KR20090061237A - Apparatus for measuring pulse - Google Patents

Abstract

A device for measuring a pulse is provided to control sensitivity of a sensor part by interposing an elastic member between a body of user and the sensor part. A device for measuring a pulse includes a band(12), a sensor part(20), an elastic member(70), and an inner side cover(54). The band is attached to a body of user. The sensor part is coupled in the band. The sensor part converts a pulse of the user into an electrical signal. The sensor part is a piezo sensor. The inner side cover is installed in an inner surface of the band in order to protect the sensor part. The inner side cover has an opening part(55). One surface of the elastic member is contacted with the sensor part. A protrusion part is formed in the other surface of the elastic member. The protrusion part is contacted with a body of the user through the opening part of the inner side cover. The elastic member delivers the pulse of the user to the sensor part. The elastic member is made of rubber.

Description

Pulse meter {Apparatus for measuring pulse}

The present invention relates to a pulse rate meter, and more particularly to a pulse rate meter that can adjust the sensitivity of the pulse transmitted to the sensor using the elastic member.

Pulse is one of the most important medical factors as a criterion for judging a person's health. Traditionally, in order to measure the pulse, the method of diagnosing the vibration of blood flowing through the artery of the patient's wrist with the touch has been used, but in this case, there is a risk of error, and the state of the pulse according to the doctor's own experience or knowledge There was a problem that may not be diagnosed correctly.

In order to improve the problems caused by the doctor's direct hand method, a pulse meter for measuring a patient's pulse using a sensor has been developed. In the early days, the pulse meter was able to measure the pulse not only when the user is not moving but also when there is a slight movement, but there is a problem that it is inconvenient to carry. It was very difficult to measure. Since then, the technology of ECG, laser and pressure sensor has been developed, so that the sensor can be attached to the user's body to measure the pulse easily and accurately during exercise or daily life.

However, the conventional pulse meter is installed in such a way that the sensor that detects the pulse and converts it into an electrical signal and outputs it, in direct contact with a part of the user's body. In the case of direct contact as described above, the use of a sensor having excellent sensitivity can measure the vibration of the pulse precisely, but the unwanted signal (noise) can be converted into the vibration of the pulse, such as an external shock. There is a problem of detecting this by mistake.

In addition, since the sensor unit is too large and the power consumption is too high, there are many difficulties in configuring the portable device, and there are many inconveniences to use the portable device due to the additional devices between the sensor unit and the output device.

The present invention simplifies the device by eliminating ancillary devices connected to the sensor unit, and adjusts the sensitivity of the sensor unit through an elastic member between the user's body and the sensor unit, thereby effectively removing noise from outside and measuring It is an object of the present invention to provide a pulse measuring device having an improved structure so that the pulse can be efficiently transmitted to the sensor unit side.

In order to achieve the above object, the pulse measuring apparatus of the present invention includes a pulse measuring apparatus for measuring a pulse generated by blood flowing through an artery of a user, a band wound around a user's body; A sensor unit coupled to the band and configured to detect a pulse of a user and convert the same into an electrical signal and output the electrical signal; One side is in contact with the sensor unit and the other side is in contact with the user's body, the elastic member for transmitting the user's pulse to the sensor unit; characterized in that it comprises a.

In the pulse measuring apparatus according to the present invention, preferably, the sensor unit is a piezo sensor which generates an electrical signal when a pressure is applied.

In the pulse measuring apparatus according to the present invention, preferably, the elastic member is made of rubber.

In the pulse measuring apparatus according to the present invention, Preferably, it is provided on the inner surface of the band to protect the sensor portion, and further comprises an inner cover formed with an opening, the other surface of the elastic member protrudes toward the user's body side And a protruding portion, wherein the elastic member and the inner cover are assembled such that the protruding portion penetrates through the opening of the inner cover and directly contacts the user's body.

The pulse meter according to the present invention preferably further comprises a sealing gasket for preventing the penetration of moisture through the boundary between the sensor portion and the elastic member.

Pulse meter of the present invention, the sensor unit for detecting the vibration of the pulse and the elastic member interposed between the user's body part and the sensor unit for transmitting the vibration of the pulse to the sensor unit side, thereby receiving in addition to the vibration of the pulse There is an effect that can effectively block the unwanted shock (noise) to be transmitted to the sensor unit side, and can effectively transmit the vibration of the pulse to the sensor unit side.

Hereinafter, preferred embodiments of the pulse meter according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a pulse meter according to an embodiment of the present invention, Figure 2 is a schematic configuration diagram of the pulse meter of Figure 1, Figure 3 is a sensor unit, elastic member, inner member, etc. of the pulse meter of Figure 1 4 is a cross-sectional view of the sensor unit, the elastic member, the inner member and the like of FIG. 3 assembled, and FIG. 5 is a perspective view of the elastic member of FIG. 3 seen from below.

1 to 5, the pulse measuring apparatus 10 according to the present embodiment includes an elastic member 70 between a sensor unit 20 for detecting a user's pulse and a part of a user's body, for example, a wrist. The sensor unit 20 includes a sensor unit 20, a control unit 30, a display unit 42, an input unit 44, and a communication unit 46.

The sensor unit 20 detects the vibration of the pulse generated by the blood flowing through the user's artery, converts it into an electrical signal, and outputs it, which is coupled to the band 12. In the present embodiment, a piezo sensor that generates an electrical signal when a pressure is applied is used as the sensor unit 20. As is well known, the piezo sensor is a sensor made of a piezoelectric material, and may sense sound, vibration, pressure, and the like. The piezoelectric sensor has a property of generating electricity when pressure is applied, has a high sensitivity to pressure, and has a very good reaction speed and frequency characteristics.

The control unit 30 is electrically connected to the sensor unit 20 to control an electric signal transmitted from the sensor unit 20, and includes a filter unit 32, an A / D conversion unit 34, and Microcontroller 36 is included.

The filter unit 32 amplifies a specific frequency, that is, a frequency corresponding to a pulse, from the transmitted electrical signal and removes noise that is an unwanted signal. The A / D converter 34 converts an analog electric signal output from the filter unit 32 into a digital electric signal and outputs the digital signal. The microcontroller 36 transmits the pulse converted into an electric signal in a digital form to the display unit 42 to be described later, and transmits the pulse to the communication unit 46 side for transmitting information about the pulse to the outside. It stores various data and controls the flow of the data.

The display unit 42 visually displays the pulse converted into an electrical signal in a digital form so that the user can read it, and compares the normal pulse stored in advance with the currently measured pulse to indicate to the user whether there is an abnormality of the pulse. Inform. In this embodiment, an LCD panel is used as the display portion 42. In addition, the display unit 42 may display the capacity or setting of the battery and stored setting values.

The input unit 44 is for a user to directly input various commands such as setting values of the control unit 30.

The communication unit 46 is connected to the external terminal 2 through wired / wireless internet communication, and transmits the electrical signal of the measured pulse so that the external terminal 2 can confirm. Therefore, when the user of the pulse measuring device 10 is a patient equipped with the pulse measuring device 10 by the doctor's prescription, the doctor checks the electrical signal of the pulse transmitted from the pulse measuring device 10 to check the patient's condition. Can be checked and prescribed.

The present invention is characterized in that the sensor unit 20 is not directly in contact with the user's body, for example, the user's wrist, but the user's pulse is transmitted to the sensor unit 20 via the elastic member 70. Thus, the structure for installing the elastic member 70 and the sensor part 20 in the band 12 which winds around a user's wrist is the outer cover 52, the board | substrate 62, the sensor part 20, And a sealing gasket 56, an elastic member 70 and an inner cover 54.

The outer cover 52 is provided on the outer side surface 12a of the band to protect the sensor unit 20 from external impact and to remove the influence of external environmental changes on the sensor unit 20. .

The substrate 62 is to install a signal line 63 for fixing the sensor unit 20 and transmitting an electrical signal output from the sensor unit 20 to the outside, and is electrically connected to the sensor unit 20. Is connected. The sensor unit 20 of the present embodiment is a piezoelectric sensor in the form of a film, and when there is warpage of the sensor itself, noise generated by the sensor 20 affects an electrical signal corresponding to the pulse. Therefore, by attaching the sensor unit 20 to the substrate 62, it is possible to maintain the sensor unit 20 in a flat state without noise due to bending. A circuit line (not shown) for transmitting an electrical signal corresponding to a pulse is printed on one surface facing the sensor unit 20, and a signal line for transmitting the electrical signal to the outside at one end of the printed circuit line. 63 is connected.

The elastic member 70, one surface 71 is in contact with the sensor unit 20 and the other surface 72 on the opposite side of the one surface 71 is a part of the user's body, such as the radial artery side of the user's wrist Is arranged to contact. One surface 71 of the elastic member is disposed to the outer side, the other surface 72 of the elastic member is disposed toward the user's body side, the other surface 72 is provided with a protrusion 73 protruding toward the body side of the user. do. The protrusion 73 is in contact with the radial artery side of the user's wrist. In this embodiment, the elastic member 70 is made of rubber.

The inner cover 54 is for protecting the sensor unit 20 from external shocks and removing the influence of external environmental changes on the sensor unit 20. The inner cover 54 is provided on the inner surface 12b of the band 12. Is installed on. An opening 55 is formed in the central portion of the inner cover 54 and passes through the inner cover 54, and the circumferential portion of the protrusion 73 of the elastic member 70 is the opening 55 of the inner cover 54. While contacting the circumferential portion of the elastic member 70 is fixed to the band 12 side, assembled so that the projecting portion 73 of the elastic member 70 penetrates the opening 55 directly to the user's wrist do.

The sealing gasket 56 is for preventing moisture from penetrating through a boundary between the sensor unit 20 and the elastic member 70, and the outer cover 52 and the inner cover ( 54 is installed between the outer cover to seal the inner space formed by the combination of the outer cover 52 and the inner cover 54 from the outside, the sensor unit 20 and the elastic member 70 is disposed in the inner space Therefore, the moisture is prevented from penetrating substantially toward the sensor unit 20 and the elastic member 70 from the external environment.

Pulse meter according to the present embodiment configured as described above, by having a sensor unit for detecting the pulse, and an elastic member interposed between the body part of the user and the sensor unit for transmitting the vibration of the pulse to the sensor unit side, By adjusting the sensitivity of the sensor unit to a degree desired by the user, noise that is not desired to be received is blocked from being transmitted to the sensor unit side, and the vibration of the pulse to be received can be effectively transmitted to the sensor unit side.

In addition, the pulse meter according to the present embodiment, by using a piezoelectric sensor in the form of a thin film as a sensor unit for detecting the pulse, it outputs an electrical signal with high sensitivity to pressure changes, fast reaction speed, and good frequency characteristics The effect can be obtained.

In addition, the pulse measuring apparatus according to the present embodiment, by using a sealing gasket for sealing the sensor unit and the elastic member from the external environment, the external moisture or sweat generated in the user's wrist, etc. is transferred to the sensor unit side, the pulse measuring device The effect that can prevent malfunction is obtained.

In the present embodiment, a case in which the pulse meter is mounted on the wrist of the user has been described as an example, but any part of the body that can measure the pulse of the user, such as the ankle of the user, may be mounted.

Although preferred embodiments and modifications have been described above, the pulse measuring apparatus according to the present invention is not limited to the above-described examples, and various modifications and combinations thereof may be made within the scope without departing from the technical spirit of the present invention. Pulse meter of the type can be embodied.

1 is a perspective view of a pulse meter according to an embodiment of the present invention.

FIG. 2 is a schematic configuration diagram of the pulse meter of FIG. 1. FIG.

3 is an exploded perspective view of a sensor unit, an elastic member, an inner member, and the like of the pulse meter of FIG. 1.

4 is a cross-sectional view of a state in which a sensor unit, an elastic member, an inner member, etc. of FIG. 3 are assembled.

5 is a perspective view of the elastic member of FIG. 3 seen from below;

<Description of the symbols for the main parts of the drawings>

10 pulse meter 12 band

20: sensor unit 30: control unit

42: display section 44: input section

46: communication unit 52: outer cover

54 inner cover 56 sealing gasket

62 substrate 63 signal line

70: elastic member 73: protrusion

Claims (5)

In the pulse meter for measuring the pulse generated by the blood flowing through the user's arteries, A band wound around the user's body; A sensor unit coupled to the band and configured to detect a pulse of a user and convert the same into an electrical signal and output the electrical signal; One side is in contact with the sensor unit and the other side is in contact with the user's body, the pulse measuring device comprising a; elastic member for transmitting the user's pulse to the sensor unit. The method of claim 1, The sensor unit is a pulse measuring device, characterized in that the piezo sensor (Piezo sensor) for generating an electrical signal when the pressure is applied. The method of claim 1, The elastic member is a pulse measuring device, characterized in that made of a rubber material. The method of claim 1, It is installed on the inner surface of the band to protect the sensor, and further comprises an inner cover formed with an opening, The other surface of the elastic member has a protrusion protruding toward the body of the user, And the elastic member and the inner cover are assembled such that the protrusion penetrates through the opening of the inner cover to be in direct contact with the user's body. The method of claim 4, wherein And a sealing gasket for preventing moisture from penetrating through a boundary portion between the sensor portion and the elastic member.

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