JP2008100032A - Pulse measuring device - Google Patents

Abstract

A fingertip crown-type pulse measuring device is provided.
A pulse measuring device measures a pulse signal of a receiver by installing a pulse sensor in a finger bag and fixing the finger bag on a doctor's finger. During the surveying process, the doctor applies pressure accurately using the finger contact pressure method, senses the pulse waveform and amplitude of the testee, and controls the localization and pressure of the pulse sensor to improve the accuracy of the survey result. . The pulse signal can be transmitted to a data processor for analysis and filing so that the physician can obtain the necessary pulse data at the same time.
[Selection] Figure 1

Description

  The present invention relates to a pulse measurement device, and more particularly to a pulse measurement device that is attached to the fingertip of a practitioner when taking a pulse to improve the accuracy of pulse diagnosis.

  A pulse measuring device is a device that surveys the state of Chu-medicine using scientific methods, that is, taking a pulse, and the heart-rate of Chu-medicine can only be roughly described in text (this type of description is often found in old books). This is an image display with no actual condition), and research is currently being conducted on how Western medicine and Chinese medicine should be scientifically converted, embodied, imaged, and converted into data.

  The pulse measuring devices on the market usually employ pressure sensors, fix the pulse measuring device to the patient's arm, set the parameters such as pressure and time, and then the pulse measuring device will automatically measure A pulse signal is acquired, and the obtained pulse signal is transmitted to a computer for analysis. However, the doctor cannot take the patient's pulse and at the same time compare it with the data and waveforms on the computer to determine the characteristics of the patient's illness and accurately prescribe it. Furthermore, the surveying of the two does not proceed at the same time, and there is a slight difference in the pressure. Therefore, there is a possibility that the images measured by the two may cause a large difference, and the accuracy is questionable.

  The pulse position of each patient is different, and a general pulse measurement device uses a gas-type pulse pressure bag, and the signal to be measured is a mixed wave (dimension scale), so that the surveyor can obtain the exact signal that the surveyor needs. I can't. When the signal is inaccurate, the position needs to be readjusted, and it takes time to wear, and the signals cannot be grasped at the same time. Furthermore, the pressure applied by the pulse measuring device is very important when measuring the pulse, and corresponds to the bias voltage applied during the electrical survey of the photoelectric element. A doctor's pulse is obtained by applying different pressures from the fingertips to obtain different images, and most of the general pressure type pulse measuring devices have only one pressure sensor, so the information obtained can also be mixed waves ( It cannot be compared with the waveforms at three different positions of the pulse taken by the doctor. Therefore, the usage rate of inconvenient and high probability of inferiority is reduced, and many are used in places where traditional therapy is performed.

  The present invention provides a fingertip-mounted pulse measuring device, which is used by being attached to a doctor's finger, unlike a general pulse measuring device, so that the measurement of the pulse sensor and the pulse of the doctor can proceed at the same time. The purpose is to immediately adjust the pulse sensor to the appropriate position and the appropriate pressure to perform surveying, and to improve the accuracy significantly.

  The present invention provides a fingertip-mounted pulse measuring device, which is convenient and highly accurate, saves wearing time, has a plurality of pulse sensors, and is localized with respect to a plurality of different positions. Another object is to measure a plurality of independent waveforms and obtain pulse data required by a doctor.

  In order to achieve the above-mentioned object, the fingertip crown-type pulse measuring device of the present invention has a pulse sensor installed in one or several finger bags, and the finger bags are mounted on a doctor's finger, The necessary parts and pressure are adjusted according to the different positions of different patient's dimension, and the pulse vibration is transmitted to the doctor's finger by the pulse sensor, and the transmission device transmits the exact dimension. The pulse signal of the scale is transmitted to the data processor at the same time, and the doctor obtains the pulse pattern of the patient and displays it on the data processor at the same time.

  The fingertip coronary pulse measuring device of the present invention greatly reduces diagnostic errors, avoids medical errors, is also useful for scientific research, and increases accuracy and convenience.

1 and 2 are a front view and a rear view, respectively, of a fingertip-mounted pulse measuring device provided by an embodiment of the present invention.
In the present embodiment, three finger bags 10 are manufactured, and a doctor attaches to his / her fingertip 20.
The lower edge of the finger pouch 10 is an adjustable material that fits different finger sizes.
Each of the three thin film pressure sensors is embedded in the three finger bags 10, and the pulse sensor 30 (FIG. 2) is fixed. Then, pressure is applied, a pulse signal is acquired by pulse vibration, and the measured pulse signal is transmitted to the data processor 50 by the transmission device 40 and analyzed as pulse data.

The above-described transmission device 40 is connected to the terminal of the pulse sensor 30 by a wireless or wired transmission device such as an infrared ray, Bluetooth (registered trademark), a connector, or the like, and a pulse signal is input into the data processor 50 depending on the situation. To transmit.
As shown in FIG. 3, the finger bag 10 further includes a power supply device 60 that supplies power to the pulse sensor 30 with, for example, a lithium rechargeable battery or other types of batteries. The USB transmission and the charging device simultaneously transmit the pulse signal and charge the power supply device 60. Of course, another power supply device 41 may be used to charge the power supply device 60 (see FIG. 4). The power supply device 60 is a USB charging device or another type of power supply device.
The data processor 50 is a large database and has at least a memory unit 51 and an arithmetic unit 52, and survey results are simultaneously recorded from the memory unit 51, and pulse signals measured at different times and dates are recorded immediately. The calculation unit 52 performs statistical analysis or calculation such as Fourier transform on the pulse signal stored in the memory unit 51, and the state indication unit 53 converts the pulse data into a heart rate (HR) code, a number, The operation of the fingertip-mounted pulse measuring device is completed by simultaneously displaying characters or pulse waveforms.

  The pulse signal of the pulse sensor 30 is directly controlled by a control unit provided on the data processor 50 in practice using a separate controller. FIG. 4 shows an embodiment of a fingertip-mounted pulse measuring device having a controller according to the present invention. The controller 70 is connected to the pulse sensor 30 and controls the pulse measurement of the pulse sensor 30, for example, the start of the pulse measurement, The pulse signal is acquired by pause or stop. The controller 70 of this embodiment is a wristwatch type and is convenient for portable use.

  FIG. 5 is a diagram showing an embodiment of a pulse sensor having a temperature sensor of the present invention, and further has a sensitive or contact temperature sensor 80 for measuring the body temperature and room temperature of the receiver. The controller 90 connected to the pulse sensor 30 and the temperature sensor 80 is installed, and a plurality of multi-function buttons 91 on the controller 90 are operated to select a pulse survey or a temperature survey, and the pulse sensor 30 The pulse signal of the temperature sensor 80 and the acquisition of the temperature signal are controlled.

  As described above, the fingertip crown type pulse measuring device provided by the present invention can adjust a necessary part and pressure according to different positions of different patient's scales, and pulse vibration can be controlled by a pulse sensor. It is directly transmitted to the doctor's finger and transmitted by the transmission device, and the pulse signal of the precise scale is simultaneously transmitted to the data processor for analysis processing. In other words, the pulse sensor survey and the doctor's pulse are simultaneously performed. At the same time as the doctor takes the pulse, the pulse sensor is immediately adjusted to the appropriate position and the appropriate operation to execute the survey. Can simultaneously analyze and display the patient's pulse, thus increasing the accuracy and convenience of the pulse measuring device.

  According to the present invention, a scientific finger-tip-type pulse measuring device can display the phenotypes felt by a doctor at the same time. The scientific method allows the patient to understand the medical condition, and the patient's pulse is stored, Can be used to record and study the disease, and can provide evidence of disease improvement. In addition, this pulse measuring device is not only convenient and accurate, but also greatly reduces diagnostic errors, avoids medical errors, and reduces wearing time, greatly increasing scientific accuracy and comfort during interviews. To improve. A position waveform desired by a doctor can be obtained by a pulse measuring device having a plurality of pulse sensors. Further, the structure of the pulse measuring device of the present invention is simple, novel and low cost. Therefore, the present invention is adopted by many medical doctors.

1 is a front view of a fingertip crown type pulse measuring device provided by an embodiment of the present invention. 1 is a rear view of a fingertip crown-mounted pulse measuring device provided by an embodiment of the present invention. 1 is a structural diagram of a fingertip crown type pulse measuring device provided by an embodiment of the present invention. It is an Example figure of the fingertip crown type pulse measuring device which has a controller of this invention. It is an Example figure of the fingertip crown type pulse measuring device which has the temperature sensor of this invention.

Explanation of symbols

10 finger bags 20 fingers
30 Pulse sensor 40 Transmission device 41 Charging device 50 Data processor 51 Storage unit 52 Arithmetic unit 53 Status indication unit 60 Power supply device 70 Controller 80 Temperature sensor 90 Controller 91 Function button

Claims (16)

A pulse measuring device,
At least one finger bag fixed to the fingertip, having a pulse sensor, performing pulse measurement on the receiver, and acquiring the pulse signal of the receiver;
A transmission device connected to the pulse sensor for receiving and transmitting the pulse signal of the receiver;
A data processor connected to the transmission device, analyzing based on the pulse signal of the testee, and generating pulse data;
A pulse measuring device comprising: 2. The pulse measuring device according to claim 1, wherein the pulse sensor is a thin film pressure sensor. The pulse measuring device according to claim 1, wherein there are a plurality of finger bags. The pulse measuring device according to claim 1, wherein the transmission device is a wired or wireless transmission device. The pulse measuring apparatus according to claim 1, further comprising a controller connected to the pulse sensor and controlling a pulse measurement of the pulse sensor. The pulse measuring device according to claim 5, wherein the controller is of a wrist watch type. The pulse measuring apparatus according to claim 1, wherein the data processor is provided with a state indicating unit and displays a surveying state of the pulse signal. The pulse measurement device according to claim 7, wherein the surveying state displays the measured pulse signal by a heart rate (HR) code, a number, a character, or a pulse waveform. The pulse measurement device according to claim 1, wherein the finger bag has a power supply device and supplies power to the pulse sensor. The pulse measuring device according to claim 9, wherein the power supply device is a lithium rechargeable battery. 10. The pulse measuring device according to claim 9, wherein the transmission device is a USB transmission and charging device, transmits a pulse signal of the receiver, and charges the power supply device. The pulse measuring device according to claim 9, further comprising a USB charging device and charging the power supply device. The pulse measuring device according to claim 1, wherein the finger bag has a temperature sensor and measures the body temperature and room temperature of the recipient. The pulse measuring device according to claim 13, wherein the temperature sensor is a sensitive type or a contact type. A controller connected to the pulse sensor; controls a pulse survey of the pulse sensor and a temperature survey of the temperature sensor; and the controller has a plurality of function buttons for selecting a pulse survey and a temperature survey. The pulse measuring device according to claim 13, which is convenient. 2. The pulse measuring device according to claim 1, wherein the data processor has a memory unit and stores pulse signals measured at different times and dates.

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