JP2004165522A - Method for making short-cut operation in electronic part mounting device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an electronic part mounting device which reduces the time for learning the operation of the device by facilitating the operation procedures of the device, and limits each of operations to a person particularly authorized for the operation. <P>SOLUTION: Icons 28 used for short-cut indications are prepared in advance and displayed on a display window 27 in an upper display region 26 of a presetting operation screen 25 so as to cope with the number of possible operation screens. A presetting administrator carries out grouping of operations as required through a group name selecting/inputting frame 35 to copy the desired icons 28 from a display window 39 to a lower display region 34. Then, operators are selected by these icons 28 from a user setting column 41 so that each of the operators can authoritatively carry out inputting operation toward a particular operation screen in which passages of an abbreviated hierarchical structure is indicated. Thereafter, correspondency between each icon group per operation screen and a selected operator is determined and registered at a main unit in the device through a "Set" button 37. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an electronic component mounting apparatus capable of simplifying a procedure for operating the apparatus, shortening a learning time for the operation of the apparatus, and limiting an operation corresponding to a work authority.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, there is an electronic component mounting apparatus that mounts an electronic component (hereinafter simply referred to as a component) on a printed circuit board (hereinafter simply referred to as a substrate) carried into a main body device.
FIG. 4 (a) is an external perspective view of such an electronic component mounting apparatus, and FIG. 4 (b) is a perspective view schematically showing the internal configuration of the electronic component mounting apparatus by removing upper and lower protective covers.
[0003]
As shown in FIG. 1 (a), the electronic component mounting apparatus 1 includes a monitor device 2 composed of a CRT display before and after on a ceiling cover, and an alarm lamp for notifying the operation state on the left and right on the ceiling cover, respectively. 3 is provided. On the front and rear surfaces of the upper protective cover 4, there are provided small display input panels 5 each comprising a liquid crystal display and a touch-type input device and capable of inputting various instructions by an external operation. (The display input panel 5 at the rear, which is obliquely upward in the figure, is shaded and cannot be seen).
[0004]
On the lower base 6, a pair of fixed and movable parallel board guide rails 7 are provided at the center in the transport direction (X) of a printed circuit board (hereinafter simply referred to as a board) 8 shown in FIG. It is disposed to extend horizontally in the axial direction (from the lower right to the upper left). A loop-shaped conveyor belt (conveyor belt), which cannot be seen in the drawing, is movably disposed in contact with the lower portions of these board guide rails 7.
[0005]
The conveyor belt is driven by a belt drive motor (not shown) to move the belt side portions each having a width of several millimeters from below the substrate guide rail 7 to the substrate transport path, travels in the substrate transport direction, and moves on both sides of the rear surface of the substrate 8. The substrate 8 before mounting components is loaded into the apparatus main body from the upstream side of the line while supporting the components from below, and the substrate 8 on which components are mounted is sequentially transported to the downstream side of the line. Two substrates 8 are always loaded into the electronic component mounting apparatus 1, are positioned, and are fixed until component mounting is completed.
[0006]
An electronic component supply table 9 is formed before and after the base 6, respectively. (In FIG. 3A, the rear electronic component supply table 9 which is obliquely upward in the figure is shaded and cannot be seen. The electronic component supply table 9 at the rear is not shown in FIG. On the electronic component supply table 9, a large number of tape cassette type electronic component supply devices 11 (hereinafter, referred to as tape feeders) are arranged.
[0007]
Above the base 6, two X-axis rails 12 and a Y-axis slidably supported on the X-axis rails 12 in the X-axis direction (from the lower right to the upper left in the figure). Rails 13 are disposed on the left and right, respectively, and two work head support towers 14 are slidably suspended on the respective Y-axis rails 13 in the Y-axis direction (from the lower left to the upper right in the figure). Have been. That is, the electronic component mounting apparatus 1 shown here is provided with a total of four working head support towers 14.
[0008]
In the example shown in the figure, two work heads 15 are arranged on each work head support tower 14 so as to be able to move up and down vertically (Z direction) and to be rotatable in a 360 degree direction (referred to as θ direction). That is, a total of eight work heads 15 are arranged in the electronic component mounting apparatus 1, and each work head 15 moves in the X-axis direction by the Y-axis rail 13, and moves in the Y-axis direction by the work head support tower 14. , The movement in the Z-axis direction by the work head 15 itself, and the rotation in the θ direction, the position in the front-rear, left-right, up-down, and 360-degree directions can be freely controlled.
[0009]
These work heads 15 suction a predetermined component supplied to the suction unit by the tape feeder 11 or the tray-type electronic component supply device by a suction nozzle, and mount the suctioned component at a predetermined mounting position on the substrate 8. .
Although not shown, the base 6 includes a substrate positioning device, a substrate fixing mechanism for fixing the substrate between the two substrate guide rails 7, a control device for controlling each part, and the like. ing.
[0010]
In such an electronic component mounting apparatus, a worker at the site performs a certain operation, for example, an operation such as teaching, on the electronic component mounting apparatus, and an operator in charge of program creation checks data such as a component data master file. In such a case, each of the operators operates the display input panel 5 to sequentially follow a predetermined hierarchy of operation screens displayed on the display input panel 5, and finally perform a desired operation. A screen is displayed to allow the electronic component mounting apparatus to perform a desired operation or to check data.
[0011]
FIGS. 5A and 5B are diagrams showing examples of operation screens displayed on such a display input panel 5. FIG. The operation screen 16 shown in FIG. 5A is a screen displayed via an initial screen for starting an operation on the main body device (electronic component mounting device), and a "TOP menu" is displayed at the center of the uppermost row. This screen is a top menu screen. This top menu screen is the display screen of the first hierarchy, that is, the first hierarchy. Further, since this screen is a top menu screen, a “TOP” button 17 and a “<return” button 18 are displayed side by side on the right side of the uppermost row. However, the functions of these buttons are stopped, and therefore, the buttons are thin. Displayed in color.
[0012]
Immediately below these top displays, there is an initial selection button display area 19 for selecting the first work content. In the initial selection button display area 19, five buttons indicating work contents of production management, external setup, internal setup, production, and maintenance are displayed. The work contents indicated by these five buttons form a second hierarchy with respect to the top menu screen (operation screen 16) of the first hierarchy. In the example shown in FIG. 7A, the external setup button is displayed in a depressed state, indicating that the operation of “external setup” has been selected on the operation screen 16 of the first hierarchy.
[0013]
Below the initial selection button display area 19, there is a product information display area 20. In this product information display area 20, the contents of three items, a product name, a board name, and a manufacturing instruction, which have been input in advance, are respectively stored. It is displayed in the display frame.
Below this product information display area 20 is a menu button display area 21. In the menu button display area 21, when the “outside setup” button is pressed in the above-mentioned initial selection button display area 29 and the outside setup work is selected, a menu of work contents related to the outside setup is displayed. It is divided into two rows and displayed by eight image buttons.
[0014]
The upper four of the eight image buttons are, from left to right, board creation / selection, coordinate / part data creation, production instruction creation / selection, and production instruction editing, and the lower four are component masters. Creation, OFFLINE Teaching, transport system setting, and Online Teaching. The work contents indicated by these eight image buttons correspond to the next hierarchy, that is, the top menu screen of the first hierarchy (the operation menu of the first hierarchy) with respect to the button indicating each work content displayed in the initial selection button display area 19 of the second hierarchy. A third layer is formed for the screen 16).
[0015]
If the operator presses a button other than the outside setup button in the initial selection button display area 19, the menu of the work corresponding to the pressed button is displayed by the image button by the menu button display of FIG. It is displayed in the same display format as that shown in the area 21. Therefore, for example, assuming that there are eight image buttons each indicating a work menu for each of the five buttons in the initial selection button display area 19 as in the case of the external setup, the operation buttons 16 can be selected. The work content of the third hierarchy is 5 × 8 = 40, that is, there are 40 types of work contents.
[0016]
In the display of the menu button display area 21 shown in FIG. 9A, for example, when the button for editing the manufacturing instruction at the upper right is pressed, a screen as shown in FIG. 9B is displayed. In the center of the uppermost row of this display screen, "setup information-layout diagram" is displayed, and various data relating to the work of editing the manufacturing instruction edited by inputting, changing, etc. by the subsequent screen selection are displayed in the lower center. The information is displayed in the setup information display area 22 occupying the whole. Further, the function stop of the "TOP" button 17 on the upper right side is released and displayed in dark color so that the user can return to the top menu screen of FIG. Further, the function stop of the “<return” button 18 is released so that the selection can be performed again, and the button is displayed in a dark color.
[0017]
A next selection button display area 23 is provided between the uppermost display area and the setup information display area 22. In the example of FIG. 9B, the next-stage selection button display area 23 has data, display switching, blank, teaching, printing, tool, selection / cancel, blank, and blank from left to right. The blank button is a button at a display position having an unnecessary function on this screen, and the display on the button is blank.
[0018]
Although the display screen as shown in FIG. 2B has different display contents, for example, as described above, as the third hierarchy display screen, 40 types of display screens are prepared so as to be able to be displayed according to selection.
In the display screen for performing the “manufacturing instruction editing” operation in the “outer setup” operation shown in FIG. 8B, as an example, the display switching button displayed second from the left in the next stage selection button display area 23 The case where is input is described.
[0019]
FIG. 6A shows the display screen of FIG. 5B again. Every time the display switching button on the display screen is input, as shown in FIG. 6B, the contents displayed in the setup information display area 22 are, in order from the top, an NC program list, a feeder setting list, The screen switches between six types of screens, such as a nozzle setting list, a pallet setting list, board information, and child board information. These six display screens shown in FIG. 6B are a group of display screens forming a fourth hierarchy.
[0020]
Further, even if the contents displayed in the setup information display area 22 are switched, the next-stage selection button display area 23 (see FIG. The display of the button in b) is basically the same, but the display is added to the blank button to cancel the function stop, or the display changes to a blank and the button function stops. It may be done.
[0021]
Here, assuming that all of the 40 types of third-layer display screens have six fourth-layer display screens as shown in FIG. 6B, the fourth-layer display screen is 40 × 6. = 240, that is, 240 kinds of display screens are prepared as display screens of the fourth hierarchy so that they can be displayed according to selection. Actually, not all screens in the third hierarchy have six screens in the lower hierarchy, and some have more and some have less. This is about 240 types.
[0022]
Assuming that, for example, a teaching button in the selection button display area 23 is pressed on the display screen of the fourth hierarchy shown in FIG. 6B, for example, from the display screen of the NC program list, every time the teaching button is pressed, the same figure is displayed. As shown in (c), three display screens, ie, a display screen for executing the mounting coordinate teaching, a display screen for executing the board mark teaching, and a display screen for executing the component master teaching, are sequentially rotated and switched.
[0023]
Further, for example, from the display screen of the feeder setting list, although not shown, more display screens for performing teaching are sequentially switched and displayed. Further, for example, a display screen for executing nozzle teaching is displayed from the display screen of the nozzle setting list.
[0024]
These screens show the display screen of the fifth hierarchy. Also in this case, the display screen of the fifth hierarchy corresponding to each display screen of the fourth hierarchy may have three display screens as described above, or may have one display screen. If it is assumed that each has two display screens, the final display screen of the fifth layer is 2 × 240 = 480, and about 480 display screens are prepared in the memory device. Will be.
[0025]
[Problems to be solved by the invention]
By the way, the conventional electronic component mounting apparatus needs to operate according to the hierarchically structured operation screen provided from the electronic component mounting apparatus manufacturing factory side as described above. The operator who operates the equipment at the factory using the equipment that manufactures the device needs to learn the screen configuration and the hierarchical configuration of the operation screen having the hierarchical structure.
[0026]
For example, in the case of a person in charge of teaching work, in order to reach the fifth hierarchical operation screen for instructing teaching, how to follow the hierarchy in the entire hierarchical structure You need to know what. For that purpose, it is necessary to remember where the desired display screen is located in the entire hierarchical structure. Therefore, there is a problem that it takes an extremely long time to educate a new employee as a worker who operates the apparatus.
[0027]
Further, even after the learning of the screen configuration and the hierarchical configuration of the operation screen for operating the device is completed, the user must follow the hierarchy from the initial screen and operate until the desired operation screen is displayed on the display screen. In many cases, the efficiency of the operation is reduced, which hinders the improvement of the operation efficiency of the device operation.
[0028]
In addition, if the user operates in a hierarchy, any one of the operation screens can be displayed and input operation can be performed. If an improper input operation is performed by an operator who does not have the operation authority on an operation screen which must not be operated by a user, there is a possibility that a malfunction may later occur in the operation of the electronic component mounting apparatus. Therefore, it is necessary to appropriately manage the relationship between the operation screen and the work authority in order to eliminate the cause of such a failure. However, since anyone can perform input operations on all operation screens, properly managing the relationship between operation screens and their work authority means that someone always monitors the operation screens and workers. Therefore, such a management is practically impossible and has a problem that it is very difficult to execute.
[0029]
An object of the present invention is to provide an electronic component mounting apparatus that simplifies an apparatus operation procedure, shortens a learning time related to an apparatus operation, and limits an operation corresponding to a work authority, in view of the above conventional situation. is there.
[0030]
[Means for Solving the Problems]
Hereinafter, the configuration of the electronic component mounting apparatus according to the present invention will be described.
An electronic component mounting apparatus according to the present invention is an electronic component mounting apparatus that automatically mounts electronic components on a printed circuit board. The electronic component mounting apparatus has icons corresponding to desired operation screens in a hierarchical structure of operation screens. Icon / operator setting means for setting the icon in association with an operator who has an operation right to the operation screen related to the icon, and displaying the icon set by the icon / operator setting means, and displaying the icon as the icon. A path shortening display means for immediately displaying an operation screen corresponding to the icon on the display screen when selected and input by the associated worker.
[0031]
The icon / operator setting means includes, for example, a grouping means for grouping the icons to be set according to the operation content of the operation screen relating to the icons or the workers. Be composed.
[0032]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
The electronic component mounting apparatus according to the embodiment of the present invention is the same electronic component mounting apparatus as shown in FIGS. 4 (a) and 4 (b). However, the processing operation of the control unit disposed inside the base is different. In this example, although not shown, the control unit includes a CPU (central processing unit) and a ROM (read only memory) connected to the CPU via a bus, a RAM (random access memory), an image processing unit, an I / O. (Input / output) interface, etc. The I / O interface includes an input monitor, a key input unit, a servomotor, a positioning device, an abnormality notification lamp, an external storage device such as an HD (hard disk), an area sensor, and a limit sensor. , A substrate sensor and the like. The input monitor has the same display input function as the display input panel 5 shown in FIG.
[0033]
In the RAM or the external device, operation screens related to various operations of the electronic component mounting device are created in advance for all operations and stored in a predetermined area. Icons for all of these operation screens or required operation screens are respectively created in advance and stored in a predetermined area of the RAM or the external device.
[0034]
In the processing unique to the present invention, the CPU displays the various operation screens on the input monitor based on instructions from the initial screen by the operator.
FIG. 1 is a screen displayed on the input monitor based on an instruction from a worker from an initial screen, and is a diagram showing an example of a setting operation screen for setting a limited relationship between the operation screen and the worker. . The operation screen shown in the figure is an operation screen for setting as an icon / operator setting means, and can display all icons corresponding to the operation screen having a hierarchical structure. Icon can be set in association with a worker who has the operation authority for the operation screen related to the icon.
[0035]
As shown in the figure, the setup operation screen 25 has a setup information display area 22 divided into upper and lower areas, and an upper display area 26 below the uppermost “settable shortcut item” display. A wide display window 27 is provided, in which a number of shortcut icons (hereinafter simply referred to as icons) 28 are displayed so as to be scrollable up and down by operating a scroll button 29.
[0036]
As for the icons 28, only those that can be seen in the display window 27 in the same figure, from the upper left to the right, the board creation information, the external setup layout, the optimization, the coordinate data list, the product table list, and the child From the lower left to the right, there are a board information list, a manufacturing instruction selection (model selection), a transport system setting, an NC layout diagram, an NC program list, a feeder layout list, and a pallet layout list. Below these icons, more icons 28 are hidden and arranged, and these icons 28 can be sequentially displayed in the display window 27 by operating the scroll button 29 to scroll the display upward.
[0037]
In the display area 26 above the setting operation screen 25, a background color change button 31 and an icon size designation frame 32 are displayed on the left of the display window 27. Each time the background color change button 31 is pressed, the background color in the display window 27 is sequentially changed in a predetermined order. In the icon size designation frame 32, a menu display button 33 on the right end is pressed to display a pull-down menu of the icon size menu. When a desired size menu is selected from the menu, the selected size is displayed in the icon size designation frame. The size of the icon 28 displayed in the display window 27 is changed to the displayed size.
[0038]
These icons 28 are icons for displaying an operation screen associated with each icon 28 as a shortcut, skipping a middle layer. The icon is also used to specify the relationship between the operation screen displayed as the shortcut and the operator permitted to operate the operation screen, and to set and register the relationship. This setting operation screen 25 is operated by the person responsible for setting the relationship between such an operation screen and the operator.
[0039]
The person in charge of setting the relationship between the operation screen and the worker sets the relationship between the operation screen and the worker using the lower display area 34 of the setting operation screen 25 as the icon / worker setting means. .
In the lower display area 34, there is a display of "currently set shortcut item" at the top, a display of "group name:" below it, and a display of a group name selection input frame 35 as a grouping means. , A menu button 36, a "set" button 37, and a "cancel" button 38, and a wide display window 39 is provided below the display. A user setting column 41 is provided on the right side of these displays.
[0040]
In the example shown in the figure, in the group name selection input frame 35, the group name "setup work" selected by the responsible person from the group name menu displayed by pulling down the menu button 36 is displayed. Generally, the setup operation includes various operations, and the function of executing the operation is a function frequently used by the user of the electronic component mounting apparatus. For this reason, it is convenient to group, for example, various teaching operations related to the setup operation as shown in FIG.
[0041]
Also, in the above-mentioned user setting column 41, from top to bottom, there are five items of "no limit", "equipment manager", "production technician", "production manager", and "system manager". Are displayed, and in the example of the same figure, the "no limit" button is pressed. This specifies that the person in charge can perform (permit) input operation by anyone.
[0042]
The responsible person presses the "not limited" button in this way (you may select an icon to be described later and copy it and then press it later), and after specifying that anyone can perform input operation on the operation screen From the group of icons displayed in the display window 27 of the upper display area 25, the user selects an icon 28 on the operation screen to which anyone can perform an input operation, and displays the icon 28 in the lower display area 34. Is clicked and drawn in the display window 39 shown in FIG.
[0043]
In the example shown in the figure, four icons 28 of “coordinate teaching”, “mark teaching”, “nozzle teaching”, and “parts teaching (setup table selection)” are displayed in the display window 39 of the lower display area 34. Have been copied. Here, when the "setting" button 37 is pressed, any one of the operation screens related to the above-described four types of teaching work called by linking to the four icons 28 related to the setup work may perform any input operation. The setting is registered as an operation screen.
[0044]
When any of the other four user setting buttons in the user setting column 41 is pressed, an operation screen linking to the copied icon 28 in the display window 39 of the lower display area 34 is displayed. Is set and registered as an operation screen in which an input operation is permitted only for the worker in the position displayed on the pressed user setting button.
[0045]
For example, the system administrator button can only be pressed by a person who has logged in by entering a password as a system administrator on the initial screen (the button is ignored even if pressed). That is, the system operation screen displayed by the icon 28 copied in the display window 39 cannot be displayed on the input monitor unless a system administrator is used. The restriction setting of the input operation on such an operation screen is the same for other user setting buttons.
[0046]
FIG. 2 and FIG. 3 are diagrams showing the operation state of the display screen displayed on the input monitor after the restriction relationship between the operation screen and the worker is set as described above.
First, FIG. 2 shows an initial screen 42. As shown in FIG. 5A, a "TOP menu" is displayed at the center of the uppermost display area 43, and this screen is a top menu screen. It is shown that. Also in this case, this top menu screen is the display screen of the first hierarchy, that is, the first hierarchy. Also on this display screen, a “TOP” button and a “<return” button are displayed side by side on the right side of the uppermost display area 43.
[0047]
An initial selection button display area 44 next to the uppermost display area 43 also shows the contents of work of production management, external setup, internal setup, production, and maintenance, as in the case of FIG. Although two buttons are displayed, in the case of this example, shortcut buttons 45 are further displayed side by side. In this example, a lowermost display area 46 is provided, in which two buttons, a “setup work” button 47 and a “production relation” button 48, are displayed.
[0048]
A large and large input operation screen display area 49 is provided between the lowermost display area 46 and the initial selection button display area 44. Since this display screen is the initial screen in the input operation screen display area 49, nothing is displayed and it is blank.
Here, when any one of the five buttons other than the shortcut button 45 is pressed, a desired operation screen is displayed by sequentially following the same hierarchical structure as described with reference to FIGS. 5A, 5B, and 6. It must be displayed in the input operation screen display area 49.
[0049]
However, in this example, for example, by pressing the “setup work” button 47 that allows anyone to perform an input operation and further pressing the shortcut button 45, a desired operation screen can be quickly displayed on the input monitor without sequentially following the hierarchical structure. Can be displayed.
FIG. 3 is a diagram showing an operation state of a display screen displayed subsequent to the initial screen 42 displayed first. In the upper left of the figure, a shortcut screen 50 is shown. Up to this shortcut screen 50, the configuration of the display area of the screen is the same as that of the initial screen 42. That is, in the shortcut screen 50, an uppermost display area 43, an initial selection button display area 44, an input operation screen display area 49, and a lowermost display area 46 are provided in order from top to bottom.
[0050]
The display and buttons displayed in the display area other than the input operation screen display area 49 are the same as those in the case of the initial screen 42. The input operation screen display area 49 is not blank as in the case of the initial screen 42, but the "setup work" button 47 and the shortcut button 45 are pressed in FIG. The four icons 28 of “coordinate teaching”, “mark teaching”, “nozzle teaching” and “parts teaching (setting table selection)” which have been copied to the display window 39 and edited by the setup work group are icons for displaying a shortcut. It is displayed as.
[0051]
Here, for example, when the “nozzle teaching” icon 38 displayed third from the left of the four icons 28 is selected and input, the operation screen 51 of the nozzle setting list is displayed on the input monitor as shown in the upper part of the figure. Is displayed on the entire screen. The operation screen 51 of this nozzle setting list jumps over the second and third layers of the conventional example shown in FIG. 5 and displays the nozzle setting list of the fourth layer shown third from the top in FIG. Is displayed.
[0052]
After selecting the type of the nozzle to be subjected to the nozzle teaching on the operation screen 51 of the nozzle setting list, the screen shifts to a final operation screen of the fifth hierarchy shown in the upper right of FIG. As described above, in the case of nozzle teaching, it is necessary to select the type of nozzle before execution of teaching, so that the final operation screen on the fifth layer cannot be displayed immediately, but the second and third layers are still displayed. The operation screen 51 of the nozzle setting list of the fourth layer can be displayed immediately after jumping over the layer of the fourth layer.
[0053]
On the shortcut screen 50 shown in FIG. 3, when the “mark teaching” icon 38 displayed second from the left, for example, among the four icons 28 is selected and input, as shown in the middle part of FIG. An operation screen 52 for executing the mark teaching is displayed on the entire screen of the input monitor. The operation screen 52 for executing the board mark teaching is a screen for executing the board mark teaching of the fifth layer immediately after jumping over the second, third, and fourth layers shown in FIG. 6B of the conventional example shown in FIG. An operation screen is displayed. As described above, in the case of the operation screen of the fifth layer that does not need to be set in advance, it is possible to jump over the second, third, and fourth layers and immediately display the operation screen.
[0054]
The example shown in the shortcut screen 50 of FIG. 3 also shows an example in which the “coordinate teaching” icon 38 displayed first from the left, for example, among the four icons 28 is selected and input. Also in this case, since the coordinate display method differs depending on the NC program in the coordinate teaching, it is necessary to specify in advance which NC program the coordinate teaching is for. Therefore, the operation screen 53 of the NC program list of the fourth hierarchy is immediately displayed, jumping over only the second and third hierarchies. By pressing the "teaching" button after specifying the NC program on this operation screen, the operation screen for executing the mounted coordinate teaching shown in the lower right of FIG. 3, which is the final screen of the fifth hierarchy, is displayed. Nevertheless, the display switching operation on the screen is performed quickly as soon as the operation screen 53 of the NC program list of the fourth layer is displayed immediately after jumping over the second and third layers, and the speed of the input operation to the operation screen is increased. Is significantly improved.
[0055]
In this way, since the icon for each operation screen and the operator can be set in association with each other, the operator can quickly display the operation screen in which the operator is in charge, regardless of the hierarchical position in the hierarchical structure. In addition, the learning time of the operation screen by a beginner is shortened, and the repetition procedure at the time of the screen operation is simplified, so that the operation efficiency of the apparatus operation is improved.
[0056]
In addition, since icons for each operation screen and work contents can be grouped and set in association with each other, it is possible to easily create an operation procedure according to the usage pattern of the user of the electronic component mounting apparatus, and therefore, even a beginner of the work can perform appropriate operations. It is easy to perform an input operation only from the operation screen, thereby making it possible to prevent an input operation error and reduce the occurrence of problems.
[0057]
In addition, since the icon for each operation screen and the worker can be set in association with each other, the operation of the operation screen can be limited corresponding to the work authority, and therefore, it is inappropriate for the worker without the work authority. There is no danger that a complicated input operation will be performed, thereby greatly reducing the occurrence of unexpected problems that are difficult to find the cause.
[0058]
【The invention's effect】
As described above, according to the present invention, the icon for each operation screen and the operator can be set in association with each other, so that the operator can quickly set the operation screen in his / her own irrespective of the hierarchical position in the hierarchical structure. Thus, the learning time of the operation screen by a beginner can be shortened, and the repetition procedure at the time of the screen operation can be simplified to improve the operation efficiency of the apparatus operation.
[0059]
In addition, since icons for each operation screen and work contents can be grouped and set in association with each other, it is possible to easily create an operation procedure according to the usage pattern of the user of the electronic component mounting apparatus, and therefore, even a beginner of the work can perform appropriate operations. It is easy to perform an input operation only from the operation screen, thereby making it possible to prevent an input operation error and reduce the occurrence of problems.
[0060]
In addition, since the icon for each operation screen and the worker can be set in association with each other, the operation of the operation screen can be limited corresponding to the work authority, and therefore, an inappropriate input by a worker without the work authority can be performed. There is no risk of operation being performed, thereby greatly reducing the occurrence of unexpected problems that are difficult to find the cause.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an example of a setting operation screen for setting a limited relationship with an operator on an operation screen displayed on an input monitor based on an instruction from the initial screen by the operator.
FIG. 2 is a diagram illustrating a first display screen showing an operation state of a display screen displayed on an input monitor after a limitation relationship between an operation screen and an operator is set.
FIG. 3 shows an operation state of a display screen displayed after an initial display screen showing an operation state of a display screen displayed on an input monitor after a limitation relation between an operation screen and an operator is set. FIG.
FIG. 4A is an external perspective view of a conventional electronic component mounting apparatus, and FIG. 4B is a perspective view schematically showing an internal configuration of the apparatus with upper and lower protective covers removed.
FIGS. 5A and 5B are diagrams showing examples of operation screens displayed on a display input panel of a conventional electronic component mounting apparatus.
6 (a) is a view showing the operation screen of FIG. 4 (b) again, FIG. 6 (b) is a view showing an example of an operation screen of a lower hierarchy, and FIG. 6 (c) is an operation screen of a further lower hierarchy It is a figure showing the example of.
[Explanation of symbols]
1 Electronic component mounting device
2 Monitor device
3 Warning lamp
4 Upper protective cover
5 Display input panel
6 bases
7 Board guide rail
8 Printed circuit board
9 Electronic component supply stand
11 Tape cassette type electronic component supply device
12 X-axis rail
13 Y axis rail
14 Working head support tower
15 Working head
16 Operation screen
17 "TOP" button
18 “<Back” button
19 Initial selection button display area
20 Product information display area
21 Menu button display area
22 Setup information display area
23 Next row selection button display area
25 Operation screen for setting
26 Upper display area
27 Display window
28 Shortcut icon
29 scroll buttons
31 Background color change button
32 Icon size specification frame
33 Menu display button
34 Lower display area
35 Group name selection input frame
36 Menu button
37 “Setting” button
38 "Cancel" button
39 Display window
41 User setting column
42 Initial Screen
43 Top display area
44 Initial selection button display area
45 Shortcut Button
46 Bottom display area
47 “Setup” button
48 “Production” button
49 Input operation screen display area
50 Shortcut screen
51 Nozzle setting list operation screen
52 Operation screen for executing board mark teaching
53 NC program list operation screen

Claims (2)

In electronic component mounting equipment that automatically mounts electronic components on printed circuit boards,
Icon / operator that has icons corresponding to the desired operation screens of the hierarchically structured operation screen and sets the desired icon among the icons in association with a worker who has an operation right to the operation screen related to the icon Setting means;
The icon set by the icon / operator setting means is displayed, and when the icon is selected and input by the worker associated with the icon, an operation screen corresponding to the icon is immediately displayed on the display screen. Route shortening display means,
An electronic component mounting apparatus comprising: 2. The electronic device according to claim 1, wherein the icon / worker setting unit includes a grouping unit that groups the icons to be set according to the work content of an operation screen related to the icon or the worker. Component mounting equipment.

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