CN207946429U - A kind of automation geology disaster monitoring device - Google Patents

Abstract

The utility model discloses a kind of automation geology disaster monitoring device, including top is equipped with the monitoring rod of centralizer, which fixes on the ground, and solar energy photovoltaic panel is equipped on the outside of upper part, and inner cavity lower part is equipped with wirelessly transmitting data Acquisition Instrument；Solar energy photovoltaic panel is connected through the accumulator of power cord and subsurface, and accumulator is powered by power cord for wirelessly transmitting data Acquisition Instrument again；Wirelessly transmitting data Acquisition Instrument is connect by data line with centralizer.It has the following advantages that：1, it is not necessarily to man-hour manually hand-held, reduces labor intensity.Stability is high, and monitoring accuracy is accurate and data are coherent, and monitoring effect is preferable；It 2, being capable of round-the-clock collection data due to without human intervention, not influenced by time and weather；3, due to being powered using solar energy photovoltaic panel, electric quantity of power supply is continual and steady, and monitoring accuracy obtains effective guarantee.4, due to using wirelessly transmitting data Acquisition Instrument, so that data real time remote is transmitted, realize the automation of monitoring comprehensively.

Description

A kind of automation geology disaster monitoring device

One, technical field

The utility model belongs to monitoring technology for geological hazards field, and in particular to a kind of automation Geological Hazards Monitoring dress It sets.

Two, background technology

Geological Hazards Monitoring is the important component that geological calamity synthetic is administered.Original Geological Hazards Monitoring work is more Number uses personal monitoring's method, i.e., carries the monitoring rod of centralizer at the top of man-hour manually hand-held and carry battery powered data and adopt Collection instrument is monitored in real time.This method has as a drawback that：1, man-hour manually hand-held is needed to operate, not only time-consuming and laborious, labor intensity Greatly, and since by Human disturbance, stability is poor, monitoring accuracy is difficult to accurately and data are discontinuous, and monitoring effect is very poor； 2, it is affected by time and weather, it can not round-the-clock collection data；3, since data collecting instrument is battery powered, with Battery capacity declines, and monitoring accuracy is also difficult to ensure.In conclusion existing Geological Hazards Monitoring method cannot in time corresponsively Matter disaster present situation, be easy to cause false judgment, it is difficult to meet the requirement of geological disaster comprehensive treatment.

Three, invention content

The purpose of this utility model is to provide a kind of simple structure and reasonable design, and existing geological disaster can effectively be overcome to supervise The many insufficient automation geology disaster monitoring devices of survey method.

To achieve the above object, the technical solution adopted in the utility model is：The device includes that top is equipped with centralizer Monitoring rod, its main feature is that：The monitoring rod lower end fixes on the ground, and solar energy photovoltaic panel, inner cavity lower part are equipped on the outside of upper part Equipped with wirelessly transmitting data Acquisition Instrument；Solar energy photovoltaic panel is connected through the accumulator of power cord and subsurface, and accumulator passes through again Power cord is powered for wirelessly transmitting data Acquisition Instrument；Wirelessly transmitting data Acquisition Instrument is connect by data line with centralizer.

Using the above structure, in use, centralizer gathered data on monitoring rod, and pass through data line transfer and passed to wireless Transmission of data Acquisition Instrument is stored, and wirelessly transmitting data Acquisition Instrument is transmitted to data terminal by wireless transmission function again.Meanwhile Solar energy photovoltaic panel provides power supply by power cord and accumulator for wirelessly transmitting data Acquisition Instrument, completes entire monitoring process. This reality is novel to be had the following advantages that：1, since monitoring rod fixes on the ground, it is not necessarily to man-hour manually hand-held, it is not only time saving and energy saving, it reduces Labor intensity.Simultaneously as stability is high and not by Human disturbance, monitoring accuracy is accurate and data are coherent, monitoring effect compared with It is good；It 2, being capable of round-the-clock collection data due to without human intervention, not influenced by time and weather；3, due to using the sun Energy photovoltaic panel power supply, electric quantity of power supply is continual and steady, and monitoring accuracy obtains effective guarantee.4, due to being acquired using wirelessly transmitting data Instrument enables data real time remote to transmit, realizes the automation of monitoring comprehensively.The utility model simple structure and reasonable design, The blank of such device has been filled up, has been worth extensive and promotes and applies.

Four, it illustrates

Fig. 1 is the structural schematic diagram of the utility model.

Five, specific implementation mode

As shown, the utility model includes the monitoring rod 1 that top is equipped with centralizer 4, which is fixed on ground On face 19.1 upper outside of monitoring rod is equipped with solar energy photovoltaic panel 3, and inner cavity lower part is equipped with wirelessly transmitting data Acquisition Instrument 2.The sun Energy photovoltaic panel 3 is connect through power cord 7 with the accumulator 6 under ground 19, and accumulator 6 is again wirelessly transmitting data by power cord 7 Acquisition Instrument 2 is powered.Wirelessly transmitting data Acquisition Instrument 2 is connect by data line 9 with centralizer 4.The wirelessly transmitting data Acquisition Instrument 2 With 3G transfer functions, it can be achieved that remote data transmission.1 upper outside of the monitoring rod is additionally provided with lightning rod 5, the lightning rod 5 It is connect with the lightning protection copper bar 15 under ground 19 by leading thunder line 8.Thunder and lightning is introduced directly into underground, completes lightning protection.1 lower end of monitoring rod It is fixed on the upper flange 12 above the clump 11 on ground 19, which passes through inside anchoring piece 14 and clump 11 Lower flange 13 connect, 13 lower end of lower flange is fixed on 18 upper end of steel reinforcement cage, and 18 lower part of steel reinforcement cage penetrates 19 or less ground and pours Fill concrete 17.Steel reinforcement cage 18 constitutes underground foundation pile 16 with concrete 17.1 outer lower portion of monitoring rod, close wirelessly transmitting data The position of Acquisition Instrument 2 is provided with handle hole 10, which is convenient for that line transmission data Acquisition Instrument 2 is repaired and safeguarded.Institute It states accumulator 6 and is located at 19 frozen soil layer of ground hereinafter, winter is prevented to be damaged by frost.

Claims (5)

1. a kind of automation geology disaster monitoring device, including top are equipped with centralizer（4）Monitoring rod（1）, it is characterized in that：It should Monitoring rod（1）Lower end is fixed on ground（19）On, solar energy photovoltaic panel is equipped on the outside of upper part（3）, inner cavity lower part is equipped with wireless Transmission data Acquisition Instrument（2）；Solar energy photovoltaic panel（3）Through power cord（7）With ground（19）Under accumulator（6）Connection, electric power storage Pond（6）Pass through power cord again（7）For wirelessly transmitting data Acquisition Instrument（2）Power supply；Wirelessly transmitting data Acquisition Instrument（2）Pass through data Line（9）With centralizer（4）Connection.

2. a kind of automation geology disaster monitoring device according to claim 1, it is characterized in that：Monitoring rod（1）Outside top Side is equipped with lightning rod（5）, the lightning rod（5）By leading thunder line（8）With ground（19）Under lightning protection copper bar（15）Connection.

3. a kind of automation geology disaster monitoring device according to claim 1 or 2, it is characterized in that：Monitoring rod（1）Lower end It is fixed on ground（19）On clump（11）Upper flange above（12）On, the upper flange（12）Pass through anchoring piece（14）With water Mud pier（11）Internal lower flange（13）Connection, lower flange（13）Lower end is fixed on steel reinforcement cage（18）Upper end, steel reinforcement cage（18）Under Portion penetrates ground（19）Below and placing concrete（17）.

4. a kind of automation geology disaster monitoring device according to claim 1 or 2, it is characterized in that：Monitoring rod（1）Outside Lower part, close wirelessly transmitting data Acquisition Instrument（2）Position be provided with handle hole（10）.

5. a kind of automation geology disaster monitoring device according to claim 1 or 2, it is characterized in that：Accumulator（6）It is located at Ground（19）Below frozen soil layer.