FR2709829A1 - Eddy current control probe for penetration into a slot. - Google Patents

Abstract

To allow trouble-free control also in the area of a step (6) of the slot (1), without the risk of catching this step, the coil support (8) is arranged parallel to the probe body (7) . Means (18, 18a) are provided for varying the distance between the spool support (8) and the probe body (7) while maintaining them in parallel positions. At the free end of the probe body (7) is arranged a spacer spring (11) located in front of the spool support (8). The spool support (8) has, on its side remote from the spacer spring (11), a bevel (16) tapering towards this spring (11). Application: for example to the control, as regards the presence of cracks, of a tube forming a narrow annular slot with a coaxial internal sleeve.

Description

EDDY CURRENT CONTROL PROBE FOR

PENETRATION IN A SLOT

  The invention relates to an eddy current control probe for penetration into a slot, comprising a strip-shaped probe body and a

  coil support associated with the probe body.

  Such an eddy current control probe

  is known from application DE-A-42 15 700.5-52. The extreme

  free mite of this probe constitutes the support of

  coil. This document does not provide further details.

  surrounding the structure of the head portion of the probe.

  The use of this probe in a slot provided with a step is obviously not possible because the probe would abut against the step and would possibly be

  damaged. In addition, there is a general lack of guidance.

dage of the probe in the slot.

  The problem therefore arises of providing an eddy current control probe of the type defined above which, in addition to exact guiding of the probe in the slot, allows flexible adaptation to slot widths.

  varying in the direction of the depth of the slot.

  This object is achieved, according to the invention, by the fact that the coil support is arranged parallel to the probe body, that means are associated with the coil support and / or the probe body for varying the distance between these components. while maintaining their parallel positions, that a spacer spring located in front of the coil holder is associated with the end

  free of the probe body and that the coil holder pre-

  feels, on its side facing the spacer spring,

  a bevel tapering towards the spreader spring

  is lying. The spacer spring is used to guide the probe body independently of the coil holder in a slot to be checked. As soon as, when inserting the eddy current control probe into the slot, the bevel of the coil holder comes into contact with an edge of the slot, the coil holder is moved radially inward until 'so that the bevel has passed the edge and the spool support, by its outer surface carrying the spool, can slide along the wall of the slot. If the slot is

  provided with a shoulder or step leading to a retre-

  cisse of the slit, the coil support, by striking the edge at which the narrowing of the slit begins, further decreases its distance from the probe body, so that it can also be engaged

in the narrowed slot.

  According to a preferred embodiment, the coil is embedded, directly at the end of the bevel, in

  the parallel area of the spool holder.

  This arrangement ensures that even in the bleacher area, due to the smaller cross-section, control

  practically without gap is possible.

  The means for varying the reciprocal distance comprise two stirrups arranged in the manner of a parallelogram between the probe body and the coil support, at least one branch spring and a stop

associated with the probe body.

  The stirrups provide parallel guidance, while

  that the branch spring provides a per-

  between the probe body and the coil holder.

  The stopper limits the movement of the stirrups.

  According to another embodiment, the probe body has a passage having a section at least equal to that of the protruding part below the

reel holder bevel.

  Thus, the projecting part can be retracted in the passage, which makes it possible to reduce to a value

  minimum the distance between the probe body and the

coil port.

  To prevent unwanted blockage of the

  coil when removing the control probe

  eddy rants of the slot, the spool holder is

  made, at its end remote from the spreader spring

  ment, in the form of a slide deviating in direction

tion of the probe body.

  Referring to the accompanying schematic drawings, we

  will describe below in more detail an example of reali-

  sation of an eddy current control probe according to the invention; in the drawings: Figure 1 is a side view of an eddy current control probe with a slit indicated in phantom; Figure 2 is a view taken in the direction of arrow II in Figure 1; and Figure 3 is a section along III-III of the

Figure 1.

  Figure 1 shows in broken lines a part

  a slot 1 in which a control probe with

  rants de Foucault 2 can be engaged along arrow 4 in order to check the wall for the presence of cracks. The distance between the walls 3 and 5 and therefore the width of the slot amounts for example to

  5 mm in the entry area and 3 mm after the step 6.

  The slot 1 can also be an annular slot, the wall 3 forming part of a tube to be checked and the wall part of a coaxial inner sleeve. As can be recognized in FIGS. 2 and 3, a strip-shaped probe body 7 consists of a part 7a receiving a coil support 8 and a part 7b, the two parts being held together by

  solder points 9. At the free end of the

  tie 7a, a spacer spring 11 is fixed by welding points 10. This spring leaf fixed in

  overhang is designed to contribute to the

  dage of the probe in the slot of predetermined width.

  The coil support 8 is associated with part 7a

  of the probe body 7, in series with the spreader spring

  ment 11. The coil support 8 has a sheet metal plate 12 provided with two bent tabs 13, 13a on each longitudinal side. A holding element 14 receives a coil 15 and is fixed to the sheet metal plate 12. Its front side is produced in the form of a bevel 16 tapered towards the spacer spring. At the end of the sheet metal plate 12 remote from the bevel, two sliders 17 in the form of tongues protrude from the plate 12,

  by being curved in the direction of the probe body 7.

  On the bent legs 13, 13a opposite in pairs are arranged two stirrups 18, 18a each of which is pivotally mounted, by its bent ends, in a crosspiece 19, 19a associated with the part 7a. The cross member 19 is associated with a stop 20 for limiting the movement of the stirrup 18. The part 7a receives two branch springs 21, the free branch of which is applied against the lower side of the coil support 8. A passage 22

  in part 7a of the probe body 7 has a sec-

  tion at least equal to that of a party 23 making

  projection on the support body 7 below the bevel.

  A line 24 leads from the coil 15 along a groove of the probe body 7 to an operating station, not shown. The brackets 18, 18a, the sheet metal plate 12 and the probe body 7 form a parallelogram, so that whatever the distance between the coil holder 8 and the probe body 7, these two elements

are always parallel.

  When the eddy current probe is engaged in the direction of arrow 4 deeper into the slot 1, according to FIG. 1, the coil support 8, when the bevel 16 comes into contact with an edge 26 of the wall 3, is close to the probe body, due to its parallelogram mounting, and its coil 15 comes

  in application against the wall 3 of the slot 1. The guide

  of the eddy current control probe is

  also ensured after passage of step 6 by the res-

  spacer 11. When penetrating more pro-

  base of the probe 2, the bevel 16 makes it possible to cross the step 6, with further reduction of the distance between the coil support 8 and the probe body 7, and the control is continued in the narrowed slot. The

  projection 23 then enters passage 22, for

  see also check the narrowed slot with a width of about 3 mm. The branch springs 21 ensure, whatever the width of the slot, a sufficient pressing pressure of the coil support 8 against the wall 3. Cracks in the region of the step 6 can

  be detected with sufficient accuracy.

Claims (5)

  1. Eddy current control probe for penetration into a slot (1), comprising a strip-shaped probe body (7) and a coil holder (8) associated with the probe body, characterized in that the spool holder (8) is arranged parallel to the   probe body (7), that means are associated with the support   coil port and / or probe body to vary the distance between these components while maintaining their   parallel position, that a spacer spring (11) pre-   yielding the spool holder (8) is arranged at the end   free mite of the probe body (7), and that the coil support has, on its side facing the spacer spring, a bevel (16) tapering towards the spacer spring.   2. Eddy current control probe according to claim 1, characterized in that the coil (15) is embedded directly at the end of the bevel (16) in the parallel zone of the coil support (8).   3. Eddy current control probe according to claim 1, characterized in that the means for varying the distance comprise two   stirrups (18, 18a) arranged in the manner of a parallel   gram between the probe body (7) and the coil holder (8), at least one branch spring (21) and one   stop (20) associated with the probe body (7).   4. Eddy current control probe according to claim 1, characterized in that the probe body (7) has a passage (22) having a section at least equal to that of the projection (23) which protrudes from the support coil (8) below the bevel (16). 5. Next eddy current control probe   any one of claims 1 to 4, characterized   by the fact that the coil support (8) is made, at its end remote from the spacer spring (11),   in the form of a slide (17) deviating in direction tion of the probe body (7).