CN214098641U - Landslide collapse earthquake monitoring and early warning device - Google Patents

Abstract

The utility model discloses a landslide earthquake monitoring and early warning device, including monitoring early warning box body, monitoring early warning box body upper surface be equipped with power and signal antenna, power one side be connected with the solar photovoltaic board through photovoltaic inverter, monitoring early warning box body both sides face all be equipped with fore-and-aft installation axle, installation axle front and back all rotate the cover and be equipped with a telescopic bracket pole, wherein every telescopic bracket pole non-flexible section lateral surface all is fixed with the inclination sensor seal box and every telescopic bracket pole flexible section lateral surface all is fixed with level sensor protection box, all is equipped with the supporting spring pole between the non-flexible section of the front and back telescopic bracket pole of same side and the flexible section in addition. The device has better leakproofness, and installation stability is better simultaneously, can guarantee monitoring sensor's monitoring quality and reliability, improves monitoring sensor's life simultaneously.

Description

Landslide collapse earthquake monitoring and early warning device

Technical Field

The utility model relates to a landslide early warning equipment technical field, more specifically the theory that says so relates to a landslide earthquake monitoring and early warning device.

Background

Landslide refers to a natural phenomenon that soil or rock mass on a slope is influenced by factors such as river scouring, underground water movement, rainwater immersion, earthquake and artificial slope cutting, slides downwards along the slope integrally or dispersedly along a certain weak surface or a soft zone under the action of gravity, and landslide refers to a natural phenomenon that buildings, mountains, pavements and mines collapse and fall down under the condition of non-artificial natural force, and earthquake is a natural phenomenon that earthquake waves are generated during vibration caused in the process of quickly releasing energy by a crust. The mutual extrusion and collision between the plates on the earth cause the dislocation and the fracture of the plate edges and the plate interiors, which is the main reason of the earthquake. The natural phenomena can destroy farmlands, houses, people and livestock, destroy forests, roads, agricultural mechanical facilities, water conservancy and hydropower facilities and the like, and sometimes even cause destructive disasters for villages, so that the monitoring and early warning device is arranged in the prior art to monitor and early warn the disasters, but the prior monitoring and early warning device has the following problems that firstly, the installation stability is not good enough, and the monitoring effect of the sensor is influenced; secondly, the waterproof and dustproof effect inside the device is poor, so that the service life of the sensor is short, and the monitoring effect of the sensor can be further influenced by the entering substances.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a landslide earthquake monitoring early warning device, the device have better leakproofness, and installation stability is better simultaneously, can guarantee monitoring sensor's monitoring quality and reliability, improves monitoring sensor's life simultaneously.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

a landslide earthquake monitoring and early warning device comprises a monitoring and early warning box body, wherein a power supply and a signal antenna are arranged on the upper surface of the monitoring and early warning box body, one side of the power supply is connected with a solar photovoltaic panel through a photovoltaic inverter, longitudinal installation shafts are arranged on two side surfaces of the monitoring and early warning box body, a telescopic support rod is rotatably sleeved at the front and rear parts of each installation shaft, a tilt angle sensor sealing box is fixed on the outer side surface of a non-telescopic section of each telescopic support rod, a liquid level sensor protecting box is fixed on the outer side surface of a telescopic section of each telescopic support rod, a supporting spring rod is arranged between the non-telescopic section and the telescopic section of the front and rear telescopic support rods on the same side surface, an underground inserted rod is arranged at the central position of the lower surface of the monitoring and early warning box body, an earthquake sensor sealing box is fixed on the front and rear surfaces of the underground inserted rod, a liquid level sensor is arranged in the opening of the lower surface of the liquid level sensor protecting box, wherein lower surface open position department is embedded to have netted grid, inclination sensor seal box side be detachable lid and internally mounted inclination sensor, the lid medial surface be equipped with along the peripheral annular arch that encircles of medial surface and the protruding embedding of annular clamp the sunken inside of annular that inclination sensor seal box corresponds position department and seal, seismic sensor seal box lateral surface be the circular sealed lid of detachable and internally mounted seismic sensor, circular sealed lid medial surface be equipped with along the peripheral annular external screw thread arch that encircles of medial surface, the protruding screw in internal thread inside fixed circular sealed lid of seismic sensor seal box medial surface of external screw thread.

Further, the monitoring and early warning box body is internally provided with a mainboard, the mainboard is provided with an SOC chip, a storage chip and a wireless transmission module, and the mainboard is provided with corresponding interfaces which are respectively connected with all sensors, a power supply and a signal antenna through circuits.

Further, the earthquake sensor, the inclination angle sensor and the liquid level sensor are connected with the inside of the monitoring and early warning box body through lines.

Furthermore, the ground inserting rod is inserted into the landslide inclined side soil layer, and the tip end of the telescopic support rod is inserted into the two sides of the side soil layer for fixing.

Furthermore, the seismic sensor and the liquid level sensor are both embedded in the soil layer.

Compared with the prior art, the utility model has the advantages that:

the utility model improves the stability of the monitoring sensor by arranging the telescopic bracket rod and the ground inserting rod structure; meanwhile, the liquid level sensor protection box, the inclination angle sensor sealing box and the earthquake sensor sealing box are arranged, so that the liquid level sensor, the inclination angle sensor and the earthquake sensor can be protected respectively, the monitoring quality and the reliability of the monitoring sensor are guaranteed, and the service life of the monitoring sensor is prolonged.

Drawings

Fig. 1 is a schematic view of the overall structure of the monitoring and early warning device of the utility model;

FIG. 2 is a schematic structural view of the protection box of the liquid level sensor of the present invention;

FIG. 3 is a schematic structural view of a tilt sensor seal box of the present invention;

FIG. 4 is a schematic structural view of the seismic sensor sealing box of the present invention;

in the figure: 1. monitoring the early warning box body; 2. a signal antenna; 3. a power source; 4. a solar photovoltaic panel; 5. installing a shaft; 6. a telescoping mast; 7. inserting a rod into the ground; 8. a support spring rod; 9. a seismic sensor capsule; 10. a tilt sensor seal box; 11. a liquid level sensor protection box; 12. a liquid level sensor; 13. a mesh grid; 14. a tilt sensor; 15. a box cover; 16. an annular projection; 17. an annular recess; 18. a seismic sensor; 19. a circular sealing cover; 20. the external thread is convex; 21. and (4) a line.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the utility model easy to understand and understand, the utility model is further explained by combining with the specific figures.

As shown in figures 1 to 4, the landslide earthquake monitoring and early warning device comprises a monitoring and early warning box body 1, wherein a power supply 3 and a signal antenna 2 are arranged on the upper surface of the monitoring and early warning box body 1, one side of the power supply 3 is connected with a solar photovoltaic panel 4 through a photovoltaic inverter, longitudinal mounting shafts 5 are arranged on two side surfaces of the monitoring and early warning box body 1, a telescopic support rod 6 is rotatably sleeved on the front and rear sides of each mounting shaft 5, an inclination angle sensor sealing box 10 is fixed on the outer side surface of a non-telescopic section of each telescopic support rod 6, a liquid level sensor protecting box 11 is fixed on the outer side surface of a telescopic section of each telescopic support rod 6, a supporting spring rod 8 is arranged between the non-telescopic section and the telescopic section of the front and rear telescopic support rods 6 on the same side surface, an underground inserted rod 7 is arranged at the central position of the lower surface of the monitoring and early warning box body 1, and an earthquake sensor sealing box 9 is fixed on the front and rear surfaces of the underground inserted rod 7, the liquid level sensor protection box 11 is provided with a lower surface opening and a liquid level sensor 12 which is internally installed, wherein a mesh grid 13 is embedded in the position of the lower surface opening, the side surface of an inclination angle sensor sealing box 10 is a detachable box cover 15 and an inclination angle sensor 14 which is internally installed, an annular bulge 16 which surrounds along the periphery of the inner side surface is arranged on the inner side surface of the box cover 15, the annular bulge 16 is embedded into an annular recess 17 which is clamped at the corresponding position of the inclination angle sensor sealing box 10 to seal, a detachable circular sealing cover 19 is arranged on the outer side surface of a seismic sensor sealing box 9, an earthquake sensor 18 is internally installed, an annular external thread bulge 20 which surrounds along the periphery of the inner side surface is arranged on the inner side surface of the circular sealing cover 19, the external thread bulge 20 is screwed into an internal thread of the seismic sensor sealing box 9 to fix the circular sealing cover 19, a mainboard is arranged inside the monitoring and early warning box body 1, and is provided with an SOC chip, Storage chip and wireless transmission module, correspond the interface on the mainboard and pass through circuit 21 respectively with all sensors, power 3 and signal antenna 2 are connected, seismic sensor 18, angular transducer 14 and level sensor 12 are all inside through circuit 21 connection monitoring early warning box body 1, go into ground inserted bar 7 and insert inside landslide slope side soil layer and the telescopic bracket pole 6 pointed end is inserted side soil layer both sides and is fixed, seismic sensor 18 and level sensor 12 all bury inside the soil layer.

When the device is in actual use, the monitoring and early warning box body 1 is fixedly installed through the ground inserting rod 7 and the telescopic support rod 6, all sensors are installed at installation positions in a graph and connected with related circuits 21, wherein the mesh grid 13 of the liquid level sensor protection box 11 can prevent large sundries from entering the liquid level sensor protection box 11 to damage the liquid level sensor 12, meanwhile, the liquid level sensor protection box 11 can be ensured to be monitored after the water level of underground water rises, the seismic sensor sealing box 9 and the tilt angle sensor sealing box 10 can prevent dust and moisture from entering the sealing box in large quantities, the dustproof and waterproof effects are achieved, the monitoring quality and the service life of the seismic sensor 18 and the tilt angle sensor 14 are improved, the earthquake sensor 18 and the tilt angle sensor 14 are used for respectively monitoring the shake and the inclination of landslide earthquake and are matched with the liquid level sensor 12 for monitoring the underground water level, the monitoring data are collected inside the monitoring and early warning box body 1, and early warning signals are transmitted to a nearby monitoring station through the wireless transmission module, so that the purpose of monitoring and early warning is achieved.

The basic principles and main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention 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 utility model provides a landslide collapse earthquake monitoring early warning device which characterized in that: the monitoring and early warning device comprises a monitoring and early warning box body, wherein a power supply and a signal antenna are arranged on the upper surface of the monitoring and early warning box body, one side of the power supply is connected with a solar photovoltaic panel through a photovoltaic inverter, longitudinal installation shafts are arranged on two side surfaces of the monitoring and early warning box body, a telescopic support rod is rotatably sleeved at the front and rear parts of the installation shafts, an inclination angle sensor sealing box is fixed on the outer side surface of a non-telescopic section of each telescopic support rod, a liquid level sensor protecting box is fixed on the outer side surface of a telescopic section of each telescopic support rod, a supporting spring rod is arranged between the non-telescopic section and the telescopic section of the telescopic support rods at the front and rear parts of the same side surface, an underground inserted rod is arranged at the central position of the lower surface of the monitoring and early warning box body, seismic sensor sealing boxes are fixed on the front and rear surfaces of the underground inserted rod, and a liquid level sensor is arranged in the opening of the liquid level sensor protecting box body, wherein lower surface open position department is embedded to have netted grid, inclination sensor seal box side be detachable lid and internally mounted inclination sensor, the lid medial surface be equipped with along the peripheral annular arch that encircles of medial surface and the protruding embedding of annular clamp the sunken inside of annular that inclination sensor seal box corresponds position department and seal, seismic sensor seal box lateral surface be the circular sealed lid of detachable and internally mounted seismic sensor, circular sealed lid medial surface be equipped with along the peripheral annular external screw thread arch that encircles of medial surface, the protruding screw in internal thread inside fixed circular sealed lid of seismic sensor seal box medial surface of external screw thread.

2. The landslide and landslide earthquake monitoring and early warning device of claim 1, wherein: the monitoring and early warning box body is internally provided with a mainboard, the mainboard is provided with an SOC chip, a storage chip and a wireless transmission module, and the mainboard is provided with corresponding interfaces which are respectively connected with all sensors, a power supply and a signal antenna through circuits.

3. The landslide and landslide earthquake monitoring and early warning device of claim 1, wherein: the earthquake sensor, the inclination angle sensor and the liquid level sensor are connected with the inside of the monitoring and early warning box body through lines.

4. The landslide and landslide earthquake monitoring and early warning device of claim 1, wherein: the ground inserting rod is inserted into the landslide inclined side soil layer, and the tip end of the telescopic support rod is inserted into the two sides of the side soil layer to be fixed.

5. The landslide and landslide earthquake monitoring and early warning device of claim 1, wherein: the seismic sensor and the liquid level sensor are both embedded in the soil layer.

Images