CN217738218U - Geological disaster deep displacement monitoring device - Google Patents

Abstract

The utility model discloses a geological disasters deep displacement monitoring devices relates to geological monitoring technical field, which comprises a platform, the last fixed surface of platform is connected with the support, the inner wall of platform is provided with four first sight mechanisms, two sets of symmetrical ventilation slots have been seted up to the surface of support, the top of platform is provided with two symmetrical connecting rods, two the equal sliding connection of surface in ventilation slot's of connecting rod inner wall. It can be through the cooperation setting of first sight ground mechanism, ventilative groove, can fix geological disasters deep displacement monitoring devices, utilizes the effect of first sight ground mechanism, can fix monitoring devices and make it unable rock on ground, makes it rock when avoiding touching monitoring devices accidentally and causes the influence to measured data, utilizes the effect of ventilative groove, can make it pass ventilative groove unable monitoring devices that rocks when blowing monitoring devices.

Description

Geological disaster deep displacement monitoring device

Technical Field

The utility model relates to a geological monitoring technology field specifically is a geological disasters deep displacement monitoring devices.

Background

The geological disaster refers to a geological effect or a geological phenomenon which is formed under the action of natural or human factors and causes damage to human life and property and damage to the environment, the distribution change rule of the geological disaster on time and space is not only limited by the natural environment, but also related to human activities and is often the result of interaction between human beings and the natural world, the geological disaster is called as ground disaster for short, and the natural disaster mainly causes geological dynamic activity or abnormal change of the geological environment. Under the action of the internal power, the external power or the artificial geological power, the earth generates abnormal energy release, material movement, deformation and displacement of rock and soil bodies, abnormal change of the environment and the like, and the phenomena or processes of harming human lives and properties, living and economic activities or destroying resources and environments on which human beings live and develop are generated.

The traditional geological disaster deep displacement monitoring device is only placed at one position, the device is not fixed, the detection device is generally placed in the field, and when workers place the monitoring device deep in the ground, the monitoring device is blown by strong wind or manually touched to shake, so that an inclinometer at the ground cannot stably descend to the bottom, and accurate measurement cannot be achieved; therefore, the geological disaster deep displacement monitoring device solves the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a geological disasters deep displacement monitoring devices in order to compensate the not enough of prior art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a geological disasters deep displacement monitoring devices, includes the platform, the last fixed surface of platform is connected with the support, the inner wall of platform is provided with four ground of blurriness mechanisms, two sets of symmetrical ventilative grooves have been seted up to the surface of support, the top of platform is provided with two symmetrical connecting rods, two the equal sliding connection in the inner wall in ventilative groove of surface of connecting rod, the outer fixed surface of connecting rod is connected with the cylindricality pole, a side fixedly connected with handheld portion of connecting rod is kept away from to the cylindricality pole.

Furthermore, an cover plate is arranged above the platform, the outer surface of the cover plate is fixedly connected to the outer surface of the connecting rod, a wire groove is formed in the upper surface of the cover plate, and the inner wall of the wire groove is rotatably connected with two rotating wheels.

Further, the inner wall sliding connection of platform has the inclinometer pipe, the fixed surface of support is connected with the motor, the inner wall of support rotates and is connected with the pivot, the output of motor runs through the one end that extends to the pivot in the surface of support, and fixed connection is in the surface of pivot.

Further, the outer fixed surface of pivot is connected with the action wheel, the surface of action wheel is provided with the cable conductor, the one end fixed connection of cable conductor is in the surface of action wheel, the surface winding of cable conductor is in the surface of action wheel, the surface sliding connection of cable conductor is in the surface of two runners, the other end fixedly connected with inclinometer of cable conductor.

Further, the first-stroke mechanism comprises a fixed block, the upper surface of the fixed block is fixedly connected to the bottom surface of the platform, a first sliding groove is formed in the upper surface of the fixed block, an assembly cavity is formed in the inner wall of the fixed block, the inner wall of the assembly cavity is communicated with the inner wall of the first sliding groove, two second sliding grooves are formed in the outer surface of the fixed block, and the inner walls of the two second sliding grooves are communicated with the inner wall of the assembly cavity.

Furthermore, the inner wall sliding connection of first spout has the slide bar, the surface sliding connection of slide bar is in the inner wall of platform, the last fixed surface of slide bar is connected with presses the piece, the slide bar is kept away from a side fixedly connected with awl type piece that presses the piece.

Furthermore, the inner walls of the two second sliding grooves are connected with cylindrical cones in a sliding mode, one side faces, close to each other, of the two cylindrical cones are fixedly connected with moving blocks, one side faces, far away from each other, of the two moving blocks are fixedly connected with elastic components, and one ends, far away from the moving blocks, of the elastic components are fixedly connected to the inner walls of the component cavities.

Compared with the prior art, this geological disaster deep displacement monitoring devices possesses following beneficial effect:

1. the utility model discloses a cooperation setting of mechanism, ventilative groove on first glance can fix geological disasters deep displacement monitoring devices, utilizes the effect of mechanism on first glance, can fix monitoring devices and make it unable rock on ground, makes it rock when avoiding touching monitoring devices accidentally and causes the influence to measured data, utilizes the effect in ventilative groove, can make it pass ventilative groove and unable monitoring devices that rocks when monitoring devices blows.

2. The utility model discloses a slide bar, press the piece, the awl piece, the cylindricality awl, movable block and elastic component's cooperation setting, utilize the slide bar, press the mating reaction of piece, when the manual work is pressed and is moved the piece, can drive the awl piece and remove to movable block department, utilize the effect of awl piece, the molding of awl piece is special in this embodiment, can part two movable blocks when the awl piece removes movable block department, utilize the effect of movable block, when the awl piece promotes the part of movable block and promote the cylindricality awl and remove, it fixes monitoring devices in the soil to make its both sides cylindricality awl prick.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is an enlarged schematic view of the structure of the present invention at A in FIG. 2;

fig. 4 is a schematic structural diagram of a first-appearance mechanism according to the present invention;

fig. 5 is a schematic diagram of an internal structure of the first-appearance mechanism of the present invention.

In the figure: 1. a platform; 2. a support; 3. a first-day mechanism; 301. a fixed block; 302. a first chute; 303. an assembly cavity; 304. a second chute; 305. a slide bar; 306. pressing the blocks; 307. a tapered block; 308. a cylindrical cone; 309. a moving block; 310. an elastic component; 4. a ventilation groove; 5. a connecting rod; 6. a cylindrical rod; 7. a hand-held portion; 8. a cover plate; 9. a wire slot; 10. a rotating wheel; 11. an inclinometer tube; 12. a motor; 13. a rotating shaft; 14. a driving wheel; 15. a cable wire; 16. an inclinometer.

Detailed Description

The principles and features of the present invention will be described with reference to the drawings, which are provided for illustration only and are not intended to limit the scope of the invention.

This embodiment provides a geological disasters deep displacement monitoring devices, and this monitoring devices is arranged in the monitoring process monitoring devices of geological disasters fixes, sets up through the cooperation of mechanism 3, ventilative groove 4 at first glance, can fix geological disasters deep displacement monitoring devices, utilizes the effect of mechanism 3 at first glance, can fix monitoring devices and make it unable rock on ground, avoids making it rock when touching monitoring devices accidentally and causes the influence to measured data.

Referring to fig. 1 to 5, the device for monitoring the deep displacement of the geological disaster comprises a platform 1, wherein a bracket 2 is fixedly connected to the upper surface of the platform 1, and four first-stroke mechanisms 3 are arranged on the inner wall of the platform 1.

The first-stroke mechanism 3 includes a fixing block 301, the upper surface of the fixing block 301 is fixedly connected to the bottom surface of the platform 1, the upper surface of the fixing block 301 is provided with a first sliding groove 302, the inner wall of the fixing block 301 is provided with an assembly cavity 303, the inner wall of the assembly cavity 303 is communicated with the inner wall of the first sliding groove 302, the outer surface of the fixing block 301 is provided with two second sliding grooves 304, and the inner walls of the two second sliding grooves 304 are communicated with the inner wall of the assembly cavity 303.

The inner wall of the first sliding chute 302 is slidably connected with a sliding rod 305, the outer surface of the sliding rod 305 is slidably connected with the inner wall of the platform 1, the upper surface of the sliding rod 305 is fixedly connected with a pressing block 306, through the cooperation effect of the sliding rod 305 and the pressing block 306, when the pressing block 306 is manually pressed, the pressing block 307 can be driven to move towards the moving block 309, one side surface of the sliding rod 305 far away from the pressing block 306 is fixedly connected with a conical block 307, through the effect of the conical block 307, the conical block 307 in the embodiment is special in shape, and when the conical block 307 moves the moving block 309, the two moving blocks 309 can be separated.

The inner walls of the two second sliding grooves 304 are all connected with cylindrical cones 308 in a sliding mode, one side face, close to each other, of each of the two cylindrical cones 308 is fixedly connected with a moving block 309, and under the action of the moving block 309, when the conical block 307 pushes the moving block 309 to be separated, the cylindrical cones 308 are pushed to move, so that the cylindrical cones 308 on the two sides of the conical block 307 penetrate into the soil to fix the monitoring device.

One side surfaces, far away from each other, of the two moving blocks 309 are fixedly connected with elastic components 310, the state of the elastic components 310 is always in a popup state in the embodiment, when the fixing needs to be released, the manual upward movement pressing block 306 can drive the conical block 307 to move upward, the moving blocks 309 can be pushed to move toward the middle under the action of the elastic components 310, the cylindrical cones 308 are driven to slide into the second sliding grooves 304, and one ends, far away from the moving blocks 309, of the elastic components 310 are fixedly connected to the inner wall of the component cavity 303.

Two sets of symmetrical ventilative grooves 4 have been seted up to the surface of support 2, through ventilative groove 4's effect, can make it pass ventilative groove 4 and can't rock monitoring devices when blowing monitoring devices, and starter motor 12 can drive pivot 13 and rotate.

The top of platform 1 is provided with two symmetrical connecting rods 5, and the equal sliding connection in the inner wall of ventilative groove 4 of surface of two connecting rods 5, the outer fixed surface of connecting rod 5 is connected with cylindricality pole 6, and a side fixedly connected with handheld portion 7 of connecting rod 5 is kept away from to cylindricality pole 6.

The top of platform 1 is provided with apron 8, and the fixed surface of apron 8 is connected in the surface of connecting rod 5, and wire casing 9 has been seted up to the upper surface of apron 8, and the inner wall of wire casing 9 rotates and is connected with two runners 10, through runner 10's effect, can carry out spacing messenger's unable the rocking when dropping into the ground end to cable conductor 15.

The inner wall sliding connection of platform 1 has inclinometer pipe 11, and the fixed surface of support 2 is connected with motor 12, and the inner wall of support 2 rotates and is connected with pivot 13, and the output of motor 12 runs through the one end that extends to pivot 13 in the surface of support 2, and fixed connection is in the surface of pivot 13.

Outer fixed surface of pivot 13 is connected with action wheel 14, the surface of action wheel 14 is provided with cable conductor 15, the one end fixed connection of cable conductor 15 is in the surface of action wheel 14, the surface winding of cable conductor 15 is in the surface of action wheel 14, the surface sliding connection of cable conductor 15 is in the surface of two runners 10, the other end fixedly connected with inclinometer 16 of cable conductor 15, through action wheel 14, the mating reaction of cable conductor 15, the rotation of pivot 13 can drive action wheel 14 and rotate, make its cable conductor 15 slide into 11 inside messenger's of inclinometer that it drives inclinometer 16 and fall into geological depth.

The working principle is as follows: in this embodiment, when the geological disaster deep displacement monitoring device needs to be fixed, first, by the cooperation of the sliding rod 305, the snap block 306, the conical block 307, the cylindrical cone 308, the moving block 309 and the elastic component 310, by using the cooperation of the sliding rod 305 and the snap block 306, when the snap block 306 is manually pressed, the conical block 307 can be driven to move to the moving block 309, and by using the action of the conical block 307, in this embodiment, the conical block 307 has a special shape, when the conical block 307 moves to the moving block 309, the two moving blocks 309 can be separated, by using the action of the moving block 309, when the conical block 307 pushes the separating of the moving block 309, the cylindrical cone 308 is pushed to move, so that the cylindrical cones 308 at two sides of the cylindrical cone 308 penetrate into the soil to fix the monitoring device, in this embodiment, the state of the elastic component 310 is always in a pop-out state, when the fixing needs to be released, the manual upward movement of the moving block 306 can drive the conical block 307 to move upward, by using the action of the elastic component 310, the moving block 309 can push the moving block to slide to the moving block 309 to slide to the middle of the geological disaster deep displacement monitoring device, and drive the cable 13 to move, and then the cable 13 can be driven by using the driving cable 13 to rotate, and the cable 13 can be driven by using the inclined cable 13, and the cable 13 to rotate, and the cable 13 can be driven by using the inclined measuring device to rotate, and the inclined cable 13.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. The utility model provides a geological disasters deep displacement monitoring devices, includes platform (1), its characterized in that: the upper surface fixedly connected with support (2) of platform (1), the inner wall of platform (1) is provided with four first sight ground mechanisms (3), two sets of symmetrical ventilative grooves (4) have been seted up to the surface of support (2), the top of platform (1) is provided with two symmetrical connecting rods (5), two the equal sliding connection in the inner wall of ventilative groove (4) of surface of connecting rod (5), the outer fixed surface of connecting rod (5) is connected with cylindricality pole (6), a side fixedly connected with handheld portion (7) of connecting rod (5) are kept away from to cylindricality pole (6).

2. The geological disaster deep displacement monitoring device according to claim 1, characterized in that: the top of platform (1) is provided with apron (8), the surface fixed connection of apron (8) is in the surface of connecting rod (5), wire casing (9) have been seted up to the upper surface of apron (8), the inner wall of wire casing (9) rotates and is connected with two runners (10).

3. The geological disaster deep displacement monitoring device according to claim 1, characterized in that: the inner wall sliding connection of platform (1) has inclinometer pipe (11), the fixed surface of support (2) is connected with motor (12), the inner wall of support (2) rotates and is connected with pivot (13), the output of motor (12) runs through the surface of support (2) and extends to the one end of pivot (13), and fixed connection is in the surface of pivot (13).

4. The geological disaster deep displacement monitoring device according to claim 3, wherein: the surface fixedly connected with action wheel (14) of pivot (13), the surface of action wheel (14) is provided with cable conductor (15), the one end fixed connection of cable conductor (15) is in the surface of action wheel (14), the surface winding in the surface of action wheel (14) of cable conductor (15), the surface sliding connection of cable conductor (15) is in the surface of two runners (10), the other end fixedly connected with inclinometer (16) of cable conductor (15).

5. The geological disaster deep displacement monitoring device according to claim 1, characterized in that: the first-stroke mechanism (3) comprises a fixing block (301), the upper surface of the fixing block (301) is fixedly connected to the bottom surface of the platform (1), a first sliding groove (302) is formed in the upper surface of the fixing block (301), an assembly cavity (303) is formed in the inner wall of the fixing block (301), the inner wall of the assembly cavity (303) is communicated with the inner wall of the first sliding groove (302), two second sliding grooves (304) are formed in the outer surface of the fixing block (301), and the inner walls of the two second sliding grooves (304) are communicated with the inner wall of the assembly cavity (303).

6. The geological disaster deep displacement monitoring device according to claim 5, wherein: the inner wall of the first sliding groove (302) is connected with a sliding rod (305) in a sliding mode, the outer surface of the sliding rod (305) is connected with the inner wall of the platform (1) in a sliding mode, a pressing block (306) is fixedly connected to the upper surface of the sliding rod (305), and a tapered block (307) is fixedly connected to one side face, far away from the pressing block (306), of the sliding rod (305).

7. The geological disaster deep displacement monitoring device according to claim 5, characterized in that: the inner walls of the two second sliding grooves (304) are both connected with cylindrical cones (308) in a sliding mode, one side faces, close to each other, of the two cylindrical cones (308) are both fixedly connected with moving blocks (309), one side faces, far away from each other, of the two moving blocks (309) are both fixedly connected with elastic components (310), and one ends, far away from the moving blocks (309), of the elastic components (310) are fixedly connected to the inner wall of the component cavity (303).

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