CN215952613U - Monitoring device for geological disaster investigation - Google Patents

Abstract

The utility model belongs to the technical field of geological disaster monitoring, and discloses a monitoring device for geological disaster exploration. Secondly, the bottom of base is provided with first buried pipe, and the lower part of first buried pipe still is connected with second buried pipe through horizontal foot bar, can directly use the foot to step on horizontal foot bar and exert a decurrent power, combines the end of first buried pipe and the downward sloping of second buried pipe to realize monitoring devices's quick installation. And because the first lower buried pipe and the second lower buried pipe play a supporting role simultaneously, and the base covers subaerial in addition, can make this monitoring devices keep reliable and stable installation effect, guarantee the monitoring accuracy.

Description

Monitoring device for geological disaster investigation

Technical Field

The utility model belongs to the technical field of geological disaster monitoring, and relates to a monitoring device for geological disaster investigation.

Background

Geological disaster exploration is a general term for various tasks of investigating and analyzing geological disaster conditions and forming development conditions by using professional techniques and equipment. The method mainly investigates and knows the distribution condition, formation condition, activity history and change characteristics of geological disasters in disaster areas, social and economic conditions, population and property quantity, distribution and disaster resistance of the disaster areas; geological disaster prevention and control approaches, measures and feasibility thereof. In order to ensure early warning of geological disasters, geological monitoring devices are often arranged in places where geological disasters occur frequently.

However, in the ground disaster monitoring device used in the background of the prior art, a support with a simple structure is usually used for supporting the monitoring device in a pre-buried-underground manner, and the pre-buried support is easily influenced by the outside and rotates, so that the orientation of the monitoring device is changed, and further the monitoring result is inaccurate; the problem that the ground is not firm to grasp and is easy to topple over also exists. Moreover, the existing ground disaster monitoring devices are mostly arranged in the open air or on mountains, the power utilization of the monitoring devices cannot be guaranteed due to the influence of environmental factors, and the monitoring devices cannot be monitored in real time when power failure occurs.

Disclosure of Invention

The utility model provides a monitoring device for geological disaster exploration, which aims to solve the problems that a bracket of the monitoring device in the prior art is easy to rotate and topple over, and the power consumption of the monitoring device cannot be guaranteed.

The utility model is realized by the following technical scheme:

a monitoring device for geological disaster investigation comprises a base and a stand column arranged on the base, wherein a protective cover and a solar panel are erected on the stand column;

the bottom of the base is also provided with a first lower buried pipe, the lower part of the first lower buried pipe is also connected with a second lower buried pipe through a cross foot bar, and the first lower buried pipe and the second lower buried pipe are parallel to each other and are provided with downward-inclined tail ends;

a sensor group is arranged at the top of the first lower buried pipe, and a protection plate is arranged below the sensor group;

be provided with battery and data collection station in the safety cover, data collection station passes through the data transmission line with sensor group and links to each other, the battery respectively with solar panel, sensor group and data collection station pass through the wire and link to each other.

Furthermore, the top end of the upright post is movably connected with a mounting rack, and the solar panel is arranged on the mounting rack; articulated on the lateral wall of the lower extreme of mounting bracket have a telescopic bracket, just telescopic bracket keeps away from the one end of mounting bracket is passed through bolt fixed connection and is in on the stand, telescopic bracket, mounting bracket and stand combination constitute the triangle-shaped structure.

Further, the erection position of the protective cover is higher than the ground; the solar panel is located above the protective cover.

Furthermore, the four corners of the bottom of the base are also provided with positioning pins.

Furthermore, the joint of the cross foot bar and the second lower buried pipe is arc-shaped; the first lower buried pipe, the cross foot bar and the second lower buried pipe are integrally formed.

Further, the first lower buried pipe is coaxial with the upright post; the lowest end of the first lower buried pipe is higher than that of the second lower buried pipe.

Furthermore, a camera and an alarm are further arranged on the stand column between the monitoring unit and the mounting rack.

Further, the bottom of the upright post is also provided with a storage box in a surrounding manner.

Compared with the prior art, the utility model has the beneficial effects that:

the solar monitoring device comprises a base and an upright post arranged on the base, wherein a protective cover and a solar panel are erected on the upright post, and the solar panel and a storage battery are matched for use, so that the monitoring device is always in a charged state, real-time monitoring can be realized, and a response can be made in time, so that the problem that the power consumption of the monitoring device cannot be guaranteed due to the influence of environmental factors in the prior art is solved. Secondly, the bottom of the base is provided with a first lower buried pipe, the lower part of the first lower buried pipe is also connected with a second lower buried pipe through a cross foot bar, and as the arrangement area of the monitoring device is usually harsh in environment, such as in the field or on a mountain land, a downward force can be applied by directly stepping on the cross foot bar by feet, and the downward inclined tail ends of the first lower buried pipe and the second lower buried pipe are combined to realize the rapid installation of the monitoring device. And because the first lower buried pipe and the second lower buried pipe play a supporting role simultaneously, and the base covers subaerial in addition, can make this monitoring devices keep reliable and stable installation effect, guarantee the monitoring accuracy. Finally, the utility model has simple structure, convenient use and wide application range.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the present invention showing the location of the mounting bracket;

in the figure, 1-a base, 2-a column, 3-a protective cover, 4-a solar panel, 5-a first buried pipe, 6-a cross foot bar, 7-a second buried pipe, 8-a sensor group, 9-a protective plate, 10-a storage battery, 11-a data collector, 12-an installation frame, 13-a telescopic bracket, 14-a positioning pin and 15-a storage box.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model provides a monitoring device for geological disaster exploration, and referring to fig. 1, the monitoring device for geological disaster exploration comprises a base 1 and a stand column 2 arranged on the base 1, wherein a protective cover 3 and a solar panel 4 are erected on the stand column 2; the bottom of the base 1 is also provided with a first lower buried pipe 5, the lower part of the first lower buried pipe 5 is also connected with a second lower buried pipe 7 through a cross foot bar 6, and the first lower buried pipe 5 and the second lower buried pipe 7 are parallel to each other and are provided with downward inclined tail ends; a sensor group 8 is arranged at the top of the first lower buried pipe 5, and a protection plate 9 is arranged below the sensor group 8; be provided with battery 10 and data collection station 11 in the safety cover 3, data collection station 11 passes through the data transmission line with sensor group 8 and links to each other, battery 10 respectively with solar panel 4, sensor group 8 and data collection station 11 pass through the wire and link to each other.

The utility model comprises a base 1 and an upright post 2 arranged on the base 1, wherein a protective cover 3 and a solar panel 4 are erected on the upright post 2, and the solar panel 4 and a storage battery 10 are matched for use, so that the power consumption of the storage battery 10 is prevented from being used up, the monitoring device is ensured to be always in a charged state, the monitoring device can be monitored in real time and timely reacts, and the problem that the power consumption of the monitoring device cannot be guaranteed due to the influence of environmental factors in the prior art is solved. Secondly, the bottom of the base 1 is provided with a first lower buried pipe 5, the lower part of the first lower buried pipe 5 is also connected with a second lower buried pipe 7 through a cross foot bar 6, and as the arrangement area of the monitoring device is usually harsh, such as in the field or on a mountain, a foot can be directly used for stepping on the cross foot bar 6 to apply a downward force, and the downward inclined tail ends of the first lower buried pipe 5 and the second lower buried pipe 7 are combined to realize the rapid installation of the monitoring device. And because the first lower buried pipe 5 and the second lower buried pipe 7 play a supporting role simultaneously, the base 1 is covered on the ground, so that the monitoring device can keep a stable and reliable installation effect, and the monitoring precision is ensured. Finally, the utility model has simple structure, convenient use and wide application range.

The top end of the upright post 2 is movably connected with a mounting rack 12, as shown in fig. 2, the solar panel 4 is arranged on the mounting rack 12; articulated on the lateral wall of the lower extreme of mounting bracket 12 have flexible support 13, just flexible support 13 keeps away from the one end of mounting bracket 12 is through bolt fixed connection on stand 2, flexible support 13, mounting bracket 12 and stand 2 make up and constitute the triangle-shaped structure. The solar panel support is provided with the mounting frame 12 and the telescopic support 13 to support and adjust the solar panel 4, the length of the telescopic support 13 is adjusted by screwing and loosening bolts on the telescopic support 13, the telescopic support 13 pushes and supports the mounting frame 12 after adjustment, the mounting frame 12 is turned over on the support tube, the telescopic support 13, the mounting frame 12 and the support tube are combined to form a triangular structure, the erection angle of the solar panel 4 can be adjusted, and the stability after adjustment is improved.

In view of extreme weather, the protective cover 3 is erected at a position higher than the ground to avoid a situation of being soaked in water for a long time. And, solar panel 4 is located the top of safety cover 3 to avoid the condition of sheltering from to solar panel 4 of safety cover 3.

In order to enhance the stability of the base 1 in connection with the ground, the four corners of the bottom of the base 1 are further provided with positioning pins 14.

In addition, the connecting part of the cross foot bar 6 and the second lower buried pipe 7 is arc-shaped, so that the monitoring device can be taken out conveniently in the later period. The first lower embedded pipe 5, the transverse pedal rod 6 and the second lower embedded pipe 7 are integrally formed, so that the processing is convenient, and meanwhile, the stability of the connection relationship among the first lower embedded pipe, the transverse pedal rod and the second lower embedded pipe is enhanced.

The first lower buried pipe 5 is coaxial with the upright post 2; the lowest end of the first buried pipe 5 is higher than the lowest end of the second buried pipe 7, that is, the length of the first buried pipe 5 under the cross bar 6 is longer than that of the second buried pipe 7, thereby being capable of correspondingly prolonging the acting time and process of the first buried pipe 5 by applying a downward force by foot stepping.

Further, a camera and an alarm are arranged on the upright post 2 between the monitoring unit and the mounting frame 12.

Preferably, the bottom of the upright post 2 is further provided with a storage box 15 around, which can be used for placing accessories required by installation or disassembly.

The sensor group 8 transmits the measured data on site to the data acquisition unit 11 in real time through a wire, the data acquisition unit 11 can be an internet of things intelligent data acquisition instrument, the internet of things intelligent data acquisition instrument transmits the data to the geological disaster cloud platform through GPRS (general packet radio service), on one hand, the data are accurate, and on the other hand, the real-time return can be realized.

The utility model is not limited to the examples, and any equivalent changes to the technical solution of the utility model by a person skilled in the art after reading the description of the utility model are covered by the claims of the utility model.

Claims (8)

1. The monitoring device for geological disaster exploration is characterized by comprising a base (1) and a stand column (2) arranged on the base (1), wherein a protective cover (3) and a solar panel (4) are erected on the stand column (2);

the bottom of the base (1) is also provided with a first lower buried pipe (5), the lower part of the first lower buried pipe (5) is also connected with a second lower buried pipe (7) through a transverse pedal rod (6), and the first lower buried pipe (5) and the second lower buried pipe (7) are parallel to each other and are provided with downward-inclined tail ends;

a sensor group (8) is arranged at the top of the first lower buried pipe (5), and a protection plate (9) is arranged below the sensor group (8);

be provided with battery (10) and data collection station (11) in safety cover (3), data collection station (11) link to each other through data transmission line with sensor group (8), battery (10) respectively with solar panel (4), sensor group (8) and data collection station (11) link to each other through the wire.

2. A monitoring device for geological disaster exploration according to claim 1, characterized in that a mounting frame (12) is movably connected to the top end of said upright (2), said mounting frame (12) being provided with said solar panel (4); articulated on the lateral wall of the lower extreme of mounting bracket (12) have telescopic bracket (13), just telescopic bracket (13) are kept away from the one end of mounting bracket (12) is in through bolt fixed connection on stand (2), telescopic bracket (13), mounting bracket (12) and stand (2) make up and constitute the triangle-shaped structure.

3. A monitoring device for geological disaster exploration, according to claim 1, characterized in that said protection cover (3) is erected higher than the ground; the solar panel (4) is located above the protective cover (3).

4. A monitoring device for geological disaster exploration, according to claim 1, characterized by that, four corners of bottom of said base (1) are further provided with positioning pins (14).

5. A monitoring device for geological disaster exploration according to claim 1, wherein the junction of said traversing lever (6) and second lower buried pipe (7) is arc-shaped; the first lower buried pipe (5), the transverse pedal rod (6) and the second lower buried pipe (7) are integrally formed.

6. A monitoring device for geological disaster exploration, according to claim 1, characterized in that said first buried pipe (5) is coaxial with said vertical column (2); the lowest end of the first lower buried pipe (5) is higher than the lowest end of the second lower buried pipe (7).

7. A monitoring device for geological disaster exploration, according to claim 1, characterized by that said column (2) is further provided with a camera and an alarm.

8. A monitoring device for geological disaster exploration, according to claim 1, characterized by that said upright (2) is further provided with a storage box (15) surrounding the bottom.

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