CN210534335U - Remote non-contact visual slope monitoring device - Google Patents

Abstract

The utility model discloses a remote non-contact visual slope monitoring device, which comprises a measuring mechanism, a high-definition camera and a monitoring case connected with the measuring mechanism and the high-definition camera, wherein the three are fixedly connected on a stable stratum of a slope opposite surface to be monitored through a support frame; the measuring mechanism is used for aiming distance measurement, topographic mapping and surveying through a laser distance meter; the high-definition camera is used for providing real-time video monitoring and visually checking the slope field condition; the monitoring case comprises a case body, and a 4G router, a storage battery and a monitoring host which are arranged in the case body, wherein the monitoring host is used for storing and analyzing monitoring data and automatically transmitting the monitoring data to a data processing system of a remote terminal through a 4G network so as to realize remote real-time monitoring; the battery is connected with the solar power generation mechanism who sets up on support frame top, the utility model discloses simple structure, low cost, the device installation is simple, it is convenient to use, and is energy-concerving and environment-protective, has higher popularization and application and worth.

Description

Remote non-contact visual slope monitoring device

Technical Field

The utility model relates to a visual side slope monitoring devices of remote non-contact belongs to geological disasters monitoring and early warning technique and monitoring facilities technical field.

Background

Due to the influence of special natural geology, geographical conditions and climatic conditions, the severity of geological disaster problems of the side slopes of the highways in the mountainous area is exposed. For a long time, the safety of the highway slope engineering is mainly guaranteed by design, but due to the concealment and complexity of the slope geological conditions and the limitation of geological exploration testing conditions, geological exploration and testing data cannot fully reveal the original appearance of the slope, so that the exploration design of the slope may have incompleteness, and the safety and the reasonability of the slope need to be guaranteed through later monitoring and inspection.

Today, the information, intelligence and automation are rapidly developed, slope monitoring devices are in a large number, at present, many automatic monitoring devices such as three-dimensional laser scanners and measuring robots are available for selection, but most of the automatic monitoring devices are expensive, and the automatic monitoring devices are difficult to popularize and apply in the potential deformation stage of the road slope.

Disclosure of Invention

In view of this, the utility model aims at providing a visual side slope monitoring devices of remote non-contact can overcome prior art's not enough.

The utility model aims at realizing through the following technical scheme:

a remote non-contact visual slope monitoring device comprises a measuring mechanism and a high-definition camera, wherein the measuring mechanism and the high-definition camera are connected with a monitoring case and fixedly connected to a stable stratum of a slope opposite surface to be monitored through a support frame; the monitoring case comprises a case body, and a 4G router, a storage battery and a monitoring host which are arranged in the case body; the storage battery is connected with the solar power generation mechanism arranged at the top end of the support frame, and the monitoring host is connected with the remote terminal through a wireless network.

The measuring mechanism comprises a laser range finder, a dial and a scale adjusting box, wherein the dial and the scale adjusting box are connected with the laser range finder, and the scale adjusting box is connected with the monitoring host.

The support frame is a cross structure formed by a vertical rod and a cross rod, the measuring mechanism is provided with two pieces of devices which are fixedly connected with two ends of the cross rod respectively, a first auxiliary rod for installing a high-definition camera is arranged above the cross rod, and a second auxiliary rod for installing a monitoring case is arranged below the cross rod.

Reinforcing rods are arranged among the vertical rods, the cross rods and the first auxiliary rods.

The vertical rod, the transverse rod, the auxiliary rod and the reinforcing rod are hollow steel pipes which are communicated with each other, and lines for connecting all the parts are distributed on the hollow steel pipes.

The solar power generation mechanism comprises a solar cell panel, and a light sensor connected with the monitoring host is arranged on the solar cell panel; the solar cell panel is rotationally connected with the top end of the upright stanchion through the rotary driving mechanism,

the rotary driving mechanism comprises a gear mechanism and a driving motor connected with the gear mechanism, and the driving motor is connected with the monitoring host.

Compared with the prior art, the utility model discloses a remote non-contact visual side slope monitoring device, which comprises a measuring mechanism, a high definition camera and a monitoring case connected with the measuring mechanism and the high definition camera, wherein the three are fixedly connected on a stable stratum of a side slope opposite surface to be monitored through a support frame; the measuring mechanism detects through a laser range finder and can be used for aiming distance measurement, topographic mapping, reconnaissance and the like; the high-definition camera is used for providing real-time video monitoring, and is convenient for relevant units such as owners and monitoring to visually check the slope field condition; the monitoring case comprises a case body, and a 4G router, a storage battery and a monitoring host which are arranged in the case body, monitoring data acquired by the measuring mechanism and the high-definition camera are stored and analyzed by the monitoring host, and are automatically transmitted to a data processing system of a remote terminal through a 4G network, so that remote real-time monitoring is realized; the storage battery is used for supplying power to the components, and the storage battery is connected with the solar power generation mechanism arranged at the top end of the support frame, so that the solar power generation device is more energy-saving and environment-friendly.

Measuring mechanism includes laser range finder and dial and scale adjustment case of being connected with it, the scale adjustment case links to each other with the monitoring host computer, can control laser range finder's vertical control angle through dial and scale adjustment case, realizes accomplishing same sectional multiple spot monitoring work, and the practicality is good

The support frame comprises pole setting, horizontal pole, auxiliary rod and stiffener, and each member is the hollow steel pipe of intercommunication each other, has laid at hollow steel pipe and is used for connecting the circuit of each part, not only plays fine protection to the circuit, improves the life of circuit, makes the circuit neatly arrange moreover, is convenient for manage and maintain.

The utility model has the advantages that:

(1) the utility model discloses simple structure, low cost, the device installation is simple, energy-concerving and environment-protective, has higher popularization and application and worth.

(2) The remote real-time slope monitoring can be realized, the measuring mechanism is adopted for carrying out multi-point monitoring, and the slope topography is mapped and surveyed in real time, so that the monitoring range is wide, and the monitoring accuracy is high; the high-definition camera is adopted to provide real-time video monitoring, monitoring data is visual and convenient, the condition of the slope treatment site can be observed, and management work of a construction site can be carried out.

(3) Monitoring data passes through 4G network automatic transmission to distal end data processing system, can arrange many on the slope monitoring devices to the monitoring data transmission of many monitoring devices is accomplished to the distance of being separated by at effective within range accessible 4G router, and the convenience of use is high.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the means of the instrumentalities and/or combinations particularly pointed out in the appended claims.

Drawings

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be further described in detail with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partially enlarged schematic view of a portion a of fig. 1.

Fig. 3 is a schematic view of a cross-sectional structure B-B in fig. 1.

Fig. 4 is a schematic diagram of the arrangement structure of the present invention.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the preferred embodiments are for purposes of illustration only and are not intended to limit the scope of the present invention.

As shown in fig. 1 to 4, a remote non-contact visual slope monitoring device comprises a measuring mechanism 1 and a high-definition camera 2, wherein the measuring mechanism 1 and the high-definition camera 2 are connected with a monitoring case 3, and the three are fixedly connected to a stable stratum of an opposite face of a slope to be monitored through a support frame 4; the monitoring case 3 comprises a case 301, and a 4G router 302, a storage battery 303 and a monitoring host 304 which are arranged in the case; the measuring mechanism 1 and the high-definition camera 2 are connected with the monitoring host 304; the storage battery 303 is connected with a solar power generation mechanism 5 arranged at the top end of the support frame 4, and the monitoring host 304 is connected with a remote terminal through a wireless network; the measuring mechanism 1 is used for aiming and ranging a target, topographic mapping, prospecting and the like; the high-definition camera 2 is used for providing real-time video monitoring, and is convenient for relevant units such as owners and monitoring to visually check the slope field condition; the monitoring host 304 is used for storing and analyzing monitoring data, and automatically transmitting the monitoring data to a data processing system of a remote terminal through a 4G network.

Measuring mechanism 1 includes laser range finder 101 and dial 102 and scale adjustment box 103 of being connected with it, scale adjustment box 103 links to each other with monitoring host computer 304, and when laser range finder 101 monitoring for the first time, through the manual work to find sloping monitoring point, with its monitoring information storage at monitoring host computer 304, follow-up will be transferred by monitoring host computer scale adjustment box and accomplish and predetermine monitoring work, specifically, by monitoring host computer 304 sends regulation and control instruction to scale adjustment box 103, through the vertical monitoring angle of dial 102 adjustment laser range finder 101, can accomplish same sectional multiple spot monitoring work.

The supporting frame 4 is a cross structure formed by a vertical rod 401 and a cross rod 402, the measuring mechanism 1 is provided with two parts, the two parts are fixedly connected to two ends of the cross rod 402 through bolts respectively, a first auxiliary rod 403 for installing a high-definition camera 2 is arranged above the cross rod 402, and the high-definition camera 2 is fixedly connected to the top end of the first auxiliary rod 403; a second auxiliary rod 404 for installing the monitoring case 3 is arranged below the cross rod 402, and the monitoring case 3 is fixedly connected to the second auxiliary rod 404 and the vertical rod 401; reinforcing rods 405 are arranged between the vertical rods 401, the cross rods 402 and the first auxiliary rods 403 and used for enhancing the connection strength of the rod pieces; the vertical rod 401, the cross rod 402, the first auxiliary rod 403, the second auxiliary rod 404 and the reinforcing rod 405 are hollow steel pipes which are communicated with one another, and circuits of the monitoring device are all arranged in the vertical rod 401, the cross rod 402 and the auxiliary rods, so that the circuits can be protected, the circuits are prevented from being exposed to the sun and rain in the long term, and the service life of the circuits is prolonged.

The solar power generation mechanism 5 comprises a solar panel 501 and a light sensor 502 arranged on the solar panel 501, the solar panel 501 is rotatably connected with the top end of the upright rod 401 through a rotary driving mechanism 503, and the light sensor 502 and the rotary driving mechanism 503 are both connected with the monitoring host 304; the light sensor 502 collects sunlight data and transmits the sunlight data into the monitoring host 304, and the monitoring host 304 controls the rotary driving mechanism 503 to enable the solar cell panel 501 to rotate around the vertical rod 401, so that the solar cell panel 501 is enabled to collect solar energy fully.

The rotation driving mechanism 503 comprises a gear mechanism 5031 and a driving motor 5032, the driving motor 5032 is connected with the monitoring host 304, specifically, the top end of the upright rod 401 is a fork-shaped structure 4011, a rotation seat with an internal gear is hinged in the middle of the fork-shaped structure 4011 through a hinge shaft, the solar panel 501 is fixedly connected to the rotation seat, a driving wheel meshed with the internal gear is arranged in the rotation seat, and the driving wheel is connected with the driving motor 5032. The light sensor 502 collects sunlight data and transmits the sunlight data to the monitoring host 304, the monitoring host 304 controls the driving motor 5032 to drive the driving wheel to rotate, so that the rotating seat rotates around the vertical rod 401, and further the solar cell panel 501 is driven to rotate along with the sun, and the solar energy can be fully collected.

When the same side slope needs to monitor a plurality of monitoring devices, the distributed monitoring devices are spaced within an effective range, and data transmission of the plurality of monitoring devices can be completed through the 4G router only by one 4G telephone card.

Finally, the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions, and all of them should be covered by the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a visual side slope monitoring devices of remote non-contact, includes measuring mechanism (1) and high definition digtal camera (2), its characterized in that: the measuring mechanism (1) and the high-definition camera (2) are connected with the monitoring case (3) and fixedly connected to a stable stratum of the opposite surface of the side slope to be monitored through a support frame (4); the monitoring case (3) comprises a case (301), and a 4G router (302), a storage battery (303) and a monitoring host (304) which are arranged in the case; the storage battery (303) is connected with a solar power generation mechanism (5) arranged at the top end of the support frame (4), and the monitoring host (304) is connected with a remote terminal through a wireless network.

2. The remote non-contact visual slope monitoring device according to claim 1, wherein: the measuring mechanism (1) comprises a laser range finder (101), a dial (102) and a scale adjusting box (103), wherein the dial (102) and the scale adjusting box (103) are connected with the laser range finder, and the scale adjusting box (103) is connected with a monitoring host (304).

3. The remote non-contact visual slope monitoring device according to claim 1, wherein: the supporting frame (4) is a cross structure formed by an upright rod (401) and a cross rod (402), the measuring mechanism (1) is arranged in two pieces and is fixedly connected with two ends of the cross rod (402), a first auxiliary rod (403) used for installing a high-definition camera (2) is arranged above the cross rod (402), and a second auxiliary rod (404) used for installing a monitoring case (3) is arranged below the cross rod (402).

4. The remote non-contact visual slope monitoring device according to claim 3, wherein: and reinforcing rods (405) are arranged among the vertical rods (401), the cross rods (402) and the first auxiliary rods (403).

5. The remote non-contact visual slope monitoring device according to claim 4, wherein: the vertical rod (401), the cross rod (402), the auxiliary rod and the reinforcing rod (405) are hollow steel pipes which are communicated with each other, and lines for connecting all the parts are distributed on the hollow steel pipes.

6. The remote non-contact visual slope monitoring device according to claim 1, wherein: the solar power generation mechanism (5) comprises a solar panel (501), and a light sensor (502) connected with the monitoring host (304) is arranged on the solar panel (501); the solar cell panel (501) is rotatably connected with the top end of the vertical rod (401) through a rotary driving mechanism (503).

7. The remote non-contact visual slope monitoring device according to claim 6, wherein: the rotary driving mechanism (503) comprises a gear mechanism (5031) and a driving motor (5032) connected with the gear mechanism, and the driving motor (5032) is connected with the monitoring host (304).

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