CN220930587U - Remote sensing geological disaster monitoring device - Google Patents

Abstract

The utility model discloses a remote sensing geological disaster monitoring device; belonging to the technical field of disaster monitoring; the technical essential includes the open mounting panel in side, is provided with the spout that corresponds in upper and lower both ends in the inside of mounting panel, and the inside sliding connection of spout has first clamp splice and the another side of first clamp splice extends to the outside of mounting panel, and the second clamp splice parallel with first clamp splice of side fixedly connected with at the mounting panel is embraced to the side fixedly connected with of mounting panel, is provided with tightening mechanism between clamp splice and the second clamp splice of embracing, has the triangular support frame at the side bolted connection of mounting panel, has remote sensing monitoring unit at the top bolted connection of triangular support frame. According to the utility model, through the cooperation of the first clamping block, the second clamping block and the tightening mechanism, the defect that the traditional remote sensing monitoring device needs to be specially installed on a plane position is overcome, and meanwhile, the problem of poor applicability of the traditional remote sensing monitoring device is solved.

Description

Remote sensing geological disaster monitoring device

Technical Field

The utility model relates to the technical field of disaster monitoring, in particular to a remote sensing geological disaster monitoring device.

Background

The occurrence of geological disasters is often accompanied by huge dangers, such as earthquake, when serious economic losses are caused to buildings and lands of people, life safety of people can be endangered, and therefore effective prevention and treatment of the geological disasters are of great importance.

At present, the conventional measures for preventing and treating the geological disasters mostly adopt a remote sensing monitoring technology, and whether the geological disasters possibly happen or not is analyzed by monitoring the state of the geological states in real time, if so, the prevention and treatment are carried out before the disasters happen. However, the conventional remote sensing monitoring device needs to be specifically installed on a plane position which is arranged in advance, and when the position of some areas is complex, the applicability of the conventional remote sensing monitoring device is poor, so that improvement treatment is needed.

Disclosure of utility model

The present utility model has been made in view of the above-described drawbacks of the related art, and an object of the present utility model is to provide a remote sensing geological disaster monitoring device capable of solving the problem that the applicability of the device itself is poor due to the necessity of being specifically installed in a planar position.

In order to achieve the above object, the technical scheme of the present utility model is as follows: the remote sensing geological disaster monitoring device comprises a mounting plate with an open side surface, wherein sliding grooves corresponding to the upper end and the lower end are formed in the mounting plate, a first clamping block is connected in the sliding grooves in a sliding mode, the other surface of the first clamping block extends to the outside of the mounting plate, a second clamping block parallel to the first clamping block is fixedly connected to the side surface of the mounting plate, and a tightening mechanism is arranged between the first clamping block and the second clamping block;

The side bolted connection of mounting panel has the triangular supports frame, has remote sensing monitoring unit at the top bolted connection of triangular supports frame.

In the remote sensing geological disaster monitoring device, the sliding groove is L-shaped.

In the remote sensing geological disaster monitoring device, the corresponding surfaces of the first clamping block and the second clamping block are respectively in arc-shaped arrangement and are fixedly connected with a plurality of vertical racks.

In the remote sensing geological disaster monitoring device, the tightening mechanism comprises a first fixed block, a second fixed block, a first long bolt, a second long bolt, a first nut and a second nut; the first fixed block is connected with the side face of the first holding clamp block through bolts, the second fixed block is connected with the side face of the second holding clamp block through bolts, the first long bolt and the second long bolt are arranged from top to bottom and penetrate through the first fixed block and the second fixed block in the horizontal direction, the first nut is arranged at the tail of the first long bolt, and the second nut is arranged at the tail of the second long bolt.

In the remote sensing geological disaster monitoring device, the remote sensing monitoring unit comprises a fixed base, a supporting column, a fixed plate, a remote sensing monitor, an X-shaped bracket and a shielding plate; the fixed base bolted connection is at the top of triangular support frame, the support column is equipped with a plurality of and upper end all is connected with the fixed plate, remote sensing monitor bolted connection is at the top of fixed plate, X shape support and fixed plate are perpendicular and correspond each other and set up the top both sides at the fixed plate, shielding plate fixed connection is at the top of X shape support.

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

After the structure is adopted, the device is conveniently fixed on a proper trunk through the mutual matching of the mounting plate, the sliding groove, the sliding block, the first clamping block, the second clamping block and the tightening mechanism, so that the mobility of the device is effectively enhanced, a good anti-slip effect is achieved during clamping, the device can be fixed on trunks with different sizes, and the mobility and the practicability of the device are effectively enhanced. According to the utility model, through the cooperation of the first clamping block, the second clamping block and the tightening mechanism, the defect that the traditional remote sensing monitoring device needs to be specially installed on a plane position is overcome, and meanwhile, the problem of poor applicability of the traditional remote sensing monitoring device is solved.

Drawings

Fig. 1 is a schematic diagram of an overall structure of a geological remote sensing monitoring device.

Fig. 2 is a schematic view of a portion of the geological remote monitoring device at a point a in fig. 1.

Fig. 3 is a schematic diagram of a front view cross-section structure of a geological remote sensing monitoring device.

Fig. 4 is a schematic top view of a geological remote sensing monitoring device.

In the figure: 1. a mounting plate; 2. a chute; 3. the first clamping block; 4. the second clamping block; 5. a tightening mechanism; 501. a first fixed block; 502. a second fixed block; 503. a first long bolt; 504. a second long bolt; 505. a first nut; 506. a second nut; 6. triangular support frames; 7. a remote sensing monitoring unit; 701. a fixed base; 702. a support column; 703. a fixing plate; 704. a remote sensing monitor; 705. an X-shaped bracket; 706. a shielding plate; 8. a vertical rack.

Detailed Description

Referring to fig. 1 to 4, the utility model discloses a remote sensing geological disaster monitoring device, including a mounting plate 1 with an open side, wherein a chute 2 corresponding to the upper end and the lower end is arranged in the mounting plate 1, a first clamping block 3 is slidingly connected in the chute 2, the other surface of the first clamping block 3 extends to the outside of the mounting plate 1, a second clamping block 4 parallel to the first clamping block 3 is fixedly connected on the side of the mounting plate 1, and a tightening mechanism 5 is arranged between the first clamping block 3 and the second clamping block 4; through set up spout 2 and with first clamp splice 3 sliding connection in mounting panel 1, can make first clamp splice 3 be the level and make a round trip to slide to second clamp splice 4 side, realize that the device can be applied to the purpose on the not unidimensional trunk, the rethread tightening mechanism 5 is fixed.

The side surface of the mounting plate 1 is connected with a triangular support frame 6 through bolts, and the top of the triangular support frame 6 is connected with a remote sensing monitoring unit 7 through bolts; because the whole quality of the triangular support frame 6 is lighter, the adoption of the triangular support frame 6 can not only reduce the whole load of the remote sensing monitoring device, but also be connected with the remote sensing monitoring unit 7 more effectively.

Further, the chute 2 is L-shaped; the sliding chute 2 is L-shaped, so that the first clamping block 3 can slide more stably and compactly during horizontal sliding, and the stability of the whole structure is improved.

Further, the corresponding surfaces of the first clamping block 3 and the second clamping block 4 are respectively in arc-shaped arrangement and are fixedly connected with a plurality of vertical racks 8; the corresponding surfaces of the first clamping block 3 and the second clamping block 4 are set to be arc-shaped, so that the trunk can be better clamped, and the trunk is stably processed through the vertical racks 8, so that the phenomena of deviation and slipping are avoided.

Further, the tightening mechanism 5 includes a first fixing block 501, a second fixing block 502, a first long bolt 503, a second long bolt 504, a first nut 505, and a second nut 506; the first fixing block 501 is in bolted connection with the side surface of the first holding block 3, the second fixing block 502 is in bolted connection with the side surface of the second holding block 4, the first long bolt 503 and the second long bolt 504 are arranged from top to bottom and penetrate through the first fixing block 501 and the second fixing block 502 in the horizontal direction, the first nut 505 is arranged at the tail part of the first long bolt 503, and the second nut 506 is arranged at the tail part of the second long bolt 504; through setting up first fixed block 501 on the one hand with first clamp block 3 connection, on the other hand make first long bolt 503 and second long bolt 504 rotate in first fixed block 501, have the internal thread that suits with first long bolt 503 in the first fixed block 501 to first long bolt 503 and second long bolt 504 are detachable in first fixed block 501, the effect of second fixed block 502 and first fixed block 501 is the same, just can drive first clamp block 3 to second clamp block 4 direction horizontal migration when rotating first long bolt 503 and second long bolt 504, when moving to with the trunk subsides, can make first clamp block 3 and second clamp block 4 be in the clamp state, twists again and moves first nut 505 and second nut 506 and further consolidate the processing to first clamp block 3 and second clamp block 4.

Further, the remote sensing monitoring unit 7 comprises a fixed base 701, a support column 702, a fixed plate 703, a remote sensing monitor 704, an X-shaped bracket 705 and a shielding plate 706; the fixed base 701 is connected to the top of the tripod 6 by bolts, the support columns 702 are provided with a plurality of support columns, the upper ends of the support columns are connected with the fixed plate 703, the remote sensing monitor 704 is connected to the top of the fixed plate 703 by bolts, the X-shaped support 705 is perpendicular to the fixed plate 703 and is correspondingly arranged on two sides of the top of the fixed plate 703, and the shielding plate 706 is fixedly connected to the top of the X-shaped support 705; the structure at the top is more stable through the fixed base 701, the angle of observation of the remote sensing monitor 704 is wider through the support column 702, the observation shielding of the remote sensing monitor 704 is reduced by the X-shaped support 705 due to the small size and the large degree, and the shielding plate 706 can effectively protect the remote sensing monitor 704 from being damaged by rainwater and burning sun.

When the remote sensing monitoring unit is used, the penetrating first long bolt 503 is firstly taken out of the first fixing block 501 and the second fixing block 502, the penetrating second long bolt 504 is also taken out of the first fixing block 501 and the second fixing block 502, when a large trunk is encountered, the first clamping block 3 is pushed to slide outwards through the sliding groove 2, the space between the first clamping block 3 and the second clamping block 4 is enough to accommodate the trunk, the first long bolt 503 and the second long bolt 504 are replaced and twisted, the first clamping block 3 slides in the sliding groove 2 and approaches the second clamping block 4, when the first clamping block 3 and the second clamping block 4 are in a trunk clamping state when the first clamping block and the second clamping block are moved to be in close contact with the trunk, the first nut 505 and the second nut 506 are placed and screwed to further reinforce the first clamping block 3 and the second clamping block 4, and then the remote sensing monitoring unit 7 starts working.

The above examples are provided for convenience of explanation of the best mode of operation of the apparatus of the present utility model, and are not to be construed as limiting the utility model in any way, and any equivalent embodiments which can be partially changed or modified by the technical disclosure without departing from the technical features of the present utility model will be within the scope of the technical features of the present utility model.

Claims (4)

1. The utility model provides a remote sensing geological disaster monitoring device, includes open mounting panel (1) in side, its characterized in that, the inside of mounting panel (1) is provided with spout (2) that upper and lower both ends correspond, has first clamp holding piece (3) and the another side of first clamp holding piece (3) extends to the outside of mounting panel (1) at spout (2) inside sliding connection, and at the side fixedly connected with of mounting panel (1) with first clamp holding piece (3) parallel second clamp holding piece (4), be provided with tightening mechanism (5) between first clamp holding piece (3) and second clamp holding piece (4); the tightening mechanism (5) comprises a first fixed block (501), a second fixed block (502), a first long bolt (503), a second long bolt (504), a first nut (505) and a second nut (506); the first fixing block (501) is connected to the side face of the first clamping block (3) through bolts, the second fixing block (502) is connected to the side face of the second clamping block (4) through bolts, the first long bolt (503) and the second long bolt (504) are arranged from top to bottom and penetrate through the first fixing block (501) and the second fixing block (502) in the horizontal direction, the first nut (505) is arranged at the tail of the first long bolt (503), and the second nut (506) is arranged at the tail of the second long bolt (504);

the side surface of the mounting plate (1) is connected with a triangular support frame (6) through bolts, and the top of the triangular support frame (6) is connected with a remote sensing monitoring unit (7) through bolts.

2. A remote sensing geological disaster monitoring device according to claim 1, characterized in that said chute (2) is arranged in an L-shape.

3. The remote sensing geological disaster monitoring device according to claim 1, wherein the corresponding surfaces of the first clamping block (3) and the second clamping block (4) are respectively arc-shaped and fixedly connected with a plurality of vertical racks (8).

4. A remote sensing geological disaster monitoring device according to claim 1, characterized in that said remote sensing monitoring unit (7) comprises a fixed base (701), a support column (702), a fixed plate (703), a remote sensing monitor (704), an X-shaped bracket (705) and a shielding plate (706); the utility model discloses a remote sensing monitor, including fixed base (701), shielding plate (706), fixed base (701) bolted connection is at the top of tripod (6), support column (702) are equipped with a plurality of and upper end all is connected with fixed plate (703), remote sensing monitor (704) bolted connection is at the top of fixed plate (703), X shape support (705) are perpendicular and correspond each other with fixed plate (703) and set up in the top both sides of fixed plate (703), shielding plate (706) fixed connection is at the top of X shape support (705).