CN219738240U - Third party damage monitoring device based on infrared sensing - Google Patents

Abstract

The utility model discloses an infrared sensing-based third party damage monitoring device which is used for monitoring the damage condition of a pipeline by a third party. The device is inserted near the pipeline, and the receiving antenna of the monitoring device collects the pipeline and the ground environment information. When the pipeline is damaged by a third party, the central processor continuously transmits the monitored information to a central control center system of a pipeline company through the receiving antenna and lights up to sound an alarm, so that the pipeline is prevented from being damaged by the third party. The utility model has excellent application effect on monitoring the damage of the pipeline by a third party.

Description

Third party damage monitoring device based on infrared sensing

Technical Field

The utility model relates to a third party damage monitoring device based on infrared sensing, in particular to a monitoring device capable of automatically monitoring construction damage early warning management and control of a third party.

Background

Third party damage includes damage that third party company construction, agricultural activities, illegal building occupation, traffic activities, etc. may cause to the pipeline, and the pipeline is broken by the third party and often causes perforation, fracture to occur. The characteristics of the high-consequence area of the pipeline determine that the damage probability of the third party is high, and meanwhile, the loss generated after the damage of the third party of the pipeline has great influence on personnel and environment. Because some pipelines are complicated and hidden, the damage probability of a third party is high, and the damage to the pipelines not only causes huge economic loss, but also threatens personnel safety and damages ecological environment, so that early warning alarms are established in advance when the pipelines are about to be damaged by the third party. Compared with a common warning sign beside a pipeline, the warning sign can be fixed near the pipeline to monitor the pipeline in real time, and once the pipeline is detected to be damaged by a third party, the warning sign can be sounded by a lighting lamp to warn and warn to a central control room to replace the common warning sign, so that the workload of a line patrol worker can be reduced in severe weather environment, the monitoring work is completed, the pipeline is subjected to damage warning analysis by the third party, and the normal and safe operation of the pipeline is maintained and ensured.

Disclosure of Invention

The utility model aims to solve the problem of low labor inspection work efficiency, monitor the construction damage situation of a third party in real time and improve the construction damage monitoring efficiency and accuracy of the third party, so that the utility model provides the third party damage monitoring device based on infrared sensing.

In order to achieve the above purpose, the utility model has the following technical scheme: a third party damage monitoring device based on infrared sensing mainly comprises an energy supply module, a monitoring and early warning module and a supporting module. The energy supply module consists of a solar panel, a wind driven generator, an integrated wire and a central processor; the monitoring and early warning module consists of a receiving antenna, an infrared sensor, a warning lamp and an alarm; the support module consists of a telescopic shaft, a bolt, a fixed lantern ring, a rotating base, a support shaft, a support base and a telescopic sleeve; the solar cell panel of the energy supply module is connected with the telescopic shaft and is inserted on the infrared sensor, the receiving antenna is fixed in the middle of the infrared sensor, the telescopic shaft penetrates through the infrared sensor and is fixed through threads, the bottom of the telescopic shaft is inserted with the telescopic sleeve, the telescopic sleeve penetrates through the rotating base and is connected and fixed with the rotating base through threads, the left side of the rotating base is connected with the alarm device connected with the alarm through the alarm lamp, the right side of the rotating base is connected with the wind driven generator, the central processor is arranged in the wind driven generator, and the bottom of the wind driven generator is connected with the top of the supporting shaft through threads; the central processor is connected with the receiving antenna, the infrared sensor, the warning lamp and the alarm in series through the integrated lead to form a closed circuit; the bottom of the supporting shaft is spliced with the supporting base through threads, and all parts are assembled from top to bottom to form a whole.

Preferably, a supporting shaft of the solar cell panel is arranged on the rotary button, the direction of the supporting shaft is automatically adjusted according to received light energy, sunlight is fully received for power supply, the inside of the supporting shaft is hollow, and the supporting shaft is vertically penetrated for inserting a lead;

preferably, the rotating base is vertically penetrated, the inner wall of the upper through hole is provided with an internal thread connected with the telescopic sleeve, a space for accommodating the central processor is arranged below the thread, the internal thread connected with the supporting shaft is arranged below the cavity, and the left and right of the rotating base are respectively penetrated and provided with an alarm device integrated with the alarm lamp and the alarm and an internal thread connected with the wind driven generator;

preferably, a signal emitting line is arranged in the warning lamp, the color of the warning lamp is green when no third party construction damage occurs, and the warning lamp is red when the interference of a third party object is monitored; the received information is transmitted to the warning lamp, and the signal transmitting line in the warning lamp transmits the collected information to the central control room, so that real-time monitoring is realized;

the infrared sensor and the alarm lamp are rotationally connected with the fixed button, one side of the main sleeve is provided with three small holes with threads for being connected with the fixed button, and when the monitoring device breaks down, the infrared sensor, the alarm lamp and the rotary button are disassembled for processing and repairing;

preferably, the telescopic shaft and the fixed sleeve ring can be flexibly adjusted up and down, and when the position is proper, the fixed button arranged on the fixed sleeve ring is rotated to determine the monitoring pile at the proper height;

advantageous effects of the utility model

According to the utility model, the construction damage condition of the third party can be detected, the situation of the third party damage such as the mining behavior, the construction and the vehicle rolling and crossing behavior can be detected when the construction damage of the third party occurs, when the dangerous behavior area of the third party is contacted with the pipeline monitoring safety area, the third party damage place can be precisely positioned, the collected change data of the construction situation of the third party can be timely transmitted to the general control center of the company, the company can formulate corresponding emergency management and control measures for the construction damage condition of the third party, the investment of manpower resources is greatly reduced, the third party damage monitoring time is shortened, and the working efficiency of the construction damage repair of the third party is improved.

The telescopic shaft and the telescopic sleeve are connected through the fixed sleeve ring, the fixing device can be rotated according to the field condition, the surface of the telescopic shaft is provided with a plurality of through holes, the telescopic shaft and the through holes above the matched telescopic sleeve ring are inserted and fixed through bolts and the fixed sleeve ring, the monitoring height and the range of the adjusting device can be customized according to the working environment, and the part has a firm and durable mechanical protection structure and can be deployed in a working monitoring area for a long time, so that the telescopic shaft can adapt to various complex working conditions, and meanwhile, the telescopic shaft has long service life, and reduces the investment of manpower and financial resources.

Drawings

FIG. 1 is a schematic diagram of a third party damage monitoring device based on infrared sensing;

FIG. 2 is a vertical cross-sectional view of an infrared sensing-based third party damage monitoring device;

FIG. 3 is a diagram of a rotating base of an infrared sensing-based third party damage monitoring device;

FIG. 4 is a schematic diagram of a third party damage monitoring device support base based on infrared sensing;

FIG. 5 is a schematic view of a third party damage monitoring device telescoping shaft based on infrared sensing;

in the figure: 1. a receiving antenna; 2. a solar cell panel; 3. a telescopic shaft; 4. a bolt; 5. a fixed collar; 6. a rotating base; 7. a warning light; 8. an alarm; 9. a central processor; 10. a support shaft; 11. a support base; 12. a telescoping sleeve; 13. a wind power generator; 14. integrating wires; 15. and an infrared sensor.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

as shown in the figure, the third party damage monitoring device based on infrared sensing provided by the utility model comprises the following components: the solar energy power generation device comprises a receiving antenna 1, a solar cell panel 2, a telescopic shaft 3, a bolt 4, a fixed sleeve ring 5, a rotary base 6, a warning lamp 7, an alarm 8, a central processor 9, a supporting shaft 10, a supporting base 11, a telescopic sleeve 12, a wind driven generator 13, an integrated lead 14 and an infrared sensor 15.

The utility model is used for monitoring and early warning the third damage accident high-emissivity pipe section, and comprises the following steps:

(1) Transporting all parts of the third-party damage monitoring device based on infrared sensing to a key monitoring pipe section, and assembling and connecting all the parts;

(2) Determining a set place of a monitoring pile, and placing the monitoring pile in the set place;

(3) Adjusting the telescopic shaft 3 of the monitoring pile, and fixing the supporting base 11 to be vertical to the ground;

(4) The position of the fixed lantern ring 5 on the telescopic sleeve 12 is adjusted to enable the third party damage monitoring device to be exactly positioned at the required monitoring position;

(5) The power supplies of the warning lamp 7, the alarm 8, the solar cell panel 2 and the central processor 9 are turned on, wireless networking is carried out with a central control center of a company, whether a circuit is on or not is checked, and the electric frequency feedback conditions of the infrared sensor 15 and the signal receiving antenna 1 are debugged;

(6) When the third party damage behavior occurs to the monitored pipe section, the infrared sensor 15 monitors the third party damage dangerous situation, the warning lamp 7 is triggered to flash and the alarm 8 gives an audible and visual alarm, in addition, the receiving antenna 1 continuously transmits all the sensor monitoring information to the main control center system, and then the company carries out timely rush repair maintenance work on the third party damage accident occurrence place;

in a non-working state, most parts of the utility model are in threaded connection, so that the utility model can be disassembled, recovered and stored, has good storage and transportation effects, and is convenient for disassembling and detecting failure reasons and carrying out maintenance treatment when failure occurs;

the utility model can monitor the positioning of the construction damage point of the third party and the trend of the damage behavior of the third party in time, greatly reduces the investment of manpower inspection, and can adapt to complex and severe terrain environments; the utility model has the advantages of good monitoring effect, wide application range, strong applicability, high efficiency, energy conservation, convenient storage and transportation and excellent application effect on monitoring and early warning of third party construction damage.

Claims (3)

1. The third party damage monitoring device based on infrared sensing is characterized by comprising an energy supply module, a monitoring and early warning module and a supporting module; the energy supply module consists of a solar panel (2), a wind driven generator (13), an integrated lead (14) and a central processor (9); the monitoring and early warning module consists of a receiving antenna (1), an infrared sensor (15), a warning lamp (7) and an alarm (8); the support module consists of a telescopic shaft (3), a bolt (4), a fixed sleeve ring (5), a rotary base (6), a support shaft (10), a support base (11) and a telescopic sleeve (12); the solar cell panel (2) of the energy supply module is connected with the telescopic shaft (3) and is inserted on the infrared sensor (15), the receiving antenna (1) is fixed in the middle of the infrared sensor (15), the telescopic shaft (3) penetrates through the infrared sensor (15) and is fixed through threads, the bottom of the telescopic shaft is inserted with the telescopic sleeve (12), the telescopic sleeve (12) penetrates through the rotary base (6) and is connected and fixed with the rotary base through threads, the left side of the rotary base (6) is connected with the alarm device, the alarm device is connected with the alarm (8), the right side of the rotary base is connected with the wind driven generator (13), the central processor (9) is arranged in the right side of the rotary base, and the bottom of the rotary base is connected with the top of the supporting shaft (10) through threads; the central processor (9) is connected with the receiving antenna (1), the infrared sensor (15), the warning lamp (7) and the alarm (8) in series through the integrated lead (14) to form a closed circuit; the bottom of the supporting shaft (10) is spliced with the supporting base (11) through threads, and all parts are assembled from top to bottom to form a whole.

2. The third party damage monitoring device based on infrared sensing according to claim 1, wherein the rotating base (6) is vertically communicated, the inner wall of the upper through hole is provided with an internal thread connected with the telescopic sleeve (12), a space for placing the central processor (9) is arranged below the thread, the internal thread connected with the supporting shaft (10) is arranged below the cavity, and the left and right of the rotating base (6) are respectively provided with an alarm device integrated with the alarm lamp (7) and the alarm (8) and an internal thread connected with the wind power generator (13).

3. The infrared sensing-based third party damage monitoring device according to claim 1, wherein a plurality of through holes are formed in the surface of the telescopic shaft (3), the bolt (4) and the fixing collar (5) can be inserted and fixed with the through holes above the matched telescopic sleeve (12), and the monitoring height and range of the device can be adjusted.