KR101781093B1 - Cnc for automatically total inspector - Google Patents

Abstract

CNC universal total inspection device is disposed on a horizontal bed, the bed that has the horizontal plane parallel to the ground having a Y-axis slide ₂ (Y ₂ -axis Slide) disposed on the seating surface of a subject and Y-axis slide ₂ A touch-probe for inspecting a subject supported / mounted on the seating support 130, a touch sensor for touching a subject supported / A measuring body portion having a bladder for attaching an additional device including a probe, an X-axis arranged in a direction perpendicular to the plane of the horizontal bed, and arranged on a plane perpendicular to the Y-axis slide, And a moving member which is disposed on an X-axis slide, which is one surface of the vertical bed, and whose other surface is connected to the measuring body, The moving member Between the measurement body portion comprising: a Z-axis slide (Z-axis Slide) and Y ₁ axis slide (Y ₁ -axis Slide) for measuring a moving body parts of the Z-axis direction, Y-axis slide ₂ (Y ₂ -axis Slide) is moved to the measuring position and move a subject, Y ₁ axis slide (Y ₁ -axis slide), X-axis slide, Z-axis slide body measurement unit and controls the measurement location between a subject and the measurement body portion.

Description

[0001] CNC FOR AUTOMATICALLY TOTAL INSPECTOR [0002]

The present invention relates to a CNC general purpose whole water inspection apparatus.

The CNC milling machine is used for cutting metal materials by moving a cutting tool such as an end mill in a state of being mounted and moving linearly simultaneously with the rotation of the end mill.

The CNC milling machine should be inspected to check the accuracy of the post-processing process or the wear of the cutting tool such as the end mill of the CNC milling machine.

However, general inspection equipment such as CNC milling machine installed on a production line is an expensive special measuring device which measures only one material or one position. When measuring from two or more positions, Should be added.

Therefore, there is a disadvantage in that three dimensional measurement can not be performed since the inspection is carried out by one axis or two axis of the whole inspection apparatus.

In addition, there is a disadvantage that the full inspection device can not be used to share other similar materials, and should be discarded if the production material is changed, or modified at excessive cost and schedule.

That is, the present production line requires a flexible production line for small quantity production of various types of products, and the complete inspection apparatus of the present invention does not satisfy the above requirements.

In addition, it is not easy to combine various measurement software such as an additional measuring instrument (a vision measuring instrument, a gauge, a scanner, etc.) and the like. It is also a disadvantage that there is no setting device (X / Y / Z-axis resetting block) for positioning the object in the standard position.

Furthermore, it is difficult to change the operation of the whole inspection apparatus which is currently being used unless it is an expert by a PLC or LADDER exclusive drive system, and it is troublesome to constantly maintain quality by feedbacking the correction value to the previous process (FEEDBACK).

A problem to be solved by the present invention is to provide a CNC universal total inspection method capable of directly or indirectly arranging materials or assembled assemblies placed on a production line such as parts processing and assembly lines, Device.

Another problem to be solved by the present invention is to provide a touch probe that can be used in addition to a vision probe, a gauge, a scanner, and the like in order to measure a material, an assembled assembly, And to provide a CNC universal total water inspecting apparatus capable of attaching various measuring instruments to the CNC universal full water inspecting apparatus.

Another problem to be solved by the present invention is to arrange a total splash guard connected to a horizontal bed and a vertical bed so that cleanliness can be easily maintained in the field, and each axis (X / Y / Z) And CNCs to ensure uniform product quality by feedbacking the automatic correction values to the entire process by correcting the difference between the actual values and the target values, And to provide a general purpose whole water inspection apparatus.

The present invention has been made in view of the above problems, and it is an object of the present invention to provide a method of manufacturing the same.

CNC universal total inspection apparatus 1 according to an embodiment of the present invention for achieving the above object is has the a plane parallel to the drawing the slide axis Y ₂ (Y ₂ -axis Slide, 150) disposed on said surface having the horizontal bed (110), said horizontal table bed (120) is disposed on the (110) mounted to a subject 100 and is moved along the slide axis Y ₂ (Y ₂ -axis slide, 150), which A touching support 130 disposed on the table 120 and having a jig for fixing / supporting the test object 100; a touch sensor 130 for testing the test object 100 supported / A measurement body 300 having a probe 340 for attaching an attachment device including the touch probe 320 and the touch probe 320, Y ₂ is disposed on the, surface-axis slide _{(Y 2 -axis slide, 150)} X -axis disposed in a direction perpendicular to the slide A vertical column 210 having an X-axis slider 220 and an X-axis slide 220 disposed on one side of the vertical column 210, And a moving member 250 connected to the measuring body 300. The measuring body 300 is moved between the moving member 250 and the measuring body 300 in the Z- Z-axis slide (Z-axis slide, 255) and the Y-axis slide Y _{1 (Y 1 -axis slide, 265)} , said Y ₂ axis slide 150 include, but are above a subject to the measurement position moving in the direction move 100, and a Y ₂ axis slide (Y-axis slide, 150), X-axis slide (X-axis slide, 220), Z axis slide (Z-axis slide, 255) is the measurement body portion ( 300 are moved to perform measurement by controlling the measurement position between the object 100 and the measurement body 300.

The table 120 may include a first position setting unit 170 and a second position setting unit 180 that determine a position reference of the subject 100.

The measurement body 300 may further include an anti-jamming cable 370 connected to the measurement body 300 and the vertical column 210 to prevent the measurement body 300 from being pushed by gravity.

The cooling air blower 350 may further include a cooling air blower 350 disposed outside or inside the bracket 340 to reduce dimensional errors caused by temperature changes of the measurement body 300 or the body 100.

Further comprising a splash guard (400) including a first frame (410) protruding from the upper side of the vertical column (210) and a second frame (420) protruding from the horizontal bed (110), wherein the splash guard A work space 450 formed by the first frame 410 and the second frame 420 and the horizontal bed 110 and the vertical column 210 is formed in the work space 450, The object 100 and the measurement body 300 may be disposed.

The CNC controller 500 may be disposed on at least one of the first frame 410 and the second frame 420 of the splash guard 400.

A lock front door 460, a side door 470, and an upper door 480 may be disposed on the splash guard 400 to identify the inside of the work space 450.

According to the embodiments of the present invention, the object is moved to the measuring position with the Y _2- axis slide, and then the measuring body is moved through the X-axis slide, the Y ₁ -axis slide and the Z-axis slide to precisely measure the object from various angles can do.

In addition, the whole water inspection apparatus can be used alone, or can be assembled in a process line, and when it is assembled, the tact time of the production process or the inspection process can be reduced, and the process efficiency can be improved.

According to the embodiments of the present invention, it is possible to provide a touch probe (or a touch probe) which can be directly or indirectly disposed on a production line such as a part processing line or an assembly line, Touch Probe), it is possible to add various measuring instruments such as a vision meter, a gauge, and a scanner to diversify the inspection.

In addition, by installing a splash guard connected to the horizontal bed and the vertical bed, it is easy to maintain cleanliness in the field. Precise control of each axis (X / Y / Z) with a CNC controller and various measurement programs The measured values are stored, managed and transmitted, and the difference between the actual value and the target value is corrected, and the automatic correction value is fed back to the previous step, thereby ensuring uniform product quality.

The effects according to the present invention are not limited by the contents exemplified above, and more various effects are included in the specification.

1 is a perspective view illustrating a CNC universal total water testing apparatus according to an embodiment of the present invention.
2 is a perspective view illustrating an operation of the CNC universal total water testing apparatus according to an embodiment of the present invention.
3 is a perspective view illustrating a CNC universal total water testing apparatus according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification. The dimensions and relative sizes of layers and regions in the figures may be exaggerated for clarity of illustration.

The terms spatially relative, "below", "beneath", "lower", "above", "upper" May be used to readily describe a device or a relationship of components to other devices or components. Spatially relative terms should be understood to include, in addition to the orientation shown in the drawings, terms that include different orientations of the device during use or operation. For example, when inverting an element shown in the figure, an element described as " below or beneath "of another element may be placed" above "another element. Thus, the exemplary term "below" can include both downward and upward directions. The elements can also be oriented in different directions, in which case spatially relative terms can be interpreted according to orientation.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a perspective view illustrating a CNC universal total water inspecting apparatus according to an embodiment of the present invention, and FIG. 2 is a perspective view illustrating an operation of a CNC universal total water inspecting apparatus according to an embodiment of the present invention.

1 and 2, a CNC universal total water checking apparatus 1 according to an embodiment of the present invention includes a horizontal bed 110, a seating support 130, a measuring body 300, A vertical column 210, and a movable member 250.

Further, the total inspection device (1) comprises a horizontal bed (110), a vertical column (210), Y _2-axis slide 265, and the measurement of the moving member 250 moves to a subject 100 or a subject (100) Y ₁ axis slide for moving the body part _{(300) (Y 1 -axis slide} , 150), X -axis slide (X-axis slide, 220) , Z axis slide (Z-axis slide, 255) are arranged in a subject after moving to the Y ₂ axis slide 265 in the measurement position 100, the measurement body portion 300 in the Y-axis slide _{1 (Y 1 -axis slide, 150)} , X -axis slide (X-axis slide, 220) , And a Z-axis slide (Z-axis slide, 255).

Therefore, the total water inspection apparatus 1 can measure the subject 100 in various ways from various angles.

First, in a total water testing apparatus 1 according to an embodiment of the present invention, a table 120 on which a subject 100 can be placed may be disposed. The table 120 is placed on the horizontal bed 110 of the total water testing apparatus 1. [ In addition, the table 120 may include a seating support 130 for fixing / supporting the subject 100.

The seating support 130 may include a fixing portion 135 including a jig or a fixture to support / fix the subject 100. The fixing part 135 may be disposed on the horizontal bed 110 to rotate or fix the subject 100. A jig or a fixture can be disposed in the fixing part 135 so that the plurality of the objects 100 can be set to directly or indirectly measure one or more important management dimensions. have.

On the other hand, the first position setting unit 170 and the second position setting unit 180 may be further disposed on the table 120. The first position setting portion 170 or the second position setting portion 180 can hold the origin of the position of the subject 100. [ For example, the first position setting unit 170 or the second position setting unit 180 may set the position of the subject 100 to a desired position by setting the first starting point of the subject 100. FIG. Therefore, the accuracy of the position where the subject 100 is placed can be increased and precise measurement can be performed.

Or when the whole water checking apparatus 1 is started again or restarted after power off, the subject 100 is moved to the home position on the basis of the first position setting unit 170 or the second position setting unit 180, (X, Y, Z) position, and then the subject 100 can be measured through the measurement body 300. FIG.

The whole water checking apparatus 1 according to an embodiment of the present invention may include a measuring body 300 and the measuring body 300 may have a bracket 340 to which an additional apparatus can be attached. First, the measurement body 300 can arrange a touch probe 320 that can inspect the subject 100 as a basic device.

Accordingly, the bellows 340 may be disposed in a shape capable of covering the additional device including the touch probe 320. [ For example, the bracket 340 can house a vision meter, a gauge, a scanner, etc. that can assist the touch probe 320 or add an inspection function have.

In addition, when measuring the object 100 through the measurement body 300, it is possible to prevent the dimensional accuracy of the measurement body 300 or the object 100, A cooling air blower 350 may further be provided. Specifically, the cooling air blower 350 can remove foreign matter from the subject 100 and minimize thermal expansion of the measuring body 300 or the subject 100.

Accordingly, it is possible to minimize the thermal expansion of the test object 100 through the cooling air blower 350 and maintain the temperature inside the measurement body 300 constant, thereby minimizing the error due to thermal expansion, Precise measurement may be possible.

As described above, the total water inspection apparatus 1 according to an embodiment of the present invention can precisely measure various information about the subject 100 by arranging various measurement devices in the measurement body 300.

On the other hand, there is a horizontal bed (110) formed on a horizontal bed (110) along a plane to move the table (120) ₂ Y-axis slide (Y-axis Slide, 150) which can be disposed of. In other words, the table can be moved along the 120 and the Y-axis slide ₂ (Y-axis Slide, 150) is entered into the table 120, the Y-axis slide ₂ (Y-axis Slide, 150) . Accordingly, the subject 100 disposed on the table 120 can also be moved.

Therefore, Y-axis slide ₂ (Y-axis Slide, 150) may be moved to an area adjacent to the body section 300 measure a subject (100).

In addition, the total water checking apparatus 1 according to an embodiment of the present invention includes a vertical column 210 arranged in a direction perpendicular to the plane of the horizontal bed 110. Vertical column 210 may be provided with a X-axis slide (X-axis Slide, 220) arranged in a direction perpendicular to the slide (Y-axis Slide, 150) ₂ Y-axis on one side. That is, X-axis slide (X-axis Slide, 220) and a Y ₂ axis slide (Y-axis Slide, 150) may be arranged in a direction perpendicular to each other.

The moving member 250 may be disposed on the X-axis slide 220, which is one surface of the vertical column 210. A moving member 250 is connected to the X-axis slide 220 to move the measuring body 300 along the X-axis slide 220. In detail, one side of the moving member 250 is connected to an X-axis slide 220, and the other side of the moving member 250 is connected to the measuring body 300.

And a Z-axis slide 255 capable of moving the measurement body 300 in the third direction.

Specifically, Z-axis slide 255 is horizontal bed (110) in the measurement in a vertical direction, it is possible to move the body part, and to move the measurement body portion 300 in the second direction Y ₁ axis slide (Y in ₁ -axis Slide, 265 may be disposed.

Specifically, Y ₁ axis slide (Y ₁ -axis Slide, 265) can move the measurement body portion in the horizontal direction of the horizontal bed (110).

The X-axis slide 220 can move the measuring body 300 in the first direction.

Accordingly, when the test object 100 is moved to the measurement position by the Y ₂ axis slide 150, the touch probe 320 disposed on the measurement body 300 can measure the object 100 at various angles .

When the measurement body 300 is measured by the measurement body 300, the measurement body 300 is moved in three dimensions (X, Y, and Z directions) through the X-axis slide 220, the Y ₁ axis slide 265, It is also possible to measure in three dimensions by moving it on the axis.

In addition, a linear scale may be additionally mounted on the X-axis slide 220, the Y ₁ -shaft slide 265, and the Z-axis slide 255 in order to further improve the degree of each axis.

In addition, an anti-jamming cable 370 may be further provided between the measurement body 300 and the vertical column 210 to prevent the measurement body 300 from being pushed downward by gravity due to the Z-axis slide 255 have. The anti-jamming cable 370 may be formed by a cable connecting the measuring body 300 and a control unit (not shown).

Here, the total water inspection apparatus 1 according to an embodiment of the present invention may be installed on a production line, such as parts processing or assembly line, either alone or on a process line to measure the subject 100 directly or indirectly can do. Here, the object 100 may be a single material or an assembled product.

Thus, the transmission in accordance with one embodiment of the present invention, the testing device (1) moves the a subject 100 in the measurement position, the measurement body portion (300), X-axis slide (220), Y ₁ axis slide (265 ) And the Z-axis slide 255, the subject 100 can be precisely measured at various angles.

In addition, the total water inspection apparatus 1 can be used alone, or can be assembled in a process line, and when it is assembled, the tact time of the production process or the inspection process can be reduced, and the process efficiency can be improved.

3 is a perspective view illustrating a CNC universal total water testing apparatus according to another embodiment of the present invention.

Here, FIG. 3 will be described with reference to FIG. 1 and FIG. 2 in order to avoid redundant description and to facilitate explanation.

3, the CNC universal total water inspection apparatus 3 (hereinafter referred to as a "total water inspection apparatus") according to another embodiment of the present invention includes a seat support unit 130, a measurement body unit 300, a vertical column 210, Member 250 and a splash guard 400. [ The splash guard 400 may form a work space in which the measurement body 300 and the subject 100 are located. Thus, the total water inspection apparatus 3 is capable of measuring and producing the subject 100 in a clean environment while allowing various measurements of the subject 100.

The splash guard 400 includes a first frame 410 and a second frame 420 connected to the horizontal bed 110 and the vertical column 210, respectively. Here, the space formed in a box shape can be formed by the horizontal bed 110, the vertical column 210, the first frame 410, and the second frame 420. Hereinafter, the space formed in a box shape is referred to as "work space 450 ". That is, the measurement body 300 and the seating support 130 on which the subject 100 is placed may be a total cover shape for housing the work space 450, which is a box-shaped space. Here, an electric field box 480 disposed in the vertical column 210 may be further disposed.

The splash guard 400 includes a first frame 410 protruding from the upper side of the vertical column 210 to form a work space 450 and a second frame 420 protruding from the horizontal bed 110. [ . ≪ / RTI > Here, the first frame 410 and the second frame 420 are connected at their ends. The first frame 410 and the second frame 420 may be connected to form a work space 450 as a space surrounded by the horizontal bed 110 and the vertical column 210.

The work space 450 is connected to the work area 450 through the first frame 410, the second frame 420, the horizontal bed 110, and the vertical column 210, 100).

Accordingly, since the splash guard 400 can provide the work space 450 in which the workpiece 100 can be produced or measured in a cleaner environment, the workpiece 100 can be more accurately produced and measured .

The front door 460, the side door 470, and the upper door 480 may be disposed on the splash guard 400 so that the inside of the work space 450 can be seen. The front door 460, the side door 470 and the upper door 480 can provide a space where the work or the assembly material, that is, the workpiece 100 can enter and leave the workpiece 100, Or you can provide a window where you can visually confirm the production.

Meanwhile, the CNC controller 500 may be disposed on the first frame 410 or the second frame 420 of the splash guard 400. The CNC controller 500 can input various measurement software. In addition, the CNC controller 500 may store various software inputs as well as measurements of the subject 100.

Therefore, the CNC universal total water inspecting apparatus 3 according to another embodiment of the present invention can compare measured data before and after correction of the subject 100 by inputting measurement values using various measurement software through the CNC controller 500. Accordingly, it is easy to determine whether the CNC universal complete water inspecting apparatus 3 is defective, so that it can be easily corrected.

In addition, the CNC universal full water inspection apparatus 3 has an effect that the production or measurement quality can be constantly maintained and managed through feedback of data before and after correction of the subject 100. For example, in the case of inputting various measurement software to the CNC controller 500, the operation of the total water inspection apparatus 3 can be stopped when three or more defects are continuously generated. Accordingly, mass defect management, that is, quality control, can be facilitated through the CNC universal complete water inspection apparatus 3.

Further, when software is input to the CNC controller 500, various measurement programs can be stored, edited, and selected in the CNC controller 500, so that the CNC universal total water inspecting apparatus 3 can perform various measurements . In addition, the CNC generalized inspection system (3) is advantageous in that it can operate the inspection system (3) easily by anyone with a little training due to various input measurement programs.

Since the CNC universal complete water inspecting apparatus 3 has a plurality of measurement programs input to the CNC controller 500, it is possible to measure the dimensions of various objects 100, and furthermore, Since the device flexibly corresponds to various objects 100, it can be adapted for flexible production.

The total water inspection apparatus 3 according to another embodiment of the present invention can maintain the cleanliness of the subject 100 due to the splash guard 400 so that the subject 100 can be accurately measured and the splash guard 400 The CNC controller 500 may be disposed on the first or second frame 410 or 420 of the first and second frames 400 and 400 so that various measurement and correction can be easily performed by anyone.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be appreciated that many variations and applications not illustrated above are possible. For example, each component specifically shown in the embodiments of the present invention can be modified and implemented. It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

1: General inspection apparatus
100: object
110: horizontal bed
120: Table
130:
150: Y _2- axis slide
170: first position setting section
180: second position setting section
220: X-axis slide
250: moving member
255: Z-axis slide
265: Y _1- axis slide
300: Measurement body part
350: Cooling air blow
370: Anti-skid cable
400: splash guard
410: first frame
420: second frame
450: Workspace
460: Front door
470: side door
480: upper door
490: Battle Box

Claims (7)

A horizontal bed (110) having a having a plane parallel to the ground the slide axis Y ₂ (Y ₂ -axis Slide, 150) disposed on the surface;
Is secured to a subject (100) is disposed on the horizontal bed (110) and disposed on the table 120, the table 120 is moved along the Y ₂ axis slide (Y-axis Slide, 150) P A seat support 130 having a jig for fixing / supporting the body 100;
A touch probe 320 for inspecting the subject 100 supported on the seating support 130 and a braking unit 340 for attaching the attachment unit including the touch probe 320 A measurement body part 300 provided with the measurement body part 300;
Are arranged in the plane normal to the direction of the horizontal bed (110), Y ₂ axis slide _{(Y 2 -axis Slide, 150)} X -axis slide (X-axis Slide, 220) arranged in a direction perpendicular to the one surface A vertical column (210) having a vertical axis; And
A moving member 250 is disposed on the X-axis slide 220 which is one surface of the vertical column 210 and the other surface of the one surface is connected to the measuring body 300 and, with the movable member 250 and the measurement body portion 300 between, the said measurement body portion 300, a Z-axis slide (Z-axis slide, 255) for moving the Z-axis direction, a Y ₁ axis direction comprising: a slide axis Y ₁ (Y ₁ -axis slide, 265) to move,
A Y-axis slide ₂ (Y ₂ -axis Slide, 150) is moved to a subject 100 at a measurement position,
The Y ₁ axis slide _{(Y 1 -axis Slide, 265)} , X -axis slide (X-axis Slide, 220) , Z axis slide (Z-axis Slide, 255) is the body by moving the measurement unit 300 A CNC universal total water checking apparatus for controlling a measurement position between a subject (100) and the measuring body (300).
The method according to claim 1,
Wherein the table includes a first position setting unit and a second position setting unit for setting a position reference of the subject 100 on the table.
The method according to claim 1,
The CNC universal total water inspecting apparatus according to any one of claims 1 to 3, further comprising a protection cable (370) connected to the measuring body (300) and the vertical column (210) and preventing the measurement body (300) from being pushed by gravity.
The method according to claim 1,
And a cooling air blower (350) disposed outside or inside the bracket (340) to reduce dimensional errors caused by temperature changes of the measurement body (300) or the subject (100) Device.
The method according to claim 1,
A first frame 410 protruding from the upper side of the vertical column 210,
Further comprising a splash guard (400) including a second frame (420) protruding from the horizontal bed (110)
The first frame 410 and the second frame 420 of the splash guard 400,
A work space 450 formed by the horizontal bed 110 and the vertical column 210 is formed,
Wherein the work body (100) and the measurement body (300) are disposed in the work space (450).
6. The method of claim 5,
Wherein the CNC controller (500) is disposed on at least one of the first frame (410) and the second frame (420) of the splash guard (400).
6. The method of claim 5,
The splash guard 400 is provided with a lock front door 460, a side door 470 and an upper door 480 which can confirm the inside of the work space 450.

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