CN213276938U - Future community emergency service directly links system - Google Patents

Abstract

The utility model discloses a future emergency service of community directly links system relates to emergency service technical field. The system comprises fire-fighting monitoring terminals which are installed in a distributed manner in a community and used for monitoring fire-fighting dangerous cases; the fire-fighting monitoring terminal comprises a flame detector, a temperature sensor and a smoke-sensitive alarm for detecting fire signals; the first positioning module is used for acquiring a position signal; and the first controller is used for sending a fire signal and a position signal to the community monitoring center. The wearable device is worn on the body of a user, comprises a heart rate acquisition module and is used for monitoring the heart rate of the user; the second positioning module is used for acquiring the specific position of the user; the community monitoring center comprises a monitoring server, and when receiving a fire signal sent by the fire monitoring terminal, the monitoring server controls the community broadcasting system to start and sends early warning information to the community; the specific location of the user is obtained. The utility model discloses when taking place the conflagration dangerous situation, the very first time acquires near the scene of fire personnel, has guaranteed personnel's life safety in the very big degree.

Description

Future community emergency service directly links system

Technical Field

The utility model relates to an emergency service technical field especially relates to a future emergency service of community directly links system.

Background

The community is a basic unit for bearing social population and is an important embodiment of urban development. However, for various reasons, there are various problems in community construction, such as lack of openness, compatibility and interconnectivity in technology and products, lack of uniform technical standards, single product function, and no sensory function. The current community service can not realize comprehensive intellectualization and can not meet the requirements of human beings on living environment. With the increasing development of scientific technology, the novel city functional unit guided by the nine scene innovations of neighborhood, education, health, entrepreneurship, building, traffic, energy, property and treatment and the like in the future, namely the future community, is generated by taking humanization, ecology and informatization as value guidance around the full life chain service requirement of the community.

With the idea of people-oriented, how to ensure the safety of people is the central importance of community construction in emergency situations such as fire. However, different people have different self-protection abilities against emergency situations, such as weak people, such as women, children, and the like, and are more vulnerable to the emergency situations than others. Therefore, how to preferentially ensure the safety of the vulnerable group in case of emergency is one of the problems to be solved urgently.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a future emergency service of community directly links system, when taking place the conflagration dangerous situation, the very first time acquires near the scene of fire personnel, has guaranteed personnel's life safety in the very big degree.

In order to achieve the above object, the utility model provides a following technical scheme:

a future community emergency service direct connection system comprises a community monitoring center, a plurality of fire-fighting monitoring terminals and a plurality of wearable devices,

the fire-fighting monitoring terminals are installed in the community in a distributed mode and used for monitoring fire-fighting dangerous cases; the fire protection monitoring terminal comprises a first controller, and a flame detector, a temperature sensor, a smoke detector alarm and a first positioning module which are connected with the first controller; the flame detector, the temperature sensor and the smoke detector detect fire signals; the first positioning module is used for acquiring a position signal; the first controller is used for sending a fire signal and a position signal to the community monitoring center;

the wearable device is worn on the body of a user and comprises a second controller, a heart rate acquisition module and a second positioning module, wherein the heart rate acquisition module and the second positioning module are connected with the second controller; the heart rate acquisition module monitors the heart rate of the user; the second positioning module is used for acquiring the specific position of the user;

the community monitoring center comprises a monitoring server and a community broadcasting system; when the monitoring server receives a fire signal sent by the fire monitoring terminal, the monitoring server controls a community broadcasting system to be started and sends early warning information to a community; at the same time, a specific location of the user wearing the wearable device is obtained.

Furthermore, the community monitoring center is provided with a first talkback module, and the wearable equipment is provided with a second talkback module; the first talkback module and the second talkback module realize mutual conversation by sending a conversation request.

Furthermore, fire control monitor terminal is provided with manual alarm, manual alarm is connected with first controller, through manual fire signal that triggers.

Furthermore, the fire control monitor terminal is provided with a camera, the camera is connected with the first controller, and when the first controller receives a fire signal, the camera is triggered to be opened to acquire the video information of the current position.

Furthermore, fire control monitor terminal is provided with audible-visual annunciator, audible-visual annunciator is connected with first controller, and when first controller received the fire signal, triggered audible-visual annunciator and opened, reminded near personnel in time to withdraw.

Further, the first controller and/or the second controller adopt a single chip microcomputer with the model number of AT89C 51.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a sensor automated inspection conflagration dangerous situation to when detecting fire signal, directly link the community surveillance center, send the broadcast early warning, acquire the concrete position of the user who wears wearable equipment simultaneously, so that in time rescue and ensure its life safety.

Drawings

Fig. 1 is a schematic view of an overall structure of an embodiment of the present invention.

Fig. 2 is the utility model discloses a fire control monitor terminal schematic diagram of an embodiment.

Fig. 3 is a schematic view of a wearable device according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the present embodiment provides a future community emergency service direct connection system, which includes a community monitoring center, a plurality of fire monitoring terminals, and a plurality of wearable devices.

The fire-fighting monitoring terminals are installed in the community in a distributed mode and used for automatically monitoring fire-fighting dangerous cases in real time. Specifically, referring to fig. 2, the fire monitoring terminal includes a first controller, and a flame detector, a temperature sensor, a smoke detector, and a first positioning module connected to the first controller.

The fire detector, the temperature sensor and the smoke detection alarm detect fire signals, specifically flame signals, temperature signals and smoke detection signals, when at least one of the flame signals, the temperature signals and the smoke detection signals reaches a corresponding preset threshold value, it is determined that a fire occurs at the position, and the fire signals are sent to the first controller;

the first positioning module is used for acquiring a specific position signal and sending the specific position signal to the first controller;

the first controller adopts a single chip microcomputer with the model of AT89C51, is used for overall control of the fire-fighting monitoring terminal, and sends fire signals and position signals to a community monitoring center. Specifically, when the first controller receives a fire signal, the first positioning module is triggered to acquire a position signal, and the fire signal and the position signal I are sent to the community monitoring center.

Because the detection capability of the sensor is limited, or the sensor is limited by the service life and the fault of the sensor, the signal cannot be transmitted to the fire monitoring terminal in the first time of the occurrence of the dangerous case.

More preferably, in order to enable the community monitoring center to further know the status of the site, the fire monitoring terminal is further provided with a camera, the camera is connected with the first controller, when the first controller receives a fire signal, the camera is triggered to be opened, and the video information of the current position is acquired to be checked by the community monitoring center. And in order to evacuate personnel in the fire scene in time, the fire monitoring terminal is provided with an audible and visual alarm which is connected with the first controller, when the first controller receives a fire signal, the audible and visual alarm is triggered to be started, the personnel nearby are reminded of evacuating in time through the audible and visual signal, and the safety of most of the personnel is guaranteed at the first time.

When the fire scene has weak groups such as old, weak, women, children and the like, the people can not be evacuated by themselves at the first time when the fire signal is received any more due to the limitation of the traveling power of the people, so the wearable device is adopted by the embodiment to help the people. The wearable device is worn on a specific user (such as weak groups like the old, the weak, women and children or other people with limited mobility), and comprises a second controller, a heart rate acquisition module and a second positioning module, wherein the heart rate acquisition module and the second positioning module are connected with the second controller.

The heart rate acquisition module is used for monitoring the heart rate of the user and continuously monitoring the physical health condition of the user; the second positioning module is used for acquiring the specific position of the user; the second controller adopts the singlechip that the model is AT89C51 for wearable equipment's overall control sends user's rhythm of the heart and specific positional information to community monitoring center.

The community monitoring center comprises a monitoring server, a display and a community broadcasting system; the display is used for displaying video information and the like acquired by the camera; when the monitoring server receives a fire signal sent by the fire monitoring terminal, the monitoring server controls a community broadcasting system to be started and sends early warning information to a community; meanwhile, the specific position of the user wearing the wearable equipment is obtained, and if the user wearing the wearable equipment (such as weak groups such as old, weak women and children or other people with limited mobility) cannot leave the fire scene in time, rescue workers can be dispatched to rescue according to the situation.

In order to enable a community monitoring center to know specific conditions, the community monitoring center is provided with a first talkback module, and wearable equipment is provided with a second talkback module; the first talkback module and the second talkback module realize mutual conversation by sending a conversation request so as to realize the conversation between the community monitoring center and a specific user and know the situation of the site, thereby making more appropriate arrangement.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A future community emergency service direct connection system comprises a community monitoring center, a plurality of fire-fighting monitoring terminals and a plurality of wearable devices, and is characterized in that,

the fire-fighting monitoring terminals are installed in the community in a distributed mode and used for monitoring fire-fighting dangerous cases; the fire protection monitoring terminal comprises a first controller, and a flame detector, a temperature sensor, a smoke detector alarm and a first positioning module which are connected with the first controller; the flame detector, the temperature sensor and the smoke detector detect fire signals; the first positioning module is used for acquiring a position signal; the first controller is used for sending a fire signal and a position signal to the community monitoring center;

the wearable device is worn on the body of a user and comprises a second controller, a heart rate acquisition module and a second positioning module, wherein the heart rate acquisition module and the second positioning module are connected with the second controller; the heart rate acquisition module monitors the heart rate of the user; the second positioning module is used for acquiring the specific position of the user;

the community monitoring center comprises a monitoring server and a community broadcasting system; when the monitoring server receives a fire signal sent by the fire monitoring terminal, the monitoring server controls a community broadcasting system to be started and sends early warning information to a community; at the same time, a specific location of the user wearing the wearable device is obtained.

2. The future community emergency services direct connection system of claim 1, wherein the community monitoring center is provided with a first intercom module, and the wearable device is provided with a second intercom module; the first talkback module and the second talkback module realize mutual conversation by sending a conversation request.

3. The future community emergency services direct connection system according to claim 1, wherein the fire monitoring terminal is provided with a manual alarm, the manual alarm is connected with the first controller, and a fire signal is triggered manually.

4. The future community emergency service direct connection system according to claim 1 or 3, wherein the fire monitoring terminal is provided with a camera, the camera is connected with the first controller, and when the first controller receives a fire signal, the camera is triggered to be turned on to obtain video information of a current position.

5. The future community emergency service direct connection system according to claim 1, wherein the fire monitoring terminal is provided with an audible and visual alarm, the audible and visual alarm is connected with the first controller, and when the first controller receives a fire signal, the audible and visual alarm is triggered to be turned on to remind people nearby of timely evacuation.

6. The future community emergency services direct connection system of claim 1, wherein the first controller and/or the second controller is a single chip microcomputer of type AT89C 51.

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