CN212692867U - Can intelligent outage restart wireless transmission's fixed inclinometer of triaxial - Google Patents

Abstract

The utility model discloses a three-axis fixed inclinometer capable of restarting wireless transmission in an intelligent outage, which belongs to the technical field of inclinometers and comprises a wireless acquisition and transmission shell, the right bottom of the wireless acquisition transmission shell is respectively provided with an Lora/NB-IOT intelligent power-off restarting wireless acquisition transmission interface and a Lora/NB-IOT intelligent power-off restarting wireless acquisition transmission power switch, a rechargeable battery is fixedly arranged at the central position of the top of the wireless acquisition transmission shell, the Lora/NB-IOT can intelligently power off and restart the wireless acquisition transmission interface to be fixedly connected with a connecting line, the Lora ad hoc network and the NB-IoT cellular wireless transmission technology are adopted, compared with communication technologies such as Bluetooth and ZigBee, the technology can realize ad hoc network and remote transmission, and has the advantages of wider communication coverage, more stability, lower power consumption, lower cost and the like. Therefore, by adopting Lora and NB-IoT wireless transmission, unified management and monitoring of data collected by all fixed inclinometers can be realized, and the system is more practical.

Description

Can intelligent outage restart wireless transmission's fixed inclinometer of triaxial

Technical Field

The utility model relates to an inclinometer technical field specifically is a but wireless transmission's fixed inclinometer of triaxial is restarted in intelligence outage.

Background

With the development of social economy, large-scale construction engineering is emerging continuously, and the automatic monitoring in the aspect of the safety of the large-scale construction engineering is highly regarded.

The fixed inclinometer is a high-precision angle measuring instrument, is used for measuring the displacement variation of a structure, and is applied to deep horizontal displacement variation measurement of various measuring points of large buildings including hydropower plants, dams, nuclear power plants, hydro-junction engineering, foundation pits, mountain landslides and the like.

The existing fixed inclinometer is generally provided with a communication interface and connected by a communication cable, but in actual engineering measurement, one-time engineering monitoring needs a plurality of fixed inclinometers to work simultaneously, so that some fixed inclinometers are far away from the installation position, long cables are needed, the cables are stable, winding is needed, and the wire drawing installation process is complex and limited by the site environment.

The existing wireless transmission fixed inclinometer needs to be always kept in a power supply state, and although the wireless transmission fixed inclinometer is in a dormant state, the wireless transmission fixed inclinometer can meet the requirements of a power supply system when being used in some special and specific environments, for example, the existing product powered by solar energy cannot meet the special requirements of the existing product.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a but wireless transmission's fixed inclinometer of triaxial is restarted in intelligence outage to current fixed inclinometer who provides in solving above-mentioned background art adopts wired transmission's mode, and it is complicated to have the installation procedure of leading wire, and mounted position receives the problem of environmental restriction and fixed inclinometer energy consumption.

In order to achieve the above object, the utility model provides a following technical scheme: a triaxial fixed inclinometer capable of intelligently restarting wireless transmission in outage comprises a wireless acquisition transmission shell, wherein the right bottom of the wireless acquisition transmission shell is respectively provided with a Lora/NB-IOT intelligent outage restart wireless acquisition transmission interface and a Lora/NB-IOT intelligent outage restart wireless acquisition transmission power switch, the central position of the top of the wireless acquisition transmission shell is fixedly provided with a rechargeable battery, the central position of the front side wall of the rechargeable battery is provided with a Lora/NB-IOT intelligent outage restart acquisition transmission module, the top of the right side of the wireless acquisition transmission shell is fixedly provided with an antenna, the top of the left side of the antenna is fixedly provided with a shell cover plate, and the Lora/NB-IOT intelligent outage restart wireless acquisition transmission interface is fixedly connected with a connecting wire, the other end of connecting wire is provided with Lora/NB-IOT and can intelligent outage restart fixed inclinometer.

Preferably, the wireless acquisition transmission shell is connected with the Lora/NB-IOT intelligent outage restart fixed inclinometer through an antenna.

Preferably, the housing cover is located on top of the rechargeable battery.

Preferably, the Lora/NB-IOT intelligent power-off restart acquisition transmission module includes an acquisition unit and a transmission unit.

Preferably, the wireless acquisition transmission shell is connected with the shell cover plate through an antenna.

Compared with the prior art, the beneficial effects of the utility model are that: by adopting the Lora ad hoc network and the NB-IoT cellular wireless transmission technology, compared with the communication technologies such as Bluetooth and ZigBee, the wireless communication system can realize ad hoc network and remote transmission, and compared with the traditional cellular GSM transmission, the wireless communication system has the advantages of wider ad hoc network and communication coverage, more stability, lower power consumption, lower cost and the like. Therefore, by adopting Lora and NB-IoT wireless transmission, unified management and monitoring of data collected by all fixed inclinometers can be realized, and the system is more practical.

Drawings

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

In the figure: the wireless acquisition transmission casing 1, the Lora/NB-IOT intelligent outage restart wireless acquisition transmission interface 2, the Lora/NB-IOT intelligent outage restart wireless acquisition transmission power switch 3, the casing cover plate 4, the antenna 5, the rechargeable battery 6, the Lora/NB-IOT intelligent outage restart acquisition transmission module 7, the connecting line 8 and the Lora/NB-IOT intelligent outage restart fixed inclinometer 9.

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.

The utility model provides a following technical scheme: a three-axis fixed inclinometer capable of intelligently restarting wireless transmission in power failure is used for a high-precision angle measuring instrument and is based on an Lora/NB-IOT intelligent power failure restarting wireless output technology, please refer to figure 1, and comprises a wireless acquisition transmission shell 1 which can protect the fixed inclinometer, wherein the right side bottom of the wireless acquisition transmission shell 1 is respectively provided with a Lora/NB-IOT intelligent power failure restarting wireless acquisition transmission interface 2 and a Lora/NB-IOT intelligent power failure restarting wireless acquisition transmission power switch 3, the inclinometer can be conveniently controlled and connected in the using process, a rechargeable battery 6 is fixedly arranged at the central position of the top of the wireless acquisition transmission shell 1, the charging is convenient, the endurance capacity is improved, a Lora/NB-IOT intelligent power failure restarting acquisition transmission module 7 is arranged at the central position of the front side wall of the rechargeable battery 6, can gather and export information, wireless collection transmission housing 1's right side top fixed mounting has antenna 5, can improve information collection's ability, antenna 5's left side top fixed mounting has casing apron 4, can protect rechargeable battery 6, Lora/NB-IOT can intelligent outage restart wireless collection transmission interface 2 fixed connection connecting wire 8, connect through connecting wire 8, connecting wire 8's the other end is provided with Lora/NB-IOT can intelligent outage restart fixed inclinometer 9, conveniently carry out the high accuracy measurement.

The working principle is as follows: this but triaxial fixed inclinometer based on wireless transmission is restarted in intelligent outage of LoranNB-IOT passes through fixed inclinometer 9: the built-in 3D-MEMS sensor obtains X, Y, Z three-axis angle change after collection and processing, interference is reduced by comparing the change of three axes, precision and accuracy are improved, electric signals generated by the sensor are collected, the collected electric signals are transmitted to a collection unit of the Lora/NB-IOT intelligent power-off restarting wireless collection transmission, the collection module sends the processed signals to a transmission unit of the Lora/NB-IOT intelligent power-off restarting wireless collection transmission module 8 and sends out the collected signals, a fixed inclinometer 9 is provided, an electronic cabin is provided with bentonite, high polymer resin powder and waterproof silicone grease through a special waterproof and moistureproof design, the Lora/NB-IOT intelligent power-off restarting wireless transmission module, a built-in time controller has a self-power-off restarting function and can define collection frequency by self, automatically powering off after the acquisition period is finished; the controller starts to work 60 seconds before the acquisition period to supply power to the fixed inclinometer 9 so as to ensure the stability of data, the Lora/NB-IOT intelligent power-off restarting wireless transmission fixed inclinometer 9 is adopted, unnecessary loss acquisition time caused by standby and dormancy can be longer under the same electric quantity, compared with a conventional communication cable, solar energy and storage battery power supply mode, factors such as power supply access, no power generation of a solar panel and frequent need of charging of a storage battery can be caused due to the length of the communication cable, weather and battery capacity, construction and maintenance can be more convenient, economic and humanized, the Lora ad hoc network and NB-IoT wireless transmission technology are adopted, compared with the communication technologies such as Bluetooth, ZigBee and the like, the self-networking and remote transmission can be realized, compared with the traditional cellular GSM transmission, the method has the advantages of ad hoc network, wider communication coverage, more stability, lower power consumption, lower cost and the like. Thus, by adopting Lora and NB-IoT wireless transmission, unified management and monitoring of data collected by all the fixed inclinometers 9 can be realized, and the system is more practical.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a but intelligence outage restarts wireless transmission's fixed inclinometer of triaxial, includes wireless acquisition transmission casing (1), its characterized in that: the triaxial fixed inclinometer is based on the Lora/NB-IOT intelligent outage restart wireless output technology, the right side bottom of a wireless acquisition transmission shell (1) is respectively provided with a Lora/NB-IOT intelligent outage restart wireless acquisition transmission interface (2) and a Lora/NB-IOT intelligent outage restart wireless acquisition transmission power switch (3), the top central position of the wireless acquisition transmission shell (1) is fixedly provided with a rechargeable battery (6), the front side wall central position of the rechargeable battery (6) is provided with a Lora/NB-IOT intelligent outage restart acquisition transmission module (7), the right side top of the wireless acquisition transmission shell (1) is fixedly provided with an antenna (5), the left side top of the antenna (5) is fixedly provided with a shell cover plate (4), the Lora/NB-IOT intelligent outage restart wireless acquisition transmission interface (2) fixedly connected with a connecting wire (8) And the other end of the connecting line (8) is provided with a Lora/NB-IOT intelligent outage restart fixed inclinometer (9).

2. The fixed inclinometer of claim 1, which is capable of being intelligently restarted for wireless transmission during outage, and is characterized in that: the wireless acquisition transmission shell (1) is connected with the Lora/NB-IOT intelligent outage restart fixed inclinometer (9) through the antenna (5).

3. The fixed inclinometer of claim 1, which is capable of being intelligently restarted for wireless transmission during outage, and is characterized in that: the housing cover plate (4) is positioned on top of the rechargeable battery (6).

4. The fixed inclinometer of claim 1, which is capable of being intelligently restarted for wireless transmission during outage, and is characterized in that: the Lora/NB-IOT intelligent power-off restarting acquisition transmission module (7) comprises an acquisition unit and a transmission unit.

5. The fixed inclinometer of claim 1, which is capable of being intelligently restarted for wireless transmission during outage, and is characterized in that: the wireless acquisition and transmission shell (1) is connected with the shell cover plate (4) through an antenna (5).

Images