DE102016106957A1 - measurement device - Google Patents

Abstract

The invention relates to a measuring device (1) and a method for measuring and / or checking the diameter of columns (100), wherein the measuring device (1) comprises at least one measuring device (1a) with two in a measuring plane (E) in one variable distance (A) arranged to each other probes (20a, 20b), each probe (20a, 20b) is mounted reciprocally movable against a restoring force and can be actuated from a starting position to a measuring position and a relative to the probes (20a , 20b) reciprocable along an axis (X) receptacle (10) for inserting a column (100), wherein the receptacle (10) together with the column (100) between the probes (20a, 20b) back and can be moved so that the probes (20a, 20b) abut against their restoring force respectively at opposite contact points (101a, 101b) of the outer shell (101) of the column (100) in the measuring plane (E).

Description

The invention relates to a method and a measuring device for measuring and / or checking the diameter of pipes and in particular columns.

In column racks, columns are usually used, to which certain technical requirements regarding dimensional accuracy, roundness and diameter must be set. This applies in principle to the manufacture or processing of parts such as shafts, pipes or columns, which must meet certain minimum requirements regarding their dimensional accuracy. In the production of such parts, test objects are removed from the current production for dimensional control and checked by means of gauges, such as micrometer screws or other measuring devices, by hand or semi-automatically on their dimensional accuracy and possibly also on their roundness. For longer test objects such as pipes and columns, this check is often carried out at several points along the axis of rotation of the test object.

Such a manual dimensional control is tedious, time consuming and sometimes error prone. In addition, any tolerance violations that have been detected must be manually documented and entered into the production process control.

From the DE 3 521 260 A1 For example, a method for determining the dimension of an elongated test object is known, wherein two diametrically opposed contour points of the test object illuminated by a line-shaped illumination source and each imaged an associated photodiode cell and the location of the intensity change of the line image on each photodiode cell and the distance of the two photodiode cells continuously determined as electrical size and from this the distance between the two illuminated contour points is determined.

However, such a review process is complex and expensive.

From the DD 250 756 A1 is another device for optically measuring strand-shaped cargo known, wherein a CCD camera is used for optical measurement.

In the context of checking dimensional stability, camera systems are increasingly being used in practice, which is expensive and complicated and does not easily bring about the desired results with regard to checking the dimensional accuracy of the outside diameter.

It is therefore an object of the present invention to overcome said disadvantages and in particular to provide a simple, inexpensive and universal method and a corresponding device to measure the diameter of columns, tubes or tubular goods and preferably to be able to check.

The aforementioned object is achieved by the feature combination according to claim 1 and by the combination of features of claim 16.

When measuring the diameter of columns in the context of the present invention, a method is understood in which either the absolute value of the diameter of the columns can be determined. "Checking the outer diameter" of columns in the sense of the present invention means the comparison of a measured diameter with that of a reference value of a nominal column diameter.

A basic idea of the present invention is to provide a measuring device on which a measuring device is provided with two measuring probes arranged at a variable distance from one another in a measuring plane, which also face toward the measuring device and to a reciprocating receiving device for a column. and forth movable, thus "floating" are stored, but in a direction transverse to the axis of movement of the recording device.

This has the consequence that in particular dimensional inaccuracies and manufacturing tolerances of the measuring device itself are eliminated by the inventive idea of "floating" storage of the probe.

According to the invention it is therefore provided that at least one measuring device are provided with two measuring probes arranged in a measuring plane at a variable distance from each other with measuring heads, which are mounted so to speak "floating", d. H. preferably stored recoverable against a spring force, are.

If one leads a column to be measured along a measuring line past the diametrically opposed measuring probes, the probes' heads rest against a diametrically opposite outer side of the outer casing of the column. The resulting by the resilient mounting of the probe distance between the two probes thus determines the outer diameter of the column, if the probes bear against diametrically opposite points of the column.

Pressing the column in the aforementioned measuring plane from the column beginning to the end of the column along the spring-loaded probe, so also inaccuracies and tolerances of the device are intercepted during the operation, since both probes move equally with relative, and thereby the outer diameter of the column can capture, even if the trajectory z. B. runs obliquely due to an axle tolerance.

• a) wenigstens eine Messeinrichtung mit zwei in einer Messebene in einem veränderlichen Abstand zueinander angeordnete Messtaster,
• b) wobei jeder Messtaster entgegen einer Rückstellkraft hin und her bewegbar gelagert ist und von einer Ausgangsposition in eine Messposition betätigt werden kann,
• c) eine relativ zu den Messtastern entlang einer Bewegungs-Achse X hin und her bewegbare Säulenaufnahme zur Aufnahme bzw. zum Einlegen einer Säule, wobei die Aufnahme zusammen mit der Säule zwischen den Messtastern hin und her bewegt werden kann, so dass die Messtaster entgegen ihrer jeweiligen Rückstellkraft jeweils an gegenüberliegenden Anlagepunkten des Außenmantels der Säule in der besagten Messebene anliegen.

According to the invention, therefore, there is provided a measuring device for measuring and / or checking the diameter of columns, the measuring device comprising:

• a) at least one measuring device with two in a measuring plane in a variable distance from each other arranged probe,
• b) wherein each measuring probe is mounted so as to be movable back and forth against a restoring force and can be actuated from a starting position into a measuring position,
• c) a relative to the probes along a movement axis X movable back and forth column receptacle for receiving or inserting a column, the recording can be moved together with the column between the probes back and forth so that the probes against their respective restoring force in each case abut against opposite contact points of the outer jacket of the column in said measuring plane.

According to the invention, the "floating bearing" of each probe is accomplished in that the probe is mounted on a holding device of the measuring device preferably resiliently against a restoring force and can be actuated from the above-mentioned starting position in a measuring position.

If, therefore, a column with a diameter d is placed between the two measuring probes, then the measuring probes are actuated from their initial position into the measuring position, in which each measuring probe rests on the outer casing of the column with spring force. The resulting between the heads of the probe distance thus defines the diameter of the column, if the measuring plane is chosen appropriately appropriate, so that the measuring heads abut at diametrically opposite points on the outer surface of the column.

In this respect, in a preferred embodiment of the invention, it is provided according to the invention that the measuring probes of the measuring device or the entire measuring device are arranged to be adjustable in height on the measuring device. In this way, it is possible to bring both probes diametrically opposite in a desired measurement plane to move the aforementioned reciprocating recording together with a column between the probes back and forth.

It is particularly advantageous if the measuring device consists of a base console on which the aforementioned recordings can be moved back and forth along an axis X so that it can be moved back and forth on an actuating axis of the measuring device via a carriage, more preferably on a guide track.

It is also advantageous if the absolute position of the measuring probes are arranged to be adjustable in their distance transversely to the axis X of the measuring device, preferably adjustable on a holding part of the measuring device, more preferably arranged on a height-adjustable holding part of the measuring device. In this way, the distance between the probes of the two probes can be adjusted to check columns with different diameters.

According to the method according to the invention, in a preferred embodiment, the distance between the measuring heads of the two probes is set to a defined nominal dimension of the outer diameter of a column to be tested. It is preferred if the distance is chosen to be slightly smaller than the nominal diameter of the column to be tested, so that the measuring heads of the probes are actuated against their restoring force due to their resilient bearing from its initial position to its measuring position and spring-loaded against the outer shell of the column.

In a further advantageous embodiment of the present invention, it is provided that a second measuring device is also provided with two measuring probes arranged at a variable distance from one another in a measuring plane, which is preferably positionally positionable on the measuring device by at least one trajectory X1 along the direction of the axis X. ,

This is particularly advantageous for measuring columns that z on its outer shell. B. have a projecting gutter or collar, which protrudes beyond the outer diameter of the column.

In this way, the outer diameter of a column to be checked in a first region of the column can be checked up to the collar by means of the first measuring device, while moving the recording together with the column to the second measuring device, the further section or outer diameter in the second section of Column can be checked by the second measuring device. In other words, can the column are moved back and forth together with the receptacle between the first and second measuring device and the respective section to be checked between the measuring heads of the probes of the respective measuring device are brought.

Such an embodiment is also advantageous, although columns of different lengths must be checked, in which the travel of the recording with its carriage along the axis X should be adjusted according to the dimensions of the column to be tested.

In this respect, it is particularly advantageous if the first measuring device has an upwardly open construction between the two probes, while the second measuring device, namely the portable adjustable measuring device, has a bridge-shaped construction, on each of which on the left and right sides spaced transversely to Axis X, the aforementioned probes are arranged diametrically opposite one another.

In a further advantageous embodiment of the invention, it is provided that the position of the measurement planes of the probe relative to the position of the recording is adjustable, so that the probe pairs bear with their measuring heads at immediately diametrically opposite contact points of the outer shell of the column, which is the outer diameter of a column to be measured define. In this way, a line measurement along the jacket of the column is possible by moving the column along with the receptacle along the axis X back and forth.

It is also advantageous if the measuring probes of the second portable measuring device are also height-adjustable, in particular height-adjustable together in a common measuring plane, attached to the measuring device. It is further provided according to the invention that the probes of the second measuring device are also mounted or adjustable in height adjustable on the measuring plane of the two probes of the first measuring device.

In a further advantageous embodiment of the invention it is provided that the two probes of both the first and the second measuring device are each mounted transversely to the axis X with their measuring heads at opposite positions or can be brought to each other via adjusting devices in such a diametrically opposite position.

The measuring plane E is determined by the respective two opposite measuring heads, which represent two points in a plane, and the connecting lines between the two measuring heads, which runs as a line through the measuring plane E and in continuation of the line imagined by the respective measuring heads parallel to the axis X lie.

In a further advantageous embodiment of the invention it is provided that a detection device, which can detect the distance of the measuring heads of at least one pair of each of a column to be measured diametrically opposite probe is provided. It is also advantageous if each measuring device is connected to a detection device in order to be able to detect the determined distance between the measuring heads of the respective measuring probes.

In a further particularly advantageous embodiment of the invention, a display device is further provided, preferably an analog display device, to the respectively detected distance from two opposite measuring heads of the corresponding pair of probes (thus the outer diameter of the column to be measured) on a display, more preferably on an analog display while a column to be measured is moved along the axis X together with the receptacle.

It is important to ensure that the adjustment of the height of the measuring heads is selected so that they lie in the measuring plane E, so that the measuring level corresponds equally to an imaginary central section plane through the column.

In other words, this means that in each case the height of the measuring heads is suitably set to the outer diameter of the column to be measured, so that the measuring heads also lie in the correct position of the outer jacket of the column in order to detect the outer diameter of the column can.

By the previously selected analog display, it is particularly easy for a person to determine deviations from the outer diameter (actual diameter) compared to the target diameter. Namely, if the pillar is properly moved along the measuring device and detection of unauthorized deviation occurs, the pointer of an analog display fails with respect to the set target scale value and the deviation is immediate and easy for the person performing the measurement the display recognizable.

Thus, almost synchronously with the movement of the column along with the recording, the outer diameter along the column can be detected.

In a column with a gutter or a protruding collar, the outer diameter of the column, as described above, in each case in a first section by means of the first Determine detection device and in another section by means of the other detection device in the manner described above, without the column would have to be removed from the recording or even rotated.

By moving the recording together with the column to be measured, the probes perform a line measurement along the outer surface of the column.

Other advantageous developments of the invention are characterized in the subclaims or are shown in more detail below together with the description of the preferred embodiment of the invention with reference to FIGS.

Show it

1 a perspective view of an embodiment of a measuring device according to the invention,

2 a further perspective view of the measuring device according to 1 .

3 a side view of the embodiment according to 1 and 2 .

4 a plan view of the measuring device according to 1 and

5 a detailed view of a measuring device 1 in a first front view,

6 another view of the measuring device 5 .

7 a sectional view through the other measuring device 1 , and

8th another view of the other measuring device in a bottom view.

In the following, the invention of an embodiment of the present invention will be described with reference to FIGS 1 to 8th described in greater detail, wherein like reference numerals refer to the same functional and / or structural features.

In the 1 and 2 are perspective views of an embodiment of a measuring device according to the invention 1 for measuring and checking the diameter of columns to be measured 100 shown.

The measuring device 1 consists essentially of an elongated basic console 3 formed from a base plate 3a and a central pier 3b from the base plate 3a is upwards away.

On the basic console 3 is a movable along the axis X back and forth recording 10 for receiving a column 100 , On the basic console 3 is this a leader body 15 applied, on which the recording 10 over sledges 14 guided back and forth on the guide body 15 along the axis X is movable.

Next is in the 1 and 2 to realize that a first measuring device 1a at the basic console 3 is provided. Further, one along the distance X1 in the 4 reciprocating second measuring device 1b at the measuring device 1 appropriate.

The measuring device 1a will be later related to the 7 and 8th explained in more detail while the measuring device 1b in connection with the 5 and 6 is explained in more detail.

In the 1 is also an example of a detection device 30 and a display device 40 shown, wherein the present display device 40 an analog display device with an analog display 41 represents.

The following is the first measuring device 1a as in the 7 (on average) and in the 8th described in detail in the subview described.

The measuring device 1a has a height adjustment device 80 on. The height adjustment device 80 is used to adjust the two probes 20a . 20b , in each case by the height adjustment device 80 trained holding plates 80a are attached. As in the 1 to 4 recognizable, are the two probes 20a . 20b within a measuring plane E diametrically opposite. The distance between the measuring heads 21a . 21b the two probes 20a . 20b is defined as the distance A. As in the 4 shown, the axis Y defines the direction which is transverse to the axis X. The probes 20a . 20b the first measuring device 1a are spring loaded on recordings 80b on the holding plates 80a the height adjustment device 80 stored.

Further, an adjusting device 86 for each probe 20a . 20b provided to the relative distance of the opposing probes 20a . 20b to be able to adjust. These are guides 80c at the measuring device 1a along which the respective probe 20a respectively. 20b adjusted back and forth along the axis Y and by means of the adjusting device 86 or a screw can be fixed.

Essential to the invention is that each probe or each head of a probe 20a . 20b against a restoring force preferably, as shown here, against a spring 80d along the Y axis is mounted reciprocally movable over a defined travel.

As in the sectional view of 7 can be seen, the height adjustment device 80 a rack 81 as well as a gear 82 on to the measuring device 1a to adjust in height. As a result, the device is via a guide column 83 by means of a socket 84 , preferably a sintered bush, stored. By means of an adjusting wheel 85 let the gears go 82 along the rack 81 turn, causing the at the socket 84 illustrated bearing block with the holding plates 80a is movable up and down. The gears 82 are about a wave 82a with the thumbwheel 85 connected. The wave 82a is doing in the bearing blocks 84 stored. In the in the 8th shown lower bearing block is the bearing 82b into which the wave 82a into running. The gears 82 are by cylindrical pins 82c held. Furthermore, a second wheel is 85 (please refer 8th ) provided as a fixing wheel to set the set height or the height adjustment device 80 to fix in the set height.

In the embodiment shown here, it is provided that the two probes 20a . 20b together, and that together, via a coupling device, preferably via a common bearing block, are adjusted in height, so as to ensure that the mutually aligned in height measuring heads of the probe always diametrically opposite and only the absolute height of the measuring plane e by changing the height of the measuring device 1a changed.

Following a similar principle is the second measuring device 1b built up.

Regarding 4 it can be seen that the second measuring device 1b along the axis X along a travel range X1 reciprocally movable on the measuring device 1 is stored. For this purpose, a guide rail 90 at the measuring device 1 provided on the the measuring device 1 is preferably arranged to move back and forth via a carriage. It is further provided that after adjusting the position of the measuring device 1b this can be fixed in their position.

In the 5 and 6 becomes the structural design of the measuring device 1b shown in more detail in two frontal views.

The measuring device 1b also has a mounting device, namely the mounting device 70 , and a height adjustment device 80 on. The mounting device 70 includes a headband 71 which is formed like a bridge substantially in U-shape and over that portion of the measuring device 1 protrudes, so that the at the measuring device 1b provided probe 20a . 20b diametrically opposite each left and right, that is transversely to the X direction in the Y direction spaced to accommodate 10 are arranged.

Laterally are also guide body 72 arranged on which holding plates 73 are attached. On the holding plates 73 are support brackets for the probe 20a . 20b provided, which via an adjustment device 75 with the holders 73 can be mounted displaceably in the Y direction. By means of the adjustment device 75 Therefore, the position of each probe can be 20a . 20b along the Y axis within the possible adjustment range. The two probes 20a . 20b the second measuring device 1b are also mounted against a restoring force in the direction of the axis Y back and forth and can be operated from a starting position to a measuring position. That means the measuring heads 21a . 21b the probe 20a . 20b each opposite to a spring 80d are stored, so that the measuring heads via a defined travel along the axis Y are movable back and forth. According to the height of the spring force of the springs 80d results in the contact force with the measuring heads on the outer jacket 101 the column 100 issue.

As soon as the probes 20a . 20b over the height adjustment device 80 are set correctly in height and in their distance corresponding to the nominal dimension of the diameter of the column to be measured 100 are adjusted, lie the measuring heads 21a . 21b at the investment points 101 . 101b of the outer jacket 101 the column 100 in the measuring level E at the column 100 at.

The distance A can be adjusted by means of the adjusting device 74 between the two probes 20a . 20b preferably set by means of a calibrated measuring tube. It is preferable to make sure that the measuring heads 21a . 21b the respective opposite probe 20a . 20b equidistant from the column center of a column 100 are located. The recording 10 has a V-shaped or prism-shaped groove 12 on, which is designed to be a pillar 100 can be inserted in the groove. The groove is preferably as a ground groove in the receptacle 10 designed to keep the manufacturing tolerances small.

A further aspect of the present invention relates to a method according to the invention for measuring or checking the diameter of columns.

The inventive method is provided so that a column to be measured 100 on the recording 10 the measuring device 1 is hung after the probes 20a . 20b the first measuring device 1a according to the measuring level E, which through the center of the column 100 should run, have been adjusted. Thereafter, the column to be measured 100 together with the movable recording 10 within the measuring plane E, and moved along the measuring probes, whereby the measuring heads of the measuring probes are subjected to spring force at the contact points during the measuring process 101 . 101b the column 100 issue. By means of a line measurement is therefore along the entire measuring section on the outer jacket 101 the column 100 the diameter of this column detected, preferably by means of a detection device 30 which transmits the data to a display device 40 outputs.

During the procedure (thus synchronously with the reciprocation of the recording 10 with the inserted column 100 ), a person can easily check the dimensional accuracy of the diameter of the column.

Another aspect of the present method can be seen in that further the diameter at the other end of the column 100 by means of the second measuring device 1b can be recorded or checked. It can also be provided that the diameter in the first measuring section, which with the first measuring device 1a is detected, from the diameter in the second column section, which with the second measuring device 1b is distinguished.

In a further embodiment of the invention, it can be provided that both the detection device and the measuring device work fully automatically and a signal is output automatically in the event of deviation from actual values to desired values.

The invention is not limited in its execution to the above-mentioned preferred embodiments. Rather, a number of variants is conceivable, which makes use of the illustrated solution even with fundamentally different-type execution. Thus, for example, be provided that in dirt-prone environments a bellows is guided over the guide rails, so that dirt is kept away from the guide rails.

Furthermore, it could be provided that further measuring devices along the axis X on the measuring device 1 are provided to measure other columns of different diameters without adjustment directly with the same measuring device.

The invention is not limited in its execution to the above-mentioned preferred embodiments. Rather, a number of variants is conceivable, which makes use of the illustrated solution even with fundamentally different types of use.

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 3521260 A1 [0004]
• DD 250756 A1 [0006]

Claims (15)

Measuring device ( 1 ) for measuring and / or checking the diameter of columns ( 100 ), wherein the measuring device ( 1 ) comprises: a) at least one measuring device ( 1a ) with two in a measuring plane (E) at a variable distance (A) arranged to each other probes ( 20a . 20b ), b) each probe ( 20a . 20b ) is movably supported counter to a restoring force and can be actuated from a starting position into a measuring position, c) a relative to the probes ( 20a . 20b ) reciprocable recording along an axis (X) ( 10 ) for inserting a column ( 100 ), the recording ( 10 ) together with the column ( 100 ) between the touch probes ( 20a . 20b ) can be moved back and forth so that the probes ( 20a . 20b ) against their restoring force respectively at opposite contact points ( 101 . 101b ) of the outer jacket ( 101 ) of the column ( 100 ) lie in the measuring plane (E). Measuring device ( 1 ) according to claim 1, characterized in that the measuring probes ( 20a . 20b ) of the measuring device ( 1a ) adjustable in height at the measuring device ( 1 ) are arranged. Measuring device ( 1 ) according to claim 1 or 2, characterized in that the measuring probes ( 20a . 20b ) of the measuring device ( 1a ) are arranged adjustable in their distance (A) viewed transversely to the axis (X). Measuring device ( 1 ) according to one of the preceding claims, characterized in that a second measuring device ( 1b ) with two in a measuring plane (E) at a variable distance (A) arranged to each other probes ( 20a . 20b ) is provided, which is preferably at least one trajectory (X1) along the direction of the axis (X) movable on the measuring device ( 1 ) is positionable. Measuring device ( 1 ) according to claim 4, characterized in that the second pair formed from two in a measuring plane (E) opposite arranged probe ( 20a . 20b ) at one of the first pair of probes ( 20a . 20b ) spaced position, wherein the second pair of second probes ( 20a . 20b ) preferably opposite the first pair of the first two probes ( 20a . 20b ) can be slidably positioned along the axis (X). Measuring device ( 1 ) according to one of the preceding claims, characterized in that position of the measuring plane (E) of the probe ( 20a . 20b ) relative to the location of the photograph ( 10 ) is adjustable so that the probes ( 20a . 20b ) with their measuring heads ( 21a . 21b ) at directly diametrically opposite contact points ( 101 . 101b ) of the outer jacket ( 101 ) of the column ( 100 ), the outer diameter (D) of a column to be measured ( 100 ) define. Measuring device ( 1 ) according to one of the preceding claims, characterized in that the measuring probes ( 20a . 20b ) of the second portable measuring device ( 1b ) height-adjustable, in particular together in a common measuring plane (E) adjustable in height on the measuring device ( 1 ) are mounted. Measuring device ( 1 ) according to one of the preceding claims, characterized in that the two probes ( 20a . 20b ) both the first and the second measuring device ( 1a . 1b ) each transverse to the axis (X) with their measuring heads ( 21a . 21b ) are attached to opposite positions or can be brought via adjustment devices in such a position. Measuring device ( 1 ) according to one of the preceding claims, characterized in that the receptacle ( 10 ) for the column ( 100 ) at least one position a depression, interruption or recess ( 11 ) into which one of the column ( 100 ) protruding collar ( 102 ) of the column ( 100 ) when a column ( 100 ) with a collar ( 102 ) on the recording ( 10 ) is launched. Measuring device ( 1 ) according to one of the preceding claims, characterized in that the receptacle ( 10 ) a V-shaped or prism-shaped groove ( 12 ) into which a column ( 100 ), preferably a ground groove. Measuring device ( 1 ) according to one of the preceding claims, characterized in that the receptacle ( 10 ) by means of a guide carriage ( 14 ) on a guide body ( 15 ) of the measuring device ( 1 ) is mounted movably along the axis (X). Measuring device ( 1 ) according to one of the preceding claims, characterized in that further comprises a detection device ( 30 ), which determines the distance (A) of the measuring heads ( 21a . 21b ) at least one pair of each of a column to be measured diametrically opposite probes ( 20a . 20b ), is provided. Measuring device ( 1 ) according to one of the preceding claims, characterized in that furthermore at least one display device ( 40 ) is provided, preferably an analog display device ( 40 ) to the respectively detected distance (A) from two opposite measuring heads ( 21a . 21b ) of the corresponding pair of probes ( 20a . 20b ) on a preferably analog display, preferably on an analog pointer display ( 41 ) while a column to be measured ( 100 ) together with the recording ( 10 ) is moved along the axis (X). Measuring device ( 1 ) according to one of the preceding claims, characterized in that the receptacle ( 10 ) between a first pair of opposing probes ( 20a . 20b ) and a second pair of opposing probes ( 20a . 20b ) is movable back and forth so that the diameter of a first column section ( 103 ) with the first pair of opposing probes ( 20a . 20b ) and a second column section ( 104 ) with the second pair of opposing probes ( 20a . 20b ) and / or checked. Measuring device ( 1 ) according to one of the preceding claims, characterized in that a pair of probes ( 20a . 20b ) relative to a column to be measured ( 100 ) so able on the measuring device ( 1 ) are adjustably mounted so that the receptacle ( 10 ) together with the column ( 100 ) between the touch probes ( 20a . 20b ) can be moved back and forth so that the probes ( 20a . 20b ) or the probe heads ( 21a . 21b ) each along an opposing investment line on the outer shell of the column ( 100 ) are moved.

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