CN218679661U - High and steep dangerous rock crack monitoring and mounting assembly - Google Patents

Abstract

The utility model discloses a high steep dangerous rock crack control installation component, relate to rock mass crack control field, its technical scheme includes the monitoring box, a plurality of Z shape lower margins are installed to the bottom of monitoring box, the back strip mounting is installed at the back of monitoring box, the outside of back strip mounting is provided with back strip mounting hole, the internally mounted of monitoring box has the triangle mounting panel, the outside of triangle mounting panel still is provided with collection system, a plurality of locating holes that are used for installing collection system are seted up to the outside of triangle mounting panel, the outside of triangle mounting panel still is provided with the sensor, can carry out the installation of horizontal direction to the monitoring box through installing at the outside back strip mounting of monitoring box, can install monitoring box numerical value direction through the Z shape lower margin, thereby can select the cracked control of best danger rock wall and danger rock crown and install, and be connected for dismantling between Z shape lower margin and the monitoring box bottom, thereby can select different mounting forms at cliff crack or cliff top crack.

Description

High and steep dangerous rock crack monitoring and mounting assembly

Technical Field

The utility model relates to a rock mass crack control technical field especially relates to a high steep dangerous rock crack control installation component.

Background

The collapse of the mountain is mostly generated in dangerous rock zones along with the change of geological landforms of rock masses and the influence of weather environments and crustal motion. Dangerous rock cracks are the most major hazards of dangerous rocks. The crack growth causes the change of the structural stability of the mountain, thereby causing disasters such as the falling and the collapse of the mountain, causing damage to facilities such as surrounding houses and roads, and simultaneously causing the personal and property safety of surrounding residents to be threatened. In order to ensure the safety of lives and properties of people and the safety of related accessories and public facilities, it is necessary to strengthen the prevention and treatment of dangerous rock disasters.

Due to the badness of the monitoring environment, it is difficult to mount the monitoring assembly effectively, and it is difficult to select different mounting forms according to the cracks of the cliff wall or the cracks of the top of the cliff, so that a high-gradient dangerous rock crack monitoring mounting assembly is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the prior art and be difficult to carry out effective installation to the control subassembly to the high steep dangerous rock crack control installation component that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a high and steep dangerous rock crack monitoring and mounting assembly comprises a monitoring box, wherein a plurality of Z-shaped ground feet are mounted at the bottom of the monitoring box, a back strip fixing piece is mounted at the back of the monitoring box, a back strip mounting hole is formed in the outer part of the back strip fixing piece, a triangular mounting plate is mounted in the monitoring box, a collecting device is further arranged outside the triangular mounting plate, a plurality of positioning holes for mounting the collecting device are formed in the outer part of the triangular mounting plate, and a sensor is further arranged outside the triangular mounting plate;

the inside of monitoring case still is installed and is used for carrying out the pipe restraint piece of installing to the pipe, a plurality of restraint holes have been seted up to the outside of pipe restraint piece.

The above technical solution further comprises:

the number of the Z-shaped feet is four, foot mounting holes are formed in the lower bottom of each Z-shaped foot, and limiting holes are formed in the upper ends of the Z-shaped feet.

The bottom of the monitoring box is provided with a threaded hole communicated with the limiting hole, and a bolt is connected with the inner thread of the threaded hole and penetrates through the limiting hole.

And an anti-slip gasket is arranged outside the bolt and tightly propped against the outside of the Z-shaped ground foot.

The lateral wall of monitoring box has seted up the outlet, the bottom of monitoring box still has seted up the bottom line hole.

The outer diameter of the bolt is smaller than the inner diameter of the threaded hole, and the outer thread of the bolt is matched with the inner thread of the threaded hole.

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

1. when the monitoring box is used, the monitoring box can be horizontally installed on the cliff wall through the back strip fixing piece arranged outside the monitoring box; the ground-type crack can be installed on the monitoring box through the plurality of Z-shaped ground feet, the optimal installation mode for fixing the monitoring component can be achieved, and therefore different installation modes can be selected in the cracks of the cliff wall or the cracks of the top of the cliff.

2. The utility model discloses in, during the use, be convenient for install collection system through the locating hole of seting up on the triangle mounting panel, the guard box top surface designs into outer inclined plane, can effectually get rid of the rainwater gathering.

3. The utility model discloses in, during the control, sensing equipment and collection-transmission-power supply unit are disconnect-type subassembly, can effectively solve equipment fortune dimension inspection.

Drawings

Fig. 1 is a schematic view of a first three-dimensional structure of a high and steep dangerous rock crack monitoring and mounting assembly provided by the present invention;

fig. 2 is a schematic view of a second three-dimensional structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic view of a part of the structure of the present invention;

fig. 5 is an enlarged view of a structure shown in fig. 4.

In the figure: 1. a monitoring box; 2. opening and closing the door; 3. a back strap securing member; 4. a Z-shaped ground margin; 5. a drain hole; 6. a back strap mounting hole; 7. a ground foot mounting hole; 8. a triangular mounting plate; 9. a collection device; 10. positioning holes; 11. a catheter restraint; 12. a constraint hole; 13. a limiting hole; 14. a threaded hole; 15. a bolt; 16. an anti-slip gasket; 17. a sensor.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and specific embodiments.

Example one

As shown in fig. 1-5, the utility model provides a high and steep dangerous rock crack monitoring installation component, including monitoring box 1, a plurality of Z shape lower margin 4 are installed to the bottom of monitoring box 1, back strip mounting 3 is installed at the back of monitoring box 1, back strip mounting hole 6 is provided outside back strip mounting 3, triangle mounting panel 8 is installed inside monitoring box 1, collection device 9 is also provided outside triangle mounting panel 8, a plurality of locating holes 10 for installing collection device 9 are provided outside triangle mounting panel 8;

the monitoring box 1 is also internally provided with a catheter restraint piece 11 for installing a catheter, a plurality of restraint holes 12 are formed in the outer portion of the catheter restraint piece 11, in order to ensure that steel strands penetrate out of the restraint piece holes, the number of Z-shaped feet 4 is four, the lower bottom of each Z-shaped foot 4 is provided with a foot mounting hole 7,Z, the upper end of each Z-shaped foot 4 is provided with a limiting hole 13, the bottom of the monitoring box 1 is provided with a threaded hole 14 communicated with the limiting hole 13, and a bolt 15 is connected to the inner thread of the threaded hole 14;

the bolt 15 runs through the limiting hole 13, an anti-slip gasket 16 is arranged outside the bolt 15, the anti-slip gasket 16 abuts against the outside of the Z-shaped anchor 4, the outer diameter of the bolt 15 is smaller than the inner diameter of the threaded hole 14, and the outer thread of the bolt 15 is matched with the inner thread of the threaded hole 14.

The working principle of the high and steep dangerous rock crack monitoring and mounting assembly based on the first embodiment is that when a cliff wall crack is monitored, a bolt is used for fixing a back strip fixing piece 3 through a back strip mounting hole 6, so that the monitoring box 1 is mounted, the Z-shaped anchor 4 is detachably designed, and the Z-shaped anchor 4 is detached, so that the cliff wall crack is monitored conveniently, meanwhile, when the cliff wall crack is monitored, the triangular mounting plate 8 is mounted inside the 1, and a plurality of threaded holes matched with the triangular mounting plate 8 are formed in the 1, so that the triangular mounting plate 8 is mounted and dismounted conveniently;

when the top crack of the cliff is monitored, the bolts penetrate through the foundation mounting holes 7 to fix the Z-shaped foundation 4, so that the monitoring box 1 is fixed, the top crack of the cliff is conveniently monitored, the back strip fixing piece 3 and the monitoring box 1 are detachably designed, the back strip fixing piece 3 is detached when the top crack of the cliff is monitored, the Z-shaped foundation 4 is used for fixing, the triangular mounting plate 8 is not needed to mount components, the triangular mounting plate is replaced by a flat mounting plate, the flat mounting plate is fixed on the inner wall of the monitoring box 1 through screws for positioning, and the winding columns are arranged to wind connecting wires;

in the monitoring process, the data in the sensor 17 are acquired in real time through the acquisition device 9, meanwhile, a photoelectric device is arranged outside the monitoring box 1 for energy storage and use (the photoelectric device is the prior art and is not shown in the figure), and the acquisition device 9 is connected with an external device through a power supply line and a signal line;

the sensor 17 pulls the steel strand wires, can guarantee through the about piece 11 of pipe that the steel strand wires do not receive self gravity, external environment factor to influence and lead to the tensile change of displacement to the design of back of the body strip mounting 3 and Z shape lower margin 4 guarantees that the protective housing bottom does not receive ground erosion harm and guarantees that the electric wire has enough space of wearing to pass from the bottom.

Example two

As shown in fig. 1-5, based on the first embodiment, a drain hole 5 is formed in an outer side wall of the monitoring box 1, a bottom line hole is further formed in a bottom of the monitoring box 1, and an opening and closing door 2 is installed outside the monitoring box 1.

In this embodiment, can discharge the rivers of monitoring box 1 inside through outlet 5, can realize opening and closing door 2 through opening and shutting, be convenient for install and debug the part of monitoring box 1 inside, the power supply line penetrates the inside of monitoring box 1 through the bottom line hole with the signal line.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (6)

1. The high and steep dangerous rock crack monitoring and mounting assembly comprises a monitoring box (1) and is characterized in that a plurality of Z-shaped ground feet (4) are mounted at the bottom of the monitoring box (1), a back strip fixing part (3) is mounted at the back of the monitoring box (1), a back strip mounting hole (6) is formed in the outer part of the back strip fixing part (3), a triangular mounting plate (8) is mounted in the monitoring box (1), a collecting device (9) is further arranged in the outer part of the triangular mounting plate (8), a plurality of positioning holes (10) for mounting the collecting device (9) are formed in the outer part of the triangular mounting plate (8), and a sensor (17) is further arranged in the outer part of the triangular mounting plate (8);

the monitoring box (1) is also internally provided with a catheter restraint piece (11) for installing a catheter, and the exterior of the catheter restraint piece (11) is provided with a plurality of restraint holes (12).

2. The high and steep dangerous rock crack monitoring and installing assembly according to claim 1, characterized in that the number of the Z-shaped feet (4) is four, a foot mounting hole (7) is formed in the lower bottom of each Z-shaped foot (4), and a limiting hole (13) is formed in the upper end of each Z-shaped foot (4).

3. The high and steep dangerous rock crack monitoring and installing assembly of claim 2, characterized in that the bottom of the monitoring box (1) is provided with a threaded hole (14) communicated with the limiting hole (13), the threaded hole (14) is internally and threadedly connected with a bolt (15), and the bolt (15) penetrates through the limiting hole (13).

4. A high and steep rock crack monitoring mounting assembly as claimed in claim 3, characterized in that the bolt (15) is externally provided with a non-slip gasket (16), the non-slip gasket (16) abutting against the outer part of the Z-shaped anchor (4).

5. The high and steep dangerous rock crack monitoring and installing assembly of claim 4, characterized in that a water drainage hole (5) is formed in the outer side wall of the monitoring box (1), and a bottom line hole is further formed in the bottom of the monitoring box (1).

6. A high and steep dangerous rock crack monitoring mounting assembly as claimed in claim 5, characterized in that, the external diameter of said bolt (15) is smaller than the internal diameter of said threaded hole (14), the external thread of said bolt (15) is adapted to the internal thread of said threaded hole (14).

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