CN109672797B - A ward call system - Google Patents

Abstract

The invention discloses a ward call system, comprising: a bedside call terminal and a nurse station call host, the bedside call terminal includes a control module and a first call module, wherein the first call module is respectively connected with the control module and the nurse station The call host is connected; the control module is used to confirm the call request and send the call request to the first call module; the first call module is used to receive the call request and initiate a call to the nurse station call host according to the call request; the nurse station calls The host is configured to prompt the first call according to the call initiated by the first call module. The invention solves the technical problem in the prior art that the bedside calling terminal only has the calling function and cannot complete more information interaction functions, realizes the information interaction between the control module and the first calling module, and controls the first calling module through the control module. The technical effect of the call communication between the call module and the call host of the nurse station.

Description

Ward calling system

Technical Field

The embodiment of the invention relates to an information control technology, in particular to a ward calling system.

Background

Today, ward calling systems are widely used in the medical care field, which can enable a patient to quickly send information to medical staff to provide more convenient and quick information transmission for the medical staff and the patient to better serve the patient.

Currently, in the existing ward calling system, a bedside calling extension is connected with a nurse station calling host through an analog signal line, and a patient initiates a call to realize a simple calling function. However, with the information-based construction of hospitals, the existing ward calling system only having a simple calling function cannot complete more information interaction functions, and cannot meet the requirements of modern digital hospitals.

Disclosure of Invention

In view of this, an embodiment of the present invention provides a ward calling system to solve the technical problem that the ward calling system in the prior art only has a calling function and cannot provide more information interaction functions.

In a first aspect, an embodiment of the present invention provides a ward calling system, including: the bedside calling terminal comprises a control module and a first calling module, and the first calling module is respectively connected with the control module and the nurse station calling host;

the control module is used for confirming a call request and sending the call request to the first call module;

the first calling module is used for receiving the calling request and initiating a call to the host calling the nurse station according to the calling request;

and the nurse station calling host is used for carrying out first calling prompt according to the call initiated by the first calling module.

Further, the ward calling system further comprises: and the information server is connected with the control module and/or the nurse station calling host.

Further, the information server is connected with the control module;

the information server is used for acquiring patient nursing data, generating a first control instruction according to the patient nursing data and sending the first control instruction to the control module;

the control module is further configured to receive a first control instruction, and confirm the call request according to the first control instruction.

Further, the first calling module is further configured to confirm a calling state of the first calling module, and send the calling state to the control module;

the control module is further configured to record the call state.

Further, the control module is further configured to forward the call state to the information server;

and the information server is used for recording the call state.

Further, the call state includes: at least one of an un-call state, an originating call state, an on-call state, and a hanging up call state.

Further, when the call state is the originating call state,

the information server is also used for generating a second control instruction and sending the second control instruction to the control module;

the control module is also used for generating a hanging-up call instruction according to a second control instruction and sending the hanging-up call instruction to the first call module;

the first calling module is also used for hanging up the call with the host calling machine of the nurse station according to the hanging up call instruction.

Further, the information server is connected with a nurse station calling host, and the nurse station calling host comprises: the communication module is respectively connected with the information server and the second calling module, and the second calling module is connected with the first calling module;

the second calling module is used for carrying out the first calling prompt and sending the call initiated by the first calling module to the communication module;

the communication module is used for forwarding the call to the information server;

and the information server is used for recording the call and carrying out second call prompt according to the call.

Further, the information server is further configured to obtain a first call response instruction obtained based on the second call prompt, generate a third control instruction according to the first call response instruction, and send the third control instruction to the communication module;

the communication module is further configured to forward the third control instruction to the second calling module;

the second calling module is further configured to stop performing the first call prompt according to the third control instruction.

Further, the nurse station calls the host computer, and is further configured to receive a second call response instruction generated based on the first call prompt, and establish a voice call with the first call module initiating the call according to the second call response instruction.

Further, the ward calling system further comprises: a door entrance extension set connected with the control module or the information server,

the control module is further used for sending the call request to the entrance extension set;

the information server is further used for sending the call request to the entrance extension set;

and the doorway extension set is used for displaying the calling request.

Further, the control module is an intelligent terminal provided with an android system.

The ward calling system is provided with the control module and the first calling module through the bed head calling terminal, the control module confirms the call request and sends the call request to the first call module, and then the first call module calls the host computer to initiate a call to the nurse station according to the call request, thereby the technical means that the nurse station calling host carries out the first calling prompt according to the calling initiated by the first calling module solves the technical problem that the ward calling system in the prior art only has the function of simple calling by the patient and can not complete more information interaction functions, realizes the information interaction between the control module and the first calling module, the technical effect of controlling the calling communication between the first calling module and the host calling machine of the nurse station through the control module enhances the intelligence and the flexibility of the ward calling system and is convenient for the nursing configuration of medical resources based on the ward calling system.

Drawings

Fig. 1 is a block diagram of a ward calling system according to an embodiment of the present invention;

fig. 2 is a block diagram of a ward calling system according to a second embodiment of the present invention;

fig. 3 is a block diagram of a ward calling system according to a third embodiment of the present invention;

fig. 4 is a block diagram of another ward calling system according to a third embodiment of the present invention;

fig. 5 is a block diagram of a ward calling system according to a fourth embodiment of the present invention;

fig. 6 is a block diagram of another ward calling system according to the fourth embodiment of the present invention;

fig. 7 is a block diagram of another ward calling system according to the fourth embodiment of the present invention;

fig. 8 is a block diagram of another ward calling system according to the fourth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

Fig. 1 is a block diagram of a ward calling system according to an embodiment of the present invention, where the present embodiment is applicable to a situation where information interaction is performed between a bedside call terminal and a nurse station call host, as shown in fig. 1, the ward calling system 10 specifically includes: the bedside call terminal 110 and the nurse station call host 120; the bedside call terminal 110 comprises a control module 1101 and a first call module 1102.

The first calling module 1102 is connected with the control module 1101 and the nurse station calling host 120 respectively;

the control module 1101 is configured to confirm the call request and send the call request to the first call module 1102;

a first calling module 1102, configured to receive a call request, and initiate a call to the nurse station calling host 120 according to the call request;

the nurse station calls the host 120 for performing a first call alert based on the call initiated by the first call module 1102.

In the embodiment, the bedside call terminal 110 is a terminal device that can initiate a call request to the nurse station call host 120. Generally, the bedside call terminal 110 is installed at the patient's bedside in order to facilitate the patient to initiate a call request through the bedside call terminal 110, but the specific installation location is not limited. Meanwhile, in order to facilitate medical staff to conveniently check the pathological information of the patient when making a tour of the room, a display screen may be disposed on the bedside call terminal 110, and the current pathological information of the patient and the relevant information of the call request are displayed on the display screen. Wherein, the pathological information includes but is not limited to: patient name, grade, name of illness, and associated care data (e.g., vital sign data), etc. The information related to the call request may include: call status, etc. Further, in this embodiment, the bedside call terminal 110 includes a control module 1101 and a first call module 1102. The first calling module 1102 can communicate with the control module 1101 through a serial port; meanwhile, the first calling module 1101 is connected to the nurse station calling host 120 through a simulated two-bus, wherein the simulated two-bus has high reliability, and stable transmission of the calling request can be ensured by adopting a simulated two-bus mode. Generally, control module 1101 is a smart terminal installed with an android system. Exemplarily, the control module 1101 may be an intelligent terminal such as an android tablet or an android phone, and in the embodiment, the first calling module 1102 and the control module 1101 are integrated in one entity device by a set connection manner, and perform data communication through a serial port. Further, since the control module 1101 is an intelligent terminal installed with an android system, it can be understood that a display screen for displaying pathological information and a call request is disposed on the control module 1101, and the control module 1101 controls display content of the display screen, or that the display screen is connected to the control module 1101.

The first calling module 1102 includes a calling control board, a calling handle (including a microphone), and a speaker, wherein the calling control board is connected to the calling handle and the speaker, respectively. The call control board has a function of communicating with the control module 1101, so that the first call module 1101 and the control module 1102 can perform information interaction, and the call control board can also communicate with the nurse station call host 120. Further, the calling handle comprises a caller and a microphone, wherein the caller is used for making a call to a patient, for example, the caller can be an entity button, when the calling control board detects that the entity button receives a pressing operation, the calling control board initiates a call to the nurse station calling host 120, and when the nurse station calling host 120 is confirmed to answer, the calling control board collects voice information sent by the patient through the microphone and sends the voice information to the nurse station calling host 120; the speaker is used to play the voice message sent from the side of the nurse station calling host 120, that is, when the nurse station calling host 120 answers, the call control board receives the voice message sent from the nurse station calling host 120 and plays the voice message through the speaker.

The call request may be understood as information that informs the medical staff of the care needs of the relevant patient and is sent from the host computer 120 to the nurse station. For example, the call request may be a request for initiating a call or a request for hanging up a call, and is not limited herein, and any request from the patient to the nurse station call host through the first call module 1102 may be implemented by the present technical solution. In this embodiment, the call request is set as a request for initiating a call.

Specifically, in the embodiment, the control module 1101 may control the first calling module 1102 to send the call request, in addition to the manner that the patient actively sends the call request through the first calling module 1102. Specifically, the patient may send a call request through the control module 1101, and then the control module 1101 confirms the call request and sends the call request to the first call module 1102, wherein the patient may send the call request through the call virtual key on the display screen of the control module 1101. Alternatively, the control module 1101 is connected to a patient's physical sign detection device to obtain physical sign data of the patient in real time, and when it is determined that the physical sign data of the patient is abnormal, confirms a call request and sends the call request to the first call module 1102. Alternatively, the control module 1101 may be connected to a patient care device (e.g., an infusion monitor) to obtain infusion data of the patient in real time, confirm a call request when it is confirmed that the infusion is about to be completed, and send the call request to the first call module 110. The control module 1101 may confirm the call request after receiving the call request sent by the other associated device, and send the call request to the first call module 1102. Other associated devices include, but are not limited to: and an information server.

Further, in this embodiment, the nurse station call host 120 may be understood as a device located at the nursing station for alerting the medical personnel of the call request. The first call alert is a call alert made by the nurse station call host 120 in accordance with the call request. The first call prompt is to prompt the medical staff at the nurse station to call the host computer 120 to know the requirement information of the patient in time. Illustratively, the first call alert may be a display light flashing, a voice alert, a pop-up of a particular display window, and the like. Optionally, the bed information of the patient initiating the call request may be known through the first call prompt, for example, different beds correspond to different display lamps, the bed information is played through a voice prompt, or the bed information pops up in a specific display window, and the like. Generally, when the first calling module 1102 initiates a call request, the bed information is synchronously transmitted. Optionally, the call request is sent synchronously with the patient requirement information, so that the medical staff at the nurse station calling the host computer 120 can respond to the patient requirement information more quickly. The patient may enter the requirement information through a microphone, or the control module 1101 generates the requirement information according to the actual situation, and sends the requirement information to the first calling module 1102. For example, the control module 1101 corresponds to a patient with a ward number of 110 and a bed number of 2, and if the control module 1101 determines that the body temperature data of the patient is abnormal, the control module 1101 generates the requirement information and the call request, and sends the requirement information and the call request to the nurse station call host 120 through the first call module 1102, and at this time, the nurse station call host 120 performs the first call prompt according to the call request. The first call prompt may specifically be that the status of the display lamps corresponding to the patient room number 110 and the bed number 2 is switched from off to flashing, so as to prompt the nurse station to call the medical staff on the side of the host computer 120 for response. Of course, the nurse station may call the speaker in the host 120 to send out corresponding voice information, and the corresponding voice information may be "the patient temperature is abnormal with the patient room number 110 and the bed number 2". Of course, the prompt may also be performed by popping up a display window, for example, the window is written with a ward number 110 and a bed number 2, and the requirement information of the patient is "abnormal body temperature, which needs to be checked by a nurse".

Optionally, after the nurse station call host 120 sends the first call prompt, the medical staff may generate a second call response command through the nurse station call host 120, so that the bedside call terminal 110 confirms that the medical staff receives the call request. The method comprises the following steps: the nurse station calls the host computer 120, and is further configured to receive a second call response instruction generated based on the first call prompt, and establish a voice call with the first call module 1102 initiating the call according to the second call response instruction.

And the second call response instruction is feedback instruction information generated according to the first call prompt. The specific form embodiment of the second call response instruction is not limited. For example, the bedside call terminal 110 confirms the second call response instruction by making a voice call with the patient. For another example, the bedside call terminal 110 confirms the second call response instruction by sending the prompt message to the bedside call terminal 110. In one embodiment, the setup may cause the nurse station to call the host 120 to establish a voice call with the first call module 1102 through the second call response command. At this time, the nurse station call host 120 further includes a microphone and a handset (or speaker) to implement a voice call. For example, after the nurse station call host 120 performs the first call prompt, the medical staff clicks the call button, and at this time, the nurse station call host 120 confirms that the second call response instruction is received, and then establishes the voice call with the first call module 1102, so that the patient communicates with the medical staff.

According to the technical scheme provided by the embodiment, the control module and the first calling module are arranged on the bedside calling terminal, the calling request is confirmed through the control module, and the calling request is sent to the first calling module; then, the first calling module calls the host to initiate a call to the nurse station according to the call request; and the technical means that the nurse station calling host carries out the first calling prompt according to the calling initiated by the first calling module solves the technical problem that the bedside calling terminal in the prior art only has the calling function and cannot complete more information interaction functions, realizes the information interaction between the control module and the first calling module, controls the technical effect of calling communication between the first calling module and the nurse station calling host through the control module, and improves the intelligence of the ward calling system.

On the basis of the above embodiment, a ward calling system is further embodied, the ward calling system further comprising: an information server; the information server is connected to the control module 1101 and/or the nurse station call host 120.

When the information server is connected to the control module 1101, the information server may perform information interaction with the control module 1101. Specifically, the information server may issue a control instruction to the control module 1101, for example, issue a call request, a call hang-up request, and the like to the control module 1101. Furthermore, the information server can also receive and record call data sent by the control module, such as the call state, the execution time of the call state and the like, and record the data so as to be convenient for medical staff to check. Meanwhile, the information server may also retrieve pathological information of the patient according to the call request and transmit the pathological information to the control module 1101, so that the control module 1101 responds to the pathological information.

When the information server is connected to the nurse station call host 120, the information server may perform information interaction with the nurse station call host connection 120. For example, the information server receives the call request sent by the nurse station call host 120, and forwards the second call prompt related to the call request to other medical terminals, so that the medical staff can receive the call request even if the medical staff is not near the nurse station call host 120. When the information server receives the first call response instruction of the medical terminal, the information server can also control the nurse station call host computer 120 to stop making the first call prompt. For another example, the information server may retrieve the pathological information of the patient according to the call request and feed the pathological information back to the nurse station call host 120.

When the information server is connected to both the control module 1101 and the nurse station call host 120, it can perform information interaction with both the control module 1101 and the nurse station call host 120, and the interaction contents are as described above.

On the basis of the scheme, the information server is arranged in the ward calling system, so that the calling mode of the ward calling system is more flexible, the reasonable configuration of medical resources is facilitated, and the use experience of a patient is improved.

Example two

Fig. 2 is a block diagram of a ward calling system according to a second embodiment of the present invention, which is further embodied on the basis of the first embodiment. As shown in fig. 2, the ward calling system 10 of the present embodiment further includes: the information server 130, and the information server 130 is connected to the control module 1101.

Specifically, the information server 130 is connected to the control module 1101; the information server 130 is configured to obtain patient care data, generate a first control instruction according to the patient care data, and send the first control instruction to the control module 1101;

the control module 1101 is further configured to receive the first control instruction, and confirm the call request according to the first control instruction.

In an embodiment, the control module 1101 is communicatively coupled to the information server 130 via a wired or wireless connection. The wireless mode can be Wi-Fi, 4G, 3G, 2G or ZigBee mode. In order to improve the data transmission efficiency, when data transmission is performed between the control module 1101 and the information server 130 in a wireless manner, communication connection is generally performed in a Wi-Fi or 4G manner; when the communication connection is performed by a wired method, a wired network connection is generally performed by a network connection method.

The patient care data can be data collected by a care instrument when the patient is cared. Wherein the care instrument may be: sign detection equipment, a transfusion monitor and the like. The nursing instrument carries out radio communication with the information server to patient's nursing data is mastered in real time according to the nursing instrument to the information server, and patient's nursing data is write down simultaneously, so that medical personnel formulate new nursing plan according to patient's nursing data. In particular, the information server may generate the first control instruction based on patient care data. Wherein the first control instruction is used to instruct the control module 1101 to confirm the call request. For example, if the information server determines that the infusion of the patient is about to be completed according to the monitoring data sent by the infusion monitor, a first control command is generated and sent to the control module 1101. For another example, when the information server determines that the patient sign data is abnormal according to the sign data sent by the sign detection device, the information server generates a first control instruction and sends the first control instruction to the control module 1101.

It should be noted that, in practical applications, if there is no information server, the care apparatus may be directly connected to the control module 1101, and the control module 1101 may automatically determine whether to generate a call request according to the patient care data. The advantage of setting up the information server is, can also carry out record and analysis to patient's nursing data, the medical staff of being convenient for in time masters patient's nursing condition.

The technical scheme of the embodiment is that on the basis of the above embodiment, the ward calling system comprises an information server, the patient nursing data is obtained through the information server, a first control instruction is generated according to the patient nursing data, and sending the first control instruction to the control module to enable the control module to confirm the call request according to the first control instruction and initiate a call to the host computer of the nurse station according to the call request through the first call module, so that the technical means that the nurse station calls the host computer to perform the first call prompt realizes the technical effect of information control among the first call module, the control module and the information server, meanwhile, the calling control is carried out through the information server, so that the automatic calling can be prevented when a patient forgets or cannot send a calling request, and the intelligence and flexibility of the ward calling system are improved.

On the basis of the above-described embodiment, the functions of the first call module 1102, the control module 1101, and the information server 130 are further embodied. The functions of the modules in this embodiment are specifically as follows:

the first calling module 1102 is further configured to confirm a calling state of the first calling module, and send the calling state to the control module 1101;

the control module 1101 is further configured to record a call state.

Wherein, the call state includes: at least one of an un-call state, an originating call state, an on-call state, and a hanging up call state. Specifically, the non-call state is a state in which the first call module 1102 is not sending a call request; the originating call state is a state in which the first call module 1102 is in originating a call request; the in-call state is a state in which the first calling module 1102 is in a call with the nurse station calling the host computer 120; the hang-up call state is a state in which the first call module 1102 is in a state of hanging up a call with the nurse station call host 120. It should be noted here that the call state of the first call module 1102 can also be understood as the operation state of the bedside call terminal 110, i.e. the operation state in sleep and the operation state in operation. The working state in the sleep process can comprise an uncalled state; and the operating states in operation include an originating call state, an on-call state, and a hanging up call state.

Specifically, in order to make the control module 1101 know the operating state of the bedside call terminal 110 in real time, when the call state of the first call module 1102 changes, the first call module 1102 sends the call state of itself to the control module 1101, and the control module 1101 records the call state on one hand and displays the call state on the display screen on the other hand. Wherein, the call state is displayed on the display screen, and whether the first call module 1102 or the control module 1101 has a fault can be monitored in real time. Specifically, when the first calling module 1102 is in the calling state, if the calling state displayed on the display screen of the control module 1101 is still in the non-calling state, but the nurse station calling the host 120 has responded, it indicates that the display screen of the control module 1101 or the control module 1101 is faulty, and at this time, the patient may specify that the ward calling system is abnormal, and then call in another manner.

On the basis of the above embodiment, the control module 1101 is further configured to forward the call state to the information server 130;

and an information server 130 for recording the call state.

In an embodiment, the control module 1101 receives the call status and forwards the call status to the information server 130, so that the information server 130 knows the working status of the bedside call terminal 110 in real time, and records the working status for the subsequent medical staff to view. Meanwhile, medical staff can master the calling condition of the patient.

On the basis of the above embodiment, when the call state is the originating call state,

the information server 130 is further configured to generate a second control instruction, and send the second control instruction to the control module 1101;

the control module 1101 is further configured to generate a hang-up call instruction according to the second control instruction, and send the hang-up call instruction to the first call module 1102;

the first calling module 1102 is further configured to hang up the call with the nurse station calling host 120 according to the call hanging up instruction.

The second control instruction is hang-up instruction information generated by the information server 130 according to the call state of the first call module 1102. Generally, when the hang-up call command is generated according to the second control command, the call state of the first call module 1102 may be an originating call state, and of course, may also be an in-call state. The hang-up call command is a command message to hang up a call between the first call module 1102 and the nurse station call host 120.

In this embodiment, when the call state is the originating call state, information interaction among the information server 130, the control module 1101, and the first call module 1102 will be described. In particular, by passing through the patient

When the first calling module 1102 initiates a call request to the host 120 called by the nurse station, the information server 130 may send the call request to a terminal device held by a medical staff member in addition to recording the call request, so as to prevent the situation that no medical staff member is present at the host 120 called by the nurse station and no response is made. After the terminal device held by the medical staff performs the call prompt, the medical staff specifies the call request and sends a response instruction to the information server 130, when the information server 130 receives the response instruction, a second control instruction may be generated and sent to the control module 1101, the control module 1101 generates a hang-up call instruction according to the second control instruction and sends the hang-up call instruction to the first call module 1102, and the first call module 1102 hangs up the call with the nurse station call host 120 according to the received hang-up call instruction. I.e., the information server 130 confirms through other means that the medical staff has confirmed the call request, the second control instruction is generated. Another way to implement this is that, after the information server 130 determines that the first call module 1102 initiates a call to the nurse station call host 120, the information server 130 does not receive response information fed back by the nurse station call host 120, at this time, the information server 130 may generate a second control instruction and directly send a call request to the medical staff by other means, so that the medical staff specifies the call request. The advantage of this arrangement is that the nurse station calling the host computer 120 does not need to allocate medical staff all the time, and the medical staff can perform other medical work, which facilitates the effective utilization of medical resources.

EXAMPLE III

Fig. 3 is a block diagram of a ward calling system according to a third embodiment of the present invention, which is further embodied on the basis of the first embodiment. As shown in fig. 3, the ward calling system 10 of the present embodiment further includes: and the information server 130, and the information server 130 is connected to the nurse station call host 120.

When the nurse station call host 120 is in communication connection with the information server 130, the connection mode between the nurse station call host 120 and the information server 130 is the same as the connection mode between the control module 1101 and the information server 130, and for specific implementation of the connection mode, reference is made to the specific description in the second embodiment, which is not repeated herein. In order to realize a small number of wires and a simple installation of the ward calling system, the information server 130 is generally connected to the control module 1101 and/or the nurse station calling host 120 in a wireless manner. Further, when the information server 130 is connected to the nurse station call host 120, the nurse station call host 120 includes: a communication module 1201 and a second call module 1202. Specifically, fig. 4 is a block diagram of another ward calling system according to a third embodiment of the present invention, and as shown in fig. 4, the nurse station calling host 120 in this embodiment includes: a communication module 1201 and a second call module 1202.

The communication module 1201 is connected to the information server 130 and the second call module 1202, respectively, and the second call module 1202 is connected to the first call module 1102;

the second calling module 1202 is configured to perform the first call prompt, and is further configured to send a call initiated by the first calling module 1102 to the communication module 1201;

a communication module 1201, configured to forward the call to the information server 130;

and the information server 130 is used for recording the call and also used for carrying out second call prompt according to the call.

In one embodiment, the second call module 1202 is connected to the bedside call terminal 110 via an analog two-bus

The first call module 1102 makes a communication connection to implement a call to the bedside call terminal 110 and call control. The communication module 1201 and the information server 130 may be in communication connection in a wireless or wired manner, and the specific communication connection manner is described in the description of the communication connection between the control module 1101 and the information server 130 in the second embodiment, which is not described herein again. The communication module 1201 and the second call module 1202 may be connected via a serial port.

Wherein, the first call prompt is a prompt message sent by the host 120 itself according to the call request by the nurse station; the second call prompt is prompt information sent by the information server according to the call request. Here, when the information server 130 is connected to the nurse station call host 120, the nurse station call host 120 includes: a communication module 1201 and a second call module 1201; the bedside call terminal 110 comprises a control module 1101 and a first call module 1102. The first call prompt of the nurse station call host 120 according to the call initiated by the first call module 1102 is performed by the second call module 1202 in the nurse station call host 120. Specifically, after the first call module 1102 initiates the call request, the nurse station call host 120 performs the first call prompt according to the call request. The specific type of the first call prompt is not limited in the embodiments. For example, the prompt may be made by flashing a display light, by a voice prompt, by popping up a particular display window, etc. Meanwhile, the nurse station call host 120 sends the call initiated by the first call module 1102 to the information server 130 through the communication module 1201, so that the information server 130 records the call and performs a second call prompt according to the call. The second call prompt may be to send the call initiated by the first call module 1102 to a terminal device held by a medical staff, so that the terminal device performs call prompt, where the terminal device may perform call prompt in a manner of ringing, vibrating, and/or popping up a prompt box. Optionally, when the information server 130 performs the second call prompt, the second call prompt may be performed again when the nurse station call host 120 does not receive the response information corresponding to the first call prompt. For example, if the nurse station call host 120 determines that the response information corresponding to the first call prompt is not received within the set time (e.g., 5s), the nurse station call host sends the non-response information to the information server 130, and the information server performs the second call prompt after receiving the non-response information. Alternatively, if the information server 130 does not receive the response message sent by the nurse station call host 120 within the set time period (e.g., 5s), the second call prompt is performed. Optionally, when the information server 130 performs the second call prompt, the nurse station call host 120 may continue to perform the first call prompt or may turn off the first call prompt.

On the basis of the above embodiment, the information server 130 is further configured to obtain a first call response instruction obtained based on the second call prompt, generate a third control instruction according to the first call response instruction, and send the third control instruction to the communication module 1201;

the communication module 1201 is further configured to forward the third control instruction to the second calling module 1202;

the second calling module 1202 is further configured to stop the first call prompt according to the third control instruction.

The first call response instruction is feedback instruction information generated according to the second call prompt; the third control instruction is instruction information for controlling the second call module 1202 to stop performing the first call prompt, which is generated according to the first call response instruction.

In this embodiment, the nurse station call host 120 may proceed with the first call alert while the information server 130 is performing the second call alert. Specifically, after the information server 130 performs the second call prompt to the terminal device held by the medical staff, the medical staff feeds back the second call prompt through the terminal device held by the medical staff, and indicates to the information server 130 that the patient call request is confirmed, at this time, the information server 130 may receive the first call response instruction generated based on the second call prompt, at this time, the information server 13 determines that the currently existing medical staff responds to the call request, and generates the third control instruction according to the first call response instruction. Further, the information server 13 forwards the third control instruction to the second calling module 1202 through the communication module 1201, so that the second calling module 1202 stops the first calling prompt according to the third control instruction.

According to the technical scheme of the embodiment, on the basis of the technical scheme, the information server is used for obtaining the first call response instruction obtained based on the second call prompt, the third control instruction is generated according to the first call response instruction and is sent to the communication module, the third control instruction is forwarded to the second call module through the communication module, and then the second call module stops the technical means of carrying out the first call prompt according to the third control instruction, so that the prompt and response of the call request by using the information server are realized, the flexibility of a ward call system is increased, and the nursing allocation of medical resources is ensured.

Example four

Fig. 5 is a block diagram of a ward calling system according to a fourth embodiment of the present invention. As shown in fig. 5, the ward calling system 10 of the present embodiment further includes: doorway extension set 140.

The doorway extension set 140 is connected to the control module 1101 or the information server 130, and the control module 1101 is further configured to send a call request to the doorway extension set 140;

the information server 130 is further configured to send the call request to the entrance extension machine 140;

and a doorway extension set 140 for displaying the call request.

In an embodiment, a display screen for displaying a call request may be provided on door extension 140. The connection mode of door extension set 140 and control module 1101 or information server 130 is not limited, and may be a wired connection or a wireless connection. Wherein, doorway extension set 140 may be disposed outside the patient room. Further, a doorway extension 140 is connected to each control module in the patient room. Specifically, after the control module 1101 generates a call request, or receives an originating call state sent by the first call module 1102, it is determined that the call request is generated, and the call request is sent to the door extension set 140, and the door extension set 140 displays the call request. The specific content examples shown are not limiting. Optionally, the control module 1101 also synchronously sends the bed number and the pathology information to the entrance extension machine 140, so that the entrance extension machine 140 displays the information. The advantage of having a doorway extension set 140 is that medical personnel outside the ward can be assured of quickly knowing the patient's call request, and at the same time, medical personnel can quickly make a care plan.

Of course, the gateway extension 140 outside each ward is connected to the information server 130. Specifically, after the control module 1101 generates the call request, or receives the originating call state sent by the first call 1102, it is determined that the call request is generated, and sends the call request to the information server 130, and the information server 130 forwards the received call request to the doorway extension set 140, so that the doorway extension set 140 displays the call request. Optionally, the control module 1101 further synchronously sends the bed number and the pathological information to the information server 130, and forwards the bed number and the pathological information to the entrance extension machine 140 through the information server 130, and the entrance extension machine 140 displays the bed number and the pathological information. The advantage of performing information interaction with the control module 1101 and the doorway extension set 140 through the information server 130 is that the bed number and the pathological information of the corresponding patient stored in the information server 130 can be guaranteed to be updated in time, so that the subsequent medical staff can take and check the information and study the information conveniently.

On the basis of the above embodiment, fig. 6 is a block diagram of another ward calling system according to the fourth embodiment of the present invention. For example, it is assumed that 3 beds are provided in a patient room, each bed has a bedside call terminal 110, and a doorway extension 140 is provided at the doorway of the patient room. As shown in fig. 6, each of the bedside call terminals 110 is connected to the nurse station call host 120 and the doorway extension set 140, while the doorway extension set 140 is connected to the information server 130. Specifically, the doorway extension set 140 may be respectively connected to the information server 130 and the plurality of bedside call terminals 110 in the same room via a WiFi hotspot via a wireless network, the main body of the door extension set 140 is an intelligent terminal equipped with an android system, and the door extension set 140 receives and displays ward medical staff information and/or pathological information of a plurality of patients sent by the information server 130. When the patient establishes a communication connection with the nurse station call host 120 through the bedside call terminal 110, the bedside call terminal 110 sends a call request to the doorway extension set 140 through the WiFi hotspot and displays the call request on the display screen.

It should be noted that when the information server 130 is connected to the doorway extension set 140, the communication data between the bedside call terminal 110 and the information server 130 can be forwarded through the doorway extension set 140. Further alternatively, the information server 130 may be connected to the doorway extension set 140 and the bedside call terminal 110, respectively. Alternatively, the information server 130 is connected to the bedside call terminal 110, and communicates with the portal extension 140 through the bedside call terminal 110. In addition to the above connection method, the information server 130 may be connected to the nurse station call host 120, but the embodiment is not limited thereto.

Specifically, on the basis of the above embodiment, fig. 7 is a block diagram of another ward calling system according to the fourth embodiment of the present invention. Illustratively, assume that 3 beds are provided in a patient room, each bed has a bedside call terminal 110 provided thereon, and a doorway extension 140 is provided at the doorway of the patient room. As shown in fig. 7, the information server 130 is connected to the portal extension 140 and the bedside call terminal 110, respectively. Specifically, the bedside call terminal 110 sends and stores the medical staff information and/or the pathological information of the patient of the bed to the information server 130, and the information server 130 sends the updated medical staff information and/or the pathological information of the patient to the entrance extension machine 140, so that the medical staff can check the pathological information of the patient on the entrance extension machine in time when making a ward round.

Of course, in still another case, fig. 8 is a block diagram of another ward calling system according to the fourth embodiment of the present invention. As shown in fig. 8, the nurse station call host 120 may also be connected to the bedside call terminals 110 and the information server 130, respectively, so as to transmit the medical staff information and/or the pathological information of the patient corresponding to each bedside call terminal 110 to the information server 130 through the nurse station call host 120, and forward the medical staff information and/or the pathological information of the patient to the gate extension set 140 through the information server 130.

It should be noted that, in the embodiment, the doorway extension 140 may also be replaced by a corridor extension and/or a nurse station interactive screen (for example, a nurse station interactive whiteboard screen), wherein each of the corridor extension and the nurse station interactive screen is provided with a display screen for displaying a call request, which is used to display the information of medical staff and/or the pathological information of patients corresponding to the beds in all the wards in the corridor. For example, the corridor is provided with one corridor extension at each end, which is not limited to this. Meanwhile, the nurse station interactive screen is used for displaying medical staff information and/or pathological information of patients corresponding to beds in all wards in the whole floor, and can also be used for displaying medical staff information and/or pathological information of patients corresponding to beds in all wards in different ward areas. For example, assuming that one ward is a neurology department, two wards are obstetrics and gynecology departments, three wards are pediatric surgeries, and five nurse station interactive screens are arranged in the whole building, all beds in all wards in one ward can be displayed on the nurse station interactive screen a corresponding to the pathological information of medical staff and/or patients, and all beds in all wards in two wards can be displayed on the nurse station interactive screen B corresponding to the pathological information of medical staff and/or patients, which is not limited and can be adjusted according to actual conditions.

Of course, in the ward calling system, there may be a door extension 140, a corridor extension and a nurse station interactive screen at the same time, or there may be only a door extension 140 and a corridor extension, or even only a door extension 140 and a nurse station interactive screen, or only a corridor extension and a nurse station interactive screen, which is not limited to this. The corridor extension and nurse station interactive screen is also directly connected with the information server 130, and is used for sending and storing pathological information of medical staff and/or patients corresponding to each bed to the information server 130, so that follow-up medical staff can call and check the pathological information.

Of course, in the actual operation process, the number of beds in each ward is different due to the different environment of each hospital, and accordingly, the number of bedside call terminals 110 in each ward is also different. In the present embodiment, 3 beds are provided in each patient room by way of example only, and one bed corresponds to each bedside call terminal 110, but this is not a limitation.

According to the technical scheme, on the basis of the technical scheme, the calling request of the patient can be displayed on the doorway extension set in real time, so that medical staff can timely know the calling request of the patient in the house patrol process, and the medical staff can conveniently and quickly respond to the calling condition.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A ward call system, characterized in that it comprises: a bedside call terminal and a nurse station call host and an information server, the bedside call terminal comprises a control module and a first call module, and the first call module is respectively connected with The control module is connected to the call host of the nurse station; the control module, configured to confirm the call request and send the call request to the first call module; The first call module is configured to receive the call request, initiate a call to the nurse station call host according to the call request, and send patient demand information synchronously; The nurse station calls the host, configured to perform a first call prompt according to a call initiated by the first call module; The information server is connected with the control module and/or the call host of the nurse station; The information server is used to send a call request to the terminal equipment held by the medical personnel; The information server is connected to the call host of the nurse station, and the call host of the nurse station includes: a communication module and a second call module, the communication module is respectively connected to the information server and the second call module, the second call module the calling module is connected to the first calling module; the second call module, configured to prompt the first call, and also configured to send the call initiated by the first call module to the communication module; the communication module for forwarding the call to the information server; The information server is used to record the call, and is also used to perform a second call prompt according to the call, wherein the first call prompt is the prompt information sent by the nurse station calling host itself according to the call request; the second call prompt is According to the prompt information sent by the information server according to the call request, the second call prompt method is to send the call initiated by the first call module to the terminal equipment held by the medical personnel, so that the terminal equipment makes a call prompt. 2. The ward calling system according to claim 1, wherein the information server is connected with the control module; the information server, configured to acquire patient care data, generate a first control instruction according to the patient care data, and be further configured to send the first control instruction to the control module; The control module is further configured to receive the first control instruction, and confirm the call request according to the first control instruction. 3. The ward calling system according to claim 2, wherein the first calling module is further configured to confirm its own calling state, and send the calling state to the control module; The control module is further configured to record the call state. 4. The ward calling system according to claim 3, wherein the control module is further configured to forward the call status to the information server; The information server is used for recording the call state. 5 . The ward calling system according to claim 3 or 4 , wherein the calling state comprises at least one of a non-calling state, an initiating call state, a calling state and a hanging-up call state. 6 . 6. The ward calling system according to claim 5, wherein when the calling state is the initiating call state, The information server is further configured to generate a second control instruction, and send the second control instruction to the control module; The control module is further configured to generate a hang-up call instruction according to the second control instruction, and send the hang-up call instruction to the first call module; The first call module is further configured to hang up the call with the call host of the nurse station according to the hang-up call instruction. 7 . The ward calling system according to claim 1 , wherein the information server is further configured to acquire a first call response instruction obtained based on the second call prompt, and according to the first call response instruction generating a third control instruction, which is further configured to send the third control instruction to the communication module; the communication module, further configured to forward the third control instruction to the second call module; The second call module is further configured to stop the first call prompt according to the third control instruction. 8 . The ward calling system according to claim 1 , wherein the nurse station calls the host, and is further configured to receive a second call response instruction generated based on the first call prompt, and make a call according to the second call. 9 . Set up a voice call with the first calling module that initiates the call in response to the instruction. 9 . The ward calling system according to claim 1 , further comprising: a door extension, the door extension is connected with the control module or the information server, 9 . The control module is further configured to send the call request to the door extension; The information server is further configured to send the call request to the door extension; The door extension is used to display the call request. 10 . The ward calling system according to claim 1 , wherein the control module is an intelligent terminal installed with an Android system. 11 .

Images