CN213342432U - High slope close-range monitoring facilities - Google Patents

Abstract

The utility model discloses a high slope close-range monitoring device, which comprises two cameras with adjustable focus lenses, an android development integrated board, a remote transmission module and a remote controller, wherein the two cameras with the adjustable focus lenses are installed side by side and are simultaneously started to take photos; the android development integration board is an embedded computer module and is connected with two cameras with adjustable lenses; the remote controller is positioned outside the equipment and electrically connected with the android development integration board; the remote transmission module adopts 4G transmission and is integrally installed on the circuit of the android development integration board. The device has the advantages of simple structure, low cost, high precision and high reliability, and can meet the monitoring requirements on the highway or the common highway side slope.

Description

High slope close-range monitoring facilities

Technical Field

The utility model relates to a side slope monitoring technology field especially relates to a high slope close-range monitoring facilities.

Background

At present, high slope monitoring sensors include local monitoring and overall monitoring, and are mainly used for local monitoring of optical fibers, piezoelectric intelligent materials and sensing elements, such as optical fibers, resistance strain wires, fatigue life wires, piezoelectric materials, carbon fibers, semiconductor materials, shape memory alloys and the like, and sensing important parts and important components of a structure in a surface attachment or embedding manner to acquire parameter signals reflecting local structural characteristics. Although the sensor has many advantages, the sensor can only realize point-type or line-type distributed measurement, the surface-type or body-type measurement in the true sense is difficult to realize, and the acquired signal can only reflect the characteristics of a local structure.

Disclosure of Invention

The utility model aims at providing a high slope close-range monitoring facilities, this equipment structure is simple, with low costs, the precision is high, the reliability is high, can satisfy the monitoring demand to highway or ordinary highway side slope.

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

a high slope close-up monitoring device comprises two cameras with focusing lenses, an android development integrated board, a remote transmission module and a remote controller, wherein:

two cameras with adjustable focus lenses are arranged side by side, and start to shoot simultaneously when shooting;

the android development integration board is an embedded computer module and is connected with two cameras with adjustable lenses;

the remote controller is positioned outside the equipment and electrically connected with the android development integration board;

the remote transmission module adopts 4G transmission and is integrally installed on the circuit of the android development integration board;

the device is fixed in the stable position of the monitoring point by using a universal joint or a cement pouring mode.

The whole structure of the equipment is fixed by adopting an aluminum material and comprises a lens, a camera sensor and a circuit board, wherein the camera sensor is fixed and the circuit board is fixed by screws.

All the support frames of the equipment are made of steel pipes or square pipes, and the diameter or side length is more than 15 cm.

The equipment is arranged at a foundation stable point within a certain range from a bridge to be monitored, and a special target is arranged on a side slope;

or the equipment is arranged on a pier to be monitored to carry out sequence image acquisition on the target on the ground.

The adjustable focus section of the adjustable focus lens ranges from 6mm to 120 mm.

By the aforesaid the technical scheme provided by the utility model can see out, above-mentioned equipment structure is simple, with low costs, the precision is high, the reliability is high, can satisfy the monitoring demand to highway or ordinary highway side slope.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the description below are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is the embodiment of the utility model provides a high slope close-range monitoring facilities's overall structure schematic diagram.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the 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 embodiment of 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 embodiment of the present invention will be described in further detail with reference to the accompanying drawings, and as shown in fig. 1, the embodiment of the present invention provides a high slope close-range monitoring device, which includes two cameras with adjustable focus lenses, an android development integrated board, a remote transmission module, and a remote controller, wherein:

the two cameras with the adjustable-focus lenses are used for adjusting the shooting distance, the No. 1 lens shoots a high-resolution image, and the No. 2 lens shoots a lower-resolution image; the two cameras are arranged side by side, photographing is started simultaneously during photographing, and the two cameras are matched for correction to improve the measurement precision;

the android development integration board is an embedded computer module, is connected with two cameras with adjustable-focus lenses and is used for controlling shooting of the two cameras;

the remote controller is located outside the equipment, is electrically connected with the android development integration board, and is used for controlling the starting and closing of the whole equipment and remotely adjusting the equipment when needed, so that the labor cost and the time cost are effectively reduced;

the remote transmission module adopts 4G transmission and is integrally installed on the circuit of the android development integration board.

In the concrete implementation, solar energy, an anti-theft battery and a wind and rain prevention device can be arranged on the equipment.

The device is fixed in the stable position of the monitoring point by using a universal joint or a cement pouring mode.

In the concrete realization, the overall structure of equipment adopts aluminium system material fixed, including camera lens fixed, camera sensor fixed and circuit board screw fixation.

All the support frames of the equipment are made of steel pipes or square pipes, and the diameter or side length is more than 15 cm.

The equipment is arranged at a foundation stable point within a certain range from a bridge to be monitored, and a special target is arranged on a side slope;

or the equipment is arranged on a pier to be monitored to carry out sequential image acquisition on the target on the ground, and the equipment can identify the deviation value of the target through an image.

The adjustable focus section of the adjustable focus lens is in the range of 6mm-120mm, and the monitoring precision is guaranteed in the view field range and the resolution.

In the specific implementation, in a construction site, 4 screws are used for screwing the equipment shell and the universal joint, the universal joint is fixed at a stable point by 6 expansion screws, and the point needs to be selected according to the environment of the site and the position of a monitored target; then, manufacturing an aluminum plate target, and fixing the aluminum plate target on the bridge pier or the bridge body by using glue or screws; and adjusting the zoom lens, adjusting the size of the image of the target on the image to about 40% of the full-width area, and screwing a fixing screw on the lens after the adjustment is finished.

After the field hardware debugging is completed, the hardware facilities also need to be debugged, and the main contents of the debugging are as follows:

1) checking the installation stability of each component and the correctness of various wiring, particularly the wiring condition of an electric wire, and absolutely not allowing the condition of positive and negative reverse connection;

2) the power-on test is carried out, after the wiring is checked to be correct, the power-on test is carried out to check the conditions of various indicator lights of the circuit board, including a blue light of a camera, a power light of the circuit board, a 4g network and the like;

3) the tightness of the apparatus such as water and dust resistance of the apparatus is checked.

After the test is accomplished, just can utilize the utility model discloses an equipment discerns the image of target, then compares the analysis with the image of presetting equipment, need consider when image identification at the eigenvalue of level, vertical direction, and application filtering analysis improves the monitoring precision.

It is noted that the embodiments of the present invention not described in detail belong to the prior art known to those skilled in the art.

In summary, compared with the traditional slope equipment, the equipment of the utility model has much lower cost; the degree of automation is high, the whole process is automatic, manual intervention is not needed, and the manual intervention is only needed when the image acquisition frequency is adjusted; meanwhile, the precision of monitoring the highway slope is equal to or higher than that of the traditional monitoring equipment.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are all covered by the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (5)

1. The utility model provides a high slope close-range monitoring facilities, its characterized in that, the equipment includes two cameras that have adjustable focus lens, android development integrated board, teletransmission module, remote control ware, wherein:

two cameras with adjustable focus lenses are arranged side by side, and start to shoot simultaneously when shooting;

the android development integration board is an embedded computer module and is connected with two cameras with adjustable lenses;

the remote controller is positioned outside the equipment and electrically connected with the android development integration board;

the remote transmission module adopts 4G transmission and is integrally installed on the circuit of the android development integration board;

the device is fixed in the stable position of the monitoring point by using a universal joint or a cement pouring mode.

2. The high slope close-up monitoring device of claim 1,

the whole structure of the equipment is fixed by adopting an aluminum material and comprises a lens, a camera sensor and a circuit board, wherein the camera sensor is fixed and the circuit board is fixed by screws.

3. The high slope close-up monitoring device of claim 1,

all the support frames of the equipment are made of steel pipes or square pipes, and the diameter or side length is more than 15 cm.

4. The high slope close-up monitoring device of claim 1,

the equipment is arranged at a foundation stable point within a certain range from a bridge to be monitored, and a special target is arranged on a side slope;

or the equipment is arranged on a pier to be monitored to carry out sequence image acquisition on the target on the ground.

5. The high slope close-up monitoring device of claim 1,

the adjustable focus section of the adjustable focus lens ranges from 6mm to 120 mm.

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