CN111508204A

CN111508204A - Geological disaster early warning device

Info

Publication number: CN111508204A
Application number: CN202010311218.4A
Authority: CN
Inventors: 孙兴伟; 韦志远; 王敬勇; 周会信
Original assignee: East China Survey And Design Institute Fujian Co ltd
Current assignee: East China Survey And Design Institute Fujian Co ltd
Priority date: 2020-04-20
Filing date: 2020-04-20
Publication date: 2020-08-07

Abstract

The invention discloses a geological disaster early warning device, which comprises a stand column rod; the top of the upright post rod is fixedly connected with a mounting sphere, and a plurality of sensors are assembled on the mounting sphere; the bottom of the upright post rod is fixedly connected with an embedded mounting part; the embedded mounting part comprises a mounting ring plate fixedly connected to the bottom of the upright post rod, a mounting hole is formed in the mounting ring plate, and the inner side wall of the mounting hole is fixedly connected to the outer side wall of the upright post rod through a plurality of connecting posts; the embedded installation part also comprises a plurality of embedded ring plates which are distributed at intervals from top to bottom, through holes are formed in the embedded ring plates, a plurality of embedded parts are fixedly connected to the embedded ring plates, each embedded part comprises an embedded installation column penetrating through the embedded ring plates, and two ends of each embedded installation column are respectively connected with an outer embedded ball body and an inner embedded ball body; the installation ring plates are fixedly connected with the embedded ring plates through a plurality of installation pieces distributed in an annular array mode. The invention has the advantages of improving the stability of embedding and improving the reliability of early warning.

Description

Geological disaster early warning device

Technical Field

The invention relates to the field of geological disaster early warning devices, in particular to a geological disaster early warning device.

Background

The natural disasters refer to natural phenomena which bring harm to human survival or damage human living environment, and include natural disasters such as flood, mountain torrents and debris flows, and particularly the natural disasters such as the debris flows have the most obvious influence on economic and life safety loss of human beings. Along with the rapid development of national economy, the prevention and early warning of geological disasters, especially mountain torrents and high debris flow development sections, are more and more emphasized. In order to master the geological conditions of the monitoring points in real time, the traditional method is to perform analysis by manual sampling, and the method is time-consuming and labor-consuming and cannot monitor the mountain conditions in real time.

Chinese patent application No. 201920042468.5 discloses a geological disaster early warning device, this geological disaster early warning device include the bottom plate, many spud piles of the lower extreme fixedly connected with of bottom plate, many fixedly connected with wear prevention mechanism on the lateral wall of spud pile, the upper end fixedly connected with of bottom plate bears the case, bear the case about on the lateral wall of both ends equal fixedly connected with post, two the same weather shield of the upper end fixedly connected with of post that bends, the inner bottom fixedly connected with heating mechanism who bears the case, the inner bottom fixedly connected with heat conduction mechanism who bears the case, the lower extreme fixedly connected with heat dissipation mechanism of weather shield, the upper end of heat conduction mechanism is connected with heat dissipation mechanism's lower extreme.

However, since the soil of the debris flow high-emission section is soft, the monitoring and early-warning device cannot be stably installed on the mountain with soft soil, so that the monitoring and early-warning device is easy to topple and cannot continuously play a monitoring and early-warning role, and the conventional early-warning device cannot be used in the debris flow high-emission section.

Disclosure of Invention

Therefore, a geological disaster early warning device needs to be provided to solve the problem that the geological disaster early warning device in the prior art is easy to topple over and cannot be used in a section with high debris flow.

In order to achieve the above object, the inventor provides a geological disaster early warning device, comprising a stand column;

the top of the upright post rod is fixedly connected with a mounting sphere, and a plurality of sensors are assembled on the mounting sphere;

the bottom of the upright post rod is fixedly connected with an embedded mounting part; the embedded mounting part comprises a mounting ring plate fixedly connected to the bottom of the upright post rod, a mounting hole is formed in the mounting ring plate, and the inner side wall of the mounting hole is fixedly connected to the outer side wall of the upright post rod through a plurality of connecting posts;

the embedded installation part also comprises a plurality of embedded ring plates which are distributed at intervals from top to bottom, through holes are formed in the embedded ring plates, a plurality of embedded parts are fixedly connected to the embedded ring plates, each embedded part comprises an embedded installation column penetrating through the embedded ring plates, one end of each embedded installation column is fixedly connected with an outer embedded ball positioned outside the embedded ring plate, and the other end of each embedded installation column is fixedly connected with an inner embedded ball positioned in the through hole;

the installation ring plates are fixedly connected with the embedded ring plates through a plurality of installation pieces distributed in an annular array mode.

As a preferable structure of the invention, the top of the upright post rod is fixedly connected with a rain baffle, and the top of the rain baffle is provided with a drainage groove which is sunken downwards.

As a preferable structure of the invention, the bottom of the rain baffle is fixedly connected to the top of the installation ball body through a connecting column, and a plurality of diversion trenches are arranged on the bottom of the drainage trench.

As a preferred structure of the present invention, the plurality of sensors include a sound sensor, a vibration sensor, an air humidity sensor, and a displacement sensor;

the installation spheroid is equipped with communication connection sound sensor, vibration sensor, air humidity transducer, displacement sensor's wiFi module, through the transmission of wiFi module the signal that sound sensor, vibration sensor, air humidity transducer, displacement sensor gathered.

In a preferred embodiment of the present invention, the mounting member includes a long screw slidably connected between a mounting ring plate and the plurality of buried ring plates, and the long screw is provided with a plurality of distance adjusting members spaced up and down to adjust a distance between the buried ring plates.

As a preferable structure of the present invention, the interval adjusting member includes a top clamping nut and a bottom clamping nut;

the embedded ring plate is clamped between the top clamping nut and the bottom clamping nut;

the mounting ring plate is clamped between a top clamping nut and a bottom clamping nut.

As a preferred structure of the invention, the top clamping nut and the bottom clamping nut are both provided with annular clamping flanges;

the bottom of the top clamping nut is provided with an annular clamping flange; and an annular clamping flange is arranged at the top of the bottom clamping nut.

As a preferred structure of the invention, the upper end of the rod body of the upright post rod is fixedly connected with a plurality of side edge embedded components;

the side embedded component comprises a traction rod inclined downwards, a steel plate is embedded in the bottom fixedly connected with of the traction rod, and a plurality of embedded studs are fixedly connected to the embedded steel plate.

As a preferred structure of the present invention, a plurality of embedded studs are distributed on the top and bottom of the embedded steel plate.

As a preferred structure of the invention, a solar module is fixedly connected to the side wall of the upright post rod, the solar module comprises a folding rod welded to the upright post rod, the end of the folding rod is fixedly connected with a storage battery box, a storage battery is assembled in the storage battery box, a solar light panel is fixedly connected to the top of the storage battery box, and the solar light panel is electrically connected to the storage battery.

Different from the prior art, the geological disaster early warning device of the technical scheme specifically adopts the installation ring plate, a plurality of embedded ring plates which are distributed at intervals up and down through the design of the embedded installation part, and the plurality of embedded parts fixedly connected to the embedded ring plates comprise embedded installation columns penetrating through the embedded ring plates, outer embedded balls positioned outside the embedded ring plates and fixedly connected to one ends of the embedded installation columns, inner embedded balls positioned in through holes and fixedly connected to the other ends of the embedded installation columns, so that the embedded holes are dug at the embedded positions in advance, the embedded installation part is placed in the embedded holes, concrete is poured at the moment, the concrete enters between the adjusted embedded ring plates and the installation ring plates and between the embedded ring plates, the outer embedded balls and the inner embedded balls are solidified in the concrete along with the solidification of the concrete, and the embedded installation columns, the outer embedded balls and the embedded balls are solidified in the concrete, The design of the ball body is embedded in the concrete, so that the bonding strength between the whole embedded part and the embedded concrete is improved, and the stability of the whole device is improved.

Through design installed part specifically adopt sliding connection at installation crown plate and a plurality of bury underground on long screw rod, the long screw rod between the crown plate through on a plurality of, the interval regulating part that the interval set up down specifically adopts top centre gripping nut, bottom centre gripping nut, all be equipped with annular clamping flange on top centre gripping nut and the bottom centre gripping nut, realize loosening bottom centre gripping nut, at this moment, bury underground the crown plate and move down, twist bottom centre gripping nut up again and twist top centre gripping nut down, the cooperation of realizing through bottom centre gripping nut and top centre gripping nut will bury underground the crown plate and fix between bottom centre gripping nut and top centre gripping nut, and simultaneously, annular clamping flange has improved the stability of centre gripping.

Through the interval of realizing adjusting the ring plate of burying underground and installing the ring plate and burying the interval between the ring plate underground, realize according to burying the position mountain soil property condition underground, adjust the interval of burying underground ring plate and installing the ring plate and bury the interval between the ring plate underground, realize that the concrete is buried underground to the volume of burying underground ring plate and installing the ring plate, and then improve and bury underground the steadiness.

The pre-buried subassembly of body of rod upper end fixedly connected with a plurality of side through the design stand pole specifically adopts the slope traction rod down, the bottom fixedly connected with of traction rod buries the steel sheet underground, buries fixedly connected with a plurality of on the steel sheet underground and buries the peg at pre-buried in-process underground, it is pre-buried to set up the side around burying the position underground, with the pre-buried subassembly of side put into the side pre-buried in, pour the concrete after, bury the peg underground and pour in the concrete, further improve the stability of whole device through this mode.

Drawings

Fig. 1 is a schematic structural diagram of a geological disaster early warning device according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a buried mounting member according to an embodiment of the present invention;

FIG. 3 is a schematic view of a buried ring plate according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a mounting member according to an embodiment of the present invention;

FIG. 5 is a front view of FIG. 2;

fig. 6 is a schematic view of a connection relationship between a side embedded assembly and a pillar rod according to an embodiment of the present invention;

fig. 7 is a schematic structural view of a side embedded assembly according to an embodiment of the present invention;

FIG. 8 is a top view of FIG. 6;

FIG. 9 is a front view of FIG. 6;

fig. 10 is a schematic structural diagram illustrating a connection relationship between a solar module and a vertical rod according to an embodiment of the present invention.

Description of reference numerals:

1. a rain shield;

11. a drainage groove;

2. a post rod;

21. installing a ball body;

3. burying a mounting member;

31. installing a ring plate; 311. connecting columns;

32. a mounting member; 321. a long screw; 322. a spacing adjustment member; 3221. a top clamping nut; 3222. a bottom clamping nut;

33. burying a ring member; 331. burying a ring plate; 332. embedding the mounting columns; 3321. embedding a ball outside; 3322. embedding a ball body inside;

4. embedding components at the side edge;

41. a traction rod;

42. burying a steel plate;

43. embedding the stud;

5. a solar module;

51. a storage battery case;

52. a solar light panel;

53. a zigzag rod;

6. a sensor;

7. connecting the bent rod;

8. an annular clamping flange.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Example 1

As shown in fig. 1 to 10, the invention provides a geological disaster early warning device, which comprises a vertical pole 2, wherein the top of the vertical pole 2 is fixedly connected with a mounting sphere 21, and a plurality of sensors 6 are assembled on the mounting sphere 21. Specifically, installation spheroid 21 is equipped with communication connection sound sensor, shock transducer, air humidity transducer, displacement sensor's wiFi module, through the transmission of wiFi module the signal that sound sensor, shock transducer, air humidity transducer, displacement sensor gathered (sensor 6 is through connecting curved bar 7 fixed mounting spheroid 21).

Gather sound, vibrations, air humidity signal on the massif through sound sensor, vibrations sensor, air humidity transducer, displacement sensor, gather early warning device's displacement signal through displacement sensor, the signal of gathering passes through the wiFi module is transmitted to backstage supervisory equipment on.

The bottom of the upright post rod 2 is fixedly connected with an embedded mounting part 3. The stability of the whole device buried in the mountain is increased by burying the mounting member 3, and the stability of the whole device is further improved.

The specific structure of buried attachment member 3 is as follows:

bury installed part 3 underground includes that fixed connection has a mounting hole at the mounting crown 31 of stand pole 2 bottom on the mounting crown 31, the inside wall of mounting hole is through the spliced pole 311 fixed connection that a plurality of annular array distributes on the lateral wall of stand pole 2.

Simultaneously, bury underground installed part 3 and still include the ring part 33 buries underground of upper and lower interval distribution of a plurality of, bury underground ring part 33 including burying underground the crown plate 331, bury underground all seted up the through-hole on the crown plate 331, bury underground fixedly connected with a plurality of on the crown plate 331 and bury the piece underground, bury the piece underground all including running through the mounting post 332 of burying underground the crown plate 331, the one end fixedly connected with who buries the mounting post 332 underground is located buries underground the outer spheroid 3321 underground of crown plate 331, bury underground the spheroid 3322 in that the other end fixedly connected with who buries the mounting post 332 is located the through-hole. The embedding stability is improved by designing the embedding and mounting column 332, the outer embedding sphere 3321 and the inner embedding sphere 3322.

Meanwhile, the mounting ring plate 31 is fixedly connected with the plurality of the buried ring plates 331 through a plurality of mounting pieces 32 distributed in an annular array. Adjustment of the spacing between the buried ring plate 331 and the mounting ring plate 31 and the spacing between the buried ring plate 331 is achieved by the mounting members 32.

The embedded hole is dug at the embedded position in advance, the embedded mounting part 323 is placed in the embedded hole, concrete is poured at the moment, the concrete enters the space between the adjusting embedded ring plate 331 and the mounting ring plate 31 and the space between the embedded ring plates 331 and solidifies the outer embedded ball 3321 and the inner embedded ball 3322 in the concrete along with the solidification of the concrete, and due to the design of the embedded mounting column 332, the outer embedded ball 3321 and the inner embedded ball 3322, the bonding strength between the whole embedded mounting part 323 and the embedded concrete is improved, and the stability of the whole device is improved.

The device has the advantages of component design:

the design of the embedded installation part 323 specifically adopts an installation ring plate 31, a plurality of embedded ring plates 331 which are distributed at intervals up and down, and a plurality of embedded parts fixedly connected on the embedded ring plate 331, specifically adopts an embedded installation column 332 penetrating through the embedded ring plate 331, an outer embedded ball 3321 which is positioned outside the embedded ring plate 331 and fixedly connected at one end of the embedded installation column 332, and an inner embedded ball 3322 which is positioned in a through hole and fixedly connected at the other end of the embedded installation column 332, so that embedded holes are dug at the embedded part in advance, the embedded installation part 323 is placed in the embedded holes, concrete is poured at the moment, the concrete enters between the adjusting embedded ring plate 331 and the installation ring plate 31 and between the embedded ring plates 331 and solidifies the outer embedded ball 3321 and the inner embedded ball 3322 in the concrete along with the solidification of the concrete, and the embedded installation column 332, the outer embedded ball 3321 and the inner embedded ball 3322 are designed, the bond strength between the whole embedded part 323 and the embedded concrete is improved, and the stability of the whole device is improved.

Example 2

As shown in fig. 1 to 10, the geological disaster early warning device comprises a vertical pole 2, wherein a mounting sphere 21 is fixedly connected to the top of the vertical pole 2, and a plurality of sensors 6 are assembled on the mounting sphere 21. Specifically, installation spheroid 21 is equipped with communication connection sound sensor, shock transducer, air humidity transducer, displacement sensor's wiFi module, through the transmission of wiFi module the signal that sound sensor, shock transducer, air humidity transducer, displacement sensor gathered (sensor 6 is through connecting curved bar 7 fixed mounting spheroid 21).

The specific structure of buried attachment member 3 is as follows:

This embodiment is on above-mentioned device structure basis at the top fixedly connected with weather shield 1 of stand pole 2, and drainage groove 11 sunken down has been seted up at the top of weather shield 1. Specifically, the bottom of the rain baffle 1 is fixedly connected to the top of the installation ball 21 through a connecting column, and a plurality of guide grooves are formed in the bottoms of the drainage grooves 11. The protection of the sensor 6 is achieved by designing the weather shield 1.

To achieve adjustment of the spacing between the buried ring plate 331 and the mounting ring plate 31 and the spacing between the buried ring plates 331. The mounting member 32 is designed as follows:

the plurality of mounting members 32 are distributed in an annular array, and each mounting member 32 has the following structure:

the mounting member 32 includes a long screw 321 slidably connected between the mounting ring plate 31 and the plurality of buried ring plates 331 (the mounting ring plate 31 and the plurality of buried ring plates 331 have through holes corresponding to the long screw 321), and the long screw 321 is provided with a plurality of spacing adjusting members 322 arranged at intervals up and down to adjust the spacing between the buried ring plates 331. The spacing adjustment member 322 includes a top clamping nut 3221 and a bottom clamping nut 3222; the buried strap 331 is clamped between a top clamping nut 3221 and a bottom clamping nut 3222; mounting ring plate 31 is clamped between top clamping nut 3221 and bottom clamping nut 3222.

Meanwhile, in order to increase the stability of the extrusion, annular clamping flanges are arranged on the top clamping nut 3221 and the bottom clamping nut 3222; the bottom of the top clamping nut 3221 is provided with an annular clamping flange; the top of the bottom clamping nut 3222 is provided with an annular clamping flange.

The bottom clamping nut 3222 is loosened, at this time, the embedded ring plate 331 moves downwards, the bottom clamping nut 3222 is screwed upwards, and the top clamping nut 3221 is screwed downwards, so that the embedded ring plate 331 is fixed between the bottom clamping nut 3222 and the top clamping nut 3221 through the matching of the bottom clamping nut 3222 and the top clamping nut 3221, and meanwhile, the annular clamping flange improves the clamping stability.

The device has the advantages of component design:

the installation part 32 is designed to be a long screw 321 which is slidably connected between the installation ring plate 31 and the embedded ring plates 331, and the distance adjusting part 322 which is arranged on the long screw 321 at an upper interval and a lower interval through a plurality of parts is a top clamping nut 3221, a bottom clamping nut 3222, and annular clamping flanges 8 which are arranged on the top clamping nut 3221 and the bottom clamping nut 3222, so that the bottom clamping nut 3222 is loosened, at the moment, the embedded ring plate 331 moves downwards, the bottom clamping nut 3222 is screwed upwards and the top clamping nut 3221 is screwed downwards, the embedded ring plate 331 is fixed between the bottom clamping nut 3222 and the top clamping nut 3221 through the matching of the bottom clamping nut 3222 and the top clamping nut 3221, and meanwhile, the annular clamping flanges 8 improve the clamping stability.

The distance between the embedded ring plate 331 and the installation ring plate 31 and the distance between the embedded ring plates 331 are adjusted according to the mountain soil condition of the embedded part, the distance between the embedded ring plates 331 and the installation ring plate 31 and the distance between the embedded ring plates 331 are adjusted, the embedding amount of concrete embedded into the embedded ring plates 331 and the installation ring plate 31 is realized, and the embedding stability is improved.

Example 3

As shown in fig. 1 to 10, in order to further improve the burying stability, a plurality of side embedded components 4 are fixedly connected to the upper end of the upright post 2. Specifically be at the body of rod upper end fixedly connected with assembly disk body 22 of stand pole 2, above-mentioned side pre-buried subassembly 4 is including slope pull rod 41 down, and the welding of pull rod 41 is at the lateral wall of assembly disk body 22, and steel sheet 42 is buried underground to the bottom fixedly connected with of pull rod 41, bury fixedly connected with a plurality of on the steel sheet 42 underground and bury stud 43. The embedding peg 43 is conical. The plurality of embedded studs 43 are distributed on the top and bottom of the embedded steel plate 42.

Simultaneously, in order to realize energy-conservation, fixedly connected with solar energy component 5 on the lateral wall of stand pole 2, solar energy component 5 is including the book shape pole 53 of welding on stand pole 2, the tip fixedly connected with battery box 51 of book shape pole 53, be equipped with the battery (not drawn in the picture) in the battery box 51, the top fixedly connected with solar light panel 52 of battery box, solar light panel 52 electric connection battery. The electrical relationship between the solar panel 52 and the storage battery is a conventional connection relationship disclosed in the prior art, the solar panel 52 charges the storage battery, and the sensor 6 is powered by the storage battery.

In the embedding process, the sides are embedded around the embedded part, the side embedded component 4 is placed into the side embedding, and after concrete is poured, the stability of the whole device is further improved.

The device has the advantages of component design:

the pre-buried subassembly 4 of body of rod upper end fixedly connected with a plurality of side through design stand pole 2 specifically adopts slope pull rod 41 down, steel sheet 42 is buried underground to the bottom fixedly connected with of pull rod 41, bury fixedly connected with a plurality of on the steel sheet 42 underground and bury peg 43 at pre-buried in-process, it is pre-buried to set up the side around burying the position underground, put into the side with the pre-buried subassembly 4 of side pre-buried in pre-buried, pour the concrete back, bury peg 43 underground and pour in the concrete, further improve the stability of whole device through this mode.

It should be noted that, although the above embodiments have been described herein, the invention is not limited thereto. Therefore, based on the innovative concepts of the present invention, the technical solutions of the present invention can be directly or indirectly applied to other related technical fields by making changes and modifications to the embodiments described herein, or by using equivalent structures or equivalent processes performed in the content of the present specification and the attached drawings, which are included in the scope of the present invention.

Claims

1. A geological disaster early warning device is characterized by comprising a vertical post rod;

2. The geological disaster early warning device as claimed in claim 1, wherein a rain shield is fixedly connected to the top of the upright post, and a drainage groove recessed downwards is formed in the top of the rain shield.

3. The geological disaster early warning device as claimed in claim 2, wherein the bottom of the rain shielding plate is fixedly connected to the top of the installation ball body through a connecting column, and a plurality of diversion trenches are arranged on the bottom of the drainage trench.

4. The geological disaster early warning device as claimed in claim 3, wherein the plurality of sensors comprise a sound sensor, a vibration sensor, an air humidity sensor, and a displacement sensor;

5. A geological disaster early warning device as claimed in claim 4, wherein said mounting means comprises a long screw slidably connected between a mounting ring plate and a plurality of said buried ring plates, and the distance between said buried ring plates is adjusted by a plurality of distance adjusting means arranged at intervals up and down on said long screw.

6. The geological disaster early warning device as recited in claim 5, wherein the spacing adjustment comprises a top clamping nut and a bottom clamping nut;

7. The geological disaster early warning device as claimed in claim 6, wherein the top clamping nut and the bottom clamping nut are provided with annular clamping flanges;

8. The geological disaster early warning device as claimed in claim 7, wherein the upper end of the rod body of the upright post rod is fixedly connected with a plurality of side embedded components;

9. A geological disaster early warning device as claimed in claim 8, wherein a plurality of buried bolts are distributed on the top and bottom of the buried steel plate.

10. The geological disaster early warning device as claimed in claim 9, wherein the solar module is fixedly connected to the side wall of the upright post, the solar module comprises a folding rod welded to the upright post, the end of the folding rod is fixedly connected with a storage battery box, a storage battery is assembled in the storage battery box, a solar light panel is fixedly connected to the top of the storage battery box, and the solar light panel is electrically connected with the storage battery.