CN206684312U - A kind of earthquake monitoring system - Google Patents

Abstract

Seismic detection technique field is the utility model is related to, particularly a kind of earthquake monitoring system.The utility model discloses a kind of earthquake monitoring system, including some vibration monitoring nodes, main control module, alarm modules, indicating lamp module and the 2nd BLE mesh chips, some vibration monitoring nodes are arranged on the relevant position of building, each vibration monitoring node includes shock sensor and the first BLE mesh chips, the output end of the shock sensor is connected with the input of the first BLE mesh chips, some vibration monitoring nodes form BLE mesh networks by respective first BLE mesh chips, first BLE mesh chips of at least one vibration monitoring node are connected with the 2nd BLE mesh chip communications, the 2nd BLE mesh chips, alarm modules and indicating lamp module are connected with main control module respectively.The utility model connects up without complicated, and simple in construction, convenient for installation and maintenance, detection range is big, and cost is low, and energy consumption is low, and accuracy in detection is high, and reliability is high, small volume, does not influence building outward appearance.

Description

A kind of earthquake monitoring system

Technical field

The utility model belongs to seismic detection technique field, more particularly to a kind of earthquake monitoring system.

Background technology

China is between circum-Pacific seismic belt and Eurasian earthquake, is the country of earthquake disaster most serious in the world One, shown according to data over the years, because personnel, property loss are inestimable caused by earthquake disaster.And earthquake is just sent out Many victims are even ignorant when raw, just reacted when shaking violent, if it is possible to just occurred in earthquake When send prompting, many cans of losing avoid.Therefore, a kind of system that can detect earthquake in time then seems have very much It is necessary.

Although also having some based on wireless earthquake detection system now, its detection node is to enter respectively with control module Row radio communication, is influenceed by wireless communication distance so that and detection node distribution is smaller, influences accuracy of detection, and reliably Property it is relatively low, if to expand detection range, need to increase control module and repeater, it is complicated, troublesome maintenance, cost are installed Height, in addition, energy consumption is also of a relatively high.

The content of the invention

The purpose of this utility model is that providing a kind of earthquake monitoring system is used to solve the above problems.

To achieve the above object, the technical solution adopted in the utility model is：A kind of earthquake monitoring system, including some shakes Dynamic monitoring node, main control module, alarm modules, indicating lamp module and the 2nd BLE mesh chips, some vibration monitorings Node is arranged on the relevant position of building, and each vibration monitoring node includes shock sensor and the first BLE mesh cores Piece, the output end of the shock sensor are connected with the input of the first BLE mesh chips, and some vibration monitoring nodes pass through Respective first BLE mesh chips composition BLE mesh（Bluetooth MANET）Network, the first of at least one vibration monitoring node BLE mesh chips are connected with the 2nd BLE mesh chip communications, the 2nd BLE mesh chips, alarm modules and the indicator lamp Module is connected with main control module respectively.

Further, the shock sensor is embedded on building foundation and/or building is on the floor face of ground.

Further, the model CSR1010 of the first BLE mesh chips and/or the 2nd BLE mesh chips.

Further, the main control module is realized using model STM32 micro controller.

Further, the indicating lamp module is multi-colour LED module.

Further, the alarm modules are horn module.

Further, in addition to key-press module, the key-press module are connected with main control module.

Further, the key-press module is used for the switch for controlling alarm modules.

Further, the key-press module is arranged in room security.

Advantageous effects of the present utility model：

The each vibration monitoring of the utility model is cautious to form BLE mesh networks using BLE mesh, then with main control module Radio communication connection is carried out, is connected up without complexity, simple in construction, convenient for installation and maintenance, detection range is big, and cost is low, and energy consumption is low, Accuracy in detection is high, and reliability is high, small volume, does not influence building outward appearance.In addition, key-press module is provided with, can be to due to construction Caused false touch activating alarm is released, and avoids causing unnecessary fear.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model specific embodiment.

Embodiment

The utility model is further illustrated in conjunction with the drawings and specific embodiments.

As shown in figure 1, a kind of earthquake monitoring system, including some vibration monitoring nodes 1, main control module 3, alarm modules 4th, the BLE mesh chips 2 of indicating lamp module 5 and the 2nd, in this specific embodiment, the quantity of vibration monitoring node 1 is 4, when So, in other embodiments, the quantity of vibration monitoring node 1 can be selected according to actual conditions, can be less than 4 or More than 4, this is that those skilled in the art can realize easily, is no longer described in detail.

Each vibration monitoring node 1 includes the BLE mesh chips 12 of shock sensor 11 and the first, the vibration-sensing The output end of device 11 is connected with the input of the first BLE mesh chips 12, and 4 vibration monitoring nodes 1 are arranged on the corresponding of building On position, in this specific embodiment, the shock sensor 11 of 4 vibration monitoring nodes 1 is embedded on building foundation and/or building On the floor face of ground, to ensure accuracy of detection.

4 vibration monitoring nodes 1 form BLE mesh networks by respective first BLE mesh chips 12, so when it In a BLE mesh chip 12 when going wrong, can be communicatively coupled by other BLE mesh chips 12, raising can By property, and detection range can be made without the multiple main control modules 3 of arrangement or repeater, to make system architecture simple more greatly, into This is low, installs easy maintenance.

The first BLE mesh chips 12 and the 2nd BLE mesh chips 2 of one of vibration monitoring node 1 communicate to connect, 2nd BLE mesh chips 2, alarm modules 4 and the indicating lamp module 5 are connected with main control module 3 respectively.Certainly, other In embodiment or the first BLE mesh chips 12 of multiple vibration monitoring nodes 1 communicate with the 2nd BLE mesh chips 2 Connection, to improve communication reliability, this is that those skilled in the art can realize easily, is no longer described in detail.

In this specific embodiment, the model of the first BLE mesh chips 12 and the 2nd BLE mesh chips 2 CSR1010, the first BLE mesh chips 12 read the data of shock sensor 11 using interrupt mode, reduce power consumption.

The main control module 3 is realized using model STM32 micro controller.The indicating lamp module 5 refers to for polychrome Show lamp module, different colours are carried out to different testing result and show indicator lamp instruction, when such as testing result being no earthquake, instruction Lamp is green, when testing result for when having earthquake, indicator lamp is that red is reminded.Certainly, in other embodiments, color can It is actually needed and is selected with basis, this is that those skilled in the art can realize easily, is no longer described in detail.

In this specific embodiment, the alarm modules 4 are horn module, and when having detected earthquake, horn module 4 is carried out Blow a whistle prompting.

Further, in this specific embodiment, in addition to key-press module 6, the key-press module 6 connect with main control module 3 Connect, the key-press module 6 is used to control the Push And Releases of alarm modules 4, and the key-press module 6 is arranged in room security, when due to Caused by construction etc. during false triggering, alarm modules 4 can be closed by key-press module 6, avoid causing unnecessary fear.When So, in other embodiments, key-press module 6 can select installation site according to actual conditions, and this is that those skilled in the art can With what is realized easily, no longer describe in detail.

The course of work：The shock sensor 11 of each vibration monitoring node 1 is acquired to the vibration data of monitoring point, and The first BLE mesh chips 12 are transmitted to, data are passed through BLE mesh networks and the 2nd BLE by the first BLE mesh chips 12 again Mesh chips 2 are transferred to main control module 3, and main control module 3 carries out calculating processing to the data collected, obtained according to processing Different shock conditions send different control signals to alarm modules 4 and indicating lamp module 5, it is carried out different degrees of carry Wake up.

The each vibration monitoring of the utility model cautious 1 forms BLE mesh networks using BLE mesh chips, then with master control Molding block 3 carries out radio communication connection, is connected up without complexity, and simple in construction, convenient for installation and maintenance, detection range is big, and cost is low, Energy consumption is low, and accuracy in detection is high, and reliability is high, small volume, does not influence building outward appearance.In addition, be provided with key-press module, can to by False touch activating alarm is released caused by construction, avoids causing unnecessary fear.

Although specifically showing and describing the utility model with reference to preferred embodiment, those skilled in the art should This is understood, is not departing from the spirit and scope of the present utility model that appended claims are limited, in form and details On the utility model can be made a variety of changes, be the scope of protection of the utility model.

Claims (9)

1. a kind of earthquake monitoring system, including some vibration monitoring nodes, main control module, alarm modules, indicating lamp module and 2nd BLE mesh chips, it is characterised in that：Some vibration monitoring nodes are arranged on the relevant position of building, Mei Gezhen Dynamic monitoring node includes shock sensor and the first BLE mesh chips, the output end of the shock sensor and the first BLE The input connection of mesh chips, some vibration monitoring nodes form BLE mesh nets by respective first BLE mesh chips Network, the first BLE mesh chips of at least one vibration monitoring node are connected with the 2nd BLE mesh chip communications, and described second BLE mesh chips, alarm modules and indicating lamp module are connected with main control module respectively.

2. earthquake monitoring system according to claim 1, it is characterised in that：The shock sensor is embedded in building foundation Upper and/or building is on the floor face of ground.

3. earthquake monitoring system according to claim 1, it is characterised in that：The first BLE mesh chips and/or The model CSR1010 of two BLE mesh chips.

4. earthquake monitoring system according to claim 1, it is characterised in that：The main control module uses model STM32 micro controller is realized.

5. earthquake monitoring system according to claim 1, it is characterised in that：The indicating lamp module is multi-colour LED mould Block.

6. earthquake monitoring system according to claim 1, it is characterised in that：The alarm modules are horn module.

7. earthquake monitoring system according to claim 1, it is characterised in that：Also include key-press module, the key-press module It is connected with main control module.

8. earthquake monitoring system according to claim 7, it is characterised in that：The key-press module is used to control alarm modules Switch.

9. the earthquake monitoring system according to claim 7 or 8, it is characterised in that：The key-press module is arranged on room security It is interior.