JP2020052904A - Product drawing software and processing possibility determination system - Google Patents

Abstract

To determine the possibility of processing on software installed in a terminal.SOLUTION: The present invention is directed to product drawing software which can create a drawing by designating an aperture processing position and/or an equipment position with a terminal 2 having the software installed therein. The product drawing software includes: drawing importing means 21 used for importing product drawing data 51 including data for use in processing determination into the terminal from the outside; input means 22 used for adding the aperture processing position and/or the equipment position to a product display drawing displayed on the terminal by reading the product drawing data acquired by the terminal; and determination means 23 used for determining the possibility of the arrangement of the aperture processing position and/or the equipment position added by the input means.SELECTED DRAWING: Figure 1

Description

  The present invention relates to product drawing software and a processing availability determination system.

  Generally, a person who requests to create a cabinet creates a drawing of the cabinet using drawing creation software installed in the terminal. Further, as can be understood from FIGS. 13 and 14, the cabinet requires various holes such as the mounting hole 101, the opening hole 102, and the passage hole 103 according to the specifications. In order to request a product in which a special hole is drilled in a cabinet, an order is issued by specifying a hole drilling position using a system disclosed on Patent Document 1 published on the Internet. In this case, the determination as to whether or not processing is possible can be made only on the processing company side. This is because the cabinet database held by the processing company stores information for determining whether or not processing is possible for each cabinet.

JP 2014-182427 A

  By the way, in the conventional technology, it is necessary that conditions for connecting to the Internet be established when it is desired to make a determination. This means that, when it is desired to make a determination, it may be impossible to make a determination due to external factors, which is not preferable. In addition, a user (user) who intends to order a cabinet using the hole processing determination creates a drawing including the specifications using drawing creation software installed on the terminal, and then separately sets a hole processing position on the Internet. Since it is necessary to create the designated drawing, the burden on the user after the determination that processing is not possible has been heavy. The reason that the drawing created by the user could not be used for the processing determination system is that the drawing was freely created in a format desired by the user. Since it is difficult to adapt any drawing to the above-mentioned system, the work of redrawing a drawing applicable to the above-mentioned system has occurred.

  The inventor of the present invention sought to solve this problem by studying this point earnestly. An object of the present invention is to make it possible to determine whether processing is possible on software installed in a terminal.

  In order to solve the above-mentioned problem, it is a product drawing software capable of performing drawing by designating a hole processing position and / or a device position with an installed terminal, and product drawing data including data used for processing determination, Adds a hole processing position and / or a device position to the product display diagram displayed on the terminal by reading the drawing data acquired by the terminal and drawing product data used by the terminal when obtaining from the terminal The product drawing software is provided with input means used at the time of performing, and determination means used at the time of determining whether or not the arrangement of the hole processing position and / or the equipment position added by the input means is possible at the terminal.

  In addition, the product drawing data acquired by the terminal on which the product drawing software is installed, a processing determination condition layer capable of specifying a processing determination region, and a processing availability determination system including a shape layer capable of specifying a product shape. Is preferred.

  Further, by inputting a hole shape input layer provided with hole shape data using an input means, a hole shape input layer configuration capable of adding a hole processing position to a product display diagram displayed on a terminal may be provided. preferable.

  Further, the determination means is a position where the hole drawn in the hole shape input layer is included in the outer shape of the product read from the shape layer and is not included in the processing determination area read from the processing determination condition layer. It is preferable to adopt a configuration in which it is determined that machining is possible when it is arranged at a position.

  According to the present invention, it is possible to determine whether or not processing is possible on software installed in a terminal.

FIG. 7 is a conceptual diagram showing that cabinet drawing data is taken into a terminal from the outside. FIG. 5 is a diagram illustrating an example of a diagram displayed on a display unit of the terminal. However, the shaded area indicates the processing determination area. It is a figure showing that the figure shown on the display means is constituted by combining a plurality of layers, taking the door displayed on the display means as an example. However, the shaded area indicates the processing determination area. It is a figure showing that the figure shown on the display means is constituted by combining a plurality of layers, taking the left side plate as an example. However, the shaded area indicates the processing determination area. It is a figure showing that the figure shown on the display means is constituted by combining a plurality of layers, taking the right side plate as an example. However, the shaded area indicates the processing determination area. FIG. 7 is a diagram illustrating an example in which a hole shape input by an input unit is arranged at a position where processing is possible. However, the shaded area indicates the processing determination area. FIG. 7 is a diagram illustrating an example in a case where a hole shape input by an input unit is not arranged at a position where processing is possible. However, the shaded area indicates the processing determination area. It is a figure showing the LED device symbol displayed on the display means and the hole shape linked to the device symbol. It is a figure showing the device symbol of the breaker represented on the display means, and the hole shape linked to the device symbol. FIG. 10 is a diagram illustrating a state in which a plurality of device symbols are added to the cabinet display diagram displayed on the display unit. It is a figure showing the example of the flow which works using the terminal in which cabinet drawing software was installed. FIG. 12 is a diagram showing the inside of a broken line in FIG. 11 in more detail. It is a figure showing the example of the cabinet provided with the hole. It is a figure showing the example of the cabinet provided with the hole of the form different from FIG.

  Hereinafter, embodiments for carrying out the invention will be described. The product drawing software according to the present embodiment can perform drawing by designating a hole processing position and / or a device position with the terminal 2 installed. The product drawing software includes a drawing capturing unit 21 used when externally acquiring the product drawing data 51 including data used for processing determination to the terminal 2. In addition, an input unit 22 is used to add a hole processing position and / or a device position to a product display diagram displayed on the terminal 2 by reading the product drawing data acquired by the terminal 2. . Further, a determination unit 23 is provided which is used when the terminal 2 determines whether or not the hole processing position and / or the device position added by the input unit 22 can be arranged. For this reason, it is possible to determine whether or not processing is possible on the software installed in the terminal 2. Since the drawing drawn in this way can be used as it is for determination, it is not necessary to separately draw the drawing for determining the specifications and the drawing for determination, and can save the user time and effort. In the present embodiment, the present invention relates to drawing software for a cabinet 10 that houses electrical and electronic devices, and describes the product drawing data as cabinet drawing data 51 and the product display diagram as a cabinet display diagram.

  A terminal 2 installed with cabinet drawing software capable of drawing on a drawing by designating a hole processing position and / or a device position and drawing an outline of a cabinet is used by a user who seeks the cabinet 10. It is. As can be understood from FIG. 1, this terminal 2 can acquire cabinet drawing data 51 stored in a drawing storage location 91. The cabinet drawing data 51 includes data used for processing determination. More specifically, the cabinet drawing data 51 according to the embodiment includes a processing determination condition layer 52 that can specify the processing determination region 11, and data included in the processing determination condition layer 52 is used for processing determination. Can be The cabinet 10 has a portion where drilling is difficult, and a region used for determining whether or not the hole is difficult is defined as a processing determination region 11.

  Before moving to the terminal 2, the cabinet drawing data 51 is stored in the drawing storage location 91. When the terminal 2 acquires the cabinet drawing data 51, it may be obtained from the drawing storage location 91 using the Internet, or a recording medium such as a DVD or USB which is the drawing storage location 91 may be directly transmitted to the terminal 2. It may be obtained by connecting. If the drawing capturing means 21 available on the terminal 2 in which cabinet drawing software is installed is used, cabinet drawing data 51 can be smoothly acquired. The cabinet drawing data 51 can be used when the user draws the cabinet 10 incorporating the specifications.

  In the embodiment, the cabinet drawing data 51 includes a processing determination condition layer 52 that can specify the processing determination region 11 and a shape layer 53 that can specify the shape of the cabinet 10. Since the information is grouped into a plurality of layers as described above, it is easy to determine whether the line is an outer shape line or a line indicating a boundary of a region in which hole processing is difficult when the cabinet 10 is determined. In addition, since the processing determination condition layer 52 is set for each drawing and the determination means 23 is provided on software, even when a cabinet 10 having a different shape from the conventional one is newly added to the lineup, the shape of the cabinet 10 can be specified. If the data provided with the appropriate shape layer 53 and the processing determination condition layer 52 is updated, the determination can be made based on the software determination condition, so that it is not necessary to update the software each time.

  The cabinet drawing data 51 of the embodiment includes data of a side plate, a door 31, a ceiling plate 34, a bottom plate, a rear plate 35 of the cabinet 10, and an attached device to be mounted inside. However, these data are configured as being allocated to different layers. For example, the left side panel 33, the right side panel 32, the ceiling panel 34, and the rear panel 35 are assigned different layer numbers, and by selecting the layer number, the layer displayed on the display unit 24 of the terminal 2 is selected. can do. There are various types of accessory devices. For example, a device mounting plate 36 fixed to the back plate 35 or the side plate, a protective cover for protecting the charged portion when the device is mounted inside, a wiring rail, and the like. , A wiring cover attached to the outside of the cabinet 10, a base, and the like.

  The cabinet drawing data 51 of the embodiment can be read by cabinet drawing software and displayed on the display means 24 of the terminal 2. In the example shown in FIG. 2, the display means 24 shows a left side plate 33, a door 31, a right side plate 32, a back plate 35, a ceiling plate 34, and a device mounting plate 36. In addition, there is a portion that cannot be drilled even inside these outer shapes, and the region of this portion is set as the processing determination region 11. This processing determination area 11 is indicated by oblique lines in FIG.

  The user of the terminal 2 inputs the hole shape 81 formed by specifying the hole processing position and / or the device position to the hole shape input layer 71 by using the input means 22, so that the cabinet drawing data 51 is input to the hole drawing input layer 71. Processing positions can be added. When the data to be added on the terminal 2 side is input to the hole shape input layer 71 in this manner, it becomes easy to distinguish the data from the other data in the processing determination condition layer 52 and the shape layer 53. In addition, it becomes easier to manage data in units of layers.

  In FIG. 2, a hole 31 formed by specifying a hole processing position and / or a device position in a round shape on the door 31 is shown, and a hole processing position and / or a square shape is formed on the left side plate 33 and the right side plate 32. Alternatively, a hole shape 81 formed by specifying a device position is shown. This is input by the input unit 22. As described above, data obtained as a result of adding data on the terminal 2 to the cabinet drawing data 51 obtained from the outside can be stored as additional cabinet drawing data. Here, a method of configuring an image displayed on the display unit 24 of the terminal 2 will be described.

  First, the door 31 shown in FIG. 2 will be described as an example. As can be understood from FIGS. 2 and 3, by combining the shape layer 53 and the processing determination condition layer 52, the door 31 has an outer shape of the door 31 and an area where the hole cannot be formed in the door 31. The display means 24 can also display the hole processing positions together. Here, the layer number of the shape layer 53 is 100, and the layer number of the processing determination condition layer 52 is 200. The data of the 100th layer and the 200th layer are included in the cabinet drawing data 51.

  The user of the terminal 2 can add a hole processing position to the cabinet display diagram by inputting the data hole shape input layer 71 of the hole shape 81 using the input means 22. In the example shown in FIG. 3, the hole shape input layer 71 has a layer number of 300. Thus, in the embodiment, the shape layer 53, the hole shape input layer 71, and the processing determination condition layer 52 are separate layers. When displayed on the screen, they are arranged so as to overlap with one drawing, but since they are separated separately on the data, the displayed line is a line indicating an outline or a line indicating a prohibited area. Or the input drawing can be grasped.

  Further, in the embodiment, similarly to the door 31, layers are provided for the left side plate 33 and the right side plate 32. As can be understood from FIG. 4, in the left side plate 33, the layer number of the shape layer 53 is 101 and the layer number of the processing determination condition layer 52 is 201. The data of the 101st layer and the 201st layer are included in the cabinet drawing data 51. The user of the terminal 2 adds the hole processing position to the cabinet display diagram by inputting the hole shape input layer 71 provided with the data of the hole shape 81 using the input means 22, as shown in FIG. In the example, the hole shape input layer 71 has the layer number 301.

  As shown in FIG. 5, in the right side plate 32, the layer number of the shape layer 53 is 102 and the layer number of the processing determination condition layer 52 is 202. The data of the 102nd layer and the 202nd layer are included in the cabinet drawing data 51. The user of the terminal 2 attaches the hole shape input layer 71 provided with the data of the hole shape 81 to the cabinet drawing data 51 by using the input means 22, but in the example shown in FIG. Indicates that the layer number is 302. The cabinet drawing data 51 also includes a shape layer 53 and a processing determination condition layer 52 for each of the back plate 35, the ceiling plate 34, the device mounting plate 36, and the like. The hole shape input layer 71 can be attached to the cabinet drawing data 51 by using the input means 22.

  The information on the holes specified by the hole shape input layer 71 attached to the cabinet drawing data 51 is used by the determination unit 23 to determine whether or not processing is possible. At this time, the determination unit 23 compares the information of the hole specified by the hole shape input layer 71 with data used for processing determination in the cabinet drawing data 51. In the example of the door 31, by comparing the 300th layer with the 100th layer and the 200th layer, it is possible to confirm whether or not a hole can be formed at the position specified by the 300th. The judging means 23 judges that machining is possible when the holes drawn on the hole shape input layer 71 are arranged at positions as shown in FIG. Further, when the holes drawn on the hole shape input layer 71 are arranged at the positions as shown in FIG. 7, it is determined that the processing cannot be performed.

  The determination means 23 of the embodiment is a position where the hole drawn in the hole shape input layer 71 is included in the outer shape of the cabinet 10 read from the shape layer 53 and is read from the processing determination condition layer 52. If it is arranged at a position not included in the processing determination area 11, it is determined that processing is possible. For this reason, the terminal 2 can determine whether or not processing is possible appropriately.

  By the way, the data added by the input means 22 does not need to be displayed on the display means 24 so as to represent the hole shape. For example, the display means 24 may indicate the device shape. For example, in the example shown in FIG. 8, a square device symbol 82 is used to represent an LED. The device symbol 82 is displayed on the display unit 24. The data of the hole shape 81 necessary for processing is linked to the device symbol 82. In the example shown in FIG. 8, a circular hole shape 81 is linked, and while the device symbol 82 is displayed on the display means 24, the circular hole shape 81 can be used for determination. In the embodiment, the device symbol 82 and the hole shape 81 are also formed in different layers, and the display of the device symbol 82 or the hole shape 81 can be arbitrarily determined by selecting the layer. You can choose.

  In the example shown in FIG. 9, a figure simulating a rectangular breaker is the device symbol 82 of the breaker. The device symbol 82 simulating the breaker is linked to data of four small hole shapes 81 required for processing. The determination in the embodiment is performed by confirming whether or not the small hole is arranged at a position where it can be processed.

  As described above, if the device symbol 82 linked to the hole shape 81 can be displayed, it is possible to easily visualize a state where a device such as a breaker is attached when the drawing is created. As a result of the determination, it is preferable that the device symbol 82 linked to the unprocessable hole can be distinguished from the device symbol 82 linked to the processable hole. In the embodiment, the display color of the device symbol 82 linked to the unprocessable hole is different from that of the device symbol 82 linked to the unprocessable hole.

  In the embodiment, the intersection of the lines crossing in a cross shape shown in FIG. 10 is a position serving as an index for arranging the holes or the device symbols 82, and the operator can intersect this line (indicated by the white arrow). (In the vicinity) is determined with respect to the cabinet display diagram displayed on the terminal 2, and the position of the hole or the device symbol 82 can be specified. In the embodiment, these positions can be determined by specifying a coordinate value.

  Here, an example of use of the terminal 2 in which cabinet drawing software is installed will be described. As understood from FIG. 11, cabinet drawing software installed on a PC (Personal Computer) which is the terminal 2 is started (S100). Next, if necessary, the cabinet drawing data 51 is fetched (S200). The capture of the drawing data 51 may be performed by loading the cabinet drawing data 51 stored in a recording medium such as a USB or a DVD into the terminal 2, or may be obtained via the Internet and the drawing data 51 may be loaded.

  The fetched cabinet drawing data 51 is read by using the drawing developing means 25 of the cabinet drawing software, and a cabinet display diagram is displayed on the display means 24 of the terminal 2 (S300). The user of the terminal 2 adds a hole processing position and / or a device position to this cabinet display diagram so that the desired cabinet 10 can exhibit necessary functions (S400). Based on the information on the added hole drilling position and / or device position, it is determined whether or not these are arranged at positions where they can be drilled by using the determining means 23 (S500).

  Here, an example of the determination using the determination unit 23 will be described in detail. As can be understood from FIG. 12, in the embodiment, first, the determination unit 23 starts the availability determination (S510). Thereafter, it is checked whether or not the positions requiring the hole processing overlap (S520). If they do not overlap, it is checked whether the hole shape 81 is included in the outer shape (S530). If the hole shape 81 is included in the outer shape, it is checked whether the hole shape 81 is prohibited or not included in the processing determination area 11 (S540). When not included, it is possible to perform hole processing without changing the hole processing position and / or the device position input by the input unit 22. As described above, in the present invention, the terminal 2 can determine whether or not to perform the hole drilling under the conditions added on the terminal 2 side.

  In the present embodiment, when it is determined that the hole drilling is possible under the added conditions on the terminal 2 side, the information is sent to a cabinet manufacturing company or the like so that a quote can be requested. The cabinet manufacturer can create a production drawing or the like based on this information.

  In the present invention, a user creates a drawing by designating a hole drilling position and / or a device position based on the cabinet drawing data 51 acquired by the terminal 2. There is no need to make ten drawings, and the user can save time and effort. In addition, since the drawing drawn in this way can be used as it is for determination, it is not necessary to separately draw a drawing for determining specifications and a drawing for determination, thereby saving the user time and effort. .

  As described above, the present invention has been described by taking the embodiment as an example. However, the present invention is not limited to the above-described embodiment, and can take various aspects.

2 Terminal 10 Cabinet 11 Processing determination area 21 Drawing taking means 22 Input means 23 Determination means 24 Display means 51 Cabinet drawing data 52 Processing determination condition layer 53 Shape layer 71 Hole shape input layer 81 Hole shape

Claims (4)

  Product drawing software that can perform drawing by specifying the hole processing position and / or the device position with the installed terminal, and when obtaining the product drawing data including the data used for processing determination from the outside to the terminal Input means used for adding a hole machining position and / or a device position to a product display diagram displayed on a terminal by reading product drawing data acquired by the terminal. Product drawing software comprising: a determination unit that is used by a terminal to determine whether the hole processing position and / or the device position added by the input unit is arrangeable.   Product availability data, which is obtained from a terminal in which the product drawing software according to claim 1 is installed, includes a processing determination condition layer capable of specifying a processing determination area and a shape determination layer capable of specifying a product shape. Judgment system.   3. The processability according to claim 2, comprising a hole shape input layer capable of adding a hole shape to a product display diagram displayed on the terminal by designating a hole processing position and / or a device position using the input means. Judgment system.   The determination means is located at a position where the hole drawn in the hole shape input layer is included in the outer shape of the product read from the shape layer and is not included in the processing determination area read from the processing determination condition layer. The processing availability determination system according to claim 3, wherein when it is arranged, it is determined that processing is possible.