CN209928482U - Emergent sparse system of people's air defense - Google Patents

Abstract

The utility model discloses an emergent sparse system of people's air defense, including people's air defense host computer, monitoring host computer, wisdom banks and unmanned aerial vehicle group. The civil air defense host is arranged in the civil air defense central station/intermediate station; the monitoring host is arranged in a monitoring station and is in communication connection with the civil air defense host through a civil air defense private network; the intelligent street lamp group comprises a plurality of intelligent street lamps, and each intelligent street lamp is provided with an apron; each intelligent street lamp is provided with a ZigBee module, and a ZigBee network constructed by the intelligent street lamp is in communication connection with the monitoring host; each intelligent street lamp is provided with a GPRS module so as to be in communication connection with the monitoring host respectively; the unmanned aerial vehicle set comprises a plurality of unmanned aerial vehicles, and each unmanned aerial vehicle is anchored on the parking apron; each unmanned aerial vehicle is provided with a ZigBee module so as to be in communication connection with the ZigBee network; each unmanned aerial vehicle all is equipped with the GPRS module, with monitoring host communication connection.

Description

Emergent sparse system of people's air defense

Technical Field

The utility model relates to a people's air defense field, concretely relates to emergent sparse system of people's air defense.

Background

Civil air defense has multiple functions in city construction. Cities are carriers for civil air defense construction. The civil air defense construction is enhanced, the earthquake-resistant and damage-resistant capacity can be enhanced while meeting the demand of wartime, the damage degree of various disaster accidents is reduced, and the civil air defense construction method is a demand for constructing safe cities.

The traditional civil air defense emergency evacuation system mostly only depends on an electroacoustic alarm and broadcasting to sound when a disaster or a dangerous case occurs, and people are guided to evacuate. The guiding effect is limited, and with the proposal and construction of the concept of the smart city, the civil air defense emergency evacuation system can have more advanced and reliable evacuation modes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a emergent sparse system of people's air defense under wisdom city background.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a personal protection emergency evacuation system comprising:

the civil air defense host is arranged in the civil air defense central station/intermediate station;

the monitoring host is arranged in the monitoring station and is in communication connection with the civil air defense host through a civil air defense private network;

the intelligent street lamp group comprises a plurality of intelligent street lamps, and each intelligent street lamp is provided with an apron; each intelligent street lamp is provided with a main controller and a ZigBee module, and a ZigBee network constructed by the intelligent street lamp is in communication connection with the monitoring host; each intelligent street lamp is provided with a GPRS module so as to be in communication connection with the monitoring host respectively;

the unmanned aerial vehicle set comprises a plurality of unmanned aerial vehicles, and each unmanned aerial vehicle is anchored on the parking apron; each unmanned aerial vehicle is provided with a ZigBee module so as to be in communication connection with the ZigBee network; each unmanned aerial vehicle all is equipped with the GPRS module, with monitoring host communication connection.

Preferably, each wisdom street lamp still includes bluetooth module, and it passes through bluetooth module and mobile user end communication connection.

Preferably, each of the intelligent street lamps further comprises a projection lamp having an arrow projection window in both forward and backward directions along the road.

Preferably, the apron comprises an outer shell, a lifting plate, a plurality of guide rods, a plurality of first springs and a wireless charging plate; the upper end of the outer shell is provided with an opening, the lifting plate is installed in the outer shell in a vertically sliding mode through the guide rods, and the wireless charging plate is installed on the lifting plate; the first springs are sleeved on the guide rods one by one and are positioned between the bottom surface of the lifting plate and the bottom surface of the inner cavity of the outer shell; when the wireless charging panel is in no-load, the upper end surface of the wireless charging panel is higher than or flush with the edge of the outer shell; when wireless charging panel bore unmanned aerial vehicle, it oppresses the lifter plate descends, and its up end is less than the edge 2CM of shell body more than.

Preferably, the edge of the lifting plate is provided with a sealing ring for sealing a gap between the lifting plate and the inner cavity of the outer shell.

Preferably, the intelligent street lamp further comprises a bearing state inductor, an RFID identification module and a relay which are connected with the main controller, and a normally open contact of the relay is connected into a power supply loop of the wireless charging panel; the unmanned aerial vehicle is provided with an RFID label; when the bearing state sensor senses the unmanned aerial vehicle positioned on the wireless charging panel, and the identity of the unmanned aerial vehicle identified by the RFID identification module is in accordance with the identity of the unmanned aerial vehicle, the main controller controls the relay to close the normally open contact of the relay.

Preferably, the load state sensor includes an electrode and a touch pad, the electrode is a metal telescopic rod vertically installed at the lower end of the lifting plate, a second spring for keeping the metal telescopic rod in an extended state is arranged in the metal telescopic rod, and the touch pad is installed on the bottom surface of the inner cavity of the outer shell and located right below the electrode.

After the technical scheme is adopted, compared with the background art, the utility model, have following advantage:

1. the utility model discloses a brand-new people's air defense evacuation system has been established, it is core with unmanned aerial vehicle group, wisdom street lamp group, monitoring host and people's air defense host, and the wisdom street lamp carries out zigBee and GPRS's dual network communication with monitoring host, and unmanned aerial vehicle group then communicates with monitoring host and wisdom street lamp respectively through GPRS and zigBee; when the intelligent street lamp is in a flat state, the intelligent street lamp and the unmanned aerial vehicle are communicated with the monitoring host through the GPRS network so as to meet the data communication requirements of images and other high-capacity data; when a disaster or a dangerous case occurs and the GPRS network is interrupted, the intelligent street lamp set is communicated with the monitoring host through the ZigBee network, and the unmanned aerial vehicle is indirectly communicated with the monitoring host through the ZigBee network to receive related control instructions and guide the masses to the nearby difficult points;

2. the intelligent street lamp of the utility model is also provided with the Bluetooth module, and people can communicate with the intelligent street lamp through the Bluetooth module, so that the intelligent street lamp can still provide people with evacuation schemes, routes and the like provided by the civil air defense host under the extreme condition of damage of a mobile phone base station;

3. the utility model discloses an air park has and prevents the strong wind and shields the function, can prevent the unmanned aerial vehicle accident of falling or lawless persons' malicious destruction that the strong wind arouses.

Drawings

FIG. 1 is a topological diagram of the present invention;

FIG. 2 is a control block diagram of the intelligent street lamp of the present invention;

FIG. 3 is a circuit block diagram of the intelligent street lamp of the present invention;

FIG. 4 is a schematic structural view of the intelligent street lamp of the present invention;

fig. 5 is a schematic view of a projection window of the projection lamp of the present invention;

fig. 6 is a schematic view of the apron of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the present invention, it should be noted that the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are all based on the orientation or position relationship shown in the drawings, and are only for convenience of description and simplification of the present invention, but do not indicate or imply that the device or element of the present invention must have a specific orientation, and thus, should not be construed as limiting the present invention.

Examples

Referring to fig. 1, the utility model discloses a civil air defense emergency evacuation system, including civil air defense host computer, monitoring host computer, wisdom banks and unmanned aerial vehicle group. The civil air defense host is arranged in the civil air defense central station/intermediate station; the monitoring host is arranged in a monitoring station and is in communication connection with the civil air defense host through a civil air defense private network; the intelligent street lamp group comprises a plurality of intelligent street lamps, and each intelligent street lamp is provided with an apron; each intelligent street lamp is provided with a ZigBee module, and a ZigBee network constructed by the intelligent street lamp is in communication connection with the monitoring host; each intelligent street lamp is provided with a GPRS module so as to be in communication connection with the monitoring host respectively; the unmanned aerial vehicle set comprises a plurality of unmanned aerial vehicles, and each unmanned aerial vehicle is anchored on the parking apron; each unmanned aerial vehicle is provided with a ZigBee module so as to be in communication connection with the ZigBee network; each unmanned aerial vehicle all is equipped with the GPRS module, with monitoring host communication connection.

Referring to fig. 2 and 3, the intelligent street lamp includes a main controller, a camera, an RFID identification module, a load status sensor, a power management module, a street lamp controller, a relay, a projection lamp controller, a projection lamp, a bluetooth module, a ZigBee module, a GPRS module, a storage battery, a street lamp, and a wireless charging panel. The intelligent charging system comprises a camera, an RFID identification module, a bearing state sensor, a power management module, a street lamp controller, a relay, a projection lamp controller, a Bluetooth module, a ZigBee module and a GPRS module, wherein the camera, the RFID identification module, the bearing state sensor, the power management module, the street lamp controller, the relay, the projection lamp controller, the Bluetooth module, the ZigBee module and the GPRS module are respectively connected with a main controller, the power management module is respectively connected with a mains supply and a storage battery, the street lamp controller is connected with a street lamp, the projection lamp controller is connected with the projection lamp.

Referring to fig. 4, a street lamp 1, an apron 2, a control box 3, a camera 4 and a projection lamp 5 are respectively mounted on a lamp post. The main controller, the RIFD identification module, the power management module, the street lamp controller, the projection lamp controller, the Bluetooth module, the ZigBee module, the GPRS module and the relay are all arranged in the control box 3, and the wireless charging panel and the bearing state inductor are all arranged in the parking apron 1.

Referring to fig. 5, the projection lamp 5 has an arrow projection window for projecting an arrow projection in both forward and backward directions along a road, so as to guide people to evacuate.

Referring to fig. 6, the apron 2 includes an outer housing 21, a lifting plate 22, a plurality of guide rods 23, a plurality of first springs 24, and a wireless charging plate 25. The upper end of the outer case 21 is opened, the elevating plate 22 is installed in the outer case 21 to be slidable up and down through a plurality of guide rods 23, and the wireless charging plate 25 is installed on the elevating plate 22. A plurality of (4 in this embodiment) first springs 24 are sleeved on the plurality of guide rods 23 one by one and located between the bottom surface of the lifting plate 22 and the bottom surface of the inner cavity of the outer housing 21. When wireless charging panel 25 is empty load, its up end is higher than or the parallel and level in the edge of shell body 21, so, be favorable to unmanned aerial vehicle's berth, can prevent debris such as fallen leaves to stop on wireless charging panel 25 under the effect of blowing simultaneously. And when wireless charging panel 25 bore unmanned aerial vehicle, under unmanned aerial vehicle's weight effect, its oppression lifter plate 22 descends, and descending height should make its up end be less than more than the marginal 2CM of shell body 21.

In order to prevent fallen leaves, branches and the like from falling into the gap between the edge of the lifting plate 22 and the inner cavity of the outer shell 21, a sealing ring 221 is arranged on the edge of the lifting plate 22.

In this embodiment, the loading state sensor includes an electrode 261 and a contact pad 262. The electrode 61 is a metal telescopic rod vertically installed at the lower end of the lifting plate 2, and a second spring for keeping the telescopic rod in an extended state is arranged in the metal telescopic rod. The contact pad 62 is mounted on the bottom surface of the inner cavity of the outer casing 1 and is located right below the electrode 61. One of the contact pads 61 or 62 is connected to the I/O port of the MCU module, and the other is connected to ground. In the descending process of the wireless charging plate 5, the electrode 61 can be in contact with the touch pad 62, so that the I/O input signal of the main controller is sent, at the moment, the main controller can call the RFID module to verify the identity of the unmanned aerial vehicle, and if the identity is legal, the unmanned aerial vehicle is charged.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. A civil air defense emergency evacuation system, comprising:

the civil air defense host is arranged in the civil air defense central station/intermediate station;

the monitoring host is arranged in the monitoring station and is in communication connection with the civil air defense host through a civil air defense private network;

the intelligent street lamp group comprises a plurality of intelligent street lamps, and each intelligent street lamp is provided with an apron; each intelligent street lamp is provided with a main controller and a ZigBee module, and a ZigBee network constructed by the intelligent street lamp is in communication connection with the monitoring host; each intelligent street lamp is provided with a GPRS module so as to be in communication connection with the monitoring host respectively;

the unmanned aerial vehicle set comprises a plurality of unmanned aerial vehicles, and each unmanned aerial vehicle is anchored on the parking apron; each unmanned aerial vehicle is provided with a ZigBee module so as to be in communication connection with the ZigBee network; each unmanned aerial vehicle all is equipped with the GPRS module, with monitoring host communication connection.

2. A civil air defense emergency evacuation system as claimed in claim 1, wherein: each wisdom street lamp still includes bluetooth module, and it passes through bluetooth module and mobile user end communication connection.

3. A civil air defense emergency evacuation system as claimed in claim 1, wherein: each wisdom street lamp still includes the projection lamp, the projection lamp has the arrow projection window of advancing and retreating two directions along the road.

4. A civil air defense emergency evacuation system as claimed in claim 1, wherein: the parking apron comprises an outer shell, a lifting plate, a plurality of guide rods, a plurality of first springs and a wireless charging plate; the upper end of the outer shell is provided with an opening, the lifting plate is installed in the outer shell in a vertically sliding mode through the guide rods, and the wireless charging plate is installed on the lifting plate; the first springs are sleeved on the guide rods one by one and are positioned between the bottom surface of the lifting plate and the bottom surface of the inner cavity of the outer shell; when the wireless charging panel is in no-load, the upper end surface of the wireless charging panel is higher than or flush with the edge of the outer shell; when wireless charging panel bore unmanned aerial vehicle, it oppresses the lifter plate descends, and its up end is less than the edge 2CM of shell body more than.

5. A civil air defense emergency evacuation system as claimed in claim 4, wherein: and a sealing ring for sealing a gap between the lifting plate and the inner cavity of the outer shell is arranged at the edge of the lifting plate.

6. A civil air defense emergency evacuation system as claimed in claim 4, wherein: the intelligent street lamp further comprises a bearing state inductor, an RFID identification module and a relay which are connected with the main controller, and a normally open contact of the relay is connected into a power supply loop of the wireless charging panel; the unmanned aerial vehicle is provided with an RFID label; when the bearing state sensor senses the unmanned aerial vehicle positioned on the wireless charging panel, and the identity of the unmanned aerial vehicle identified by the RFID identification module is in accordance with the identity of the unmanned aerial vehicle, the main controller controls the relay to close the normally open contact of the relay.

7. A civil air defense emergency evacuation system as claimed in claim 6, wherein: the bearing state sensor comprises an electrode and a touch pad, the electrode is a metal telescopic rod vertically installed at the lower end of the lifting plate, a second spring enabling the metal telescopic rod to keep an extending state is arranged in the metal telescopic rod, and the touch pad is installed on the bottom surface of the inner cavity of the outer shell and located right below the electrode.

Images