TWM517758U - Bridge safety detection device with IoT - Google Patents

Description

Bridge safety detection device with Internet of Things

The present invention provides a bridge safety detecting device with the Internet of Things, especially a solar power supply to a bridge safety detecting device, and instantly monitors the environmental condition of the bridge by means of the Internet of Things, and has low power consumption and high safety. A bridge security detection device with Internet of Things, such as instant monitoring.

According to the Taiwanese region, it is an island-type climate and is located in the Pacific Rim seismic zone. In addition to the earthquakes that are extremely damaging to the bridge components, the annual flooding caused by the typhoon during the flood control period caused the river to soar, and the bridges or their piers Serious damage is caused. It is not uncommon for Taiwan to break the bridge every year due to the typhoon causing the pier to be washed away by the river.

The damage caused by typhoons and earthquakes to bridges, in addition to floods, can also cause accidents such as fires, explosive gases, chemical liquid leaks, etc. Different disaster causes or disaster site conditions often require different expertise or equipment. Achieve the best disaster relief effect. However, because the reporters often cannot provide enough disaster site information, when the disaster victims arrive at the disaster site, they often lack information and lack proper professional assistance, which leads to the information in the logistics center, which reduces the efficiency of disaster relief and even causes unnecessary casualties.

However, the above-mentioned approach to bridge safety control has to be improved in order to have the following problems and defects:

1. In the process of disaster relief, there is no immediate information collection or measurement, and the obtained on-site information cannot be completely recorded or analyzed in real time, resulting in poor disaster response efficiency.

Second, the collection of past information through visual inspection or large-scale electronic equipment often results in inaccurate measurement results or high cost and high power consumption.

Therefore, how to solve the above problems and deficiencies in the past, that is, the applicants of the new type and the relevant manufacturers engaged in this industry are eager to study the direction of improvement.

Therefore, in view of the above-mentioned shortcomings, the applicants of this new type have collected relevant information, and through multiple assessments and considerations, and through years of experience in the industry, through continuous trial and modification, they have designed this kind of solar power supply to the bridge. A new type of patented security detection device with IoT, which has the advantages of low power consumption, high security and instant monitoring, and is a security detection device that monitors the bridge environment in real time.

The main purpose of the new model is to monitor the environmental parameters of the bridge by means of the Internet of Things, and immediately return it to the mobile communication device for the user to refer to the record, and to properly handle the bridge safety or disaster relief.

Another main purpose of the present invention is to use a ZigBee monitoring device that supports low-energy, high-security, large-scale network nodes for monitoring, and uses a solar-powered device as a main power source to reduce implementation costs.

In order to achieve the above object, the structure of the present invention comprises: a plurality of monitoring devices disposed at a side of a bridge, wherein the monitoring devices are electrically connected to a communication device, and the communication device is connected to a server database, the server The data base analyzes the monitoring data of the monitoring devices, and transmits the analysis results to at least one mobile communication device, and at least one solar power supply device electrically connected to the monitoring devices and the communication device is disposed on the bridge, and a Electrically connecting the second power supply device of the solar power supply device; when the user sets a plurality of monitoring devices on the bridge, the monitoring data can be transmitted to the server database through the communication device for analysis and immediately transmitted to the user The communication device allows the user to quickly and completely understand the environmental conditions in the vicinity of the bridge, and can observe the record at any time, or make correct response when the disaster occurs. Moreover, the monitoring device and the communication device have low power consumption, and only need to be self-sufficient with the solar power supply device, or use the second power supply device as a backup power source, thereby reducing the required cost and taking into consideration the energy-saving effect.

With the above-mentioned technology, it is possible to make breakthroughs in the problems of the inability to collect information completely, the inability to respond to environmental conditions, the high cost of monitoring equipment, and the high consumption of monitoring equipment. Progressive.

1‧‧‧Monitoring device

11‧‧‧Water level measuring unit

111‧‧‧Water level alarm unit

12‧‧‧Hydraulic pressure measurement unit

121‧‧‧Water pressure alarm unit

13‧‧‧Line monitoring unit

131‧‧‧Line alarm unit

14‧‧‧Gas sensing unit

141‧‧‧ gas alarm unit

2‧‧‧Communication device

3‧‧‧Server database

4, 4a‧‧‧ solar power supply

41‧‧‧ energy storage device

42a‧‧‧Chasing System

5‧‧‧Second power supply unit

6‧‧‧Mobile communication device

7‧‧‧ Bridge

71‧‧‧ street lights

The first figure is a schematic view of the structure of the preferred embodiment of the present invention.

The second drawing is a block diagram of the structure of the preferred embodiment of the present invention.

The third diagram is a diagram showing the state of use of the preferred embodiment of the present invention.

The fourth figure is a use state diagram of another embodiment of the present invention.

In order to achieve the above objects and effects, the technical means and structure adopted by the present invention are described in detail in the preferred embodiment of the present invention, and the features and functions thereof are as follows.

Please refer to the first and second figures, which are schematic structural diagrams and structural block diagrams of the preferred embodiment of the present invention. It can be clearly seen from the figure that the novel system includes: monitoring of multiple nodes located on the side of a bridge 7 The device 1 (in the present embodiment, the monitoring devices 1 are represented by ZigBee), each of the monitoring devices 1 includes a water level measuring unit 11, a water pressure measuring unit 12, a pipeline monitoring unit 13, and a gas. The sensing unit 14 includes a water level alarm unit 111 and a water pressure alarm respectively electrically connected to the water level measuring unit 11, the water pressure measuring unit 12, the pipeline monitoring unit 13, and the gas sensing unit 14 respectively. The unit 121, the pipeline alarm unit 131 and the gas alarm unit 141; a communication device 2 electrically connected to the monitoring devices 1, the communication device 2 is a gateway device; and a server database 3 for linking the communication device 2 The monitoring data of the monitoring devices 1 are analyzed, and the analysis results are transmitted to at least one mobile communication device 6; at least one solar power supply is provided on the bridge 7 and electrically connected to the monitoring devices 1 and the communication device 2 Device 4, and the solar energy 4 electrical apparatus having a storage device 41 side, should the energy storage device 41 based on the lights 7 and the bridge 71 electrically connected; and a solar power supply electrically connected to the second power supply means of the apparatus 4 5.

With the above description, the structure of the present technology can be understood, and according to the corresponding cooperation of the structure, the safety detecting device for powering the bridge 7 by solar energy can be realized, and the environmental condition of the bridge 7 can be monitored in real time by means of the Internet of Things. It has the advantages of low power consumption, high security and instant monitoring, and the detailed explanation will be explained below.

Please refer to the first to third figures at the same time, which is a schematic structural view, a structural block diagram and a use state diagram of the preferred embodiment of the present invention, which can be clearly seen from the figure when the above components are assembled. The new monitoring device 1 is ZigBee, and ZigBee itself has low speed, low power consumption, high security, supports a large number of network nodes and supports multiple network topologies, and the required code is only 50% of the Bluetooth. It has the characteristics of low cost, easy development and flexible working frequency band. Therefore, the monitoring device 1 simultaneously monitors relevant parameters such as water level, water pressure, water and electricity pipeline, hazardous gas pipeline and special gas gas concentration, so as to greatly improve the scope of bridge 7 safety detection, and provide a more complete value for the manager's reference. Because of its low power consumption, it is only necessary to use the solar power supply device 4 to effectively support the power source of the monitoring device 1, and at most, the second power supply device 5 of the utility power is used as a backup auxiliary, and has the advantages of energy saving and environmental protection.

In actual use, the monitoring data measured by the monitoring device 1 is transmitted to the server database 3 through the communication device 2, and is immediately transmitted to the user's mobile communication device 6 (the mobile communication device 6 is a notebook computer, a tablet) A computer or mobile phone, etc., for the user to quickly and completely understand the environmental conditions in the vicinity of the bridge 7, and to observe the record at any time, or to make a correct response when the disaster occurs. In addition to supplying power to the monitoring device 1 or the communication device 2, the solar power supply device 4 also stores electrical energy in the energy storage device 41 and dumps the electrical energy of the bridge 7 street lamp 71.

Please also refer to the fourth figure, which is a use state diagram of another embodiment of the present invention. It can be clearly seen from the figure that the embodiment is similar to the above embodiment, and only the solar power supply device 4a is used. A tracking system 42a is included. The tracking system 42a senses the angle at which the sunlight illuminates the solar panel by a light sensor, and thereby adjusts the azimuth and elevation angle of the solar power supply device 4a, so that the solar panel can be The optimum solar light incident angle absorbs the maximum amount of sunlight, thereby increasing the efficiency of the solar device 4a. Therefore, in order to apply solar energy more efficiently, the solar tracking system 42a is combined with the solar power supply device 4a, thereby further enhancing the energy saving and energy storage of the present invention.

However, the above description is only the preferred embodiment of the present invention, and thus does not limit the scope of the patent of the present invention. Therefore, all the simple modifications and equivalent structural changes that are made by using the present specification and the drawings are the same. It is included in the scope of this new patent and is given to Chen Ming.

In summary, the new type of bridge safety detection device with the Internet of Things can achieve its efficacy and purpose when it is used. Therefore, the novel is a new type of application with excellent practicability, which is in conformity with the application requirements of the new patent.提出 Submit an application in accordance with the law, and hope that the trial committee will grant this new type as soon as possible to protect the applicant's hard work. If there is any doubt in the trial committee, please do not hesitate to give a letter, the creator will try his best to cooperate and feel good.

1‧‧‧Monitoring device

11‧‧‧Water level measuring unit

111‧‧‧Water level alarm unit

12‧‧‧Hydraulic pressure measurement unit

121‧‧‧Water pressure alarm unit

13‧‧‧Line monitoring unit

131‧‧‧Line alarm unit

14‧‧‧Gas sensing unit

141‧‧‧ gas alarm unit

2‧‧‧Communication device

3‧‧‧Server database

4‧‧‧Solar power supply unit

41‧‧‧ energy storage device

5‧‧‧Second power supply unit

6‧‧‧Mobile communication device

7‧‧‧ Bridge

71‧‧‧ street lights

Claims (9)

A bridge safety detecting device with an Internet of Things, comprising: a plurality of monitoring devices disposed at a side of a bridge; a communication device electrically connecting the monitoring devices; and a server database for information linking the communication devices Analyzing the monitoring data of the monitoring devices, and transmitting the analysis results to at least one mobile communication device; at least one solar power supply device disposed on the bridge and electrically connecting the monitoring devices and the communication device; and an electrical connection a second power supply device of the solar power supply device. The bridge safety detecting device with the Internet of Things as described in claim 1, wherein each of the monitoring devices includes a water level measuring unit and a water level alarm unit electrically connected to the water level measuring unit. The bridge safety detecting device with the Internet of Things as described in claim 1, wherein each of the monitoring devices includes a water pressure measuring unit and a water pressure alarm electrically connected to the water pressure measuring unit. unit. The bridge safety detecting device with the Internet of Things as described in claim 1, wherein each monitoring device comprises a pipeline monitoring unit and a pipeline alarm unit electrically connected to the pipeline monitoring unit. The bridge security detection device with the Internet of Things as described in claim 1, wherein each of the monitoring devices includes a gas sensing unit and a gas alarm unit electrically coupled to the gas sensing unit. The bridge security detecting device with the Internet of Things as described in claim 1, wherein the solar power feeding device has an energy storage device on one side. The bridge safety detecting device with the Internet of Things as described in claim 6 , wherein the energy storage device is electrically connected to the street lamp on the bridge. The bridge security detecting device with the Internet of Things as described in claim 1, wherein the solar power supply device comprises a tracking system. The bridge security detecting device with the Internet of Things as described in claim 1, wherein the communication device is a gateway device, and the monitoring devices are ZigBee.