JP2006218112A - Nurse call system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a nurse call system capable of reducing cost of facility construction and identifying a patient who has called for a nurse and its location. <P>SOLUTION: A nurse call base unit NC is connected to a wireless network comprised of a wireless station 200 and a wireless base station 300 so that a call request from a pendant slave unit 100 is relayed at the wireless station 200 as needed, and sent to the nurse call base unit NC. When the wireless station 200 and the wireless base station 300 directly received a signal from the pendant slave unit 100, they send call ID data to address ID data of its own station to pendant ID from the pendant slave unit 100 to the nurse call base unit NC. The nurse call base unit NC identifies the location of the call request and the patient based on the call ID data, and visually indicates the information to medical workers. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a nurse call system in which a patient or a care recipient calls a nurse or a caregiver in a facility such as a hospital, a welfare facility, or a silver apartment for elderly people.

  As is well known, in a conventional nurse call system, a nurse call master unit is installed in a nurse center, generally called a corridor lamp, and connected to a corridor lamp unit installed near the entrance of each hospital room. The corridor lamp unit accommodates a call button through an interface panel corresponding to each bed in the corresponding hospital room. When the call button is operated by a patient or the like, a call is generated from the patient to the nurse call master unit. Inform the effect.

  On the other hand, the nurse call master unit identifies the bed where the call has occurred, displays the information on the monitor, and calls the nurse call slave unit carried by a health care worker such as a nurse through a wireless line. (For example, refer to Patent Document 1).

However, in the conventional nurse call system having the above configuration, the corridor lamp unit and the call button are connected by wire, so that not only the hospital design related to wiring is complicated, but also the construction work is troublesome. Will increase the construction cost.
In addition, when a call is made through a call button installed in a common area such as a toilet or a corridor, there is a problem that the patient who has made the call cannot be identified.
JP 2003-126183 A

  In the conventional nurse call system, since the corridor lamp unit and the call button are connected by wire, not only the facility design becomes complicated, but also the construction work takes time and the construction cost increases. When a call is made from a common part such as a toilet or a corridor, there is a problem that it is not possible to specify the patient who has made the call.

  The present invention has been made to solve the above-described problems, and an object thereof is to provide a nurse call system that can reduce the cost of constructing a facility and can specify the patient and the location of the caller.

  To achieve the above object, the present invention provides a nurse call including a terminal device carried by a user, a plurality of radio stations distributed, a plurality of base stations distributed, and a nurse call parent device. In the system, the terminal device includes a storage unit that stores identification information uniquely assigned to the terminal device, a reception unit that receives a request from a user, and a storage unit that receives the request when the reception unit receives the request. The wireless station wirelessly transmits identification information received by the terminal device, and wireless transmission means for wirelessly transmitting the identification information received by the terminal device. A first transmitting means, a second receiving means for receiving identification information wirelessly transmitted by another wireless station, and a second transmitting means for wirelessly transmitting the identification information received by the second receiving means, and a base station Is A receiving unit that receives identification information wirelessly transmitted by a terminal device or a wireless station; and a transmission unit that transmits the identification information received by the receiving unit to a nurse call parent unit via a wired line. Storage means for storing the identification information uniquely assigned to the apparatus and user information of the user carrying the terminal apparatus in association with each other, receiving means for receiving the identification information transmitted by the base station, and receiving means for receiving The detecting means for detecting the user information associated with the identification information and the notifying means for notifying the staff of the user information detected by the detecting means are provided.

  As described above, according to the present invention, when the terminal device accepts a request from the play station, the terminal device wirelessly transmits identification information uniquely assigned to the terminal device, and this is received by the wireless station or the base station. When the radio station receives the radio signal, the radio station further transmits the radio signal. When the radio station receives the radio station, the radio station transmits the radio signal. Eventually, when the identification information is received by the base station, the identification information is transmitted to the nurse call parent device via a wired line, and the nurse call parent device notifies the staff of the occurrence of the call together with the user information.

  Therefore, according to the present invention, since a network can be constructed simply by connecting a base station and a nurse call master unit with a wired line, the facility construction cost relating to wired line laying can be reduced, and a patient who has made a call It is possible to provide a nurse call system that can specify the location.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 shows the configuration of a nurse call system according to an embodiment of the present invention. The nurse call system is constructed by a network NW, and radio base stations 300a, 300b, 300c and 300d (hereinafter collectively referred to as radio base station 300) are laid on each floor in the facility.

  The radio base stations 300a, 300b, 300c and 300d are accommodated in the nurse call parent machine NC via hubs 400a, 400b and 400c (hereinafter collectively referred to as hub 400). In addition, wireless slave stations 200a, 200b, 200c, 200d, 200e, 200f, 200g, and 200h (hereinafter collectively referred to as wireless slave stations 200) are distributed on each floor. In the example shown in FIG. 1, two wireless slave stations 200 are provided on each floor.

  These radio base stations 300a, 300b, 300c and 300d and radio slave stations 200a, 200b, 200c, 200d, 200e, 200f, 200g and 200h constitute a radio network based on an ad hoc method.

  The pendant slave device 100 is carried by the patient P. These devices communicate using a wireless LAN, Bluetooth (R), ZigBee (R), or the like as a wireless communication system. In FIG. 1, only one pendant slave device 100 is illustrated, but there are actually many pendant slave devices 100.

  In FIG. 2, the example of a structure of the pendant subunit | mobile_unit 100 is shown. The pendant slave device 100 is carried by the patient P using, for example, a neck strap, and includes an operation unit 101, a wireless communication unit 102, a display unit 103, an alarm unit 104, a storage unit 105, a call Unit 106, battery 107, and control unit 110.

  The operation unit 101 is configured by a push button type switch or the like, and includes at least a call switch. This switch is operated when the patient P wants to call a medical worker or wants to talk.

  The wireless communication unit 102 transmits and receives data to and from the wireless slave station 200 and the wireless base station 300, and establishes a wireless communication link capable of voice communication with these to perform wireless communication. The display unit 103 is a display unit using an LCD or the like, and displays various images such as characters and figures. The alarm unit 104 emits sound and light.

  In addition to storing the control program and control data of the control unit 110, the storage unit 105 stores a pendant ID uniquely assigned to the pendant slave device 100 and data received through the wireless communication unit 102. The call unit 106 includes a microphone and a speaker. The call unit 106 encodes the voice of the patient P input from the microphone, converts it into voice data, outputs the voice data to the control unit 110, and is given from the control unit 110. The audio data is decoded and converted into an audio signal, and the sound is output from the speaker.

  The control unit 110 performs overall control of each unit of the pendant slave device 100, and performs various controls according to a control program stored in the storage unit 105. The battery 107 is a power source for operation of the pendant slave device 100 and supplies power to each unit.

  FIG. 3 shows a configuration example of the wireless slave station 200. As illustrated in FIG. 1, the wireless slave station 200 is distributed in the facility and includes a wireless communication unit 201, a storage unit 202, a notification unit 203, and a control unit 210.

  The wireless communication unit 201 performs wireless communication by transmitting / receiving data to / from the pendant slave device 100 and the wireless base station 300 and establishing a wireless communication link capable of voice communication with these.

  In addition to storing the control program and control data of the control unit 210, the storage unit 202 includes routing information for realizing ad hoc communication, a slave station ID uniquely assigned to the wireless slave station 200, and a wireless communication unit 201. The data received through is stored.

  When the reporting unit 203 receives a wireless signal indicating a call request directly from the pendant slave device 100, the reporting unit 203 notifies a medical worker to that effect, and is controlled by the control unit 210. The control unit 210 performs overall control of each unit of the wireless slave station 200, and performs various controls according to a control program stored in the storage unit 202.

  FIG. 4 shows a configuration example of the radio base station 300. As shown in FIG. 1, at least one radio base station 300 is arranged on each floor in the facility, and includes a radio communication unit 301, a communication interface 302, a storage unit 303, and a control unit 310.

  The wireless communication unit 301 transmits and receives data to and from the pendant slave device 100 and the wireless slave station 200, and establishes a wireless communication link capable of voice communication with them to perform wireless communication. The communication interface 302 communicates with the nurse call parent machine NC through the accommodated hub 400.

The storage unit 303 stores the control program and control data of the control unit 210, routing information for realizing ad hoc communication, a base station ID uniquely assigned to the radio base station 300, and a radio communication unit 301. And data received through the communication interface 302 is stored.
The control unit 310 controls each unit of the radio base station 300 in an integrated manner, and performs various controls according to a control program stored in the storage unit 303.

  FIG. 5 shows a configuration example of the nurse call parent machine NC. The nurse call master unit NC includes a control unit 500, a program memory 501, a data memory 502, communication I / Fs 503 and 504, a network I / F 505, a call I / F 506, an input display I / F 507, a timer. 508.

  The control unit 500 controls each part of the nurse call master NC in a centralized manner, and performs various controls according to the control program and control data stored in the program memory 501. The control unit 500 is connected to a data memory 502, and further connected to communication interfaces 503 and 504, a network interface 505, a call interface 506, an input display interface 507, and a timer 508.

  The data memory 502 stores map data MD, a map data table MDT, a pendant data table PDT, and the like in addition to time data indicating the self-check time. The map data MD is data for visually showing a map of a facility where the nurse call system as shown in FIG. 6 is provided, for example.

  The map data table MDT is a data table in which IDs of the wireless slave stations 200 and the wireless base stations 300 are associated with coordinate information indicating positions where these are arranged on the map. As shown in FIG. 7, the pendant data table PDT associates the ID of the pendant slave device 100 (pendant ID), the name of the patient P carrying the pendant, and the bed number of the bed used by the patient P. It is a data table.

  The communication interface 503 transmits a signal to the radio base station 300 through the hub 400 under the control of the control unit 500. Similarly, the communication interface 504 transmits / receives a signal to / from the Handan Scall main device (not shown) under the control of the control unit 500. The network interface 505 communicates with a nursing support server (not shown) by transmitting and receiving signals to and from the LAN under the control of the control unit 500.

  The Handan Scall main device controls a Handan Scall base station (not shown) deployed in the facility and communicates with a call terminal (not shown) carried by a medical worker. Voice communication and data communication with the terminal are possible.

  Connected to the call interface 506 are a microphone 511 and a speaker 512 that are used by a medical worker such as a nurse to make a call with the patient P. The call interface 506 encodes the speaker's transmission signal output from the microphone 511 and outputs it to the control unit 500 in a state where a communication link is formed with the pendant slave device 100, and from the control unit 500. The supplied reception data is decoded to reproduce the reception signal, and this reception signal is output from the speaker 512 as a loud voice. The speaker 512 is also used when outputting a sound or melody when a call is generated from the patient P.

  A touch panel / display 510 is connected to the input display interface 507. The touch panel / display 510 has a transparent pressure sensitive sheet pasted on a display screen of a display made of, for example, a CRT or LCD, and has both an information display function and an input function.

The input display interface 507 displays the display information supplied from the control unit 500 on the touch panel / display 510 and supplies operation information input through the touch panel / display 510 to the control unit 500.
The timer 508 has a function of measuring time and a function of measuring time according to an instruction from the control unit 500, and notifies the control unit 500 of the current time and the measured time.

  Next, the operation of the nurse call system configured as described above will be described. In the following description, the call notification operation from the pendant slave device 100 according to the present invention and the self-check operation will be mainly described.

  First, a call notification operation from the pendant slave device 100 will be described. FIG. 8 is a flowchart for explaining the operation, which is performed by the control unit 110, and the program is stored in the storage unit 105. This process starts when the power is turned on and is repeatedly executed until the power is turned off.

  In step 8a, the control unit 110 determines whether or not the patient P has operated the operation unit 101 to make a call request. If the patient P operates the operation unit 101 to make a call request, the process proceeds to step 8b. If the request is not made, the process proceeds to step 8a again to call the request. Monitor outbreaks.

  In step 8b, the control unit 110 reads the pendant ID uniquely assigned to the pendant slave device 100 from the storage unit 105, controls the wireless communication unit 102, and wirelessly transmits the pendant ID. When the wireless transmission is completed, the process proceeds to step 8a.

  Next, the operation of the wireless slave station 200 will be described. FIG. 9 is a flowchart for explaining the operation, which is performed by the control unit 210, and the program is stored in the storage unit 202. This process starts when the power is turned on and is repeatedly executed until the power is turned off. When the power is turned on, the wireless communication unit 201 starts receiving a wireless signal.

  First, in step 9a, the control unit 210 determines whether or not the pendant ID is directly received from the pendant slave device 100 based on the signal received by the wireless communication unit 201. When the pendant ID is directly received from the pendant slave device 100, the process proceeds to step 9b. On the other hand, when the pendant ID is not directly received from the pendant slave device 100, the process proceeds to step 9c.

  In step 9b, the control unit 210 reads the slave station ID uniquely assigned to the wireless slave station 200 stored in the storage unit 202, associates the slave station ID with the pendant ID received in step 9a, and The wireless communication unit 201 is controlled and wirelessly transmitted as call ID data, and the process proceeds to step 9a.

  That is, the wireless slave station 200 that has received the pendant ID directly from the pendant slave device 100 in steps 9a and 9b associates the pendant ID with the slave station ID of the local station, generates call ID data, and wirelessly transmits the data. It will be.

  On the other hand, in step 9c, the control unit 210 determines whether or not the call ID data is received from another wireless slave station 200 based on the signal received by the wireless communication unit 201. If the call ID data is received, the process proceeds to step 9d. If the call ID data is not received, the process proceeds to step 9e.

In step 9d, the control unit 210 controls the wireless communication unit 201 to wirelessly transmit the call ID data received in step 9c, and proceeds to step 9a.
That is, in steps 9c and 9d, the wireless slave station 200 that has received the call ID data from the other wireless slave station 200 transfers the received call ID data as it is, so that it is transferred to the other wireless slave station 200 and the wireless base station 300. The call ID data is relayed and transferred.

  In step 9e, the control unit 210 determines whether or not response data (to be described later) has been received based on the signal received by the wireless communication unit 201. If response data has been received, the process proceeds to step 9f. If response data has not been received, the process proceeds to step 9a.

In step 9f, the control unit 210 controls the wireless communication unit 201 to wirelessly transmit the response data received in step 9e, and proceeds to step 9a.
That is, in steps 9e and 9f, the wireless slave station 200 that has received the response data from the pendant slave device 100 or the other wireless slave station 200 transfers the received response data as it is. Relay transfer is performed to the station 300.

  Next, the operation of the radio base station 300 will be described. FIG. 10 is a flowchart for explaining the operation, which is performed by the control unit 310, and the program is stored in the storage unit 303. This process starts when the power is turned on and is repeatedly executed until the power is turned off. Note that when the power is turned on, the wireless communication unit 301 starts receiving a wireless signal.

  First, in step 10a, the control unit 310 determines whether or not the pendant ID is directly received from the pendant slave device 100 based on the signal received by the wireless communication unit 301. When the pendant ID is directly received from the pendant slave device 100, the process proceeds to step 10b. On the other hand, when the pendant ID is not directly received from the pendant slave device 100, the process proceeds to step 10c.

  In step 10b, the control unit 310 reads the base station ID uniquely assigned to the radio base station 300 stored in the storage unit 303, associates the base station ID with the pendant ID received in step 10a, The communication interface 302 is controlled as call ID data and transmitted to the nurse call parent machine NC, and the process proceeds to step 10a.

  That is, the radio base station 300 that has received the pendant ID directly from the pendant slave device 100 in steps 10a and 10b associates the pendant ID with the base station ID of the local station, generates call ID data, and Will be sent to the machine NC.

  On the other hand, in step 10c, the control unit 310 determines whether or not the call ID data is received from the wireless slave station 200 based on the signal received by the wireless communication unit 301. If the call ID data is received, the process proceeds to step 10d. If the call ID data is not received, the process proceeds to step 10e.

  In step 10d, the control unit 310 controls the communication interface 302 to transmit the call ID data received in step 10c to the nurse call parent machine NC, and proceeds to step 10a.

  That is, the radio base station 300 that has received the call ID data from the radio slave station 200 in Steps 10c and 10d transfers the received call ID data as it is, and therefore relays the call ID data to the nurse call master NC. become.

  In step 10e, the control unit 310 determines whether or not response data described later has been received based on the signal received by the wireless communication unit 301. If response data has been received, the process proceeds to step 10f. On the other hand, if response data has not been received, the process proceeds to step 10a.

  In step 10f, the control unit 310 controls the communication interface 302 to transmit the response data received in step 10e to the nurse call parent machine NC, and proceeds to step 10a.

  That is, the wireless base station 300 that has received the response data from the pendant slave device 100 or another wireless slave station 200 in steps 10e and 10f transfers the received response data as it is, so that the response data is sent to the nurse call master device NC. Relay transfer will be performed.

  Next, the operation of the nurse call parent machine NC will be described. FIG. 11 is a flowchart for explaining the operation, which is performed by the control unit 500, and the program is stored in the program memory 501. This process starts when the power is turned on and is repeatedly executed until the power is turned off. Note that when the power is turned on, the communication interface 503 starts receiving signals from the radio base station 300.

  First, in step 11a, the control unit 500 determines whether or not the call ID data is directly received based on the signal received by the communication interface 503. If the call ID data is received, the process proceeds to step 11b. On the other hand, if the call ID data is not received, the process proceeds to step 11a again to monitor reception of the call ID data.

  In step 11b, the control unit 500 reads the map data MD from the data memory 502, and the nurse call system as shown in FIG. 6 is provided on the touch panel / display 510 through the input display interface 507 based on the map data MD. The facility map to be displayed is displayed, and the process proceeds to step 11c.

  In step 11c, the control unit 500 refers to the map data table MDT stored in the data memory 502, and based on the slave station ID or base station ID included in the call ID data received in step 11a, the pendant that made the call The position (coordinate information) of the wireless slave station 200 or the wireless base station 300 nearest to the handset 100 is detected, and the process proceeds to step 11d.

  This is because the slave station ID or base station ID included in the call ID data is the ID of the pendant slave device 100 that has received the pendant ID directly, so that the ID is closest to the pendant slave device 100.

  In step 11d, the control unit 500 refers to the pendant data table PDT stored in the data memory 502, and based on the pendant ID included in the call ID data received in step 11a, the name and bed number of the patient who made the call request. Is detected.

  Then, the control unit 500 displays the detected patient name and bed number on the coordinates based on the coordinate information detected in step 11c on the map displayed in step 11b, and notifies the medical staff of the occurrence of the call. Then, the process proceeds to step 11e. At this time, the call interface may be controlled so that a sound for notifying the occurrence of a call may be emitted from the speaker 512.

  In step 11e, the control unit 500 controls the communication interface 504 to transmit the patient name and bed number detected in step 11d to the main hand caller device, and proceeds to step 11a. On the other hand, the Handan Scall main device transmits the patient name and the bed number to the call terminal carried by the medical staff, and informs the medical staff of the patient name and the bed number.

  For example, as shown in FIG. 7, it is assumed that “Taro Yamada” carrying the pendant slave device 100 with the pendant ID “P001” calls near the wireless slave station 200a. In this case, the wireless signal (including the pendant ID) transmitted from the pendant slave device 100 is received by the wireless slave station 200a, and the wireless slave station 200a wirelessly transmits the local station ID and the pendant ID as call ID data.

  The call ID data transmitted from the wireless slave station 200a in this way is relayed and transferred by, for example, the wireless slave station 200b and received by, for example, the wireless base station 300a, and thereby the nurse call parent data via the hubs 400a, 400b, and 400c. Sent to the machine NC.

  On the other hand, the nurse call parent machine NC performs display as shown in FIG. 12 on the touch panel / display unit 510. That is, the name of “Taro Yamada” and the bed number to be used “(403)” (both detected in step 11d) are displayed at the coordinates corresponding to the wireless slave station 200a (detected in step 11c). A call terminal carried by a medical worker displays as shown in FIG.

Next, the self-check operation will be described.
First, the operation of the nurse call parent machine NC will be described. FIG. 14 is a flowchart for explaining the operation, which is performed by the control unit 500, and the program is stored in the program memory 501. This process is executed in parallel with the process shown in FIG. 11, and is repeatedly executed until the power is turned off.

In step 14a, the control unit 500 monitors the time counted by the timer 508, and determines whether or not a preset self-check time (stored in the data memory 502) has arrived. If the self-check time has arrived, the process proceeds to step 14b. If the self-check time has not arrived, the process proceeds to step 14a again to monitor the arrival of the self-check time.
In step 14b, the control unit 500 controls the communication interface 503, transmits a self-check signal to each radio base station 300, and proceeds to step 14c.

  Here, the operation of the nurse call master NC using FIG. 14 is temporarily suspended, and the operations of the wireless slave station 200, the wireless base station 300, and the pendant slave 100 in response to the self-check signal will be described. The transition to step 14c will be described later.

  The wireless slave station 200 and the wireless base station 300 execute processing as shown in the flowchart of FIG. This process is performed in parallel with the processes shown in FIGS. In the following description, the wireless base station 300 will be described. The wireless communication unit 301 and the communication I / F 302 are stored in the wireless communication unit 201, the storage unit 303 is stored in the storage unit 202, and the control unit 310 is connected to the control unit 210. By replacing the reading, the operation of the wireless slave station 200 is described.

  First, in step 15a, the control unit 310 monitors a signal received through the communication I / F 302 and determines whether or not a self-check signal has been received. Here, when the self-check signal is received, the process proceeds to step 15b. On the other hand, when the self-check signal is not received, the process proceeds to step 15a again to monitor reception of the self-check signal.

In step 15b, the control unit 310 controls the communication I / F 302 to transmit the ID data of the local station stored in the storage unit 303 as response data, and proceeds to step 15c. In step 15c, the control unit 310 controls the wireless communication unit 301 to transmit a self-check signal, and proceeds to step 15d.
In step 15d, the control unit 310 controls the wireless communication unit 301 to transmit a pendant call signal, and proceeds to step 15d.

  As described above, when receiving the self-check signal, the wireless slave station 200 or the wireless base station 300 transmits its own ID data as response data and transmits a self-check signal to other stations. A pendant call signal is transmitted to the pendant slave device 100.

On the other hand, the pendant slave device 100 executes a process as shown in FIG. This process is performed in parallel with the process shown in FIG.
In step 16 a, the control unit 110 determines whether a pendant call signal is received from the wireless slave station 200 or the wireless base station 300 based on the signal received by the wireless communication unit 102. Here, when the pendant call signal is received from the radio slave station 200 or the radio base station 300, the process proceeds to step 16b. On the other hand, when the pendant call signal is not received, the process proceeds to step 16a and the pendant call signal is again transmitted. Monitor reception.

  In step 16b, the control unit 110 reads the pendant ID uniquely assigned to the pendant slave device 100 from the storage unit 105, controls the wireless communication unit 102, and wirelessly transmits the pendant ID as response data. When wireless transmission is completed, the process proceeds to step 16a.

  That is, as described above, when the wireless slave station 200 or the wireless base station 300 receives the self-check signal and transmits the pendant call signal to the pendant slave device 100, the pendant slave device 100 that has received this signal receives the response signal. Send your own pendant ID.

  Note that the response data transmitted from the wireless slave station 200, the wireless base station 300, and the pendant slave device 100 is sent to the nurse call master device NC by the processes in steps 9e and 9f described above and the processes in steps 10e and 10f. Relay transfer processing is performed.

Here, with reference to FIG. 14 again, the operation of the nurse call parent machine NC will be described.
In step 14c, the control unit 500 performs a process of receiving response data transmitted from the wireless slave station 200, the wireless base station 300, and the pendant slave device 100 through the communication interface 503 in accordance with the transmission of the self-check signal in step 14b. At the same time, the timer 508 is controlled to start counting down for a predetermined time T, and the process proceeds to step 14d.

  In step 14d, the control unit 500 determines whether or not the countdown started in step 14c has timed out. If timed out, the process proceeds to step 14e. On the other hand, if timed out, the response data reception process through the communication interface 503 is continued.

  In step 14e, the control unit 500 refers to the response data received through the communication interface 503 with reference to the map data MD, the map data table MDT, and the pendant data table PDT, and the group of the wireless slave station 200 and the wireless base station 300, and the pendant. The data is totaled for each group of handset 100, and the process proceeds to step 14f.

  In step 14f, the control unit 500 displays the counting result of step 14e on the touch panel / display 510 through the input display interface 507, and proceeds to step 14a.

  FIG. 17 shows a display example of the tabulation result regarding the group of the wireless slave station 200 and the wireless base station 300. Response data, that is, ID data that can be received is indicated by “OK”, while ID that cannot be received is indicated by “NG”.

  In addition, FIG. 18 shows a display example of the tabulation result regarding the pendant slave device 100 group. Response data, that is, ID data that can be received is indicated by “OK”, while ID that cannot be received is indicated by “NG”. In this example, the pendant data table PDT stored in the data memory 502 is displayed in association with it.

  As described above, in the nurse call system configured as described above, the nurse call master unit NC is connected to the wireless network formed by the wireless slave station 200 and the wireless base station 300, and a call request from the pendant slave unit 100 is received. It is relayed by the wireless slave station 200 as necessary, and notified to the nurse call master unit NC. Therefore, according to the nurse call system having the above configuration, the wire construction can be greatly reduced, and the construction cost of the facility can be reduced.

  In addition, the wireless slave station 200 and the wireless base station 300 that have directly received the signal from the pendant slave device 100 receive the call ID data in which the ID data of the local station and the pendant ID received from the pendant slave device 100 are associated with the nurse call master device. Send to NC. Then, the nurse call parent machine NC can identify the position where the call request is made and the patient based on the call ID data, and visually indicate it to the medical staff.

  In the nurse call system configured as described above, the nurse call master unit NC transmits a self-check signal, and the wireless slave station 200 and the wireless base station 300 that have received the self-check signal transmit a self-check signal and a pendant call signal. Then, the wireless slave station 200 or the wireless base station 300 that has received the self-check signal transmits its own ID data as response data, and when the pendant slave device 100 also receives the pendant call signal, its own ID data as response data. Send. The wireless slave station 200 that has received the response data relays and forwards it. Then, based on the response data, the nurse call master unit NC counts the pendant slave units 100, the wireless slave stations 200, and the wireless base stations 300 that have responded, and visually displays the count results to the medical staff. I have to.

  Therefore, according to the nurse call system configured as described above, the pendant slave device 100, the wireless slave station 200, and the wireless base station 300 that have not responded can be visually recognized. The occurrence of the pendant slave device 100 that has moved out of the communication range can be recognized.

  Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the embodiment. Further, for example, a configuration in which some components are deleted from all the components shown in the embodiment is also conceivable. Furthermore, you may combine suitably the component described in different embodiment.

As an example, for example, in the above embodiment, when performing the self-check operation, the nurse call master unit NC makes an inquiry to the pendant slave unit 100, the radio slave station 200, and the radio base station 300, and responds thereto. However, instead of this, for example, the pendant slave device 100, the wireless slave station 200, and the wireless base station 300 transmit response data indicating that they are voluntarily (periodically) healthy. There may be.
In addition, it goes without saying that the present invention can be similarly implemented even if various modifications are made without departing from the gist of the present invention.

The figure which shows the structure of one Embodiment of the nurse call system concerning this invention. The circuit block diagram which shows the structure of the pendant subunit | mobile_unit of the nurse call system shown in FIG. The circuit block diagram which shows the structure of the radio | wireless slave station of the nurse call system shown in FIG. The circuit block diagram which shows the structure of the radio base station of the nurse call system shown in FIG. The circuit block diagram which shows the structure of the nurse call main | base station of the nurse call system shown in FIG. The figure which shows an example of the map data memorize | stored in the data memory of the nurse call main | base station shown in FIG. The figure which shows an example of the pendant data table memorize | stored in the data memory of the nurse call main | base station shown in FIG. The flowchart for demonstrating operation | movement of the pendant subunit | mobile_unit of the nurse call system shown in FIG. The flowchart for demonstrating operation | movement of the radio | wireless slave station of the nurse call system shown in FIG. The flowchart for demonstrating operation | movement of the radio base station of the nurse call system shown in FIG. The flowchart for demonstrating operation | movement of the nurse call main | base station of the nurse call system shown in FIG. The figure which shows an example of the information displayed on the touchscreen / display of the nurse call main | base station of the nurse call system shown in FIG. The figure which shows an example of the information displayed on the telephone terminal which a medical worker carries. The flowchart for demonstrating operation | movement of the nurse call main | base station of the nurse call system shown in FIG. The flowchart for demonstrating operation | movement of the radio base station of the nurse call system shown in FIG. The flowchart for demonstrating operation | movement of the pendant subunit | mobile_unit of the nurse call system shown in FIG. The figure which shows an example of the information displayed on the touchscreen / display of the nurse call main | base station of the nurse call system shown in FIG. The figure which shows an example of the information displayed on the touchscreen / display of the nurse call main | base station of the nurse call system shown in FIG.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 100 ... Pendant subunit | mobile_unit, 101 ... Operation part, 102 ... Wireless communication part, 103 ... Display part, 104 ... Alarm part, 105 ... Memory | storage part, 106 ... Call part, 107 ... Battery, 110 ... Control part, 200, 200a, 200b, 200c, 200d, 200e, 200f, 200g, 200h ... wireless slave station, 201 ... wireless communication unit, 202 ... storage unit, 203 ... reporting unit, 210 ... control unit, 300, 300a, 300b, 300c, 300d ... wireless Base station 301 ... Wireless communication unit 302 ... Communication interface 303 ... Storage unit 310 ... Control unit 400a ... Hub, 400, 400a, 400b, 400c ... Hub, 500 ... Control unit, 501 ... Program memory, 502 ... Data memory, 503, 504 ... communication interface, 505 ... network interface, 06 ... call interface, 507 ... input display interface, 508 ... timer, 510 ... Touch Panel / display, 511 ... microphone, 512 ... speaker, NC ... nurse call base unit, NW ... network, P ... patient.

Claims (3)

A nurse call system comprising a terminal device carried by a user, a plurality of wireless stations distributed, a plurality of base stations distributed, and a nurse call parent device,
The terminal device
Storage means for storing identification information uniquely assigned to the terminal device;
A receiving means for receiving a request from a user;
A wireless transmission means for wirelessly transmitting the identification information stored in the storage means when the reception means accepts a request;
The radio station is
First receiving means for receiving identification information wirelessly transmitted by the terminal device;
First transmission means for wirelessly transmitting the identification information received by the first reception means;
Second receiving means for receiving identification information wirelessly transmitted by another wireless station;
Second transmission means for wirelessly transmitting the identification information received by the second reception means,
The base station
Receiving means for receiving identification information wirelessly transmitted by the terminal device or the wireless station;
Transmitting means for transmitting the identification information received by the receiving means to the nurse call master through a wired line,
The nurse call master is
Storage means for storing identification information uniquely assigned to the terminal device and user information of a user carrying the terminal device in association with each other;
Receiving means for receiving identification information transmitted by the base station;
Detecting means for detecting user information associated with the identification information received by the receiving means;
A nurse call system comprising: a notification means for notifying staff of user information detected by the detection means. A terminal device carried by the user; a plurality of wireless stations distributed; a plurality of base stations distributed; and a nurse call master; and the identification information transmitted from the terminal device A nurse call system in which the base station relays and transmits to the nurse call master unit,
The terminal device
Storage means for storing identification information uniquely assigned to the terminal device;
Wireless transmission means for wirelessly transmitting the identification information stored in the storage means,
The radio station is
First receiving means for receiving identification information wirelessly transmitted by the terminal device;
First transmission means for wirelessly transmitting the identification information received by the first reception means;
Second receiving means for receiving identification information wirelessly transmitted by another wireless station;
Second transmission means for wirelessly transmitting the identification information received by the second reception means,
The base station
Receiving means for receiving identification information wirelessly transmitted by the terminal device or the wireless station;
Transmitting means for transmitting the identification information received by the receiving means to the nurse call master through a wired line,
The nurse call master is
Storage means for storing identification information uniquely assigned to the terminal device and user information of a user carrying the terminal device in association with each other;
Receiving means for receiving identification information transmitted by the base station;
Detection means for detecting a terminal device that has not received the identification information based on the identification information received by the receiving means and the information stored in the storage means;
A nurse call system comprising: a notification means for notifying staff of user information corresponding to the terminal device detected by the detection means. A terminal device carried by the user; a plurality of wireless stations distributed; a plurality of base stations distributed; and a nurse call master; and the identification information transmitted from the terminal device A nurse call system in which the base station relays and transmits to the nurse call master unit,
The radio station is
Storage means for storing identification information uniquely assigned to the radio station;
First transmission means for wirelessly transmitting identification information stored in the storage means;
Receiving means for receiving identification information wirelessly transmitted by another wireless station;
A second transmission means for wirelessly transmitting the identification information received by the reception means;
The base station
Receiving means for receiving identification information wirelessly transmitted by the wireless station;
Transmitting means for transmitting the identification information received by the receiving means to the nurse call master through a wired line,
The nurse call master is
Storage means for storing identification information uniquely assigned to the radio station and position information indicating an arrangement position of the radio station in association with each other;
Receiving means for receiving identification information transmitted by the base station;
Detection means for detecting a radio station that has not received the identification information based on the identification information received by the reception means and the information stored in the storage means;
A nurse call system, comprising: a notifying means for notifying staff of position information corresponding to a radio station detected by the detecting means.

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