CN211083383U - Geological monitoring device for complex terrain area - Google Patents

Abstract

The utility model discloses a geological monitoring device for complicated topography area, including mount pad, bracing piece, protection casing and camera, fixed welding has two sets of vertical montants on the mount pad roof, bracing piece, protection casing and camera are all established on the mount pad roof, the equal fixed mounting in both sides of bracing piece has the position cap, it has the spout that runs through its lateral wall and roof to open on the bracing piece, be equipped with gliding aversion piece in it in the spout, the camera is installed in the inner chamber of protection casing, and one side of bracing piece is kept away from to its camera lens orientation. This a geological monitoring device for complicated topography area through having set up motor, transmission shaft, storage cylinder, fixed pulley, belt and shifting block, and motor work drives the storage cylinder rotation, drives the belt and removes and make the shifting block reciprocate the height of adjustable camera to the flexibility that makes the camera monitoring is higher, and the effect of monitoring is better.

Description

Geological monitoring device for complex terrain area

Technical Field

The utility model belongs to the technical field of the geological monitoring, concretely relates to geological monitoring device for complicated topography area.

Background

Ground subsidence, which may also be called ground subsidence (subsidence), is an environmental geological phenomenon in which the ground level is reduced. Causes of ground subsidence: under the influence of human production activities, local reduction in the height of the crust surface is caused by consolidation compression of the subsurface unconsolidated formation. This environmental geology can cause permanent loss of environmental resources.

In order to know the ground subsidence condition of a certain area with human activity production, a geological monitoring device is required. However, the position of the monitoring mechanism on the existing devices is mostly fixed, that is: it can only monitor the geology condition in the fixed range, can not adjust as required, and the flexibility ratio is relatively poor, and the effect of monitoring is comparatively general.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a geological monitoring device for complicated topography area to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a geological monitoring device for complex terrain areas comprises a mounting seat, a supporting rod, a protective cover and a camera, wherein two groups of vertical rods are fixedly welded on the top wall of the mounting seat, the supporting rod, the protective cover and the camera are all arranged on the top wall of the mounting seat, positioning caps are fixedly arranged on two sides of the supporting rod, a sliding groove penetrating through the side wall and the top wall of the supporting rod is formed in the supporting rod, a shifting block sliding in the sliding groove is arranged in the sliding groove, the camera is arranged in the inner cavity of the protective cover, and the lens of the camera faces to one side away from the supporting rod;

the utility model discloses a camera, including camera, protection casing, fixed pulley, transmission shaft, storage barrel, transmission shaft, motor cover, bracing piece, connecting rod, extension bar, fixed pulley, belt, motor cover, transmission shaft and storage barrel, the roof of protection casing inner chamber is fixed to be bonded and is held the board, the fixed pulley is installed to the roof of bracing piece, still is equipped with the belt on it, the outside of bracing piece is equipped with motor cover, transmission shaft and storage barrel, the transmission shaft is connected with the motor drive in the motor cover, and its one end of keeping away from the motor cover is.

Preferably, the four corners of the mounting seat are fixedly provided with positioning nails penetrating through the two sides of the mounting seat, the positioning nails are vertically arranged, and the tips of the positioning nails are located at the bottom of the mounting seat.

Preferably, the openings of the inner cavities of the two groups of positioning caps are arranged on the bottom walls of the two groups of positioning caps, and the two groups of vertical rods are respectively inserted into the inner cavities of the two groups of positioning caps and are symmetrically distributed on two sides of the mounting seat.

Preferably, the side wall of the shifting block is provided with a slotted hole inserted and installed with the extension bar, and the slotted hole and the extension bar are installed and fixed through a vertically arranged bolt.

Preferably, hold and be equipped with telescopic link and extension board on the board, the both ends of telescopic link are fixed with the roof that holds the board inner chamber and the roof bonding of extension board respectively.

Preferably, the top wall of the belt end shifting block is fixedly connected, and the other end of the belt end shifting block passes through the outer wall of the fixed pulley and is fixedly connected with the outer wall of the storage barrel.

The utility model discloses a technological effect and advantage: according to the geological monitoring device for the complex terrain areas, the motor, the transmission shaft, the containing barrel, the fixed pulley, the belt and the shifting block are arranged, the containing barrel is driven to rotate by the motor to drive the belt to move, so that the shifting block can move up and down to adjust the height of the camera, the monitoring flexibility of the camera is higher, and the monitoring effect is better; by arranging the accommodating plate, the telescopic rod and the extension plate, the telescopic rod extends and drives the extension plate to move downwards, so that the external sunlight can be shielded, and the influence of the sunlight on the working of the camera is greatly reduced; through having set up extension bar, bolt, montant and location cap, take off the bolt and make montant and location cap separation, can separate mount pad, bracing piece and protection casing three, make the device's transportation and transport more convenient.

Drawings

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

fig. 2 is a schematic structural view of the support rod of the present invention;

fig. 3 is a vertical sectional view of the protective cover of the present invention.

In the figure: 1 mount pad, 2 bracing pieces, 3 protection casings, 4 cameras, 5 location nails, 6 montants, 7 location caps, 8 motor covers, 9 connecting rods, 10 transmission shafts, 11 containing barrels, 12 fixed pulleys, 13 belts, 14 shifting blocks, 15 extension bars, 16 bolts, 17 hold board, 18 telescopic links, 19 extension boards, 20 spouts.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a geological monitoring device for complex terrain areas as shown in figures 1-3, which comprises a mounting seat 1, a support rod 2, a protective cover 3 and a camera 4, wherein two groups of vertical rods 6 are fixedly welded on the top wall of the mounting seat 1, the support rod 2, the protective cover 3 and the camera 4 are all arranged on the top wall of the mounting seat 1, positioning caps 7 are fixedly arranged on both sides of the support rod 2, a chute 20 penetrating through the side wall and the top wall of the support rod 2 is arranged on the support rod 2, a shifting block 14 sliding in the chute 20 is arranged in the chute 20, the horizontal section of the shifting block 14 is in a T shape, the side wall of the shifting block is attached to the inner side wall of the chute 20, therefore, the shifting block 14 can not incline in the chute 20 (the protective cover 3 can not incline either), can vertically move up and down in the chute 20, and can drive the protective cover 3 to vertically move, the camera 4 is arranged in the inner cavity of the protective cover 3, and the lens of the camera faces to one side far away from the support rod 2;

one side fixedly connected with extension bar 15 that camera 4 was kept away from to protection casing 3, the roof of 3 inner chambers of protection casing is fixed to bond has and holds board 17, fixed pulley 12 is installed to the roof of bracing piece 2, still is equipped with belt 13 on it, and fixed pulley 12 can freely rotate, and belt 13 is the nylon material, the outside of bracing piece 2 is equipped with motor cover 8, transmission shaft 10 and containing cylinder 11, and fixed mounting has the motor in the motor cover 8 for the protection motor makes it not disturbed by things such as external rainwater, transmission shaft 10 is connected with the motor drive in the motor cover 8, and its one end of keeping away from motor cover 8 and the lateral wall welded fastening of containing cylinder 11, through connecting rod 9 fixed connection between bracing piece 2 and the motor cover 8, bracing piece 2 is welded fastening with the connected mode of motor cover 8 and connecting rod 9.

Specifically, the equal fixed mounting in four corners of mount pad 1 has the location nail 5 that runs through its both sides, the vertical setting of location nail 5, its pointed end is located the bottom of mount pad 1, and the degree of depth of location nail 5 can be confirmed (it and mount pad 1 welded fastening) according to actual need for make mount pad 1 and all kinds of structures on it remain stable.

Specifically, two sets of the openings of the inner cavities of the positioning caps 7 are all arranged on the bottom walls of the inner cavities, two sets of the vertical rods 6 are respectively inserted and installed in the inner cavities of the two sets of positioning caps 7 and are symmetrically distributed on two sides of the installation seat 1, and four sides of the vertical rods 6 are respectively tightly attached to four sides of the inner cavities of the positioning caps 7, so that the stability of the positioning caps 7, the supporting rods 2 and other structures can be ensured.

Specifically, the side wall of the displacement block 14 is provided with a slotted hole inserted and mounted with the extension rod 15, and the slotted hole and the extension rod 15 are fixedly mounted through a vertically arranged bolt 16, and during actual design, a group of nuts can be further mounted on the bolt 16, so that the nuts are in contact with the bottom wall of the displacement block 14, and the displacement block 14 is connected with the extension rod 15 more tightly.

Specifically, hold and be equipped with telescopic link 18 and extension board 19 on the board 17, the both ends of telescopic link 18 are fixed with the roof that holds the board 17 inner chamber and the roof bonding of extension board 19 respectively, and telescopic link 18 is by electric drive, and when it extended to the longest, its diapire that drives extension board 19 highly leveled with the roof of camera 4.

Specifically, one end of the belt 13 is fixedly connected to the top wall of the shifting block 14, and the other end thereof passes through the outer wall of the fixed pulley 12 and is fixedly connected to the outer wall of the storage barrel 11.

Specifically, when the geological monitoring device for complex terrain areas is used, the mounting base 1 is firstly placed at a proper position for geological monitoring, the four groups of positioning nails 5 are respectively inserted and mounted on the ground, the mounting base 1 is kept horizontal, then the inner cavities of the two groups of positioning caps 7 are inserted and mounted with the two groups of vertical rods 6, the extension rod 15 is inserted and mounted in a slot hole in the side wall of the shifting block 14, the device can be mounted after the bolt 16 passes through the shifting block 14 and the extension rod 15, then the camera 4 is electrified, the camera 4 can work and monitors the geological condition in the monitoring range (the picture monitored by the camera 4 can be transmitted to a related monitoring room so as to be conveniently observed by personnel), when the sunlight is strong and the work of the camera 4 is influenced, the telescopic rod 18 can be driven to extend and the extension plate 19 can be driven to move downwards to shield the sunlight to a certain degree, thereby reducing the influence on the camera 4; in order to monitor geology at different positions, when the height of the camera 4 needs to be moved, the motor in the motor cover 8 is driven to work to drive the transmission shaft 10 to rotate, so that the storage cylinder 11 rotates to drive the belt 13 to move (the belt 13 is stored on the outer wall of the storage cylinder 11 or is gradually separated from the outer wall of the storage cylinder 11), meanwhile, the belt 13 moves to drive the fixed pulley 12 to rotate, and the shifting block 14 moves up and down to drive the camera 4 to move up and down.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. The utility model provides a geological monitoring device for complicated topography area, includes mount pad (1), bracing piece (2), protection casing (3) and camera (4), its characterized in that: the mounting structure comprises a mounting seat (1), wherein two groups of vertical rods (6) are fixedly welded on the top wall of the mounting seat (1), a supporting rod (2), a protective cover (3) and a camera (4) are all arranged on the top wall of the mounting seat (1), positioning caps (7) are fixedly arranged on two sides of the supporting rod (2), a sliding groove (20) penetrating through the side wall and the top wall of the supporting rod (2) is formed in the supporting rod (2), a shifting block (14) sliding in the sliding groove (20) is arranged in the sliding groove, the camera (4) is arranged in an inner cavity of the protective cover (3), and a lens of the camera faces one side far away from the supporting rod;

one side fixedly connected with extension bar (15) of camera (4) is kept away from in protection casing (3), the roof of protection casing (3) inner chamber is fixed to bond and has holds board (17), fixed pulley (12) are installed to the roof of bracing piece (2), still are equipped with belt (13) on it, the outside of bracing piece (2) is equipped with motor cover (8), transmission shaft (10) and storage cylinder (11), motor drive in transmission shaft (10) and the motor cover (8) is connected, and its one end of keeping away from motor cover (8) and the lateral wall welded fastening of storage cylinder (11), through connecting rod (9) fixed connection between bracing piece (2) and motor cover (8).

2. A geological monitoring apparatus for complex terrain areas as defined in claim 1 wherein: the four corners of the mounting seat (1) are fixedly provided with positioning nails (5) penetrating through two sides of the mounting seat, the positioning nails (5) are vertically arranged, and the tips of the positioning nails are located at the bottom of the mounting seat (1).

3. A geological monitoring apparatus for complex terrain areas as defined in claim 1 wherein: the openings of the inner cavities of the two groups of positioning caps (7) are arranged on the bottom wall of the mounting seat, and the two groups of vertical rods (6) are respectively inserted and installed in the inner cavities of the two groups of positioning caps (7) and are symmetrically distributed on two sides of the mounting seat (1).

4. A geological monitoring apparatus for complex terrain areas as defined in claim 1 wherein: the side wall of the displacement block (14) is provided with a slotted hole which is inserted and installed with the extension bar (15), and the slotted hole and the extension bar (15) are installed and fixed through a vertically arranged bolt (16).

5. A geological monitoring apparatus for complex terrain areas as defined in claim 1 wherein: the holding plate (17) is provided with a telescopic rod (18) and an extension plate (19), and the two ends of the telescopic rod (18) are respectively bonded and fixed with the top wall of the inner cavity of the holding plate (17) and the top wall of the extension plate (19).

6. A geological monitoring apparatus for complex terrain areas as defined in claim 1 wherein: the top wall of the shifting block (14) at one end of the belt (13) is fixedly connected, and the other end of the belt passes through the outer wall of the fixed pulley (12) and is fixedly connected with the outer wall of the storage barrel (11).

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