KR100927471B1 - The breast attachment type wireless heart rate apparatus - Google Patents

Abstract

PURPOSE: A wireless heart rate measuring unit attached to the breast is provided to measure a heart beat of a user by elastically being attached to the breast of the user regardless of the movement and body type of the user. CONSTITUTION: An electrocardiogram measuring unit is attached to the breast of a user to detect an electrocardiogram signal. A wireless heart beat measurement transmitter(10) transmits the electrocardiogram signal or the heart rate calculated based on the electrocardiogram signal to a receiver. At least one conductive snap(11) for receiving the electrocardiogram signal is arranged on one side of the wireless heart beat measurement transmitter. The electrocardiogram includes a first electrocardiogram measuring unit and a second electrocardiogram measuring unit(26). The conductive snap is arranged in one end of the first and second electrocardiogram measuring units. The wireless heart rate transmitter and the electrocardiogram measuring unit are connected by the conductive snap.

Description

The Breast Attachment Type Wireless Heart Rate Apparatus

The present invention relates to a detachable wireless heart rate measuring apparatus with a chest, and more particularly, an electrocardiogram for detecting an electrocardiogram signal attached to a user's chest and an electrocardiogram signal detected by the electrocardiogram or a directly calculated heart rate. Implement a detachable cordless heart rate measurement device with a heart rate transmitter for transmission to a heart rate monitor, but with a conductive snap button (aka snap) for electrocardiogram signal transmission, a heart rate transmitter and an electrocardiogram (preferably a conductive rubber belt) The present invention relates to a chest type detachable wireless heart rate measurement device, which is coupled between an electrocardiograph of a form or an electrocardiograph of a patch form for an electrocardiogram measurement.

Recently, as people's interest in health increases, the U-Healthcare Service using IT technology is in the spotlight.

U-healthcare services such as pre-workout exercise planning, analysis of real-time exercise information during exercise, information on post-exercise exercise results, exercise prescription, etc. for a large number of people, such as athletes, gym members, school students, etc. Solutions are also available.

In particular, in order to provide the U-healthcare service as described above, all exercise information is provided to those who perform cardiopulmonary endurance tests (eg, step tests, pacers, long running, etc.). Heart rate should be measured at the same time.

Recently, in order to solve the problem of measuring the heart rate by measuring the user's hand by hand, the heart rate measuring equipment has been widely used in sports player management centers, health clubs and schools. Hereinafter, the heart rate measuring apparatus according to the prior art will be briefly described.

Prior art heart rate measurement equipment is composed of a dedicated device equipped with a heart rate measurement program and a plurality of wired ECG patches attached to the user's body (hereinafter referred to as "prior art 1").

For example, in the related art 1, a heart rate of a user is measured by connecting a wired cable provided to each of the ECG patch patches to a dedicated device while attaching a plurality of ECG patches to a user's body. In this case, each ECG patch transmits a plurality of ECG signals detected by the user through a wired cable to a dedicated device, and accordingly calculates a heart rate based on the ECG signal in the dedicated device.

Meanwhile, in order to solve the problem of the wired heart rate measuring equipment, a garment type wireless heart rate measuring equipment has also been released [hereinafter referred to as 'prior art 2'].

For example, in the related art 2, an electrode for electrocardiogram detection is formed (weaved) on a garment such as a shirt, and a transmitter is provided on the garment so that the user can measure the heart rate while wearing the garment.

However, in the above-described prior arts 1 and 2, there are significant problems in providing a heart rate measurement service for a large number of people who are exercising, such as sports players, gymnasts, school students, and the like.

That is, in the prior art 1, the range of activity (movement and movement) and motion (movement of body parts such as arms / legs) of the exercise is very large when a person performs the cardiopulmonary endurance test. There are problems such as falling off, wired cable wear, etc., which prevents accurate heart rate measurement. In addition, such a heart rate measurement device has a problem that it is not possible to measure the heart rate of a number of people at the same time to determine the order number for each individual heart rate in order.

Meanwhile, in the related art 2, the generation of static electricity is very frequent due to the characteristics of the garment, and there is a problem in that an incorrect electrocardiogram signal is detected due to the static electricity or a malfunction of the garment type wireless heart rate measuring equipment is caused.

In addition, in the related art 2, the movement of each user and the body shape of each user are different, so that the ECG signal detecting electrode is not properly attached to the chest area of each of a large number of people. have.

In addition, in the related art 2, the ECG signal detection electrode frequently breaks down due to exercise by a large number of people, and in this case, the ECG signal detection electrode itself cannot be easily replaced because the ECG signal detection electrode that is woven into the garment cannot be easily replaced. There is a problem that needs to be repaired and discarded. For example, in the related art 2, a garment in which the transmitter and the ECG signal detecting electrode are woven is constituted as a separate product, but when the electrode for the ECG signal detecting is broken, the garment can not be easily separated from the garment. There is a problem of repurchasing itself.

In addition, in the prior art 2, it is very difficult to provide an expensive electrocardiogram detecting garment for a large number of people in a sports player management center, a health club, a school, and the like.

In addition, in the related art 2, a large number of people have to wear alternating ECG detection clothing, which causes a significant discomfort to the user due to wearing ECG detection clothing in which sweat or moisture is absorbed by another person due to exercise. There is a problem. In addition, ECG clothing worn by others may be washed and provided to the user, but such ECG detection clothing takes a considerable time to wash and dry, and thus, it is impossible to measure heart rate in real time. There is a problem of waiting a lot of time.

Accordingly, the present invention has been proposed to solve the above problems and to meet the above requirements, an ECG measuring instrument for detecting an ECG signal attached to a user's chest and an ECG signal or direct calculation detected by the ECG measuring instrument. Implement a detachable wireless heart rate measurement device with a chest as a wireless heart rate transmitter for transmitting a heart rate to the receiver, but with a conductive snap button (aka snap) for the transmission of electrocardiogram signals It is an object of the present invention to provide a detachable wireless heart rate measuring apparatus with a chest, which is coupled between an electrocardiograph in the form of a conductive rubber belt or an electrocardiograph in the form of a patch for electrocardiogram measurement.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention which are not mentioned above can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. Also, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

The present invention for achieving the above object, an electrocardiogram measuring device for detecting an ECG signal attached to the chest of the user; And a wireless heart rate measuring transmitter for transmitting an electrocardiogram signal received from the electrocardiogram detector to a receiving apparatus, or calculating a heart rate based on the electrocardiogram signal received from the electrocardiogram measuring instrument and transmitting the heart rate to the receiving apparatus. At least one conductive tip for receiving an electrocardiogram signal is provided on one side of the, and the electrocardiogram is provided with at least one conductive tip for transmitting an electrocardiogram signal, the wireless heartbeat through the respective conductive tip button A measurement transmitter and the ECG measuring device are fastened, and the ECG measuring device includes a first ECG measuring part and a second ECG measuring part in the form of a conductive rubber belt formed of two symmetrical left and right symmetrical parts. Conductive for ECG signal transmission at one end In the chest detachable wireless heart rate measuring device is provided with a tick button, the conductive tick button for transmitting an electrocardiogram signal at one end of the second electrocardiogram measuring unit, the electrode for detecting an electrocardiogram signal on the outer surface of the ECG In
The ECG meter,
The first ECG patch patch and the second ECG patch portion of the patch form consisting of two symmetrical left / right,
One end of the first ECG patch patch is provided with a conductive tip for transmitting an ECG signal,
One end of the second ECG patch is provided with a conductive tip for transmitting an ECG signal.

As described above, the present invention has an effect of efficiently providing a heart rate measurement service to a plurality of people who are exercising each having different activity ranges and motions.

In addition, the present invention has the effect of preventing the wrong electrocardiogram signal detection, malfunction of the heart rate measurement device due to static electricity.

In addition, the present invention has the effect of enabling accurate heart rate measurement because the heart rate measuring device can be properly attached to the chest area of each of a plurality of people even if the movement of each user, each body type of each user.

In addition, the present invention can be elastically attached to the user's chest, it is possible to prevent heat blocking and shrinkage generated in the user's chest, absorb vibration and shock caused by the user's movement, retain cold resistance, insulation between electrodes There is an advantage, such as guarantee, there is an effect to provide a durable heart rate measuring device.

In addition, the present invention has the effect that even if a failure occurs in the heart rate measuring device can be easily separated and replaced the failed component.

In addition, the present invention can be produced and sold at low cost heart rate measuring device has the effect of reducing the cost of purchasing a heart rate measuring device in the sports athletes management center, health club, school, and the like.

In addition, the present invention can be easily maintained, repaired, and managed hygienically by cleaning the heart rate measuring device (preferably ECG) with a cloth or washing with water, and the user can attach the ECG measuring device attached to others. It does not give the feeling of rejection.

The above objects, features, and advantages will become more apparent from the detailed description given hereinafter with reference to the accompanying drawings, and accordingly, those skilled in the art to which the present invention pertains may share the technical idea of the present invention. It will be easy to implement. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

In particular, the present invention proposes a fastening structure between the wireless heart rate transmitter and the ECG. That is, in the present invention, between the wireless heart rate transmitter and the ECG through the conductive snap button (aka snap) for ECG signal transmission.

In addition, in the present invention, the ECG measuring device has a belt shape of a conductive rubber material or has a patch shape for ECG measurement.

In addition, in the present invention, the electrocardiograph of the conductive rubber material may have two left / right symmetrical belt forms or one belt form.

In addition, in the present invention, a band having a chest size adjustment ring (eg, a U-shaped ring, etc.) may be attached to or removed from the grooves formed at both ends of the conductive rubber belt type ECG.

In addition, in the present invention, a band having a chest size adjustment ring (eg, a U-shaped ring, etc.) may be attached or detached to grooves formed at both ends of the wireless heart rate transmitter which is fastened to the ECG patch-type ECG meter.

The device proposed in the present invention as described above is defined as a 'separated wireless heart rate measurement device with a breast.'

On the other hand, the detachable heart rate wireless heart rate measurement apparatus of the present invention is implemented as an ECG and a wireless heart rate transmitter, the ECG is attached to the user's chest detects an ECG signal, the wireless heart rate transmitter is detected by an ECG A device for calculating a heart rate of a user based on an electrocardiogram signal [주; Not shown]. As another example, an electrocardiogram is attached to the user's chest to detect an electrocardiogram signal, and the wireless heart rate transmitter transmits the electrocardiogram signal detected by the electrocardiogram to a receiver, in which the electrocardiogram received from the wireless heart rate transmitter The heart rate of the user may be calculated based on the signal.

Then, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

Figure 1a is a perspective view of an embodiment of a detachable wireless heart rate measurement apparatus with a chest according to a first embodiment of the present invention, Figure 1b is an embodiment of a detachable wireless heart rate measurement apparatus with a chest according to a first embodiment of the present invention Yes side view.

1A and 1B, in the first embodiment of the present invention, two conductive female buttons 11 and 12 are provided on the rear of the wireless heart rate transmitter 10 for receiving an ECG signal.

In the first embodiment of the present invention, the ECG measuring device has a belt shape made of a conductive rubber material, and two [the first ECG measuring part of reference numeral '21' and the second ECG measuring part of reference numeral '26' are left. It is configured symmetrically, having one conductive means 22 for transmitting an electrocardiogram signal at one end of the first electrocardiogram measuring section 21, and an electrocardiogram signal at one end of the second electrocardiogram measuring section 26. One conductive means 27 for transmission is provided.

In addition, in various embodiments of the present invention described below, a means may be added to the wireless heart rate transmitter, and an arm end may be provided to the ECG. These snap buttons are preferably made of a metallic material.

Further, in the first embodiment of the present invention, the other end of the first electrocardiogram measuring unit 21 has a groove [note; [Not shown in the drawing] is formed, and the other end of the second electrocardiogram measuring unit 26 has a groove 28 formed therein. And a band (not shown) provided with a U-shaped ring or the like.

In addition, in the first embodiment of the present invention, the ECG signal detecting electrode 25 is mounted on the outer surfaces of the ECG measuring parts 21 and 26 (for example, the part touching the user's chest). In addition, in the drawing, an electrocardiogram signal detecting electrode 25 mounted to the second electrocardiogram measuring unit at 26 is shown, except that the electrocardiogram signal detecting electrode mounted to the first electrocardiogram measuring unit at 21 is shown. Note that not shown. Hereinafter, the second ECG measuring unit will be described as an example.

Preferably, the second electrocardiogram measuring unit 26 is implemented by a wire that conducts the electrocardiogram signal detected by the electrocardiogram signal detecting electrode 25 to the conductive means weight 27 using the conductive rubber. In addition, the second electrocardiogram measuring unit 26 is embodied as a general silicone rubber (aka silicon rubber) as a whole, elastically attached to the user's chest, preventing heat and shrinkage generated from the user's chest, vibration and shock caused by the user's movement It has advantages such as absorption and cold resistance retention, and also ensures inter-electrode insulation when a plurality of electrodes for ECG signal detection are implemented. In addition, what is necessary is just to produce the conductive rubber used by this invention by mixing black pigment, a metal fiber, etc. with normal rubber so that an electrical signal may be conducted.

For example, in the first embodiment of the present invention, the conductive means buttons 22 and the second electrocardiogram measuring unit 26 of the first electrocardiogram measuring unit 21 are attached to the conductive female buttons 11 and 12 of the wireless heart rate transmitter 10, respectively. Each of the conductive means weights 27) is coupled to implement a detachable wireless heart rate measurement apparatus with a chest.

On the other hand, in using the detachable cordless heart rate measuring apparatus of the first embodiment implemented as described above, the user in accordance with the size of his chest in the state that the band is connected to the groove of each ECG measuring unit 21, 26 By adjusting the ring of the electrocardiogram signal detection electrodes of each ECG measuring unit (21, 26) to be attached to the chest.

2 is a side view of an embodiment of a detachable chest heart rate wireless heartbeat measuring apparatus according to a second embodiment of the present invention.

As shown in FIG. 2, in the second embodiment of the present invention, two conductive female buttons 11 and 12 are provided at the rear of the wireless heart rate transmitter 10 for receiving an electrocardiogram signal. The wireless heart rate transmitter 10 according to the second embodiment of the present invention is the same as the wireless heart rate transmitter of the first embodiment described above.

In the second embodiment of the present invention, the ECG monitor 30 has a belt shape of one (all) conductive rubber material. For example, the ECG meter of the first embodiment described above has two left / right symmetrical belt shapes, whereas the ECG meter 30 of the second embodiment has one belt shape.

The central portion of the ECG measuring device 30 is provided with a conductive means weight 31 for transmitting the left ECG signal and a conductive means weight 32 for transmitting the right ECG signal.

The technical configuration of the second embodiment of the present invention is the same as that of the first embodiment described above, and thus a detailed description thereof will be omitted.

Figure 3a is a perspective view of an embodiment of a detachable wireless heart rate measurement apparatus according to a third embodiment of the present invention, Figure 3b is an embodiment of a detachable wireless heart rate measurement apparatus according to a third embodiment of the present invention Yes side view.

3A and 3B, in the third embodiment of the present invention, two conductive female buttons 51 and 52 are provided on the rear of the wireless heart rate transmitter 50 for receiving an ECG signal.

In the first and second embodiments described above, the ECG has a belt shape of a conductive rubber material, whereas in the third embodiment of the present invention, the ECG has a patch shape for measuring two ECGs.

That is, in the third embodiment of the present invention, two ECG meters are arranged in the left / right symmetry of two [the first ECG patch patch of reference numeral '61', the second ECG patch patch of reference numeral '66']. And one conductive means weight 62 for transmitting an electrocardiogram signal in a central portion of the patch portion 61 for measuring an electrocardiogram, and an electrocardiogram signal in a central portion of the patch portion 66 for measuring an electrocardiogram. One conductive means weight 67 for delivery is provided. Electrocardiogram signal detection electrodes [not shown] are mounted on the outer surfaces of the patch portions 61 and 66 for contacting the ECG. In addition, each ECG patch portion itself may be an electrode for ECG signal detection.

Also, unlike the wireless heart rate transmitters of the first and second embodiments described above, the wireless heart rate transmitter 50 according to the third embodiment of the present invention is provided with grooves at both ends of the wireless heart rate transmitter 50. 53 and 54 are formed, and each of the grooves 53 and 54 has a band [not shown] provided with a chest size adjusting ring (for example, a U-shaped ring or the like). For example, grooves 53 and 54 are formed at both ends of the wireless heart rate transmitter 50 because it is difficult to form a groove in each of the ECG patch portions 61 and 66 and attach a band to the chest.

In summary, in the third embodiment of the present invention, the conductive means weight 62 and the second electrocardiogram measurement of the first electrocardiogram-measurement patch 61 for each of the conductive arm buttons 51 and 52 of the wireless heart rate transmitter 50 are measured. Each of the conductive means weights 67 of the patch portion 66 is fastened to implement a detachable wireless heart rate measurement apparatus with a chest.

On the other hand, in using the detachable heart rate wireless heart rate measurement apparatus of the third embodiment implemented as described above, the user has his chest size in a state where the band is connected to the grooves 53 and 54 of the wireless heart rate transmitter 50 Adjust the ring of the band according to the ECG signal detection electrodes of the patch portion 61, 66 for measuring the ECG on the chest.

In addition, the configuration and function of the wireless heart rate transmitters 10 and 50 of the present invention and the configuration and function of the receiving apparatus will be described as follows.

The wireless heart rate transmitter transmits a control unit (micro computer), a power supply (aka battery circuit), a 3-axis acceleration sensor (3-axis sensor), a Zigbee module, a flash memory, an input / output unit (LED & Buzzer, etc.). It may include. Each of these wireless heart rate transmitters allows a large number of people (e.g., sports athletes who perform step tests, pacers, long runs, etc. for cardiopulmonary endurance testing, gym officials, school students, etc.) Each can be attached.

For example, each wireless heart rate transmitter calculates user activity by measuring heart rate and sensing three-axis acceleration, and performs data transmission and reception within 300 [m] by short-range wireless communication by ZigBee. It operates for ~ 7 hours (consumption current 30 ~ 35 [mA]) and can be recharged by lithium-ion secondary battery. In addition, a user ID may be set for each wireless heart rate transmitter in consideration of the provision to each user. Through such user ID or ZigBee unique information of each wireless heart rate transmitter, it is possible to confirm which user receives information about a user when receiving a data.

On the other hand, the receiving device is composed of a wireless interface module (aka Zigbee dongle) and a terminal (e.g. laptop, PDA, computer, etc.), a measurer (e.g. coach, trainer, teacher, exercise to manage the exercise information for a large number of people) Prescription).

For example, a receiver may receive data from a plurality of wireless heart rate measuring devices (at least 100 devices) through a wireless interface module (also known as a Zigbee dongle), and the user's heart received from each wireless heart rate transmitter may be used. Analyze and derive various exercise information (eg, body efficiency index, cardiopulmonary endurance rating, etc.) about the user based on the beat rate.

Lastly, in the first, second and third embodiments of the present invention as described above, the detachable wireless heart rate measuring apparatus with a chest, for example, a device for measuring heart rate based on an electrocardiogram signal of a user, has been described. The present invention can be embodied as a 'chest detachable wireless biosignal measuring apparatus' for various biosignals, for example, a device for measuring biosignals such as respiration, body fat mass, electromyogram, body resistance, etc. It can be understood.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

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1A is a perspective view of an embodiment of a detachable chest heart rate measurement apparatus according to a first embodiment of the present invention;
Figure 1b is a side view of an embodiment of a detachable wireless heart rate measuring apparatus according to a first embodiment of the present invention.
Figure 2 is a side view of an embodiment of a detachable chest heart rate wireless heart rate measurement apparatus according to a second embodiment of the present invention.
Figure 3a is a perspective view of an embodiment of a detachable wireless heart rate measuring apparatus according to a third embodiment of the present invention.
Figure 3b is a side view of an embodiment of a detachable chest heart rate measurement apparatus according to a third embodiment of the present invention.
Explanation of symbols on the main parts of the drawings
10: wireless heart rate transmitter

11, 12: conductive female button

21: first ECG measuring unit

26: second electrocardiogram measuring unit

22, 27: conductive means weight

28: home

Claims (8)

delete delete delete delete delete delete An electrocardiogram measuring device attached to a chest of the user for detecting an electrocardiogram signal; And a wireless heart rate measuring transmitter for transmitting an electrocardiogram signal received from the electrocardiogram detector to a receiving apparatus, or calculating a heart rate based on the electrocardiogram signal received from the electrocardiogram measuring instrument and transmitting the heart rate to the receiving apparatus. At least one conductive tip for receiving an electrocardiogram signal is provided on one side of the, and the electrocardiogram is provided with at least one conductive tip for transmitting an electrocardiogram signal, the wireless heartbeat through the respective conductive tip button A measurement transmitter and the ECG measuring device are fastened, and the ECG measuring device includes a first electrocardiogram measuring unit and a second electrocardiogram measuring unit in the form of a conductive rubber belt having two symmetrical left and right, and the first electrocardiogram measuring unit Conductive for ECG signal transmission at one end In the chest detachable wireless heart rate measuring device is provided with a tick button, the conductive tick button for transmitting an electrocardiogram signal at one end of the second electrocardiogram measuring unit, the electrode for detecting an electrocardiogram signal on the outer surface of the ECG In The ECG meter, The first ECG patch patch and the second ECG patch portion of the patch form consisting of two symmetrical left / right, One end of the first ECG patch patch is provided with a conductive tip for transmitting an ECG signal, The detachable wireless heart rate measuring apparatus with a chest according to claim 1, wherein a conductive tip is provided for transmitting an electrocardiogram signal at one end of the patch portion for measuring ECG. delete

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