KR20100124538A - Marking apparatus and marking method - Google Patents

Abstract

PURPOSE: A marking device for marking character, sign and pattern on a target object, and a marking method thereof are provided to prevent the position error on a marking position. CONSTITUTION: A marking device for marking character comprises a jig(20), a marking unit(30), a location perception unit(25), a controller(35) and a table(11). The objects are fixed to the jig. The marking unit carves a seal character, symbol or pattern on the objects fixed to a jig. The location perception unit recognizes the imprinting location of the character, symbol or pattern inscribed on the objects.

Description

Marking apparatus and marking method

The present invention relates to a marking device and a marking method for carving letters, symbols, patterns, etc. on the object.

A device that inscribes letters, symbols, patterns, etc. on the surface of the object is called a marking device. Recently, a laser marking device that can engrave letters, symbols, patterns, etc. by irradiating a laser onto an object is quickly and precisely used. When the shape of the object to be marked is changed, the marking device requires a changed jig corresponding to the changed object, and a new jig is fixedly attached to the marking device by replacing the existing jig. However, in the process of fixedly attaching the new jig to the marking device, the mounting error of the jig may deviate from the tolerance. In this case, a marking error in which letters, symbols, patterns, etc. are engraved at a position different from a desired position of the object may be enlarged.

The present invention provides a marking apparatus and a marking method in which a marking error of an object is suppressed in spite of a mounting error generated in attaching a jig to a marking apparatus.

The present invention is a jig (jig) to which the object is fixed; A marking unit for marking letters, symbols, or patterns on the object fixed to the jig; A position recognizing unit for identifying a marking position of a letter, a symbol, or a pattern engraved on the object; And when the marking error between the marking position of the letter, symbol, or pattern and the reference marking position exceeds a tolerance, the marking unit changes the marking position for marking the character, symbol, or pattern so that the marking error is reduced. It provides a marking device having a controller.

In the marking apparatus according to the embodiment of the present invention, the jig is detachably fixed, and the object is first imprinted with a letter, symbol, or pattern by the marking unit, and by the position recognition unit. A table may be further provided for selectively moving to a second position where the stamping position of the object is grasped.

According to an embodiment of the invention, the position recognition unit may be provided with a camera for imaging the image.

According to an embodiment of the present invention, the camera may be a portable camera.

According to an embodiment of the present invention, the marking unit may include a laser light source for emitting a laser and a aiming point moving means for moving the aiming point of the laser.

In another aspect, the present invention, the step of fixing the test object to the jig (jig); Marking letters, symbols, or patterns on a test object fixed to the jig by using a marking unit; Determining a marking position of a letter, a symbol, or a pattern engraved on the test object; If the marking error between the marking position and the reference marking position of the test object exceeds the tolerance, changing the marking position by which the marking unit imprints a character, a symbol, or a pattern so that the marking error is reduced; Separating the test object from the jig and fixing a mass object to the jig; And, using the marking unit, the step of marking letters, symbols, or patterns on the mass-produced object; provides a marking method comprising a.

According to an embodiment of the present invention, the step of identifying the marking position may include photographing a test object engraved with a letter, symbol, or pattern.

According to an embodiment of the present invention, the stamping on the test target includes irradiating a laser onto the test target, which includes stamping letters, symbols, or patterns, for mass production. The stamping on the object may include a step of irradiating a laser to the mass production object to imprint a letter, symbol, or pattern.

According to an embodiment of the present invention, even if a mounting error exceeding a tolerance occurs in the process of attaching the jig to the marking apparatus, positional errors such as letters, symbols, and patterns engraved on the object may be suppressed.

Hereinafter, a marking apparatus and a marking method according to an exemplary embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view schematically showing a marking apparatus according to an embodiment of the present invention. Referring to FIG. 1, the marking apparatus 10 according to an exemplary embodiment of the present invention includes a table 11 rotatable based on the rotation center C, and a jig 20 detachably fixed to the table 11. ), A marking unit 30 for imprinting letters, symbols, or patterns on the objects 5 and 6 fixed to the jig 20, and letters and symbols engraved on the objects 5 and 6; Or a position recognizing unit 25 for grasping the marking position of the pattern.

Specifically, the jig 20 is fixed on the table 11 and detachably fixed to the base 13 having a back light unit 16. Although not clearly shown in FIG. 1, the base 13 and the jig 20 may be coupled by a coupling means including, for example, a bolt and a nut.

The jig 20 may be formed by molding a transparent resin such as acrylic, for example. On the upper side of the jig 20, a plurality of mounting grooves 22, on which specific characters, symbols, or objects 5 and 6 to be imprinted are mounted, are formed. The jig 20 may be prepared to correspond to the object (5, 6). That is, when the type of the objects 5 and 6 is changed, the jig 20 corresponding thereto is fixed to the table 11. The objects 5 and 6 may be easily mounted on the mounting groove 22 through the upper side of the open jig 20, and may be easily separated from the mounting groove 22.

In the illustrated embodiment, the marking unit 30 may irradiate a laser (L) on the surface of the object (5, 6) to imprint a specific character, symbol, or pattern. Although not clearly shown in FIG. 1, the marking unit 30 may include a laser light source that emits a laser. In addition, it may be provided with an optical system for changing the direction of the laser or the light intensity emitted from the laser light source. In addition, although not clearly shown in FIG. 1, the marking unit 30 may further include aiming point moving means for moving the aiming point of the laser L incident on the surfaces of the objects 5 and 6 in the X or Y direction. have. On the other hand, the marking apparatus of the present invention is provided with a marking unit capable of marking specific letters, symbols, or patterns by performing machining on the surfaces of the objects 5 and 6 instead of the marking unit 30 shown in FIG. You may.

The position recognition unit 25 has a camera that picks up an image, preferably the camera may be a portable camera 26. Industrial cameras, which are generally used in various measuring devices, have special advantages for precision measurement, but are very expensive compared to portable cameras used for capturing people or scenery. The position recognition unit 25 may include a relatively inexpensive portable camera 26 because it is sufficient to perform only a relatively simple function of capturing an object imprinted with a specific character, symbol, or pattern.

The marking unit 30 is disposed above one side of the table 11 on the basis of the rotation center C, and the position recognition unit 25 is the table 11 on the basis of the rotation center C. It may be disposed above the other side of the). The table 11 is formed of the first and second objects 5 and 6 mounted on the jig 20 through rotation about the rotation center C (see arrow D). It selectively moves to a 1 position and a 2nd position which is a position just under the said position recognition unit 25. As shown in FIG. When the objects 5 and 6 are in the first position, specific markings, symbols, or patterns may be imprinted on the surfaces of the objects 5 and 6 by the marking unit 30, and the objects 5, When 6) is in the second position, the marking position of the specific character, symbol or pattern imprinted on the object 5, 6 can be grasped by the position recognizing unit 25.

On the other hand, the marking device 10 is the marking unit so that the marking error is reduced if the marking error between the stamping position of the specific character, symbol, or pattern imprinted on the test object 5 and the reference marking position exceeds the tolerance The controller 30 further includes a controller 35 for changing the marking position for engraving a specific character, symbol, or pattern. The marking position of the specific character, symbol, or pattern imprinted on the test object 5 is stamped on the surface of the test object 5 by using the marking unit 30 to imprint a specific character, symbol, or pattern. The recognition unit 25 can be obtained from the photographed data obtained by photographing it, and the reference marking position can be obtained from the photographed data obtained by photographing the object sample in which a specific character, symbol, or pattern is imprinted on the surface without error.

2 is a flowchart illustrating a marking method according to an exemplary embodiment of the present invention, FIG. 3 is a plan view illustrating a mounting error of a jig, and FIG. 4 is a marking error of an object due to the jig mounting error. FIG. 5 is a plan view illustrating a marking error reduced due to a setting change of a marking unit. Hereinafter, a marking method according to an exemplary embodiment of the present invention will be described with reference to FIGS. 1 to 5.

1 and 2, another marking method according to an exemplary embodiment of the present invention includes a step S11 of learning a reference marking position. The reference marking position may be obtained from photographic data of a sample of the object in which a specific character, symbol, or pattern is imprinted without error on the surface, and the reference marking position may be stored in the controller 35. Next, the marking method includes a step S12 of fixing the jig 20 with respect to the table 11. Referring to FIG. 3, when the jig 20 is fixed with respect to the table 11, the jig 20 may be fixed at a position (for example, Je) that is misaligned without being fixed at the correct position (for example, Jo). As a result, the mounting grooves 22 of the objects 5 and 6 may also be arranged at positions (for example, Se) that are not aligned at the correct positions (for example, So).

Referring back to FIGS. 1 and 2, the marking method includes a step S13 of fixing the test object 5 to the jig 20. Then, the table 11 is rotated so that the test object 5 is in the first position, and a specific character, symbol, or pattern is imprinted on the test object 5 using the marking unit 30 (S14). ). Next, the table 11 is rotated again so that the test object 5 is in the second position, and the stamping position of the test object 5 is detected using the position recognition unit 25 (S15). The step S15 includes imaging the test object 5 using the camera 26.

Referring to FIG. 4, since the jig 20 (see FIG. 3) is fixed to a position where the jig 20 (see FIG. 3) is shifted in step S12, the test target 5 mounted on the mounting groove 22 (see FIG. 3) is in a correct position (for example, So). It may be arranged at a position (for example, Se) that is not aligned and is misaligned. In step S14, the marking unit 30 is programmed to perform the stamping operation assuming that the test object 5 is arranged at the correct position (eg, So). Thus, if the marking unit 30 is programmed to imprint a triangular pattern Mo, for example, in the center of the test object 5, in fact, a triangular pattern Me is formed on one side of the test object 5. Can be imprinted. Photo data captured by the camera 26 in step S15 may correspond to the portion shown by the solid line of FIG.

1, 2, and 4, the marking method next, to determine whether the stamping error between the stamping position and the reference stamping position of the test object 5 exceeds a preset tolerance ( S16). The marking error between the triangle pattern (Mo) imprinted at the reference marking position, that is, the correct marking position, and the triangle pattern (Me) actually imprinted on the test object (5) through the step S14, is corrected by the jig 20 at the step S12. Corresponds to the distance between the position Jo (see FIG. 3) and the position at which the alignment is misaligned (Je, FIG. 3) and the inclined angle. Step S16 may be performed by the controller 35. The controller 35 obtains the stamping position of the test target object 5 from the photo data photographed by the camera 26 through the step S14, and marks the stamping position of the test target object 5 and the controller 35 already. A marking error can be calculated from the difference between the stored reference marking positions, and the marking error can be compared with the tolerance to determine whether the marking error exceeds the tolerance.

If it is determined in step S16 that the marking error exceeds the tolerance, the marking position of the marking unit 30 is changed to reduce the marking error (S20). In the example of FIG. 4, the marking position of the marking unit 30 is determined by the inclination and the interval between the triangle pattern Mo imprinted at the correct marking position and the triangle pattern Me imprinted on the test object 5. Changing it may reduce the stamping position. The change of the marking position is performed by changing the marking program of the marking unit 30, and the marking program change of the marking unit 30 may be automatically performed by the controller 35.

Referring back to FIGS. 1 and 2, the marking method next includes separating the test object 5 from the jig 20 (S17), and mass-producing objects in the jig 20 ( 6) fixing step (S18). Next, the table 11 is rotated so that the mass production object 6 is brought to the first position, and a specific character, symbol, or pattern is imprinted on the mass production object 6 using the marking unit 30 ( S19). Referring to FIG. 5, for example, the triangular pattern Mc, which is imprinted on the mass production object 6 by the marking unit 30 which is reprogrammed so that the marking position is changed, is a triangular pattern Mo, which is imprinted at the reference marking position. 4) or at least within a tolerance. On the other hand, if it is determined in step S16 that the stamping error is within the tolerance, the step S17 to S19 is carried out without passing through the step S20 to imprint a specific character, symbol, or pattern on the mass production object (6).

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a perspective view schematically showing a marking apparatus according to an embodiment of the present invention.

2 is a flowchart illustrating a marking method according to an embodiment of the present invention.

3 is a plan view for explaining a mounting error of a jig.

4 is a plan view illustrating a marking error of an object due to a jig mounting error.

FIG. 5 is a plan view illustrating a marking error reduced due to a setting change of a marking unit. FIG.

<Description of the symbols for the main parts of the drawings>

5 ... Objects for Testing 6 ... Objects for Production

10 ... marking device 11 ... table

20 ... jig 22 ... mounting groove

25 ... Location Recognition Unit 26 ... Camera

30 ... marking unit 35 ... controller

Claims (8)

Jig in which the object is fixed; A marking unit for marking letters, symbols, or patterns on the object fixed to the jig; A position recognizing unit for identifying a marking position of a letter, a symbol, or a pattern engraved on the object; And, A controller for changing the marking position at which the marking unit stamps a character, a symbol, or a pattern so that the marking error is reduced if the marking error between the marking position of the character, symbol, or pattern and the reference marking position exceeds a tolerance; Marking device provided with. According to claim 1, The jig is detachably fixed, and the object is moved to a first position where letters, symbols, or patterns are imprinted by the marking unit, and a second position where the imprinted position of the object is grasped by the position recognition unit. Marking device further comprising a table for selectively moving. According to claim 1, And said position recognizing unit comprises a camera for imaging an image. The method of claim 3, Marking device, characterized in that the camera is a portable camera (portable camera). According to claim 1, And said marking unit comprises a laser light source for emitting a laser and aiming point moving means for moving the aiming point of said laser. Fixing a test object to a jig; Marking letters, symbols, or patterns on a test object fixed to the jig by using a marking unit; Determining a marking position of a letter, a symbol, or a pattern engraved on the test object; If the marking error between the marking position and the reference marking position of the test object exceeds the tolerance, changing the marking position by which the marking unit imprints a character, a symbol, or a pattern so that the marking error is reduced; Separating the test object from the jig and fixing a mass object to the jig; And, Marking the character, symbol, or pattern on the mass production object using the marking unit. The step of identifying the marking location is characterized in that it comprises the step of imaging a test object engraved with a letter, symbol, or pattern. The method according to claim 6, The stamping on the test target includes irradiating a laser onto the test target and marking a letter, symbol, or pattern, and the stamping on the mass production target includes: Marking method characterized in that it comprises the step of engraving the character, symbol, or pattern by irradiating the mass production object.

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