DE102013006876A1 - Roughness Tester - Google Patents

Abstract

A roughness measuring device (2) has a mobile feed device (10) and a base station (4) which has a roughness standard (6) for calibrating the feed device (10). According to the invention, a storage surface (8) is formed on the upper side of the base station (4), on which the feed device (10) can be stored, the roughness standard (6) being movably arranged on the base station (8) and part of the storage surface in a calibration position (8) forms such that a calibration can be carried out when the feed device (10) is placed on the storage surface (8).

Description

The invention relates to a roughness measuring device referred to in the preamble of claim 1 Art.

Such roughness measuring devices are well known and serve to perform roughness measurements in a manufacturing process. The known roughness measuring devices have a mobile feed device, which carries a roughness button. Furthermore, the known roughness measuring devices have a base station in which, for example, an evaluation unit can be arranged which evaluates measured data recorded by means of the mobile feed device.

To ensure that the readings from the feeder are reliable, it is necessary to check the calibration of the meter at certain intervals. For this purpose, a so-called Raunormal is used, which is a component having a known surface roughness. By scanning the surface of the roughness standard, it is determined whether the roughness determined on the basis of the measured data coincides with the known roughness of the roughness standard, so that a sufficient calibration of the feed device can then be assumed.

By DE 103 34 219 B3 (corresponding US 7347048B2 ) a roughness meter of the type in question is known, which has a mobile feed device and a base station. The known roughness measuring device has a recess into which the feed device can be inserted. An inner wall of the recess carries a Raunormal for calibrating the feed device, wherein the Raunormal is arranged in the recess, that when inserted into the recess feed device calibration of the meter can be done. The fact that the Raunormal is arranged in the recess, damage to the Raunormales by touching the same, for example, during transport of the base station, avoided.

The invention has for its object to provide a roughness meter referred to in the preamble of claim 1, whose structure is simplified.

This object is achieved by the invention defined in claim 1.

The basic idea of the invention is to design the base station in such a way that, on the one hand, the roughness standard is protected against damage and, at the same time, a simple construction of the base station results.

To this end, the invention provides that at the top of the base station, a storage area is formed on which the feed device is stored, wherein the Raunormal is movably disposed on the base station and forms a part of the shelf in a calibration position, such that at the storage surface stored feed device calibration is executable.

For example, and in particular, the Raunormal can be detachably connected to the base station and inserted into a shaft-like receptacle. According to the invention, the roughness standard then forms part of the storage surface in the calibration position, so that calibration of the feed device can be carried out in this position of the roughness standard. After carrying out the calibration or after using the roughness measuring device, the roughness standard can be pulled out of the shaft-like receptacle and turned through 180 ° back into the shaft-like receptacle. Thus, if the noise standard points upwards in the calibration position, it points downwards in the protective position so that there is no risk of the roughness standard being damaged when it hits an obstacle when the base station is being transported.

According to the invention, a noise standard is thus always available at the base station, so that the calibration of the measuring device can always be checked or a calibration of the measuring device can be carried out if necessary. At the same time the Raunormal is however reliably protected in the protection position against damage.

Movement of the roughness normal between the calibration position of the guard position may be accomplished in any suitable manner. Embodiments in which the Raunormal is releasably or detachably connected to the base station, have the additional advantage that the Raunormal can be replaced if necessary.

Due to the fact that the Raunormal is integrated in its protective position in the storage area at the base station, there is a particularly simple construction of the housing of the base station.

An advantageous development of the invention provides that the Raunormal from the calibration position is movable into a protective position in which the Raunormal at least partially, preferably completely or almost completely, is covered by parts of a housing of the base station. Under a complete or almost complete coverage of the Raunormales is understood according to the invention that at least those parts of the Raunormales that are used for calibration, covered by parts of the housing and so that it is protected against accidental contact and therefore also against damage.

According to the invention, the roughness standard can be firmly but movably connected to the base station, whereby the movement of the roughness normal from the calibration position into the guard position can follow any suitable kinematics. An advantageous development of the invention, however, provides that the Raunormal of the base station is removable. In this way, a holder for the Raunormal be made particularly simple, such as a frame-like.

Another advantageous embodiment of the invention provides that the Raunormal is inserted into a shaft-like receptacle, which is open to the storage area. If the roughness standard is in its calibration position in this embodiment, then the calibration surface of the roughness normal used for the calibration is open at the top and forms part of the storage surface. If, on the other hand, the roughness standard is in its protective position, then the surface of the roughness normal to the calibration surface is open, while the calibration surface in the shaft-like receiver is protected against contact and thus against damage.

In another context, another advantageous development of the invention provides that the receptacle is designed in such a way that the roughness standard in the protective position is recorded in the receptacle rotated by 180 ° relative to the calibration position.

The invention will be explained in more detail with reference to the accompanying drawings with reference to an embodiment. All described, illustrated in the drawings and claimed in the claims features taken alone and in any suitable combination with each other the subject of the invention, regardless of their summary in the claims and their dependency and regardless of their description or representation in the drawing ,

It shows:

1 FIG. 1 schematically shows a perspective view of a base station of a roughness measuring device according to the invention, FIG.

2 : in a similar representation as 1 the base station according to 1 with a mobile feed device stored thereon,

3 : in opposite 1 a greatly enlarged scale a detail of the base station in the area of the Raunormales with inserted Raunormal and

4 : in the same representation as 3 the base station with removed Raunormal.

In 1 is a schematic perspective view of an embodiment of a roughness measuring device according to the invention 2 represented, which is a base station 4 that has a Raunormal 6 For calibrating the roughness meter has.

According to the invention, at the top of the base station 4 a shelf 8th formed on the one in 1 unillustrated mobile feed unit can be stored.

2 shows the base station 4 , being on the shelf 8th a mobile feeder 10 is stored, which carries a roughness button. Incidentally, the structure of a corresponding roughness meter 2 the expert is well known and will therefore not be explained here.

According to the invention is the Raunormal 6 movable at the base station 4 arranged and forms part of the shelf in a calibration position 8th , such that the roughness meter 2 can be calibrated when stored on the shelf feeder. Under a calibration of the roughness measuring device 2 is understood according to the invention that a calibration process for calibrating the roughness meter 2 is performed. Under a calibration, however, the invention also means that it is checked whether the calibration of the roughness meter 2 meets predetermined requirements.

3 shows a detail in the area of the Raunormales 6 , The Raunormal 6 is plate-like in this embodiment and has a frame 12 on top of that, a calibration surface 14 framing. The calibration area 14 has predetermined or known roughness properties. Will the calibration area 14 by means of the roughness button of the feed device 10 sampled, as can be determined by sampling the calibration surface 14 measured data, the roughness of the calibration surface 14 measured and by comparison with the known or predetermined roughness of the calibration surface 14 be determined whether the roughness meter 2 is sufficiently calibrated. Possibly. Then a calibration of the roughness meter 2 on the basis of the Raunormales 6 be executed.

3 shows the Raunormal 6 in his calibration position, where the Raunormal 6 a part of the shelf 8th forms. As in 2 shown, can the feed device 10 so on the shelf 8th be deposited, that its roughness button on the calibration surface 14 located. Subsequently, a measurement process can be started, in which the feed device, the calibration surface 14 scans.

In the illustrated embodiment, the noise is normal 6 detachable or detachable with the base station 4 connected, the Raunormal 6 from the calibration position into a protective position is movable, in which the Raunormal is covered in the illustrated embodiment, almost completely of parts of the housing of the base station.

How out 4 it can be seen is in the illustrated embodiment, the noise standard 6 in a shaft-like recording 16 insertable, leading to the shelf 8th is open, taking the picture 16 is formed such that the Raunormal 6 rotated in the protection position to the calibration position by 180 ° in the recording 16 is included.

4 shows the Raunormal 6 in a position where it is from the shaft-like receptacle 16 pulled out. To bring the Raunormal in the protective position, it is rotated by 180 °, so that the calibration surface 14 then in 4 pointing down. In this orientation, the Raunormal can 6 then back to the recording 16 are then inserted, in which case the calibration surface 14 opposite surface facing upward and the calibration surface 14 in the shaft-like receptacle against contact and thus protected from damage.

The invention thus provides a roughness measuring device 2 available based on one at the base station 4 provided Raunormales 6 a calibration of the feed unit 10 allows, while the base station 8th is simple.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10334219 B3 [0004]
• US 7347048 B2 [0004]

Claims (5)

Roughness measuring device with a mobile feed device and with a base station having a roughness standard for calibrating the roughness measuring device, characterized in that at the top of the base station ( 4 ) a storage surface ( 8th ) is formed, on which the feed device ( 10 ) and that the Raunormal ( 6 ) movable at the base station ( 4 ) and in a calibration position a part of the storage surface ( 8th ) forms, such that when stored on the shelf surface feed device ( 10 ) a calibration of the roughness meter is executable. Roughness measuring device according to claim 1, characterized in that the Raunormal ( 6 ) is moved from the calibration position to a protective position in which the noise standard ( 6 ) at least partially, preferably completely or approximately completely, of parts of a housing of the base station ( 4 ) is covered. Roughness measuring device according to claim 1 or 2, characterized in that the Raunormal ( 8th ) from the base station ( 4 ) is removable. Roughness measuring device according to one of the preceding claims, characterized in that the Raunormal ( 8th ) into a shaft-like receptacle ( 16 ) is inserted, which is open to the shelf. Roughness measuring device according to claim 4, characterized in that the receptacle ( 16 ) is designed such that the Raunormal ( 6 ) in the protective position with respect to the calibration position rotated by 180 ° in the receptacle ( 16 ) is recorded.

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