JP2023170097A - nurse call system - Google Patents

Abstract

To provide a nurse call system that can suppress the occurrence of communication loss between a patient and a nurse.SOLUTION: A nurse call system 100 includes a nurse call handset 1 for a patient to call a nurse, a hallway light 2 that notifies the occurrence of a call by the nurse call handset 1, and a nurse call main unit 3 that answers the call. The nurse call system 100 further includes an alarm unit installed near the bed in a hospital room, and a control unit that causes the alarm unit to periodically issue a predetermined message at a predetermined timing. The predetermined messages include a first message for prompting the patient to operate the nurse call handset 1.SELECTED DRAWING: Figure 1

Description

The present invention relates to a nurse call system.

When a patient or cared person on a bed tries to get up or leave the bed, there is a risk that the patient may fall off the bed or fall.
For example, Patent Document 1 discloses a nurse call system that detects a patient's rising motion from an image captured by a camera, and then determines that the patient has left the bed or fallen and operates to notify the patient if the patient leaves the bed.

Japanese Patent Application Publication No. 2016-59704

By the way, many patients feel that there is a psychological hurdle to actively pressing the nurse call handset. Therefore, even if a patient requires assistance from a nurse, a call is not made through the nurse call handset, and the nurse and patient can communicate at the appropriate time or the nurse can rush to the hospital. This may result in communication loss between patients and nurses.

SUMMARY OF THE INVENTION In view of these problems, it is an object of the present invention to provide a nurse call system that can suppress the occurrence of communication loss between patients and nurses.

In order to solve the above problems, the nurse call system according to the present invention includes:
A nurse call device that includes a nurse call handset for a patient to call and talk to a nurse, a hallway light that notifies the occurrence of a call by the nurse call handset, and a nurse call main device for responding to the call. A system,
A sound alarm unit installed near the bed in the hospital room,
a control unit that causes the alarm unit to periodically issue a predetermined message at a predetermined timing;
It also has:

According to the present invention, it is possible to provide a nurse call system that can eliminate psychological hurdles for patients to actively press the nurse call handset to make a call.

1 is a configuration diagram showing an example of a nurse call system including a patient monitoring system according to the present invention. FIG. 2 is a block diagram of a hallway light included in the nurse call system of FIG. 1. FIG. FIG. 2 is a block diagram of a camera included in the nurse call system of FIG. 1. FIG. FIG. 2 is a flowchart related to operation example 1 of the nurse call system of FIG. 1. FIG. FIG. 6 is an image diagram showing an example of a calling function according to operation example 1; 2 is a flowchart regarding an example 2 of operation of the nurse call system of FIG. 1. FIG. 3 is a flowchart related to operation example 3 of the nurse call system of FIG. 1. FIG. FIG. 7 is an image diagram showing an example of a calling function according to operation example 3;

Hereinafter, embodiments embodying the present invention will be described in detail with reference to the drawings. FIG. 1 is a configuration diagram showing an example of a nurse call system according to the present invention.
As shown in FIG. 1, the nurse call system 100 includes a nurse call handset 1 installed in each bed for patients to call a nurse, and a nurse call handset 1 installed in front of a patient's room to notify the patient of the occurrence of a call and to notify patients in the patient's room of the call. A hallway light 2 that displays information, a nurse call base unit 3 that notifies and responds to calls from patients at the nurse station, and a mobile phone such as a smartphone that nurses carry to respond to calls from patients. A terminal 4, a base station 5 such as an access point that communicates with the mobile terminal 4, an exchange 6 that manages communication via the base station 5, a controller 7 that controls calls/calls, and a device for imaging a patient. It is equipped with a camera 8 installed on the wall or ceiling of the hospital room.

The hallway light 2, the nurse call base unit 3, and the exchange 6 are connected to the controller 7 by a LAN line L1. The nurse call handset 1 is connected to the hallway light 2 of each hospital room by a transmission line L2. The camera 8 is connected to the hallway light 2 in the hospital room via a transmission line L3.

A nurse call handset 1 (hereinafter sometimes simply referred to as a "slave handset") includes a call button 1a, a microphone 11 and a speaker 12 installed on a wall near the bed for communicating with a nurse. It is equipped with a plate slave unit 1b. The call button 1a is connected to the plate handset 1b.

The hallway light 2 includes an indicator light 21 and a patient information display section 22. The indicator light 21 flashes to notify that the patient in the hospital room has operated the handset 1 to make a call. The patient information display section 22 is a display area for displaying the names of patients in the hospital room. As shown in the block diagram of FIG. 2, the hallway light 2 further includes a posture detection section 23, a message storage section 24, a text conversion/storage section 25, a hallway light CPU 26, and a hallway light communication interface (IF) 27. It has . The hallway light CPU 26 controls each part of the hallway light 2. Corridor light communication IF 27 communicates with controller 7 , camera 8 , and slave unit 1 .
Note that the hallway light 2 in FIG. 1 shows the hallway light 2 of a four-person hospital room, and is capable of displaying information on four patients. The camera 8 is set to image one particular patient. In the case of a four-person hospital room, each camera 8 may be provided to take an image of each patient.

The hallway light CPU 26 is configured by, for example, an electronic control unit (ECU). The electronic control unit includes a microcontroller including a processor and memory, and other electronic circuits (eg, transistors, etc.). The processor is, for example, a CPU (Central Processing Unit), an MPU (Micro Processing Unit), and/or a GPU (Graphics Processing Unit). The memory includes a ROM (Read Only Memory) in which various control programs (for example, artificial intelligence (AI) programs, etc.) are stored, and a RAM (Random Access Memory) in which various control data are temporarily stored. The processor is configured to load programs specified from various control programs stored in the ROM onto the RAM, and execute various processes in cooperation with the RAM.

The posture detection unit 23 analyzes the image captured by the camera 8 connected to the hallway light 2 and detects a specific posture of the patient. Specifically, the posture detection unit 23 detects a plurality of postures of the patient from the image captured by the camera 8, such as a posture with the upper body raised, a posture sitting on the edge of the bed, a posture standing up on the side of the bed, etc. do. Changes in the patient's posture are detected by extracting the shape of the patient based on images captured by the camera 8. As an algorithm for extracting the patient's shape, for example, a known moving object detection method, an identification method using feature amounts based on SIFT (Scale Invariant Feature Transform), or SURF (Speed-Up Robust Features), etc. may be used. Deep Learning may also be used. Alternatively, the posture detection unit 23 may detect a change in the patient's condition by detecting information regarding the human body skeleton of the patient from the image captured by the camera 8 . Specifically, the posture detection unit 23 estimates the patient's skeleton and joints based on the captured image. As a method for estimating the skeleton and joints, for example, existing skeleton tracking technology can be used. Note that the posture detection unit 23 may estimate one of the skeleton and joints of the target person as the skeleton information.

The message storage unit 24 stores messages to be notified to patients in the hospital room. Specifically, the message storage unit 24 stores multiple types of messages depending on patient attributes. For example, in the case of a patient who requires a periodic message beep, the hallway light CPU 26 selects the periodic message from the message storage section 24 and transmits the data of the periodic message to the camera 8. Alternatively, the message storage unit 24 may store multiple types of messages corresponding to multiple patient postures detected by the posture detection unit 23. For example, when the posture detection section 23 detects a specific posture of the patient, the hallway light CPU 26 selects a predetermined message corresponding to the specific posture from the message storage section 24, and sends the data of the predetermined message to the camera 8. and send. The camera 8, which has received the message data from the hallway light 2, sounds the message from the sound reporting section 86, which will be described later.

The text conversion/storage unit 25 converts audio data collected in the hospital room into text data and stores the text data.

In this example, the posture detection section 23, the message storage section 24, and the text conversion/storage section 25 are provided separately from the hallway light CPU26, but the hallway light CPU26 is connected to the posture detection section 23, the message storage section 24, and the text conversion/storage section 25. It may be configured to include the function of the text conversion/storage unit 25.

Returning to FIG. 1, the nurse call base unit 3 (hereinafter sometimes simply referred to as the "base unit") includes a handset 31 as a talking unit for responding to calls using the handset 1, and a list of patient information. A first display 32 for displaying a ward map, a second display 33 for displaying caller information, and the like are provided.

The camera 8 is installed on the wall above the bed, and is installed so as to take an image centered on the patient (see FIG. 5). FIG. 3 shows a block diagram of the camera 8.
As shown in FIG. 3, the camera 8 includes a camera CPU 81 that controls each part of the camera 8, a camera communication interface (IF) 82 for LAN connection with other nurse call devices via the HUB 10, and stores various information. It includes a storage section 83, an imaging section 84, a recording section 85, and a speaker (an example of a sound alarm section) 86.

The camera CPU 81 is configured from an ECU, for example, similar to the hallway light CPU 26. The imaging unit 84 is configured with, for example, a camera module provided with a filter that also transmits infrared rays. The recording unit 85 collects and records, for example, the patient's voice in the hospital room through a microphone (not shown) provided in the camera 8.

(Operation example 1)
A first example of operation of the nurse call system 100 configured as described above will be described below with reference to FIGS. 4 and 5. However, the operation of operating the handset 1 to call a nurse, and the operation of receiving a call and responding from the base unit 3 or mobile terminal 4 to make a call are the same as before, so explanations will be omitted, and the explanation will be omitted here. The following will focus on the operation of periodically broadcasting a message from the speaker 86 of No. 8 to the patient in the hospital room.

As shown in FIG. 4, the hallway light CPU 26 first receives an instruction to start a regular message tone from the nurse call base unit 3 or the controller 7 (step S1). The head nurse or the like determines whether it is necessary to issue a regular message to a specific patient based on the patient's condition and nursing environment. Then, the head nurse or the like sends the nurse call master unit 3 or the controller 7 An instruction to start broadcasting a periodic message is given via the .

Corridor light CPU 26, which has received the instruction to start sounding the periodic message, then selects a periodic message from message storage section 24 (step S2) and transmits data regarding the selected periodic message to camera 8. For example, the hallway light CPU 26 receives a regular message from the message storage unit 24 in which multiple messages are stored, such as "How are you feeling? If you would like to call a nurse, please press the nurse call button." , and send the data of the periodic message to the camera 8.

The camera CPU 81 of the camera 8, which has received the periodic message data from the hallway light 2, sends a message from the speaker 86 saying, ``How are you feeling?'' If you wish to call a nurse, the camera CPU 81 of the camera 8, as shown in FIG. Please press the button.'' A regular message is sounded (step S3). The camera CPU 81 starts recording by the recording unit 85 in response to the sound of the regular message from the speaker 86 (step S4). Alternatively, the recording section 85 may be activated all the time.

Next, the hallway light CPU 26 determines whether there is a response from the patient to the regular message (step S5). Specifically, the hallway light CPU 26 analyzes the patient's voice data recorded by the recording unit 85 of the camera 8, and determines whether the voice data includes words corresponding to a reply to the regular message. do. Specifically, the hallway light CPU 26 determines whether or not the recorded audio data includes specific words. The "specific words" are, for example, words uttered by the patient such as "Yes." and "It's okay." In this example, by recognizing that these specific words are included in the voice data, it is determined that the voice data includes words corresponding to a reply to the regular message.

In step S5, if there is no reply to the regular message (No in step S5), the process advances to step S8. Step S8 will be described later.
On the other hand, in step S5, if there is a reply to the regular message (Yes in step S5), the hallway light CPU 26 converts the regular message and the recorded voice data into text data in the text conversion/storage unit 25. and save it (step S6). In this example, in response to a regular message that says, "How are you feeling? If you want to call a nurse, please press the nurse call button." For example, the patient replies, "I'm fine." In this case, the hallway light CPU 26 determines that the recorded voice data saying "It's okay." is a response to the regular message. Then, the hallway light CPU 26 sends out a regular message saying, "How are you feeling? If you want to call a nurse, please press the nurse call button." and the patient's voice saying, "I'm okay." The recorded data is stored as text data in the text conversion/storage unit 25.

Next, the hallway light CPU 26 transmits the periodic message and patient voice text data stored in the text conversion/storage unit 25 to the electronic medical record system linked to the nurse call system 100 (step S7). The electronic medical record system is, for example, a system that manages medical records (medical records), nursing records, etc. of each patient including inpatients and outpatients. The electronic medical record system is configured of external equipment (such as a computer or a server) that is communicably connected to the controller 7 of the nurse call system 100 via, for example, a LAN line L1 or other network. The electronic medical record system that has received the text data from the hallway light 2 can, for example, generate part of the patient's nursing record or follow-up record based on the text data.

Next, the hallway light CPU 26 determines whether a predetermined beep interval for notifying a regular message has elapsed (step S8). In step S8, if the predetermined beep interval has not elapsed (No in step S8), the hallway light CPU 26 repeats step S8 until the predetermined beep interval has elapsed.
On the other hand, if the predetermined beeping interval has elapsed (Yes in step S8), the hallway light CPU 26 returns the process to step S3 and causes the speaker 86 of the camera 8 to beep the regular message again. In this way, the regular message can be periodically broadcast from the speaker 86.

Note that after the periodic message is sounded in step S3, in parallel with step S4, the hallway light CPU 26 determines whether or not the patient has made an operation input to the handset 1 (step S9). In step S9, if there is no operation input from the handset 1 (No in step S9), the hallway light CPU 26 advances the process to step S8. On the other hand, if an operation input for the handset 1 is made (Yes in step S9), the hallway light CPU 26 executes a calling operation (step S10). Specifically, the hallway light CPU 26 transmits a call signal via the controller 7 to the base unit 3 and the mobile terminal 4 associated with the nurse. The mobile terminal 4 to which the call signal is transmitted is preferably the mobile terminal 4 carried by the nurse in charge of the patient who operated the handset 1. The base unit 3 and the mobile terminal 4 that have received the calling signal execute the calling with a predetermined ringing tone. When either the base unit 3 or the mobile terminal 4 responds to the call, the controller 7 forms a transmission path to the slave unit 1 between the slave unit 1 and the device for which the response operation was performed. do. As a result, the nurse's voice input from the device that responded (for example, the nurse in charge's mobile terminal 4) is output from the speaker of the handset 1. Note that the nurse's voice may be broadcast from the speaker 86 of the camera 8. After a conversation is made between the called patient and the nurse in charge, the process advances to step S8.

As described above, the nurse call system 100 according to the first operation example includes a nurse call handset 1, a hallway light 2, a nurse call main unit 3, and a camera 8 installed near the bed in the hospital room. It further includes a speaker 86. The hallway light CPU 26 (an example of a control unit) included in the hallway light 2 causes the speaker 86 to periodically sound a regular message (an example of a first message) at a predetermined timing. According to this configuration, it is possible to suppress the occurrence of communication loss between the patient and the nurse. Specifically, it is preferable that the regular message is a message for prompting the patient to operate the nurse call handset 1. This reduces the psychological hurdles for patients to operate the nurse call handset 1 to make a call, allowing nurses to talk to patients at appropriate times as needed, and to You can rush to the source.

The camera 8 further includes a recording unit 85 installed near the bed, and when a message is output from a speaker 86, the recording unit 85 starts recording the voice uttered by the patient in the hospital room. According to this configuration, by recording and storing the patient's utterances in response to periodic messages, it can be used, for example, for monitoring the patient's progress.

Further, the hallway light 2 includes a text conversion/storage unit 25 that saves the patient's voice data recorded by the recording unit 85 of the camera 8 as text data together with a regular message. According to this configuration, by converting the patient's voice data into text data and saving it along with regular messages, it is possible to automatically create a patient's follow-up observation record in conjunction with an electronic medical record system, reducing the burden on nurses. Leads to.

(Operation example 2)
Next, a second operation example of the nurse call system 100 will be described below with reference to FIG. 6.
Among steps S11 to S19 of operation example 2 shown in FIG. 6, steps S11 to S16 and S19 are the same steps as steps S1 to S6 and S8 of operation example 1 shown in FIG. 4, so detailed explanations are omitted. do.

In step S16, similarly to step S6 of operation example 1, the hallway light CPU 26 converts/saves the periodic message sounded from the speaker 86 and the patient's response audio data recorded by the recording unit 85 as text data. 25. Next, the hallway light CPU 26 analyzes the patient voice data recorded by the recording unit 85 and determines whether an automatic call notification is necessary (step S17). In step S17, if the call notification is not required (No in step S17), the process advances to step S19. In step S19, similarly to step S8 of operation example 1, the hallway light CPU 26 determines whether a predetermined beeping interval for beeping a regular message has elapsed.

On the other hand, if a call notification is required in step S17 (Yes in step S17), the hallway light CPU 26 executes a call notification (step S18). For example, if the patient voice data recorded by the recording unit 85 includes specific words such as "Please come right away," "Please help me," or "I'm in pain." , it is determined that it is necessary to call the nurse even if there is no operation input from the patient on the handset 1, and a call notification is executed. After executing the call notification, the process advances to step S19.

As explained above, in operation example 2, the hallway light CPU 26 controls the content of the patient's voice data recorded by the recording unit 85 of the camera 8 to For example, if the content requires notification, a notification signal is transmitted to the base device 3 and the mobile terminal 4. According to this configuration, the nurse can be called at an appropriate timing even if the patient does not actively operate the handset 1.

(Operation example 3)
Next, a third example of operation of the nurse call system 100 will be described below with reference to FIGS. 7 and 8.
Among steps S21 to S27 of operation example 3 shown in FIG. 7, steps S21 to S23 and S27 are the same steps as steps S1 to S3 and S8 of operation example 1 shown in FIG. 4, so detailed explanations are omitted. do.

In step 23 of operation example 3, when a regular message is sounded from the speaker 86 of the camera 8, the imaging unit 84 of the camera 8 starts imaging the patient on the bed (step S24). Next, the posture detection unit 23 detects a specific posture of the patient from the captured image of the camera 8, and determines whether the patient in the captured image has taken a specific posture (step S25). Specifically, the posture detection unit 23 recognizes the patient's standing up, sitting position, standing up to the side of the bed, etc. as a specific posture.
In step S25, if the posture detection unit 23 does not detect a specific posture of the patient based on the captured image (video) of the camera 8 (No in step S25), the process proceeds to step S27. In step S27, similarly to step S8 of the first operation example, the hallway light CPU 26 determines whether or not a predetermined beeping interval for beeping a regular message has elapsed.

On the other hand, in step S25, if the posture detection section 23 detects a specific posture of the patient based on the captured image of the camera 8 (Yes in step S25), the hallway light CPU 26 detects the detected posture from the message storage section 24. An individual message corresponding to the specific posture is selected, and the individual message is audible from the speaker 86 of the camera 8 (step S26). Specifically, as shown in FIG. 8, when the posture detection unit 23 detects that the patient is in an edge-sitting position, an individual message saying “I will come right away. Please wait in bed” is stored in the message storage unit. 24, and the sound is output from the speaker 86. For example, if the posture detection unit 23 detects that the patient's upper body is in an upright posture, it will say, "How are you feeling? If you would like to call a nurse, please press the nurse call button." An individual message similar to the regular message may be selected from the message storage section 24 and sounded by the speaker 86.

As described above, the nurse call system 100 according to operation example 3 uses the camera 8 installed in a hospital room to image the patient on the bed, and whether the patient is in a specific posture based on the image captured by the camera 8. The apparatus further includes an attitude detection section 23 that detects whether or not the camera is moving. Then, when the specific posture of the patient detected by the posture detection unit 23 matches a predetermined posture condition (an example of a first posture condition) such as the patient getting up on the bed, the hallway light CPU 26 sends a periodic message. To make a regular message sound even if the timing is different from the sound sound timing. According to this configuration, for example, when the patient takes an unusual posture (standing up, sitting on the edge, standing up, etc.), a message prompting the patient to operate the handset 1 is sounded, and the patient presses the handset 1. You can solve the difficulty.

Further, when the specific posture of the patient detected by the posture detection unit 23 matches a predetermined posture condition (an example of a second posture condition) such as sitting on the edge or standing up to the side of the bed, the hallway light CPU 26 As shown in 8, an individual message (an example of a second message) for preventing the patient from leaving the bed may be sounded. According to this configuration, for example, when a patient starts a movement that requires monitoring, such as getting out of bed, an individual message is sounded to discourage the patient from getting out of bed, thereby making it possible to prevent the patient from falling or falling.

In the above embodiment, the hallway light 2 is configured to include the posture detection section 23, the message storage section 24, and the text conversion/storage section 25, but the present invention is not limited to this example. The posture detection section 23, the message storage section 24, and the text conversion/storage section 25 may be built into the camera 8, or may be installed between the hallway light 2 and the camera 8 by forming a dedicated adapter. Alternatively, the nurse call base device 3 may have the functions of the posture detection section 23, the message storage section 24, and the text conversion/storage section 25.

The present invention is not limited to the embodiments described above, and can be modified, improved, etc. as appropriate. In addition, the material, shape, size, numerical value, form, number, arrangement location, etc. of each component in the above-described embodiments are arbitrary and not limited as long as the present invention can be achieved.

As explained above, the following matters are disclosed in this specification.
(1) A nurse call handset for a patient to call and talk to a nurse, a hallway light that notifies the occurrence of a call by the nurse call handset, and a nurse call main unit for responding to the call. A nurse call system having
A sound alarm unit installed near the bed in the hospital room,
a control unit that causes the alarm unit to periodically issue a predetermined message at a predetermined timing;
It also has a nurse call system.
According to this configuration, it is possible to provide a nurse call system that can suppress the occurrence of communication loss between patients and nurses.

(2) The nurse call system according to (1), wherein the predetermined message includes a first message for prompting the patient to operate the nurse call handset.
According to this configuration, it is possible to eliminate the psychological hurdle for a patient to actively press the nurse call handset to make a call.

(3) further comprising a recording unit installed near the bed,
The nurse call system according to (1) or (2), wherein the recording unit records a voice uttered by a patient in the hospital room in response to the predetermined message sounded by the sound alarm unit.
According to this configuration, by recording and accumulating the patient's utterances in response to the audible message, it can be used, for example, to monitor the patient's progress.

(4) The nurse call system according to (3), further comprising a text conversion/storage unit that converts the audio data of the utterance recorded by the recording unit into text data together with the predetermined message and stores the same.
According to this configuration, by saving the patient's voice data together with a predetermined message as text data, a patient's follow-up observation record can be automatically created, leading to a reduction in the burden on nurses.

(5) If the content of the patient's utterance data recorded by the recording unit is content that requires notification to a notification unit associated with the nurse, the control unit transmits a notification signal to the notification unit associated with the nurse. The nurse call system described in (3) or (4), which transmits to the notification department.
According to this configuration, a nurse can be called at an appropriate timing as needed without the patient actively operating the nurse call slave device.

(6) a camera installed in the hospital room to image the patient on the bed;
a posture detection unit that detects whether the patient is in a specific posture based on a captured image of the camera;
Furthermore,
If the specific posture detected by the posture detection section matches a first posture condition, the control section causes the predetermined message to be sounded even if the timing is different from the predetermined timing. The nurse call system according to any one of 1) to (5).
According to this configuration, for example, when a patient assumes an unusual posture, the first message prompting the patient to operate the nurse call handset can be sounded, thereby resolving the difficulty of pressing the nurse call handset. .

(7) a camera installed in the hospital room to image the patient on the bed;
a posture detection unit that detects whether the patient is in a specific posture based on a captured image of the camera;
Furthermore,
(1) When the specific posture detected by the posture detection section matches a second posture condition, the control section makes a second message sound for preventing the patient from leaving the bed. The nurse call system according to any one of (6) to (6).
According to this configuration, for example, when a patient starts a movement that requires monitoring, such as getting out of bed, a second message is sounded to discourage the patient from getting out of bed, thereby preventing the patient from falling or falling from the bed. can.

1: Nurse call handset, 2: Corridor light, 3: Nurse call main unit, 4: Mobile terminal, 5: Base station, 6: Exchange, 7: Controller, 8: Camera, 23: Posture detection unit, 24: Message storage unit, 25: Text conversion/storage unit, 26: Corridor light CPU (an example of a control unit), 81: Camera CPU, 84: Imaging unit, 85: Recording unit, 86: Speaker (an example of a sound alarm unit), 100: Nurse call system

Claims (7)

A nurse call device that includes a nurse call handset for a patient to call and talk to a nurse, a hallway light that notifies the occurrence of a call by the nurse call handset, and a nurse call main device for responding to the call. A system,
A sound alarm unit installed near the bed in the hospital room,
a control unit that causes the alarm unit to periodically issue a predetermined message at a predetermined timing;
It also has a nurse call system. The nurse call system according to claim 1, wherein the predetermined message includes a first message for prompting the patient to operate the nurse call handset. further comprising a recording unit installed near the bed,
3. The nurse call system according to claim 1, wherein the recording section records a voice uttered by a patient in the hospital room in response to the predetermined message sounded by the sound alarm section. The nurse call system according to claim 3, further comprising a text conversion/storage unit that converts the audio data of the utterance recorded by the recording unit into text data together with the predetermined message and stores the data. If the content of the patient's voice data recorded by the recording unit is content that requires notification to a notification unit associated with the nurse, the control unit transmits a notification signal to the notification unit. The nurse call system according to claim 3, wherein the nurse call system transmits a message. a camera installed in the hospital room to image the patient on the bed;
a posture detection unit that detects whether the patient is in a specific posture based on a captured image of the camera;
Furthermore,
If the specific posture detected by the posture detection section matches a first posture condition, the control section causes the predetermined message to be sounded even if the timing is different from the predetermined timing. The nurse call system according to item 1 or 2. a camera installed in the hospital room to image the patient on the bed;
a posture detection unit that detects whether the patient is in a specific posture based on a captured image of the camera;
Furthermore,
Claim 1: When the specific posture detected by the posture detection section matches a second posture condition, the control section makes a second message sound for preventing the patient from leaving the bed. or the nurse call system described in 2.

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