CN108917812B - Detector adjustment device and method of operating the same - Google Patents

Abstract

The application provides a detector adjusting device and an operation method thereof, wherein the detector adjusting device is used for adjusting a detector of a pipeline, and comprises the following components: a fuselage assembly; the base is connected with the machine body component in a replaceable manner and is provided with an arc surface matched with the cylinder wall of the detector; and the reference piece is movably arranged on the machine body assembly, the distance between the reference piece and the base is adjustable, and the reference piece is provided with a reference surface for measuring the detection arm of the detector. By the technical scheme provided by the application, the problem that the detector adjusting device in the prior art has no universality can be solved.

Description

Detector adjustment device and method of operating the same

Technical Field

The application relates to the technical field of pipeline detection, in particular to a detector adjusting device and an operation method thereof.

Background

The detector that detects oil gas pipeline need use detector adjusting device to carry out the determination of benchmark value when using, and the adjusting device who is used for the detector that oil gas pipeline detected at present is mostly simple and easy welding an organic whole. The existing detector adjusting device is fixed in structure, cannot be adjusted and does not have universality.

Disclosure of Invention

The application provides a detector adjusting device and an operation method thereof, which are used for solving the problem that the detector adjusting device in the prior art does not have universality.

In order to solve the above-mentioned problems, according to an aspect of the present application, there is provided a detector adjusting apparatus for adjusting a detector of a pipe, the detector adjusting apparatus comprising: a fuselage assembly; the base is connected with the machine body component in a replaceable manner and is provided with an arc surface matched with the cylinder wall of the detector; and the reference piece is movably arranged on the machine body assembly, the distance between the reference piece and the base is adjustable, and the reference piece is provided with a reference surface for measuring the detection arm of the detector.

Further, the body component is provided with a first groove, a first boss is arranged on the base and detachably arranged in the first groove, the detector adjusting device further comprises a first connecting piece, the first connecting piece is movably arranged on the body, and when the first boss is positioned in the first groove, the first connecting piece is clamped with the first boss.

Further, the body component is provided with a first mounting hole, the first mounting hole is communicated with the first groove, the first connecting piece is an elastic piece, the first connecting piece is arranged in the first mounting hole in a telescopic mode, the first connecting end of the first connecting piece protrudes out of the first groove, the first boss is provided with a first clamping groove, and the first connecting end is clamped with the first clamping groove.

Further, the fuselage assembly includes: the base is connected with the frame body; and the driving part is arranged on the frame body, is connected with the reference piece and is used for driving the reference piece to move.

Further, the driving section includes: the screw rod is rotatably arranged on the frame body, the reference piece is provided with a threaded hole, and the threaded hole is connected with the screw rod in a matching way.

Further, the driving section further includes: and the stop piece is movably arranged on the frame body and can fix the screw rod to prevent the screw rod from rotating.

Further, the fuselage assembly further comprises: and the guide part is arranged on the frame body and used for guiding the reference piece.

Further, have the second boss on the benchmark piece, the support body includes: the base is connected with the bottom plate; the top plate is arranged at intervals with the bottom plate; the two ends of the first upright post are respectively connected with the bottom plate and the top plate; the second stand is arranged at intervals with the first stand, two ends of the second stand are respectively connected with the bottom plate and the top plate, a guide groove is formed in the second stand, a guide part is formed in the guide groove, and the second boss can slide in the guide groove.

Further, the reference member includes: a body movably disposed on the body assembly; the base plate is detachably connected with the body, and the reference surface is positioned on the base plate.

Further, the body has a plurality of mounting locations, and the substrate can be connected to any one of the plurality of mounting locations.

Further, the body has the second recess, is provided with the third boss on the base plate, and third boss detachably sets up in the second recess, and detector adjusting device still includes the second connecting piece, and the second connecting piece movably sets up on the body, and when the third boss was located the second recess, second connecting piece and third boss joint.

Further, the body is provided with a second mounting hole, the second mounting hole is communicated with the second groove, the second connecting piece is an elastic piece, the second connecting piece is arranged in the second mounting hole in a telescopic mode, the second connecting end of the second connecting piece protrudes out of the second groove, the third boss is provided with a second clamping groove, and the second connecting end is clamped with the second clamping groove.

Further, the machine body component is provided with a graduated scale, and the graduated scale is used for marking the corresponding positions of the reference piece and the detector with the preset model.

According to another aspect of the present application, there is also provided a method of operating a detector adjustment device, the detector adjustment device being provided as described above, the method of operating comprising the steps of: step S10: setting the position of a reference piece of the detector adjusting device on a body component of the detector adjusting device according to the model of the detector to be adjusted; step S20: the reference value of the feeler arm of the detector is determined using the detector adjustment means.

Further, the method comprises the following steps before the step S10: step S01: selecting a base of a detector adjustment device that is adapted to the detector; step S02: the base is connected to the fuselage assembly.

Further, the step S20 specifically includes the following steps: step S21: abutting a base of the detector adjusting device with the wall of the detector; step S22: moving the detector adjustment means to bring the reference member into contact with the probe arm; step S23: the reference value of the feeler arm is read and recorded.

Further, the following steps are included between step S22 and step S23: step S22a: the detector adjustment means is pressed to bring the base into full contact with the cartridge wall.

Further, after step S20, the following steps are included: step S30: steps S10 and S20 are repeated to determine a reference value for each probe arm of the detector.

By applying the technical scheme of the application, the base is arranged to be connected with the machine body component in a replaceable way, so that the corresponding base can be selected according to the model of the detector to be regulated, and the reference piece is movably arranged on the machine body component, so that the position of the reference piece on the machine body component can be regulated according to the model of the detector to be regulated. Therefore, the detector adjusting device provided by the application can be suitable for detectors with different models or specifications, and has universality.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application. In the drawings:

FIG. 1 shows a schematic structural view of a detector adjustment device provided by an embodiment of the present application;

FIG. 2 shows a left side view of the detector adjustment apparatus of FIG. 1;

FIG. 3 shows a cross-sectional view of the detector adjustment apparatus of FIG. 2 in the A-A position;

FIG. 4 shows a cross-sectional view of the fuselage assembly of FIG. 1;

FIG. 5 shows a schematic structural view of the body of the reference member of FIG. 1;

FIG. 6 shows a cross-sectional view of the body of FIG. 5 in the B-B position;

FIG. 7 shows a schematic structural view of a base plate of the reference member of FIG. 1;

fig. 8 shows a cross-sectional view of the substrate of fig. 7 in the C-C position.

Wherein the above figures include the following reference numerals:

10. a fuselage assembly; 11. a first groove; 12. a frame body; 121. a bottom plate; 122. a top plate; 123. a first upright; 124. a second upright; 13. a driving section; 131. a screw rod; 132. a stopper; 21. a base; 22. a first boss; 31. a reference member; 31a, threaded holes; 311. a body; 311a, a second groove; 312. a substrate; 313. a third boss; 32. a second boss; 40. a first connector; 50. and a second connecting piece.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. The following description of at least one exemplary embodiment is merely exemplary in nature and is in no way intended to limit the application, its application, or uses. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

As shown in fig. 1 to 8, an embodiment of the present application provides a detector adjustment apparatus for adjusting a detector of a pipe, the detector adjustment apparatus comprising: a fuselage assembly 10; a base 21, which is replaceably connected to the body assembly 10, the base 21 having an arc surface that mates with the detector cylinder wall; a reference member 31 is movably provided on the body assembly 10, the distance between the reference member 31 and the base 21 is adjustable, and the reference member 31 has a reference surface for measuring the probe arm of the detector.

By applying the technical solution of the present embodiment, the base 21 is configured to be interchangeably connected with the body assembly 10, so that the corresponding base 21 can be selected according to the type of the detector to be adjusted, and, since the reference member 31 is movably disposed on the body assembly 10, the reference member 31 can also be respectively adjusted to the upper and lower reference positions on the body assembly 10 according to the type of the detector to be adjusted. Therefore, the detector adjusting device provided by the embodiment can be suitable for detectors with different models or specifications, and has universality. The detector adjusting device can reduce the cost of the device, and the structure of the detector adjusting device is convenient to operate.

Specifically, the body assembly 10 has a first groove 11, a first boss 22 is disposed on the base 21, the first boss 22 is detachably disposed in the first groove 11, the detector adjusting apparatus further includes a first connecting member 40, the first connecting member 40 is movably disposed on the body, and when the first boss 22 is disposed in the first groove 11, the first connecting member 40 is clamped with the first boss 22. So set up, the detachable connection of base 21 and fuselage subassembly 10 can be realized through the cooperation of first recess 11, first boss 22 and first connecting piece 40 to, the mode of joint is convenient for operate.

As shown in fig. 3, the body assembly 10 has a first mounting hole, the first mounting hole is communicated with the first groove 11, the first connecting member 40 is an elastic member, the first connecting member 40 is telescopically disposed in the first mounting hole, the first connecting end of the first connecting member 40 protrudes out of the first groove 11, the first boss 22 has a first clamping groove, and the first connecting end is clamped with the first clamping groove. In this way, the elastic action of the first connecting piece 40 can be matched with the first clamping groove, so that the first boss 22 is clamped, and the base 21 is fixed. When the base 21 is connected, the first boss 22 is inserted into the first groove 11 by applying a certain force, and the base 21 can be fixed under the elastic action of the first connecting piece 40. When the base 21 is detached, the base 21 can be pulled out of the first groove 11 by applying a certain force.

The detector adjusting device can be provided with a plurality of bases 21 with different specifications, and the types corresponding to different detectors are marked on the different bases 21, so that the corresponding bases 21 are convenient to select when the detectors with different types are used. The detector adjustment device provided in this embodiment can be used for a deformation detector.

Further, the first connection member 40 includes a ball, a spring, and a screw, which are sequentially disposed. The screw is used for fixing the spring and the ball, one end of the spring is abutted with the screw, and the other end of the spring is abutted with the ball. Under the action of the elastic force of the spring, a part of the ball is positioned in the first groove 11, and the clamping connection of the first boss 22 can be realized through the movement of the ball. And the position of the screw is movable to adjust the tightness of the spring to engage the first boss 22 with a suitable force.

In this embodiment, the fuselage assembly 10 includes: a frame 12, a base 21 connected to the frame 12; and a driving unit 13 provided on the frame 12, the driving unit 13 being connected to the reference member 31, the driving unit 13 being configured to drive the reference member 31 to move. The movement of the reference member 31 can be realized by the driving section 13.

Specifically, the driving section 13 includes: the screw 131 is rotatably provided on the frame 12, and the reference member 31 has a screw hole 31a, and the screw hole 31a is connected to the screw 131 in a matching manner. The reference piece 31 can be driven to move by the rotation of the screw rod 131, and the arrangement mode is simple in structure and accurate in control. For convenience of operation, a knob may be provided at an end of the lead screw 131, and a pattern may be provided on the knob to increase friction. The screw 131 can be driven to rotate by rotating the knob, and then the reference piece 31 is driven to move up and down in the frame body 12 by the nut screw pair, so that the position of the reference piece 31 on the frame body 12 can be conveniently adjusted.

As shown in fig. 4, in the present embodiment, the driving section 13 further includes: a stopper 132 is movably provided on the frame body 12, the stopper 132 being capable of fixing the lead screw 131 to prevent the lead screw 131 from rotating. By providing the stopper 132, the screw 131 is prevented from being rotated accidentally, so that the reference member 31 can be fixed at a certain position for use. Specifically, the stopper 132 may be provided as a screw, which is loosened when the screw 131 is rotated and tightened when the screw 131 is not required to be rotated.

In this embodiment, the fuselage assembly 10 further comprises: and a guide portion provided on the frame body 12 for guiding the reference member 31. By providing the guide portion, stability of the reference member 31 at the time of movement can be improved.

In this embodiment, the reference member 31 has a second boss 32 thereon, and the frame 12 includes: a bottom plate 121, the base 21 being connected to the bottom plate 121; a top plate 122 spaced apart from the bottom plate 121; the first upright post 123, two ends of the first upright post 123 are respectively connected with the bottom plate 121 and the top plate 122; the second upright post 124 is disposed at a distance from the first upright post 123, both ends of the second upright post 124 are respectively connected to the bottom plate 121 and the top plate 122, the second upright post 124 has a guide groove formed therein, the guide groove has a guide portion, and the second boss 32 is slidable in the guide groove. The bottom plate 121 and the top plate 122 may be fixed and supported by the first and second columns 123 and 124. Both ends of the screw 131 are connected to the bottom plate 121 and the top plate 122, respectively. The reference member 31 can be guided by the engagement of the guide groove and the second boss 32. Specifically, the guide groove is parallel to the longitudinal direction of the lead screw 131. In the present embodiment, the second boss 32 may be provided as a dovetail shape.

In the present embodiment, the reference member 31 includes: a body 311 movably disposed on the body assembly 10; a base plate 312 detachably connected to the body 311, and a reference surface is located on the base plate 312. Such an arrangement may facilitate the use of the datum member 31.

Specifically, the body 311 has a plurality of mounting positions, and the substrate 312 can be connected to any one of the plurality of mounting positions. In adjusting the detector, the reference piece 31 of the detector adjusting device may interfere with the detector due to space constraints. The reference member 31 is provided in a detachable structure, and the mounting position of the substrate 312 can be changed to avoid interference when the substrate 312 interferes with the detector. Therefore, the operation can be continued without integrally replacing the position of the detector adjusting device, and the convenience of the operation can be improved. Specifically, in the present embodiment, the body 311 has two symmetrical mounting positions, and an appropriate mounting position may be selected to connect the substrates 312 according to actual use needs.

The body 311 has a second groove 311a, the substrate 312 is provided with a third boss 313, the third boss 313 is detachably disposed in the second groove 311a, the detector adjustment device further includes a second connecting member 50, the second connecting member 50 is movably disposed on the body 311, and when the third boss 313 is disposed in the second groove 311a, the second connecting member 50 is clamped with the third boss 313. So configured, the second recess 311a, the third boss 313, and the second connector 50 cooperate to detachably connect the substrate 312 and the body 311, and the clamping manner is convenient for operation.

As shown in fig. 6, the body 311 has a second mounting hole, the second mounting hole is communicated with the second groove 311a, the second connecting member 50 is an elastic member, the second connecting member 50 is telescopically disposed in the second mounting hole, a second connecting end of the second connecting member 50 protrudes out of the second groove 311a, the third boss 313 has a second clamping groove, and the second connecting end is clamped with the second clamping groove.

In this way, the second connecting piece 50 can be matched with the second clamping groove under the elastic action, so that the third boss 313 can be clamped, and the substrate 312 can be fixed. When the substrate 312 is connected, the third boss 313 is inserted into the second recess 311a by applying a certain force, and the substrate 312 can be fixed under the elastic action of the second connector 50. When the substrate 312 is detached, the substrate 312 can be pulled out of the second groove 311a by applying a certain force.

Further, the second connection member 50 includes a ball, a spring, and a screw, which are sequentially disposed. The screw is used for fixing the spring and the ball, one end of the spring is abutted with the screw, and the other end of the spring is abutted with the ball. Under the action of the elastic force of the spring, the ball part is convexly positioned in the second groove 311a, and the third boss 313 can be clamped by the movement of the ball. And the position of the screw is movable to adjust the tightness of the spring so as to engage the third boss 313 with a proper force.

In this embodiment, the body assembly 10 has a scale thereon for indicating the corresponding position of the reference member 31 and the predetermined type of detector. This allows the position of the reference member 31 to be easily determined and observed, thereby facilitating the adjustment of the detector or the determination of the up-down reference value. In this embodiment, the detector adjustment apparatus further includes a handle disposed above the body assembly, through which grasping and pressing of the detector adjustment apparatus can be facilitated.

The application also provides an operation method of the detector adjusting device, wherein the detector adjusting device is the detector adjusting device of the embodiment, and the operation method comprises the following steps: step S10: setting the position of a reference piece of the detector adjusting device on a body component of the detector adjusting device according to the model of the detector to be adjusted; step S20: the reference value of the feeler arm of the detector is determined using the detector adjustment means. The method can be correspondingly operated according to the model of the detector, so that the universality of the detector adjusting device can be improved.

The following steps are included before step S10: step S01: selecting a base of a detector adjustment device that is adapted to the detector; step S02: the base is connected to the fuselage assembly. Thus, the corresponding base can be selected according to the model of the detector, and the universality of the detector adjusting device can be improved. Specifically, a model base adapted to the model detector used is selected in step S01.

In this embodiment, the step S20 specifically includes the following steps: step S21: abutting a base of the detector adjusting device with the wall of the detector; step S22: moving the detector adjustment means to bring the reference member into contact with the probe arm; step S23: the reference value of the feeler arm is read and recorded. This may facilitate accurate and rapid determination of the reference value of the probe arm. In step S23, the upper and lower reference values obtained by the debugging may be input into the debugging computer to be recorded and saved.

Further, the following steps are included between step S22 and step S23: step S22a: the detector adjustment means is pressed to bring the base into full contact with the cartridge wall. Thus, the base of the detector adjusting device can be fully contacted with the cylinder wall, and the accuracy of the obtained numerical value can be improved.

In the present embodiment, the following steps are included after step S20: step S30: steps S10 and S20 are repeated to determine a reference value for each probe arm of the detector. The determination of the reference value of all probe arms of the detector can be achieved by repeating the above-described operation steps. In this embodiment, each probe arm includes an upper reference value and a lower reference value, which can be determined separately using the detector adjustment device.

The above description is only of the preferred embodiments of the present application and is not intended to limit the present application, but various modifications and variations can be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

The relative arrangement of the components and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present application unless it is specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective parts shown in the drawings are not drawn in actual scale for convenience of description. Techniques, methods, and apparatus known to one of ordinary skill in the relevant art may not be discussed in detail, but should be considered part of the specification where appropriate. In all examples shown and discussed herein, any specific values should be construed as merely illustrative, and not a limitation. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further discussion thereof is necessary in subsequent figures.

In the description of the present application, it should be understood that the azimuth or positional relationships indicated by the azimuth terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal", and "top, bottom", etc., are generally based on the azimuth or positional relationships shown in the drawings, merely to facilitate description of the present application and simplify the description, and these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, and thus should not be construed as limiting the scope of protection of the present application; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

Spatially relative terms, such as "above … …," "above … …," "upper surface at … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial location relative to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "above" or "over" other devices or structures would then be oriented "below" or "beneath" the other devices or structures. Thus, the exemplary term "above … …" may include both orientations of "above … …" and "below … …". The device may also be positioned in other different ways (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

In addition, the terms "first", "second", etc. are used to define the components, and are only for convenience of distinguishing the corresponding components, and the terms have no special meaning unless otherwise stated, and therefore should not be construed as limiting the scope of the present application.

Claims (15)

1. A detector adjustment device for adjusting a detector of a pipe, the detector adjustment device comprising:

a fuselage assembly (10);

a base (21) interchangeably connected to the body assembly (10), the base (21) having a cambered surface cooperating with the wall of the detector;

a reference member (31) movably provided on the body assembly (10), the reference member (31) being adjustable in distance from the base (21), the reference member (31) having a reference surface for measuring a probe arm of the detector;

the fuselage assembly (10) comprises: the base (21) is connected with the frame body (12); a driving part (13) arranged on the frame body (12), wherein the driving part (13) is connected with the reference member (31), and the driving part (13) is used for driving the reference member (31) to move;

the reference member (31) includes: a body (311) movably disposed on the body assembly (10); a base plate (312) detachably connected to the body (311), the reference surface being located on the base plate (312);

the body (311) is provided with a second groove (311 a), a third boss (313) is arranged on the substrate (312), the third boss (313) is detachably arranged in the second groove (311 a), the detector adjusting device further comprises a second connecting piece (50), the second connecting piece (50) is movably arranged on the body (311), and when the third boss (313) is positioned in the second groove (311 a), the second connecting piece (50) is clamped with the third boss (313).

2. The detector adjustment device according to claim 1, characterized in that the body assembly (10) has a first recess (11), the base (21) is provided with a first boss (22), the first boss (22) is detachably arranged in the first recess (11), the detector adjustment device further comprises a first connecting piece (40), the first connecting piece (40) is movably arranged on the body, and when the first boss (22) is arranged in the first recess (11), the first connecting piece (40) is clamped with the first boss (22).

3. The detector adjustment device according to claim 2, wherein the body assembly (10) has a first mounting hole, the first mounting hole is in communication with the first groove (11), the first connecting member (40) is an elastic member, the first connecting member (40) is telescopically arranged in the first mounting hole, a first connecting end of the first connecting member (40) protrudes out of the first groove (11), and the first boss (22) has a first clamping groove, and the first connecting end is clamped with the first clamping groove.

4. Detector adjustment device according to claim 1, characterized in that the drive part (13) comprises:

the screw rod (131) is rotatably arranged on the frame body (12), the reference piece (31) is provided with a threaded hole (31 a), and the threaded hole (31 a) is connected with the screw rod (131) in a matching mode.

5. Detector adjustment device according to claim 4, characterized in that the drive part (13) further comprises:

a stopper (132) is movably provided on the frame body (12), the stopper (132) being capable of fixing the lead screw (131) to prevent the lead screw (131) from rotating.

6. The detector adjustment device according to claim 1, characterized in that the fuselage assembly (10) further comprises:

and the guide part is arranged on the frame body (12) and is used for guiding the reference piece (31).

7. Detector adjustment device according to claim 6, characterized in that the reference piece (31) has a second boss (32) thereon, the frame body (12) comprising:

a bottom plate (121), the base (21) being connected to the bottom plate (121);

a top plate (122) which is arranged at intervals from the bottom plate (121);

the two ends of the first upright post (123) are respectively connected with the bottom plate (121) and the top plate (122);

the second stand (124) with first stand (123) interval sets up, the both ends of second stand (124) respectively with bottom plate (121) with roof (122) are connected, have the guide way on the second stand (124), the guide way forms the guide part, second boss (32) can be in the guide way is internal to slide.

8. Detector adjustment device according to claim 1, characterized in that the body (311) has a plurality of mounting positions, the base plate (312) being connectable to any one of the plurality of mounting positions.

9. The detector adjustment device according to claim 1, characterized in that the body (311) is provided with a second mounting hole, the second mounting hole is communicated with the second groove (311 a), the second connecting piece (50) is an elastic piece, the second connecting piece (50) is telescopically arranged in the second mounting hole, a second connecting end of the second connecting piece (50) protrudes out of the second groove (311 a), and the third boss (313) is provided with a second clamping groove, and the second connecting end is clamped with the second clamping groove.

10. Detector adjustment device according to claim 1, characterized in that the body assembly (10) has a scale thereon for indicating the position of the reference member (31) in correspondence with a predetermined model of detector.

11. A method of operation of a detector adjustment device according to any one of claims 1 to 10, characterized in that the detector adjustment device is a detector adjustment device according to any one of claims 1 to 10, the method of operation comprising the steps of:

step S10: setting the position of a reference piece of the detector adjusting device on a body component of the detector adjusting device according to the model of the detector to be adjusted;

step S20: the detector adjustment means is used to determine a reference value for a feeler arm of the detector.

12. The method of operation according to claim 11, characterized in that it comprises, before said step S10, the steps of:

step S01: selecting a base of the detector adjustment device that is adapted to the detector;

step S02: the base is connected with the body assembly.

13. The method according to claim 11, wherein said step S20 comprises the steps of:

step S21: abutting a base of the detector adjusting device with the wall of the detector;

step S22: moving the detector adjustment means to bring the datum into contact with the probe arm;

step S23: and reading and recording the reference value of the probe arm.

14. The method of operation according to claim 13, characterized in that between said step S22 and said step S23 comprises the steps of:

step S22a: the detector adjustment means is pressed to bring the base into full contact with the cartridge wall.

15. The method of operation according to claim 11, characterized in that it comprises, after said step S20, the steps of:

step S30: the steps S10 and S20 are repeated to determine a reference value for each probe arm of the detector.