CN118262492A - Method and system for quick response of wireless alarm in hospital - Google Patents

Abstract

The invention discloses a hospital wireless alarm quick response method and system. The method comprises the steps of installing alarm buttons in each area in a hospital, installing emergency labels at nurses stations and/or emergency equipment, and installing intelligent response servers at emergency centers; all alarm buttons and emergency labels form a self-organizing wireless network, a main control node is connected with an intelligent response server, and mobile phones of an area responsible person and an emergency center are connected with an in-hospital wireless local area network to form a hybrid networking emergency network architecture. When the alarm button alarms, alarm information is transmitted to an intelligent response server and an emergency sign through the self-organizing wireless network, the intelligent response server sends the alarm information to mobile phones of regional responsible persons and emergency centers and plans an emergency path, and the emergency sign reminds nearby persons to deliver emergency equipment through sound and light. The system has the advantages of convenient deployment and complete coverage, saves wireless local area network resources, is beneficial to timely response of medical staff and emergency equipment, and improves the success rate of emergency.

Description

Method and system for quick response of wireless alarm in hospital

Technical Field

The invention belongs to the field of medical treatment, and particularly relates to a hospital wireless alarm quick response method and system.

Background

Various emergency conditions such as sudden illness, accidental injury, acute illness and the like frequently occur in hospitals, such as: sudden cardiac arrest, stroke, myocardial infarction, shortness of breath, trauma, severe allergies, epilepsy, and the like. These emergency situations all require immediate notification to the medical personnel through the alarm system and mobilization of the emergency equipment to quickly and effectively address the emergency situation, maximizing patient life and health.

The existing alarm method and system depend on a telephone network in a hospital, a wireless network in the hospital or special intercom equipment, the telephone network is adopted to manually dial an alarm and respond to the alarm, the alarm cannot be responded in time when the alarm is busy, and the alarm system can only call a responsible person in a region and a first-aid team in the hospital sequentially, so that the cooperative response of multiple departments cannot be realized. The hospital network resources are occupied by adopting the hospital wireless network, and meanwhile, the security of a hospital digital system is reduced; the special intercom equipment is adopted, the special personnel can only alarm, and medical care responders need to carry the intercom equipment at any time and can only carry out limited coverage, so that the requirement of human resources and the management workload of the equipment are increased. Meanwhile, most of the existing systems are controlled in a centralized way, so that the alarm efficiency and reliability are reduced. In addition, the prior method and system alarm person is generally medical staff or special staff of a hospital, can not support patients or families to give an alarm in time, and mainly focuses on informing the medical staff to respond, the medical staff receiving the alarm searches the equipment place, goes to the equipment place to acquire equipment, carries emergency equipment to go to the alarm place to rescue, has the defect of more steps of a response flow, can not send the emergency equipment to the alarm place in time, and in addition, the medical staff receiving the alarm can not know the temporary closing of a channel, the condition of occupied elevator and other defects of the prior system because the alarm information is not visual, is unfamiliar with the internal environment of the hospital, can not arrive at the alarm place in time, and delays rescue.

Disclosure of Invention

The invention aims to provide a wireless alarm quick response method and system in a hospital, which solve the problems pointed out in the background technology, enable medical staff and emergency equipment to arrive at an emergency site at the highest speed, and protect the life and health of patients to the greatest extent.

The invention provides a hybrid networking mode of a self-organizing wireless network and a hospital wireless local area network, wherein alarm buttons are arranged at various alarm points of a hospital, such as outpatient service, ward, toilet, laboratory examination room, medicine taking place and the like, emergency labels are arranged at nurses' workstations and emergency equipment, intelligent response servers are arranged at hospital emergency centers, all the alarm buttons and the emergency labels are connected by adopting the self-organizing wireless network, and then the intelligent response servers are connected through master control nodes without occupying hospital wireless local area network resources, and meanwhile, the intelligent response servers, regional responsible person mobile phones and hospital emergency center mobile phones are connected to the hospital wireless local area network to form a hybrid networking emergency network architecture. When the alarm button alarms, alarm information is transmitted to the intelligent response server through the self-organizing wireless network, on one hand, the intelligent response server transmits a floor map with an alarm place, an emergency path and alarm information to a regional responsible person mobile phone and a hospital emergency center mobile phone, and dials the regional responsible person mobile phone and the hospital emergency center mobile phone to carry out alarm reminding, and the alarm information and the emergency path are simultaneously displayed on the information large screen of the regional responsible person mobile phone, the hospital emergency center mobile phone and the emergency center mobile phone, so that an emergency team can conveniently go to rescue according to a planned route, the temporary channel sealing or elevator occupation condition of a hospital is avoided, the risk of detour is reduced, and the whole emergency dispatching of the emergency center is also facilitated; on the other hand, the intelligent response server can also send alarm place information to an emergency sign near the alarm place according to the position of the alarm button to be displayed, and sound and light remind surrounding medical staff or other staff to actively deliver emergency equipment to the alarm place, so that the time for the medical staff to obtain the emergency equipment is shortened.

To achieve the above object, a first aspect of the present invention provides a method for wireless alarm and rapid response in hospital, comprising:

Step1: a hybrid networking comprising:

Alarm buttons and emergency labels are arranged in each area of a hospital to serve as nodes, and the alarm buttons and the emergency labels and the master control nodes are connected to an intelligent response server through the master control nodes to form an ad hoc wireless network. Each node stores the device type and device number of the node interconnected with the node. Typically, alarm buttons are located in areas of the hospital interior where patients are located, such as clinics, ward areas, toilets, etc., and emergency signs are located at nurses' stations and/or emergency equipment storage locations.

Regional mobile phones and central mobile phones are arranged, wherein each regional mobile phone is held by each regional responsible person, and the central mobile phone is held by a responsible person on duty of a hospital emergency center. The regional mobile phone, the intelligent response server and the central mobile phone are all accessed to the wireless local area network in the hospital, and the regional mobile phone and the central mobile phone are supported to access the intelligent response server.

The main control node and the intelligent response server are both arranged in the hospital emergency center.

Step 2: an alarm setting comprising:

The intelligent response server registers the device number, device address, and zone number of each alarm button and emergency sign.

The intelligent response server sets the equipment number and the equipment address of the emergency sign corresponding to each alarm button.

When the equipment is replaced or reset, the intelligent response server updates the equipment number and the equipment address of the emergency sign corresponding to each alarm button.

Step 3: an alarm trigger comprising:

When an emergency event occurs in a hospital, an alarm button is triggered, the alarm button emits audible and visual alarm display, and an intelligent response server is alarmed through an ad hoc wireless network, and alarm information comprises an alarm place (corresponding to the equipment address of the alarm button), the equipment number of the alarm button and the equipment number of a corresponding emergency sign.

After receiving the alarm information, the intelligent response server updates the alarm button to an alarm state, displays the alarm state on an information large screen of the hospital emergency center, plans a path from the emergency center to an alarm place, avoids a non-passing path caused by a temporary medical event or a decoration event, such as a closed channel, an occupied elevator and the like, automatically sends alarm graphic information to a regional mobile phone and a central mobile phone corresponding to the alarm button, dials the regional mobile phone and the central mobile phone corresponding to the alarm button through voice, prompts regional responsible persons and emergency center responsible persons on duty to process the alarm information, checks graphic information such as alarm characters, alarm maps, planned paths and the like in the alarm information, and can also check the position and the state of an emergency label.

The alarm button simultaneously sends alarm information to the corresponding emergency sign through the self-organizing wireless network, and the emergency sign is triggered to respond.

After receiving the alarm information, the emergency sign displays the alarm place information, and gives an audible and visual prompt to nearby personnel to respond in time, and carries emergency equipment such as AED equipment to actively go to the alarm place.

The emergency sign sends the received alarm information to the intelligent response server, and the intelligent response server updates the emergency sign to be in a response prompt state and displays the response prompt state on the information large screen.

Step 4: a response process comprising:

the regional responsible person uses the regional mobile phone, opens the response webpage of the intelligent response server through the wireless local area network in the hospital, reads the alarming image-text information, and presses the webpage button to respond.

The person responsible for on duty of the emergency treatment center uses the central mobile phone, opens a response webpage of the intelligent response server through the wireless local area network in the hospital, reads the alarming image-text information, and presses a webpage button to respond. The person in charge of the emergency treatment center can also respond by pressing a response button of the emergency treatment center.

After the emergency sign is responded, a response person carries the emergency sign to go to the alarm place when going to the alarm place, the emergency sign is disconnected or otherwise detected (such as the emergency sign is taken off from the base or the response person presses a key on the emergency sign), response success information is generated, an acousto-optic prompt is closed, and the response success information is sent to the intelligent response server and the alarm button through the self-organizing wireless network.

After receiving the response success information sent by the emergency sign, the alarm button updates the alarm button to a response success state, and the intelligent response server updates the alarm button and the emergency sign to the response success state and displays the response success state on the information large screen of the emergency center.

Step 5: alarm release, comprising:

After the emergency treatment is finished, the emergency personnel resets the alarm button, the alarm button closes the audible and visual information, the alarm button sends the reset information to the intelligent response server through the self-organizing wireless network, and the alarm button is updated to a standby state; the alarm button simultaneously sends a reset message to the emergency sign through the ad hoc wireless network, and the emergency sign will return to the standby state after the emergency sign is reset (usually by inserting a charging wire). Besides the alarm release can be realized by resetting the alarm button, the central mobile phone can also open a webpage of the intelligent response server through the wireless local area network in the hospital to operate, and the alarm button and the emergency sign are updated to be in a standby state.

A second aspect of the present invention proposes a hospital-based wireless alarm rapid response system for the method of the first aspect, the system having a network architecture of hybrid networking of ad hoc wireless networks and an in-hospital wireless lan, and providing an emergency platform.

The self-organizing wireless network part comprises an alarm button, an emergency sign and a main control node, and the alarm button, the emergency sign and the main control node communicate with each other through the self-organizing wireless network.

The alarm buttons are arranged in different areas inside the hospital and used for giving out audible and visual alarm when triggered, sending alarm information to the intelligent response server and the emergency sign through the self-organizing wireless network, resetting after emergency treatment is completed, closing the audible and visual alarm, and sending reset information to the intelligent response server and the emergency sign through the self-organizing wireless network.

The emergency sign is arranged at the nurse station and/or the emergency equipment storage place, the emergency sign is arranged outside the emergency equipment or outside the emergency equipment storage box, and the audible and visual alarm sent by the emergency sign can be obviously perceived by passers-by and can be easily taken down. The emergency sign is used for displaying the alarm place after receiving the alarm information and prompting nearby personnel to carry emergency equipment and the emergency sign to the alarm place through sound and light. The emergency sign is taken down after the nearby personnel respond, generates information of successful response, closes the acousto-optic prompt, and sends the information of successful response to the intelligent response server and the alarm button through the self-organizing wireless network. And after receiving the reset information and returning to the original position, the emergency sign is restored to the standby state. In some embodiments of the invention, the emergency sign is provided with a charging interface to connect a charging wire, and the emergency sign in an alarm state generates a message of success in response by checking that the charging interface and the charging wire are disconnected; the reset emergency sign is restored to the standby state after the charging interface is plugged into the charging wire.

The main control node is used for connecting the self-organizing wireless network and the intelligent response server to realize the mutual communication between the equipment in the self-organizing wireless network and the intelligent response server.

The hospital wireless local area network part comprises an area mobile phone, a central mobile phone and an intelligent response server, which are interconnected through the hospital wireless local area network.

The regional mobile phone is held by a regional responsible person, and the central mobile phone is held by an emergency treatment center responsible person on duty. The intelligent response server is used for receiving alarm information in real time, planning a path from an emergency center to an alarm place, sending the alarm information to the regional mobile phone and the central mobile phone, calling the regional mobile phone and the central mobile phone by voice, and updating the states of an alarm button and an emergency sign in real time; the method specifically comprises the following steps: after receiving the alarm information, the intelligent response server updates the alarm button to an alarm state, and simultaneously automatically sends alarm graphic information to the regional mobile phone and the central mobile phone corresponding to the alarm button, and dials the regional mobile phone and the central mobile phone corresponding to the alarm button through voice; the intelligent response server updates the emergency sign to be in a response prompt state after receiving the alarm information of the emergency sign, updates the alarm button to be in a response success state after receiving the response success information of the emergency sign, and updates the alarm button to be in a standby state after receiving the reset information of the alarm button. The intelligent response server can display alarm information and information large screens of all relevant equipment states to the emergency center in real time.

The main control node and the intelligent response server are arranged on an emergency platform, and the emergency platform is also provided with an information large screen. The information large screen is connected with the intelligent response server and is used for displaying alarm information, states of all equipment (including alarm buttons and emergency signs) and response conditions of equipment, regional responsible persons and emergency centers. Further, the emergency platform is also provided with a response button, and the response button is used for responding by pressing by an emergency center responsible person after alarming.

In some embodiments of the invention, the ad hoc wireless network portion is constructed using ESP-WIFI-MESH technology. The alarm button comprises an Internet of things module, a key, an alarm lamp, a loudspeaker, a pull rope and a power line, wherein the Internet of things module is used for being connected with a self-organizing wireless network and controlling the operation of the alarm button, the power line is used for being connected with an external power supply, the key and the pull rope are used for triggering an alarm, and the loudspeaker and the alarm lamp are used for emitting an audible and visual alarm. The emergency sign comprises an internet of things module, an alarm lamp, a loudspeaker, a display screen, a battery and a charging wire, wherein the internet of things module is used for being connected with a self-organizing wireless network and controlling operation of the emergency sign, the alarm lamp is used for giving out a lamplight alarm, the loudspeaker is used for giving out a sound alarm, the display screen is used for displaying alarm information, the battery is used for supplying power when not being connected with the charging wire, and the charging wire is used for supplying power when being connected with the charging wire. The intelligent response server comprises an operating system module, a front-end map software module, a web server module, a back-end service software module and a database module so as to realize the functions of the intelligent response server.

Due to the application of the scheme, compared with the prior art, the invention has the following advantages and effects:

According to the technical scheme, the self-organizing wireless network is adopted to connect the alarm button, the emergency sign and the main control node, a large number of devices are not required to be connected to the hospital network, and the wider deployment can be realized quickly and at low cost. Meanwhile, the scheme can avoid occupying a large amount of wireless local area network resources in a hospital and improve medical safety.

The technical scheme of the invention adopts a hybrid networking mode, combines image-text prompt and voice prompt, is convenient for emergency response personnel to respond in time by utilizing the smart phone, and does not need a special first-aid terminal.

The alarm and the response in the technical scheme of the invention do not need central centralized control, can run without centers, and improve the alarm efficiency and the reliability.

According to the technical scheme, the emergency sign triggers the active response of the emergency equipment, so that the emergency equipment and the emergency sign can be transported to an emergency position with the help of nearby personnel. Compared with the scheme that an alarm or a responsible person searches for emergency equipment and returns to the site, the scheme can save half of the journey, and the response speed of the emergency equipment is improved.

In conclusion, the technical scheme of the invention can be conveniently and widely deployed in hospitals, saves wireless local area network resources, improves medical safety, and can effectively reduce interference to a hospital service network. Meanwhile, the system has the characteristics of complete coverage, quick and visual alarm and dynamic real-time display, is beneficial to timely response of medical staff and emergency equipment, reaches an emergency site at the fastest speed according to a planned path, and cooperatively performs work so as to protect the life and health of a patient to the greatest extent.

Drawings

Fig. 1 is a flowchart of a method for wireless alarm quick response in hospital according to an embodiment of the invention.

Fig. 2 is a system block diagram of a hospital wireless alarm quick response system according to an embodiment of the invention.

Fig. 3 is an external view schematically showing an alarm button according to an embodiment of the present invention.

FIG. 4 is a system block diagram of an alarm button according to an embodiment of the present invention.

Fig. 5 is an external view schematically showing an emergency sign according to an embodiment of the present invention.

FIG. 6 is a system block diagram of an emergency sign according to an embodiment of the present invention.

FIG. 7 is a system block diagram of an intelligent response server software system according to an embodiment of the present invention.

Fig. 8 is a schematic diagram of an information large screen of an emergency center according to an embodiment of the present invention.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. In the following description, the continuous reference numerals of the method steps are used to facilitate examination and understanding, and in combination with the overall technical scheme of the present invention and the logic relationships between the steps, the implementation sequence between the steps is adjusted without affecting the technical effect achieved by the technical scheme of the present invention. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Fig. 1 is a flowchart of a hospital wireless alarm quick response method according to an embodiment of the present invention, which includes, but is not limited to, steps S100 to S500:

S100, mixed networking. In some embodiments, S100 includes, but is not limited to, steps S110-S120:

s110, the alarm button, the emergency sign and the main control node adopt wireless links to form an ad hoc wireless network and are connected to the intelligent response server through the main control node. Each node of the ad hoc wireless network stores the device type and device number of the node interconnected with the node.

S120, the regional mobile phone, the intelligent response server and the central mobile phone are all accessed to the wireless local area network in the hospital, and the regional mobile phone and the central mobile phone are supported to access the intelligent response server.

S200, alarm setting. In some embodiments, S200 includes, but is not limited to, steps S210-S230:

s210, the intelligent response server registers the device number, device address, and area number of each alarm button and emergency sign.

S220, the intelligent server sets the emergency sign equipment number and the equipment address corresponding to each alarm button.

S230, the intelligent response server updates the equipment number and the equipment address of the emergency sign corresponding to each alarm button if necessary.

S300, alarm triggering. In some embodiments, S300 includes, but is not limited to, steps S310-S350:

and S310, when an emergency event occurs in the hospital, an alarm button is pressed, the alarm button sends out audible and visual alarm display, and an intelligent response server is alerted through the self-organizing network, and the alarm information comprises an alarm place, an alarm button number and an equipment number of an emergency sign.

S320, after receiving the alarm information, the intelligent response server updates the alarm button to an alarm state, displays the alarm state on the information large screen, simultaneously automatically sends alarm graphic information to the regional mobile phone and the central mobile phone corresponding to the alarm button, dials the regional mobile phone and the central mobile phone corresponding to the alarm button through voice, and prompts the regional responsible person and the emergency treatment center responsible person to perform processing on duty.

S330, the alarm button simultaneously sends alarm information to the emergency sign through the self-organizing network to trigger the emergency sign to respond.

S340, after the emergency sign receives the alarm information, the alarm place information is displayed, and nearby personnel are prompted to respond in time by sound and light, and the emergency sign carries emergency equipment such as AED equipment and actively goes to the alarm place.

And S350, the emergency sign sends the received alarm information to the intelligent response server, updates the emergency sign to be in a response prompt state and displays the response prompt state on the information large screen.

S400, responding to the processing. In some embodiments, S400 includes, but is not limited to, steps S410-S440:

S410, the regional responsible person uses the mobile phone, opens the response webpage of the intelligent response server through the wireless local area network in the hospital, reads the alarming image-text information, and presses a webpage button to respond.

S420, a center responsible person uses a mobile phone, opens a response webpage of the intelligent response server through the wireless local area network in the hospital, reads the alarming image-text information, and presses a webpage button to respond. The center responsible person may also respond by pressing a response button of the emergency center.

S430, after the emergency sign is responded, the response personnel carry the emergency sign to go to the alarm place when going to the alarm place, the emergency sign is disconnected by checking the charging wire, response success information is generated, the acousto-optic prompt is closed, and the response success information is sent to the intelligent response server and the alarm button through the self-organizing network.

S440, the alarm button updates the alarm button to a response success state, and the intelligent server updates the alarm button and the emergency sign to the response success state and displays the alarm button and the emergency sign on the information large screen of the emergency center.

S500, releasing the alarm. As shown in fig. 6, in some embodiments, S500 includes, but is not limited to, step S510:

S510, after the emergency is finished, the emergency personnel resets the alarm button, the alarm button closes the audible and visual information, the alarm button sends the reset information to the intelligent response server through the self-organizing network, the alarm button is updated to a standby state, meanwhile, the reset information is sent to the emergency sign through the self-organizing network, and after the emergency sign is inserted into the charging wire, the emergency sign is restored to the standby state.

Fig. 2 is a system block diagram of a hospital wireless alarm quick response system including an ad hoc wireless network portion 100, an in-hospital wireless local area network portion 200, and an emergency platform 300 according to an embodiment of the present invention. A main control node 130, an intelligent corresponding server 230, an information large screen 310 and a response button 320 are arranged in the hospital emergency center, and a center mobile phone 220 is provided; alarm buttons 110 and emergency signs 120 are provided at 4 lesions, and each lesion is equipped with a regional handset 210.

The establishment of the ad hoc wireless network uses ESP-WIFI-MESH technology. Compared with the traditional Wi-Fi technology that one central node is connected with a plurality of other nodes, the ESP-WIFI-MESH can enable each node in the network to be connected with adjacent nodes, and each node is a data relay of the connected node, so that more devices can be accessed, and wider deployment is realized.

As shown in fig. 2, the nodes of the ad hoc wireless network portion 100 include an alarm button 110, an emergency sign 120, and a master control node 130, each of which is connected to neighboring devices and serves as a data relay of the connected nodes. The master node 130 is also connected to the intelligent response server 230 to enable intercommunication of devices within the ad hoc wireless network with the intelligent response server 230.

As shown in fig. 3, the alarm button 110 has an external power source connected to the alarm button 110 via a power cord 11, and is provided with a key-press and alarm lamp 12, a speaker 13 and a pull cord 14. The system block diagram of the alarm button 110 is shown in fig. 4, and comprises an ESP8266 module 111, an external power source 112, a button module 113, an alarm lamp module 114, a pull rope module 115 and a speaker module 116. The ESP8266 module 111 includes a main processor, a Wi-Fi module and a memory, and is used for controlling the operation of the alarm button, accessing the ad hoc wireless network, and storing the operation state, the alarm information and the equipment number corresponding to the emergency sign 120; the external power supply 112 is used for supplying power; the button module 113 is used for pressing an alarm; the alarm lamp module 114 is used for giving out a lamplight alarm; the stay cord module 115 is used for pulling down a rope to give an alarm; speaker module 116 is used to sound an alarm.

The alarm button 110 emits an audible and visual alarm when pressed or pulled, transmits alarm information to the intelligent response server 230 and the corresponding emergency sign 120 through the ad hoc wireless network, resets to close the audible and visual alarm after the emergency is completed, and transmits reset information to the intelligent response server 230 and the emergency sign 120 through the ad hoc wireless network.

As shown in fig. 5, the emergency sign 120 has an alarm lamp 21, a speaker 22, and a display screen 23, and is connected to a charging wire 125. The system block diagram of the emergency sign 120 is shown in fig. 6, which includes an ESP8266 module 121, an alarm lamp module 122, a display screen module 123, a battery 124, a charging cord 125, and a speaker module 126. The ESP8266 module 111 comprises a main processor, a Wi-Fi module and a memory, and is used for controlling the operation of an alarm button, accessing an ad hoc wireless network and storing an operation state and alarm information; the alarm lamp module 122 is used for giving out a lamplight alarm; the display screen module 123 is used for displaying alarm information; the battery 124 is used for supplying power when the charging wire 125 is not connected; the charging wire 125 is used for supplying power when connected; speaker module 126 is used to sound an alarm.

The emergency sign 120 is placed outside the emergency equipment or the emergency equipment safe box, and the audible and visual alarm emitted by the emergency sign can be obviously perceived by passers-by and can be easily removed. The emergency sign 120 is used for displaying the alarm place information after receiving the alarm information, and the people nearby are prompted to carry emergency equipment and the emergency sign 120 to the alarm place by sound and light. The emergency sign 120 is removed after responding by a nearby person, generates a response success message by checking that the charging cord 125 is disconnected, turns off the audible and visual cue, and sends the response success message to the intelligent response server 230 and the alarm button 110 via the ad hoc network. The emergency sign 120 returns to the standby state after receiving the reset information and resetting the inserted charging cord 125.

As shown in fig. 2, the wireless lan section 200 includes a regional handset 210, a central handset 220, and an intelligent response server 230, which are interconnected by an in-home wireless lan.

The regional handset 210 is a regional responsible person, for example, the regional handset L1/L2/L3/L4 corresponds to the responsible person of the disease area 1/2/3/4, respectively. The central mobile phone 220 is held by the person responsible for the first aid center on duty.

The software system architecture of the intelligent response server 230 is shown in fig. 7, and includes a Linux system 231, front-end map software 232,WebServer 233, back-end service software 234, and mysql database 235. The Linux system 231 is an operating system; the front-end map software 232 is responsible for rendering and displaying the map; webServer 233 is used to provide web page display services to information large screen 310, regional handset 210 and central handset 220; the backend service software 234 is responsible for all business logic; the MySQL database 235 is used to store the device number, device address, and zone number of each alarm button 110 and emergency sign 120, as well as zone responsible person, emergency center responsible person on duty information, and cell phone contact.

After receiving the alarm information, the intelligent response server 230 updates the alarm button 110 to an alarm state, and simultaneously automatically sends the alarm graphic information to the regional mobile phone 210 and the central mobile phone 220 corresponding to the alarm button, and dials the regional mobile phone 210 and the central mobile phone 220 corresponding to the alarm button through the voice of the software dialer or the hardware dialer. The intelligent response server 230 updates the emergency sign 120 to a response prompt state after receiving the alarm information of the emergency sign 120, updates the alarm button 110 and the emergency sign 120 to a response success state after receiving the response success information of the emergency sign 120, and updates the alarm button 110 to a standby state after receiving the reset information of the alarm button 110. The smart response server 230 will display the alarm information and all relevant device status in real time to the emergency center's information large screen 310.

As shown in fig. 2, the emergency platform 300 includes a master control node 130, an intelligent response server 230, an information large screen 310, and a response button 320.

The interface of the large information screen 310 is shown in fig. 8, and the large information screen 310 can display all the equipment states on the map in the hospital in real time, and display alarm information and response conditions of equipment, regional responsible persons and emergency centers. The response button 320 is used for responding by pressing by the emergency center responsible person after the alarm.

The above description of the embodiments is provided to facilitate understanding of the method and its core concept, and is intended to enable those skilled in the art to understand the application and to implement it accordingly, and is not intended to limit the scope of the application. Various equivalent modifications and substitutions are intended to be included within the scope of the present application as defined in the claims, without departing from the spirit of the present application.

Claims (10)

1. A hospital wireless alarm quick response method comprises the following steps:

1) And (3) hybrid networking: setting alarm buttons and emergency labels in each area in a hospital, forming a self-organizing wireless network by taking the alarm buttons and the emergency labels as nodes and a main control node, and connecting the self-organizing wireless network to an intelligent response server through the main control node, wherein each node stores the equipment type and the equipment number of the node interconnected with the node; setting an area mobile phone and a center mobile phone, wherein the intelligent response server, the area mobile phone and the center mobile phone are connected to a wireless local area network in a hospital, and the area mobile phone and the center mobile phone are supported to access the intelligent response server, wherein each area mobile phone is held by a person in charge of each area, and the center mobile phone is held by a person in charge of an emergency treatment center of the hospital;

2) Alarm setting: the intelligent response server registers the equipment number, the equipment address and the area number of each alarm button and the emergency sign; the intelligent response server sets the equipment number and the equipment address of the emergency sign corresponding to each alarm button;

3) And (3) alarm triggering: when an emergency event occurs in the hospital, an alarm button is triggered, and the alarm button sends out audible and visual alarm display and alarms to an intelligent response server through a self-organizing wireless network; after receiving the alarm information, the intelligent response server updates the alarm button to an alarm state, displays the alarm state on an information large screen of the hospital emergency center, plans a path from the emergency center to an alarm place, automatically sends alarm graphic information to a regional mobile phone and a central mobile phone corresponding to the alarm button, and dials the regional mobile phone and the central mobile phone corresponding to the alarm button by voice to prompt regional responsible persons and responsible persons on duty of the emergency center to process the information; the alarm button simultaneously sends alarm information to the corresponding emergency sign through the self-organizing wireless network to trigger the response of the emergency sign; after receiving the alarm information, the emergency sign displays alarm place information, and gives an audible and visual prompt to nearby personnel for timely response, meanwhile, the emergency sign sends the received alarm information to an intelligent response server, and the intelligent response server updates the emergency sign to be in a response prompt state and displays the response prompt state on an information large screen;

4) And (3) response processing: the regional responsible person uses the regional mobile phone to open a response webpage of the intelligent response server through the wireless local area network in the hospital to respond; the person responsible for on duty of the emergency treatment center uses the central mobile phone, and responds by opening a response webpage of the intelligent response server through the wireless local area network in the hospital, or responds by pressing a response button of the emergency treatment center; after the emergency sign is responded, nearby people carry the emergency sign to an alarm place, the emergency sign generates information of successful response, the acousto-optic prompt is closed, and the information of successful response is sent to the intelligent response server and the alarm button through the self-organizing wireless network; the alarm button is updated to a response success state, and the intelligent response server updates the alarm button and the emergency sign to the response success state and displays the alarm button and the emergency sign on an information large screen of the emergency treatment center;

5) Alarm release: after the emergency treatment is finished, the emergency personnel resets the alarm button, the alarm button closes the audible and visual information, and sends the reset information to the intelligent response server through the self-organizing wireless network, and the alarm button is updated to a standby state; the alarm button simultaneously sends reset information to the emergency sign through the self-organizing wireless network, and the emergency sign is reset and is restored to a standby state; or the central mobile phone opens the webpage of the intelligent response server through the wireless local area network in the hospital to operate, and updates the alarm button and the emergency sign to be in a standby state.

2. The hospital rapid response method with wireless alarm according to claim 1, wherein in step 1), the alarm button is provided in the patient area inside the hospital, and the emergency sign is provided at the nurse station and/or the emergency equipment storage.

3. The hospital-based wireless alarm quick response method according to claim 1, wherein in step 3), the alarm information received by the intelligent response server from the alarm button includes an alarm place, an equipment number of the alarm button, and an equipment number of a corresponding emergency sign; the intelligent response server sends alarm graphic information to the regional mobile phone and the central mobile phone, wherein the alarm graphic information comprises alarm characters, an alarm map, a planned path, and the position and the state of an emergency sign.

4. The hospital rapid response method for wireless alarms according to claim 1, characterized in that in step 3) the intelligent response server, when planning the path of the emergency centre to the alarm site, avoids the temporary medical or finishing event causing the non-passable path.

5. The hospital indoor wireless alarm quick response method according to claim 1, wherein in step 4), the emergency sign generates a message of successful response by checking that the charging wire is disconnected; in step 5), the emergency sign is returned to the standby state after the charging wire is inserted.

6. A hospital wireless alarm quick response system for realizing the hospital wireless alarm quick response method of any one of claims 1-5, the system has a network architecture of a hybrid networking of an ad hoc wireless network and an in-hospital wireless local area network, and an emergency platform is arranged; wherein:

the self-organizing wireless network part comprises an alarm button, an emergency sign and a main control node, and the alarm button, the emergency sign and the main control node are communicated through the self-organizing wireless network; the main control node is used for connecting the self-organizing wireless network and the intelligent response server to realize the mutual communication between the equipment in the self-organizing wireless network and the intelligent response server; the alarm buttons are arranged in different areas in the hospital and used for giving out audible and visual alarm when triggered, sending alarm information to the intelligent response server and the emergency sign through the self-organizing wireless network, resetting after the emergency is finished, closing the audible and visual alarm, and sending reset information to the intelligent response server and the emergency sign through the self-organizing wireless network; the emergency sign is arranged at a nurse station and/or an emergency equipment storage place and used for displaying an alarm place after receiving alarm information and prompting nearby personnel to carry emergency equipment and the emergency sign to go to the alarm place through sound and light; the emergency sign generates response success information after being taken down by nearby personnel, closes the acousto-optic prompt, and sends the response success information to the intelligent response server and the alarm button through the self-organizing wireless network; after receiving the reset information and returning to the original position, the emergency sign is restored to a standby state;

The hospital wireless local area network part comprises an area mobile phone, a central mobile phone and an intelligent response server, which are interconnected through the hospital wireless local area network; the regional mobile phone is held by a regional responsible person, and the central mobile phone is held by an emergency treatment center on-duty responsible person; the intelligent response server is used for receiving alarm information in real time, planning a path from an emergency center to an alarm place, sending the alarm information to the regional mobile phone and the central mobile phone, calling the regional mobile phone and the central mobile phone by voice, and updating the states of an alarm button and an emergency sign in real time;

The main control node and the intelligent response server are arranged on an emergency platform, and the emergency platform is also provided with an information large screen; the information large screen is connected with the intelligent response server and is used for displaying alarm information, equipment states and response conditions.

7. The hospital wireless alarm rapid response system of claim 6, wherein the emergency platform is further provided with a response button for the emergency center attendant to press to respond after receiving the alarm information.

8. The hospital wireless alarm rapid response system of claim 6, wherein the self-organizing wireless network part adopts an ESP-WIFI-MESH network, and the alarm button comprises an internet of things module, a key, an alarm lamp, a loudspeaker, a pull rope and a power line; the emergency sign comprises an Internet of things module, an alarm lamp, a loudspeaker, a display screen, a battery and a charging wire; the internet of things module comprises a main processor, a Wi-Fi module and a memory.

9. The hospital wireless alarm rapid response system of claim 8, wherein the internet of things module is an ESP8266 module.

10. The hospital wireless alarm rapid response system of claim 6, wherein the intelligent response server comprises an operating system module, a front-end map software module, a web server module, a back-end service software module, and a database.