CN109002336B - Charging pile remote monitoring navigation window generation method and device - Google Patents

Abstract

The invention provides a method and a device for generating a remote monitoring navigation window of a charging pile, wherein the method comprises the following steps: numbering the charging piles, and acquiring position information of each charging pile; establishing a static layout monitoring graph and a static layout thumbnail of the charging pile, and obtaining the position of each charging pile in a corresponding icon in the static layout monitoring graph and the static layout thumbnail according to the position information of each charging pile; setting a dynamic visual window in a static layout monitoring graph of the charging pile, and setting a dynamic selection frame in a static layout thumbnail; the dynamic visual window is linked with the dynamic selection frame, and the displayed area of the dynamic visual window corresponds to the area selected by the dynamic selection frame. Because the dynamic selection frame of the static layout thumbnail and the dynamic visual window of the static layout monitoring graph have corresponding relation, the viewing is more convenient, and the working efficiency is improved.

Description

Charging pile remote monitoring navigation window generation method and device

Technical Field

The invention belongs to the technical field of charging pile monitoring, and particularly relates to a method and a device for generating a remote monitoring navigation window of a charging pile.

Background

Charging piles are charging devices that are generally provided in charging stations, and are mainly used for charging electric vehicles. Fill electric pile monitoring system mainly used and implement the supervision to the operation data that fill electric pile to when filling electric pile running state appearance anomaly, send alarm information, whether it can normal operating, all have significant influence to the safety that fills electric pile even whole charging station.

At present, charging pile monitoring systems based on the local are applied more frequently, and the charging piles are generally represented in a planarization mode in a combination mode of symbols and numbers. Although the method can intuitively present various operation conditions of facilities, for charging stations with large charging pile number, the facility icons on the monitoring interface are difficult to quickly correspond to the actual charging pile spatial positions, so that when a certain facility is found to have a fault on the monitoring interface and needs to be processed, time is spent to position the actual charging pile through the corresponding relation between the charging pile number and the actual pile number given by the monitoring system, and the working efficiency is reduced.

Disclosure of Invention

The invention aims to provide a method and a device for generating a remote monitoring navigation window of a charging pile, which are used for quickly determining the corresponding relation between the serial number of the charging pile and the actual charging pile and providing working efficiency.

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

a method for generating a remote monitoring navigation window of a charging pile comprises the following steps:

(1) numbering the charging piles, and acquiring position information of each charging pile;

(2) establishing a static layout monitoring graph and a static layout thumbnail of the charging pile, and obtaining the position of each charging pile in a corresponding icon in the static layout monitoring graph and the static layout thumbnail according to the position information of each charging pile;

(3) setting a dynamic visual window in a static layout monitoring graph of the charging pile, and setting a dynamic selection frame in a static layout thumbnail; the dynamic visual window is linked with the dynamic selection frame, and the displayed area of the dynamic visual window corresponds to the area selected by the dynamic selection frame.

Further, the position information of the charging pile is acquired from a construction engineering drawing of the charging pile, and the acquisition method comprises the following steps: and establishing a coordinate system by taking the top left corner vertex of the charging pile construction engineering drawing as an origin, and determining the position information of each charging pile by acquiring the coordinate of each charging pile in the coordinate system.

Further, respectively taking a top left corner vertex of the charging pile static layout monitoring graph and a top left corner vertex of the charging pile static layout thumbnail as original points, and establishing corresponding coordinate systems in the charging pile static layout monitoring graph and the static layout thumbnail; and then obtaining the coordinates of the corresponding icons of the charging piles in the static layout monitoring graph and the static layout thumbnail according to the coordinates of the charging piles on the construction engineering drawing.

Further, the charging pile comprises a number corresponding to the charging pile in an icon corresponding to the static layout thumbnail.

A generation device for a remote monitoring navigation window of a charging pile comprises a processor and a display device; the processor firstly numbers the charging piles and acquires the position information of each charging pile; then establishing a static layout monitoring graph and a static layout thumbnail of the charging pile, and obtaining the position of each charging pile in the corresponding icon in the static layout monitoring graph and the static layout thumbnail according to the position information of each charging pile; finally, a dynamic visual window is arranged in a static layout monitoring graph of the charging pile, and a dynamic selection frame is arranged in a static layout thumbnail; the dynamic visual window is linked with the dynamic selection frame, and the displayed area of the dynamic visual window corresponds to the area selected by the dynamic selection frame.

Further, the position information of the charging pile is acquired from a construction engineering drawing of the charging pile, and the acquisition method comprises the following steps: and establishing a coordinate system by taking the top left corner vertex of the charging pile construction engineering drawing as an origin, and determining the position information of each charging pile by acquiring the coordinate of each charging pile in the coordinate system.

Further, respectively taking a top left corner vertex of the charging pile static layout monitoring graph and a top left corner vertex of the charging pile static layout thumbnail as original points, and establishing corresponding coordinate systems in the charging pile static layout monitoring graph and the static layout thumbnail; and then obtaining the coordinates of the corresponding icons of the charging piles in the static layout monitoring graph and the static layout thumbnail according to the coordinates of the charging piles on the construction engineering drawing.

Further, the charging pile comprises a number corresponding to the charging pile in an icon corresponding to the static layout thumbnail.

The invention has the beneficial effects that: according to the technical scheme provided by the invention, the static layout monitoring graph and the static layout thumbnail are established according to the position information of the charging pile, and the icons of the charging piles in the areas corresponding to the dynamic selection frames of the static layout thumbnail can be checked through the dynamic visual window of the static layout monitoring graph, so that the charging pile can be checked. Because the dynamic selection frame of the static layout thumbnail and the dynamic visual window of the static layout monitoring graph have corresponding relation, the viewing is more convenient, and the working efficiency is improved.

Drawings

FIG. 1 is a flow chart of a method for generating a remote control navigation window of a charging pile in an embodiment of the device;

FIG. 2 is a construction engineering drawing of a charging pile in an embodiment of the device;

FIG. 3 is a schematic diagram of a charging pile number and coordinate database in an embodiment of an apparatus;

FIG. 4 is a static layout monitoring diagram of a charging pile in an embodiment of the apparatus;

fig. 5 is a thumbnail of a static layout of a charging post in an embodiment of the apparatus.

Detailed Description

The invention aims to provide a method and a device for generating a remote monitoring navigation window of a charging pile, which are used for quickly determining the corresponding relation between the serial number of the charging pile and the actual charging pile and providing working efficiency.

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

a method for generating a remote monitoring navigation window of a charging pile comprises the following steps:

(1) numbering the charging piles, and acquiring position information of each charging pile;

(2) establishing a static layout monitoring graph and a static layout thumbnail of the charging pile, and obtaining the position of each charging pile in a corresponding icon in the static layout monitoring graph and the static layout thumbnail according to the position information of each charging pile;

(3) setting a dynamic visual window in a static layout monitoring graph of the charging pile, and setting a dynamic selection frame in a static layout thumbnail; the dynamic visual window is linked with the dynamic selection frame, and the displayed area of the dynamic visual window corresponds to the area selected by the dynamic selection frame.

The following further describes embodiments of the present invention with reference to the drawings.

The embodiment of the device is as follows:

the embodiment provides a generation device for a charging pile remote monitoring navigation window, which comprises a processor and a display device, wherein the processor controls the display device to display a static layout thumbnail and a dynamic visual window of a monitoring layout, the specific flow is as shown in fig. 1, and the steps are as follows:

(1) on a charging pile construction engineering drawing, establishing a space coordinate system by taking the top point of the upper left corner of the engineering drawing as an origin coordinate, numbering each charging pile in the engineering drawing, and marking the position of each charging pile in the space coordinate system, as shown in FIG. 2; acquiring coordinates of each charging pile in a spatial coordinate system and writing the coordinates into a database, and setting the width of a charging pile construction engineering drawing as Cns _ W and the height as Cns _ H as shown in FIG. 3;

(2) establishing a monitoring layout diagram and a static layout thumbnail of the charging pile;

monitoring a layout:

be equipped with dynamic visual window in the control layout of filling electric pile, dynamic visual window is portable, can look over the control layout of filling electric pile through dynamic visual window, as shown in fig. 4. In this embodiment, the width of the dynamic visual window is set as Vwp _ W, the height of the dynamic visual window is set as Vwp _ H, in the monitoring layout diagram of the charging pile, the width of the charging pile icon is set as Vwp _ W/6, the height of the charging pile icon is set as Vwp _ H/6, the transverse distance of each charging pile is 5% of the width of the visual area of the window, namely 5% Vwp _ W, and the longitudinal distance of each charging pile is 5% of the height of the visual area of the window, namely 5% Vwp _ H;

the coordinate system is established by taking the top left corner vertex of the charging pile monitoring layout as an origin, the x axis is the horizontal axis, the y axis is the longitudinal axis, the maximum number of the charging piles in the x axis direction of the charging pile monitoring layout is assumed to be xN, the maximum number of the charging piles in the y axis direction is yN, if the coordinate of a certain charging pile in the space coordinate system is (sgX, sgY), and the position coordinate of the charging pile in the monitoring layout window is (vX, vY), then the coordinate of the certain charging pile in the space coordinate system is (vX, vY), and the position coordinate of the certain charging pile in the monitoring layout window is (vX, vY)

vX＝(vW/Cnvs_W)*SgX，

vY＝(vH/Cnvs_H)*SgY；

Thereby calculate and fill electric pile overall arrangement control window total width vW and overall height vH:

vW＝(xN*Vwp_W/6)+(5％*Vwp_W)*(xN-1)

vH＝(yN*Vwp_H/6)+(5％*Vwp_H)*(yN-1)

consequently, fill electric pile layout monitoring window visual area and the width ratio of whole electric pile layout drawing and be:

α＝Vwp_W/vW

fill electric pile layout control window visual area and the whole height ratio who fills electric pile layout diagram and do:

β＝Vwp_H/vH

static layout thumbnail:

the width of each charging pile icon in the local thumbnail is sW, the height of each charging pile icon is sH, the best visual effect is guaranteed, and the horizontal distance of the charging pile icons is assumed to be 5 sW, and the vertical distance of the charging pile icons is assumed to be 5 sY. The icon of the charging pile in each static layout thumbnail comprises the number of the corresponding charging pile, and as shown in fig. 5, the width and the height of the static layout thumbnail are respectively as follows:

s_Width＝(sW*xN)+(5*sW)*(xN-1)

s_Height＝(sY*xN)+(5*sY)*(xN-1)

in the thumbnail, selecting a region desired to be viewed through a dynamic selection frame, and then viewing in a dynamic visual window in the monitoring layout; the dynamic selection frame and the dynamic visual window are linked, namely, the displayed area of the dynamic visual window corresponds to the position selected by the dynamic selection frame, when the position of the dynamic selection frame changes, the displayed area of the dynamic visual window also changes, so that the Opt _ W and the height Opt _ Y of the width of the dynamic selection frame are respectively:

Opt_W＝α*s_width

Opt_Y＝β*s_height

the method comprises the following steps:

the method for generating the charging pile remote monitoring navigation window is the same as the method for generating the charging pile remote monitoring navigation window in the device embodiment, and the detailed description is already provided, and a lot of description is omitted here.

Claims (8)

1. A method for generating a remote monitoring navigation window of a charging pile is characterized by comprising the following steps:

(1) numbering the charging piles, and acquiring position information of each charging pile;

(2) establishing a static layout monitoring graph and a static layout thumbnail of the charging pile, and obtaining the position of each charging pile in a corresponding icon in the static layout monitoring graph and the static layout thumbnail according to the position information of each charging pile;

(3) setting a dynamic visual window in a static layout monitoring graph of the charging pile, and setting a dynamic selection frame in a static layout thumbnail; the dynamic visual window is linked with the dynamic selection frame, and the displayed area of the dynamic visual window corresponds to the area selected by the dynamic selection frame.

2. The method for generating the remote monitoring navigation window of the charging pile according to claim 1, wherein the position information of the charging pile is acquired from a construction engineering drawing of the charging pile, and the acquisition method comprises the following steps: and establishing a coordinate system by taking the top left corner vertex of the charging pile construction engineering drawing as an origin, and determining the position information of each charging pile by acquiring the coordinate of each charging pile in the coordinate system.

3. The method for generating the charging pile remote monitoring navigation window according to claim 2, wherein a corresponding coordinate system is established in the charging pile static layout monitoring graph and the static layout thumbnail by respectively taking a top left vertex of the charging pile static layout monitoring graph and a top left vertex of the charging pile static layout thumbnail as an origin; and then obtaining the coordinates of the corresponding icons of the charging piles in the static layout monitoring graph and the static layout thumbnail according to the coordinates of the charging piles on the construction engineering drawing.

4. The method for generating the remote monitoring navigation window of the charging pile according to claim 1, wherein the charging pile comprises a number of the corresponding charging pile in an icon corresponding to the static layout thumbnail.

5. A generation device for a remote monitoring navigation window of a charging pile is characterized by comprising a processor and a display device; the processor firstly numbers the charging piles and acquires the position information of each charging pile; then establishing a static layout monitoring graph and a static layout thumbnail of the charging pile, and obtaining the position of each charging pile in the corresponding icon in the static layout monitoring graph and the static layout thumbnail according to the position information of each charging pile; finally, a dynamic visual window is arranged in a static layout monitoring graph of the charging pile, and a dynamic selection frame is arranged in a static layout thumbnail; the dynamic visual window is linked with the dynamic selection frame, and the displayed area of the dynamic visual window corresponds to the area selected by the dynamic selection frame.

6. The device for generating the remote monitoring navigation window of the charging pile according to claim 5, wherein the position information of the charging pile is acquired from a construction engineering drawing of the charging pile, and the acquisition method comprises the following steps: and establishing a coordinate system by taking the top left corner vertex of the charging pile construction engineering drawing as an origin, and determining the position information of each charging pile by acquiring the coordinate of each charging pile in the coordinate system.

7. The device for generating the remote monitoring navigation window for the charging pile according to claim 6, wherein a corresponding coordinate system is established in the static layout monitoring graph for the charging pile and the static layout thumbnail by respectively using a top left vertex of the static layout monitoring graph for the charging pile and a top left vertex of the static layout thumbnail for the charging pile as an origin; and then obtaining the coordinates of the corresponding icons of the charging piles in the static layout monitoring graph and the static layout thumbnail according to the coordinates of the charging piles on the construction engineering drawing.

8. The device for generating the remote monitoring navigation window of the charging pile according to claim 5, wherein the charging pile comprises a number corresponding to the charging pile in an icon corresponding to the static layout thumbnail.

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