WO2022259846A1 - Operation device, welding device, image display method, and welding system - Google Patents

Abstract

In the present invention, an operation device executes a preparation process of receiving, from a welding device, and storing a display list that indicates identifiers for a plurality of pieces of image data, and image data corresponding to a portion of the identifiers indicated in the display list and a display process of displaying an image based on the image data corresponding to the identifiers indicated in the display list.

Description

Operating device, welding machine, image display method, and welding system

The present disclosure relates to an operating device having an image display function, a welding machine operated by the operating device, an image display method for displaying an image on the operating device, and a welding system including the operating device and the welding machine.

Patent Document 1 discloses a welding machine that transmits display data indicating the contents of selected welding condition items to an operation device, and an operation device that displays characters based on the display data transmitted from the welding machine. A welding system is disclosed.

WO2009/122657

By the way, there is a demand to enable a single operation device to operate multiple types of welding machines that require the operation device to display different images.

In addition, when a welding machine that requires the operation device to display a new image is developed in the future, there is also a demand to be able to use it to operate the welding machine without modifying the operation device.

The present disclosure has been made in view of this point, and its purpose is to enable a single operation device to operate a plurality of types of welding machines that require the operation device to display different images. Another object of the present invention is to make it possible to operate the welding machine without remodeling the operating device when a welding machine that requires the operating device to display a new image is developed in the future.

In order to achieve the above object, the present disclosure provides a manipulation device comprising: an image display unit; a manipulation device-side memory; a display list indicating identifiers of at least one piece of image data; and image data corresponding to at least a part of the identifiers from the welding machine and stored in the operation device side memory; and a control device side control section that reads out from the device side memory and performs display processing for displaying an image based on the read image data on the image display section.

As a result, the operation device receives the display list from the welder and displays an image based on the image data corresponding to the identifier indicated in the display list. Images can be displayed. Therefore, a single operation device can be used to operate a plurality of types of welding machines that require the operation device to display different images.

In addition, since the operation device receives image data from the welding machine, stores the image data, and refers to the stored image data when displaying an image, if a welding machine that requires the operation device to display a new image is developed in the future. In addition, it can be used to operate the welding machine without modifying the operating equipment.

According to the present disclosure, it is possible to operate a plurality of types of welding machines that require the operation device to display different images with one operation device, and to provide a welding machine that requires the operation device to display a new image. If developed in the future, it can be used to operate the welder without modification of the operating equipment.

FIG. 1 is a block diagram showing the configuration of a welding system according to an embodiment of the present disclosure. FIG. 2 is a communication sequence diagram showing the operation of the welding system. FIG. 3 is an explanatory diagram showing an image based on image data pre-stored in the memory on the operating device side. FIG. 4 is an explanatory diagram showing a display list stored in the welder-side memory of the first MAG welder. FIG. 5 is an explanatory diagram of an image displayed on the operating device when the first MAG welder is connected to the operating device. FIG. 6 is an explanatory diagram showing a display list stored in the welder-side memory of the TIG welder. FIG. 7 is a view equivalent to FIG. 5 when a TIG welder is connected to the operating device. FIG. 8 is an explanatory diagram showing a display list stored in the welder-side memory of the second MAG welder. FIG. 9 is an explanatory diagram showing an image based on the image data stored in the operating device side memory after the initial setting when the second MAG welder is connected to the operating device. FIG. 10 is a view equivalent to FIG. 5 when the second MAG welder is connected to the operating device.

Hereinafter, embodiments of the present disclosure will be described based on the drawings. The following description of preferred embodiments is merely exemplary in nature and is in no way intended to limit the disclosure, its applicability or its uses.

FIG. 1 shows the configuration of a welding system 1 according to an embodiment of the present disclosure. This welding system 1 includes an operating device 10 and a welder 20 .

The operation device 10 receives user input and transmits information to the welding machine 20 in order to operate the welding machine 20 . The operation device 10 is configured by, for example, a digital remote controller (remote controller). Specifically, the manipulation device 10 includes an image display section 11 , a manipulation device side memory 12 , and a manipulation device side control section 13 .

The image display unit 11 displays images. The image display unit 11 is composed of, for example, a liquid crystal panel or the like.

The operation device-side memory 12 can store a display list indicating the identifiers of a plurality of image data and the display position (X coordinate, Y coordinate) of each image data, and image data.

The operation-device-side control unit 13 performs operation-device-side transmission processing for transmitting the identifier of the image data stored in the operation-device-side memory 12 to the welding machine 20, the display list, and among the identifiers shown in the display list, Preparatory processing for receiving from the welding machine 20 image data corresponding to identifiers not included in the identifiers transmitted in the operation device side transmission processing and storing them in the operation device side memory 12, and processing corresponding to the identifiers shown in the display list The image data is read out from the operation device side memory 12, and display processing is executed to cause the image display section 11 to display an image based on the read image data. If all the identifiers shown in the display list are included in the identifiers transmitted in the operation-device-side transmission process, that is, all the image data corresponding to the identifiers shown in the display list are stored in the operation-device-side memory 12 in advance. If it is stored, the preparation process is a process of receiving only the display list from the welding machine 20 and storing it in the operation device side memory 12 . That is, in the preparatory process, the controller-device-side control unit 13 does not receive from the welding machine 20 the image data corresponding to the identifiers transmitted in the controller-device-side transmission process among the identifiers shown in the display list.

The welder 20 performs welding according to the information transmitted by the operating device 10. Specifically, the welder 20 includes a welder-side memory 21 and a welder-side controller 22 .

The welder-side memory 21 stores a display list indicating the identifiers of a plurality of image data and the display position (X coordinate, Y coordinate) of each image data. In addition to the display list, the welder-side memory 21 may further store image data corresponding to some of the identifiers shown in the display list.

The welder-side control unit 22 performs a reception process for receiving an identifier transmitted from the operation device 10 by the operation-device-side transmission process, a display list stored in the welder-side memory 21, and an identifier indicated by the display list. Of these, the welder-side transmission process of reading the image data corresponding to the identifiers not included in the identifiers received in the reception process from the welder-side memory 21 and transmitting them to the operation device 10 is executed. If all the identifiers shown in the display list are included in the identifiers received in the reception process, that is, if all the identifiers of the image data corresponding to the identifiers shown in the display list are received in the reception process , the welding machine side transmission processing is processing for transmitting only the display list to the operation device 10 . That is, in the welder-side transmission process, the welder-side controller 22 does not transmit image data corresponding to the identifier received in the reception process among the identifiers shown in the display list to the operation device 10 .

Transmission and reception of information between the operation device 10 and the welding machine 20 are performed by wireless communication or wired communication.

Next, the operation when the first and second MAG welders and the TIG welder are adopted as the welder 20 in the welding system 1 configured as described above will be described with reference to FIG. In the following example, first to sixth image data are stored in advance in the operation device side memory 12 of the operation device 10. FIG. FIG. 3 shows a first image IMG1 based on the first image data, a second image IMG2 based on the second image data, a third image IMG3 based on the third image data, and a third image IMG3 based on the fourth image data. A fourth image IMG4, a fifth image IMG5 based on the fifth image data and a sixth image IMG6 based on the sixth image data are shown. First, the operation when the first MAG welder is connected as the welder 20 to the operation device 10 will be described. The welder-side memory 21 of the first MAG welder stores the display list shown in FIG. In the display list shown in FIG. 4, 1 to 5 are shown in order as identifiers (part numbers) of the first to fifth image data. The display list also shows the display positions (X coordinates, Y coordinates) of the first to fifth image data.

First, in step S11, the operating device 10 and the welding machine 20 are activated by turning on the power.

Then, in step S<b>12 , the manipulation device-side control unit 13 of the manipulation device 10 requests the welding machine 20 to display the list and transmits the identifier of the image data stored in the manipulation device-side memory 12 . The identifiers transmitted here are the identifiers of the first to sixth image data, specifically 1 to 6. FIG.

Accordingly, in step S13, the welder-side control unit 22 of the welder 20 receives the identifier transmitted by the operation device 10 in step S12.

Next, in step S14, welder-side control unit 22 of welder 20 compares the identifier shown in the display list stored in welder-side memory 21 with the identifier received in step S13, and Identifiers not included in the identifiers received in step S13 are extracted from the displayed identifiers. In this example, the identifiers shown in the display list, namely 1 to 5, are all included in the identifiers received in step S13, namely 1 to 6, so none of the identifiers are extracted.

After that, if any identifier is extracted in step S14, in step S15, welder-side control unit 22 of welder 20 displays the display list and the image data corresponding to the identifier extracted in step S14. is read from the welding machine side memory 21 and transmitted to the operation device 10 . On the other hand, if no identifier is extracted in step S14, welder-side control unit 22 of welder 20 reads out only the display list from welder-side memory 21 and transmits it to operation device 10 in step S15. do. In this example, since no identifier was extracted in step S14, welder-side control unit 22 of welder 20 then reads out only the display list from welder-side memory 21 in step S15, and Send to

As a result, in step S16, the operating device-side control section 13 of the operating device 10 receives the information transmitted by the welder-side control section 22 in step S15, and stores it in the operating device-side memory 12. In this example, the operation-equipment-side control section 13 receives only the display list from the welding machine 20 and stores it in the operation-equipment-side memory 12 .

Next, in step S17, the manipulation-device-side control unit 13 of the manipulation-device-side memory 12 reads the image data corresponding to the identifier indicated in the display list stored in the manipulation-device-side memory 12 from the manipulation-device-side memory 12. An image based on the image data is displayed on the image display unit 11 . In this example, as shown in FIG. 5, first to fifth images IMG1 to IMG5 based on first to fifth image data are displayed by the image display unit 11. FIG.

Next, in the welding system 1 configured as described above, the operation when a TIG welder is connected as the welder 20 to the operation device 10 will be described. The welder-side memory 21 of the TIG welder stores the display list shown in FIG. In the display list shown in FIG. 6, 1, 3, 4 and 6 are shown in order as identifiers (part numbers) of the first, third, fourth and sixth image data. The display list also shows the display positions (X coordinates, Y coordinates) of the first, third, fourth, and sixth image data.

　In this example as well, the operations of steps S11 to S17 shown in FIG. Since the identifiers 1, 3, 4, and 6 shown in the display list are all included in the identifiers 1 to 6 received in step S13, in step S14, the welder-side controller of welder 20 22 does not extract any identifiers.

Further, in step S17, as image data corresponding to the identifiers shown in the display list, as shown in FIG. 4 and 6th images IMG1, IMG3, IMG4 and IMG6 are displayed by the image display unit 11. FIG.

Next, in the welding system 1 configured as described above, the operation when the second MAG welder is connected to the operation device 10 as the welder 20 will be described. The welder-side memory 21 of the second MAG welder stores the display list shown in FIG. In the display list shown in FIG. 8, 1 to 4 and 7 are shown in order as identifiers (part numbers) of the first to fourth and seventh image data. The display list also shows the display positions (X coordinates, Y coordinates) of the first to fourth and seventh image data. In addition to the display list, the welder-side memory 21 of the second MAG welder stores image data corresponding to identifier 7 among the identifiers shown in the display list.

Also in this example, the operations of steps S11 to S17 shown in FIG. 2 are executed. Identifiers 1 to 4 and 7 out of 7 shown in the display list are not included in the identifiers 1 to 6 received in step S13. 22 extracts 7 from among the identifiers shown in the display list as an identifier not included in the identifier received in step S13.

Then, in step S<b>15 , the welder-side control unit 22 of the welder 20 reads out only the display list and the seventh image data corresponding to the identifier of 7 from the welder-side memory 21 and transmits them to the operation device 10 .

In step S16, the display list and the seventh image data corresponding to the identifier 7 are received from the welding machine 20 and stored in the operation device side memory 12. As a result, the seventh image data for displaying the seventh image IMG7 is added to the image data stored in the operation device memory 12 of the operation device 10. FIG. FIG. 9 shows an image based on the image data stored in the operation device side memory after the initialization, that is, after step S16 is completed.

In step S17, as shown in FIG. 11, the first to fourth and seventh images IMG1 to IMG4 and IMG7 based on the first to fourth and seventh image data corresponding to the identifiers shown in the display list are displayed. , are displayed by the image display unit 11 .

As described above, in the present embodiment, the operation device 10 receives the display list from the welding machine 20 and displays an image based on the image data corresponding to the identifier indicated in the display list. , different images can be displayed according to the type of the welder 20 . Therefore, a single operation device 10 can be used to operate a plurality of types of welding machines 20 that require the operation device 10 to display different images.

Further, since the operation device 10 can receive and store the image data from the welding machine 20, and can refer to the stored image data when displaying the image, the welding machine 20 requesting the operation device 10 to display a new image can be used in the future. When developed, it can be used to operate the welding machine 20 without modifying the operating device 10 .

Further, if the manipulation device 10 pre-stores the image data corresponding to at least some of the identifiers shown in the display list, the image data corresponding to the remaining identifiers shown in the display list. Since only the data needs to be transmitted and received between the operation device 10 and the welding machine 20, the amount of transmitted and received data can be reduced, and the time required for initial setting can be shortened.

In the above embodiment, the display list indicates the identifiers of a plurality of image data, but it may indicate the identifier of one image data.

Further, in the above-described embodiment, the image data corresponding to some of the identifiers shown in the display list is stored in the welder-side memory 21, but all the identifiers shown in the display list may be stored.

Further, in the above embodiment, in step S15, the welder-side control unit 22 may read out image data corresponding to some of the identifiers shown in the display list from the welder-side memory 21 depending on the circumstances. However, the image data corresponding to all the identifiers shown in the display list may be read out from the welder-side memory 21 and transmitted to the operation device 10 . Further, the image data read from welder-side memory 21 by welder-side control unit 22 and transmitted to operation device 10 in step S15 may be all of the images stored in welder-side memory 21. may be a part.

Similarly, in the above embodiment, in step S16, depending on the circumstances, the operation device side control unit 13 receives image data corresponding to some of the identifiers shown in the display list from the welding machine 20. However, the image data corresponding to all the identifiers shown in the display list may be received from the welding machine 20 and stored in the operation device side memory 12 .

INDUSTRIAL APPLICABILITY The operating device, welding machine, image display method, and welding system of the present disclosure enable a single operating device to operate a plurality of types of welding machines that require the operating device to display different images. When a welding machine that requires the operation device to display a simple image is developed in the future, it can be used to operate the welding machine without modifying the operation device, and the operation device having an image display function The present invention is useful as a welding machine operated by a device, an image display method for displaying an image on the operating device, and a welding system including the operating device and the welding machine.

1 welding system 10 operating device 11 image display unit 12 operating device side memory 13 operating device side control unit 20 welding machine 21 welding machine side memory 22 welding machine side control unit

Claims (7)

1. an image display unit;
   an operating device-side memory;
   A display list indicating at least one image data identifier and image data corresponding to at least part of the identifiers indicated in the display list are received from the welding machine and stored in the operation device side memory. and a control device side that executes display processing for reading image data corresponding to the identifiers indicated in the display list from the control device side memory and displaying an image based on the read image data on the image display unit. an operating device comprising a control unit;
2. The operating device according to claim 1,
   The operation-device-side control unit further executes operation-device-side transmission processing for transmitting an identifier of the image data stored in the operation-device-side memory to the welding machine,
   The operating device, wherein in the preparation processing, image data corresponding to the identifiers transmitted in the operating device side transmission processing among the identifiers shown in the display list are not received from the welding machine.
3. a welding machine-side memory that stores a display list showing identifiers of at least one piece of image data and image data corresponding to at least part of the identifiers shown in the display list;
   A welder that executes a welder-side transmission process of reading the display list and at least part of the image data stored in the welder-side memory from the welder-side memory and transmitting the data to an operation device. Welder with side control.
4. The welder according to claim 3,
   The welder-side control unit further executes a reception process of receiving an identifier of the image data stored in the operation device from the operation device,
   The welder, wherein in the welder-side transmission process, image data corresponding to the identifier received in the reception process among the identifiers shown in the display list is not transmitted to the operation device.
5. An image display method for displaying an image on an operation device of a welding machine,
   a welder-side transmission step in which the welder transmits a display list indicating at least one identifier of image data and image data corresponding to at least a portion of the identifiers shown in the display list to the operation device; When,
   a preparation step in which the operation device receives and stores the display list and the image data transmitted in the welding machine side transmission step;
   and a display step in which the operation device displays an image based on the image data corresponding to the identifier shown in the display list.
6. In the image display method according to claim 5,
   an operation device side transmission step in which the operation device transmits an identifier of the stored image data to the welding machine;
   a reception step in which the welder receives the identifier transmitted in the operation device side transmission step;
   The image characterized in that, in the welding machine side transmitting step, the welding machine does not transmit image data corresponding to the identifier received in the receiving step out of the identifiers shown in the display list to the operation device. Display method.
7. A welding system comprising a welder and an operating device, comprising:
   The welding machine sends a display list showing identifiers of at least one image data and image data corresponding to at least part of the identifiers shown in the display list to the operation device. perform the processing,
   a preparation process in which the operation device receives and stores the display list and the image data transmitted by the welding machine side transmission process;
   and display processing for displaying an image based on the image data corresponding to the identifier shown in the display list.

Images