CN113670261A - Power engineering informatization field supervision device and supervision method - Google Patents

Abstract

The invention discloses an electric power engineering informatization field supervision device and a supervision method, which comprise supervision mechanisms respectively arranged at two sides of an enclosing wall, wherein each supervision mechanism comprises: the device comprises a base, a mounting plate arranged on the base and a measuring piece used for detecting the distance between the mounting plate and an enclosing wall, wherein the base is provided with a first driving assembly used for driving the base to move along the length direction of the enclosing wall; the measuring part is arranged on the mounting plate; the side walls of the two mounting plates, which are opposite to each other, are provided with first sliding grooves, sliding rods are arranged in the first sliding grooves in a sliding manner, one ends of the sliding rods, which are far away from the bottoms of the first sliding grooves, extend out of the mounting plates and are connected with supporting plates, and second driving assemblies for driving the sliding rods to slide are arranged in the mounting plates; the supervision method comprises the following steps: acquiring data information received by two signal receivers; measuring data information based on measuring pieces on two sides of the enclosing wall; data information is measured based on the measuring pieces on the two sides of the enclosing wall. The method and the device have the effect of reducing the situation that the enclosing wall collapses before waiting for constructors to arrive.

Description

Power engineering informatization field supervision device and supervision method

Technical Field

The invention relates to the field of supervision and management, in particular to an electric power engineering informatization field supervision device and supervision method.

Background

At present, along with the continuous development of society, electric power engineering is the engineering related to the production, transmission and distribution of electric energy, and along with the continuous increase of public facilities, the electric power engineering construction such as lighting effect and monitoring system can be carried out in the construction process of enclosure facilities of a building, and after the electric power engineering construction of an enclosure is completed, the enclosure needs to be monitored on site, so that the quality and safety of the enclosure after the construction of the enclosure is completed due to the addition of ionization engineering facilities are ensured.

Currently, after an enclosure and an ionization engineering facility arranged on the enclosure are completed, a quality supervisor in a parking lot can perform quality detection on each corresponding enclosure by using an instrument; and measuring or checking whether the enclosing wall has the phenomena of inclination, collapse and the like, and waiting for a constructor to repair if the enclosing wall does not reach the standard.

In view of the above-mentioned related art, the inventor believes that there is a case where it takes a while to wait for the arrival of constructors after finding that there is an unqualified enclosure, and the enclosure may collapse during the while.

Disclosure of Invention

In order to reduce the situation that the enclosing wall collapses before waiting for constructors to arrive, the application provides a power engineering informatization field supervision device and supervision method.

In a first aspect, the application provides an electric power engineering informatization field supervision device, which adopts the following technical scheme:

an electric power engineering informatization field supervision device comprises: a manage mechanism for locating enclosure both sides respectively, manage the mechanism and include: the device comprises a base, a mounting plate arranged on the base and a measuring piece used for detecting the distance between the mounting plate and an enclosing wall, wherein the base is provided with a first driving assembly used for driving the base to move along the length direction of the enclosing wall; the measuring piece is arranged on the mounting plate; two the relative lateral wall of mounting panel all is equipped with first groove of sliding, the pole that slides is installed to first inslot sliding, the tank bottom one end that the pole that slides was kept away from first groove of sliding extends the mounting panel and is connected with the backup pad, be equipped with in the mounting panel and be used for driving the gliding second drive assembly of pole that slides.

Through adopting above-mentioned technical scheme, after the enclosure construction finishes, remove along the length direction of enclosure through first drive assembly drive base, and the measuring piece that is located on the mounting panel of enclosure both sides measures interval between mounting panel and the enclosure, when the interval inequality of both sides, stop first drive assembly, make the mounting panel stop in a corresponding enclosure department, then slide in first sliding groove through second drive assembly drive slide bar, make the backup pad support at the enclosure, support the enclosure that is in the slope, reduce the enclosure and appear the condition of collapsing before waiting for constructor to arrive.

Preferably, one side that the backup pad was kept away from to the mounting panel is equipped with the second groove that slides, the second groove that slides sets up one side downwardly extending towards the slope in the first groove that slides from the mounting panel, the peg graft pole is installed to the inslot cunning that slides of second, the peg graft pole is kept away from second groove tank bottom one end and is extended outside the mounting panel.

Through adopting above-mentioned technical scheme, when the pole that slides drove the backup pad and remove towards the direction of enclosure, slide the peg graft pole in the second groove that slides, in the tip of peg graft pole inserted the soil layer, improve the overall stability of mounting panel.

Preferably, the first sliding groove and the second sliding groove are parallel to each other; the second drive assembly includes: the mounting plate is internally provided with a mounting groove at a position between the first sliding groove and the second sliding groove, the bidirectional screw rod is rotatably arranged in the mounting groove, the two driving rods are respectively in threaded connection with the spiral opposite thread sections of the bidirectional screw rod, one end of one driving rod, which is far away from the bidirectional screw rod, is connected with the sliding rod, and the other end of the driving rod, which is far away from the bidirectional screw rod, is connected with the insertion rod; the second drive assembly further comprises: the first driving piece is used for driving the bidirectional screw rod to rotate.

Through adopting above-mentioned technical scheme, start first driving piece, the two-way lead screw of drive rotates to drive two actuating levers and slide towards the direction of keeping away from each other, and then drive the first groove of sliding of slide bar roll-off, the groove of sliding of peg graft bar roll-off second respectively, can accomplish simultaneously and insert the soil layer and accomplish the location to the support of enclosure with the peg graft bar, raise the efficiency.

Preferably, the first drive assembly comprises: the base is provided with a plurality of pairs of rollers which are arranged on the conveying track in a rolling mode at intervals along the length direction of the conveying track, a driving shaft is rotatably arranged at the position, corresponding to one pair of rollers, of the base, and two ends of the driving shaft are connected with the rollers; the second driving piece is used for driving the driving shaft to rotate.

Through adopting above-mentioned technical scheme, when establishing the enclosure, lay the delivery track that corresponds the section to the assurance is located the delivery track of enclosure both sides and equals from the interval of enclosure, thereby installs behind the delivery track when the gyro wheel roll formula that will be located the enclosure both sides, even make the initial measuring distance of a measuring piece that is located the enclosure both sides equal.

Preferably, one of the bases is provided with a pair of signal transmitters, the other of the bases is provided with a pair of signal receivers corresponding to the signal transmitters, the corresponding one of the signal transmitters and the corresponding one of the signal receivers form a group, the signal transmitter and the signal receiver in one group are arranged on the side, facing forward in the moving direction of the base, and the signal transmitter and the signal receiver in the other group are arranged on the side, facing backward in the moving direction of the base; the base all is equipped with the first controller that is used for controlling the gyro wheel rotational speed, the equal signal connection of signal receiver is in first controller.

By adopting the technical scheme, in the process that the bases positioned on the two sides of the enclosing wall move on the conveying track, if the signal receiver positioned on the forward side of the base receives the signal emitter signal on the forward side, the signal receiver positioned on the backward side of the base receives the signal emitter signal on the forward side, and the signal receiver positioned on the backward side of the base receives the signal emitter signal on the forward side, the first controller arranged in the base provided with the signal receiver controls the rotating speed of the roller of the base to be reduced; if the signal receiver positioned at the backward side of the base receives the signal of the signal emitter at the backward side and the signal receiver positioned at the forward side of the base receives the signal of the signal emitter at the backward side and is gradually weakened, the first controller arranged in the base provided with the signal emitter controls the rotating speed of the roller of the base to be reduced; thereby improving the accuracy of the relative position of the base movement on the two sides of the enclosing wall.

Preferably, the opposite side walls of the two mounting plates are provided with connecting blocks in a sliding manner in the vertical direction, the measuring part is mounted on the connecting blocks, and a third driving part for driving the connecting blocks to slide is arranged in the mounting plates; be equipped with the second controller in the mounting panel, measure the piece and be connected with the second controller electricity, first driving piece and second driving piece all are connected with the second controller electricity.

By adopting the technical scheme, the third driving piece drives the connecting block to slide towards the vertical direction, so that the inclination detection of the enclosing wall is more sufficient; and when the distance that the measuring piece measured changes, send the electrical signal to the second controller, the first driving piece of second controller control starts to control the second driving piece and stop, raise the efficiency.

Preferably, an alarm is arranged at the top position of the mounting plate and electrically connected with the second controller.

By adopting the technical scheme, when the second controller receives the signal from the measuring part, the second controller controls the alarm to be started, so that the reminding effect is achieved.

In a second aspect, the present application provides an electrical engineering informatization field supervision method, which adopts the following technical scheme:

an electric power engineering information-based site supervision method is based on any one of the electric power engineering information-based site supervision devices, and comprises the following steps:

the method comprises the steps that measuring data information of measuring pieces on two sides of an enclosing wall is obtained, wherein the measuring data information of the measuring pieces comprises the distance between a measuring mounting plate and the enclosing wall when a first driving assembly drives a base to move along the length direction of the enclosing wall;

comparing the absolute value of the difference value of the measurement data information on the two sides of the enclosing wall based on the measurement data information of the measurement pieces on the two sides of the enclosing wall; when the absolute value is larger than a preset value, the second controller controls the second driving piece to stop;

based on the measured data information of the measuring parts at the two sides of the enclosing wall, the second controller controls the first driving part to drive the supporting plate to abut against the enclosing wall.

By adopting the technical scheme, when the monitoring mechanism is stably arranged on two sides of the fence after construction moves, measuring data signals of measuring pieces on two sides of the fence are obtained, distance data information on two sides of the fence is compared according to the distance between the mounting plate and the fence measured by the measuring pieces, so that the absolute value of the difference value of the two pieces of distance information is obtained, and when the absolute value of the difference value is greater than the preset value, the second controller controls the second driving piece to stop, namely the monitoring mechanism stops at the inclined position of the fence; the preset value refers to the horizontal straight line distance between the completely vertical state and the inclined maximum distance state of the enclosing wall; and then, the first driving piece is controlled by the second controller to drive the supporting plate to abut against the enclosing wall, and the constructor is waited to come for maintenance.

Preferably, in the step of acquiring the measurement data information of the measurement member, the method further includes:

acquiring data information received by two signal receivers, and controlling a first controller on a mounting plate of the signal receiver to control the rotating speed of a roller to be reduced when the signal receiver positioned on the front side in the moving direction of the base receives a signal sent by a signal transmitter positioned on the front side in the moving direction of the base and is gradually weakened, and the signal receiver positioned on the rear side in the moving direction of the base receives a signal sent by a signal transmitter positioned on the front side in the moving direction of the base and is gradually strengthened;

when the signal receiver positioned on the rear side in the moving direction of the base receives the signal sent by the signal transmitter positioned on the rear side in the moving direction of the base, the signal receiver positioned on the front side in the moving direction of the base receives the signal sent by the signal transmitter positioned on the rear side in the moving direction of the base, and the signal receiver positioned on the front side in the moving direction of the base gradually increases, the first controller on the mounting plate of the signal transmitter is controlled to control the rotating speed of the roller to be reduced.

By adopting the technical scheme, in order to ensure that the monitoring mechanisms positioned at two sides of the enclosing wall keep the positions at the same enclosing wall in the moving process along the length direction of the enclosing wall, the moving relative positions of the two bases are compared through the signal information continuously received by the two signal receivers, and the speed of one base at the later position is controlled to be reduced by the first controller; the data measurement accuracy of the measuring piece is improved.

Preferably, the alarm is activated when the second driving member is deactivated.

Through adopting above-mentioned technical scheme, when the second driving piece stops, when the mechanism of proctoring stops in the position that the enclosure corresponds the slope promptly, the second controller control siren starts, reaches and reminds the effect.

In summary, the present application includes at least one of the following beneficial technical effects:

after the enclosure is built, the first driving assembly drives the base to move along the length direction of the enclosure, the measuring pieces on the mounting plates on the two sides of the enclosure measure the distance between the mounting plates and the enclosure, when the distances on the two sides are unequal, the first driving assembly is stopped, the mounting plates are stopped at the corresponding enclosure, then the second driving assembly drives the sliding rods to slide in the first sliding grooves, the supporting plates are supported on the enclosure, the enclosure which is inclined is supported, and the situation that the enclosure collapses before waiting for constructors to arrive is reduced;

when the sliding rod drives the supporting plate to move towards the direction of the enclosing wall, the inserting rod slides in the second sliding groove until the end part of the inserting rod is inserted into the soil layer, so that the overall stability of the mounting plate is improved;

in order to keep the positions of the monitoring mechanisms positioned at the two sides of the enclosing wall at the same enclosing wall in the moving process along the length direction of the enclosing wall, the moving relative positions of the two bases are compared through the signal information continuously received by the two signal receivers, and the speed of one base at the later position is controlled to be reduced through the first controller; the data measurement accuracy of the measuring piece is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the invention of the present application.

Fig. 2 is a sectional view showing a structure in which a measuring member according to the present invention is mounted on a mounting plate.

Fig. 3 is a sectional view showing the internal structure of the base according to the invention of the present application.

Fig. 4 is a sectional view showing the internal structure of the mounting plate according to the invention of the present application.

Fig. 5 is a schematic diagram of the positions of two bases and enclosing walls according to the present invention.

Fig. 6 is a flowchart of an electric power engineering informatization field supervision method according to the invention of the application.

Description of reference numerals:

1. a first drive assembly; 11. a conveying track; 12. a drive shaft; 13. a second driving member; 2. a base; 21. a roller; 22. a signal transmitter; 23. a signal receiver; 24. a first controller; 3. mounting a plate; 31. a measuring member; 32. a first sliding groove; 321. a slide bar; 322. a support plate; 33. a second sliding groove; 331. a plug rod; 34. mounting grooves; 35. a bidirectional screw rod; 36. a drive rod; 37. a first driving member; 38. a limiting chute; 381. connecting blocks; 382. a third driving member; 39. a second controller; 30. an alarm.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses an electric power engineering informatization field supervision device. Referring to fig. 1 and 2, the supervision device comprises a pair of supervision mechanisms, the two supervision mechanisms are respectively arranged on two sides of the enclosing wall, the supervision mechanism comprises a first driving assembly 1, a base 2 and a mounting plate 3, the first driving assembly 1 comprises a conveying track 11, the conveying track 11 extends along the length direction of the enclosing wall, and the distances between the two conveying tracks 11 and the enclosing wall are equal; base 2 is the cuboid form, and gyro wheel 21 is installed to four angular position equal rotary types in base 2's bottom, and the equal roll formula of gyro wheel 21 is installed at delivery track 11 to can make base 2 move the in-process on delivery track 11 and guarantee to equal with the interval of enclosure.

The mounting plate 3 is fixedly mounted on the base 2, a measuring piece 31 is arranged at the middle position of one side of the mounting plate 3 facing the enclosing wall, the measuring piece 31 is a laser range finder in the embodiment, and the measuring piece 31 is used for detecting the distance between the mounting plate 3 and the enclosing wall; thus, during the movement of the base 2 in the conveying track 11, whether the wall is inclined is detected by determining whether the data measured by the two measuring members 31 are equal.

Referring to fig. 1 and 3, the first driving assembly 1 further includes a driving shaft 12 and a second driving member 13, the driving shaft 12 is located between two rollers 21 on the rear side of the base 2 in the moving direction, the driving shaft 12 is rotatably mounted on the base 2, and two ends of the driving shaft 12 are fixedly mounted in the middle of the corresponding rollers 21; second driving piece 13 is the motor, and second driving piece 13 fixed mounting is in the bottom of base 2, and the output shaft of second driving piece 13 passes through bevel gear group and is connected with drive shaft 12 to can drive shaft 12 and rotate, and then drive gyro wheel 21 and roll in delivery track 11, make base 2 remove along delivery track 11's length direction.

Referring to fig. 4, a first sliding groove 32 is formed in one side of the mounting plate 3 close to the enclosing wall and on two opposite sides of the base 2 in the moving direction, and the first sliding groove 32 extends in the thickness direction of the mounting plate 3; a sliding rod 321 is installed at the position of the mounting plate 3 in the first sliding groove 32, one end of the sliding rod 321 is installed in the first sliding groove 32 in a sliding manner, the other end of the sliding rod 321 extends out of the first sliding groove 32, and a support plate 322 is fixedly installed; a second driving assembly is arranged in the mounting plate 3, and the second driving assembly is used for driving the sliding rod 321 to slide in the first sliding groove 32.

And, the second groove 33 that slides has been seted up to mounting panel 3 on one side of keeping away from the notch of first groove 32 that slides, second groove 33 slides from one side that mounting panel 3 set up first groove 32 downwards towards the slope, the position that mounting panel 3 is located second groove 33 is provided with peg 331, peg 331 is installed in second groove 33 to the one end sliding type of peg 331, the other end is outside the length direction extension department mounting panel 3 of second groove 33 that slides, thereby accessible peg 331 stretches out outside mounting panel 3 and inserts in the soil layer, improve mounting panel 3's stability when supporting the slope enclosure.

The second driving assembly comprises a bidirectional screw 35 and a pair of driving rods 36, the first sliding groove 32 is parallel to the second sliding groove 33, the mounting plate 3 is provided with a mounting groove 34 between the first sliding groove 32 and the second sliding groove 33, the mounting groove 34 is communicated with the first sliding groove 32 and the second sliding groove 33, and the bidirectional screw 35 is parallel to the first sliding groove 32 and rotatably mounted in the mounting groove 34; the two driving rods 36 are perpendicular to the first sliding groove 32, the end parts of the two driving rods 36 are respectively installed in two thread sections of the two-way screw rod 35 with opposite spiral directions in a threaded manner, one end, far away from the two-way screw rod 35, of one driving rod 36 is fixedly connected with the end part, located in the first sliding groove 32, of the sliding rod 321, and the other end, far away from the two-way screw rod 35, of the other driving rod 36 is fixedly connected with the end part, located in the second sliding groove 33, of the insertion rod 331; the second driving assembly further includes a first driving member 37, the first driving member 37 is a motor, and an output shaft of the first driving member 37 is fixedly connected to an end of the bidirectional screw rod 35, so as to simultaneously drive the sliding rod 321 to slide in the first sliding groove 32, and drive the insertion rod 331 to slide in the second sliding groove 33.

Referring to fig. 5, one side of one of the bases 2 facing the enclosure is fixedly provided with a pair of signal transmitters 22, and one side of the other base 2 facing the enclosure is fixedly provided with a pair of signal receivers 23, the signal transmitters 22 are bluetooth transmitters, and the signal receivers 23 are bluetooth transmitters; the two signal emitters 22 are respectively arranged on the forward side and the backward side of the base 2 in the moving direction, the signal emitters 22 and the signal receivers 23 on the forward side of the two bases 2 are in one group, the signal emitters 22 and the signal receivers 23 on the backward side of the two bases 2 are in another group, and the signal emitters 22 and the signal receivers 23 in the same group are oppositely arranged; a first controller 24 is fixedly arranged in each of the two bases 2, and the two signal receivers 23 are connected with the first controller 24 through Bluetooth signals; therefore, the relative positions of the two bases 2 can be determined by the strength of the bluetooth signals received by the two signal receivers 23 from the two signal transmitters 22, and the moving speed of the base 2 which is positioned relatively back is controlled to be reduced by the first controller 24.

Referring to fig. 2 and 3, the middle positions of the side walls of the two mounting plates 3 close to each other are both provided with a limiting sliding groove 38, the limiting sliding grooves 38 extend in the vertical direction, the positions of the mounting plates 3 in the limiting sliding grooves 38 are provided with a connecting block 381 in a sliding manner, and the measuring part 31 is fixedly mounted on the connecting block 381, i.e. the measuring part 31 can move together with the connecting block 381, so that the space between the positions of different heights of the enclosure wall can be detected; the mounting plate 3 is provided with a third driving member 382 for driving the connecting block 381 to slide, and the third driving member 382 is a screw rod motor transmission structure.

A second controller 39 is fixedly installed in the mounting plate 3, the measuring pieces 31 are electrically connected with the second controller 39, the first driving pieces 37 and the second driving pieces 13 are electrically connected with the corresponding second controllers 39, when the data tested by the two measuring pieces 31 are not equal, the electric signals are transmitted to the second controller 39, and the second controller 39 controls the first driving pieces 37 to be opened and controls the second driving pieces 13 to be stopped; in addition, the alarm 30 is arranged at the top position of the mounting plate 3, and the alarm 30 is electrically connected with the second controller 39, so that when the second controller 39 controls the second driving member 13 to stop, the second controller 39 controls the alarm 30 to start to remind.

The implementation principle of the electric power engineering information field supervision device in the embodiment of the application is as follows: after the enclosing wall is constructed, the supervision mechanisms are installed on the conveying track 11, the relative positions of the two supervision mechanisms are ensured to be consistent, then the second driving piece 13 is started, the base 2 moves along the length direction of the conveying track 11, and meanwhile the third driving piece 382 is started to drive the measuring piece 31 to move towards the vertical direction for detection; in the moving process of the bases 2, the relative positions of the two bases 2 are detected through the action of the signal emitter 22 and the signal receiver 23, and the rotating speed of the second driving part 13 is controlled through the first controller 24, so that the moving positions of the two supervision mechanisms are consistent; when the data measured by the two measuring pieces 31 are not equal, the second controller 39 controls the first driving piece 37 to open and controls the second driving piece 13 to stop, so that the supervision mechanism stops at the position where the enclosing wall has an inclination, the supporting plate 322 is supported on the enclosing wall, and the inserting rod 331 is inserted into the soil layer.

The embodiment of the application also discloses an informatization field supervision method for the power engineering. Referring to fig. 6, the electric power engineering informatization site supervision method comprises the following steps:

s1: the measurement data information of the measurement pieces 31 on the two sides of the enclosing wall is obtained, and the measurement data information of the measurement pieces 31 comprises that when the first driving assembly 1 drives the base 2 to move along the length direction of the enclosing wall, the measurement pieces 31 measure the distance between the mounting plate 3 and the enclosing wall.

Specifically, in the process that the first driving assembly 1 drives the supervision mechanism to move along the length direction of the enclosure, the measuring pieces 31 positioned on the two sides of the enclosure measure the distance between the mounting plate 3 and the enclosure, and in the process, the bases 2 positioned on the two sides of the enclosure need to be kept at the same enclosure position.

S2: based on the measured data information of the measuring pieces 31 at the two sides of the enclosing wall, comparing the absolute value of the difference value of the measured data information at the two sides of the enclosing wall; when the absolute value is greater than the preset value, the second controller 39 controls the second driving member 13 to stop.

In this embodiment, the measurement data information difference is a value of a difference between measurement data of the measurement members 31 located at two sides of the enclosing wall; the preset value is a horizontal straight line distance value between the completely vertical state of the enclosing wall and the state of allowing the maximum distance to incline.

Specifically, during the movement of the base 2, the absolute value of the difference between the measurement data of the measuring members 31 located on both sides of the fence is continuously calculated and continuously compared with the preset value, and when the absolute value is greater than the preset value, the second controller 39 controls the second driving member 13 to stop, i.e. the base 2 stops at the corresponding inclined position of the fence.

S3: based on the data information measured by the measuring members 31 on both sides of the enclosure, the second controller 39 controls the first driving member 37 to drive the supporting plate 322 to abut against the enclosure.

Specifically, when the absolute value is greater than the preset value, that is, it is stated that the position of the enclosure does not meet the construction requirement, there is an inclination condition, so that the second controller 39 controls the first driving member 37 to drive the supporting plate 322 to abut against the enclosure when the second controller 39 controls the base 2 to stop at the corresponding inclination position of the enclosure, thereby reducing the situation that the enclosure collapses before constructors arrive.

In step S1, the method further includes the following steps:

acquiring data information received by the two signal receivers 23, and when the signal receiver 23 positioned on the front side in the moving direction of the base 2 receives the signal sent by the signal transmitter 22 positioned on the front side in the moving direction of the base 2 and is gradually weakened, and the signal receiver 23 positioned on the rear side in the moving direction of the base 2 receives the signal sent by the signal transmitter 22 positioned on the front side in the moving direction of the base 2 and is gradually strengthened, setting the base 2 of the signal receiver 23 to be faster than the base 2 provided with the signal transmitter 22, and controlling the first controller 24 on the mounting plate 3 of the signal receiver 23 to control the rotating speed of the roller 21 to be reduced;

when the signal receiver 23 located on the rear side in the moving direction of the base 2 receives the signal sent by the signal transmitter 22 located on the rear side in the moving direction of the base 2 and is gradually weakened, and the signal receiver 23 located on the front side in the moving direction of the base 2 receives the signal sent by the signal transmitter 22 located on the rear side in the moving direction of the base 2 and is gradually strengthened, the base 2 provided with the signal transmitter 22 is faster than the base 2 provided with the signal receiver 23, and the first controller 24 on the mounting plate 3 of the signal transmitter 22 is controlled to control the rotating speed of the roller 21 to be reduced.

Specifically, when the base 2 that is located the enclosure both sides removes the in-process, because the difference of frictional force can make relative position take place the deviation between two bases 2, consequently when the position between two bases 2 takes place the deviation, the relative position between two signal transmitter 22 and two signal receiver 23 takes place the dislocation, can make two signal receiver 23 receive the signal strength of same signal transmitter 22 and change to whether the relative position that detects two bases 2 takes place the dislocation.

In step S2, the method further includes the following steps:

after the second driving member 13 stops, the second controller 39 controls the first driving member 37 to start, so that the sliding rod 321 slides, i.e. the supporting plate 322 is driven to abut against the enclosure wall, and the enclosure wall is supported; meanwhile, the insertion rods 331 slide together and are inserted into the soil layer to complete the support; meanwhile, the second controller 39 controls the alarm 30 to be started, and the warning effect is achieved for constructors.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides an electric power engineering informationization scene supervision device which characterized in that includes: a manage mechanism for locating enclosure both sides respectively, manage the mechanism and include: the device comprises a base (2), a mounting plate (3) arranged on the base (2) and a measuring piece (31) used for detecting the distance between the mounting plate (3) and a fence, wherein the base (2) is provided with a first driving assembly (1) used for driving the base (2) to move along the length direction of the fence; the measuring piece (31) is arranged on the mounting plate (3); two the relative lateral wall of mounting panel (3) all is equipped with first groove (32) that slides, slide bar (321) are installed to the first formula of sliding in groove (32) that slides, the tank bottom one end that first groove (32) that slides is kept away from in slide bar (321) extends mounting panel (3) and is connected with backup pad (322), be equipped with in mounting panel (3) and be used for driving the gliding second drive assembly of slide bar (321).

2. The electric power engineering informatization site supervision device according to claim 1, characterized in that one side of the mounting plate (3) far away from the support plate (322) is provided with a second sliding groove (33), the second sliding groove (33) extends downwards from the side of the mounting plate (3) provided with the first sliding groove (32) towards an incline, an insertion rod (331) is installed in the second sliding groove (33) in a sliding manner, and one end of the insertion rod (331) far away from the bottom of the second sliding groove (33) extends out of the mounting plate (3).

3. An electric power engineering informatization site supervision device according to claim 2, characterized in that the first sliding groove (32) and the second sliding groove (33) are parallel to each other; the second drive assembly includes: the mounting plate (3) is internally provided with a mounting groove (34) at a position between the first sliding groove (32) and the second sliding groove (33), the two-way screw rod (35) is rotatably arranged in the mounting groove (34), the two driving rods (36) are respectively in threaded connection with opposite spiral thread sections of the two-way screw rod (35), one end of one driving rod (36) far away from the two-way screw rod (35) is connected with the sliding rod (321), and the other end of the other driving rod (36) far away from the two-way screw rod (35) is connected with the insertion rod (331); the second drive assembly further comprises: and the first driving piece (37) is used for driving the bidirectional screw rod (35) to rotate.

4. An informatization site supervision device for electric power engineering according to claim 3, characterized in that the first driving assembly (1) comprises: the conveying device comprises a conveying track (11) and a second driving part (13), wherein a plurality of pairs of rollers (21) which are arranged on the conveying track (11) in a rolling mode are arranged on the base (2) at intervals along the length direction of the conveying track (11), a driving shaft (12) is rotatably arranged on the base (2) corresponding to the positions of one pair of rollers (21), and two ends of the driving shaft (12) are connected with the rollers (21); the second driving part (13) is used for driving the driving shaft (12) to rotate.

5. An electricity engineering informatization site supervision device according to claim 4, characterized in that one said base (2) is provided with a pair of signal transmitters (22), the other said base (2) is provided with a pair of signal receivers (23) corresponding to the signal transmitters (22), a corresponding one said signal transmitter (22) and a said signal receiver (23) are in a group, the said signal transmitter (22) and signal receiver (23) in one group are arranged on the forward side in the moving direction of the base (2), the said signal transmitter (22) and signal receiver (23) in the other group are arranged on the backward side in the moving direction of the base (2); the base (2) all is equipped with first controller (24) that are used for controlling gyro wheel (21) rotational speed, signal receiver (23) all signal connection in first controller (24).

6. The electrical engineering informatization site supervision device according to claim 4, characterized in that the opposite side walls of the two mounting plates (3) are provided with a connecting block (381) in a sliding manner towards the vertical direction, the measuring member (31) is mounted on the connecting block (381), and a third driving member (382) for driving the connecting block (381) to slide is arranged in the mounting plate (3); be equipped with second controller (39) in mounting panel (3), measuring part (31) is connected with second controller (39) electricity, first driving piece (37) and second driving piece (13) all are connected with second controller (39) electricity.

7. An electricity engineering informatization field supervision device according to claim 1, characterized in that an alarm (30) is arranged at the top position of the mounting plate (3), and the alarm (30) is electrically connected with a second controller (39).

8. An electric power engineering information field supervision method, characterized in that, based on any one of claims 1 to 7, an electric power engineering information field supervision device comprises the following steps:

the method comprises the steps that measurement data information of measurement pieces (31) on two sides of an enclosing wall is obtained, wherein the measurement data information of the measurement pieces (31) comprises the step that when a first driving assembly (1) drives a base (2) to move along the length direction of the enclosing wall, the measurement pieces (31) measure the distance between a mounting plate (3) and the enclosing wall;

based on the measured data information of the measuring pieces (31) at the two sides of the enclosing wall, comparing the absolute value of the difference value of the measured data information at the two sides of the enclosing wall; when the absolute value is larger than a preset value, the second controller (39) controls the second driving piece (13) to stop;

based on the measurement data information of the measurement pieces (31) on the two sides of the enclosing wall, the second controller (39) controls the first driving piece (37) to drive the supporting plate (322) to abut against the enclosing wall.

9. The electric power engineering informatization site supervision method according to claim 8, characterized in that, during the step of acquiring measurement data information of the measurement member (31), the method further comprises:

acquiring data information received by two signal receivers (23), and controlling a first controller (24) on a mounting plate (3) of the signal receiver (23) to control the rotating speed of a roller (21) to be reduced when the signal receiver (23) which is positioned at the front side in the moving direction of the base (2) receives the signal which is positioned at the front side in the moving direction of the base (2) and is sent by a signal transmitter (22) and gradually weakens, and the signal receiver (23) which is positioned at the rear side in the moving direction of the base (2) receives the signal which is positioned at the front side in the moving direction of the base (2) and is sent by the signal transmitter (22);

when the signal receiver (23) which is positioned on the rear side in the moving direction of the base (2) receives the signal sent by the signal transmitter (22) which is positioned on the rear side in the moving direction of the base (2) and is gradually weakened, and the signal receiver (23) which is positioned on the front side in the moving direction of the base (2) receives the signal sent by the signal transmitter (22) which is positioned on the rear side in the moving direction of the base (2) and is gradually strengthened, the first controller (24) on the mounting plate (3) of the signal transmitter (22) is controlled to control the rotating speed of the roller (21) to be reduced.

10. An informatization site supervision method for electric power engineering according to claim 8, characterized in that the alarm (30) is activated after the second driving member (13) is stopped.

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