JP2005233801A - Condition display system for displacement detection-measuring machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a condition display system, capable of easily confirming the condition of a displacement detection-measuring machine under an environment which is difficult to be confirmed visually, on a display at all the time. <P>SOLUTION: Measured data are input from the displacement detection-measuring machine into a computer by wire or radio waves. A model image of the displacement detection-measuring machine is preliminarily registered in the computer, and the model image is animation-displayed on the display, synchronized with the input measured data. Since the displacement detection-measuring machine is viewed thereby as though being photographed by a video camera to be imaged on a monitor, a worker can easily confirm the conditions of the displacement detection-measuring machine under the environment difficult to be confirmed visually, while confirming the animation image on the monitor. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a state display system for confirming the state of a displacement detection and measurement machine in an environment that is difficult to visually confirm, and in particular, displacement detection and measurement that displays a model image as an animation using measurement data output from the displacement detection and measurement machine. The present invention relates to a machine status display system.

  Most of the display units of battery-driven relatively small displacement detectors such as digital calipers, digital micrometers, and digital dial gauges employ liquid crystal display devices. A liquid crystal display device has a low current consumption and is suitable as a display device for a battery-driven type measuring machine. However, since the liquid crystal itself is not a light emitter, visibility becomes poor when the surroundings are dark. In terms of visibility, for example, a 7-segment LED display capable of self-emission is superior.

  Therefore, in order to improve the visibility of the liquid crystal display device, a backlight using an EL element or an LED element is often provided. However, in a handy type displacement detection measuring instrument such as a digital caliper or a digital micrometer, a backlight is rarely employed in order to reduce the size further or not to shorten the battery life.

  On the other hand, in the following Patent Document 1, not only a displacement detection measuring machine, but a phenomenon indicating the state of equipment or facilities is detected, and any kind of display that appeals to the visual, auditory, or tactile sense of the user by wire or wirelessly A status notification system for displaying on a container is disclosed.

JP-A-11-120448

  When using the above displacement detection measuring instrument in a dark place such as a dark room or outside at night, it is difficult to check the measurement value displayed on the display, check the state of the measuring instrument, check the button operation, etc. . Or, for example, when the small displacement detector is inserted into a complicated machine such as the inside of a machine tool or the like and used inside the machine, the measurement value displayed on the display unit is confirmed and measured in the same manner. There is a problem that it is difficult to check the state of the machine and the button operation.

  On the other hand, some recent digital calipers and digital micrometers have excellent environmental resistance that can operate even when immersed in liquids such as water, oil, and cutting fluid (coolant) for machine tools. Some have a type sensor and shield structure. Such displacement detection and measurement machines are often used in water or in coolant liquids, taking advantage of their superior performance. In this case, especially the confirmation of measured values displayed on the display, confirmation of the state of the measuring instrument, The problem that it is difficult to confirm button operation becomes significant.

  The present invention has been made to solve the above-described problems. In a relatively small displacement detection measuring instrument such as a digital caliper, a digital micrometer, or a digital dial gauge, the environment is in a poor visibility environment. Even so, it is an object of the present invention to provide a state display system for a displacement detection measuring instrument that facilitates confirmation of measured values displayed on a display unit, confirmation of the state of a measuring instrument, confirmation of button operation, and the like.

  In order to achieve the above-described object, the present invention provides a displacement detection measuring machine, a computer that inputs measurement data output from the displacement detection measuring machine, and stores a model image of the displacement detection measuring machine in advance. And a display connected to the computer, and a processing program for displaying the model image on the display in synchronization with the measurement data.

  In addition to the above features, the present invention is further characterized in that the displacement detection measuring device detects an absolute position and outputs it as measurement data.

  In addition to the above features, the present invention is further characterized in that the internal sensor of the displacement detection measuring instrument is an electromagnetic induction type absolute position detection transducer.

  In addition to the above features, the present invention further includes, in the computer, a model image of an object to be measured to be measured by the displacement detection measuring instrument is registered in advance, and the model image of the object to be measured is used for the displacement detection measurement. It is displayed on the display together with a model image of the machine.

  In addition to the above features, the present invention is further characterized in that the model image of the displacement detection measuring instrument registered in advance in the computer is an artificially created CG.

  In addition to the above features, the present invention is further characterized in that the model image of the displacement detection measuring instrument registered in advance in the computer is a real image obtained by photographing a real object.

  In addition to the above features, the present invention is further characterized in that wireless communication means is provided between the displacement detection measuring machine and the computer.

  Further, in order to achieve the above object, the present invention provides a displacement detection measuring machine having a movable part such as a probe operated by a measurer and a display part for displaying operation buttons and measurement values, a display, A computer in which information for displaying an animation of an appearance image of the displacement detection measuring machine is incorporated in the display, and a signal output from the displacement detection measuring machine is received to be displayed on the display A processing program for changing the animation display of the appearance image of the displacement detection measuring machine in synchronization with the actual appearance of the displacement detection measuring machine is incorporated in the computer.

  The state display system of the displacement detection measuring machine of the present invention is used in an environment that is difficult to visually check, for example, in the dark such as a dark room or outside at night, immersed in a liquid such as water, oil, coolant, or the like. Easy measurement of displacement detection measuring machine and operating state of the measuring machine in environments such as use in a flying environment, use in a complex area of machine equipment such as machine tools and automobile engine rooms, etc. There is an effect that can be confirmed.

  The displacement detection / measuring machine status display system of the present invention inputs a measurement value from the displacement detection / measuring machine to a computer by wire or wirelessly, and based on the input measurement value, a displacement detection registered in advance in the computer. An image of the appearance of the measuring instrument or the like, or a CG (computer graphics) image showing the appearance of the displacement detection measuring instrument, etc. is displayed on the monitor, and these images are moved in synchronism with fluctuations in measured values. By displaying the animation, it is possible to display an actual displacement detection and measurement device as if it were captured by a video camera and displayed on a monitor. Further, when the button of the displacement detector is operated, a signal corresponding to this button operation is output, so that the button in the image on the monitor can also be displayed in animation according to this signal. Furthermore, if the color and brightness of this button are changed, the operation status can be emphasized and displayed in an easy-to-understand manner.

  As the CG, an artificial CG such as a shading image or a two-dimensional image based on a three-dimensional model created by a three-dimensional CAD can be applied. Alternatively, an actual image obtained by photographing an actual displacement detection measuring instrument with a digital camera or the like can be used. Therefore, this allows the operator to perform measurement while confirming the animation on the monitor, so as to what kind of environment the displacement detection measuring machine is in, as if the actual displacement detection measuring machine is being viewed. Thus, the measurement work can be easily performed.

  In addition to the displacement detection measuring machine, images of surrounding objects such as the object to be measured and the stage on which the object to be measured are placed are also obtained by CG or actual shooting as described above, and registered in the computer in advance. In addition, by displaying together with the displacement detection measuring instrument on the monitor, it is possible to virtually reproduce and display a more realistic situation on the monitor, making it easier for the operator to confirm the measurement work. .

The best mode for carrying out the present invention will be described below with reference to the drawings. In addition, what attached | subjected the same code | symbol in all the figures represents the same component.
In FIG. 1, a computer system 14 constituting the state display system 2 of the present invention and a displacement detection measuring instrument 1 are connected by a cable 8, and an object to be measured 3 in a water tank 10 filled with a liquid such as water or oil is shown. The case where it measures with the displacement detection measuring device 1 which is a digital caliper is shown. As the displacement measuring device 1, a digital caliper as shown in FIG. 1 is generally used. However, for example, a relatively small battery-driven displacement such as a digital micrometer or a digital dial gauge is used. A measuring machine is applicable. Furthermore, these handy type displacement measuring machines are provided with a waterproof structure, and the displacement detection sensor is preferably a sensor of a type that can operate even when liquid such as water, oil, coolant, etc. enters inside. A type encoder is preferred. In the case of an electromagnetic induction encoder, even if a liquid such as water enters between the scale and the detection head, the displacement can be detected because the influence on the magnetic flux is small.

  FIG. 3A shows a block diagram of a computer system 14 connected to the displacement detection measuring instrument 1 via a cable 8. The computer system 14 includes a receiving device 23, a CPU 22, a storage device 24, and a monitor 4. Accordingly, the configuration of the computer is the same as that of the general computer except for the receiving device 23. Measurement data is always output from the displacement detection measuring instrument 1 at a predetermined rate. The measurement data is output to the cable 8 via the transmission unit 9 provided at one end of the displacement detection measuring instrument 1, and the measurement data is further input to the reception device 23 of the computer system 14 via the cable 8. At this time, the measurement data is preferably an absolute position in the displacement detection measuring instrument 1, but may be a relative position from a preset predetermined position of the displacement detection measuring instrument 1. The CPU 22 reads and executes a processing program stored in advance in the storage device 24. Further, by this processing program, the image data of the non-movable part and the image data of the movable part of the displacement detection measuring machine 1 are read out and stored in the main memory (not shown), and an image based on the image data of the non-movable part is obtained. The image is fixedly displayed at a predetermined position on the monitor 4. Furthermore, an image based on the image data of the movable part is displayed on the monitor 4 as an animation based on the measurement data input to the receiving device 23 by this processing program.

  At this time, if the measurement data is an absolute value in the displacement detection measuring instrument 1, the position for displaying the image of the movable part is uniquely determined with respect to the image of the non-movable part, so that the display process is relatively simple. However, in the case of the relative position, setting work such as setting an offset value for the absolute position zero of the displacement detection measuring machine 1 in the computer system 14 before starting the measuring work is required. For example, when the displacement detection measuring instrument 1 is a digital caliper, the measuring jaws 2 of the main scale 40 and the slider 41 are closely aligned, and at that time the measurement data of the digital caliper is used as an offset value as a computer system. It is necessary to store them in the 14 main storage units in advance. Thereafter, the position where the image based on the image data of the movable part is displayed is the relative value of the image based on the image data of the movable part relative to the non-movable part by reading the value obtained by subtracting this offset value from the input measurement data as an absolute position. The target display position is obtained and then displayed on the monitor 4. Further, the same numerical value as the measurement data displayed on the display unit 44 of the displacement detection measuring instrument 1 is displayed superimposed on the corresponding portion of the image on the monitor 4.

  Further, when the button 43 of the displacement detection measuring instrument 1 is operated, a signal corresponding to this button operation is output from the displacement detection measuring instrument 1. When this signal is input to the receiving device 23 of the computer system 14, the buttons in the image on the monitor 4 are also animated in response to this signal. Furthermore, by changing the color and brightness of this button or by blinking it, the operation status can be emphasized and displayed in an easy-to-understand manner.

  Next, display of the animation image 5 of the displacement detection measuring instrument 1 on the monitor 4 will be described. When the displacement detection measuring instrument 1 is a digital caliper, first, the image of the main scale 40 is fixed and displayed at a predetermined position on the monitor 4, and then only the image of the slider 41 is recorded based on the measurement data. By repeating erasing and displaying along the scale 40, an animation is displayed as if the slider 41 moved along the main scale 40. As a result, the animation image 5 on the monitor 4 appears to move in real time in conjunction with the movement of the displacement detection measuring instrument 1, so that the operator can perform measurement work in the water tank 10 while checking the animation image 5 on the monitor 4. Can be done. Therefore, since the operator can check the measurement status one by one as if the video was captured by the video camera and displayed on the monitor 4, it was difficult to check visually or in a dim environment. However, it is possible to obtain a remarkable effect that the measurement operation can be performed reliably and the measured numerical values can be easily read.

  Next, FIG. 2 shows a case where the computer system 14 and the displacement detection measuring instrument 1 are connected wirelessly to measure an object to be measured that is being machined by the machine tool 20. An operator 30 measures a workpiece (measurement object) fixed to the chuck of the machine tool 20 with a displacement detection measuring instrument 1 including a digital caliper or a digital micrometer equipped with a wireless unit. Measurement data is sequentially transmitted from the displacement detection measuring instrument 1 to the computer system 14 and input thereto. That is, as shown in FIG. 3B, measurement data is wirelessly transmitted from the wireless transmission unit 7 of the displacement detection measuring instrument 1, received by the wireless antenna 6 of the computer system 14, and taken into the receiving device 23. Similarly, when the button 43 is operated, a corresponding signal is wirelessly transmitted from the displacement detection measuring device 1, received by the wireless antenna 6 of the computer system 14, and taken into the receiving device 23. Subsequent display processing on the monitor 4 is the same as that described with reference to FIG.

In general, the machine tool 20 cannot maintain the cutting ability unless the frictional heat generated between the cutting tool and the workpiece during cooling is cooled, and the tool breaks down unless proper cooling is performed. There is a problem that distortion and deformation occur in the workpiece. Therefore, it is general to perform cutting while constantly spraying the coolant 21 (cutting fluid) on the workpiece (measurement object) or the blade. Conventionally, measurement of an object to be measured while the coolant 21 is being poured is impossible with a digital caliper or a digital micrometer with a low waterproof performance that does not have a special waterproof structure. However, since the electromagnetic induction type displacement sensor, which is a new type sensor recently developed by the applicant, can measure without any trouble even if the coolant enters the inside of the sensor, the mechanical type is used at the work site where the machine tool 20 is used. It has come to be used even in an environment where coolant is exposed to the same level as vernier calipers and micrometers.

  However, if the coolant 21, which is usually a milky white liquid, is soaked, there is a problem that the measurement data of the display unit cannot be confirmed, and the measurement is made after stopping the jet of the coolant 21 or diverting the direction of the jet. Is a common usage. On the other hand, in the present invention, as described in the above embodiment, the measurement data of the displacement detection measuring instrument 1 such as a digital caliper is input to the computer system 14 by wire or wireless and stored in advance from this measurement data. Since the image data of the displacement detection measuring instrument 1 stored in the device 24 is used and an animation is displayed on the monitor 4, the operator photographs the displacement detection measuring instrument 1 with a video camera and displays it on the monitor 4. The state of the measuring machine can be confirmed one by one as if it is being projected. Therefore, even when the coolant is continuously being poured, a significant effect can be obtained that the operator can surely and easily perform the measurement work while confirming the animation image on the monitor 4. As shown in FIG. 2, it is preferable to transmit the measurement data to the computer system 14 wirelessly, but it is also possible to transmit the measurement data to the computer system 14 using a cable.

  As described above, by the status display system 2 according to the present invention, even in a measurement operation in a water tank with poor visibility or a measurement operation in a state where a coolant is applied to a chuck of a machine tool, In addition, since it can be performed while checking the measured value and the movement of the displacement detection measuring instrument on the monitor, the work can be performed easily and reliably. Moreover, not only the above-described measurement work, but also the external appearance and measurement of the displacement detection measuring instrument on the monitor, for example, in a dark place such as a night field work or a dark room measurement work. Since the data is displayed on the monitor for easy viewing, it is easy to work and measurement errors are unlikely to occur.

The present invention is not limited to the above embodiment, and can be applied to various embodiments without changing the gist of the invention.
For example, a plurality of displacement detection measuring instruments 1 and a computer system 14 can be connected by wire or wireless, and a plurality of animation images 5 can be displayed on the monitor 4 by screen division display, multiple window display, time division display, etc. It is. It is also possible to switch and display the displacement detection measuring instrument 1 to be displayed by a switch operation.
Alternatively, the tolerance value for the measurement data is stored in advance in the computer system 14, and whether the measurement data is within this tolerance or outside the tolerance is displayed on the monitor 4 by color coding together with the animation image 5, and the magnitude of the error is indicated by a meter or bar graph. It is also possible to notify by display or voice.

  The present invention can be applied to a battery-driven relatively small displacement measuring and measuring machine such as a digital caliper, a digital micrometer, and a digital dial gauge.

It is a figure which shows the example which connected and used the state display system and displacement detection measuring machine of this invention with the cable. It is a figure which shows the example which connected and used the status display system of this invention and the displacement detection measuring machine wirelessly. (A) is a block diagram of a status display system of a cable connection type. (B) is a block diagram of a wireless connection type status display system.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Displacement detection measuring machine 2 Status display system 3 Object to be measured 4 Monitor 6 Radio antenna 7 Radio transmission unit 8 Cable 9 Transmission unit 11 Water 14 Computer system 20 Machine tool 21 Coolant (cutting fluid)
22 CPU
23 receiving device 24 storage device 40 main scale 41 slider 42 measuring jaw 43 button 44 display unit

Claims (8)

A displacement detection measuring machine;
A computer in which measurement data output from the displacement detection measuring machine is input and a model image of the displacement detection measuring machine is registered in advance,
A display connected to the computer,
A displacement detection / measuring instrument state display system comprising a processing program for displaying the model image on the display in synchronization with the measurement data.   2. The state display system of a displacement detection measuring machine according to claim 1, wherein the displacement detection measuring machine detects an absolute position and outputs it as measurement data.   3. A state display system for a displacement detection measuring machine according to claim 1, wherein the sensor inside the displacement detection measuring machine is an electromagnetic induction type absolute position detection transducer.   4. A model image of an object to be measured to be measured by the displacement detection / measuring instrument is registered in advance in the computer, and the model image of the object to be measured is used as a model image of the displacement detection / measuring instrument. And a status display system for a displacement detection and measurement machine, wherein the system is displayed on the display.   5. The displacement detection and measurement device status display system according to claim 1, wherein the model image of the displacement detection and measurement device registered in advance in the computer is an artificially created CG.   5. The displacement detection and measurement device status display system according to claim 1, wherein the model image of the displacement detection and measurement device registered in advance in the computer is a real image obtained by photographing a real object.   7. The displacement detection / measuring machine status display system according to claim 1, further comprising wireless communication means between the displacement detection / measuring machine and the computer. A displacement detection measuring machine having a movable part such as a probe operated by a measurer and a display part for displaying an operation button and a measurement value, and the like.
Display,
A computer in which information for displaying an external appearance image of the displacement detection measuring machine on the display is incorporated, and
In order to change the animation display of the appearance image of the displacement detection measuring machine displayed on the display in synchronization with the actual appearance of the displacement detection measuring machine by receiving a signal output from the displacement detection measuring machine. A state detection system for a displacement detection measuring machine, wherein the processing program is incorporated into the computer.