CN214583161U - Building monitoring facilities based on inclination sensing - Google Patents

Abstract

The utility model discloses a building monitoring facilities based on inclination sensing, when being used for monitoring building inclination's inclination sensor, inclination sensor and equipment disconnection and/or interval set for long microcontroller awakened, can be awaken up and transmit alarm signal's LoRa communication module and power that microcontroller sent by microcontroller, the power is inclination sensor, microcontroller and the power supply of LoRa communication module, inclination sensor and LoRa communication module all are connected with the microcontroller communication. The utility model discloses a building monitoring facilities based on inclination sensing has simple and practical, the consumption is lower, monitoring effect is good and do not receive advantages such as regional restriction.

Description

Building monitoring facilities based on inclination sensing

Technical Field

The utility model relates to a building monitoring technology field especially relates to a building monitoring facilities based on inclination sensing.

Background

At present, in order to protect buildings such as high-rise formworks, bridges and the like, whether the buildings are inclined or not needs to be monitored, and the inclination monitoring can be realized through an inclination sensor. However, the monitoring time of the building monitoring project is long, the requirement on the power supply capacity of the equipment is high, the equipment is not easy to maintain, especially in remote mountainous areas, the equipment maintenance or battery replacement is quite difficult, sometimes the equipment or mobile equipment can be detached when the battery is replaced, the consistency of the equipment data can be influenced, and the early warning analysis of the data of the monitoring state can be influenced. With the progress and development of science and technology, wireless networks such as zigbee, wifi and 4G are used for data transmission, but the wireless networks have the defects of high power consumption and difficulty in long-term long-distance stable communication in remote areas, and the real-time transmission of monitoring data by using the networks is not practical.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome the not enough of prior art, provide a simple and practical, the consumption is lower, monitoring effect is good and not receive the building monitoring facilities based on inclination sensing of regional restriction.

In order to solve the technical problem, the utility model provides a technical scheme does:

the utility model provides a building monitoring facilities based on inclination sensing, is awakened up microcontroller, can be awaken up and transmit alarm signal's that microcontroller sent LoRa communication module and power by microcontroller during and/or interval set time when inclination sensor, inclination sensor and the equipment disconnection that is used for monitoring the building inclination, the power is inclination sensor, microcontroller and LoRa communication module power supply, inclination sensor and LoRa communication module all are connected with the microcontroller communication.

As a further improvement of the above technical solution:

the power supply comprises a battery and a voltage stabilizing chip, and the battery supplies power to the inclination angle sensor, the microcontroller and the LoRa communication module through the voltage stabilizing chip.

The building monitoring equipment based on inclination sensing further comprises a temperature sensor for monitoring the ambient temperature, and the temperature sensor is in communication connection with the microcontroller.

The building monitoring equipment based on inclination sensing also comprises an RTC clock chip for waking up the microcontroller at set time intervals.

Compared with the prior art, the utility model has the advantages of:

the utility model discloses a building monitoring facilities based on inclination sensing, including inclination sensor, microcontroller, loRa communication module and power. Under the inclination sensor does not have abnormal situation, microcontroller and loRa communication module all are in the dormant state, microsensor is awaken up regularly, and receive the inclination that inclination sensor monitoring obtained, when the building inclination is greater than and sets for the threshold value, microcontroller just can awaken up loRa communication module and report to the police to monitor terminal, consequently, the power consumption is few in the monitoring process, it is lower to the requirement of power, also possess good monitoring effect simultaneously, and even if be in remote, the area of difficult change power also can keep good long-time monitoring. When the inclination angle sensor drops, is moved or is stolen and other abnormal conditions occur, the inclination angle sensor is disconnected with the equipment, so that the microcontroller in the dormancy is awakened, the LoRa communication module is awakened by the microcontroller to give an alarm, the safety performance and the anti-theft performance of the equipment are further improved by the aid of the arrangement mode, the equipment can be processed at the first time when the abnormal conditions occur, and the monitoring result is prevented from being influenced.

Drawings

FIG. 1 is a schematic view of a tilt angle sensing based building monitoring device of the present invention;

fig. 2 is the utility model discloses a building monitoring facilities's work flow schematic diagram based on inclination sensing.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully and specifically with reference to the accompanying drawings and preferred embodiments, but the scope of the present invention is not limited to the following specific embodiments.

Example (b):

as shown in fig. 1 and 2, the building monitoring device based on tilt angle sensing of the present embodiment includes a tilt angle sensor for monitoring a building tilt angle, a microcontroller that is awakened when the tilt angle sensor is disconnected from the device and/or at a set interval time, a LoRa communication module that is awakened by the microcontroller and transmits an alarm signal sent by the microcontroller, and a power supply, where the power supply supplies power to the tilt angle sensor, the microcontroller, and the LoRa communication module, and both the tilt angle sensor and the LoRa communication module are in communication connection with the microcontroller. Under the condition that the tilt angle sensor is not abnormal, the microcontroller and the LoRa communication module are both in a dormant state, namely a low-power-consumption shutdown mode; the microsensor is awakened up regularly, and the inclination that receives the inclination sensor monitoring and obtain, when the building inclination is greater than and sets for the threshold value, microcontroller just can awaken up loRa communication module and report to the police to monitor terminal, and consequently the power consumption is few in the monitoring process, and is lower to the requirement of power, also possesses good monitoring effect simultaneously to even if be in the remote, the difficult area of changing the power also can keep good long-time monitoring. When the inclination angle sensor drops, is moved or is stolen and other abnormal conditions occur, the inclination angle sensor is disconnected with the equipment, so that the microcontroller in the dormancy is awakened, the LoRa communication module is awakened by the microcontroller to give an alarm, the safety performance and the anti-theft performance of the equipment are further improved by the aid of the arrangement mode, the equipment can be processed at the first time when the abnormal conditions occur, and the monitoring result is prevented from being influenced.

The method comprises the steps that an external interrupt is generated when an inclination angle sensor is abnormal, a microcontroller is awakened from a shutdown mode, then a program of the microcontroller immediately enters an interrupt service program of the external interrupt, the main flow of the service program is to receive the inclination angle of the inclination angle sensor, if the inclination angle is judged to be larger than a set threshold value, an LoRa communication module is awakened, the inclination angle is sent to an LoRa gateway, and the LoRa gateway forwards the inclination angle to a background server to serve as an alarm function. The interrupt service routine is then exited, the main routine is entered, and the microcontroller is again placed in a low power consumption shutdown mode.

When the timing time is up, the timing alarm clock interruption awakens the microcontroller from the shutdown mode, and an interruption service program of the alarm clock interruption is entered, the main flow of the service program is to receive the inclination angle of the inclination angle sensor, judge if the inclination angle is larger than a set threshold value, then awaken the LoRa communication module, send the inclination angle to the LoRa gateway, and the LoRa gateway forwards the inclination angle to the background server to serve as an alarm function. The interrupt service routine is then exited, and the program returns to the main routine, again causing the microcontroller to enter a low power shutdown mode.

In this embodiment, the power includes battery and voltage stabilizing chip, and the battery passes through voltage stabilizing chip and provides constant voltage power supply to inclination sensor, microcontroller and loRa communication module, guarantees the normal operating of each part.

In this embodiment, building monitoring facilities based on inclination sensing still includes the temperature sensor who is used for monitoring ambient temperature, and temperature sensor is connected with microcontroller communication, and microcontroller still receives current ambient temperature when receiving the inclination to as temperature compensation uses, further improved the accuracy of monitoring numerical value.

In this embodiment, the building monitoring device based on tilt angle sensing further includes an RTC clock chip that wakes up the microcontroller at set time intervals.

The above description is only the preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments. For those skilled in the art, the modifications and changes obtained without departing from the technical idea of the present invention should be regarded as the protection scope of the present invention.

Claims (4)

1. The utility model provides a building monitoring facilities based on inclination sensing which characterized in that: including when being used for monitoring building inclination's angular transducer, angular transducer and equipment disconnection and/or interval set time length by microcontroller awakening, can be awaken up and transmit microcontroller's the alarm signal's that sends LoRa communication module and power by microcontroller, the power is angular transducer, microcontroller and the power supply of LoRa communication module, angular transducer and LoRa communication module all are connected with the microcontroller communication.

2. The tilt sensing-based building monitoring device of claim 1, wherein: the power supply comprises a battery and a voltage stabilizing chip, and the battery supplies power to the inclination angle sensor, the microcontroller and the LoRa communication module through the voltage stabilizing chip.

3. The tilt sensing-based building monitoring device of claim 1, wherein: the temperature sensor is used for monitoring the ambient temperature and is in communication connection with the microcontroller.

4. The tilt sensing-based building monitoring device of claim 1, wherein: the device also comprises an RTC clock chip for waking up the microcontroller at set time intervals.

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