CN213482234U - Geological landslide monitoring device - Google Patents

Abstract

The utility model belongs to the technical field of the geological monitoring technique and specifically relates to a geological landslide monitoring devices, the below of mounting panel is installed and is buried the structure deeply, the center department fixed mounting of mounting panel top has the bracing piece, the top fixed mounting of bracing piece has first backup pad, fixedly connected with T shape connecting plate between the stopper, the top surface fixed mounting of second backup pad has the equipment fixing box, the internally mounted massif geological landslide monitoring facilities of equipment fixing box, one side fixed mounting of equipment fixing box has the chamber door. This device reasonable in design, easy operation through the setting of first backup pad and second backup pad to make the device can overturn when the mud-rock flow passes through, overturn the rear of bracing piece with the fixed case of equipment of top, thereby alleviate the impact of mud-rock flow to equipment, improved the security of equipment operation.

Description

Geological landslide monitoring device

Technical Field

The utility model relates to a geology monitoring field especially relates to a geology landslide monitoring devices.

Background

Landslide is a soil body or a rock body on a slope, and is influenced by factors such as river scouring, underground water movement, rainwater soaking, earthquake, artificial slope cutting and the like, under the action of gravity, the natural phenomenon that the water slides downwards along a certain weak surface or a weak area integrally or dispersedly along a slope is taken as a common natural disaster, the evolution process of a landslide body can be mastered and known through landslide monitoring, the characteristic information of the landslide hazard can be captured in time, reliable data and scientific basis are provided for accurate analysis and evaluation of landslide, landslide prediction and forecast and the like, a plurality of monitoring stations are usually arranged in a monitoring system for collecting and storing data, which often happens when mountain geological landslides occur in case of geological disasters, this has a great influence on economic development and environmental protection, and therefore, the environment needs to be monitored by using a mountain geological landslide monitoring device.

Mountain geological landslide monitoring devices all installs on the massif of slope usually, can be strikeed even and take away when meetting falling objects such as downward landing's stone and branch on the massif to make equipment can't continue to gather and receive data, and cause the damage of equipment easily, the cost of the data monitoring of improvement, for this reason, the utility model provides a geological landslide monitoring devices is used for solving above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcomings existing in the prior art and providing a geological landslide monitoring device.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a geological landslide monitoring device comprises a mounting plate, wherein a deep-buried structure is mounted below the mounting plate, a support rod is fixedly mounted in the center above the mounting plate, a first support plate is fixedly mounted above the support rod, and a buffer structure is mounted between the mounting plate and the first support plate;

one side of the first supporting plate is hinged with one side of a second supporting plate, hook-shaped fixing parts are symmetrically and fixedly installed on the other side of the bottom surface of the second supporting plate, the lower portions of the hook-shaped fixing parts are movably inserted into the other side of the top end of the first supporting plate, limiting blocks are symmetrically and movably inserted into the first supporting plate and are respectively located at the hook positions of the two hook-shaped fixing parts, elastic parts are fixedly installed on one sides of the limiting blocks, a T-shaped connecting plate is fixedly connected between the limiting blocks, and one end of the T-shaped connecting plate penetrates through the first supporting plate and extends out to be fixedly provided with a pushing plate through a screw;

the top surface fixed mounting of second backup pad has the fixed case of equipment, the internally mounted massif geological landslide monitoring facilities of the fixed case of equipment, one side fixed mounting of the fixed case of equipment has the chamber door.

Preferably, the deep-buried structure includes a plurality of screw rods, the equal fixed welding in top of screw rod has the fixed block, the common fixed mounting of screw has the fixed plate in top of fixed block, the top fixed mounting of fixed plate has a plurality of straight-bars, the bottom surface fixed connection of screw and mounting panel is passed through to the top of straight-bar.

Preferably, buffer structure includes two arcs, the mutual fixed connection of one end between the arcs, other end alternate segregation between the arcs is located the both sides of bracing piece, the equal fixed mounting in opposite side of the other end has the one end of a plurality of first springs between the arcs, the other end fixed mounting of first spring is in the both sides of bracing piece.

Preferably, the arc is the metal arc of high elasticity, the equal fixed mounting of the last downside of arc has the slider, a plurality of spouts corresponding with the slider have all been seted up with the bottom surface of first backup pad to the top surface of mounting panel, the slider is located the inside of spout.

Preferably, the elastic part comprises a second spring, one end of the second spring is fixedly connected with one side of the limiting block, and the other end of the second spring is fixedly connected with the inside of the first supporting plate.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the utility model discloses one side of two arc reciprocal anchorages is when the installation orientation upslope, when meetting materials such as falling rocks and rolling downwards, two arcs can separate materials such as falling rocks that the head-on was washed to both sides for the material that rolls downwards can not directly strike the device when meetting the device, has improved the stability of device.

2. The utility model discloses can drive the slurcam under the extrusion of material when meetting down materials such as falling rocks and rolling down for the upset of second backup pad, with the fixed case upset of equipment to the arc by one side of bracing piece separation, there is safe region in this side of material separation back such as falling rocks of arc, makes the equipment that the fixed incasement portion of equipment receives strike and reduces, has guaranteed the security of equipment.

Drawings

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

fig. 2 is another overall angle structure diagram of the present invention;

FIG. 3 is a schematic structural view of the present invention after being partially sectioned;

fig. 4 is a schematic structural view of the present invention, partially enlarged at a point a in fig. 3;

FIG. 5 is a schematic structural view of another part of the present invention after being sectioned;

fig. 6 is a schematic structural view of the present invention at a position B in fig. 5 after being partially enlarged.

In the figure: the device comprises a screw 1, a fixed block 2, a fixed plate 3, a straight rod 4, a mounting plate 5, a sliding chute 6, a sliding block 7, an arc-shaped plate 8, a supporting rod 9, a first spring 10, a first supporting plate 11, a second supporting plate 12, an equipment fixing box 13, a box door 14, a hook-shaped fixed part 15, a limiting block 16, a second spring 17, a T-shaped connecting plate 18 and a pushing plate 19.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

As shown in fig. 1-6, a landslide monitoring device comprises a mounting plate 5, a deeply buried structure is installed below the mounting plate 5, the deeply buried structure comprises a plurality of screw rods 1, fixed blocks 2 are fixedly welded above the screw rods 1, a fixed plate 3 is fixedly installed above the fixed blocks 2 through screws, a plurality of straight rods 4 are fixedly installed above the fixed plate 3, the upper portions of the straight rods 4 are fixedly connected with the bottom surface of the mounting plate 5 through screws, a support rod 9 is fixedly installed at the center above the mounting plate 5, a first support plate 11 is fixedly installed above the support rod 9, a buffer structure is installed between the mounting plate 5 and the first support plate 11, the buffer structure comprises two arc-shaped plates 8, one ends of the arc-shaped plates 8 are fixedly connected with each other, the other ends of the arc-shaped plates 8 are separated from each other and located at two sides of the support rod 9, one ends of the arc-shaped plates 8 are fixedly installed at, the other end fixed mounting of first spring 10 is in the both sides of bracing piece 9, and arc 8 is the metal arc of high elasticity, and the equal fixed mounting of the last downside of arc 8 has slider 7, and a plurality of spouts 6 corresponding with slider 7 have all been seted up to the top surface of mounting panel 5 and the bottom surface of first backup pad 11, and slider 7 is located the inside of spout 6.

The implementation mode is specifically as follows: the screw rod 1 can enter the ground through rotary insertion, the fixed block 2 can fix the screw rod 1 below the fixed plate 3, the fixed plate 3 is buried in the soil, the situation that only the straight rod 4 is easy to turn over when buried can be avoided, the straight rod 4 can be connected with the mounting plate 5, the mounting plate 5 can be tightly attached to the ground, the structure above the mounting is convenient to mount, the arc plate 8 can relieve the impact force through sliding when impacted due to the mutual matching of the sliding groove 6 and the sliding block 7, one side connected with the arc plate 8 faces to the upward slope, various fragments falling from the upward slope can be separated to two sides, a direct impact device is avoided, the first supporting plate 11 can be supported to a certain height by the supporting rod 9, the distance detected by the equipment is farther, the equipment can be prevented from being buried when encountering the slope, the first spring 10 can extrude the two arc plates 8, the impact force received by, above the first support plate 11 a second support plate 12 and equipment can be mounted.

One side of a first supporting plate 11 is hinged with one side of a second supporting plate 12, hook-shaped fixing parts 15 are symmetrically and fixedly installed on the other side of the bottom surface of the second supporting plate 12, the lower parts of the hook-shaped fixing parts 15 are movably inserted into the other side of the top end of the first supporting plate 11, limiting blocks 16 are symmetrically and movably inserted into the first supporting plate 11, the limiting blocks 16 are respectively positioned at the hooks of the two hook-shaped fixing parts 15, elastic parts are fixedly installed on one sides of the limiting blocks 16 and comprise second springs 17, one ends of the second springs 17 are fixedly connected with one sides of the limiting blocks 16, the other ends of the second springs 17 are fixedly connected with the inside of the first supporting plate 11, T-shaped connecting plates 18 are fixedly connected between the limiting blocks 16, one ends of the T-shaped connecting plates 18 penetrate through the first supporting plate 11 and extend out to be fixedly provided with pushing plates 19 through screws, and, mountain geological landslide monitoring equipment is installed inside the equipment fixing box 13, and a box door 14 is fixedly installed on one side of the equipment fixing box 13.

The implementation mode is specifically as follows: the second supporting plate 12 is hinged to the first supporting plate 11, the equipment fixing box 13 can be driven to turn over when impact is met, the equipment fixing box 13 can fix the equipment inside, protection is provided for the equipment, the box door 14 can facilitate replacement, inspection and installation of the equipment, the hook-shaped fixing piece 15 can be inserted into the first supporting plate 11, the first supporting plate 11 and the second supporting plate 12 are fixed when the limiting block 16 is located at the hook-shaped fixing piece 15 hook, the second spring 17 can extrude the limiting block 16 towards the hook-shaped fixing piece 15 hook, the T-shaped connecting plate 18 can be moved to connect the two limiting blocks 16 and drive the limiting blocks to leave from the hook-shaped fixing piece 15 hook, and the pushing plate 19 can push the T-shaped connecting plate 18 to move under impact of the falling rocks and other substances encountered by the device.

The utility model discloses the theory of operation:

referring to the attached drawings 1-6 in the specification, a pit is dug on the ground where a device needs to be installed, all screw rods 1 are inserted into the ground at the bottom of the pit by rotating the screw rods 1, fixing blocks 2 above all the screw rods 1 and a fixing plate 3 by screws, filling soil into the pit after the fixing is finished, installing a mounting plate 5 by screws after the soil is filled to be flush with a straight rod 4, enabling two arc plates 8 above the mounting plate 5 to be connected and aligned to an ascending slope, then fixing the equipment in an equipment fixing direction 13, when stones roll down on a mountain, a landslide substance impacts the two arc plates 8 and then is extruded by a first spring 10 behind the two arc plates 8 to buffer partial impact force, the device is not easy to topple by the fixing plate 3 at the bottom, and the other sides of the two arc plates 8 are separated from each other to separate the stones and the like to two sides, reduce the direct impact of material such as falling rocks to the device, when material such as falling rocks strikes highly reachs first backup pad 11, catch plate 19 receives to strike and moves to first backup pad 11 is inside, drive the removal of T shape connecting plate 18, T shape connecting plate 18 drives stopper 16 after removing and leaves from hook-shaped mounting 15 crotch, when material such as falling rocks strikes equipment fixing box 13, the impact force drives equipment fixing box 13 and the upset of second backup pad 12, equipment fixing box 13 lies in the one side that two arcs 8 kept away from each other to second backup pad 12 and the articulated direction upset of first backup pad 11 after, make by the material such as separated falling rocks can not strike equipment fixing box 13, the safety of internal plant has been guaranteed.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The geological landslide monitoring device comprises a mounting plate (5), and is characterized in that a deep-buried structure is mounted below the mounting plate (5), a supporting rod (9) is fixedly mounted at the center above the mounting plate (5), a first supporting plate (11) is fixedly mounted above the supporting rod (9), and a buffer structure is mounted between the mounting plate (5) and the first supporting plate (11);

one side of the first supporting plate (11) is hinged with one side of the second supporting plate (12), hook-shaped fixing parts (15) are symmetrically and fixedly installed on the other side of the bottom surface of the second supporting plate (12), the lower parts of the hook-shaped fixing parts (15) are movably inserted into the other side of the top end of the first supporting plate (11), limiting blocks (16) are symmetrically and movably inserted into the first supporting plate (11), the limiting blocks (16) are respectively located at the hooks of the two hook-shaped fixing parts (15), elastic parts are fixedly installed on one sides of the limiting blocks (16), T-shaped connecting plates (18) are fixedly connected between the limiting blocks (16), and one ends of the T-shaped connecting plates (18) penetrate through the first supporting plate (11) and extend out to be fixedly provided with pushing plates (19) through screws;

the top surface fixed mounting of second backup pad (12) has fixed case of equipment (13), the internally mounted massif geological landslide monitoring facilities of the fixed case of equipment (13), one side fixed mounting of the fixed case of equipment (13) has chamber door (14).

2. The landslide monitoring device according to claim 1, wherein the deep buried structure comprises a plurality of screws (1), fixed blocks (2) are fixedly welded above the screws (1), a fixed plate (3) is fixedly mounted above the fixed blocks (2) through screws, a plurality of straight rods (4) are fixedly mounted above the fixed plate (3), and the straight rods (4) are fixedly connected with the bottom surface of the mounting plate (5) through screws.

3. A landslide monitoring device as claimed in claim 1 wherein the buffer structure comprises two arcs (8), one end between the arcs (8) being fixedly connected to each other, the other end between the arcs (8) being separated from each other and located at both sides of the support bar (9), opposite sides of the other end between the arcs (8) each being fixedly mounted with one end of a plurality of first springs (10), the other end of the first springs (10) being fixedly mounted at both sides of the support bar (9).

4. The landslide monitoring device of claim 3, wherein the arc (8) is a high-elasticity metal arc, the upper side and the lower side of the arc (8) are fixedly provided with sliding blocks (7), the top surface of the mounting plate (5) and the bottom surface of the first supporting plate (11) are provided with a plurality of sliding grooves (6) corresponding to the sliding blocks (7), and the sliding blocks (7) are located inside the sliding grooves (6).

5. A landslide monitoring device as claimed in claim 1 wherein the resilient member comprises a second spring (17), one end of the second spring (17) is fixedly connected to one side of the stop block (16), and the other end of the second spring (17) is fixedly connected to the inside of the first support plate (11).

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