CN212276545U - Shell structure of geological disaster monitoring and early warning device - Google Patents

Abstract

The utility model discloses a housing structure of a geological disaster monitoring and early warning device, which comprises a housing body and an upper end cover arranged at the upper end of the housing body, wherein the distance from the side surface of the housing body to the center of the housing body is reduced from top to bottom in sequence; the edge of the upper end cover is provided with an annular rain collecting groove, and the upper end cover is also provided with a rainwater discharge port. The utility model discloses in, the edge of upper end cover is provided with annular rain groove that gathers, and when raining, the rainwater that falls on the upper end cover can fall to the rain groove that gathers who is located the upper end cover edge, and the last unified is discharged from the rain water outlet, and the rainwater that falls on the upper end cover like this can not trickle down along the side of shell body, has reduced the influence to the sensor that sets up in the shell outside.

Description

Shell structure of geological disaster monitoring and early warning device

Technical Field

The utility model relates to a geological disasters monitoring technology field, in particular to geological disasters monitors early warning device's shell structure.

Background

The geological disaster monitoring is the work of monitoring geological disaster activities and dynamic changes of various inducing factors by using various geological disaster hydrological measurement technologies, is an important basis for predicting and forecasting geological disasters, and is important content for disaster reduction and prevention. In the central link, factors such as geological activities, hydrometeorological phenomena and the like are observed through various instruments such as a geological disaster monitoring device. Current geological disaster monitoring devices includes the shell, the shell side is provided with a plurality of mounting hole, the mounting hole is used for installing various sensors, some sensors set up in the outside of shell usually, when raining, the rainwater can flow down and trickle downwards along the side of shell from the upper end of shell after falling the up end of shell, the rainwater is when trickling along the shell side, can advance the sensor that sets up on the shell outside, cause certain influence to the sensor that sets up in the shell outside like this, cause the sensor to intake easily, influence the normal use of sensor.

Disclosure of Invention

The utility model aims at solving current geological disaster monitoring devices can flow down and trickle downwards along the side of shell from the upper end of shell after the up end of shell is fallen to the rainwater when raining, to the problem that sets up the sensor in the shell outside and cause certain influence like this, provides a geological disaster monitoring early warning device's shell structure, can effectively solve above-mentioned problem.

The utility model aims at realizing through the following technical scheme: a shell structure of a geological disaster monitoring and early warning device comprises a shell body and an upper end cover arranged at the upper end of the shell body, wherein the distance from the side surface of the shell body to the center of the shell body is sequentially reduced from top to bottom; the edge of the upper end cover is provided with an annular rain collecting groove, and the upper end cover is also provided with a rainwater discharge port.

The utility model discloses in, the edge of upper end cover is provided with annular rain groove that gathers, and when raining, the rainwater that falls on the upper end cover can fall to the rain groove that gathers who is located the upper end cover edge, and last unified is discharged from the rain water discharging port, and like this, the rainwater that falls on the upper end cover can not trickle down along the side of shell body, has reduced the influence to the sensor that sets up in the shell outside. The distance from the side surface of the shell body to the center of the shell body is reduced from top to bottom in sequence, so that rainwater is not facilitated to flow along the side surface of the shell body, and the influence of the rainwater on the sensor is further reduced.

Preferably, the upper end surface of the upper end cover is an arc surface with a center protruding upwards. This shape can effectively prevent rainwater from silting on the upper end face.

Preferably, the rainwater discharging port comprises a bottom plate and side baffles arranged on two sides of the bottom plate, the side baffles and the bottom plate jointly form a rainwater guide groove, and the rainwater guide groove is communicated with the rainwater collecting groove.

Preferably, the side baffle is provided with a generator, the generator is connected with an impeller, and the impeller is positioned in the rainwater guide groove. The generator can link to each other with the battery that sets up in geological disasters monitoring devices, and when raining, the rainwater can flow out from the rainwater guide way, and the rainwater that flows can drive the impeller rotation, and the impeller drives the generator electricity generation to produce the electric energy, the electric energy that produces through the generator can be stored in the battery.

Preferably, the impeller includes a central shaft and a plurality of blades arranged in a circumferential direction of the central shaft.

Preferably, the angle between the floor and the horizontal is 45 ° to 60 °. The end of the bottom plate far away from the upper end cover is inclined downwards, so that rainwater can be drained conveniently.

Preferably, the side surface of the shell body is provided with a plurality of reinforcing ribs. The strengthening rib can strengthen the intensity of shell body.

The utility model has the advantages that: the utility model discloses in, the edge of upper end cover is provided with annular rain groove that gathers, and when raining, the rainwater that falls on the upper end cover can fall to the rain groove that gathers who is located the upper end cover edge, and the last unified is discharged from the rain water outlet, and the rainwater that falls on the upper end cover like this can not trickle down along the side of shell body, has reduced the influence to the sensor that sets up in the shell outside.

Drawings

Fig. 1 is an axonometric view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is an enlarged view of a portion a in fig. 1.

In the figure: 1. the rain collecting device comprises a shell body, 2, an upper end cover, 3, a mounting hole, 4, a rain collecting groove, 5, a side baffle, 6, a bottom plate, 7, a generator, 8, an impeller, 9 and reinforcing ribs.

Detailed Description

The invention will be further described with reference to the following detailed description and accompanying drawings.

Example 1:

as shown in fig. 1 to 3, a housing structure of a geological disaster monitoring and early warning device comprises a housing body 1 and an upper end cover 2 arranged at the upper end of the housing body. The side of the shell body 1 is provided with a plurality of reinforcing ribs 9. The side of shell body 1 is provided with a plurality of mounting hole 3, and mounting hole 3 is used for installing sensor and monitoring devices. The upper surface of the upper end cover 2 is a circular arc surface with the center protruding upwards. The distance from the side surface of the shell body to the center of the shell body is reduced from top to bottom in sequence. The edge of upper end cover 2 is provided with annular rain groove 4, still is provided with the rain water discharge port on the upper end cover, and the rain water discharge port sets up the edge of upper end cover 2. The rainwater discharge port comprises a bottom plate 6 and side baffles 5 arranged on two sides of the bottom plate 6, the side baffles 5 and the bottom plate 6 jointly form a rainwater guide groove, and the rainwater guide groove is communicated with the rainwater collection groove 4. One end of the bottom plate 6, which is far away from the upper end cover 2, is inclined downwards, and the included angle between the bottom plate 6 and the horizontal plane is 45-60 degrees.

The side baffle 5 is provided with a generator 7, the generator 7 is connected with an impeller 8, and the impeller 8 is positioned in the rainwater guide groove. The impeller 8 comprises a central shaft and a number of blades arranged in the circumferential direction of the central shaft. The generator can link to each other with the battery that sets up in geological disasters monitoring devices, and when raining, the rainwater can flow out from the rainwater guide way, and the rainwater that flows can drive the impeller rotation, and the impeller drives the generator electricity generation to produce the electric energy, the electric energy that produces through the generator can be stored in the battery.

The utility model discloses in, the edge of upper end cover is provided with annular rain groove that gathers, and when raining, the rainwater that falls on the upper end cover can fall to the rain groove that gathers who is located the upper end cover edge, and the last unified is discharged from the rain water outlet, and the rainwater that falls on the upper end cover like this can not trickle down along the side of shell body, has reduced the influence to the sensor that sets up in the shell outside.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the principles of the present invention.

Claims (7)

1. The utility model provides a geological disaster monitoring and early warning device's shell structure, includes housing body and the upper end cover of setting in the housing body upper end, its characterized in that: the distance from the side surface of the shell body to the center of the shell body is sequentially reduced from top to bottom; the edge of the upper end cover is provided with an annular rain collecting groove, and the upper end cover is also provided with a rainwater discharge port.

2. The housing structure of the geological disaster monitoring and early warning device as claimed in claim 1, wherein the upper end surface of the upper end cover is a circular arc surface with an upward convex center.

3. The housing structure of the geological disaster monitoring and early warning device as recited in claim 1, wherein the rain water discharge port comprises a bottom plate and side baffles arranged at two sides of the bottom plate, the side baffles and the bottom plate together form a rain water guide groove, and the rain water guide groove is communicated with the rain collecting groove.

4. The housing structure of the geological disaster monitoring and early warning device as claimed in claim 1, wherein the side baffle is provided with a generator, the generator is connected with an impeller, and the impeller is positioned in the rainwater guide groove.

5. A housing structure of a geological disaster monitoring and early warning device as recited in claim 4, wherein said impeller comprises a central shaft and a plurality of blades arranged in the circumferential direction of said central shaft.

6. The casing structure of geological disaster monitoring and early warning device as claimed in claim 4, wherein the included angle between the bottom plate and the horizontal plane is 45 ° to 60 °.

7. The housing structure of the geological disaster monitoring and early warning device as claimed in claim 1, wherein a plurality of reinforcing ribs are arranged on the side surface of the housing body.

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