CN216206643U - Hydrological information automatic monitoring device with submergence prevention mechanism - Google Patents

Abstract

The utility model discloses a hydrologic information automatic monitoring device with a submergence preventing mechanism, which relates to the field of hydrologic information monitoring and comprises a monitoring device main body, a supporting and fixing part, a pair of anti-collision adjusting parts and a plurality of groups of floating and submerging preventing parts, wherein the monitoring device main body is provided with a plurality of groups of floating and submerging preventing parts; the supporting and fixing component is used for fixedly supporting the monitoring device main body and comprises a supporting outer rod and a supporting inner rod which is arranged on the supporting outer rod in a sliding mode and used for fixing the monitoring device main body, a pair of mounting grooves are symmetrically formed in the outer wall of the supporting outer rod, and a plurality of anti-flooding sliding grooves are formed in the outer wall of the supporting inner rod; and the pair of anti-collision adjusting parts are correspondingly arranged in the pair of mounting grooves and used for adjusting the lifting of the support inner rod. Through the supporting and fixing part with the buoyancy lifting and flooding preventing part matched with the lifting device, the supporting and fixing part can be driven to rise when the water level rises, so that the monitoring device main body is driven to rise to be far away from the water surface, the probability that the monitoring device main body is submerged is reduced, and subsequent normal use of the monitoring device main body is protected.

Description

Hydrological information automatic monitoring device with submergence prevention mechanism

Technical Field

The utility model relates to the field of hydrologic information monitoring, in particular to a hydrologic information automatic monitoring device with a submergence preventing mechanism.

Background

The hydrologic monitoring is suitable for hydrologic departments to carry out real-time monitoring to hydrologic parameters such as rivers, lakes, reservoirs, channels and groundwater, and the monitoring content includes: water level, flow rate, rainfall (snow), evaporation, silt, slush, soil moisture, water quality, and the like. The hydrological monitoring mostly adopts a wireless communication mode to transmit monitoring data in real time, so that the working efficiency of a hydrological department can be greatly improved.

At present, hydrologic monitoring mainly comprises four parts, namely a monitoring center, a communication network, front-end monitoring equipment and measuring equipment, wherein the monitoring center comprises a server, a public network private line (or a mobile private line) and hydrologic monitoring system software; and the measuring equipment comprises a rainfall sensor, a water level gauge, an industrial camera or other instrument transmitters, and the acquisition, analysis, processing, transmission and the like of hydrological information are realized through the mutual cooperation of the parts.

The existing hydrologic information automatic monitoring device is usually installed beside a river dipper for monitoring, the fixing mode is generally fixed on a support, and the height of the support is limited, so that water flow can overflow the support at any time along with the rise of the water level of the river water in the flood season, even the hydrologic information automatic monitoring device is completely submerged, so that the hydrologic information automatic monitoring device is damaged by soaking water, and the normal use of the hydrologic information automatic monitoring device is influenced.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the present invention provides a hydrologic information automatic monitoring device with a submergence preventing mechanism to solve the above problems in the prior art.

The technical scheme is as follows: a hydrological information automatic monitoring device with a submergence preventing mechanism comprises a monitoring device main body, a supporting and fixing component, a pair of anti-collision adjusting components and a plurality of groups of floating submergence preventing components;

a monitoring device main body;

the supporting and fixing component is used for fixedly supporting the monitoring device main body and comprises a supporting outer rod and a supporting inner rod which is arranged on the supporting outer rod in a sliding mode and used for fixing the monitoring device main body, a pair of mounting grooves are symmetrically formed in the outer wall of the supporting outer rod, and a plurality of anti-flooding sliding grooves are formed in the outer wall of the supporting inner rod;

the pair of anti-collision adjusting components are correspondingly arranged in the pair of mounting grooves and are used for adjusting the lifting of the support inner rod;

and the plurality of groups of floating flood-proof components are correspondingly and slidably arranged in the plurality of flood-proof chutes and are used for protecting the monitoring device main body.

In a further embodiment, the anti-collision adjusting component comprises a mounting plate, a plurality of adjusting grooves, a plurality of first rotating shafts, a plurality of adjusting rotating blocks and a plurality of torsion springs;

the mounting plate is clamped in the anti-flooding chute, the mounting plate is matched with the anti-flooding chute, a sliding cavity is formed in the supporting outer rod, the anti-flooding chute is communicated with the sliding cavity, and the mounting plate and the inner wall of the sliding cavity are positioned on the same horizontal plane, so that the supporting inner rod can normally slide in the sliding cavity of the supporting outer rod;

the adjusting grooves are correspondingly formed in the mounting plate, first rotating shafts are arranged in the adjusting grooves, the adjusting grooves are uniformly formed in the inner side of the mounting plate along the length direction of the mounting plate, and two ends of each first rotating shaft are fixedly connected with the inner wall of each adjusting groove and used for adjusting the rotation of the rotating block;

a plurality of regulation turning blocks correspond to rotate and locate a plurality ofly in the first pivot, it is a plurality of all be connected with the torsional spring between regulation turning block and the adjustment tank inner wall, adjust and run through the rotating hole of seting up with first pivot looks adaptation on the turning block, under normal condition, first pivot perpendicular to mounting panel under the effect of torsional spring.

In a further embodiment, the crash adjustment feature further comprises a pair of first mounting holes and a pair of first mounting pegs;

the pair of first mounting holes are correspondingly formed in the mounting plate and the outer support rod, and are symmetrically arranged about the central axis of the mounting plate;

a pair of first installation nail, it is a pair of to correspond threaded connection in the first mounting hole for fixed mounting board and support outer pole, after spacing slide collided the regulation commentaries on classics piece many times, probably caused wearing and tearing, the damage of regulation commentaries on classics piece and relevant part, the setting person of convenient to use who sets up of first mounting hole and first installation nail carries out the dismouting to mounting panel and support outer pole, thereby is convenient for carry out the dismouting change to relevant parts such as regulation commentaries on classics piece.

In a further embodiment, the supporting and fixing part further comprises a plurality of flooding-proof sliders and a plurality of moving wheels;

the flooding-proof sliding blocks are correspondingly arranged in the flooding-proof sliding chutes in a sliding manner and are used for connecting the floating flooding-proof components;

the moving wheels are correspondingly and rotatably arranged on the inner sides of the flooding-proof sliding blocks, the moving wheels are in rolling connection with the inner walls of the flooding-proof sliding grooves, the inner sides of the flooding-proof sliding blocks are connected with rolling columns, and the flooding-proof sliding blocks are rotatably arranged on the rolling columns and are used for being matched with the flooding-proof sliding blocks to move in the flooding-proof sliding grooves.

In a further embodiment, the floating and flood-preventing component comprises a connecting plate, a second mounting hole, a second mounting nail, a flood-preventing floating plate and a flood-preventing floating block;

the connecting plate is connected to one surface, far away from the inner wall of the flood-proof sliding chute, of the flood-proof sliding block, second mounting holes are correspondingly formed in the connecting plate and the flood-proof sliding block, second mounting nails used for fixing the connecting plate and the flood-proof sliding block are connected in the second mounting holes in a threaded mode, and the second mounting holes and the second mounting nails are arranged so that the floating and rising flood-proof components and the flood-proof sliding block can be conveniently disassembled, assembled and replaced;

the flooding-proof floating plate is movably connected to one surface of the connecting plate, which is far away from the flooding-proof sliding block, and can be made of foam materials;

the anti-flooding floating block is movably connected to one surface, far away from the connecting plate, of the anti-flooding floating plate, the anti-flooding floating block can be made of foam materials, in a normal state, the anti-flooding floating block and the anti-flooding floating plate which are movably connected to the connecting plate can be abutted to the outer supporting rod under the action of gravity, when the water level continuously rises, the anti-flooding floating block is firstly driven to float on the water surface, then the anti-flooding floating plate is driven to float on the water surface, and meanwhile the anti-flooding floating block, the anti-flooding floating plate and the connecting plate rotate relatively until the anti-flooding floating plate and the inner supporting rod are in a vertical state.

In a further embodiment, the uplift flood-prevention component further comprises a protection clamping plate, a first fixing groove and a first magnetic strip;

the protection clamping plates are connected to one surfaces, close to the monitoring device main body, of the flooding prevention floating plates, when the flooding prevention floating plates rotate, the corresponding protection clamping plates are driven to rotate, and when the flooding prevention floating plates rotate to be perpendicular to the support inner rods, the plurality of first magnetic stripes and the monitoring device main body are protected outside the monitoring device main body to protect the monitoring device main body;

the first fixing groove is formed in one surface, close to the monitoring device main body, of the protection clamping plate;

the first magnetic stripe is fixed in the first fixed slot, when the water level is undulant great, can drive the anti-flooding slider and carry out elevating movement in the anti-flooding spout to drive the buoyancy lift anti-flooding part and remove, make the protection cardboard cooperation water level undulant be interrupted and protect the monitoring device main part.

In a further embodiment, the support fixing member further comprises a top plate, a second fixing groove and a second magnetic stripe;

the top plate is connected to one end, far away from the outer supporting rod, of the inner supporting rod, when the flooding-proof floating plate rotates to be perpendicular to the inner supporting rod, the inner walls of the plurality of protection clamping plates are abutted to the top plate, so that the plurality of protection clamping plates surround the outer side of the monitoring device main body and are fixed through the second magnetic stripes and the first magnetic stripes;

the second fixing groove is formed in the top plate;

the second magnetic stripe is fixed in the second fixed slot, the first magnetic stripe of cooperation is used for fixed roof and protection cardboard.

Has the advantages that: the utility model discloses a hydrological information automatic monitoring device with a submergence preventing mechanism, which is characterized in that a floating submergence preventing component is arranged to be matched with a liftable supporting and fixing component, so that the supporting and fixing component can be driven to rise when the water level rises, a monitoring device body is driven to rise to be far away from the water surface, the probability of submerging the monitoring device body is reduced, and the subsequent normal use of the monitoring device body is protected.

Drawings

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

Fig. 2 is a perspective view of the whole structure of the closed buoyant flood-proof component.

Fig. 3 is an exploded view of the support and fixation member of the present invention.

Fig. 4 is a schematic structural diagram at a in fig. 3.

Fig. 5 is a perspective view of the buoyant flood-proof member of the present invention.

The figures are numbered: 1. the monitoring device comprises a monitoring device body, 2, a supporting and fixing component, 201, a supporting outer rod, 202, an inner supporting rod, 203, a mounting groove, 204, a flood-proof sliding groove, 205, a flood-proof sliding block, 206, a moving wheel, 207, a top plate, 208, a second magnetic strip, 3, an anti-collision adjusting component, 301, a mounting plate, 302, an adjusting groove, 303, a first rotating shaft, 304, an adjusting rotating block, 305, a torsion spring, 306, a first mounting hole, 307, a first mounting nail, 4, a floating and flood-proof component, 401, a connecting plate, 402, a flood-proof floating plate, 403, a flood-proof floating block, 404, a protection clamping plate, 405, a first magnetic strip, 406, a second mounting hole and 407, and a second mounting nail.

Detailed Description

In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. It will be apparent, however, to one skilled in the art, that the present invention may be practiced without one or more of these specific details. In other instances, well-known features have not been described in order to avoid obscuring the utility model.

The applicant thinks that the existing hydrologic information automatic monitoring device is easily submerged by water flow in the flood season, so that the hydrologic information automatic monitoring device is damaged by soaking water, and the normal use of the hydrologic information automatic monitoring device is influenced.

For this purpose, the applicant proposes a hydrologic information automatic monitoring device with a submergence preventing mechanism, as shown in fig. 1 to 5, comprising a monitoring device body 1, a supporting and fixing part 2, a pair of anti-collision adjusting parts 3 and a plurality of groups of floating submergence preventing parts 4.

Wherein, support fixed part 2 and be used for the fixed stay monitoring device main part 1, support fixed part 2 including supporting outer pole 201 to and slide and locate the pole 202 in the support that is used for fixed monitoring device main part 1 on supporting outer pole 201, support and have seted up a pair of mounting groove 203 on the outer wall of outer pole 201 symmetrically, have seted up a plurality of flood-proof chutes 204 on the outer wall of pole 202 in the support.

The pair of anti-collision adjusting components 3 are correspondingly installed in the pair of installation grooves 203 and used for adjusting the lifting of the support inner rod 202.

The multiple groups of floating flood-proof components 4 are correspondingly arranged in the multiple flood-proof chutes 204 in a sliding manner, and are used for protecting the monitoring device main body 1.

As shown in fig. 1 to 4, the crashworthy adjustment member 3 includes a mounting plate 301, a plurality of adjustment grooves 302, a plurality of first rotation shafts 303, a plurality of adjustment rotation blocks 304, and a plurality of torsion springs 305.

The mounting plate 301 is clamped in the flood-proof chute 204, the mounting plate 301 is matched with the flood-proof chute 204, a sliding cavity is formed inside the outer support rod 201, the flood-proof chute 204 is communicated with the sliding cavity, and the mounting plate 301 and the inner wall of the sliding cavity are located on the same horizontal plane, so that the inner support rod 202 can normally slide in the sliding cavity of the outer support rod 201.

A plurality of adjustment tank 302 correspond to set up on mounting panel 301, all are equipped with first pivot 303 in a plurality of adjustment tank 302, and a plurality of adjustment tank 302 are evenly set up in mounting panel 301 inboard along mounting panel 301 length direction, and first pivot 303 both ends all with adjustment tank 302 inner wall fixed connection for adjust and change piece 304 and rotate.

A plurality of adjusting rotating blocks 304 are correspondingly and rotatably arranged on a plurality of first rotating shafts 303, torsion springs 305 are respectively connected between the plurality of adjusting rotating blocks 304 and the inner walls of the adjusting grooves 302, rotating holes matched with the first rotating shafts 303 are formed in the adjusting rotating blocks 304 in a penetrating way, and in a normal state, the first rotating shaft 303 is vertical to the mounting plate 301 under the action of the torsion spring 305, one end of the inner supporting rod 202, which is close to the outer supporting rod 201, is connected with a limiting sliding plate, one side of the outer supporting rod 201, which is close to the monitoring device main body 1, is connected with a limiting fixing plate, the limiting fixing plate is provided with a through sliding chute, the diameter of the through sliding chute is smaller than that of the sliding cavity, the limiting sliding plate is matched with the sliding cavity, so that the inner support rod 202 can slide in the slide cavity of the outer support rod 201 through the limiting slide plate, and at the same time, under the cooperation of the limiting sliding plate and the limiting fixing plate, the inner supporting rod 202 can normally move in the outer supporting rod 201, and the adjusting rotating block 304 is not in contact with the outer wall of the inner supporting rod 202.

When the inner support rod 202 slides in the sliding cavity of the outer support rod 201, the limiting sliding plate pushes the corresponding adjusting rotating block 304 to rotate along with the position change until the adjusting rotating block 304 rotates to be level with the inner wall of the mounting plate 301, the inner support rod 202 and the limiting sliding plate slide through the corresponding adjusting rotating block 304 and continue to move in the sliding cavity of the outer support rod 201, then the adjusting rotating block 304 is driven to restore to a state vertical to the mounting plate 301 under the action of the torsion spring 305, when the water flow with high water level fluctuates, the inner support rod 202 may be driven to continuously lift in the sliding cavity of the outer support rod 201, the inner support rod 202 may suddenly lift or fall to a large extent to cause collision, the anti-collision adjusting component 3 is arranged so that the sliding speed of the inner support rod 202 can be intermittently reduced through the actions of the plurality of adjusting rotating blocks 304 and the torsion spring 305 when the inner support rod 202 slides in the sliding cavity of the outer support rod 201 through the limiting sliding plate, the probability that the inner support rod 202 collides with the outer support rod 201 in the lifting process is reduced, and the probability that relevant parts are damaged due to collision is reduced.

As shown in fig. 3 to 4, the crumple adjustment member 3 further includes a pair of first mounting holes 306 and a pair of first mounting nails 307.

The pair of first mounting holes 306 are correspondingly formed in the mounting plate 301 and the outer support rod 201, and the pair of first mounting holes 306 are symmetrically arranged about the central axis of the mounting plate 301.

A pair of first installation nail 307 corresponds threaded connection in a pair of first mounting hole 306 for fixed mounting panel 301 and support outer pole 201, after spacing slide collides a lot of to adjusting rotating block 304, probably cause the wearing and tearing of adjusting rotating block 304 and relevant part, damage, the setting up of first mounting hole 306 and first installation nail 307 is convenient for the user to carry out the dismouting to mounting panel 301 and support outer pole 201, thereby is convenient for carry out dismouting change to adjusting rotating block 304 relevant part such as.

As shown in fig. 3-4, the supporting and fixing member 2 further includes a plurality of flooding prevention sliders 205 and a plurality of moving wheels 206.

The plurality of anti-flooding sliding blocks 205 are correspondingly slidably arranged in the plurality of anti-flooding sliding grooves 204 and are used for connecting the floating anti-flooding component 4.

The moving wheels 206 are correspondingly and rotatably arranged on the inner sides of the flood-proof sliding blocks 205, the moving wheels 206 are in rolling connection with the inner walls of the flood-proof sliding grooves 204, the inner sides of the flood-proof sliding blocks 205 are connected with rolling columns, and the flood-proof sliding blocks 205 are rotatably arranged on the rolling columns and are used for being matched with the flood-proof sliding blocks 205 to move in the flood-proof sliding grooves 204, so that the monitoring device main body 1 is further lifted by the aid of the movement of the floating and flooding-proof components 4 in a matching manner with the movement of the supporting inner rods 202 and the supporting outer rods 201, the probability that the monitoring device main body 1 is flooded is reduced, and the subsequent normal use of the monitoring device main body 1 is protected.

As shown in fig. 1 to 5, the buoyant lift flood prevention member 4 includes a connecting plate 401, a second mounting hole 406, a second mounting nail 407, a flood prevention plate 402 and a flood prevention block 403.

Wherein, the connecting plate 401 is connected to the side of the flood-proof slider 205 far from the inner wall of the flood-proof sliding chute 204, the connecting plate 401 and the flood-proof slider 205 are correspondingly provided with second mounting holes 406, the second mounting holes 406 are in threaded connection with second mounting nails 407 for fixing the connecting plate 401 and the flood-proof slider 205, the second mounting holes 406 and the second mounting nails 407 are arranged to facilitate the detachment and replacement of the uplift flood-proof component 4 and the flood-proof slider 205, when in use, the uplift flood-proof component 4 can be mounted on the flood-proof slider 205 according to specific conditions, for example, when the water level of the river in continuous sunny days is low, the uplift flood-proof component 4 can be temporarily not mounted, when the water level of the river in continuous rainy days is continuously raised, the uplift flood-proof component 4 can be mounted on the flood-proof slider 205, the uplift flood-proof component 4 is used to protect the monitoring device body 1, thereby reducing the probability of the river flooding the monitoring device body 1, protecting the subsequent normal use of the monitoring device body 1.

The flooding-proof floating plate 402 is movably connected to one surface of the connecting plate 401 far away from the flooding-proof sliding block 205, and the flooding-proof floating plate 402 can be made of foam.

The anti-flooding floating block 403 is movably connected to one surface of the anti-flooding floating plate 402, which is far away from the connecting plate 401, the anti-flooding floating block 403 can be made of foam, in a normal state, the anti-flooding floating block 403 and the anti-flooding floating plate 402, which are movably connected to the connecting plate 401, can be abutted against the supporting outer rod 201 due to the gravity, and when the water level continuously rises, the anti-flooding floating block 403 is driven to float on the water surface, then the anti-flooding floating plate 402 is driven to float on the water surface, and meanwhile, the anti-flooding floating block 403, the anti-flooding floating plate 402 and the connecting plate 401 rotate relatively until the anti-flooding floating plate 402 and the supporting inner rod 202 are in a vertical state.

As shown in fig. 5, the uplift flood prevention component 4 further comprises a protection card 404, a first fixing groove and a first magnetic strip 405.

Wherein, protection cardboard 404 connects in the one side that the floating plate 402 is close to monitoring device main part 1 that prevents flooding, can drive corresponding protection cardboard 404 when the floating plate 402 that prevents flooding rotates and take place to rotate, when the floating plate 402 that prevents flooding rotates to perpendicular with support interior pole 202, a plurality of first magnetic stripe 405 and the protection of monitoring device main part 1 are in the monitoring device main part 1 outside, protect monitoring device main part 1.

The first fixing groove is opened on one surface of the protection card 404 close to the monitoring device main body 1.

First magnetic stripe 405 is fixed in first fixed slot, when the water level fluctuation is great, can drive anti-flooding slider 205 and carry out elevating movement in anti-flooding spout 204, thereby drive buoyancy-rising anti-flooding part 4 and remove, make protection cardboard 404 cooperation water level fluctuation be interrupted and protect monitoring device main part 1, when the water level height is higher, first magnetic stripe 405 attracts fixedly with second magnetic stripe 208, make protection cardboard 404 continuously protect monitoring device main part 1, when the water level continuously rises, can drive anti-flooding slider 205 and carry out the elevating movement in anti-flooding spout 204, thereby drive buoyancy-rising anti-flooding part 4 and remove, make first magnetic stripe 405 and second magnetic stripe 208 attract fixedly, make protection cardboard 404 continuously protect monitoring device main part 1.

As shown in fig. 1 to 3, the support fixing member 2 further includes a top plate 207, a second fixing groove, and a second magnetic stripe 208.

Wherein, roof 207 connects in the one end that pole 202 kept away from and supports outer pole 201 in supporting, when the floating plate 402 that prevents flooding rotates to and supports interior pole 202 perpendicular, a plurality of protection cardboard 404 inner walls and roof 207 butt for a plurality of protection cardboard 404 surround in the monitoring device main part 1 outside, and fixed through second magnetic stripe 208 and first magnetic stripe 405.

The second fixing groove is opened on the top plate 207.

The second magnetic stripe 208 is fixed in the second fixing groove, and is used for fixing the top plate 207 and the protection clamping plate 404 by matching with the first magnetic stripe 405, when the water level continuously rises, the flooding prevention floating plate 402 and the flooding prevention floating block 403 are firstly driven to rotate until the flooding prevention floating plate 402 and the support inner rod 202 are in a vertical state, the flooding prevention sliding block 205 and the moving wheel 206 are driven by the connecting plate 401 to move in the flooding prevention sliding groove 204, and after the flooding prevention sliding block 205 moves to the top of the flooding prevention sliding groove 204, the protection clamping plate 404 is clamped on the outer wall of the top plate 207 and is fixedly adsorbed by the second magnetic stripe 208 and the first magnetic stripe 405.

The working principle is as follows: when the water level fluctuation is great, can drive the anti-flooding slider 205 and carry out elevating movement in the anti-flooding spout 204, thereby drive the buoyancy lift anti-flooding part 4 and remove, make the fluctuation of protection cardboard 404 cooperation water level be interrupted and protect monitoring device main part 1, when the water level height is higher, first magnetic stripe 405 attracts fixedly with second magnetic stripe 208, make the protection cardboard 404 continuously protect monitoring device main part 1, when the water level continuously rises, can drive the anti-flooding slider 205 and carry out the rising movement in the anti-flooding spout 204, thereby drive the buoyancy lift anti-flooding part 4 and remove, make first magnetic stripe 405 attract fixedly with second magnetic stripe 208, make the protection cardboard 404 continuously protect monitoring device main part 1.

Meanwhile, when the inner support rod 202 slides in the sliding cavity of the outer support rod 201, the limiting sliding plate pushes the corresponding adjusting rotating block 304 to rotate along with the position change until the adjusting rotating block 304 rotates to be horizontal to the inner wall of the mounting plate 301, the inner support rod 202 and the limiting sliding plate slide through the corresponding adjusting rotating block 304 and continue to move in the sliding cavity of the outer support rod 201, and then the adjusting rotating block 304 is driven to return to a state vertical to the mounting plate 301 under the action of the torsion spring 305.

As above, while the utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limited thereto. Various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (7)

1. A hydrologic information automatic monitoring device with prevent submerging mechanism, its characterized in that includes:

a monitoring device main body;

the supporting and fixing component is used for fixedly supporting the monitoring device main body and comprises a supporting outer rod and a supporting inner rod which is arranged on the supporting outer rod in a sliding mode and used for fixing the monitoring device main body, a pair of mounting grooves are symmetrically formed in the outer wall of the supporting outer rod, and a plurality of anti-flooding sliding grooves are formed in the outer wall of the supporting inner rod;

the pair of anti-collision adjusting components are correspondingly arranged in the pair of mounting grooves and are used for adjusting the lifting of the support inner rod;

and the plurality of groups of floating flood-proof components are correspondingly and slidably arranged in the plurality of flood-proof chutes and are used for protecting the monitoring device main body.

2. The automatic hydrologic information monitoring device with submergence prevention mechanism according to claim 1, characterized in that: the anti-collision adjustment component includes:

the mounting plate is clamped in the flood-proof chute;

the adjusting grooves are correspondingly formed in the mounting plate, and first rotating shafts are arranged in the adjusting grooves;

a plurality of regulation commentaries on classics piece corresponds to rotate and locates a plurality ofly in the first pivot, it is a plurality of all be connected with the torsional spring between regulation commentaries on classics piece and the adjustment tank inner wall.

3. The automatic hydrologic information monitoring device with submergence prevention mechanism according to claim 2, characterized in that: the anti-collision adjustment component further comprises:

the pair of first mounting holes are correspondingly formed in the mounting plate and the outer support rod;

and the pair of first mounting nails are correspondingly in threaded connection with the pair of first mounting holes and used for fixing the mounting plate and supporting the outer rod.

4. The automatic hydrologic information monitoring device with submergence prevention mechanism according to claim 1, characterized in that: the support fixing member further includes:

the flooding-proof sliding blocks are correspondingly arranged in the flooding-proof sliding chutes in a sliding manner and are used for connecting the floating flooding-proof components;

and the moving wheels are correspondingly and rotatably arranged on the inner sides of the flooding-proof sliding blocks and are in rolling connection with the inner walls of the flooding-proof sliding grooves.

5. The automatic hydrologic information monitoring device with submergence prevention mechanism according to claim 4, characterized in that: the buoyant rise flood prevention component comprises:

the connecting plate is connected to one surface, far away from the inner wall of the flood-proof sliding chute, of the flood-proof sliding block, second mounting holes are correspondingly formed in the connecting plate and the flood-proof sliding block, and second mounting nails used for fixing the connecting plate and the flood-proof sliding block are in threaded connection in the second mounting holes;

the anti-flooding floating plate is movably connected to one surface of the connecting plate, which is far away from the anti-flooding sliding block;

and the flooding-proof floating block is movably connected to one surface of the flooding-proof floating plate, which is far away from the connecting plate.

6. The automatic hydrologic information monitoring device with submergence prevention mechanism according to claim 5, characterized in that: the buoyant lift flood prevention component further comprises:

the protection clamping plate is connected to one surface, close to the monitoring device main body, of the flood prevention floating plate;

the first fixing groove is formed in one surface, close to the monitoring device main body, of the protection clamping plate;

and the first magnetic strip is fixed in the first fixing groove.

7. The automatic hydrologic information monitoring device with submergence prevention mechanism according to claim 1, characterized in that: the support fixing member further includes:

the top plate is connected to one end, far away from the outer support rod, of the inner support rod;

the second fixing groove is formed in the top plate;

the second magnetic stripe is fixed in the second fixed slot, the first magnetic stripe of cooperation is used for fixed roof and protection cardboard.

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