cover of a non-metallic insulating material on the upper and lower parts of the 8-diagnostic diaphragm, are independent of the air pressure bar. The present invention relates to a sensor device of a multi-structure diaphragm diagnosing device having a multilayer structure to prevent signal interference by attaching and fixing it.

In general, the pulse wave information generated in relation to the operation of the heart is measured not only in veterinary medicine, but also in veterinary medicine, which measures pulse and blood pressure by measuring the frequency and intensity of the pulse wave and uses it as essential information for diagnosis and treatment of patients. Diagnose morphology and characteristics of the pulsating waves to determine the presence of abnormalities or symptoms of the disease, and measure the pulsating waves appearing in specific parts of the body to further classify the patient's constitution into 8 constitutions. I use it.

The 8-constitution examination method using such pulse wave information detects the constitution of the examinee by the pulsation of the examinee, and detects the pulse by facilitating the three fingers of the examinee from the right and left wrists of the examinee. Will be done.

Specifically, if a pulse is detected at the middle finger portion of the right wrist and a pulse is detected at the fourth finger portion of the left wrist, a pulse is detected at the second finger of the right wrist and at the fourth finger of the left wrist. HESPERA is detected when the pulse is detected, and soil is detected when the pulse is detected in the middle finger of the right wrist and the second finger of the left wrist. The second and fourth of the middle finger of the right wrist and the left wrist are detected. If a pulse is detected at the fingertips, it is the SATURNA, the middle and fourth fingers of the right wrist, and if a pulse is present across the second and middle fingers of the left wrist, the JUPITO, the middle and fourth of the right wrist. When the pulse is detected across the fingers and across the middle of the left wrist and the fourth finger, JUPITA, right MERCURIO if a pulse is present across the second and fourth fingers of the wrist, and if a pulse is detected on the fourth and left fingers of the right wrist, the sounder (MERCURIA) It is roughly divided into.

As such, in order to classify the patient's constitution into eight constitutions by measuring the pulse wave, a method of measuring the pulse wave appearing at three pulse points near the radial artery of the patient is generally used.

That is, as the examiner uses a finger, as shown in FIG. 1, a method of oscillating three pulsating waves using three pulse points of a village, a tube, and a chuck is often used. Measuring instruments have been developed and used, and these instruments are called pulses.

The pulsator is a device for measuring the pressure wave, ie, the pulsation wave, which appears in various parts of blood vessels as a result of contraction and relaxation of the heart, and visually showing it. As shown in FIG. 2, the air compression zone 110 and , The main body 120.

The air pressure zone 110 is provided with a sensor that directly measures the pressure applied to the radial artery, and outputs a signal, which is a measurement site designated by Chinese medicine in 8 constitution discriminating the constitution of the patient based on the 8 constitution theory Since the pulsation wave measurement is performed at the same time on the details of the village, the pipe, and the chuck, the three pressure-sensitive sensors 111, 112, and 113 for determining the constitution are usually installed on the air pressure stand 110 through the sensor support 114. By using the air compression stand 110 in close contact with the radial artery portion.

That is, the blood pressure sensors 111, 112, and 113 in close contact with the three parts of the village, the pipe, and the chuck measure pulsation waves for each part, and through the three signal lines 132, as shown in FIG. As a separate signal, it is output to the pulse generator main body 120.

The main body 120 has a pneumatic device 121 for pressurizing the air inside the air pressure table 110 through the pneumatic tube 131, a signal processor (not shown), a key input unit 122, The display unit 123 is included.

The most important part of the pulsator is the three blood pressure sensor 111, which is one of the input devices for measuring the pulsation wave described above in the blood vessel so that the shape and intensity of the pulsation wave can be visually measured by the diagnosis apparatus through an electronic device. , 112, 113).

However, since the measurement of the pulsating wave requires very sophisticated signal measurement, accurate pulsating wave measurement is first of all in order to allow the pulsator to obtain a correct measurement result.

To this end, the three pressure sensors of the conventional 8 constitution diagnosing diaphragm attach a sensor support 114 made of a non-metallic material, such as metal or plastic, to the air presser 110 as shown in FIG. Here, the three blood pressure sensors 111, 112, and 113 are fixedly installed at regular intervals.

The air presser 110 is made of the same or similar form and material and structure as the presser used in the conventional blood pressure monitor, when the air is pressurized through the air presser 110, the air presser 110 is inflated As it rises, the blood pressure sensors 111, 112, and 113 on the sensor support 114 are in direct contact with the skin where the radial artery is located to measure the pressure signal.

However, the following problems occur in the conventional 8 constitution diagnostic pulsator measuring the pulse wave.

First, since the blood pressure sensors made of metal material directly contact the skin of the human body to measure the pressure signal of the pulsating wave, the leakage current of the human body flowing over the skin of the human body flows into the pressure sensor and merges with the pressure sensor signal.

In order to prevent this phenomenon, the surface of the blood pressure sensor is coated with a medium having non-conductive properties, but due to the thin coating process, a condenser effect is caused between the pressure sensor and the skin of the human body, so that the pass current due to the electrostatic phenomenon Will be generated.

In addition, the pressure sensor is molded with a metal pressure sensor cover (Can) to prevent the above-mentioned condenser effect, but the metal cover reduces the sensitivity of the pressure sensor to limit the precise measurement. Will be imported.

That is, the three blood pressure sensors are devices that are in direct contact with the skin of the examinee, and should be in close contact with the radial artery under the skin as much as possible, noise is generated by the human body current between the skin and the sensor, and occurs between the skin and the sensor device. Due to the electrical noise generated by the electrostatic phenomenon (condenser phenomenon), the pulse wave signal is interfered, making it difficult to extract accurate pulse wave data.

Next, in order to distribute the initial pressure applied through the air pressure bar 11 evenly among the three pressure sensors, as shown in Figure 3, the sensor support made of a non-metallic material such as metal or plastic ( 114) Since the three pressure sensors are fixedly attached, the pulse wave shock applied to one pressure sensor is transmitted to the other pressure sensor through the sensor support 114 to be mixed with the original sensor signal, resulting in distortion of the original signal. This prevents each pressure sensor from generating its pulse wave correctly.

Due to the signal interference generated by these three blood pressure sensors, the 8 constitution diagnostic pulsator is used only as a medical aid such as the presence or absence of a pulsating wave. The situation is not received.

Therefore, since the measurement of the pulsating wave requires a very precise signal measurement, the measurement of the pulsating wave must be a priority in order for the pulsator to derive the correct measurement result. As a cause of interference between signals detected during measurement, the mutual signal interference caused by three pressure sensors are integrally attached to the sensor support, and since the pressure sensor itself directly contacts the human body, a leakage signal is generated. Or it is necessary to eliminate the signal interference generated between the sensor and the human body.

The present invention has been made to solve the above problems of the prior art, by using a cover of a multi-layered non-metallic insulating material on the top and bottom of the sensor of the 8 constitution diagnostic pulser to reduce the condenser phenomenon between the sensor and the human skin signal While reducing noise, it improves the adhesion to human skin to enable more accurate and stable extraction of pulsating wave signals.In addition, each of the three blood pressure sensors is fixedly attached to an air pressure bar to reduce interference between each sensor and for each sensor. An object of the present invention is to provide a multi-layered constitution diagnostic sensor device for preventing signal interference to facilitate independent signal extraction.

In order to achieve the above object, the multi-layered 8-constitution diagnostic sensor device for preventing signal interference according to the present invention is to measure the pulse wave generated at the various parts of the blood vessels as a result of repeating the contraction and relaxation of the heart. In the pulsator, which is used to visually measure the shape and intensity of the freezing wave, the pulsating wave is installed in an air pressure bar configured to be wound around the subject's wrist to collect pulsating waves from a plurality of pulse points located on the subject's wrist. In the 8 constitution diagnosing sensor device for measuring, the sensor device is laminated on the upper and lower parts using a cover of a non-metallic insulating material, and the lower part of the signal interference, characterized in that fixed to each of the air pressure stand and installed independently Provided is a multi-layered 8-constitution diagnostic sensor device for prevention.

Preferably, the sensor top cover may be laminated with a plastic of polyester or polypropylene to 2 to 5 mm.

Hereinafter, with reference to the accompanying drawings will be described in detail the multi-layer diagnosing sensor device for preventing signal interference according to an embodiment of the present invention in detail.

FIG. 5 illustrates a pulsator in which a multi-layered 8-constitution sensor apparatus for preventing signal interference according to an embodiment of the present invention is installed, and FIG. 6 is a multi-layered 8-structured diagnostic sensor apparatus for preventing signal interference in FIG. 5. 7 illustrates an example of a circumferential cross section, and FIG. 7 illustrates an example of a pulsation wave measured from a multi-layered constitution diagnostic sensor device for preventing signal interference of FIG. 6.

8 constitution diagnostic sensor device having a multi-layer structure for preventing signal interference according to an embodiment of the present invention is the same as the sensor device of the conventional 8 constitution diagnostic pulse generator described with reference to FIGS. 2 to 4, except that the sensor support 114 There is a difference in the structure of the three pressure sensor (111, 112, 113) of the presence or absence of, and the description of the content of the same parts as described above will be mainly described for the different parts.

That is, to solve the two problems of the sensor device used in the conventional air conduit 110 and the conventional diaphragm diagnosing diaphragm divided into the main body 120, the three pressure sensors 111, 112 which are the most important components. 113, there is a characteristic part of this invention in the structure and attachment fixation form.

, 112

, 113

)를 부착하고, 상부에는 2~5㎜ 바람직하게는 3㎜ 이상의 두꺼운 폴리에스테르 또는 폴리프로필렌 소재로 이루어진 센서 상부 커버(111', 112', 113')들을 부착한 다층 센서 구조를 채용함으로써 계측 대상인 피부에 센서 상부 커버(111', 112', 113')들을 위치시켜 충분하게 밀착시킨 상태에서 절연성을 향상시키고 콘덴서 효과를 최소화한 다.First, as a feature in terms of the structure of the three pressure sensor (111, 112, 113), the sensor lower cover 111 made of an elastic material under the pressure sensor

, 112

, 113

) And a multi-layered sensor structure attached to the upper part of the sensor upper covers 111 ', 112', and 113 'made of a thick polyester or polypropylene material of 2 to 5 mm, preferably 3 mm or more. Sensor top covers 111 ′, 112 ′ and 113 ′ are placed on the skin to improve insulation and minimize condenser effects in close contact.

, 112

, 113

)를 고정 부착시켜 피압센서들 상호 간의 신호 독립성을 향상시킨다.Next, as a feature on the side of the attachment fixing form of the three pressure sensors 111, 112, 113, the sensor lower cover 111 is directly removed from the air support 110 by removing the sensor support 114.

, 112

, 113

) To improve the signal independence between the pressure sensors.

That is, as shown in the cross-sectional structure of the multi-layer sensor of FIG. 6, when a cover made of a plastic material having insulation properties is attached to the upper and lower pressure sensors of a metal material, the air pressure bar ( While the pressure from 110 is sufficiently transmitted, the gap between the skin and the sensor is widened. Therefore, the capacitor phenomenon is reduced by the principle that the electrostatic effect of the capacitor is inversely proportional to the square of the distance between the two electrodes.

In addition, since the height of the sensor upper covers 111 ′, 112 ′ and 113 ′ is sufficient, there is no need to increase the adhesion to the skin using the sensor support 114, so that the multilayer sensors are separately provided with an air compression stand. Since it can be attached to 110, it is possible to prevent the inflow of neighboring sensor signals through the sensor support 114, it is possible to improve the independence of the pulsating wave signal compared to the conventional sensor device.

As shown in FIGS. 4 and 7, these effects are different from the pulse wave measured using a conventional sensor device and the pulse wave measured using a multi-layered sensor device according to an embodiment of the present invention. It can confirm from the thing.

That is, when comparing the signals of the sensor 2 of FIGS. 4 and 7 by way of example, in the same measurement pattern, the signals are continuously displayed from the beginning despite the fact that they are mixed with other sensor signals in FIG. 4 and actually weak. In Figure 7, it can be seen that the signal of sensor 2 appears regardless of other signals.

In addition, the waveform of FIG. 7 shows a more typical pulsation waveform than that of FIG. 4, which means that the multilayer sensor device of the present invention has a higher grounding force than the conventional sensor device, and the signal distortion due to leakage current and noise. It can be said that it shows well this little.

In addition, the multi-layer diaphragm diagnosing sensor device for preventing signal interference according to an embodiment of the present invention is to replace the conventional diaphragm diaphragm sensor device, and other than the sensor signal line and pneumatic tube between the sensor device and the pulse diaphragm. There is no connection, and the multi-layer sensor device according to the embodiment of the present invention can be manufactured and used with the same signal line and pneumatic pipe connection structure as the conventional sensor device because there is no principle difference from the conventional sensor device in connection with a pulse generator. It is used in the same way as a conventional sensor device.

This invention is not limited to the above embodiments, various modifications are possible within the scope of the invention described in the claims, and such modifications are also included within the scope of the invention.

As described in detail above, according to the multi-layer 8 constitution diagnosing sensor device for preventing signal interference of the present invention, a cover made of a non-metallic material on the upper and lower parts of the pressure sensor for measuring the pulsating wave in the 8 constitution diaphragm By laminating using the upper part and fixedly installed at the lower part of the air pressure bar, the pressure sensors are sufficiently adhered to each other without directly contacting the skin of the human body during pulse wave measurement, thereby reducing mutual influence between adjacent sensors, The more accurate and stable pulse wave signal can be extracted due to the reduction of noise caused by the skin condition and the increase of the grip power. As a diagnostic device, the utilization of the pulse generator is improved.

Claims (2)

The pulse wave generated as a result of repeating the contraction and relaxation of the heart is measured at various parts of the blood vessels, so that the shape and intensity of the pulse wave can be visually measured by the analyzer. In the 8 constitution diagnostic sensor device installed in the air pressure bar composed of a wound structure to measure the pulsating waves from a plurality of pulse points located on the wrist of the subject, The sensor device is a multi-layer 8 constitution diagnostic sensor for preventing signal interference, characterized in that the upper and lower laminated using a cover of a non-metallic insulating material, and the lower portion is fixedly attached to the air pressure stand, respectively. Device. The method of claim 1, The sensor upper cover is a multi-layered diaphragm sensor device for preventing signal interference, characterized in that the plastic of polyester or polypropylene material laminated in 2 ~ 5mm.

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