KR102310256B1 - Anti-line-twisting ecg measuring apparatus and ecg measuring system - Google Patents

Abstract

The present invention relates to an electrocardiogram measuring device without wire twisting, and more particularly, as an electrocardiogram measuring device, a disposable pad in which a plurality of chest induction electrodes are integrally configured and a cable composed of a single wire connected to the plurality of chest induction electrodes a chest electrocardiogram measuring device for measuring a chest electrocardiogram from the chest of a patient using and four limb-guided electrodes 210 that measure limb-guided electrocardiograms from the patient's right arm (RA), left arm (LA), right leg (RL) and left leg (LL). It is characterized in its configuration to include a limb-guided electrocardiogram measuring device that measures the electrocardiogram, and removes the twist of the wire with a self-winding device.
In addition, the present invention relates to an electrocardiogram measuring system without wire twisting, and more particularly, as an electrocardiogram measuring system, a disposable pad including a plurality of chest induction electrodes integrally configured with a single wire connected to the plurality of chest induction electrodes. a chest electrocardiogram measuring device that measures a chest electrocardiogram from the chest of a patient using a configured cable, and removes twisted wires between cables connected to the chest induction electrode; Extremity-guided ECG from the patient's extremities, using four limb-guided electrodes 210 that measure limb-guided ECGs from the patient's right arm (RA), left arm (LA), right leg (RL) and left leg (LL) However, a limb-guided electrocardiogram measuring device for removing wire twist with a self-winding device; And it is characterized in that it comprises a central unit (central unit) for receiving and processing the ECG signals from the chest ECG measurement device 100 and the limb-guided ECG measurement device.
According to the electrocardiogram measuring device and electrocardiogram measuring system without wire twisting proposed in the present invention, a chest electrocardiogram measuring device that removes wire twist using a disposable pad in which a plurality of chest induction electrodes are integrally configured and a wire twist using a self-winding device By including a limb-guided electrocardiogram measuring device that removes the ECG can be measured quickly and conveniently without twisting or tangling.

Description

ANTI-LINE-TWISTING ECG MEASURING APPARATUS AND ECG MEASURING SYSTEM

The present invention relates to an electrocardiogram measuring device and an electrocardiogram measuring system, and more particularly, to an electrocardiographic measuring device and electrocardiographic measuring system having no wire twist.

Electrocardiography has a wide range of applications in diagnosing various arrhythmias and electrolyte abnormalities, as well as coronary artery diseases such as angina pectoris and myocardial infarction, as well as investigating and confirming cardiac abnormalities during surgery. .

The electrocardiogram is a representative bioelectrical signal along with electromyography, brainwave, and bioimpedance signals. It is widely used in clinical practice as a basic vital signal.

Electrocardiography records the electrical activity of the heart by attaching electrodes to the skin, and the electrodes detect small changes in electrical signals generated by depolarization and repolarization of the myocardium whenever the heart beats and display them in the form of waveforms. The electrocardiogram measurement system is composed of a central unit and a plurality of electrodes connected to the central unit by lines, and there are three-lead, five-lead, and 12-lead electrocardiograms according to the number of electrodes.

1 is a diagram illustrating a general electrocardiogram measurement system. As shown in Fig. 1, the most commonly used electrocardiogram is the 12-lead electrocardiogram, and the standard 12-lead electrocardiogram is used for the extremities (right arm (RA), left arm (LA), right leg (RL) and left leg (LL)). )) and chest (v1, v2, v3, v4, v5, v6) with a total of 10 electrodes attached.

2 is a diagram illustrating an electrode and a connection line used for measuring an electrocardiogram. As shown in FIG. 2 , since the lines used for measuring the electrocardiogram are long and complicated, the most common inconvenience in measuring the electrocardiogram is that the lines connecting the central unit and the electrodes are tangled with each other.

In hospitals, the most frequently used space for electrocardiograms is not only the electrocardiogram room, but also the ward and emergency room. Rapid treatment for emergency situations determines a patient's quality of life after an emergency situation. However, a minor problem of tangled wires can delay the examination time and lead to a major problem in which emergency patients cannot be treated in a timely manner.

Therefore, it is necessary to develop a technology capable of eliminating wire tangling or tangling in an electrocardiogram measuring device and system, and managing long wires cleanly and simply.

On the other hand, as prior art related to the present invention, Patent Registration No. 10-1651537 (title of the invention: electrocardiogram measuring apparatus and method using wireless communication, registration date: August 22, 2016) and the like have been disclosed.

The present invention has been proposed to solve the above problems of the previously proposed methods, using a chest electrocardiogram measuring device and a self-winding device that removes wire twist using a disposable pad in which a plurality of chest induction electrodes are integrally configured. By including a limb-guided electrocardiogram device that removes kinks, several lines connected to the chest are integrated into one line during 12-guide ECG measurement, and particularly long limb guide lines are organized into a self-winding device, An object of the present invention is to provide an electrocardiogram measuring device and an electrocardiogram measuring system without twisting wires, which can quickly and conveniently measure an electrocardiogram without twisting or tangling wires.

An electrocardiogram measuring device without wire twist according to a feature of the present invention for achieving the above object,

An electrocardiogram measuring device, comprising:

The chest electrocardiogram is measured from the patient's chest using a disposable pad in which a plurality of chest induction electrodes are integrally formed and a cable composed of a single line connected to the plurality of chest induction electrodes, and the line between the cables connected to the chest induction electrodes chest electrocardiography device to remove kinks; and

Using four limb-guided electrodes that measure extremity-guided ECGs from the patient's right arm (RA), left arm (LA), right leg (RL), and left leg (LL), measure the extremity-guided ECG from the patient's extremities. , It is characterized in its configuration to include a limb-guided electrocardiogram measuring device having a self-winding device to remove wire twist.

Preferably, the chest electrocardiogram measurement device,

an electrode-integrated pad that is a disposable pad in which a plurality of chest induction electrodes are integrally configured; and

It transmits the ECG signals measured by the plurality of chest induction electrodes and may include a cable composed of a single line.

More preferably, the electrode integrated pad,

a base including an attachment surface attached to the chest of a patient; and

It may include a plurality of chest induction electrodes disposed on the base to correspond to a region for measuring a chest electrocardiogram of a patient.

Even more preferably, the electrode integrated pad,

a plurality of electrode connection lines having one end connected to the plurality of chest induction electrodes, respectively, to transmit the measured ECG signal to the cable, and embedded in the base; and

The other ends of the plurality of electrode connection lines are focused, and may further include a connection socket provided at one end of the base and connected to the cable.

More preferably, the cable comprises:

One end may be connected to the electrode-integrated pad, and the other end may include a connector for transmitting the electrocardiogram signals measured by the plurality of chest induction electrodes.

Preferably, the limb-guided electrocardiogram measurement device comprises:

4 extremity guidance electrodes for measuring signals from the right arm (RA), left arm (LA), right leg (RL) and left leg (LL), respectively, during 12-guided electrocardiogram measurement;

four limb guide wires having one end connected to the limb induction electrode, respectively, and having a connector at the other end for transmitting a signal measured by the limb induction electrode; and

Each of the limb guide wires may include four self-winding devices that are wound and stored.

More preferably, the self-winding device comprises:

a case in which a limb guide wire connected to the limb guide electrode is wound and accommodated;

a rotating wheel that winds the limb guide wire; and

It may include a self-winding button for fixing the drawn-out limb guide line to a predetermined length, and winding the limb guide line through rotation of the wheel.

Even more preferably, the self-winding device comprises:

Further comprising a spring that retains a restoring force when the extremity guide line is drawn out and rotates the wheel with the retained restoring force according to the operation of the self-winding button to wind the limb guide line,

The self-winding button is

Controls whether or not the restoring force of the spring is activated by one-touch operation, and in the first operating state, the restoring force of the spring is not activated to fix the length of the extremity guide line, and in the second operating state, the restoring force of the spring is activated Controlled so as to rotate the wheel, it is possible to wind the limb guide line.

Preferably,

It may further include a small wireless communication device that receives the electrocardiogram signal from the chest electrocardiogram measuring device and the extremity guided electrocardiogram measuring device, and wirelessly transmits the electrocardiogram signal to the central unit.

More preferably, the wireless communication device,

It may include a cradle on which the extremity induction electrode is mounted.

The electrocardiogram measurement system without wire twist according to the features of the present invention for achieving the above object,

An electrocardiogram measuring system comprising:

The chest electrocardiogram is measured from the patient's chest using a disposable pad in which a plurality of chest induction electrodes are integrally formed and a cable composed of a single line connected to the plurality of chest induction electrodes, and the line between the cables connected to the chest induction electrodes chest electrocardiography device to remove kinks;

Using four limb-guided electrodes that measure extremity-guided ECGs from the patient's right arm (RA), left arm (LA), right leg (RL), and left leg (LL), measure the extremity-guided ECG from the patient's extremities. , a limb-guided electrocardiogram device that includes a self-winding device to remove wire kinks; and

It is characterized in that it comprises a central unit (central unit) for receiving and processing the electrocardiogram signal from the chest electrocardiogram and the extremity guided electrocardiogram measuring device.

Preferably, the chest electrocardiogram measurement device,

an electrode-integrated pad that is a disposable pad in which a plurality of chest induction electrodes are integrally configured; and

It transmits the ECG signals measured by the plurality of chest induction electrodes and may include a cable composed of a single line.

More preferably, the electrode integrated pad,

a base including an attachment surface attached to the chest of a patient; and

It may include a plurality of chest induction electrodes disposed on the base to correspond to a region for measuring a chest electrocardiogram of a patient.

Even more preferably, the electrode integrated pad,

a plurality of electrode connection lines having one end connected to the plurality of chest induction electrodes, respectively, to transmit the measured ECG signal to the cable, and embedded in the base; and

The other ends of the plurality of electrode connection lines are focused, and may further include a connection socket provided at one end of the base and connected to the cable.

More preferably, the cable comprises:

One end may be connected to the electrode-integrated pad, and the other end may include a connector for transmitting the electrocardiogram signals measured by the plurality of chest induction electrodes.

Preferably, the limb-guided electrocardiogram measurement device comprises:

4 extremity guidance electrodes for measuring signals from the right arm (RA), left arm (LA), right leg (RL) and left leg (LL), respectively, during 12-guided electrocardiogram measurement;

four limb guide wires having one end connected to the limb induction electrode, respectively, and having a connector at the other end for transmitting a signal measured by the limb induction electrode; and

Each of the limb guide wires may include four self-winding devices that are wound and stored.

More preferably, the self-winding device comprises:

a case in which a limb guide wire connected to the limb guide electrode is wound and accommodated;

a rotating wheel that winds the limb guide wire; and

It may include a self-winding button for fixing the drawn-out limb guide line to a predetermined length, and winding the limb guide line through rotation of the wheel.

Even more preferably, the self-winding device comprises:

Further comprising a spring that retains a restoring force when the extremity guide line is drawn out and rotates the wheel with the retained restoring force according to the operation of the self-winding button to wind the limb guide line,

The self-winding button is

Controls whether or not the restoring force of the spring is activated by one-touch operation, and in the first operating state, the restoring force of the spring is not activated to fix the length of the extremity guide line, and in the second operating state, the restoring force of the spring is activated Controlled so as to rotate the wheel, it is possible to wind the limb guide line.

Preferably,

It may further include a small wireless communication device that receives the electrocardiogram signal from the chest electrocardiogram measuring device and the extremity guided electrocardiogram measuring device, and wirelessly transmits the electrocardiogram signal to the central unit.

More preferably, the wireless communication device,

It may include a cradle on which the extremity induction electrode is mounted.

According to the electrocardiogram measuring device and electrocardiogram measuring system without wire twisting proposed in the present invention, a chest electrocardiogram measuring device that removes wire twist using a disposable pad in which a plurality of chest induction electrodes are integrally configured and a wire twist using a self-winding device By including a limb-guided electrocardiogram measuring device that removes the ECG can be measured quickly and conveniently without twisting or tangling.

1 is a view showing a general electrocardiogram measurement system.
Figure 2 is a view showing the state of the electrode and the connection line used for ECG measurement.
3 and 4 are diagrams illustrating the configuration of an electrocardiogram measuring system without wire twist according to an embodiment of the present invention.
5 is a view showing a detailed configuration of the electrode-integrated pad of the chest electrocardiogram measuring device in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention.
6 is a view showing, for example, a cable of the chest electrocardiogram measuring device in the electrocardiogram measuring device without twisting according to an embodiment of the present invention.
7 is a diagram illustrating a detailed configuration of a limb-guided electrocardiogram measuring device in an electrocardiogram measuring device without wire twist according to an embodiment of the present invention.
8 is a view showing an automatic winding device of the limb-guided electrocardiogram measuring device in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention.
9 is a view showing a cross-section of the self-winding device of the limb-guided electrocardiogram measuring device in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention.
10 is a view showing the state of a wireless communication device in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail so that those of ordinary skill in the art can easily practice the present invention with reference to the accompanying drawings. However, in describing a preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is 'connected' with another part, it is not only 'directly connected' but also 'indirectly connected' with another element interposed therebetween. include In addition, "including" a certain component means that other components may be further included, rather than excluding other components, unless specifically stated otherwise.

3 and 4 are diagrams showing the configuration of the electrocardiogram measurement system 10 without twisting the wire according to an embodiment of the present invention. The electrocardiogram measuring system 10 without wire twist according to an embodiment of the present invention may be composed of an electrocardiogram measuring device and a central unit 400, and the electrocardiographic measuring device is a chest electrocardiogram measuring device 100 and a limb-guided electrocardiogram. It may be configured as a measuring device 200 .

As shown in FIG. 3 , the electrocardiogram measuring system 10 without wire twist according to an embodiment of the present invention is an electrocardiogram measuring device comprising a chest electrocardiogram measuring device 100 and a limb-guided electrocardiographic measuring device 200 . can be used by directly connecting to the central unit 400 . In addition, as shown in FIG. 4 , the electrocardiogram signal received from the electrocardiogram measuring device comprising the chest electrocardiogram measuring device 100 and the extremity guided electrocardiographic measuring device 200 further including a wireless communication device 300 is transmitted by wire. The wireless communication device 300 may transmit an electrocardiogram signal to the central unit 400 using wireless communication.

Hereinafter, with reference to FIGS. 3 and 4 , detailed configurations of the electrocardiogram measuring apparatus and electrocardiogram measuring system 10 without wire twist according to an embodiment of the present invention will be described in detail.

The electrocardiogram measuring device without wire twist according to an embodiment of the present invention is a device for measuring a 12-guided electrocardiogram. It may be configured to include a limb-guided electrocardiogram measuring device 200 .

The chest electrocardiogram measuring device 100 uses a disposable pad in which a plurality of chest guide electrodes 112 are integrally formed and a cable 120 consisting of a single line connected to the plurality of chest guide electrodes 112 from the chest of a patient. By measuring the chest electrocardiogram, the wire twist between the cable 120 connected to the chest guidance electrode 112 can be removed.

As shown in FIG. 4 , the chest electrocardiogram measuring apparatus 100 is a disposable pad including a plurality of chest induction electrodes 112 integrally configured with an electrode-integrated pad 110 and a plurality of chest induction electrodes 112 . The ECG signal is transmitted directly or indirectly to the central unit 400 and may be configured to include a cable 120 composed of a single line.

The limb-guided electrocardiogram measuring apparatus 200 includes four limb-guided electrodes 210 for measuring the extremity-guided electrocardiogram from the patient's right arm (RA), left arm (LA), right leg (RL), and left leg (LL). Using the to measure the extremity-guided electrocardiogram from the patient's extremities, the self-winding device 230 may be provided to remove wire kinks.

As shown in FIGS. 3 and 4 , the limb-guided electrocardiogram measuring apparatus 200 performs a 12-guide electrocardiogram measurement on a right arm (RA), a left arm (LA), a right leg (RL), and a left leg (LL). A limb induction wire ( 220), and the extremity guide wire 220 may be configured to include four self-winding devices 230 each wound and stored. In order to measure a limb-guided electrocardiogram from a patient's extremities, the limb-guided electrocardiogram measuring device 200 includes a limb-guided electrode 210 , a limb-guided wire 220 and a self-winding device 230 as a set, FIG. As shown in , it may be composed of four sets. Although only one set is illustrated in FIG. 4 , four sets may be configured in the structure as shown in FIG. 4 .

The wireless communication device 300 may be a small device that receives an ECG signal from the chest ECG measurement device 100 and the limb-guided ECG measurement device 200 and wirelessly transmits the ECG signal to the central unit 400 . More specifically, the wireless communication device 300 may be configured in a small size for easy movement, and includes a connection unit for receiving an electrocardiogram signal from the chest electrocardiogram measuring device 100 and the extremity guided electrocardiographic measuring device 200 by wire. can do.

In this case, the wireless communication device 300 may use short-range wireless communication such as Bluetooth, NFC, etc., Wi-Fi, mobile radio communication network, satellite communication network, LTE (Long Term Evolution), 5G (5th Generation Mobile) Telecommunication) can communicate with the central unit 400 using any kind of wireless network.

Detailed configurations of the chest electrocardiogram measuring device 100 , the limb-guided electrocardiographic measuring device 200 , and the wireless communication device 300 will be described in detail later with reference to FIGS. 5 to 10 , respectively.

The central unit 400 may receive and process the ECG signals from the chest ECG measurement apparatus 100 and the limb-guided ECG measurement apparatus 200 . That is, the central unit 400 may be directly connected to the electrocardiogram measuring device as shown in FIG. 3 , or may be indirectly connected via the wireless communication device 300 as shown in FIG. 4 . The central unit 400 may receive and process an ECG signal by wire or wireless, output the patient's ECG to a monitor or output it on paper, and share, store, and manage the patient's ECG through the hospital's in-hospital network, and medical staff It can also be provided so that they can share the patient's ECG signals in need.

5 is a diagram illustrating a detailed configuration of the electrode-integrated pad 110 of the chest electrocardiogram measuring device 100 in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention. As shown in FIG. 5 , in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention, the electrode-integrated pad 110 of the chest electrocardiogram measuring device 100 includes a plurality of chest induction electrodes 112 . It may be a disposable pad configured integrally. That is, a plurality of chest induction electrodes 112 attached to the chest for measuring an electrocardiogram signal are disposed on a disposable pad to correspond to a site for measuring a chest electrocardiogram of a patient, and the electrode-integrated pad 110 is placed at an appropriate location on the chest of the patient. By attaching, it is possible to easily attach a plurality of chest guidance electrodes 112 at a time. In addition, by using the adhesive disposable pad, it can be used hygienically.

The electrode-integrated pad 110 includes a base 111 including an attachment surface attached to the chest of a patient, and a plurality of chest induction electrodes 112 disposed on the base 111 to correspond to a region for measuring chest electrocardiogram of the patient. ), one end of which is respectively connected to a plurality of chest induction electrodes 112 to transmit the measured ECG signal to the cable 120, and a plurality of electrode connection lines 113 built into the base 111. , and the other end of the plurality of electrode connection lines 113 are focused, provided at one end of the base 111 and may further include a connection socket 114 connected to the cable 120 .

The base 111 may include an attachment surface attached to the chest of the patient, and a plurality of chest induction electrodes 112 may be disposed. At this time, by adding a protective film to protect the adhesive surface, when attaching the electrode-integrated pad 110 to the chest of the patient, the protective film may be removed and the attachment surface may be attached.

The chest induction electrode 112 may be a plurality of electrodes disposed on the base 111 to correspond to a region for measuring a chest electrocardiogram of a patient. That is, as shown in FIG. 5 , the chest induction electrode 112 may include six electrodes for 12-guide electrocardiogram measurement, that is, the first to sixth electrodes in order from the left in FIG. 5 . .

More specifically, the chest guide electrode 112 includes a first electrode positioned at the patient's fourth intercostal right sternal border, a second electrode positioned at the patient's fourth intercostal left sternal border, a second electrode, and a fourth electrode below. A third electrode positioned in the middle of the patient, a fourth electrode positioned on the midclavicular line of the patient's fifth intercostal space, a fifth electrode horizontal to the fourth electrode and positioned on the anterior axillary line, and It may include a sixth electrode that is horizontal to the fourth electrode and is positioned on the midaxillary line.

In addition, as shown in FIG. 5 , the electrode-integrated pad 110 may be implemented in the form of a strap in which six chest induction electrodes 112 are disposed to correspond to each position of the patient's chest, that is, in the form of a narrow band. . Therefore, when attaching the electrode-integrated pad 110 to the chest of a patient, the position and attachment direction of each chest induction electrode 112 can be intuitively recognized, thereby minimizing mistakes and quickly attaching the electrode.

More specifically, as shown in FIG. 5 , the electrode-integrated pad 110 implemented in the form of a strap is an upper horizontal portion in which the first electrode and the second electrode are horizontally disposed, and the third electrode is downwardly right from the second electrode. The electrode and the fourth electrode may be formed of an oblique portion, and a lower horizontal portion in which the fifth electrode and the sixth electrode are horizontally arranged from the fourth electrode.

According to the embodiment, the electrode-integrated pad 110 is configured in a plurality of sizes to be selectable according to the physique of the patient, and according to the size, six chest induction electrodes 112 to correspond to the part for measuring the chest electrocardiogram of the patient. placement can be adjusted. For example, by providing the electrode-integrated pad 110 in three sizes of large, medium, and small, selecting any one size from among large, medium, and small according to the physique of the patient, the chest induction electrode 112 is installed on the patient's chest The electrode-integrated pad 110 may be attached to correspond to an appropriate position of the .

The cable 120 may be configured as a single wire having one end connected to the electrode-integrated pad 110 and a connector transmitting the ECG signal measured by the plurality of chest induction electrodes 112 at the other end. At this time, the plurality of cables 120 are not connected to the chest induction electrode 112, but are configured separately from the electrode-integrated pad 110 and connectable to the electrode-integrated pad 110 or the chest induction electrode 112. of a single cable 120 . In particular, the cable 120 is composed of a single line, it is possible to solve the conventional problem of twisting several long lines connecting the central unit 400 and the electrode. Here, configuring the cable 120 as a single line may mean being composed of a single line, but may include combining a plurality of lines to form a single line.

On the other hand, as shown in FIG. 5 , the electrode-integrated pad 110 includes an electrode connection line 113 for transmitting an electrocardiogram signal to the cable 120 is embedded in the electrode-integrated pad 110 , and the electrode connection line 113 . A connection socket 114 may be provided at this focused end. In addition, as shown in FIG. 3 , the cable 120 is implemented as a single line having sockets configured at both ends, one end to the connection socket 114 of the electrode-integrated pad 110 , and the other end to the wireless communication device 300 . can be connected to each.

In this way, since the cable 120 and the electrode-integrated pad 110 can be connected at once through the connection socket 114, it can be used quickly and conveniently, and the cable 120 is simplified to completely eliminate the possibility of wire twisting. can be removed

According to the embodiment, the chest induction electrode 112 is located on the attachment surface, and is connected to an electrocardiogram measuring unit (not shown) and an electrocardiogram measuring unit measuring a chest electrocardiogram in contact with the patient's skin, and the base 111 is It may be configured to include an electrode connection part (not shown) that passes through and protrudes to the opposite surface of the attachment surface to which the tongs are connected. The electrode connection part is a configuration to be connected to the cable 120 and will be described in detail below with reference to FIG. 6 .

6 is a diagram illustrating, for example, the state of the cable 120 of the chest electrocardiogram measuring device 100 in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention. As shown in FIG. 6, in FIG. 6, in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention, the cable 120 of the chest electrocardiogram measuring device 100 includes a plurality of chest induction electrodes 112. It includes a plurality of tongs respectively connected to the, the plurality of tongs may be provided at the ends of the plurality of separation cables separated by a predetermined interval from the cable 120 composed of a single line, respectively. That is, six separate cables can be separated at regular intervals from the cable 120 composed of a single line by combining a plurality of separating cables, and the electrode connection portion of the chest induction electrode 112 is provided with tongs at the end of the separating cable. can be easily connected with In this case, the plurality of tongs may be configured to have different colors from each other, and the colors of the tongs may be sequentially configured such as red, yellow, green, brown, black, purple, or the like.

That is, as shown in FIGS. 3 and 4, the cable 120 can be configured to be connected through the connection socket 114, but as shown in FIG. 6, each of the six chest induction electrodes 112 is connected. It can also be configured so as to be provided with a plurality of tongs.

7 is a diagram illustrating a detailed configuration of the limb-guided electrocardiogram measuring device 200 in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention. As shown in FIG. 7 , the limb-guided electrocardiogram measuring apparatus 200 of the electrocardiographic measuring apparatus without wire twist according to an embodiment of the present invention includes a right arm (RA) and a left arm (LA) during 12-guide electrocardiogram measurement. ), four limb induction electrodes 210 for measuring signals from each of the right leg (RL) and left leg (LL), one end is connected to the limb induction electrode 210, respectively, and the limb induction electrode 210 at the other end. Four limb guide wires 220 having a connector 221 for transmitting a signal measured in the have.

The extremity guidance electrode 210 is a configuration for measuring signals from the right arm (RA), the left arm (LA), the right leg (RL), and the left leg (LL), respectively, when measuring the 12-guided electrocardiogram. It may consist of four for measurement.

As shown in Figure 7, the extremity induction electrode 210, the right arm (RA), the left arm (LA), the right leg (RL) or the left leg (LL) of the patient is configured in the form of tongs for fixing. It is provided on the inner surface of the government 211 and the fixing part 211, and measures the signal by contacting the skin of the patient's right arm (RA), left arm (LA), right leg (RL) or left leg (LL). It may be configured to include a ground plate 212 . That is, the ground plate 212 may be in contact with the skin of the patient's wrists and both ankles, and the electrocardiogram signal may be measured by fixing the ground plate 212 using the fixing part 211 configured in the form of tongs. At this time, as shown in FIG. 7 , a grounding plate 212 may be provided on one of the two inner surfaces of the fixing part 211 configured to have two inner surfaces facing each other in the form of tongs.

The limb guide wire 220 may have one end connected to the limb induction electrode 210, respectively, and a connector 221 for transmitting a signal measured by the limb induction electrode 210 to the other end, and four limb induction wires. It may be composed of four limb guide wires 220 respectively connected to the electrodes 210 .

8 is a diagram illustrating the self-winding device 230 of the limb-guided electrocardiogram measuring device 200 in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention. As shown in FIG. 8 , the limb guide wire 220 may be wound around the self-winding device 230 and stored, and a connector 221 may be provided at the distal end. At this time, the extremity guide wire 220 connects the connector 221 to the wireless communication device 300 or the central unit 400 so that the ECG signal measured by the extremity guide electrode 210 is directly or indirectly transmitted to the central unit 400 . can be transmitted.

The self-winding device 230 is a configuration in which the limb guide wires 220 are wound and stored, respectively, and four limb guide wires 220 connected to the four limb guide electrodes 210 are wound and stored, respectively. It may be configured as a winding device 230 . That is, the extremity induction electrode 210, the extremity guide wire 220, and the self-winding device 230 are configured as one set, so that a total of four sets for both arms and both legs are included in the limb-guided electrocardiogram measuring device 200. can

9 is a cross-sectional view of the self-winding device 230 of the limb-guided electrocardiogram measuring device 200 in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention. As shown in FIGS. 8 and 9 , in the electrocardiogram measuring device without wire twist according to an embodiment of the present invention, the self-winding device 230 of the extremity induced electrocardiogram measuring device 200 includes the extremity guiding electrode 210 ) and the case 231 in which the limb guide wire 220 is wound and accommodated, the rotating wheel 232 that winds the limb guide wire 220, and the drawn limb guide wire 220 are fixed to a certain length, It may be configured to include a self-winding button 233 for winding the limb guide wire 220 through the rotation of the wheel 232 , and retains restoring force when the limb guide wire 220 is withdrawn, so that the self-winding button 233 . It may be configured to further include a spring 234 for winding the limb guide wire 220 by rotating the wheel 232 with the restoring force retained according to the operation of the .

The case 231 may be accommodated by winding the limb guide wire 220 connected to the limb guide electrode 210 . The case 231 may be provided with an outlet through which the end provided with the connector 221 of the extremity guide wire 220 accommodated therein can be drawn out, and the size of the outlet may allow the extremity guide wire 220 to enter and exit freely. While the connector 221 may be configured such that it cannot enter the inside of the case 231 . The shape of the case 231 may be various, such as a square, a rectangle, a circle.

In addition, the self-winding button 233 operates with one touch to control whether the restoring force of the spring 234 is activated, and in the first operating state, the restoring force of the spring 234 is not activated to control the extremity guide wire 220. The length of is fixed, and in the second operation state, the restoring force of the spring 234 is controlled to be activated, and the wheel 232 can be rotated to wind the limb guide wire 220 . In this case, the spring 234 may be implemented as a spring 234 in the form of a plate, as shown in FIG. 9 .

Meanwhile, the self-winding device 230 may be attached to the outer surface of the handle portion of the clamp-type fixing part 211 of the extremity induction electrode 210 . At this time, as shown in FIG. 9 , one end of the limb guide wire 220 may be configured to extend out of the case 231 to be connected to the ground plate 212 of the limb guide electrode 210 . Therefore, the limb guide wire 220 wound inside the case 231 of the self-winding device 230 and received by the limb guide electrode 210 transmits the signal measured by the limb guide electrode 210 to the connector 221 and connected to the wireless communication device 300 or the central unit ( 400) can be transmitted.

In addition, as shown in FIG. 7 , the self-winding device 230 is attached to the outer surface of the handle portion of the fixing part 211 of the extremity induction electrode 210 to facilitate manipulation of the self-winding button 233 . can do. In addition, the self-winding device 230 is attached to the handle portion on the side where the ground plate 212 is provided, so that the ECG signal measured from the extremity induction electrode 210 is automatically generated without problems such as twisting of the limb guide wire 220 . It may be delivered through the limb guide wire 220 of the winding device 230 .

FIG. 10 is a diagram illustrating a wireless communication device 300 in an electrocardiogram measuring apparatus without wire twist according to an embodiment of the present invention. As shown in FIG. 10, the wireless communication device 300 of the electrocardiogram measuring device without twisting according to an embodiment of the present invention is provided with four limb guide wire connection parts 310, and each limb guide wire connection part At 310, the right arm (RA), the left arm (LA), the right leg (RL), and the left leg (LL) are displayed, and the extremity guidance measured in both arms and both legs of the patient from the extremity-guided electrocardiogram measuring device 200 . It is possible to ensure that the ECG signal is transmitted accurately.

In addition, the wireless communication device 300 may include a chest cable connection unit 320 for receiving a chest ECG signal from the chest ECG measuring apparatus 100 . At this time, the chest cable connection unit 320 is configured as one, and can receive an electrocardiogram signal from a plurality of chest induction electrodes 112 at once without twisting the wires.

On the other hand, the wireless communication device 300 includes a cradle 330 on which the limb induction electrode 210 is mounted, and when not in use, the limb guide wire 220 to the self-winding device 230 as shown in FIG. 10 . ) in a wound state, the limb induction electrode 210 can be mounted on the cradle 330, so storage and movement are convenient, and the long limb guide wire 220 can be kept clean, and the It can eliminate kinks and tangles.

In particular, the electrocardiogram measuring device without wire twist according to an embodiment of the present invention is configured to further include a wireless communication device 300, and the chest electrocardiogram measuring device 100 and the extremity guided electrocardiogram measuring device 200 are large and heavy. Instead of being directly connected to the central unit 400 , it may be connected to a small wireless communication device 300 that is portable or portable and performs wireless communication with the central unit 400 . Therefore, when it is necessary to measure an electrocardiogram of a patient in an emergency or inconvenient to move, it is possible to measure the electrocardiogram by placing a small wireless communication device 300 that is easy to move and light next to the patient without moving the central unit 400, and the measurement result is It can be transmitted to the central unit 400 in a remote location using wireless communication.

As described above, according to the electrocardiogram measuring apparatus and electrocardiogram measuring system 10 without wire twisting proposed in the present invention, a plurality of chest induction electrodes 112 are integrally configured with a disposable pad to remove wire twisting. By using the electrocardiogram measuring device 100 and the self-winding device 230 to remove the wire twist, the limb-guided electrocardiogram measuring device 200 is included, so that several lines connected to the chest during 12-guide electrocardiogram measurement are combined into one line. Integrate into the body, and especially the long limb guide wire 220 is arranged with the self-winding device 230, so that the electrocardiogram can be measured quickly and conveniently without twisting or tangling the wire.

Various modifications and applications of the present invention described above are possible by those skilled in the art to which the present invention pertains, and the scope of the technical idea according to the present invention should be defined by the following claims.

10: ECG measurement system according to the present invention
100: chest electrocardiogram device
110: electrode integrated pad
111: base
112: chest induction electrode
113: electrode connection line
114: connection socket
120: cable
200: limb-guided electrocardiogram device
210: limb induction electrode
211: fixed part
212: ground plate
220: limb guide line
221: connector
230: self-winding device
231: case
232: wheel
233: self-winding button
234: spring
300: wireless communication device
310: connector connection
320: chest cable connection
330: cradle
400: central unit

Claims (20)

An electrocardiogram measuring device, comprising:
The chest electrocardiogram is measured from the chest of the patient using a disposable pad in which a plurality of chest induction electrodes 112 are integrally formed and a cable 120 consisting of a single line connected to the plurality of chest induction electrodes 112, and the chest a chest electrocardiogram measuring device 100 for removing twisted wires between the cables 120 connected to the induction electrodes 112; and
Limb-guided ECG from the patient's extremities, using four limb-guided electrodes 210 that measure limb-guided ECGs from the patient's right arm (RA), left arm (LA), right leg (RL) and left leg (LL) but includes a limb-guided electrocardiogram measuring device 200 that has a self-winding device 230 to remove wire twist,
The chest electrocardiogram measuring device 100,
an electrode-integrated pad 110 that is a disposable pad in which a plurality of chest induction electrodes 112 are integrally configured; and
It transmits the electrocardiogram signal measured by the plurality of chest induction electrodes 112 and includes a cable 120 composed of a single line,
The electrode-integrated pad 110,
a base 111 including an attachment surface attached to the chest of the patient; and
Includes a plurality of chest induction electrodes 112 disposed on the base 111 to correspond to the site for measuring the chest electrocardiogram of the patient,
The cable 120 is
The electrode-integrated pad 110 is configured separately, and one end is connected to the chest induction electrode 112, and the other end has a connector that transmits the electrocardiogram signals measured by the plurality of chest induction electrodes 112. made up of lines,
The cable 120 is
and a plurality of forceps respectively connected to the plurality of chest induction electrodes 112, wherein the plurality of forceps are provided at the ends of six separate cables separated by a predetermined interval from the cable 120 composed of a single line, respectively. and the plurality of tongs are different in color from each other,
The chest induction electrode 112,
an electrocardiogram measuring unit located on the attachment surface and measuring a chest electrocardiogram in contact with the patient's skin; and
and an electrode connection part connected to the electrocardiogram measuring part, passing through the base 111 and protruding to the opposite surface of the attachment surface, to which the tongs are connected,
The chest induction electrode 112,
The first electrode positioned on the right sternal border of the patient's fourth intercostal space, the second electrode positioned on the left sternal border of the patient's fourth intercostal space, the third electrode positioned between the second electrode and the fourth electrode below, the patient's 5 The fourth electrode is located on the midclavicular line of the first intercostal space, the fifth electrode is horizontal with the fourth electrode and located on the anterior axillary line, and the fourth electrode is horizontal with the fourth electrode and is located on the midaxillary line. ), but the first to sixth electrodes are in the form of a strap arranged to correspond to each position of the patient's chest,
The electrode-integrated pad 110,
An upper horizontal portion in which the first electrode and the second electrode are horizontally disposed, a diagonal portion in which the third electrode and the fourth electrode are disposed in an oblique line downward from the second electrode, and the fifth electrode from the fourth electrode and a lower horizontal portion on which the sixth electrode is horizontally disposed,
The electrode-integrated pad 110,
It consists of three sizes of large, medium, and small so as to be selectable according to the physique of the patient, and the arrangement of the first to sixth electrodes is adjusted to correspond to the part for measuring the chest electrocardiogram of the patient according to the size,
The limb-guided electrocardiogram measuring device 200,
Four extremity guidance electrodes 210 for measuring signals from the right arm (RA), the left arm (LA), the right leg (RL), and the left leg (LL), respectively, when measuring the 12-guided electrocardiogram;
four limb guide wires 220 having one end connected to the limb induction electrode 210, respectively, and having a connector 221 at the other end for transmitting a signal measured by the limb induction electrode 210; and
Including four self-winding devices 230 in which the limb guide wires 220 are wound and stored, respectively,
The self-winding device 230 is
a case 231 in which a limb guide wire 220 connected to the limb guide electrode 210 is wound and accommodated;
a rotating wheel 232 for winding the limb guide wire 220;
a self-winding button 233 for fixing the drawn-out limb guide wire 220 to a predetermined length, and winding the limb guide wire 220 through rotation of the wheel 232; and
A spring 234 that holds the restoring force when the extremity guide wire 220 is pulled out and rotates the wheel 232 with the retained restoring force according to the operation of the self-winding button 233 to wind the limb guide wire 220 . further comprising,
The self-winding button 233 is,
Controls whether or not the restoring force of the spring 234 is activated by one-touch operation, and in the first operating state, the restoring force of the spring 234 is not activated to fix the length of the extremity guide wire 220, 2 In the operating state, the restoring force of the spring 234 is controlled to be activated, and the wheel 232 is rotated to wind the limb guide wire 220,
A portable or portable lightweight and compact wireless communication device 300 that receives the ECG signal from the chest ECG measurement device 100 and the limb-guided ECG measurement device 200 and wirelessly transmits the ECG signal to the central unit 400 including more,
The wireless communication device 300,
Including a cradle 330 on which the limb induction electrode 210 is mounted, when the limb induction electrode 210 is not in use, the limb guide wire 220 is wound around the self-winding device 230 and the limb An electrocardiogram measuring device without wire twist, characterized in that it can be stored and moved by mounting the induction electrode 210 on the cradle 330 .
delete delete delete delete delete delete delete delete delete An electrocardiogram measurement system (10), comprising:
The chest electrocardiogram is measured from the chest of the patient using a disposable pad in which a plurality of chest induction electrodes 112 are integrally formed and a cable 120 consisting of a single line connected to the plurality of chest induction electrodes 112, and the chest a chest electrocardiogram measuring device 100 for removing twisted wires between the cables 120 connected to the induction electrodes 112;
Extremity-guided ECG from the patient's extremities, using four limb-guided electrodes 210 that measure limb-guided ECGs from the patient's right arm (RA), left arm (LA), right leg (RL) and left leg (LL) However, a limb-guided electrocardiogram measuring device 200 for removing wire twist by having a self-winding device 230; and
and a central unit 400 (central unit) for receiving and processing ECG signals from the chest ECG measurement device 100 and the limb-guided ECG measurement device 200,
The chest electrocardiogram measuring device 100,
an electrode-integrated pad 110 that is a disposable pad in which a plurality of chest induction electrodes 112 are integrally configured; and
It transmits the electrocardiogram signal measured by the plurality of chest induction electrodes 112 and includes a cable 120 composed of a single line,
The electrode-integrated pad 110,
a base 111 including an attachment surface attached to the chest of the patient; and
Includes a plurality of chest induction electrodes 112 disposed on the base 111 to correspond to the site for measuring the chest electrocardiogram of the patient,
The cable 120 is
The electrode-integrated pad 110 is configured separately, and one end is connected to the chest induction electrode 112, and the other end has a connector that transmits the electrocardiogram signals measured by the plurality of chest induction electrodes 112. made up of lines,
The cable 120 is
and a plurality of forceps respectively connected to the plurality of chest induction electrodes 112, wherein the plurality of forceps are provided at the ends of six separate cables separated by a predetermined interval from the cable 120 composed of a single line, respectively. and the plurality of tongs are different in color from each other,
The chest induction electrode 112,
an electrocardiogram measuring unit located on the attachment surface and measuring a chest electrocardiogram in contact with the patient's skin; and
and an electrode connection part connected to the electrocardiogram measuring part, passing through the base 111 and protruding to the opposite surface of the attachment surface, to which the tongs are connected,
The chest induction electrode 112,
The first electrode positioned on the right sternal border of the patient's fourth intercostal space, the second electrode positioned on the left sternal border of the patient's fourth intercostal space, the third electrode positioned between the second electrode and the fourth electrode below, the patient's 5 The fourth electrode is located on the midclavicular line of the first intercostal space, the fifth electrode is horizontal with the fourth electrode and located on the anterior axillary line, and the fourth electrode is horizontal with the fourth electrode and is located on the midaxillary line. ), but the first to sixth electrodes are in the form of a strap arranged to correspond to each position of the patient's chest,
The electrode-integrated pad 110,
An upper horizontal portion in which the first electrode and the second electrode are horizontally disposed, a diagonal portion in which the third electrode and the fourth electrode are disposed in an oblique line downward from the second electrode, and the fifth electrode from the fourth electrode and a lower horizontal portion on which the sixth electrode is horizontally disposed,
The electrode-integrated pad 110,
It consists of three sizes of large, medium, and small so as to be selectable according to the physique of the patient, and the arrangement of the first to sixth electrodes is adjusted to correspond to the part for measuring the chest electrocardiogram of the patient according to the size,
The limb-guided electrocardiogram measuring device 200,
Four extremity guidance electrodes 210 for measuring signals from the right arm (RA), the left arm (LA), the right leg (RL), and the left leg (LL), respectively, when measuring the 12-guided electrocardiogram;
four limb guide wires 220 having one end connected to the limb induction electrode 210, respectively, and having a connector 221 at the other end for transmitting a signal measured by the limb induction electrode 210; and
Including four self-winding devices 230 in which the limb guide wires 220 are wound and stored, respectively,
The self-winding device 230 is
a case 231 in which a limb guide wire 220 connected to the limb guide electrode 210 is wound and accommodated;
a rotating wheel 232 for winding the limb guide wire 220;
a self-winding button 233 for fixing the drawn-out limb guide wire 220 to a predetermined length, and winding the limb guide wire 220 through rotation of the wheel 232; and
A spring 234 that holds the restoring force when the extremity guide wire 220 is pulled out and rotates the wheel 232 with the retained restoring force according to the operation of the self-winding button 233 to wind the limb guide wire 220 . further comprising,
The self-winding button 233 is,
Controls whether or not the restoring force of the spring 234 is activated by one-touch operation, and in the first operating state, the restoring force of the spring 234 is not activated to fix the length of the extremity guide wire 220, 2 In the operating state, the restoring force of the spring 234 is controlled to be activated, and the wheel 232 is rotated to wind the limb guide wire 220,
A portable or portable lightweight and compact wireless communication device 300 that receives the ECG signal from the chest ECG measurement device 100 and the limb-guided ECG measurement device 200 and wirelessly transmits the ECG signal to the central unit 400 including more,
The wireless communication device 300,
Including a cradle 330 on which the limb induction electrode 210 is mounted, when the limb induction electrode 210 is not in use, the limb guide wire 220 is wound around the self-winding device 230 and the limb The induction electrode 210 is mounted on the cradle 330, characterized in that it can be stored and moved, the electrocardiogram measurement system 10 without twisting the wire. delete delete delete delete delete delete delete delete delete

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