CN210141856U - Long-range side slope safety monitoring data acquisition device based on big dipper data communication - Google Patents

Abstract

The utility model relates to a slope safety monitoring technical field, in particular to a remote slope safety monitoring data acquisition device based on Beidou data communication, which comprises a base, a threading cylinder, a settlement monitoring box, an acquisition bracket, a storage box and a slope monitoring box, wherein the middle part of the base is provided with a placement groove, the edge of the base is provided with a plurality of positioning ports, the threading cylinder is arranged above the base, and the lower end opening of the threading cylinder is fixedly connected with a flange plate, the utility model has the characteristics of remote monitoring, when in specific use, a rain gauge detects the precipitation in a monitoring area in real time, a camera monitors the monitoring area in real time, a solar cell panel and a lithium battery provide electric energy, the settlement monitoring box is used for observing the deep layer of soil deformation, the slope monitoring box is used for observing the deformation of the slope surface layer, and a signal transmitter and a controller remotely transmit data information to a data terminal through a Beidou data communication network, the danger of personnel on-site monitoring is avoided, and the detection data is accurate and effective.

Description

Long-range side slope safety monitoring data acquisition device based on big dipper data communication

Technical Field

The utility model relates to a side slope safety monitoring technical field especially relates to long-range side slope safety monitoring data acquisition device based on big dipper data communication.

Background

The problem of slope stability is always the focus of the concern of the geotechnical engineering because of the influence of complex geological conditions, and along with the rapid development of national economy, human engineering activities are inevitably more frequent and the scale is larger.

The side slope monitoring refers to monitoring the speed, direction and the like of side slope displacement by grasping the movement condition of side slope rocks, finding a side slope damage precursor and monitoring the side slope displacement.

However, the existing slope safety monitoring data acquisition devices are field early warning devices, workers record work on the slope for a long time, the danger coefficient is large, and the existing slope safety monitoring data acquisition devices only monitor weather information and a slope surface layer in a slope region and cannot detect the loosening of the inside of a soil body before a disaster occurs, so that the problem of early warning difficulty is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the prior art, and the long-range side slope safety monitoring data acquisition device based on big dipper data communication who proposes.

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

the remote slope safety monitoring data acquisition device based on Beidou data communication comprises a base, a threading cylinder, a settlement monitoring box, an acquisition support, a storage box and a slope monitoring box, wherein a placing groove is formed in the middle of the base, a plurality of positioning holes are formed in the edge of the base, the threading cylinder is arranged above the base, a first flange plate is fixedly connected with an opening at the lower end of the threading cylinder, a second flange plate is fixedly connected with an opening at the upper end of the threading cylinder, the first flange plate is fixed with a base screw, the second flange plate is fixed with a settlement monitoring box screw, the acquisition support and the storage box are fixedly connected to the upper side of the settlement monitoring box, the slope monitoring box is fixedly connected to four side surfaces of the settlement monitoring box, a second maintenance plate is fixed to an opening side screw of the storage box, and a lithium battery and a controller are installed in the storage box, one side of gathering the support is equipped with camera, warning light and pluviometer, the top of gathering the support is equipped with signal transmitter, camera, warning light, pluviometer and signal transmitter all pass through extension rod and gather support fixed connection, the outside of gathering the support is equipped with three solar cell panel, solar cell panel all passes through dead lever and gathers support fixed connection.

As preferred, subside the opening side screw fixation of monitoring case and have an access panel, the screw fixation has two support frames, two on the interior diapire of subsiding the monitoring case be equipped with the pivot between the support frame, the fixed cover in the middle part outside of pivot is equipped with the winding roller, the outside winding of winding roller has a rope, the both ends of pivot all rotate with the support frame through the bearing and are connected, the screw fixation has the mounting bracket on the interior roof of subsiding the monitoring case, revolution counter, two are installed to the mounting bracket bottom the screw fixation has two holders on just being located the interior diapire of subsiding the monitoring case between the support frame, all install the clamp roller on the holder, the outside of clamp roller all is equipped with the concave ring, the one end that the winding roller was kept away from to a rope passes the concave ring and the standing groove is connected with the settlement plate.

Preferably, the slope monitoring box is internally provided with a sliding block, a tension meter is embedded in the sliding block, the detection end of the tension meter is fixedly connected with the inner wall of one side of the slope monitoring box, two extension plates are fixedly connected with one side of the sliding block, a sliding cavity is formed in each extension plate, a compression spring and a clamping plate are arranged in each sliding cavity, one side, far away from the compression spring, of each clamping plate penetrates through each extension plate, two wire clamping grooves are formed in the opposite sides of the clamping plates, two ropes are arranged between the wire clamping grooves, force balls are connected to the two ends of each rope, and permanent magnets are embedded in two opposite inner side faces of the slope monitoring box.

Preferably, the camera, the rain gauge, the signal transmitter, the revolution counter and the tension meter are electrically connected with the controller, and the three solar panels are electrically connected with the lithium battery through wires.

Preferably, rain gauge, warning light and camera set gradually from last to down, rain gauge, warning light, camera and signal transmitter all with the extension rod screw fixation.

Preferably, the sedimentation plate is positioned in a foundation pit below the placement groove, and one end of the rotating shaft passes through the support frame and is fixedly connected with the detection end of the revolution counter.

Preferably, the slide block is connected with the inner wall of the slope monitoring box in a sliding mode, and the two permanent magnets correspond to the two sliding cavities respectively.

Preferably, the two clamping plates are symmetrically arranged, the two wire clamping grooves are enclosed into a circular structure, and the clamping plates are made of magnetic conductivity materials.

The utility model provides a long-range side slope safety monitoring data acquisition device based on big dipper data communication, beneficial effect lies in: the utility model discloses compact structure, have remote monitoring's characteristics, when specifically using, the precipitation in the rain gauge real-time detection monitoring area, camera real time monitoring area, solar cell panel and lithium cell provide the electric energy, it is used for observing the deep deformation of soil body to subside the monitoring box, domatic monitoring box is used for observing domatic top layer deformation, signal transmitter and controller pass through big dipper data communication network teletransmission with data information to data terminal, avoid personnel on-the-spot monitoring's danger, and it is accurate effective to detect data, can specifically know the safe condition of side slope, before the calamity will take place promptly, in time inform the sparse personnel of relevant personnel.

Drawings

Fig. 1 is a cross-sectional view of the structure of the remote slope safety monitoring data acquisition device based on the Beidou data communication of the utility model;

FIG. 2 is a sectional view of a settlement monitoring box of the remote slope safety monitoring data acquisition device based on Beidou data communication;

fig. 3 is an enlarged view of a position a in fig. 1 of the remote slope safety monitoring data acquisition device based on the Beidou data communication of the utility model;

fig. 4 is a front cross-sectional view of a slope monitoring box of the remote slope safety monitoring data acquisition device based on Beidou data communication of the utility model;

fig. 5 is the utility model provides an installation schematic diagram of long-range side slope safety monitoring data acquisition device clamp roll based on big dipper data communication.

In the figure: 1. a base; 11. a placement groove; 12. positioning the opening; 2. a threading cylinder; 21. a first flange plate; 22. a second flange plate; 3. a settlement monitoring box; 31. a first access panel; 32. a mounting frame; 33. a revolution counter; 34. a support frame; 35. a bearing; 36. a rotating shaft; 37. a winding roller; 38. a first rope; 39. a holder; 310. a nip roll; 311. a concave ring; 312. a settlement plate; 4. collecting a bracket; 41. an extension rod; 42. a camera; 43. an alarm light; 44. a rain gauge; 45. a signal transmitter; 46. fixing the rod; 47. a solar panel; 5. a storage box; 51. a second access panel; 52. a lithium battery; 53. a controller; 6. a slope monitoring box; 61. a slider; 62. a tension meter; 63. an extension plate; 64. a slide chamber; 65. a compression spring; 66. a clamping plate; 67. a second rope; 68. a landing ball; 69. a permanent magnet; 610. wire clamping grooves.

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.

Referring to fig. 1-5, the utility model discloses a long-range side slope safety monitoring data acquisition device based on big dipper data communication, including base 1, threading cylinder 2, settlement monitoring case 3, acquisition support 4, storage box 5 and slope monitoring case 6, the middle part of base 1 is equipped with standing groove 11, the edge of base 1 is equipped with a plurality of locating ports 12, the top of base 1 is equipped with threading cylinder 2, the lower end opening of threading cylinder 2 is fixedly connected with first flange 21, the upper end opening of threading cylinder 2 is fixedly connected with second flange 22, first flange 21 is fixed with base 1 screw, second flange 22 is fixed with settlement monitoring case 3 screw, the upside of settlement monitoring case 3 is fixedly connected with acquisition support 4 and storage box 5, four sides of settlement monitoring case 3 are all fixedly connected with slope monitoring case 6, the opening side screw of storage box 5 is fixed with second maintenance board 51, install lithium cell 52 and controller 53 in the storage box 5, one side of gathering support 4 is equipped with camera 42, warning light 43 and pluviometer 44, the top of gathering support 4 is equipped with signal transmitter 45, camera 42, warning light 43, pluviometer 44 and signal transmitter 45 all through extension rod 41 and gather support 4 fixed connection, the outside of gathering support 4 is equipped with three solar cell panel 47, solar cell panel 47 all through dead lever 46 and gather support 4 fixed connection.

Wherein, subside monitoring box 3's opening side screw fixation has access panel 31 No. one, the screw fixation has two support frames 34 on subsides monitoring box 3's the interior diapire, be equipped with pivot 36 between two support frames 34, the fixed cover in the middle part outside of pivot 36 is equipped with wire winding roller 37, wire winding roller 37's the outside winding has rope 38 No. one, the both ends of pivot 36 all rotate with support frame 34 through bearing 35 and are connected, the screw fixation has mounting bracket 32 on subsideing monitoring box 3's the interior roof, revolution counter 33 is installed to mounting bracket 32 bottom, the screw fixation has two holders 39 on two support frames 34 and being located subside monitoring box 3's the interior diapire between two support frames, all install clamp roll 310 on the holder 39, the outside of clamp roll 310 all is equipped with concave ring 311, the one end that wire winding roller 37 was kept away from to rope 38 passes concave ring 311 and standing groove 11 is connected with subside board 312.

Wherein, the inside slider 61 that is equipped with of domatic monitoring case 6, the embedded tensiometer 62 that is equipped with of slider 61, the sense terminal of tensiometer 62 and one side inner wall fixed connection of domatic monitoring case 6, two extension boards 63 of one side fixedly connected with of slider 61, all establish smooth chamber 64 in the extension board 63, all be equipped with pressure spring 65 and grip block 66 in the smooth chamber 64, extension board 63 is all passed to one side that pressure spring 65 was kept away from to grip block 66, the opposite side of two grip blocks 66 all is equipped with wire clamping groove 610, all be equipped with No. two ropes 67 between two wire clamping groove 610, No. two rope 67's both ends all are connected with power ball 68, all inlay on two relative medial surfaces of domatic monitoring case 6 and be equipped with permanent magnet 69.

The camera 42, the rain gauge 44, the signal emitter 45, the revolution counter 33 and the tension meter 62 are electrically connected to the controller 53, and the three solar panels 47 are electrically connected to the lithium battery 52 through wires.

Wherein, rain gauge 44, warning light 43 and camera 42 set gradually from last to down, and rain gauge 44, warning light 43, camera 42 and signal transmitter 45 all with extension rod 41 screw fixation.

Wherein, the settlement plate 312 is positioned in the foundation pit below the placing groove 11, and one end of the rotating shaft 36 passes through the supporting frame 34 and is fixedly connected with the detection end of the revolution counter 33.

Wherein, slider 61 and domatic monitoring box 6 inner wall sliding connection, two permanent magnets 69 correspond with two sliding chamber 64 respectively.

Wherein, two grip blocks 66 are arranged symmetrically, and two wire clamping grooves 610 enclose into a circular structure together, and grip blocks 66 are made of magnetic permeability material.

The working principle is as follows: a plurality of collecting devices are arranged on a slope surface in a regular matrix shape so as to integrally know the slope surface condition and avoid disaster misjudgment, a base 1 is vertically arranged on the slope surface, a placing groove 11 is opposite to a pre-grooved foundation pit, then a pin rod passes through a positioning port 12 and is deeply embedded into the slope surface by using a tool, a settlement plate 312 passes through the placing groove 11 and is arranged in the foundation pit until reaching a preset depth, the foundation pit is filled, then a threading cylinder 2 and a settlement monitoring box 3 are sequentially arranged, a solar cell panel 47 on a collecting support 4 converts light energy into electric energy which is stored in a lithium battery 52 and can supply power to the whole collecting device so as to ensure that the collecting device can work for a long time, a rain gauge 44 detects the precipitation in a monitoring area in real time and transmits monitoring data to a controller 53 in real time, an alarm lamp 43 can prompt that the monitoring area of a passing vehicle is a dangerous area, the camera 42 can be illuminated at night, so that the camera 42 can be shot at night, shooting information is transmitted to the controller 53 in real time, adjacent acquisition equipment is connected through a second rope 67, the second rope 67 is in a tensioning state during connection, the two clamping plates 66 block the acting ball 68 in the slope monitoring box 6, when one of the acquisition equipment is displaced, the second rope 67 is stretched, the sliding block 61 is dragged to slide in the slope monitoring box 6, the tension meter 62 detects tension in real time and transmits the tension value to the controller 53, the tension force is continuously increased, namely when the maximum limit of the tension meter 62 is reached, the extension plate 63 slides between the two permanent magnets 69, the clamping plates 66 retract into the sliding cavity 64 under the action of magnetic force, the acting ball 68 loses the supporting force, the second rope 67 is separated from the acquisition equipment, and therefore the interlocking reaction caused by the slope sliding phenomenon of a section is avoided, the settlement plate 312 is buried below the slope surface, whether deep deformation of the soil body is detected, the settlement plate 312 is pulled to move, the winding roller 37 is pulled to rotate, the revolution counter 33 detects revolution data change in real time, monitoring data is transmitted to the controller 53 in real time, the controller 53 instruction signal transmitter 45 transmits received video information, rainfall numerical values, the settlement plate 312 displacement numerical values and the tension meter 62 numerical values to a remote terminal, the remote personnel can specifically know the safety condition of the slope, and before a disaster happens, evacuation personnel are timely notified.

The above, only be the concrete implementation of the preferred embodiment 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, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (8)

1. Remote slope safety monitoring data acquisition device based on Beidou data communication is characterized by comprising a base (1), a threading cylinder (2), a settlement monitoring box (3), an acquisition support (4), a storage box (5) and a slope monitoring box (6), wherein a placement groove (11) is arranged in the middle of the base (1), a plurality of positioning ports (12) are arranged at the edge of the base (1), the threading cylinder (2) is arranged above the base (1), a first flange plate (21) is fixedly connected with a lower end opening of the threading cylinder (2), a second flange plate (22) is fixedly connected with an upper end opening of the threading cylinder (2), the first flange plate (21) is fixed with the base (1) through screws, the second flange plate (22) is fixed with the settlement monitoring box (3) through screws, the acquisition support (4) and the storage box (5) are fixedly connected to the upper side of the settlement monitoring box (3), subside the domatic monitoring box (6) of four equal fixedly connected with in side of monitoring box (3), the opening side screw fixation of storage box (5) has No. two access panels (51), install lithium cell (52) and controller (53) in storage box (5), one side of gathering support (4) is equipped with camera (42), warning light (43) and pluviometer (44), the top of gathering support (4) is equipped with signal transmitter (45), camera (42), warning light (43), pluviometer (44) and signal transmitter (45) all through extension rod (41) and collection support (4) fixed connection, the outside of gathering support (4) is equipped with three solar cell panel (47), solar cell panel (47) all through dead lever (46) and collection support (4) fixed connection.

2. The Beidou data communication-based remote slope safety monitoring data acquisition device according to claim 1, characterized in that a first access panel (31) is fixed on an opening side screw of the settlement monitoring box (3), two support frames (34) are fixed on an inner bottom wall of the settlement monitoring box (3), a rotating shaft (36) is arranged between the two support frames (34), a winding roller (37) is fixedly sleeved on the outer side of the middle of the rotating shaft (36), a first rope (38) is wound on the outer side of the winding roller (37), two ends of the rotating shaft (36) are rotatably connected with the support frames (34) through bearings (35), an installation frame (32) is fixed on an inner top wall of the settlement monitoring box (3) through screws, a revolution counter (33) is installed at the bottom end of the installation frame (32), two clamp seats (39) are fixed on the inner bottom wall of the settlement monitoring box (3) and between the two support frames (34), all install on holder (39) and press from both sides roller (310), the outside of press from both sides roller (310) all is equipped with concave ring (311), the one end of a rope (38) keeping away from wire winding roller (37) is passed concave ring (311) and standing groove (11) and is connected with settlement plate (312).

3. The long-distance slope safety monitoring data acquisition device based on Beidou data communication according to claim 1, wherein a sliding block (61) is arranged inside the slope monitoring box (6), a tension meter (62) is embedded in the sliding block (61), the detection end of the tension meter (62) is fixedly connected with the inner wall of one side of the slope monitoring box (6), two extension plates (63) are fixedly connected with one side of the sliding block (61), sliding cavities (64) are respectively arranged in the extension plates (63), compression springs (65) and clamping plates (66) are respectively arranged in the sliding cavities (64), one sides of the clamping plates (66) far away from the compression springs (65) penetrate through the extension plates (63), clamping grooves (610) are respectively arranged on the opposite sides of the two clamping plates (66), a second rope (67) is respectively arranged between the two clamping grooves (610), and force balls (68) are respectively connected with the two ends of the second rope (67), permanent magnets (69) are embedded on two opposite inner side surfaces of the slope monitoring box (6).

4. The Beidou data communication-based remote slope safety monitoring data acquisition device according to claim 1, wherein the camera (42), the rain gauge (44), the signal transmitter (45), the revolution counter (33) and the tension meter (62) are electrically connected with a controller (53), and the three solar panels (47) are electrically connected with a lithium battery (52) through wires.

5. The Beidou data communication-based remote slope safety monitoring data acquisition device according to claim 1, wherein the rain gauge (44), the alarm lamp (43) and the camera (42) are sequentially arranged from top to bottom, and the rain gauge (44), the alarm lamp (43), the camera (42) and the signal transmitter (45) are all fixed with the extension rod (41) through screws.

6. The remote slope safety monitoring data acquisition device based on Beidou data communication is characterized in that the settlement plate (312) is located in a foundation pit below the placing groove (11), and one end of the rotating shaft (36) penetrates through the support frame (34) and is fixedly connected with the detection end of the revolution counter (33).

7. The long-distance slope safety monitoring data acquisition device based on Beidou data communication is characterized in that the sliding block (61) is in sliding connection with the inner wall of the slope monitoring box (6), and the two permanent magnets (69) correspond to the two sliding cavities (64) respectively.

8. The long-distance slope safety monitoring data acquisition device based on Beidou data communication according to claim 3, is characterized in that two clamping plates (66) are symmetrically arranged, two wire clamping grooves (610) jointly enclose a circular structure, and the clamping plates (66) are made of magnetic conductive materials.

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