CN212674216U - Distribution network data monitoring system based on pole tower - Google Patents

Abstract

The utility model discloses a distribution network data monitoring system based on shaft tower, including display device and monitoring devices, monitoring devices includes monitoring host, shoots with a video recording subassembly and acquisition sensor, display device and monitoring host communication connection, shoots with a video recording subassembly and includes mounting base and a plurality of first monitor probe that circumference was arranged for the image data of the surrounding environment of active or passive shooting acquisition construction region, still includes a plurality of warning posts that are located the construction region and set for the position all around, installs a second monitor probe and infrared inductive probe on each warning post; the monitoring host triggers the first monitoring probe and the second monitoring probe to work synchronously according to the sensing signal of the infrared sensing probe, and an analysis unit is arranged in the monitoring host and used for comparing and analyzing historical image data and currently acquired image data; the utility model discloses can be more comprehensive monitor the job site, the guarantee project construction progress impels on time.

Description

Distribution network data monitoring system based on pole tower

Technical Field

The utility model belongs to the technical field of electric power construction control management.

Background

The power distribution network project construction stage has multiple blind spots, complex intermediate links and severe construction environment; in the process of construction, the required equipment of distribution network project is various, and many all need live working, lead to the electric shock risk in the operation region to increase, in addition in some distribution projects, there is higher requirement to the operational environment, need guarantee the temperature and the humidity of certain standard of construction environment etc., distribution project is higher to the requirement of some equipment and environment simultaneously, if cause the change of equipment maloperation removal or construction area environment when the construction, all probably cause construction error, but under the on-the-spot complicated operating mode, can not stop the maloperation removal of equipment and the intrusion of foreign object completely, can see out, if not strict management and control in the distribution network project construction process, the time limit delay appears very easily, safety and quality accident appear.

The power distribution network project generally belongs to a major project, the completion quality and the progress of the power distribution network project directly relate to the development of economy, and therefore, a monitoring system which can be comprehensively monitored in the construction process and can achieve safety, quality guarantee and speed guarantee is very necessary.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a distribution network data monitoring system based on shaft tower can be more comprehensive monitor the job site, and the guarantee project construction progress impels on time.

In order to solve the technical problem, the utility model discloses a following technical scheme: a power distribution network data monitoring system based on a tower comprises a display device and a monitoring device, wherein the monitoring device comprises a monitoring host, a shooting assembly and an acquisition sensor, the display device is in communication connection with the monitoring host, the shooting assembly comprises a mounting base and a plurality of first monitoring probes which are circumferentially arranged and used for actively or passively shooting and acquiring image data of the surrounding environment of a construction area, the power distribution network data monitoring system also comprises a plurality of warning columns which are located at set positions around the construction area, and each warning column is provided with a second monitoring probe and an infrared induction probe; the monitoring host triggers the first monitoring probe and the second monitoring probe to work synchronously according to the sensing signal of the infrared sensing probe, and an analysis unit is arranged in the monitoring host and used for comparing and analyzing historical image data and currently acquired image data.

Preferably, the display device includes a main display and a sub display, the sub display is connected to the storage device, the main display displays the real-time monitoring image, and the sub display displays the historical image data.

Preferably, the system further comprises a plurality of identification contour lines which are drawn on the ground of the construction area.

Preferably, the mounting base for carrying the video recording assembly is remotely and detachably mounted on the tower crosspiece through a remote control device.

Preferably, the mounting base includes the cylinder, be equipped with the sleeve that rotates the connection on the cylinder, first monitor installs on the sleeve, the upper end of cylinder is fixed with the backup pad that the horizontal direction extends, is equipped with protruding piece on the lower terminal surface of backup pad end, and the gliding support of backup pad can be followed to the backup pad end is installed to the backup pad end, the support is by last flat board, lower flat board and connection upper flat board and lower dull and stereotyped connecting plate form U type structure, it installs on the up end of backup pad to go up the flat board, the flat board is located the lower part of backup pad and runs through protruding piece cartridge down, it is gapped between the lower terminal surface of flat board and backup pad down, the lower terminal surface of backup pad be equipped with the vertical board with protruding piece interval arrangement, the upper end of.

Preferably, a spring is connected between the connecting plate and the side wall of the supporting plate, an electromagnet is arranged on the side wall of the supporting plate, a magnetic block corresponding to the electromagnet is arranged on the connecting plate, mutual repulsion magnetic force is formed between the electromagnet and the magnetic block when the electromagnet is powered on, the spring is stretched under the action of the mutual repulsion magnetic force to enable the lower flat plate to slide to one side far away from the vertical plate, and the flat plate slides to one side close to the vertical plate under the action of the spring when the electromagnet is powered off.

Preferably, the collection sensors are distributed in a plurality of positions in the construction area, and the collection sensors include but are not limited to voltage sensors, current sensors, temperature sensors and humidity sensors.

Preferably, each warning post is provided with an infrared grating post, each infrared grating post comprises a receiving unit and a transmitting unit, and the transmitting unit on one infrared grating post is matched with the receiving unit on the adjacent infrared grating post for use.

The utility model discloses a designed display device and monitoring devices, monitoring devices can acquire the setting for azimuth image data according to presetting the time, contrast through the image data of analysis unit and initial stage or previous stage to contrast in order to obtain the information normal or warning with presetting the model. Through the first monitor who distributes at the construction area central point position and the second monitor who is located four corners position, realize the all-round control to the construction area, mounting structure through recording the subassembly, accessible unmanned aerial vehicle combines remote control's mode to install first monitor in the eminence, rotatable structure through first monitor, it is wider to make the control coverage, simultaneously through the collection sensor of the distribution that sets up the different grade type in the construction area, can obtain regional holistic environmental aspect in real time, each part developments in the region can be observed at any time to main display screen that combines display device, through designing vice display screen, can put in historical monitoring information, conveniently contrast with the current environmental aspect at any time, in time know the progress and carry out the etc. of traceing back of maloperation, make the progress control more perfect.

Drawings

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

Fig. 1 is an overall schematic diagram of the monitoring system of the present invention;

fig. 2 is a schematic plan view of the field arrangement of the monitoring system of the present invention;

fig. 3 is a schematic diagram of the hardware connection structure of the monitoring system of the present invention;

fig. 4 is a schematic view of the monitoring system of the present invention;

fig. 5 is a schematic view of the structure (extended state of the stand) of the camcorder assembly of the present invention;

fig. 6 is a schematic view of the fitting and installation state of the camera assembly and the upper angle steel of the tower according to the present invention.

In the figure:

a monitoring host 1; a collection sensor 2; a pole tower 3; a warning post 4; a first monitoring probe 5; a second monitoring probe 6; a main display 7; a sub display screen 8; an identification contour line 9; a storage device 10; a column 11; a support plate 12; a sleeve 13; a bump 14; an upper plate 15; a lower plate 16; a vertical plate 17; a hook 18; a spring 19; an electromagnet 20; a magnetic block 21.

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. Based on the embodiments in 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 utility model provides a power distribution network data monitoring system based on pole tower, as shown in attached figures 1 to 6, comprising a display device and a monitoring device, wherein the monitoring device comprises a monitoring host 1, a shooting component and an acquisition sensor 2, the display device is in communication connection with the monitoring host 1, at the initial stage of project construction, firstly, the shooting component is lifted by an unmanned aerial vehicle and is installed at a position with a certain height on the pole tower 3 through remote control, the shooting component comprises an installation base and a plurality of first monitoring probes 5 which are circumferentially arranged and used for actively or passively shooting and acquiring image data of the surrounding environment of a construction area, because in the construction process, the construction area of a power distribution project is generally radial with the pole tower 3 as the center, the first monitoring probes 5 are installed on the pole tower 3, the whole construction area can be monitored in an omnibearing way, in order to improve the monitoring range, the first monitoring probe 5 is designed into a rotatable structure, a plurality of warning columns 4 are arranged at set positions around a construction area, and a second monitoring probe 6 and an infrared sensing probe are arranged on each warning column 4; the monitoring host 1 triggers the first monitoring probe 5 and the second monitoring probe 6 to work synchronously according to the sensing signal of the infrared sensing probe, an analysis unit is arranged in the monitoring host 1 and is used for comparing and analyzing historical image data and currently acquired image data, so that the change of the environment in a construction area can be found in time, and synchronous comparison and display are carried out through a main display screen 7 and an auxiliary display screen 8 on a display device, so that the construction progress and the environmental change caused by non-project construction in the construction area can be known in time, whether the influence is brought to the construction or not can be judged in time, for example, whether the buildings built by surrounding villagers can cause danger to a power distribution project or not can be judged in time, the influence brought by the environmental change in the construction process can be well controlled by regularly comparing and observing the environmental change, the construction efficiency is improved, a plurality of directions of the acquisition sensors 2 distributed in the construction area are provided, and the main display screen 7 in the display device is, so that know the instant developments in the construction area at any time, vice display screen 8 mainly is used for contrasting with main display screen 7, at the project construction initial stage, vice display screen 8 is through reading the construction model that has designed in showing storage device 10, through the contrast with main display screen 7, the installation and debugging work that is used for guiding project initial stage construction equipment, second is problem in the work progress is traceed back, show simultaneously through real-time image and historical image and contrast, can in time know the shift etc. that the maloperation of project construction progress and production caused equipment.

The ground in the construction area is carved with many sign outline lines 9, location that can be better is observed, as shown in fig. 2, 4, because the distribution network project is in the construction process, generally all be with a center to the construction mode of radiating all around, with the position of sign outline line 9 use shaft tower 3 as the center when the design, 9 interval distribution of sign outline line, the spacing is selected according to operating condition, sign outline line 9 generally marks at the construction initial stage, sign outline line 9 is circular or square, forms an annular to there is corresponding observation benchmark in the observation process, the accurate quick definite position of being convenient for, when actual design, in order to improve the degree of distinguishing, sign outline line 9 can design for different colours or adopt different reference numbers to further distinguish.

The utility model provides a shoot with video-corder the subassembly and pass through the installation of unmanned aerial vehicle remote control, all have certain requirement to the convenience of installation and the stability after the installation, to the mounting structure who shoots with video-corder the subassembly, the utility model provides an embodiment: the installation base is composed of a column body 11, a support plate 12 and a support, a sleeve 13 for installing the first monitoring probe 5 is arranged on the column body 11, the first monitoring probe 5 is circumferentially distributed on the sleeve 13, the sleeve 13 can rotate on the column body 11, a specific rotation driving mechanism is designed in the column body 11, the rotation of the sleeve 13 can be designed to be 360-degree rotation or certain-amplitude reciprocating swing, and the purpose is to realize the omnibearing monitoring of a construction area; the support plate 12 is arranged at the upper end of the column body 11 and is vertical to the column body 11, the lower end face of the end of the support plate 12 is provided with a convex block 14, the end of the support plate 12 is provided with a support which can slide along the support plate 12, the support is of a U-shaped structure formed by an upper flat plate 15, a lower flat plate 16 and a connecting plate which connects the upper flat plate 15 and the lower flat plate 16, the upper flat plate 15 is slidably arranged on the upper end face of the support plate 12, the lower flat plate 16 is positioned at the lower part of the support plate 12 and penetrates through the convex block 14 to be inserted, a gap is arranged between the lower flat plate 16 and the lower end face of the support plate 12, the size of the gap is slightly larger than the thickness of angle steel, the lower end face of the support plate 12 is provided with a vertical plate 17 which is arranged at a distance from the convex block 14, the gap between the vertical plate, the connecting plate is provided with a magnetic block 21 corresponding to the electromagnet 20; the utility model discloses a it is fixed to have designed and to have followed gliding support of backup pad 12 and vertical board 17 and cooperate, at initial state, electro-magnet 20 circular telegram, the used power of electro-magnet 20 adopts same power with first monitor 5 and drive assembly, form the magnetic force of mutual exclusion between electro-magnet 20 circular telegram and the magnetic path 21, spring 19 is stretched under the effect of mutual exclusion magnetic force and is made dull and stereotyped 16 slide to keeping away from vertical board 17 one side down, break away from backup pad 12 in order to prevent the support, the end lower part of dull and stereotyped 16 is equipped with the stopper down, when concrete installation is fixed, at first unmanned aerial vehicle lifts up through couple 18 and shoots with the subassembly, unmanned aerial vehicle falls on the up end of shaft tower crosspiece with the lower terminal surface of backup pad 12, and adjust vertical board 17 to the position of the vertical face of. After the adjustment is in place, the electromagnet 20 is powered off through remote control of the remote control device, at the moment, the support can slide under the action of the spring 19, the lower flat plate 16 extends to the lower portion of the angle steel, after the lower flat plate 16 moves in place, the remote control unmanned aerial vehicle is separated from the hook 18, at the moment, the vertical plate 17 on the shooting and recording assembly and the lower flat plate 16 can form a clamping and fixing structure with the angle steel, as shown in the attached drawing 6, when the angle steel is installed, the whole shooting and recording assembly can incline to a certain degree, but the whole stability cannot be influenced, the structure is integrally fixed and firm, the operation is convenient, when the unmanned aerial vehicle is disassembled, the hook 18 is firstly hoisted by the unmanned aerial vehicle, the shooting and recording assembly is leveled, then the electromagnet 20 is powered on, the.

The utility model discloses well acquisition sensor 2 includes voltage sensor, current sensor, temperature sensor, humidity transducer, position sensor etc. and each item parameter in the work progress is known to its mainly used, and a plurality of positions in the construction area are installed to temperature sensor and humidity transducer, and position sensor generally installs on important equipment.

Because there is higher electric shock risk in the distribution project, avoid the intrusion of foreign object to cause danger, the utility model discloses all be equipped with the infrared light bars post on every warning post 4, the infrared light bars post includes receiving element and transmitting element, and the transmitting element on the infrared light bars post is paired with the receiving element on the adjacent infrared light bars post and is used, through the infrared ray formation protective line between the adjacent warning post 4, in the work progress, when the foreign object enters, can block the infrared ray, can send alarm signal this moment, for more striking warning extraneous personnel simultaneously, be equipped with the reflective membrane on warning post 4's outer fringe face, can prevent that artificial mistake from intruding into at night.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

Claims (6)

1. A power distribution network data monitoring system based on a tower is characterized by comprising a display device and a monitoring device, wherein the monitoring device comprises a monitoring host, a shooting and recording assembly and an acquisition sensor, the display device is in communication connection with the monitoring host, the shooting and recording assembly comprises a mounting base and a plurality of first monitoring probes which are circumferentially arranged and are used for actively or passively shooting and acquiring image data of the surrounding environment of a construction area, the power distribution network data monitoring system also comprises a plurality of warning columns which are positioned at set positions around the construction area, and each warning column is provided with a second monitoring probe and an infrared induction probe; the monitoring host triggers the first monitoring probe and the second monitoring probe to work synchronously according to the sensing signal of the infrared sensing probe, and an analysis unit is arranged in the monitoring host and used for comparing and analyzing historical image data and currently acquired image data.

2. The tower-based power distribution network data monitoring system as recited in claim 1, wherein the display device comprises a main display screen and a secondary display screen, the secondary display screen is connected to the storage device, the main display screen displays real-time monitoring images, and the secondary display screen displays historical image data.

3. The tower-based power distribution network data monitoring system as recited in claim 1, further comprising a plurality of identification contour lines depicted on the ground of the construction area.

4. The tower-based power distribution network data monitoring system of claim 1, wherein the mounting base carrying the camera assembly is removably mounted to the tower rail by remote control via a remote control device.

5. The tower-based power distribution network data monitoring system of claim 4, the mounting base comprises a cylinder body, a sleeve is arranged on the cylinder body in a rotating connection, the first monitoring probe is mounted on the sleeve, a supporting plate extending in the horizontal direction is fixed at the upper end of the column body, a convex block is arranged on the lower end surface of the end head of the supporting plate, a bracket capable of sliding along the supporting plate is arranged at the end head of the supporting plate, the bracket is of a U-shaped structure formed by an upper flat plate, a lower flat plate and a connecting plate connecting the upper flat plate and the lower flat plate, the upper flat plate is arranged on the upper end surface of the supporting plate, the lower flat plate is positioned at the lower part of the supporting plate and inserted through the convex blocks, a gap is reserved between the lower flat plate and the lower end face of the supporting plate, a vertical plate which is arranged at an interval with the protruding block is arranged on the lower end face of the supporting plate, and a hook is arranged at the upper end of the supporting plate.

6. The power distribution network data monitoring system based on the tower as claimed in claim 5, wherein a spring is connected between the connecting plate and the side wall of the supporting plate, an electromagnet is arranged on the side wall of the supporting plate, a magnetic block corresponding to the electromagnet is arranged on the connecting plate, mutually exclusive magnetic force is formed between the electromagnet and the magnetic block when the electromagnet is powered on, the spring is stretched under the action of the mutually exclusive magnetic force to enable the lower flat plate to slide to one side far away from the vertical plate, and the flat plate slides to one side close to the vertical plate under the action of the spring when the electromagnet is powered off.

Images