JP2004005341A - Patient monitoring device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a patient monitoring device capable of efficiently caring for the patient. <P>SOLUTION: A central monitor 14 is provided with a sound synthesizer 18 having a radio communication machine and a sound card (sound synthesizer). When an alarm is made in the central monitor 14, the contents of the alarm are converted into sound inside the sound synthesizer 18 and the alarm contents converted into the sound are transmitted from the radio communication machine inside the sound synthesizer 18 to a PHS 22 serving as a communication terminal in a in-hospital radio communication system 16. As every care worker carries the PHS 22, the alarm contents can be checked instantly, so that there is no necessity of going to the alarm information display installation place such as a nurse station for checking the alarm contents. In this way, efficiency of nursing work can be improved. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a patient monitoring device including a biological information measuring device that automatically measures biological information of a patient.
[0002]
[Prior art]
2. Description of the Related Art In order to monitor a patient's condition, a patient monitoring device including a bedside monitor (that is, a biological information measuring device) that automatically and sequentially measures biological information such as an electrocardiogram, a heart rate, and a respiratory rate is known. In such a patient monitoring device, when the biological information measured by the bedside monitor becomes a preset abnormal value, an alarm is generated from the bedside monitor, and the detected biological information becomes abnormal. To the nursing staff.
[0003]
Further, the patient monitoring device generally includes a plurality of bedside monitors, and generally includes a central monitor for centrally monitoring biological information measured by the plurality of bedside monitors. The central monitor is installed at a nurse station or the like, and displays the biological information transmitted from the bedside monitor on a display. The central monitor also functions as an alarm information display device. When the biological information measured by the bedside monitor becomes an abnormal value set in advance, an alarm sound is output from the central monitor, and the central sound is output. The alarm information is output to the monitor display.
[0004]
The alarm information output on the display of the central monitor indicates which patient and which biological information is abnormal, so the nursing staff rushes to the patient according to the alarm information. Will be.
[0005]
[Problems to be solved by the invention]
However, even if alarm information is output from the central monitor, if the nurse is not at the nurse station, the alarm information will not be transmitted to the nurse and the patient may be in a more dangerous state. There's a problem.
[0006]
To cope with the above problem, a patient monitoring device has been proposed which includes a central monitor with a wireless communication device and a portable terminal having a receiving function and carried by a nurse. In such a patient monitoring device, when alarm information is output to the display of the central monitor, a signal for generating an alarm sound is transmitted from the wireless communication device of the central monitor, and the mobile terminal that receives the signal A warning sound is generated from the machine. In this way, even if no nurses are present at the nurse station, the occurrence of an alarm is reliably transmitted to the nurses. It is known that the portable terminal has a function of simply generating an alarm sound and a mobile terminal having a telephone function in addition to the function of generating an alarm sound.
[0007]
However, in the above type of patient monitoring device, since only the alarm sound is output from the portable terminal, it is not possible to directly go to the patient where the abnormality has occurred, and to check the contents of the alarm, The nurse must return to the nurse station. Therefore, there is a problem that nursing work is not efficient.
[0008]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a patient monitoring device capable of performing nursing work efficiently.
[0009]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided a patient monitoring device including a biological information measuring device for measuring biological information of a patient, and generating an alarm when the biological information is abnormal. And a wireless communication device that transmits alarm information representing the contents of the wireless communication device via a wireless communication line, and alarm information transmitted from the wireless communication device, which is carried by a nurse and connected to the wireless communication device by the wireless communication line. And a portable receiver that outputs the sound as a voice.
[0010]
[Effect of the first invention]
According to the first invention, when an alarm is generated, the content of the alarm is output as a sound from the portable receiver carried by the nurse, so that the content of the alarm can be confirmed on the spot. Therefore, it is not necessary to go to a place where an alarm information display device such as a nurse station is installed in order to confirm the contents of the alarm, in addition to reliably notifying the nursing staff of the alarm. Efficiency is improved. Also, if the contents of the alarm can be checked on the spot, the efficiency of nursing work can be improved because it is possible to determine on the spot whether the priority should be given to the current job or the job for the patient for whom the alarm was notified. Can be
[0011]
Note that, instead of voice, characters indicating the contents of the alarm may be displayed on the display unit of the portable receiver. However, displaying the contents of the alarm in characters requires a relatively large number of characters. Therefore, the portable receiver needs to be provided with a display and to be able to display a relatively large number of characters on the display, so that the portable receiver is relatively expensive. On the other hand, when the content of the alarm is output by voice, the amount of information is not limited, and a display is not required.
[0012]
Other aspects of the invention
Further, a second invention is the patient monitoring device according to the first invention, provided with a plurality of the biological information measuring devices and the plurality of portable receivers, respectively, based on a correspondence relationship between a patient and a nurse in charge of the patient. And a correspondence determining means for determining a correspondence between the plurality of biological information measuring devices and the plurality of portable receivers, and a content of an alarm generated in the biological information measuring device from the wireless communication device. Communication control means for transmitting the alarm information to a portable receiver determined on the basis of the correspondence determined by the biological information measuring device and the correspondence determination means is further provided. According to this, the correspondence determining means determines the correspondence between the biological information measuring device and the portable receiver based on the correspondence between the nurse and the patient in charge of the nurse, and performs communication. The alarm information transmitted from the wireless communication device by the control means is transmitted to the biological information measuring device in which the alarm has occurred and the portable transmitter determined based on the correspondence determined by the correspondence determination means. The person can obtain only necessary alarm information on the patient who is in charge of the patient.
[0013]
Further, a third invention is the patient monitoring device according to the first invention, comprising a plurality of the biological information measuring devices and the plurality of portable receivers, respectively, wherein a plurality of nurses and a plurality of nurses respectively in charge are provided. Based on the correspondence with the patient, a correspondence determination unit that determines a correspondence in which a plurality of portable receivers are associated with priority with respect to each of the biological information measuring devices, and the biological communication device, Alarm information representing the content of an alarm generated in the information measuring device is sequentially transmitted to a plurality of portable receivers determined based on the correspondence determined by the biological information measuring device and the correspondence determining means in order of priority. And a communication control unit for causing According to this, based on the correspondence between the nurse and a plurality of patients in charge of the nurse, the correspondence receiver determines a plurality of portable receivers for each biological information measuring device with priority. Correspondingly, the communication control means, the alarm information is sequentially transmitted to a portable transmitter determined based on the correspondence determined by the biological information measuring device and the correspondence determination means in which the alarm is generated in the order of higher priority. Therefore, the contents of the alarm are promptly notified to appropriate nurses.
[0014]
According to a fourth aspect of the present invention, in the patient monitoring device according to the first to third aspects, a selection operation button and a plurality of voices stored in advance for converting the content of an alarm generated in the biological information measuring device into voice. From the conversion relationship, a relationship selection unit that selects one voice conversion relationship based on the operation of the selection operation button, and an alarm generated in the biological information measurement device based on the voice conversion relationship selected by the relationship selection unit. And a voice synthesizing device that converts the content of the voice into voice. The mobile receiver outputs voice synthesized by the voice synthesizing device.
[0015]
The plurality of voice conversion relations stored in advance include, for example, a first relation for converting the content of an alarm into a voice in a sentence format, and the purpose of outputting the content of an alarm in a short time. The second relation for converting the content into a voice consisting only of the necessary words, the content of the warning is converted into a text-form voice, but the output time is made shorter than the above-mentioned standard relation (output with a quick voice) And 3) the third relationship.
[0016]
According to the fourth aspect, the expression of the content of the alarm output as a sound can be selected by the relation selecting means based on the operation of the selection operation button. We want you to be informed of the content, but after you are used to it, in order to confirm the content of the warning in a short time, you need to notify the content of the warning with only the minimum necessary words, etc. Can respond.
[0017]
A fifth invention is the patient monitoring device according to any one of the first to fourth inventions, wherein an alarm generated in the biological information measuring device is a highly urgent alarm based on a relationship stored in advance. The wireless communication device further includes a determination unit for determining whether or not the alarm is determined to be a highly urgent alarm by the determination unit. According to this, only the content of an alarm determined to be a highly urgent alarm by the determination means is transmitted from the wireless communication device, and an alarm that does not require urgency is not notified. It is possible to prevent the efficiency of the nursing work from being reduced by too much.
[0018]
Preferably, the patient monitoring apparatus according to the fifth aspect of the present invention further includes a switching operation button, and switching means for switching between a state in which the determination means functions and a state in which the determination means does not function based on the operation of the switching operation button. In the case where the determination means is functioned by the switching means from the wireless communication device, only warning information relating to the warning determined to be a highly urgent warning by the determination means is transmitted, and the switching means When the determination means is not functioning, all the alarm information relating to the alarm generated in the biological information measuring device is transmitted. In this way, when the notification of the alarm is not so frequent, it is desired to be notified of all the alarms, and because the notification of the alarm is frequent, only the contents of the alarm with high urgency are notified. It is possible to cope with any case where it is desired.
[0019]
A sixth invention is characterized in that the communication control means is configured to disconnect the line with the portable receiver after transmitting the alarm information. According to this, the line is automatically disconnected after the alarm information is transmitted, so the line does not remain in use even if the line is not disconnected on the portable receiver side. The problem that new alarm information cannot be transmitted due to being in the middle can be avoided.
[0020]
Further, a seventh invention is a portable receiver output time setting means for setting an alarm time zone for transmitting alarm information to a portable receiver based on an operation input of an operation button, and wherein the present time is set in advance. It is determined whether or not it is within the alarm time zone, and if it is within the preset alarm time zone, transmission of alarm information to the portable receiver is permitted, but it is outside the alarm time zone. In this case, the apparatus further comprises a warning time zone determining means for prohibiting transmission of the warning information to the portable receiver. According to this, a mode is set in which an alarm sound is automatically output from the portable receiver. Therefore, the mode in which the alarm sound is output from the portable receiver is not forgotten to be set, and patient monitoring is ensured.
[0021]
According to an eighth aspect of the present invention, when the portable receiver alarm mode is set, output sound suppression for suppressing an alarm output volume from a speaker provided in the patient monitoring apparatus main body to a preset value, for example, a minimum value. Means. According to this, when an alarm is output by the portable receiver, for example, the alarm output sound from the main body of the patient monitoring device installed in the nurse center is suppressed, so that the alarm sound in the ward at midnight is suppressed. Therefore, it is possible to preferably prevent the patient in the ward from sleeping comfortably. Preferably, the output sound suppressing unit is configured to monitor the patient when the portable receiver alarm mode is set and transmission of alarm information to the portable receiver is permitted by the alarm time zone determination unit. The apparatus further includes output sound suppressing means for suppressing an alarm output sound volume from a speaker provided in the apparatus main body to, for example, a minimum value.
[0022]
In a ninth aspect of the present invention, the alarm output volume from the speaker of the main body of the patient monitoring apparatus is longer than a predetermined time while the alarm output volume is being suppressed by the output sound suppressor. Further includes an output sound volume increasing means for increasing the alarm output sound volume suppressed by the output sound suppressing means. According to this, when the alarm state has not been resolved for more than the predetermined time, the volume of the alarm sound output from the speaker of the patient monitoring device increases from the state in which the output sound suppression unit has suppressed the alarm sound. Because of the increase in the volume of the alarm sound, the alarm condition of the patient can be resolved for a relatively long time even for nurses other than the nurse carrying the portable receiver to which the alarm information is transmitted. Since it has not been done, it is understood that urgent confirmation is necessary. Therefore, patient monitoring is ensured.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram showing a device configuration of a patient monitoring device 10 to which the present invention is applied.
[0024]
The patient monitoring device 10 is installed in a hospital. A plurality of (three in FIG. 1) bedside monitors 12 are installed for each of a plurality of beds and measure patient's biological information. A central monitor (patient monitoring device body) 14 to which the biological information measured at 12 is transmitted, and an in-hospital wireless communication system 16 that enables communication between the bedside monitor 12 and the central monitor 14 It is configured. The bedside monitors 12 installed one by one near each patient's bed function as a biological information measuring device, and based on signals from a biological signal sensor (not shown), the patient's electrocardiogram, heart rate, and respiration rate And a plurality of types of biological information such as blood pressure are measured continuously or intermittently. In the bedside monitor 12, the waveform detected by the biological signal sensor and the measured biological information are displayed on the display 12a, and it is determined whether the biological information is a predetermined abnormal value. When an abnormal value is determined, an alarm sound is output from the speaker 12b. However, the alarm sound output from the speaker 12b is usually transmitted from the central monitor 14 or the PHS 22 of the nurse center so as not to disturb other patients, except when there is a doctor, a caregiver, and a nurse on the bedside. In order to output an alarm, the operation is stopped by operating a button (not shown).
[0025]
The bedside monitor 12 further includes a transceiver 12c having a function of transmitting the measured biological information to the central monitor 14 and a function of receiving a signal such as an alarm stop signal transmitted from the central monitor 14. Have been.
[0026]
The central monitor 14 receives the biological information transmitted from each bedside monitor 12 and transmits and receives a signal to the bedside monitor 12, and a display that displays the biological information received by the transceiver 14 a. 14b, a speaker 14c that outputs an alarm in response to an alarm output from the bedside monitor 12 when driven by the driver 26, a plurality of operation buttons 14d, a voice synthesis transmission device 18, and the like. The central monitor 14 is disposed at a nurse station, which is a nurse's station, so that the nurse monitors the biological information of each bed.
[0027]
The in-hospital wireless communication system 16 is a general private branch exchange telephone device, and includes a private branch exchange (Private Branch Exchange (= PBX)) 20 and a plurality of PHSs 22 as portable receivers. One PHS 22 is carried by each nursing worker.
[0028]
FIG. 2 is a diagram showing the configuration of the speech synthesis transmission device 18 provided in the central monitor 14. The voice synthesizing transmission device 18 is a device for transmitting alarm information indicating the content of an alarm generated by each bedside monitor 12 or the central monitor 14 to a predetermined PHS 22 as voice, a sound card 18a functioning as a voice synthesizing device, An amplifier 18b and a wireless communication device 18c are provided. The content of the alarm includes at least information indicating which bedside monitor 12 has generated the alarm, and indicates the type of alarm, that is, information indicating which biological information has an abnormal value, or a device trouble. Is included. Furthermore, the content of the alarm may include information indicating the number of biological information for which an alarm has occurred, information indicating a specific numerical value of the biological information for which an alarm has been generated, and the like.
[0029]
The sound card 18a has a predetermined voice synthesis selected from a plurality of types of voice synthesis signals representing a plurality of types of messages stored in advance from the arithmetic and control unit 24 provided in the central monitor 14 according to the contents of the alarm. A signal is input, and when a voice synthesis signal is input to the sound card 18a, voice is synthesized based on the voice synthesis signal and output to the amplifier 18b. The audio is amplified by the amplifier 18b, and the audio output from the amplifier 18b is input to an earphone microphone terminal (not shown) of the wireless communication device 18c via the audio data cable 18d. The wireless communication device 18c has a PHS function, and functions as a communication terminal device of the in-hospital wireless communication system 16. The voice input to the earphone microphone terminal is transmitted to a predetermined PHS 22 via the private branch exchange 20 by controlling the wireless communication device 18c by the arithmetic and control unit 24.
[0030]
The arithmetic and control unit 24 is a so-called microcomputer having a CPU, a ROM, a RAM, an input / output interface and the like (not shown), and has, for example, the functions shown in FIG. FIG. 3 is a functional block diagram showing a main part of the control function of the arithmetic and control unit 24. Hereinafter, the control function of the arithmetic and control unit 24 will be described with reference to FIG.
[0031]
The biological information display means 30 displays the biological information transmitted from the bedside monitor 12 and received by the transceiver 14a on the display 14b. The alarm generating means 32 determines that the biological information received by the transceiver 14a is an abnormal value outside the predetermined normal range, that is, a value within the predetermined abnormal range (in this case, the bed The alarm is also generated in the side monitor 12) indicates which patient's bedside monitor 12 is abnormal and which biological information is abnormal (or whether the measuring device is abnormal). The contents of the alarm are displayed on the display 14b, and an alarm sound is output from the speaker 14c.
[0032]
The determining unit 34 determines whether the alarm is a highly urgent alarm based on the alarm generated by the alarm generating unit 32 based on a relationship stored in advance. The relationship stored in advance determines whether the alarm is a highly urgent alarm or a non-emergency alarm for all types of alarms generated by the alarm generating means 32. .
[0033]
The switching unit 36 includes a transmission content selection mode in which the determination unit 34 is functioned and an all-alarm transmission mode in which the determination unit 34 is disabled based on the operation of the operation button 14d functioning as a switching operation button. Switch between modes.
[0034]
The correspondence determining means 38 stores the actual plurality of bedside monitors 12 based on the operation of the operation buttons 14d in order to store the correspondence between the patient and the PHS 22 possessed by the nurse in charge of the patient. And a plurality of PHSs 22 are set. In normal nursing work, each bed patient is supposed to be in charge of one or several nursing staff members associated therewith. Therefore, the bedside monitor 12 for measuring the biological information of each patient is provided. The correspondence between the PHS 22 carried by the nurse and the correspondence between the actual patient and the nurse in charge is matched.
[0035]
When there are a plurality of nurses in charge of each patient, one bedside monitor 12 and a plurality of PHSs 22 correspond to each other, but there are a plurality of nurses in charge of each patient. In this case, even among the plurality of nurses in charge, it is determined which nurse has priority over the patient. Therefore, in such a case, the priority between the plurality of PHSs 22 is determined for the relationship between the bedside monitor 12 and the plurality of PHSs 22 corresponding to the bedside monitor 12. For example, nursing workers A, B, and C are in charge of a certain patient (hereinafter referred to as patient 1), and among the three nursing workers, patient 1 is mainly in charge of nursing. The worker A is the nurse A when the nurse A cannot take charge of the patient 1 for some reason, and the nurse C takes charge when the nurse B cannot take charge of the patient 1. When the priorities are determined as described above, the bedside monitor 12 that measures the biological information of the patient 1 and the three PHSs 22 (each of which is carried by the nurses A, B, and C, respectively) PHS22 (A), PHS22 (B), and PHS22 (C)), and among these three PHS22, PHS22 (A) has the highest priority, followed by PHS22 (B), PHS22 (C Priority is determined in the order.
[0036]
The relation selection means 40 includes a plurality of types of a plurality of types of alarm contents and a message representing the same, which are stored in advance in the relation storage device 42 in order to convert the contents of the alarm generated by the alarm generation means 32 into voice. From the voice conversion relationship, one voice conversion relationship is selected based on the operation of the operation button 14d functioning as a selection operation button. As will be described later, the patient monitoring apparatus 10 of the present embodiment synthesizes a voice by inputting a voice synthesis signal to the sound card 18a. A plurality of types of relationships for determining the above-mentioned speech synthesis signal are stored. Note that the relation storage device 42 is provided in the central monitor 14, and for example, an EPROM or a flash memory is used.
[0037]
As described above, the plurality of voice conversion relations stored in the relation storage device 42 include, for example, a first relation for converting the contents of an alarm into a text-form sound, and a method for converting the contents of the alarm into necessary words. A second relation for converting into a voice consisting only of voices, and a third relation in which the contents of an alarm are converted into voice in a sentence format, but the output time is shorter than the above-mentioned standard relation (output with a quick voice) and so on.
[0038]
The voice synthesizing unit 44 includes a voice synthesizing signal determining unit 46 and the sound card 18a. The voice synthesis signal determination means 46 uses the voice conversion relation selected by the relation selection means 40 based on the alarm generated by the alarm generation means 32 to perform voice synthesis for synthesizing voice in the sound card 18a. Determine the signal, that is, the character string code. When the character string code is input to the sound card 18a, the content of the alarm generated by the alarm generating means 32 is converted into a voice. In the patient monitoring device 10 according to the present embodiment, the sound synthesized by the sound card 18a is the alarm information.
[0039]
The communication control unit 48 controls the speech synthesis signal determination unit 46 and the wireless communication device 18c to call a predetermined PHS 22, and transmits the alarm information synthesized by the sound card 18a to the PHS 22. Here, the PHS 22 to which the alarm information is to be transmitted is determined based on a signal from the alarm generating means 32, which bedside monitor 12 is generating an alarm, and the determined bedside monitor is determined. 12 and the correspondence set in advance by the correspondence determination means 38. Further, when the judgment means 34 is not operated, the alarm information is always transmitted to the predetermined PHS 22 when the alarm is generated by the alarm generation means 32, but the judgment means 34 is operated. When the alarm is present, the alarm information is transmitted to the predetermined PHS 22 only when the alarm is determined to be an alarm with high urgency by the determination means 34.
[0040]
When there are a plurality of PHSs 22 for transmitting the alarm information, the communication control means 48 calls the PHSs 22 in descending order of priority among the plurality of PHSs 22. The PHS 22 with the highest rank is called. When the line is connected, the warning information is output a predetermined number of times (for example, twice) and read out, and then the line is automatically disconnected.
[0041]
The portable receiver alarm mode setting means 72 sets the portable receiver alarm mode in accordance with the operation of the operation button 14d, or cancels the portable receiver alarm mode. The transmission of the alarm information to the PHS 22 by the communication control means 48 for the alarm remote output from the PHS 22 functions when the portable receiver alarm mode is set. The portable receiver alarm mode determining means 74 determines whether the portable receiver alarm mode is set by the portable receiver alarm mode setting means 72 or not.
[0042]
The portable receiver output time setting means 76 sets an alarm time zone for transmitting alarm information to the PHS 22 based on the operation input of the operation button 14d. This warning time zone is usually set to a night shift time zone when the number of nurses is small, for example, a time zone from 20:00 to 5:00. The alarm time zone determination means 78 determines whether or not the current time is within the preset alarm time zone, and if it is within the preset alarm time zone, transmits the alarm information to the PHS 22. The transmission of the alarm information is permitted, but the transmission of the alarm information to the PHS 22 is prohibited when it is out of the alarm time zone.
[0043]
The output sound suppressing means 80 determines that the portable receiver warning mode is set by the portable receiver warning mode determining means 74, and permits the transmission of warning information to the PHS 22 by the warning time zone determining means 78. If so, controlling the driver 26 that drives the speaker 14c of the central monitor 14 suppresses the alarm output volume from the speaker 14c to, for example, the lowest value.
[0044]
The output sound volume increasing means 82 has a preset time when the alarm sound is output from the speaker 14c of the central monitor 14 by the alarm generating means 32 in a state where the alarm output sound volume is suppressed by the output sound suppressing means 80. If the predetermined time has elapsed, the alarm output volume suppressed by the output sound suppression means 80 is increased to a preset output volume by controlling the driver 26. Here, the alarm output sound volume after the increase may be the output sound volume before being suppressed by the output sound suppressing means 80, or may be an even larger output sound volume.
[0045]
4 to 6 are flowcharts showing a main part of the control function of the arithmetic and control unit 24. FIG. 4 shows a main routine, and FIG. 5 shows that the PHS 22 needs to be notified of an alarm in the main routine. FIG. 6 shows an alarm volume increase control routine for increasing the volume of the alarm sound output from the speaker 14c of the central monitor 14 after a predetermined time. Steps corresponding to the correspondence determining means 38 for determining the correspondence between the plurality of bedside monitors 12 and the plurality of PHSs 22 and the plurality of voice conversion relations stored in the relation storage device 42 in advance. Steps corresponding to the relation selecting means 40 for selecting one voice conversion relation from are performed as an initial setting before the flow chart of FIG. 4 is executed.
[0046]
In FIG. 4, at step (hereinafter, step is omitted) SA1, the biological information transmitted from the bedside monitor 12 and received by the transceiver 14a is read. Note that not only the biological information but also a signal indicating a failure or a connection abnormality of a device for measuring the biological information provided in the bedside monitor 12 is transmitted from the bedside monitor 12. The signal is also read. In SA2 corresponding to the biological information display means 30, the biological information read in SA1 is displayed on the display 14b.
[0047]
In subsequent SA3, it is determined whether or not the biological information read in SA1 is a preset abnormal value. Note that the determination of SA3 is affirmative also when the signal read in SA1 is a signal indicating a failure or connection abnormality of the device measuring the biological information. While the determination in SA3 is denied, the above steps SA1 and below are repeatedly executed. On the other hand, if the determination of SA3 is affirmative, SA4 and subsequent steps are performed. In SA4, the display 14b indicates which biological information of which patient is abnormal, and an alarm sound is output from the speaker 14c. SA3 to SA4 correspond to the alarm generating means 32.
[0048]
In subsequent SA5, it is determined whether or not the mode is the transmission content selection mode. If the determination in SA5 is affirmative, in SA6 corresponding to the determination means 34, it is determined whether the alarm determined to be abnormal in SA3 is a highly urgent alarm. For example, if the alarm is due to the removal of the electrode for detecting the electrocardiogram, the determination is negative. If the determination in SA6 is denied, the above-mentioned SA1 and subsequent steps are repeated again. It is determined whether the mode is set.
[0049]
If the determination in SA7 is denied, the above SA1 and subsequent steps are repeatedly executed. If the determination is affirmative, in SA8 corresponding to the in-warning-time-zone determining means 78, the current time is transmitted to the PHS 22. It is determined whether or not it is within a preset alarm time period for performing the operation. If the determination in SA8 is negative, the above-described SA1 and subsequent steps are repeated again. If the determination is affirmative, the driver 26 that drives the speaker 14c of the central monitor 14 is controlled in SA9 corresponding to the output sound suppressing means 80. By doing so, the alarm output volume from the speaker 14c is suppressed to, for example, the minimum value. Since the determinations in SA5 to SA8 are performed in a very short time, the execution of SA9 causes the alarm sound to be output in the SA4 with the alarm output volume suppressed from the beginning. You.
[0050]
Next, the alarm notification routine of FIG. 5 and the alarm volume increase control routine of FIG. 6 are executed. The routines of FIGS. 5 and 6 are executed in parallel with each other and in parallel with the main routine of FIG. 4 by interrupt processing or time division processing.
[0051]
First, the alarm notification routine of FIG. 5 will be described. In SB1, the correspondence between a plurality of bedside monitors 12 and a plurality of PHSs 22 set in advance prior to the execution of this flowchart and a call from the bedside monitor 12 in which an abnormality is detected in SA3 in FIG. One or a plurality of PHSs 22 are determined.
[0052]
In subsequent SB2, the wireless communication device 18c calls the PHS 22 determined in SB1. When there are a plurality of PHSs 22 determined in SB1, the one with the highest priority is called out first.
[0053]
In subsequent SB3, it is determined whether or not the line to the called PHS 22 has been connected. If this determination is denied, it is determined in the subsequent SB4 whether a predetermined switching time has elapsed. The switching time is a time during which a ringing tone is sounded for one PHS 22, and is set to, for example, 10 seconds.
[0054]
If the determination at SB4 is negative, the steps from SB2 onward are directly executed and the call to the same PHS 22 is continued as it is. On the other hand, if the determination in SB4 is affirmative, in SB5, the calling destination is changed to the PHS22 having the second highest priority next to the currently calling PHS22, and then the above SB2 and subsequent steps are executed again. However, if the determination of SB4 is affirmative in a state where the currently called PHS 22 is the PHS 22 with the lowest priority, the PHS 22 with the highest priority is determined again as the call destination and the SB 2 and lower are executed. Is done. In this way, SB2 to SB5 are repeated until any PHS 22 is connected to the line.
[0055]
If the determination at SB3 is affirmative during the repetition of SB2 to SB5, the control proceeds to SB6 corresponding to the voice synthesis signal determination means 46, based on the contents of the alarm output at SA4 in FIG. The character string code is determined using the conversion relationship, and the determined character string code is output to the sound card 18a. The output of the character string code is repeated a predetermined number of times (for example, twice). In addition, since the main routine of FIG. 4 is sequentially performed during the repetition of SB2 to SB5, the initial routine of FIG. Although it is assumed that the contents of the alarm are different, the character string code is determined based on the latest contents of the alarm in SB6.
[0056]
When the character string code is input to the sound card 18a, a sound corresponding to the character string code, that is, alarm information is output. Since the sound output from the sound card 18a is input to the earphone microphone terminal of the wireless communication device 18c via the sound data cable 18d, alarm information is output as sound from the PHS 22 to which the line is connected. Since the output of the character string code is repeated a predetermined number of times, the alarm information is also read out from the PHS 22 repeatedly a predetermined number of times.
[0057]
After the character string code has been output a predetermined number of times, the line is disconnected from the central monitor 14 in SB7. The SB1 to SB5 and the SB7 correspond to the communication control means 48. Note that even when the alarm notification routine in FIG. 5 is being performed, if the biological information is normalized or if the alarm stop button is operated on the central monitor 14, the alarm notification routine in FIG. Forced termination.
[0058]
Next, an alarm volume increase control routine of FIG. 6 will be described. Note that SC1 to SC3 shown in FIG. 6 correspond to the output volume increasing means 82. First, in SC1, it is determined whether or not the state where the alarm sound is being output from the speaker 14c of the central monitor 14 is continued. If this determination is denied, this routine is terminated. However, if this determination is affirmed, the elapsed time from the start of outputting the alarm sound from the speaker 14c of the central monitor 14 in SC2 is set in advance. It is further determined whether or not a set predetermined time has elapsed.
[0059]
If the determination at SC2 is negative, the determination at SC1 is executed again. On the other hand, when the determination of SC2 is affirmed, in SC3, by controlling the driver 26 that drives the speaker 14c of the central monitor 14, the volume of the alarm sound output from the speaker 14c is reduced. From the suppressed state, the output volume is increased to the initial output volume or an even higher output volume.
[0060]
As described above, in the patient monitoring device 10 according to the present embodiment, when an alarm is generated, the content of the alarm is output as a sound from the PHS 22 carried by the nursing worker, so that the Can be confirmed. Therefore, it is not necessary to go to a place where an alarm information display device such as a nurse station is installed in order to confirm the contents of the alarm, in addition to reliably notifying the nursing staff of the alarm. Efficiency is improved. Also, if the contents of the alarm can be checked on the spot, the efficiency of nursing work can be improved because it is possible to determine on the spot whether the priority should be given to the current job or the job for the patient for whom the alarm was notified. Can be
[0061]
Further, in the patient monitoring device 10 of the present embodiment, the plurality of PHSs 22 are prioritized for each bedside monitor 12 by the correspondence determining means 38 based on the correspondence between the nurse and the patient in charge of the nurse. The communication control means 48 (SB1 to SB5, SB7) makes the PHS 22 determined based on the correspondence determined by the bedside monitor 12 and the correspondence determination means 38 in which the alarm has occurred. Are transmitted in descending order of priority, so that the nursing worker can obtain only the necessary alarm information for the patient in charge of the patient, and the contents of the alarm can be sent to the appropriate nursing staff. Be notified promptly.
[0062]
In addition, in the patient monitoring device 10 of the present embodiment, since the expression of the content of the alarm output as a sound can be selected by the relation selection means 40 based on the operation of the operation button 14d, the patient monitoring device 10 is initially installed. Wants to notify the contents of the warning in the form of sentences, but after getting used to it, in order to confirm the contents of the warning in a short time, we want the contents of the warning to be notified with only the minimum necessary words, etc. Can respond to user requests.
[0063]
In the patient monitoring apparatus 10 of the present embodiment, only the contents of the alarm determined to be a highly urgent alarm by the judging means 34 (SA6) are transmitted from the wireless communication device 18c. Since no notification is made, it is possible to prevent the contents of the alarm from being notified too often, and thereby to prevent the efficiency of the nursing work from decreasing.
[0064]
Further, in the patient monitoring device 10 of the present embodiment, the switching unit 36 can switch between a state in which the determination unit 34 (SA6) is functioning and a state in which the determination unit 34 (SA6) is not functioning based on the operation of the operation button 14d. Notification is not so frequent, and you want to be notified of all alerts, and if you want to be notified only of urgent alerts because of frequent notification of alerts It can respond to cases.
[0065]
Further, in the patient monitoring device 10 of the present embodiment, after the alarm information is transmitted, the line is automatically disconnected on the central monitor 14 side, so that the line is used even if the line is not disconnected on the PHS 22 side. Since it does not remain inside, it is possible to avoid a problem that new alarm information cannot be transmitted because the line is in use.
[0066]
Further, in the patient monitoring device 10 of the present embodiment, the portable receiver output time setting means 76 for setting an alarm time zone for transmitting alarm information to the PHS 22 based on the operation input of the operation button 14d; Is determined to be within the preset alarm time zone, and if it is within the preset alarm time zone, the transmission of the alarm information to the PHS 22 is permitted. If it is outside, the alarm time zone determination means 78 for prohibiting the transmission of the alarm information to the PHS 22 is further provided, so that the PHS 22 automatically outputs an alarm sound. Therefore, there is no need to forget to set the mode in which the PHS 22 outputs the alarm sound, and the patient monitoring is ensured.
[0067]
In the patient monitoring apparatus 10 of the present embodiment, when the portable receiver alarm mode is set and the transmission of the alarm information to the PHS 22 is permitted by the alarm time zone determination means 78, the central monitor 14 Since the output sound suppression means 80 for suppressing the alarm output volume from the speaker 14c provided to the (patient monitoring device main body) to, for example, the minimum value is further included, when the PHS 22 outputs an alarm, Since the alarm output sound from the installed central monitor 14 is suppressed, the sound of the alarm in the ward at midnight is suppressed, and it is possible to preferably prevent the patient in the ward from sleeping comfortably.
[0068]
Further, in the patient monitoring device 10 of the present embodiment, when the alarm state is not resolved for more than a predetermined time by the output sound volume increasing means 82 (SC1 to SC3), the alarm is output from the speaker 14c of the central monitor 14. Since the volume of the alarm sound is increased from the state suppressed by the output sound suppression means 80 (SA9), the PHS 22 to which the alarm information is transmitted is carried by the increase in the volume of the alarm sound. It can be seen that even the nurses other than the nurses need urgent confirmation because the alarm condition of the patient has not been resolved for a relatively long time. Therefore, patient monitoring is ensured.
[0069]
Next, another embodiment of the present invention will be described. Note that, in the following description, portions having the same configuration as the above-described embodiment are denoted by the same reference numerals, and description thereof will be omitted.
[0070]
FIG. 7 is a diagram showing a device configuration of a patient monitoring device 50 different from the patient monitoring device 10 described above. The patient monitoring device 50 shown in FIG. 7 includes a nurse call system 52, a plurality of bedside monitors 12, and one central monitor 54.
[0071]
The nurse call system 52 is a known nurse calling system, and includes a PHS 22 carried by each nurse and a nurse call system main body 56 having a function as a calling device for calling the PHS 22. In the nurse call system 52, when the patient presses a call button (not shown), a call pulse is transmitted to the nurse call system main body 56, and based on the call pulse, a ringing sound is made at the nurse station and the nurse call system main body 56 Calls a predetermined PHS 22 corresponding to the patient. That is, in the present patient monitoring device 50, a function corresponding to the above-described correspondence determination unit 38 is provided in the nurse call system 52. Further, the nurse call system main body 56 also has a function corresponding to the wireless communication device 18c in the above-described embodiment.
[0072]
The central monitor 54 includes a voice synthesis transmission device 58, and the voice synthesis transmission device 58 has a configuration shown in FIG. As shown in FIG. 8, the speech synthesis transmission device 58 includes a sound card 18a and an amplifier 18b for amplifying the speech synthesized by the sound card 18a, similarly to the speech synthesis transmission device 18 of the above-described embodiment. The sound synthesized by the sound card 18a and amplified by the amplifier 18b is sent to the nurse call system main body 56 via the cable 60 and the interface box 62. The voice synthesizing transmission device 58 is provided with a relay 64. When an alarm is generated in the arithmetic and control unit 66 provided in the central monitor 54, a predetermined pulse signal is input from the arithmetic and control unit 66. You. When the pulse signal is input to the relay 64, a call pulse is generated, and the call pulse is supplied to the nurse call system main body 56 via the cable 68 and the interface box 62.
[0073]
The arithmetic and control unit 66 is a so-called microcomputer having a CPU, a ROM, a RAM, and the like (not shown), and has the functions shown in FIG. In the present patient monitoring device 50, since the nurse call system main body 56 has a function corresponding to the correspondence determination means 38 of the arithmetic and control unit 24 in the patient monitoring device 10, the arithmetic and control unit 66 Is not provided with the correspondence relation determining means 38. The only difference between the control function of the arithmetic and control unit 66 and the control function of the arithmetic and control unit 24 is the communication control means 70.
[0074]
As described above, in the present patient monitoring device 50, when the call button is pressed on the patient side, which PHS 22 is called is controlled by the nurse call system main body 56. Therefore, the communication control unit 70 is in the state where the alarm is being generated by the alarm generation unit 32 and the judgment unit 34 is not functioning, or the alarm is generated by the alarm generation unit 32. At that time, when the alarm is determined to be a highly urgent alarm by the determination means 34, a signal for generating a call pulse indicating which patient is generating an alarm at the relay 64 is output to the relay 64. 64. The control of the communication control means 70 on the voice signal determination means 46 is the same as that of the communication control means 48 of the above-described embodiment.
[0075]
When a call pulse indicating which patient is generating an alarm is supplied from the relay 64 to the nurse call system main body 56 via the interface box 62 and alarm information is supplied from the voice synthesis means 44, the nurse call system In the main body 56, the predetermined PHS 22 is called and the alarm information is transmitted, so that the same effect as the above-described patient monitoring device 10 can be obtained in the present patient monitoring device 50.
[0076]
As mentioned above, although one Example of this invention was described based on drawing, this invention is applied also to another aspect.
[0077]
For example, in the patient monitoring devices 10 and 50 described above, the biological information measured by the bedside monitor 12 is temporarily transmitted to the central monitor 14, and the alarm information is transmitted from the central monitor 14 to the private branch exchange 20 or the nurse call system main body 56. However, it may be transmitted directly from the bedside monitor 12 to the private branch exchange 20 or the nurse call system main body 56. In this case, the speech synthesis transmission devices 18 and 58 are provided in the bedside monitor 12.
[0078]
Further, in the above-described patient monitoring devices 10 and 50, the voiced contents of the alarm are transmitted to the PHS 22 as the alarm information. However, even if a digital signal indicating the contents of the alarm is transmitted to the PHS 22 as the alarm information. Good. In this case, the PHS 22 is provided with a voice synthesizer for synthesizing voice from the digital signal.
[0079]
Although the embodiments of the present invention have been described in detail with reference to the drawings, this is merely an embodiment, and the present invention is embodied in various modified and improved forms based on the knowledge of those skilled in the art. Can be.
[Brief description of the drawings]
FIG. 1 is a diagram showing a device configuration of a patient monitoring device to which the present invention is applied.
FIG. 2 is a diagram showing a device configuration of a speech synthesis transmission device provided in the central monitor of FIG. 1;
FIG. 3 is a functional block diagram showing a main part of a control function of an arithmetic and control unit provided in the central monitor of FIG. 1;
FIG. 4 is a flowchart showing a main part of a control function of an arithmetic and control unit provided in the central monitor of FIG. 1, and shows a main routine.
5 is a flowchart showing a main part of a control function of an arithmetic and control unit provided in the central monitor of FIG. 1, and is executed when it is determined in the main routine of FIG. 4 that an alarm needs to be notified; This is a warning notification routine.
6 is a flowchart showing a main part of a control function of an arithmetic and control unit provided in the central monitor of FIG. 1, wherein an alarm volume increase for increasing a volume of an alarm sound output from a speaker of the central monitor after a predetermined time; This is a control routine.
FIG. 7 is a diagram showing a device configuration of a patient monitoring device different from the patient monitoring device of FIG. 1;
8 is a diagram showing a device configuration of a speech synthesis transmission device provided in the central monitor of FIG. 7;
9 is a functional block diagram showing a main part of a control function of an arithmetic and control unit provided in the central monitor of FIG. 7;
[Explanation of symbols]
10: Patient monitoring device
12: Bedside monitor (biological information measuring device)
14d: operation button (selection operation button)
18a: Sound card (voice synthesizer)
18c: Wireless communication device
22: PHS (Portable Receiver)
34: determination means
38: Correspondence determination means
40: Relationship selection means
48: Communication control means
50: Patient monitoring device
70: Communication control means
74: portable receiver alarm mode determination means
76: Portable receiver output time setting means
78: Warning time zone determination means
80: output sound suppressing means
82: output volume increasing means

Claims (9)

A patient monitoring device that includes a biological information measurement device that measures biological information of a patient, and that generates an alarm when the biological information is abnormal,
A wireless communication device that transmits alarm information indicating the content of the alarm via a wireless communication line,
A patient receiver carried by a nursing worker, connected to the wireless communication device by the wireless communication line, and outputting alarm information transmitted from the wireless communication device as voice. The patient monitoring device according to claim 1, comprising a plurality of the biological information measurement device and the portable receiver, respectively.
Correspondence determining means for determining a correspondence between the plurality of biological information measuring devices and the plurality of portable receivers based on a correspondence between a patient and a nurse in charge of the patient,
The wireless communication device transmits alarm information indicating the content of an alarm generated in the biological information measuring device to a portable receiver determined based on the correspondence determined by the biological information measuring device and the correspondence determining unit. A patient monitoring device further comprising communication control means. The patient monitoring device according to claim 1, comprising a plurality of the biological information measurement device and the portable receiver, respectively.
Based on the correspondence relationship between a plurality of nurses and a plurality of patients respectively in charge of the nurses, a correspondence relationship in which a plurality of portable receivers are associated with each of the biological information measuring devices with a priority order. Correspondence determining means for determining;
From the wireless communication device, the alarm information indicating the content of the alarm generated in the biological information measuring device, to a plurality of portable receivers determined based on the correspondence determined by the biological information measuring device and the correspondence determining means And a communication control means for sequentially transmitting data in the descending order of priority. A selection operation button,
From a plurality of voice conversion relationships stored in advance for converting the content of an alarm generated in the biological information measurement device into voice, a relationship selection unit that selects one voice conversion relationship based on the operation of the selection operation button. ,
A voice synthesizing device that converts the content of an alarm generated in the biological information measuring device into a voice based on the voice conversion relationship selected by the relationship selecting unit,
The patient monitoring device according to any one of claims 1 to 3, wherein a voice synthesized by the voice synthesis device is output from the portable receiver. Based on the relationship stored in advance, further includes a determination unit that determines whether the alarm generated in the biological information measuring device is a high urgency alarm,
The patient monitoring device according to claim 1, wherein only the alarm information regarding the alarm determined to be a highly urgent alarm by the determination unit is transmitted from the wireless communication device. . 4. The patient monitoring device according to claim 2, wherein the communication control unit is configured to disconnect a line with the portable receiver after transmitting the alarm information. Portable receiver output time setting means for setting an alarm time zone for transmitting alarm information to the portable receiver based on an operation input; and whether or not the current time is within the preset alarm time zone If it is within the preset alarm time period, the transmission of the alarm information to the portable receiver is permitted, but if it is outside the alarm time period, the alarm information to the portable receiver is permitted. 7. The patient monitoring apparatus according to claim 1, further comprising: an alarm time zone determination unit that prohibits transmission of the information. When the portable receiver alarm mode is set, the apparatus further includes output sound suppressing means for suppressing an alarm output volume from a speaker provided in the patient monitoring device main body to a preset value. 7. The patient monitoring device according to any of 7. If the time during which an alarm is output from the speaker of the patient monitoring apparatus main body in a state where the output sound volume is suppressed by the output sound suppression unit exceeds a predetermined time, the output sound suppression is performed. 9. The patient monitoring device according to claim 8, further comprising output volume increasing means for increasing the alarm output volume suppressed by the means.

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