CN104704463A - Display device - Google Patents

Abstract

Translated fromChinese

本发明得到一种显示器，该显示器用于防止由于不慎的输入、或者习惯于操作的操作者的没有经过充分确认的输入所导致的意外处理。具有：显示单元，其显示路径；数据存储部，其存储路径的数据；输入单元，其与显示单元叠加设置，接受操作者的临描操作的输入；以及处理部，其对通过操作者对显示单元所显示的路径进行临描而输入至输入单元的临描操作的轨迹数据、和数据存储部所储存的路径数据进行比较，在临描操作的轨迹数据和数据存储部所储存的路径数据一致的情况下，输出向外部装置的控制信号。

The invention results in a display for preventing accidental handling due to inadvertent inputs, or inputs without sufficient confirmation by an operator accustomed to the operation. It has: a display unit, which displays the route; a data storage unit, which stores the data of the route; an input unit, which is superimposed with the display unit, and accepts the input of the operator’s tracing operation; and a processing unit, which controls the display by the operator. The path displayed by the unit is traced and the trajectory data of the trace operation input to the input unit is compared with the path data stored in the data storage unit, and the trace data of the trace operation is consistent with the route data stored in the data storage unit In the case of , output the control signal to the external device.

Description

Translated fromChinese

显示器monitor

技术领域technical field

本发明涉及一种具有显示单元和输入单元的显示器。The invention relates to a display with a display unit and an input unit.

背景技术Background technique

对于现有的显示器，通过简单地按下由GUI显示出的按钮，从而进行画面的切换、或者进行向外部装置的控制信号的输出等(例如，参照专利文献1)。没有搭载互锁功能，该互锁功能用于防止由于操作者的不慎输入、或者习惯操作的操作者疏漏菜单的确认而进行输入所导致的意外处理。With a conventional display, simply pressing a button displayed on a GUI switches a screen, outputs a control signal to an external device, or the like (for example, refer to Patent Document 1). The interlock function is not equipped with an interlock function for preventing accidental processing due to inadvertent input by the operator or input by an operator who is accustomed to the operation without checking the menu.

专利文献1：日本特许4813392(第3页、图2)Patent Document 1: Japanese Patent No. 4813392 (page 3, Fig. 2)

发明内容Contents of the invention

对于现有的显示器，作为确认输入的方法，仅要求操作者进行1个按钮的按下操作，因此，存在下述问题，即，由于操作者的不慎输入、或者习惯操作的操作者疏漏菜单的确认而进行输入，导致进行意外处理。With conventional displays, the operator is only required to press one button as a method of confirming input, so there is a problem that the menu may be overlooked due to careless input by the operator or by an operator who is accustomed to the operation. input without confirmation, resulting in unexpected processing.

本发明就是为了解决上述的课题而提出的，其目的在于得到一种防止由于不慎的输入、或者习惯操作的操作者的没有经过充分确认的输入所导致的意外处理的显示器。The present invention was made in order to solve the above-mentioned problems, and an object of the present invention is to obtain a display that prevents unintentional handling due to inadvertent input or insufficiently confirmed input by an operator accustomed to the operation.

在本发明所涉及的显示器中，具有：显示单元，其显示路径；数据存储部，其对预先存储的路径的数据进行存储；输入单元，其与显示单元叠加地设置，接受操作者的临描操作的输入；以及处理部，其对通过操作者对显示单元所显示的路径进行临描而输入至输入单元的临描操作的轨迹数据、和在数据存储部中储存的路径数据进行比较，在临描操作的轨迹数据和在数据存储部中储存的路径数据一致的情况下，输出向外部装置的控制信号。In the display according to the present invention, there are: a display unit which displays the route; a data storage unit which stores the data of the pre-stored route; input of an operation; and a processing unit that compares trajectory data of a tracing operation input to the input unit by the operator tracing a route displayed on the display unit with route data stored in the data storage unit, and When the trajectory data of the tracing operation matches the route data stored in the data storage unit, a control signal is output to an external device.

发明的效果The effect of the invention

本发明具有处理部，该处理部通过操作者对显示单元所显示的路径进行临描，将输入至输入单元的临描操作的轨迹数据和在数据存储部中储存的路径数据进行比较，在临描操作的轨迹数据和在数据存储部中储存的路径数据一致的情况下，输出向外部装置的控制信号，因此，能够防止由于不慎的输入、或者习惯操作的操作者的没有经过充分确认的输入所导致的意外处理。The present invention has a processing unit that compares the trajectory data of the tracing operation input to the input unit with the route data stored in the data storage unit by the operator tracing the route displayed on the display unit, and then When the trajectory data of the scanning operation matches the route data stored in the data storage unit, the control signal is output to the external device, so it is possible to prevent accidents due to inadvertent input or insufficient confirmation by the operator who is accustomed to the operation. Unexpected processing caused by input.

附图说明Description of drawings

图1是表示本发明的实施方式1～4所涉及的显示器的整体结构的框图。FIG. 1 is a block diagram showing an overall configuration of a display according to Embodiments 1 to 4 of the present invention.

图2是表示本发明的实施方式1所涉及的显示器的显示单元以及与显示单元叠加设置的输入单元的操作画面的图。2 is a diagram showing an operation screen of a display unit of the display according to Embodiment 1 of the present invention and an input unit provided superimposed on the display unit.

图3是表示本发明的实施方式1所涉及的显示器的操作步骤的流程图。FIG. 3 is a flowchart showing an operation procedure of the display according to Embodiment 1 of the present invention.

图4是表示本发明的实施方式2～4所涉及的显示器的操作步骤的流程图。FIG. 4 is a flowchart showing an operation procedure of the display according to Embodiments 2 to 4 of the present invention.

图5是表示本发明的实施方式2所涉及的显示器的显示单元以及与显示单元叠加设置的输入单元的操作画面的图。5 is a diagram showing an operation screen of a display unit of a display according to Embodiment 2 of the present invention and an input unit provided superimposed on the display unit.

图6是表示本发明的实施方式2所涉及的显示器的显示单元以及与显示单元叠加设置的输入单元的其他操作画面的图。6 is a diagram showing another operation screen of the display unit of the display according to Embodiment 2 of the present invention and the input unit provided superimposed on the display unit.

图7是表示本发明的实施方式2所涉及的显示器的显示单元以及与显示单元叠加设置的输入单元的其他操作画面的图。7 is a diagram showing another operation screen of the display unit of the display according to Embodiment 2 of the present invention and the input unit superimposed on the display unit.

图8是表示本发明的实施方式3所涉及的显示器的显示单元以及与显示单元叠加设置的输入单元的操作画面的图。8 is a diagram showing an operation screen of a display unit of a display and an input unit superimposed on the display unit according to Embodiment 3 of the present invention.

图9是表示本发明的实施方式3所涉及的显示器的显示单元以及与显示单元叠加设置的输入单元的其他操作画面的图。9 is a diagram showing another operation screen of the display unit of the display according to Embodiment 3 of the present invention and the input unit superimposed on the display unit.

图10是表示本发明的实施方式3所涉及的显示器的显示单元以及与显示单元叠加设置的输入单元的其他操作画面的图。10 is a diagram showing another operation screen of the display unit of the display according to Embodiment 3 of the present invention and the input unit superimposed on the display unit.

图11是表示本发明的实施方式3所涉及的显示器的显示单元以及与显示单元叠加设置的输入单元的其他操作画面的图。11 is a diagram showing another operation screen of the display unit of the display according to Embodiment 3 of the present invention and the input unit superimposed on the display unit.

图12是表示本发明的实施方式4所涉及的显示器的显示单元以及与显示单元叠加设置的输入单元的操作画面的图。12 is a diagram showing an operation screen of a display unit of a display and an input unit superimposed on the display unit according to Embodiment 4 of the present invention.

具体实施方式Detailed ways

实施方式1Embodiment 1

图1是表示本发明的实施方式1的显示器的整体结构图。操作者1操作显示器2的输入单元3，集中处理部4根据输入单元3的输入进行处理。在这里，输入单元3与显示单元7进行叠加设置。另外，显示器2除了输入单元3、显示单元7、以及集中处理部4以外，还具有数据存储部5、显示生成部6、以及外部装置连接I/F 8，数据存储部5存储有路径数据501以及显示数据502。显示器2通过外部装置连接I/F 8，与定序器等外部装置9连接。并且，虽然没有在此进行图示，但外部装置9与机器人等工业机械连接。FIG. 1 is a diagram showing an overall configuration of a display according to Embodiment 1 of the present invention. The operator 1 operates the input unit 3 of the display 2 , and the centralized processing unit 4 performs processing based on the input of the input unit 3 . Here, the input unit 3 and the display unit 7 are superimposed. In addition, in addition to the input unit 3, the display unit 7, and the centralized processing unit 4, the display 2 also has a data storage unit 5, a display generation unit 6, and an external device connection I/F 8, and the data storage unit 5 stores route data 501. And display data 502 . The display 2 is connected to an external device 9 such as a sequencer through an external device connection I/F 8. In addition, although not shown here, the external device 9 is connected to industrial machines such as robots.

图2是显示单元7以及与显示单元7叠加设置的输入单元3的画面的一个例子，在显示器2的显示单元7上显示有GUI即7a1、7a2、7b、7c、7d、7e、7f。此外，用于显示7a1、7a2、7b、7c、7d、7e、7f的各部分的数据作为显示数据502存储在数据存储部5中。7a1、7a2是基于路径数据501而显示出的路径，在希望执行动作的情况下，使滑动开关7d从箭头的起点7b朝向终点7c移动而实施连续的临描操作。在不执行动作的情况下，按下取消按钮7e即可。在该例子中实施临描操作，对于处于路径上且完成临描操作的部分7a1，改变其颜色。如果移动滑动开关7d对没有改变颜色的部分7a2也实施临描操作，则该没有改变颜色的部分7a2变化成与7a1相同的颜色。通过改变颜色的功能，起到对操作者的操作进行反馈的作用，使得临描操作变容易。2 is an example of the screen of the display unit 7 and the input unit 3 superimposed on the display unit 7. On the display unit 7 of the display 2, GUIs 7a1, 7a2, 7b, 7c, 7d, 7e, 7f are displayed. In addition, data for displaying each part of 7a1 , 7a2 , 7b , 7c , 7d , 7e , and 7f is stored in the data storage unit 5 as display data 502 . 7a1 and 7a2 are routes displayed based on the route data 501, and when it is desired to perform an action, move the slide switch 7d from the start point 7b of the arrow toward the end point 7c to perform continuous scribing operations. In the case of not performing an action, it is sufficient to press the cancel button 7e. In this example, the tracing operation is performed, and the color of the portion 7a1 that is on the path and the tracing operation is completed is changed. If the sliding switch 7d is moved to also perform the tracing operation on the portion 7a2 that has not changed its color, the portion 7a2 that has not changed its color will change to the same color as 7a1. Through the function of changing the color, it plays a role of feedback to the operator's operation, making the sketching operation easier.

图3是表示显示器中的控制步骤的一个例子的流程图。首先，在S11中，显示生成部6基于数据存储部5所存储的路径数据501以及显示数据502生成画面数据，并发送至显示单元7以及集中处理部4。发送至显示单元7是用于对画面进行显示，发送至集中处理部4是用于由集中处理部4识别与画面数据相对应的处理信息，该处理信息是指通过画面上的哪个位置的按下操作进行什么样的处理，或者通过什么样的临描操作进行什么样的处理。然后，在S12中，集中处理部4判断是否按下了取消按钮7e，在未按下的情况下跳转至S13，在按下的情况下跳转至结束。在S13中，集中处理部4判断向输入单元3的输入的是否是临描操作的开始，在是临描操作的开始的情况下跳转至S14，在不是临描操作的开始的情况下返回至S12。由此，能够防止由于不慎的输入、或者操作者的不充分确认所导致的意外处理。在S14中，集中处理部4根据临描操作的轨迹生成轨迹数据，并和数据存储部所储存的路径数据进行比较。在临描操作的轨迹数据和数据存储部所储存的路径数据一致的情况下，跳转至S15，在不一致的情况下跳转至S16。此外，当数据存储部所储存的路径数据和临描操作的轨迹数据完全一致时，判断为临描操作的轨迹数据和数据存储部所储存的路径数据一致。即，直至临描操作完成为止跳转至S16，如果完成则跳转至S15。FIG. 3 is a flowchart showing an example of a control procedure in the display. First, in S11 , the display generation unit 6 generates screen data based on the route data 501 and the display data 502 stored in the data storage unit 5 , and sends the screen data to the display unit 7 and the centralized processing unit 4 . Sending to the display unit 7 is used to display the screen, and sending to the centralized processing unit 4 is used to identify the processing information corresponding to the screen data by the centralized processing unit 4, and the processing information refers to which position on the screen is passed. What kind of processing is performed by the next operation, or what kind of processing is performed by what kind of copying operation. Then, in S12, the centralized processing unit 4 judges whether or not the cancel button 7e has been pressed, and if not pressed, proceeds to S13, and if pressed, proceeds to the end. In S13, the centralized processing unit 4 judges whether the input to the input unit 3 is the start of the sketching operation, jumps to S14 if it is the start of the sketching operation, and returns if it is not the start of the sketching operation. to S12. Thereby, it is possible to prevent accidental processing due to inadvertent input or insufficient confirmation by the operator. In S14, the centralized processing unit 4 generates trajectory data according to the trajectory of the tracing operation, and compares it with the path data stored in the data storage unit. When the trajectory data of the tracing operation matches the path data stored in the data storage unit, the process goes to S15, and when they do not match, the process goes to S16. In addition, when the route data stored in the data storage unit is completely consistent with the trace data of the tracing operation, it is determined that the trace data of the tracing operation coincides with the route data stored in the data storage unit. That is, it jumps to S16 until completion|finish of a tracing operation, and jumps to S15 when completed.

在该例子中，在S15及其以后，将控制信号发送至外部装置，获取外部装置的状态，并将外部装置的状态显示至画面，但在临描操作的轨迹数据和数据存储部所储存的路径数据一致的情况下所实施的处理不限定于该例子的情况。在S15中，为了控制外部装置9，集中处理部4通过外部装置I/F 8，例如将开始进行动作的信号发送至外部装置9。然后，在S17中，集中处理部4通过外部装置I/F8，获取例如动作速度等表示外部装置9的状态的数据，并发送至显示生成部6。在S18中，显示生成部6基于从集中处理部4发送的表示外部装置9的状态的数据、和显示数据502，生成画面数据，并发送至显示单元7，在显示单元7上显示外部装置9的状态。另一方面，在S14中，在临描操作的轨迹数据和数据存储部所储存的路径数据不一致而跳转至S16的情况下，显示生成部6使用数据存储部5的显示数据502生成再输入画面显示用数据，并发送至显示单元7以及集中处理部4，在显示单元7上显示再输入画面数据，返回S12。In this example, in and after S15, the control signal is sent to the external device, the state of the external device is obtained, and the state of the external device is displayed on the screen, but the track data of the sketching operation and the data stored in the data storage unit The processing performed when the route data matches is not limited to the case of this example. In S15, in order to control the external device 9, the centralized processing unit 4 transmits, for example, a signal to start an operation to the external device 9 through the external device I/F 8. Then, in S17 , the centralized processing unit 4 acquires data indicating the state of the external device 9 , such as the operating speed, through the external device I/F 8 , and sends it to the display generating unit 6 . In S18, the display generator 6 generates screen data based on the data indicating the status of the external device 9 transmitted from the centralized processing unit 4 and the display data 502, and sends the screen data to the display unit 7, and the external device 9 is displayed on the display unit 7. status. On the other hand, in S14, if the trajectory data of the tracing operation does not match the path data stored in the data storage unit and the procedure goes to S16, the display generation unit 6 uses the display data 502 of the data storage unit 5 to generate a re-input The data for screen display is sent to the display unit 7 and the centralized processing unit 4, and the screen data is displayed on the display unit 7 and the input screen data is returned to S12.

如上所述，通过对显示单元7所显示的路径7a1、7a2进行的临描操作，在输入至输入单元的临描操作的轨迹数据和数据存储部所储存的路径数据一致的情况下，将控制信号发送至外部装置9，因此，能够防止由于不慎的输入或者操作者的不充分确认所导致的意外处理。As described above, when the tracing operation performed on the paths 7a1 and 7a2 displayed on the display unit 7 matches the path data stored in the data storage unit in the case where the trace data of the tracing operation input to the input unit matches the path data stored in the data storage unit, the control The signal is sent to the external device 9, therefore, it is possible to prevent accidental processing due to careless input or insufficient confirmation by the operator.

实施方式2Embodiment 2

实施方式2所涉及的显示器2的结构与实施方式1相同，集中处理部4如图4所述地进行动作。图4中，只有不存在按下取消按钮的S12这点与图2不同，其他处理相同。另外，在本实施方式中，如图5至图7所示，将在图4的S13中作为判断对象的临描操作设为以双手操作方式进行的临描操作，并将该临描操作与实施方式1相同地设为连续的临描操作。下述内容均与图2的情况相同，即，2是显示器，7是显示单元，3是输入单元，输入单元3与显示单元7叠加设置。The configuration of the display 2 according to the second embodiment is the same as that of the first embodiment, and the centralized processing unit 4 operates as described in FIG. 4 . In FIG. 4 , only the point that there is no S12 in which the cancel button is pressed is different from FIG. 2 , and other processing is the same. In addition, in this embodiment, as shown in FIG. 5 to FIG. 7, the sketching operation as the determination object in S13 of FIG. In Embodiment 1, the continuous tracing operation is similarly performed. The following content is the same as that in FIG. 2 , that is, 2 is a display, 7 is a display unit, 3 is an input unit, and the input unit 3 and the display unit 7 are superposed.

在图5中，如文字显示7f所述，左右同时按住路径的起点7b，左右对称地使滑动开关7d移动，并左右同时到达路径的终点7c。在这里，也为了提高操作性，在路径数据的显示上，改变完成临描操作的部分7a1的显示颜色。如果移动滑动开关7d，对未改变颜色的部分7a2实施临描操作，则该未改变颜色的部分7a2变化成与7a1相同的颜色。在图6的例子中，如文字显示7f所述，实施下述的临描操作，即，同时按住路径7a的起点7b，朝向终点7c以左右对称的方式使滑动开关7d进行移动，并同时到达终点7c。在图7的情况下，实施下述的临描操作，即，同时按住路径7a的2个起点7b，以左右对称的方式使滑动开关7d在到达路径7a的终点7c之前始终移动，并同时到达路径7a的终点7c。In FIG. 5, as shown in the text display 7f, the start point 7b of the path is pressed simultaneously left and right, the slide switch 7d is moved symmetrically left and right, and the end point 7c of the path is reached simultaneously left and right. Here, also in order to improve operability, the display color of the portion 7a1 where the sketching operation has been completed is changed in the display of route data. When the slide switch 7d is moved to perform a tracing operation on the part 7a2 that has not changed its color, the part 7a2 that has not changed its color will change to the same color as 7a1. In the example of FIG. 6, as described in the text display 7f, the following scribing operation is performed, that is, while pressing the starting point 7b of the path 7a, the slide switch 7d is moved in a bilaterally symmetrical manner toward the end point 7c, and at the same time Arrive at terminal 7c. In the case of FIG. 7, the following tracing operation is performed, that is, simultaneously press and hold the two starting points 7b of the path 7a, and move the slide switch 7d in a bilaterally symmetrical manner until reaching the end point 7c of the path 7a, and at the same time The end point 7c of the path 7a is reached.

根据本实施例，不仅防止由于不慎的输入、或者操作者的没有经过充分确认的输入所导致的意外处理，还具有下述的2点附加效果。第1点的效果在于，例如在外部装置9与冲压机等连接的情况下，如果操作者1以单手进行输入操作，则可能由于专注于输入操作而导致未进行操作一侧的手夹入冲压机等中。但在本实施方式的临描操作的情况下，将双手限制在输入操作中，因此，还能够防止手夹入冲压机等设备中。According to this embodiment, in addition to preventing accidental processing due to inadvertent input or insufficiently confirmed input by the operator, there are two additional effects described below. The effect of the first point is that, for example, when the external device 9 is connected to a press machine, etc., if the operator 1 performs an input operation with one hand, the hand on the side that is not performing the operation may be caught by concentrating on the input operation. Punching machines etc. However, in the case of the sketching operation in this embodiment, since both hands are restricted for the input operation, it is also possible to prevent the hands from being caught in equipment such as a press machine.

第2点的附加效果如下所述。当前，按下多个按钮的显示器需要由高价的数字矩阵方式构成，需要较高成本。另一方面，在本实施方式中，处理部只要能够识别多个临描操作的轨迹即可，因此，无需由高价的数字矩阵构成。由此，能够由通用的廉价模拟电阻膜构成，能够降低成本。The additional effect of point 2 is as follows. Currently, a display for pressing a plurality of buttons needs to be composed of an expensive digital matrix method, which requires high cost. On the other hand, in the present embodiment, it is only necessary for the processing unit to be able to recognize the trajectories of a plurality of tracing operations, and therefore, it does not need to be configured with an expensive digital matrix. Accordingly, it can be configured with a general-purpose inexpensive analog resistive film, and the cost can be reduced.

实施方式3Embodiment 3

本实施方式是将与实施方式2相同的效果更加可靠化的实施例，数据存储部所储存的路径数据是难于以单手进行临描操作的路径。通过以双手进行临描操作，从而防止由于不慎的输入、或者操作者的没有经过充分确认的输入所导致的意外处理，并且，能够可靠地防止手夹入冲压机等设备中。实施方式3所涉及的显示器2的结构以及集中处理部4的动作与实施方式2相同，通过图8至图11中所示的任意一个操作，进行连续的临描。下述内容与图2的情况相同，即，2是显示器，7是显示单元，3是与显示单元7叠加设置的输入单元，7a是基于路径数据501显示出的路径，7b是文字显示，7c是滑动开关。在图8的情况下，如文字显示7b所述，实施下述的临描操作，即，同时按住显示单元7所显示的路径7a的2个起点7b，朝向终点7d以相对于画面中心点恰好形成点对称的方式使滑动开关7d移动，并同时到达终点7c。如果以单手进行该路径7a的临描操作，则由于伴随手指的扭转而难于以单手进行临描。This embodiment is an example in which the same effect as that of Embodiment 2 is further ensured, and the route data stored in the data storage unit is a route that is difficult to trace with one hand. By performing the tracing operation with both hands, accidental handling due to inadvertent input or insufficiently confirmed input by the operator can be prevented, and hands can be reliably prevented from being caught in equipment such as a press machine. The configuration of the display 2 and the operation of the centralized processing unit 4 according to the third embodiment are the same as those of the second embodiment, and continuous scribing is performed by any one of the operations shown in FIGS. 8 to 11 . The following content is the same as that of Fig. 2, that is, 2 is a display, 7 is a display unit, 3 is an input unit superimposed with the display unit 7, 7a is a path displayed based on the path data 501, 7b is a text display, 7c It's a slide switch. In the case of FIG. 8, as described in the text display 7b, the following sketching operation is carried out, that is, simultaneously press and hold the two starting points 7b of the path 7a displayed on the display unit 7, and move toward the end point 7d so as to be relative to the center point of the screen. The sliding switch 7d is moved in such a way that it is precisely point-symmetrical, and at the same time reaches the end point 7c. If the scribing operation of the path 7a is performed with one hand, it is difficult to perform scribing with one hand due to twisting of the fingers.

在图9的情况下，如文字显示7f所述，实施下述的临描操作，即，同时按住显示单元7所显示的路径7a的2个起点7b，使滑动开关7d移动，同时到达路径的终点7c。在这里，2条路径中的、从起点至改变行进方向的部分为止的距离不同，因此，如果以左右相同的速度进行临描，则无法对称地进行临描，因此，只要对临描操作的起点7b和终点7c进行操作的时刻左右相同即可。另外，由于该路径的2条路径中的、从起点至行进方向的变化点为止的距离不同，因此，难于以单手进行临描。In the case of FIG. 9, as described in the text display 7f, the following sketching operation is performed, that is, the two starting points 7b of the path 7a displayed on the display unit 7 are pressed at the same time, and the slide switch 7d is moved to reach the path at the same time. The endpoint of 7c. Here, the distances from the starting point to the part where the direction of travel is changed in the two paths are different. Therefore, if the tracing is performed at the same speed on the left and right, the tracing cannot be performed symmetrically. Therefore, as long as the trace operation The timing at which the start point 7b and the end point 7c are operated may be the same. In addition, since the distances from the starting point to the change point of the traveling direction are different in the two routes of this route, it is difficult to perform scribbling with one hand.

在图10的情况下，实施下述的临描操作，即，同时按住显示单元7所显示的路径7a的2个起点7b，使滑动开关7d移动，并同时到达路径的终点7c。对于该路径，2条路径不是对称的图形，因此，只要以左右手同时进行路径的起点7b和终点7c的操作即可。另外，如果以单手对该路径进行临描操作，则由于伴随手指的扭转而难于以单手进行临描。在图11的情况下，实施下述的临描操作，即，同时按住显示单元7所显示的路径7a的2个起点7b，使滑动开关7d移动，并同时到达路径的终点7c。如果左右对称地对该路径进行临描操作，则在路径交叉的部位处手指发生碰撞，操作性较差，因此，只要左右同时对临描操作的起点7b和终点7c进行操作即可。另外，如果以单手对该路径进行临描操作，则由于伴随手指的扭转而难于以单手进行临描。In the case of FIG. 10, the following tracing operation is performed, that is, simultaneously press and hold the two starting points 7b of the path 7a displayed on the display unit 7, move the slide switch 7d, and simultaneously reach the end point 7c of the path. As for this route, since the two routes are not symmetrical figures, it is only necessary to operate the start point 7b and the end point 7c of the route simultaneously with the left and right hands. In addition, if the trace operation is performed on the path with one hand, it is difficult to trace with one hand due to twisting of the fingers. In the case of FIG. 11, the following tracing operation is performed, that is, simultaneously press and hold the two starting points 7b of the path 7a displayed on the display unit 7, move the slide switch 7d, and simultaneously reach the end point 7c of the path. If the tracing operation is performed symmetrically on the path, the finger will collide at the position where the paths intersect, and the operability is poor. Therefore, it is only necessary to operate the starting point 7b and the end point 7c of the tracing operation at the same time. In addition, if the trace operation is performed on the path with one hand, it is difficult to trace with one hand due to twisting of the fingers.

在这些情况下，任意一种路径都是2条路径非对称、或者如果以单手进行临描操作则伴随手指的扭转、或者从2条路径的起点至行进方向的变化点为止的距离不同等难于以单手进行操作的路径，因此，例如即使由于输入单元3较小等而导致路径之间的距离较窄，也可以促使操作者以双手进行操作，能够更加可靠地防止由于不慎的输入或者操作者的不充分确认所导致的意外处理、以及在将外部装置9与冲压机等连接的情况下的手被夹入。另外，能够与实施方式2相同地使用能够检测出2点临描动作的通用的廉价模拟电阻膜，与现有的采用数字矩阵方式而能够进行2点按下操作的情况相比，能够降低成本。此外，难于以单手进行操作的路径不限定于在这里列举的例子。In these cases, either path is asymmetric between the two paths, or if the scribing operation is performed with one hand, the fingers are twisted, or the distances from the starting point of the two paths to the point where the direction of travel changes are different, etc. A path that is difficult to operate with one hand, therefore, for example, even if the distance between the paths is narrow due to the small size of the input unit 3, etc., the operator can be urged to operate with both hands, and it is possible to more reliably prevent accidental input. Or accidental handling due to insufficient confirmation by the operator, or hands being caught when connecting the external device 9 to a press machine or the like. In addition, similar to Embodiment 2, a general-purpose low-cost analog resistive film capable of detecting 2-dot tracing operation can be used, and the cost can be reduced compared with the conventional digital matrix method that enables 2-dot pressing. . In addition, paths that are difficult to operate with one hand are not limited to the examples listed here.

实施方式4Embodiment 4

实施方式4所涉及的显示器1的结构以及集中处理部2的动作与实施方式3相同，临描操作与实施方式1～3不同，是不连续方式的临描操作。图12是本实施方式所涉及的不连续的临描操作的例子，只是设置有触摸点7g这点与图9不同。本实施方式中的路径7a的不连续的临描操作是指，左右同时按下路径的起点7b、触摸点7g、路径的终点7c这3点的操作。在这里，左右各设置有1个触摸点，但也可以设置多个。并且，设置触摸点的路径7a不限定于图9的路径，可以是上述的图2、图5～8、图10～11的路径，也可以是除此以外的路径。此外，在模拟电阻膜方式中无法检测出2点按下，因此，也可以由能够检测出2点按下的数字矩阵方式构成。在该情况下，能够与实施方式2相同地、不仅防止由于不慎的输入或者操作者的不充分确认所导致的意外处理，还防止手夹入冲压机等设备。The structure of the display 1 and the operation of the centralized processing unit 2 according to the fourth embodiment are the same as those of the third embodiment, and the tracing operation is different from the first to third embodiments in that it is a non-continuous tracing operation. FIG. 12 is an example of a discontinuous tracing operation according to this embodiment, and differs from FIG. 9 only in that touch point 7g is provided. The discontinuous scribing operation of the path 7a in this embodiment refers to an operation of simultaneously pressing three points, namely, the starting point 7b of the path, the touch point 7g, and the end point 7c of the path, left and right. Here, one touch point is provided on each of the left and right sides, but a plurality of touch points may be provided. Furthermore, the path 7a on which the touch point is placed is not limited to the path shown in FIG. 9 , and may be the path shown in FIGS. 2 , 5 to 8 , and 10 to 11 described above, or other paths. In addition, since the 2-point pressing cannot be detected in the analog resistive film method, a digital matrix method capable of detecting 2-point pressing may also be used. In this case, similar to Embodiment 2, it is possible to prevent not only accidental handling due to inadvertent input or insufficient confirmation by the operator, but also to prevent hands from being caught in equipment such as a press machine.

标号的说明Explanation of labels

2 显示器2 monitors

3 输入单元3 input unit

4 集中处理部4 Centralized processing department

5 数据存储部5 Data storage department

7 显示单元7 display unit

7a 显示单元所显示的路径7a Display the path displayed by the unit

9 外部装置9 External devices

Claims (8)

Translated fromChinese

1.一种显示器，其具有：1. A display having:显示单元，其显示路径；a display unit, which displays the path;数据存储部，其存储所述路径的数据；a data storage unit that stores data of the path;输入单元，其与所述显示单元叠加设置，接受操作者的临描操作的输入；以及an input unit, which is arranged superimposed on the display unit, and accepts the input of the operator's sketching operation; and处理部，其对通过操作者对所述显示单元所显示的路径进行临描从而输入至所述输入单元的临描操作的轨迹数据、和所述数据存储部所储存的路径数据进行比较，在所述临描操作的轨迹数据与所述数据存储部所储存的路径数据一致的情况下，输出向外部装置的控制信号。a processing unit that compares trajectory data of a sketching operation input to the input unit by the operator tracing a route displayed on the display unit with route data stored in the data storage unit; When the trajectory data of the tracing operation matches the path data stored in the data storage unit, a control signal is output to an external device.2.根据权利要求1所述的显示器，其特征在于，2. The display of claim 1, wherein显示单元所显示的路径是连续的路径。The path displayed by the display unit is a continuous path.3.根据权利要求1所述的显示器，其特征在于，3. The display of claim 1 wherein,显示单元所显示的路径是多条路径。The path displayed by the display unit is a plurality of paths.4.根据权利要求3所述的显示器，其特征在于，4. The display of claim 3, wherein显示单元所显示的路径的长度不同。The paths displayed by the display units are of different lengths.5.根据权利要求3所述的显示器，其特征在于，5. The display of claim 3, wherein显示单元所显示的路径是行进方向发生改变的路径，并且，直至行进方向的变化点为止的距离不同。The route displayed on the display unit is a route in which the traveling direction changes, and the distances up to the point where the traveling direction changes are different.6.根据权利要求3所述的显示器，其特征在于，6. The display of claim 3, wherein显示单元所显示的路径是行进方向发生大于或等于180°变化的双重形状的路径。The path displayed by the display unit is a double-shaped path in which the direction of travel changes by greater than or equal to 180°.7.根据权利要求6所述的显示器，其特征在于，7. The display of claim 6, wherein显示单元所显示的路径是双重圆。The path displayed by the display unit is a double circle.8.根据权利要求3所述的显示器，其特征在于，8. The display of claim 3, wherein显示单元所显示的路径发生交叉。The path displayed by the display unit intersects.