JP6584294B2 - Drilling position designation system - Google Patents

Description

  The present invention relates to a drilling position designation system for an electronic equipment storage cabinet.

  Many manufacturers' standard products are set in the electronic equipment storage cabinet according to the application, structure, size, and the like. In addition, electronic equipment storage cabinets often require holes for mounting operation switches, measuring devices, cooling devices, and the like according to customer requirements.

  Therefore, as shown in Patent Document 1, a hole machining position designation system has been developed in which a customer accesses a manufacturer's database through a communication line, selects an optimal cabinet, and designates a desired hole machining on the cabinet. .

  The system of this patent document 1 can be displayed on a layout screen by combining a hole shape pattern with a cabinet shape selected from a cabinet database. Further, since there is an area in which drilling is impossible due to a problem in strength or the like in the cabinet, the drilling prohibited area can be displayed on the layout screen.

  The customer must move the selected hole shape pattern on the layout screen so as not to enter the hole processing prohibited area and place it at an appropriate position in the cabinet shape. However, when arranging multiple hole-shaped patterns on the same surface of the cabinet, it is preferable to align them with each other or arrange them on the same straight line. Therefore, it is not always easy to move the hole shape pattern, and there is a problem that workability in specifying the hole processing position is not good.

JP 2014-222452 A

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide a hole machining position designation system that solves the above-described conventional problems and that allows a hole machining position designation operation to a cabinet shape to be performed with good workability on a layout screen.

  The present invention made to solve the above-mentioned problems is selected from a cabinet database storing cabinet shapes, a shape pattern database storing hole shape patterns processed in the cabinet, and the cabinet database. A hole processing position designation system comprising a cabinet shape and a calculation display means for combining the shape pattern selected from the shape pattern database and displaying it on a layout screen, wherein the calculation display means is displayed on the layout screen. Grid line display means for displaying grid lines and shape pattern moving means for changing the position of the shape pattern displayed on the layout screen are provided. The shape pattern moving means moves the center of the shape pattern onto the grid line. It has a function It is intended to.

  As in claim 2, the grid line display means preferably includes an interval changing means for changing the interval of the grid lines.

  According to the hole machining position designation system of the present invention, since the hole shape pattern can be arranged on the grid lines displayed on the layout screen by the grid line display means, the operability can be greatly improved. Moreover, it is easy to grasp the interval between the plurality of hole shape patterns by using the grid display, and the plurality of hole shape patterns can be easily arranged on the same straight line.

  In addition, according to the hole machining position designation system of the second aspect, the interval between the grid lines can be changed according to the equipment to be attached, so that the operability can be further improved.

1 is a block diagram illustrating an overall configuration of a system according to an embodiment. It is explanatory drawing which shows an example of a layout screen. It is a figure which shows an example of the symbol of an apparatus. It is a figure which shows the center position of a shape pattern. It is explanatory drawing which shows the example of a change of a grid line. It is a figure which shows the example of a movement by drag operation. It is a figure which shows the example of a movement by drag operation. It is a figure which shows the example of a movement by operation of an arrow key. It is a figure which shows the example of a movement by operation of an arrow key. It is a figure which shows the movement step of a shape pattern.

Preferred embodiments of the present invention are shown below.
FIG. 1 shows an overall configuration of a system according to an embodiment. Reference numeral 1 denotes a manufacturer-side server, and reference numeral 2 denotes a customer-side terminal that can be connected to the server 1 via a network 3. The network 3 is typically an Internet line, but is not limited to this, and may be a dedicated line between a manufacturer and a customer.

  Connected to the terminal 2 are a monitor 4, an input means 5 such as a keyboard, and a moving means 6 represented by a mouse. For these, known devices can be used as appropriate. An arrow key on the keyboard can be used as the moving means 6.

  The server 1 on the manufacturer side includes storage means 7 and calculation display means 8. The storage means 7 stores a cabinet database 9 that stores the shape of the cabinet and a shape pattern database 10 that stores the hole shape pattern to be processed in the cabinet. The cabinet database 9 is a database in which product numbers, shapes, drawing data, prices, and the like are registered for each of a number of cabinets that are standard products by manufacturers. The drawing data includes drawings of six sides of the cabinet.

  The shape pattern database 10 is a database in which data of various hole shapes as registered on the right side of FIG. 2 is registered. For example, a round hole, a long round hole, a round hole with a screw pilot hole, and the like. In the present invention, the center of each shape pattern is the origin. In FIG. 2, hole shape patterns that are frequently used are displayed. However, the present invention is not limited to these patterns, and the hole shape patterns are not limited to those consisting only of hole shapes, and include hole shapes. It also includes a symbol for the device.

  FIG. 3 shows an example of a device symbol including a hole shape, which is a ventilation device in this example. The center of this shape pattern is indicated by a cross. However, in this specification, the center of the shape pattern means a point determined for each shape pattern, and is not necessarily limited to the center of the hole shape. For example, in the shape pattern shown in FIG. 4, the center of the shape pattern indicated by a cross is set at a position different from the center of the whole.

  As shown in FIG. 1, the calculation display means 8 includes a target selection means 11, a shape pattern selection means 12, a shape pattern movement means 13, a grid line display means 14, a display means 15, and the like.

  The object selection unit 11 selects a designated cabinet from the cabinet database 9 based on information input by the customer from the input unit 5 of the terminal 2. When the customer directly specifies the product number of the cabinet, it is only necessary to read out the specified cabinet from the cabinet database 9. However, when the product number is unknown and the customer inputs only the size, the sizes match. Alternatively, the cabinet having the closest size is read from the cabinet database 9. The read-out cabinet drawing is displayed on the layout screen as shown in FIG.

  The shape pattern selection unit 12 reads out the shape pattern of the hole shape to be processed into the cabinet from the shape pattern database 10 based on the information input by the customer from the input unit 5 of the terminal 2. The read shape pattern is given a center initial position (X, Y) in advance, and is temporarily displayed at a position (X, Y) on the layout screen. The initial position (X, Y) can be the center of the layout screen, for example.

  Next, the shape pattern moving means 13 moves the shape pattern on the cabinet drawing. The customer operates the moving means 6 such as the mouse of the terminal 5 or the arrow key of the keyboard and transmits a movement signal to the shape pattern moving means 13 of the server 1 to move the shape pattern to a desired position. In order to facilitate the operation, the grid line display means 14 displays grid lines on the layout screen as shown in FIG. The interval between grid lines to be displayed can be freely changed by the interval changing means 16 in the grid line display means 14. For example, as shown in FIG. 3, the intervals are 10 mm, 5 mm, 1 mm, and the like.

  The shape pattern moving means 13 has a function of moving the center of the displayed shape pattern onto the grid line. That is, the initially temporarily displayed position is not necessarily on the grid line, but when the mouse is dragged, the center of the shape pattern moves on the grid line and stops. Depending on the moving direction, the center of the shape pattern moves to the intersection of the grid lines. After that, the center of the shape pattern always moves on the grid line and does not stop in the middle of the grid line.

  When the arrow key on the keyboard is pressed, the center of the shape pattern moves on the closest grid line in the direction of the arrow, and then always moves on the grid line. Moreover, after moving to the intersection of grid lines, it always moves on the intersection of grid lines.

  Specific examples are shown in FIGS. FIG. 6 shows an example in which a shape pattern whose center is at a position of (210, 340) is dragged downward on the layout screen on which grid lines at 10 mm intervals are displayed. First, the center moves to the position (210, 330), and further dragging downward moves the center to the position (210, 320). Of course, the upward and leftward movements are performed in the same manner.

  FIG. 7 shows an example in which a plurality of holes are moved together by a drag operation.

  FIG. 8 shows an example of movement by the arrow keys. The start position is in the middle of the grid line (215, 335), but if you press the down arrow key, it will move to the (215, 330) position on the grid line, and if you press the down arrow key, it will To (215, 320). If the arrow key in the right direction is further pressed, it moves to the position (220, 320) that is the intersection of the grids.

  FIG. 9 shows an example in which a plurality of holes are moved together by an arrow key.

  The movement steps of the shape pattern described above are summarized in FIG. When a shape pattern is selected in ST1, the shape pattern is displayed on the layout screen (ST2). At this time, the initial value (X, Y) of the arrangement position is given to the shape pattern. When moved, the arrangement position changes to (X + α, Y + β). By adjusting the interval between the grid lines in ST3, the increase amounts of the movement distances α and β are changed, the shape pattern is moved (ST4) accordingly, and the arrangement position of the shape pattern is determined in the stop (ST5). Is done.

  It should be noted that even when the interval between the grid lines is changed in the middle, the position of the already arranged shape pattern is not affected. For example, even when the first shape pattern is arranged with the grid line interval set to 5 mm and then the second shape pattern is moved with the grid line interval set to 10 mm, the first shape pattern is Only the second shape pattern newly arranged does not move and moves on the grid lines at intervals of 10 mm. As a result, each shape pattern can be moved on a grid line at an arbitrary interval, and a plurality of holes can be easily arranged on the same straight line.

  As described above, according to the present invention, the center of the selected shape pattern is moved on the grid line, so that it is possible to perform the hole machining position designation work on the cabinet shape with good workability on the layout screen. There are advantages you can do.

DESCRIPTION OF SYMBOLS 1 Server 2 Terminal 3 Network 4 Monitor 5 Input means 6 Movement means 7 Storage means 8 Calculation display means 9 Cabinet database 10 Shape pattern database 11 Object selection means 12 Shape pattern selection means 13 Shape pattern movement means 14 Grid line display means 15 Display means 16 Interval change means

Claims (2)

The shape selected from the shape pattern database to the cabinet database storing the shape of the cabinet, the shape pattern database storing the shape pattern of the hole shape processed in the cabinet, and the cabinet shape selected from the cabinet database A drilling position designation system comprising a calculation display means for combining patterns and displaying them on a layout screen,
The calculation display means includes grid line display means for displaying grid lines on the layout screen, and shape pattern moving means for changing the position of the shape pattern displayed on the layout screen. A hole processing position designation system having a function of moving the center of a shape pattern onto a grid line.   The said grid line display means is provided with the space | interval change means to change the space | interval of a grid line, The hole processing position designation | designated system of Claim 1 characterized by the above-mentioned.