JP2001198096A - Electrocardiogram recorder and electrocardiograph system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a miniaturized electrocardiogram recorder made light in weight without the need of being mounted on the band of a testee or the like and an electrocardiograph system using it. SOLUTION: This electrocardiogram recorder 10 is provided with a transmission part for transmitting electrocardiogram signals recorded in a recording means to the outside, a reception part for receiving signals relating to a processing instruction from the outside and a control means for controlling the operation of the electrocardiogram recorder corresponding to the signals relating to the processing instruction received by the reception part. Thus, the need of installing large display part and an operation switch in the electrocardiogram recorder 10 itself is eliminated and it is substantially miniaturized and made light in weight. The miniaturized electrocardiogram recorder 10 is attached to an electrode. Thus, the testee is not required to mount the recorder to the belt or the like.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technique of an electrocardiograph for measuring and recording an electrocardiogram signal of a subject, and more particularly to a portable electrocardiograph system for examining arrhythmias appearing in daily life. .

[0002]

2. Description of the Related Art
There is a portable electrocardiograph that performs an electrocardiogram measurement. In this electrocardiograph, the electrocardiogram recording device that records signals related to the electrocardiogram is relatively large and heavy.
It had to be fixed to a belt or the like. Therefore, the electrocardiogram recording device is installed at a position distant from the electrode that captures the potential change of the measurement site, and it is necessary to connect the electrocardiogram recording device and the electrode with an electric wire or the like. For this reason, for example, an electric wire is connected between the electrocardiogram recording device and the electrodes through clothing, and the subject has to endure this discomfort and restraint during prolonged electrocardiogram measurement.

Further, conventionally, the operation check of the electrocardiogram recording apparatus at the start of measurement has to be performed by connecting the electrocardiogram recording apparatus and a stationary electrocardiograph with electric wires, so that the operation for connection is complicated. The work load was heavy. Further, since the electrocardiogram recording device is connected to a stationary electrocardiograph operated by a commercial power supply by an electric wire, many mechanisms for preventing electric shock due to electric leakage are required. In recent years, for the purpose of reducing the work burden of checking the operation of the electrocardiogram recording device, for example, instead of connecting to a stationary electrocardiograph and checking it, a liquid crystal display unit that can check the electrocardiogram is provided on the electrocardiogram recording device itself. A method has been developed in which the operation can be easily confirmed by mounting the device and viewing the liquid crystal display section.

[0004]

However, providing the ECG recording apparatus with a display unit having a size that allows the user to confirm the ECG is an obstacle to reducing the size of the ECG recording apparatus. Further, providing an operation switch for the user to give an operation instruction to the electrocardiogram recording apparatus also hinders miniaturization of the electrocardiogram recording apparatus.

As described above, in the conventional portable electrocardiograph, it is difficult to avoid that the electrocardiographic recording device becomes large and heavy, and it is necessary to fix the electrocardiographic recording device to a belt or the like when carrying the electrocardiographic recording device. Was. As a result, since the electrocardiogram recording device is provided at a location away from the electrodes, the electrocardiogram recording device and the electrodes must be separately connected, and the above-described problem cannot be avoided. In addition, the fact that the ECG recording apparatus is provided with many structural parts such as a large display unit and operation switches not only hinders the miniaturization of the ECG recording apparatus but also hinders the formation of a waterproof structure. Was.

The present invention has been made to solve the above problems. Therefore, an object of the present invention is to be able to digitally record a signal relating to an electrocardiogram, and have a higher recording accuracy than a conventional analog-type electrocardiogram recording apparatus,
Further, an electrocardiogram recording apparatus and an electrocardiograph system capable of easily confirming the operation thereof are significantly reduced in size and weight, do not need to be fixed to a belt or the like, and give the subject a feeling of discomfort and restraint. It is to provide something that does not make you feel. Still another object of the present invention is to provide an electrocardiogram recording apparatus having a waterproof structure that can omit components such as a display unit for operation confirmation and an operation switch for giving an operation instruction of the electrocardiogram recording apparatus. .

[0007]

Means for Solving the Problems (1) Signal processing means for generating a signal relating to an electrocardiogram by electrically processing a potential change of a measurement site taken in from a plurality of electrodes which can come into contact with the measurement site, and the signal processing Recording means for recording a signal relating to an electrocardiogram created by the means, wherein the recording means is attached to at least one of the plurality of electrodes.

[0008] (2) The electrocardiogram recording apparatus is characterized in that it is attached to at least one of the plurality of electrodes.

(3) The recording means is a semiconductor memory.

(4) The electrocardiogram recording apparatus is characterized by having a waterproof structure.

(5) Transmitting means for transmitting a signal relating to the electrocardiogram recorded in the recording means to the outside, receiving means for receiving an instruction signal relating to an operation instruction from the outside, and responding to the instruction signal received by the receiving means. And control means for controlling the operation of the electrocardiogram recording apparatus.

(6) The transmitting means or the receiving means transmits or receives wirelessly using light.

(7) The transmitting means or the receiving means transmits or receives wirelessly using magnetic coupling.

(8) The instruction signal is a signal for transmitting a signal relating to an electrocardiogram to the outside by the transmitting means.

(9) The instruction signal is a signal for transmitting a signal relating to an electrocardiogram recorded in the recording means by the transmission means at once.

(10) The instruction signal is a signal for starting or ending recording of a signal relating to an electrocardiogram to the recording means.

(11) The instruction signal is a signal for changing the recording condition of a signal relating to an electrocardiogram to the recording means.

(12) In an electrocardiograph system for detecting and recording a signal relating to an electrocardiogram, the electrocardiograph system has an electrocardiogram recording device and a control device, and the electrocardiogram recording device contacts a measurement site. Signal processing means for electrically processing a potential change of a measurement site taken from a plurality of electrodes to generate a signal relating to an electrocardiogram; recording means for recording a signal relating to an electrocardiogram generated by the signal processing means; Transmitting means for transmitting a signal relating to the outside to the outside, receiving means for receiving an instruction signal relating to an operation instruction from the outside, control means for controlling the operation of each means based on the instruction signal received by the receiving means, Power supply means for supplying power to the means, wherein the control device relates to the electrocardiogram transmitted from the transmission means of the electrocardiogram recording device. Receiving means for receiving a signal; display means for displaying based on the signal relating to the electrocardiogram received by the receiving means; setting means for setting the processing command for the electrocardiogram recording device; and instructions set by the setting means Transmitting means for transmitting a command to a receiving means of the electrocardiogram recording device, wherein the control device can control the operation of the electrocardiogram recording device, and the electrocardiogram recorded by the electrocardiogram recording device. Characterized by being able to display a signal relating to

[0019]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An electrocardiogram recording apparatus according to the present invention
By providing a transmitting unit and a receiving unit that perform wireless communication in the components, the display unit and the operation switches that required large components are excluded from the components. Further, the recording unit and the control unit are configured by semiconductor components, and a method of recording a signal related to an electrocardiogram (hereinafter, referred to as an “electrocardiogram signal”) in a digital value is adopted.

In the electrocardiogram recording apparatus of the present invention, use of large parts such as a display unit and operation switches is avoided as much as possible.
Thorough miniaturization and weight reduction are possible. That is,
The ECG signal detected for confirming the operation of the ECG recording device, and the accumulated data of the ECG signal recorded in the ECG recording device over a measurement time (for example, 24 hours) necessary for diagnosing the presence or absence of a disease of the subject, The data is transmitted to an external controller (control device) wirelessly and displayed on a display unit provided in the external controller. As a result,
An external controller can check the operation of the electrocardiogram recording device and analyze the electrocardiogram. Therefore, the electrocardiogram recording device itself does not need to have a large display unit.

Further, the recording start and end of the electrocardiogram signal to the electrocardiogram recording apparatus, the transmission of the electrocardiogram signal for confirming the operation, the readout and transmission of the stored data of the electrocardiogram signal recorded over the measurement time, etc. The instruction can be given wirelessly by the external controller. Therefore, the electrocardiogram recording device itself does not need to have a large operation switch.

The electrocardiogram recording apparatus of the present invention uses semiconductor elements as a recording unit and a control unit, and is attached to an electrode attached to a measurement site of a subject by reducing large components and reducing the size. . Only when confirming the operation of the electrocardiogram recording device and reading out the stored data of the electrocardiogram signal recorded in the electrocardiogram recording device, it is sufficient to send the instruction signal by bringing the controller close to the electrocardiogram recording device. Therefore, the subject only needs to carry the electrocardiogram recording device provided on the electrodes during the measurement for a long time, and does not need to carry the recording device separately on a belt or the like.

Hereinafter, an electrocardiogram recording apparatus of the present invention and an electrocardiograph system using the same will be described in detail with reference to the drawings.

FIG. 1 is a block diagram for explaining the configuration of an electrocardiograph system having an electrocardiogram recording device and a controller according to the present embodiment.

The electrocardiogram recording apparatus 10 is to electrically process a potential change of a measurement site taken in by an electrode to create an electrocardiogram signal, and to record the electrocardiogram signal over a set measurement time. On the other hand, the controller 20
The operation instruction is given to the electrocardiogram recording apparatus 10, and the electrocardiogram signal recorded in the electrocardiogram recording apparatus 10 is read out and displayed. ECG recording device 1
0 and the controller can communicate with each other wirelessly.

The electrocardiogram recording device 10 is connected with electrocardiographic sensor electrodes 1 and 2 and an indifferent electrode 3. The electrocardiographic sensor electrodes 1 and 2 function as sensors for contacting the measurement site of the human body and deriving the potential of the measurement site. The electrocardiographic sensor electrode 1 and the electrocardiographic sensor electrode 2 detect a potential difference at a measurement site.
The extraneous noise induced in-phase is eliminated.

The electrocardiogram recording apparatus 10 has a control unit 11, a transmission unit 12, a reception unit 13, an input unit 14, a recording unit 15, and a power supply unit 16.

The input section 14 receives a potential change (potential) derived from the electrocardiographic sensor electrodes 1 and 2 and the indifferent electrode 3. The input unit 14 differentially amplifies the potential derived by the electrocardiographic sensor electrode 1 and the electrocardiographic sensor electrode 2, removes external noise using the derived potential from the indifferent electrode 3, and creates an amplified electrocardiogram signal. . The amplified electrocardiogram signal is input to the control unit 11.

The control section 11 converts the electrocardiogram signal input from the input section 14 from analog to digital, and performs data compression and other signal processing on the electrocardiogram signal as necessary. Further, the control unit 11 can control the operation of the entire electrocardiogram recording device 10.

The recording unit 15 records the electrocardiogram signal processed by the control unit 11, and is configured using a semiconductor memory. The recording unit 15 can record the signal during the set measurement time or up to the recording capacity limit of the recording unit 15 under the control of the control unit 11. The recording unit 15 preferably has a recording capacity capable of recording a signal related to an electrocardiogram over a set time for performing a signal related to an electrocardiogram.
It has a recording capacity of about 50 Mbytes.

The transmission unit 12 transmits to the controller 20 the electrocardiogram signal digitally converted by the control unit 11, the electrocardiogram signal subjected to further signal processing, or the electrocardiogram signal obtained by compressing these signals. In addition,
The transmitting unit 12 can not only transmit the electrocardiogram signal processed by the control unit 11 in real time,
The recording unit 15 for a measurement time (for example, 24 hours)
, The stored data of the electrocardiogram signal sequentially recorded at a time can be read and transmitted at a time. The transmitting unit 12
Can be configured using, for example, an infrared light emitting element unit that transmits a digital signal using infrared light.

The receiving section 13 receives the instruction signal 31 transmitted from the controller 20. The control unit 11 controls the operation of the electrocardiogram recording device 10 based on the received instruction signal 31. The receiving unit 13 can be configured using, for example, an infrared light receiving module that receives infrared light.

Specifically, the instruction signal includes, for example,
The instructions include:

First, there is an "electrocardiogram monitor request instruction" instructed by the controller 20 when confirming whether or not the electrocardiogram recording apparatus 10 is operating normally. "Electrocardiogram monitor request instruction" is particularly used immediately after the electrocardiogram recording apparatus 10 is mounted on a subject to determine whether or not the electrocardiogram recording apparatus 10 is normally mounted and whether the electrocardiogram recording apparatus 10 is operating normally. Is set to

When the "electrocardiogram monitor request instruction" is transmitted from the controller 20 and received by the receiving unit 13,
An ECG signal that has been digitally converted by the control unit 11 or an ECG signal that has been digitally converted and further subjected to signal processing are transmitted from the transmission unit 12 in real time to the controller 2.
Sent to 0. The transmitted signal is sent to the controller 20
Received and displayed by. Thereby, the medical staff can confirm whether the electrocardiogram recording apparatus 10 is operating normally.

Second, there is a "recording function control instruction" instructed to start and end recording of the electrocardiogram signal in the recording unit 15. In particular, the "recording function control instruction" is instructed after it is confirmed that the electrocardiogram recording apparatus 10 is normally mounted based on the electrocardiogram monitor request instruction. The “recording function control instruction” includes a “recording start instruction” for starting recording and a “recording end instruction” for ending recording.

When a "recording start instruction" is transmitted from the controller 20 and received by the receiving unit 13, the control unit 1
1 starts recording of the electrocardiogram signal in the recording unit 15. For example, recording is started by turning on the power supply to the recording unit 15. On the other hand, when the “recording end instruction” is transmitted from the controller 20 and received by the receiving unit 13, the control unit 11 ends the recording of the electrocardiogram signal on the recording unit 15. Note that, in addition to the recording end instruction, “recording time setting instruction or change of recording condition setting” can be performed. Here, the “recording time setting instruction” is an instruction for setting a time for recording an electrocardiogram signal in the recording unit 15, that is, a measuring time. For example, when the measurement time is set to 24 hours by the “recording time setting instruction”,
The recording automatically ends 24 hours after the start of recording the signal on the recording unit 15.

Thirdly, when reading out the stored data of the electrocardiogram signals sequentially recorded in the recording section 15 during the measurement time from when the recording start instruction is issued to when the recording end instruction is issued, the controller 20 issues an instruction. There is a “data read instruction”.

The "data read instruction" is sent to the controller 20
Is transmitted from the receiving unit 13, and the accumulated data of the electrocardiogram signal recorded in the recording unit 15 is read out and transmitted from the transmitting unit 12.

The power supply section 16 supplies power to the above-described sections. The power supply unit 16 is provided with a primary battery or a secondary battery. Note that, based on a recording function control instruction from the controller 20, an electrocardiogram signal recording unit 15 is provided.
During the start of the recording to the power supply unit 16, the power supply unit 16 supplies power only to the reception unit 13 and a part of the control unit 11 related to the control of the reception unit 13, and turns off the power supply to the other units.
(Power saving mode). According to the power saving mode, power consumption can be reduced and battery consumption can be reduced.

Next, the controller 20 will be described. The controller 20 includes a control unit 21, a transmission unit 22, a reception unit 23, an operation unit 24, a display unit 25, and a power supply unit 26.
It has. The controller 20 may be a dedicated portable small terminal that transmits the instruction signal 31 to the electrocardiogram recording device 10 and receives the response signal 30 from the electrocardiogram recording device 10. It may be a general personal computer, an engineering workstation, or the like, to which a function of transmitting and receiving data between the personal computers is added. Here, the response signal 30 includes both the electrocardiogram signal transmitted in real time and the accumulated data of the electrocardiogram signal stored in the recording unit 15 over the measurement time.

The control section 21 controls the entire controller 20. The operation unit 24 is an operation switch that sets an instruction signal 31 that is transmitted to the electrocardiogram recording apparatus 10 and controls the operation of the electrocardiogram recording apparatus, and starts transmission of the instruction signal. A medical worker or the like can select and set the ECG monitor request instruction, the recording function control instruction, or the data reading instruction using the operation unit 24. For example, the operation unit 24 includes a touch panel,
It may be a switch, a keyboard, or a pointing device such as a mouse.

The transmission section 22 transmits the instruction signal 31 set by the operation section to the electrocardiogram recording apparatus 10. Note that the transmission unit 22 can be configured using, for example, an infrared light emitting element unit that transmits a digital signal using infrared light. Further, the receiving unit 23 receives an electrocardiogram signal transmitted from the electrocardiogram recording device 10. The receiving unit 23 can be configured using, for example, an infrared light receiving module that receives infrared light.

The display section 25 displays an electrocardiogram based on the electrocardiogram signal received by the receiving section 23, and is specifically constituted by a liquid crystal panel, a monitor, a CRT, and the like. When the electrocardiogram monitor request instruction is set by the operation unit 24, the transmission unit 22 transmits an electrocardiogram monitor request instruction instruction signal 31 to the electrocardiogram recording device 10. The electrocardiogram recording device 10 according to the instruction signal 31
, An electrocardiogram signal is transmitted in real time, and the signal is received by the receiver 23. The electrocardiogram signal received by the receiving unit 23 is immediately converted into an electrocardiogram waveform or the like and displayed on the display unit 25. The medical worker or the like determines whether or not the electrocardiogram recording device 10 is correctly worn on the subject by the display unit. It can be confirmed by looking at the electrocardiogram waveform and the like displayed in 25.

After the electrocardiogram signals are sequentially recorded in the recording unit 15 in the electrocardiogram recording apparatus 10 for a predetermined measurement time, the data read instruction signal is sent to the controller 20.
Is transmitted to the electrocardiogram recording device 10 from the
The stored data of the electrocardiogram signal recorded in 5 is read and transmitted to the controller 20. Controller 2
The 0 receiving unit 23 receives the accumulated data of the electrocardiogram signal and stores it in the controller 20. In this case, the electrocardiogram signal is converted into an electrocardiogram waveform or the like and displayed on the display unit 25.

FIG. 2 is a diagram schematically showing a state in which the electrocardiogram recording device of the electrocardiograph system according to the present embodiment is mounted on a human body.

Electrocardiogram sensor electrodes 1 and 2 and indifferent electrode 3
Is attached to the measurement site on the chest of the subject. The electrocardiogram recording device 10 is extremely small and has electrocardiographic sensor electrodes 1 and 2.
And at least one of the indifferent electrodes 3. In FIG. 2, the electrocardiogram recording device 10 is mounted on the indifferent electrode 3. In addition, the indifferent electrode 3 and the electrocardiogram recording device 10 can be detachably attached. The electrocardiographic sensor electrodes 1 and 2 and the electrocardiogram recording device 10 are connected by conductive wires 4 and 5. Therefore, the subject
During the measurement of the electrocardiogram, only the electrocardiogram sensor electrodes 1 and 2 and the indifferent electrode 3 to which the electrocardiogram recording device 10 is mounted need be mounted, and it is not necessary to separately mount a recording medium such as a tape on a belt.

When judging whether or not the electrodes 1, 2, 3 are normally mounted and the electrocardiogram recording apparatus 10 is operating normally, the controller 20 is brought close to a distance at which the controller 20 can communicate with the electrocardiogram recording apparatus 10. The ECG monitor request instruction set by the operation unit 24 such as an operation switch provided in the controller 20 is transmitted to the receiving unit 13 of the electrocardiogram recording apparatus 10.
Sent to. Similarly, by setting a recording function control instruction and transmitting an instruction signal 31, instructions for starting and ending storage of an electrocardiogram signal in the electrocardiogram recording apparatus 10 are issued. Further, when the measurement of the electrocardiogram signal is completed, the controller 20 is brought closer to a communicable distance, a memory readout instruction is set, and an instruction signal 31 is transmitted to store the instruction in the recording unit 15 of the electrocardiogram recording apparatus 10. It is possible to read the stored data of the electrocardiogram signal that has been performed.

FIG. 3 is a sectional view schematically showing an example of a state in which the electrocardiogram recording device 10 is attached to the indifferent electrode 3 in the present embodiment. The support of the indifferent electrode 3 is made of a flexible resin such as urethane. The electrocardiogram recording device 10 is detachably attached to the indifferent electrode 3. For example, three contacts 5 are provided on the electrocardiograph 10 side.
1a, 52a, and 53a are provided, and contacts 51b, 52b, and 53 are also provided on the indifferent electrode 3 side corresponding to the contacts.
b, the contact points 51a, 52a, and 53a are attached to the electrocardiograph 10 by mounting the electrocardiographic apparatus 10 on the indifferent electrode 3.
It can be configured such that the corresponding contacts 51b, 52b, 53b are electrically connected.

The indifferent electrode 3 has contacts 51b, 52b, 5
An electrode plate 54 is provided below 3b. Indifferent electrode 3
Are electrically connected to the contact 53b of the electrocardiogram recording apparatus 10 because the electrode 53 is electrically connected to the contact 53b.
Is electrically connected to Also, the contacts 51a to 51
b and 52a-52b are connected to the electrocardiographic sensor electrodes 1 and 2 via the conductive wires 4 and 5, respectively. Therefore, all the information relating to the potential change taken in from each of the electrodes 1, 2, and 3 is input to the electrocardiograph 10.

An electrolyte gel layer 55 is provided between the electrode plate 54 and the subject, and the indifferent electrode 3 is attached to a measurement site of the subject by an adhesive layer 56 provided around the electrolyte gel layer 55. It has become so. In addition, the electrocardiographic sensor electrodes 1 and 2 have the same electrode plate, electrolyte gel layer,
And a pressure-sensitive adhesive layer, and the pressure-sensitive adhesive layer is adhered to a measurement site of the subject with the pressure-sensitive adhesive layer.

As described above, the electrocardiogram recording apparatus 10 according to the present embodiment can be detachably attached to the indifferent electrode 3. For example, the electrocardiogram recording device 10 includes the indifferent electrode 3
And is detachably fitted to the indifferent electrode 3. Further, since the main large parts, such as the display unit and the operation switches, are all provided on the controller 20 side, for example, the electrocardiogram recording apparatus 10 includes the contacts 51a, 52a,
A sealing structure can be obtained by exposing only 53a and resin-molding the rest. As a result, the electrocardiogram recording device 10 can be made to have a waterproof structure, and even if the subject sweats, spills drinking water, etc., it is possible to prevent the occurrence of a malfunction, and the electrocardiogram recording device 1
It is also easy to wash when 0 becomes dirty. Also,
Because of the waterproof structure, the subject can take a shower or the like by attaching a waterproof seal to the electrodes 1, 2, 3 and the like, and can maintain a clean state.

Next, the operation of the electrocardiograph system according to the present embodiment will be described.

FIG. 4 is a flowchart showing the processing contents of the electrocardiograph system in this embodiment.

The electrocardiogram recording device 10 performs the following processing.

When the ECG monitor request instruction signal is received by the receiving unit 13 (S10: YES), the potential changes derived from the electrocardiographic sensor electrodes 1, 2 and the indifferent electrode 3 are taken into the input unit 14 (FIG. 2). S11). For example, when the electrocardiogram recording device 10 is provided on the indifferent electrode 3, the input unit 14 of the electrocardiogram recording device 10 is electrically connected to the electrode plate 54 provided on the indifferent electrode 3 via the contacts 53a and 53b. And the electrocardiographic sensor electrodes 1 and 2 and the contacts 51a,
51b, and are electrically connected via the contacts 52a and 52b. Therefore, the potential changes derived from all the electrodes are taken into the input unit 14. The input unit 14 taking in the potential change differentially amplifies the potential derived by the electrocardiographic sensor electrode 1 and the electrocardiographic sensor electrode 2, removes extraneous noise by the derived potential from the indifferent electrode 3, and amplifies the amplified electrocardiogram. Create a signal. The control unit 11
The amplified electrocardiogram signal is converted from analog to digital, and other signal processing is performed as necessary (S1).
2). Then, the electrocardiogram signal subjected to the analog-digital conversion is transmitted to the controller 20 (S13).

Next, when a recording start instruction signal is received (S14), the receiving unit 13 and the receiving unit 13
From the power saving mode in which power is supplied only to a part of the control unit 11 relating to the control of
The power supply unit 16 is controlled so as to be in a normal mode for supplying power to each unit (S15). Subsequently, the control unit 11
The electrocardiogram signal analog-digital converted by
Data compression and other signal processing are performed as necessary, and the data are sequentially recorded in the recording unit 15 (S17). The signal recording is performed until the receiving unit 13 receives the recording end instruction signal or until the measurement time set in advance by the instruction signal from the controller 20 ends (S18, S19). However, it is also possible to terminate signal recording according to the recording capacity of the recording unit 15.

When all the measurements are completed, the process waits until the data reading instruction signal is received by the receiving unit 13 (S2).
1: YES), the accumulated data of the electrocardiogram signal sequentially stored in the recording unit 15 over the measurement time is read, and the transmitting unit 12 transmits the accumulated data to the controller 20. According to the electrocardiogram recording apparatus 10 of the present embodiment, since the electrocardiogram signal is digitally recorded, the analysis accuracy of the disease state is lower than that of a normal analog type electrocardiogram recording apparatus that records an electrocardiogram signal using a magnetic tape or the like. To increase.

One controller 20 performs the following operation.

First, immediately after the electrocardiogram recording device 10, the electrocardiographic sensor electrodes 1 and 2, and the indifferent electrode 3 are mounted on the subject, it is checked whether the electrocardiogram recording device 10 is properly mounted and the electrocardiogram recording device 10 is operating normally. For confirmation, the transmission unit 22 transmits an electrocardiogram monitor request instruction signal to the electrocardiogram recording device (S50). In response to the transmission, the receiving unit 23 sequentially receives an electrocardiogram signal transmitted in real time from the electrocardiogram recording device 10 (S51). The control unit 21 performs data processing on the received electrocardiogram to create image data such as an electrocardiogram waveform, and the display unit 25 displays the electrocardiogram waveform and the like (S52). By this display, it is confirmed whether or not the electrocardiogram recording device 10 and the respective electrodes are properly mounted on the subject (S53). Note that the control unit 21
For example, when the level of the received electrocardiogram signal is significantly lower than the level set in advance, the ECG sensor electrode is not properly mounted, or the electrocardiogram recording apparatus 10 is not operating normally. It is possible to perform control so that a warning is issued by a buzzer, lamp, or the like (not shown).

The transmitting section 22 transmits a recording start instruction signal to the electrocardiogram recording apparatus 10 (S54). Further, a recording time setting instruction signal can be transmitted instead of or in addition to the recording start instruction signal. For example, it is possible to set the measurement time to 24 hours by transmitting a recording time setting signal. When the time is set, the electrocardiogram recording apparatus 10 can be configured to automatically stop recording after the set measurement time has elapsed.

In a state where the time is set, if the recording is to be stopped before the set measurement time has elapsed, that is, if the electrocardiogram measurement is to be ended, a recording end instruction signal is transmitted. (S55). Waiting for the recording end instruction signal to be transmitted or the end of the set time (S55: YES, S56: Y)
ES), the transmission unit 22 transmits a data read instruction signal to the electrocardiogram recording device 10 (S57). In response to the signal, the receiving unit 23 collectively receives all data of the signal read from the recording unit 15 of the electrocardiogram recording device 10 (S
58). The control unit 21 performs data processing on the received electrocardiogram, creates image data such as an electrocardiogram waveform, and
5 displays an electrocardiogram waveform and the like (S59). By investigating and analyzing the electrocardiogram waveform, it is possible to diagnose the disease or the like of the subject in detail (S60).

It should be noted that a small portable terminal that can be easily carried can be used as the controller 20, and a small liquid crystal panel or the like can be used as the display unit 25 provided in the controller 20. The controller 20 of this type serves to confirm the operation of the electrocardiogram recording device 10 and to simply read out the accumulated data of the electrocardiogram signal recorded in the electrocardiogram recording device 10. As shown in FIG. 5, the controller 20 can be connected to an analysis device 27 such as another computer via a communication line, and can transfer the stored data of the read electrocardiogram signal to the analysis device 27. it can. The analysis device 27 can perform detailed screen display, printout, analysis, and analysis based on the transferred data. This type of controller 20 is convenient to carry, so that a medical worker can go to a home visit of a subject or the like, and
While the ECG measurement is started, the detailed diagnosis is particularly suitable when performed in a hospital or the like.

Further, as shown in FIG.
0 itself can be configured to perform detailed analysis and analysis based on the created electrocardiogram waveform and the like. An analysis unit 28 is added to this type of controller 20 in addition to the configuration shown in FIG. The analysis unit 28 can extract or search for an abnormal part in the electrocardiogram based on the obtained electrocardiogram waveform or accumulated data of the electrocardiogram signal. This type of controller 20 can also be realized using a computer such as a personal computer or an engineering workstation, and can collectively perform from the reception of an electrocardiogram signal to the final analysis and analysis. It is advantageous.

As described above, the electrocardiogram recording apparatus according to the present embodiment has a feature that at least a recording unit for recording an electrocardiogram signal is attached to the electrode. Feeling can be reduced. In addition, the electrocardiogram apparatus according to the present embodiment has a configuration in which an instruction command is received from the outside by having a reception unit as well as a transmission unit, so that it is not necessary to provide an operation switch or the like in the electrocardiogram recording apparatus itself. . However, it is permissible to provide a small switch or display unit within a range that does not hinder miniaturization of the electrocardiogram device.

In the above description, the case where the electrocardiogram recording apparatus and the controller perform transmission and reception using infrared rays has been described, but the present invention is not limited to this. For example, the electrocardiogram recording device and the controller can perform transmission and reception using radio waves. In this case, each transmission unit of the electrocardiogram recording device and the controller has a configuration for performing modulation and transmitting radio waves from the transmission antenna portion, and each reception unit of the electrocardiogram recording device and the controller uses the reception antenna portion to transmit radio waves. And demodulates the received digital signal.

Further, the electrocardiogram recording apparatus and the controller can transmit and receive by magnetic coupling (electromagnetic coupling). In this case, a transmission coil or the like can be used as the transmission unit, and a reception coil or a semiconductor magnetic sensor can be used as the reception unit. Communication by magnetic coupling (electromagnetic coupling) is performed by changing the magnetic coupling state between a transmission coil and a semiconductor magnetic sensor or the like. However, since this is performed using a near magnetic field, it is necessary to arrange the electrocardiogram recording apparatus and the controller at a relatively short distance to perform transmission and reception.

It is desirable that the communication between the electrocardiogram recording apparatus and the controller be performed wirelessly using the above-described light, radio wave, magnetic coupling, or the like. It is also possible to do. Even with such a configuration, the ECG recording device
There is no need to provide large structural parts such as operation switches and display panels, and the electrocardiogram recording device is miniaturized and can be mounted on at least one of a plurality of electrodes, so that the subject wears the device on a belt or the like. No need to do.
As a result, it is possible to reduce the discomfort felt by the subject, and in addition, by forming the electrocardiogram recording device integrally with resin molding, a waterproof structure can be obtained.

In the above description, the case where the electrocardiogram recording device is attached to the indifferent electrode has been described. However, the electrocardiogram recording device of the present invention can be attached to another electrocardiographic sensor electrode. That is, the electrocardiogram recording device can be attached to at least one of the plurality of electrodes. Further, in the above-described embodiment, the case where three electrodes including one indifferent electrode and two electrocardiographic sensor electrodes are connected to the electrocardiogram recording device (in the case of a one-channel electrocardiograph) has been described. However, the present invention is not limited to this, and if the number of electrodes is increased, electrocardiogram measurement on a plurality of channels can be performed.

[0070]

As described above, according to the present invention, since the recording means for recording a signal relating to the electrocardiogram is attached to at least one of the plurality of electrodes, an electric wire is passed between the electrodes and the recording means through clothing or the like. This eliminates the need for connection, and can eliminate the discomfort and restraint of the subject. In addition, since the electrocardiogram recording device of the present invention is attached to at least one of the plurality of electrodes, all of the wiring between the electrodes and the electrocardiogram recording device can be mounted inside the subject's clothing, which makes the subject uncomfortable, The sense of restraint can be eliminated. In addition, the electrocardiogram recording device of the present invention has a waterproof structure, so that the subject does not break down even if the drink is spilled,
In addition, handling becomes easy, for example, the subject can take a shower.

Further, according to the present invention, transmitting means for transmitting a signal relating to an electrocardiogram recorded in the recording means to the outside, receiving means for receiving an instruction signal relating to an operation instruction from the outside, and receiving by the receiving means Control means for controlling the operation of the electrocardiogram recording apparatus in accordance with the instruction signal. Therefore, the display of signals related to the electrocardiogram can be displayed by transmitting the signals to the outside, and the control can be performed by receiving an instruction signal from the outside. There is no need to provide an operation switch or the like, and the size and weight can be reduced.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of an electrocardiograph system according to an embodiment of the present invention.

FIG. 2 is a diagram showing a state in which the electrocardiogram recording device of the electrocardiograph system of FIG. 1 is worn on a human body.

FIG. 3 is a cross-sectional view showing an example in which an electrocardiogram recording device according to one embodiment of the present invention is attached to an electrode.

FIG. 4 is a flowchart showing processing contents of an electrocardiograph system according to one embodiment of the present invention.

FIG. 5 is a block diagram showing a connection example between an electrocardiograph system according to another embodiment of the present invention and another analyzer.

FIG. 6 is a block diagram illustrating a configuration of an electrocardiograph system according to another embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Electrocardiogram recording device, 20 ... Controller, 1, 2 ... Electrocardiogram sensor electrode, 3 ... Indifferent electrode, 4, 5 ... Conductive wire, 11 ... Control part, 12 ... Transmitting part, 13 ... Receiving part, 14 ... Input Unit, 15 recording unit, 16 power unit, 21 control unit, 22 transmission unit, 23 reception unit, 24 operation unit, 25 display unit, 26 power unit, 27 analysis device, 28 analysis Department.

Claims (12)

[Claims] 1. A signal processing means for generating a signal related to an electrocardiogram by electrically processing a potential change of a measurement part taken from a plurality of electrodes which may come into contact with the measurement part, and an electrocardiogram created by the signal processing means. An electrocardiogram recording apparatus, comprising: recording means for recording a signal; wherein the recording means is attached to at least one of the plurality of electrodes. 2. The electrocardiogram recording device according to claim 1, wherein the electrocardiogram recording device is attached to at least one of the plurality of electrodes. 3. An electrocardiogram recording apparatus according to claim 1, wherein said recording means is a semiconductor memory. 4. The electrocardiogram recording device according to claim 1, wherein the electrocardiogram recording device has a waterproof structure. 5. A transmitting means for transmitting a signal relating to an electrocardiogram recorded in the recording means to the outside, a receiving means for receiving an instruction signal relating to an operation instruction from the outside, and in response to the instruction signal received by the receiving means. The electrocardiogram recording apparatus according to any one of claims 1 to 4, further comprising control means for controlling operation of the electrocardiogram recording apparatus. 6. The electrocardiogram recording apparatus according to claim 5, wherein said transmitting means or said receiving means transmits or receives wirelessly using light. 7. The electrocardiogram recording apparatus according to claim 5, wherein said transmitting means or said receiving means transmits or receives wirelessly using magnetic coupling. 8. The electrocardiogram recording apparatus according to claim 5, wherein the instruction signal is a signal for transmitting a signal related to an electrocardiogram to the outside by the transmitting unit. 9. The electrocardiogram recording apparatus according to claim 5, wherein the instruction signal is a signal for transmitting a signal relating to an electrocardiogram recorded in the recording unit by the transmission unit at a time. . 10. The electrocardiogram recording apparatus according to claim 5, wherein the instruction signal is a signal for starting or ending recording of a signal relating to an electrocardiogram to the recording means. 11. The electrocardiogram recording apparatus according to claim 5, wherein the instruction signal is a signal for changing a recording condition of a signal relating to an electrocardiogram to the recording means. 12. An electrocardiograph system for detecting and recording a signal relating to an electrocardiogram, wherein the electrocardiograph system has an electrocardiogram recording device and a control device, and the electrocardiogram recording device can come into contact with a measurement site. A signal processing unit that electrically processes a potential change of a measurement site taken from a plurality of electrodes to generate a signal related to an electrocardiogram; a recording unit that records a signal related to an electrocardiogram generated by the signal processing unit; Transmitting means for transmitting a signal to the outside; receiving means for receiving an instruction signal relating to an operation instruction from the outside; control means for controlling the operation of each means based on the instruction signal received by the receiving means; And a power supply unit for supplying power to the electrocardiogram recording device. Receiving means for receiving a signal related to the electrocardiogram received by the receiving means, setting means for setting the processing command for the electrocardiogram recording apparatus, and setting means for setting the processing command. Transmitting means for transmitting an instruction command to a receiving means of the electrocardiogram recording device, wherein the control device is capable of controlling the operation of the electrocardiogram recording device and recorded by the electrocardiogram recording device. An electrocardiograph system capable of displaying a signal relating to an electrocardiogram.