CN200996956Y

CN200996956Y - Probe adjuster

Info

Publication number: CN200996956Y
Application number: CN 200720066543
Authority: CN
Inventors: 曾海滨; 陈杰
Original assignee: Baoshan Iron and Steel Co Ltd
Current assignee: Baoshan Iron and Steel Co Ltd
Priority date: 2007-01-22
Filing date: 2007-01-22
Publication date: 2007-12-26
Anticipated expiration: 2017-01-22

Abstract

A probe regulating unit is provided, which is characterized in that the probe regulating unit comprises a stand which is equipped with a panel; the panel is provided with a sliding groove; a horizontal slide block could slide inside the sliding groove; a probe link block is arranged at the upper part of the horizontal slide block so as to realize the permanent connection herewith. Also, a probe height adjusting apparatus and at least one probe accommodating hole are arranged above the probe link block.

Description

The probe regulating device

Technical field

The utility model relates to a kind of apparatus for adjusting position, relates in particular to a kind of probe positions regulating device.

Background technology

When materials such as steel pipe, round steel, rod iron are carried out UT (Ultrasonic Testing), detector device produces electric signal, change into ultrasound wave by probe, probe and the material that is verified do relative motion, ultrasound wave is propagated in material, the ultrasonic reflections acceptance of being popped one's head in of returning converts electric signal again to when running into defective, is handled by detector device.

The flaw detection mode is a kind of to be artificial contact method flaw detection, is placed directly in by the hand-held ultrasonic probe of flaw detection personnel and treats to detect a flaw on the side material, and the advantage of the method is simple and convenient, and shortcoming is the testing process instability, and testing result changes greatly.Another kind of flaw detection mode is mechanization automatic flaw detection, and the mechanical hook-up of flaw detection is a kind of to be the probe rotation, the material rectilinear motion, another kind is that probe is motionless, the material helical motion, these failure detectors all are large automatic equipment, are fixed on the scene, the flaw detection that is fit to typical products in mass production, and defective is, when needs positioned, these failure detectors all can easily not carry out, and be subjected to the influence that machinery and automation signal are handled, one section material of close material end can not detect.

The utility model content

The purpose of this utility model is the shortcoming that can not move flexibly at existing automatic flaw detection apparatus, a kind of probe regulating device is provided, can top to bottom, left and right, front and rear the position of adjustment probe, can also adjust the walking verticality of probe, be used for the defective of steel pipe, round steel, rod iron etc. is carried out fast detecting.

For achieving the above object, the technical solution of the utility model is: a kind of probe regulating device is characterized in that comprising: a support, which is provided with panel, and this panel is provided with chute; One cross sliding clock can horizontal slip in described chute; One probe contiguous block is arranged on the cross sliding clock top, fixedlys connected with cross sliding clock, which is provided with probe arrangement for adjusting height and at least one probe containing hole.

Like this, when actual detected, probe put into the probe containing hole after, can regulate the probe height by the probe arrangement for adjusting height of probe on the contiguous block, and can make the probe contiguous block drive probe and move horizontally by the slip of cross sliding clock.

Preferably, also comprise a screw mandrel, promote described cross sliding clock and in chute, slide.

Preferably, can also be provided with rule on the described panel.Can accurately locate the defective of finding like this.

Preferably, described arrangement for adjusting height is a height set screw, is arranged on the sidewall of probe containing hole.With probe adjust to need height after, screw screw and fix.

Preferably, described cross sliding clock is provided with a connecting portion that upwards protrudes out, and this connecting portion is the U type, be located in the side of probe contiguous block, fixes by a pair of lock-screw and probe contiguous block.

Preferably, described probe contiguous block and cross sliding clock are provided with a verticality and regulate bearing pin.This adjusting bearing pin is arranged on the connecting portion middle part that protrudes out on the cross sliding clock, the verticality that is used for regulating the probe contiguous block, thus set the verticality of popping one's head in.

Preferably, also can be provided with two probe containing holes on the described probe contiguous block, when real work, can detect simultaneously, can realize detection better workpiece end with two probes.

Preferably, also be provided with the probe rotary sleeve in the described probe containing hole.By the rotation of probe rotary sleeve, regulate the depth of parallelism of probe and axis of workpiece.

The utility model makes it compared with prior art owing to adopted above technical scheme, has following advantage and good effect:

The probe regulating device can to probe carry out level, highly, verticality regulates, satisfy defective quick and precisely detected a flaw and located needs, and have simple and practical characteristics.

Description of drawings

Fig. 1 is the front view of an embodiment of the utility model probe regulating device.

Fig. 2 is the vertical view of an embodiment of the utility model probe regulating device.

Fig. 3 is the side view of an embodiment of the utility model probe regulating device.

Fig. 4 is the front view of another embodiment of the utility model.

Fig. 5 is the vertical view of another embodiment of the utility model.

Fig. 6 is the side view of another embodiment of the utility model.

Fig. 7 is the utility model probe contiguous block and cross sliding clock vertical view.

Embodiment

In an embodiment of the present utility model, as shown in Figure 1 to Figure 3, the utility model probe regulating device comprises: support 1, panel 2, chute 3, cross sliding clock 4, screw mandrel 5, probe contiguous block 6, height set screw 7, probe containing hole 8, rule 9, slide block connecting portion 10, verticality is regulated bearing pin 11, probe rotary sleeve 12.

Support 1 is provided with panel 2, and panel 2 is provided with chute 3 and rule 9.Cross sliding clock 4 is connected with probe contiguous block 6 by slide block connecting portion 10, and locks by lock-screw.2 limit portions are provided with a projection at panel, and screw mandrel 5 is fixed on the panel by projection, promote cross sliding clock 4 and move in chute 3.Probe contiguous block 6 is provided with a probe containing hole 8, is provided with probe rotary sleeve 12 in probe containing hole 8, and probe rotary sleeve 12 is connected on the probe contiguous block 6 by the height set screw 7 on its outer wall.Probe contiguous block 6 is provided with verticality with cross sliding clock 4 and regulates bearing pin 11.

Fig. 4 is to the three-dimensional synoptic diagram that Figure 6 shows that another embodiment of the utility model, and in the present embodiment, the probe contiguous block is tabular, which is provided with 2 probe containing holes 8.

Referring to Fig. 7, support 1 is positioned on the material to be checked simultaneously, it is that the axle center can be rotated that probe contiguous block 6 is regulated bearing pin 11 with verticality, is adjusted to the angle that needs, and fixes by the lock-screw of slide block connecting portion 10 both sides.Probe is installed in the probe rotary sleeve 12.By screw mandrel 5, the cross sliding clock 4 that is connected on the screw mandrel 5 is slided along the chute 3 on the support 1, the distance of slip can be read from the rule on the support 9.

After probe positions adjusted, just can detect a flaw and positioning analysis to material.

In actual detected, can adopt the flaw detection of immersion method or spraying.

The immersion method flaw detection is: make a tank, reference block (being processed with steel pipe, round steel or the rod iron of artificial defects such as cutting, horizontal through hole or flat-bottom hole) is immersed in the water, probe bracket 1 is placed in the reference block, probe links to each other with defectoscope, regulate the eccentric situation at relative distance, probe acoustic beam and tube axis center between probe and reference block, regulate the sensitivity of instrument, make the reflection wave signal of artificial cutting reach the benchmark wave height, set flaw detection sensitivity with this.Then steel pipe to be detected, round steel or rod iron are immersed in the water, probe bracket 1 is placed on the material to be detected, rotate material to be detected relatively, move axially probe bracket 1, material to be detected is carried out carrying out flaw detection, in case the discovery excessive defect is indicated the relative position of probe and defective, manually confirms.This technology is fit to length is detected a flaw less than the material of tank length, and advantage is that result of detection is accurate, directly perceived.

When length of material to be detected surpasses tank length, in the time that tank can't being immersed, adopt the spraying flaw detection.Be specially and adopt a cover water circulation system, water is extracted into material top to be detected, by special nozzle, making between probe and the material to be detected has water as couplant, carries out UT (Ultrasonic Testing).

Claims

One kind the probe regulating device, it is characterized in that: comprising:

One support which is provided with panel, and this panel is provided with chute;

One cross sliding clock can horizontal slip in described chute;

One probe contiguous block is arranged on the cross sliding clock top, fixedlys connected with described cross sliding clock, which is provided with probe arrangement for adjusting height and at least one probe containing hole.
2. probe regulating device as claimed in claim 1 is characterized in that: also comprise a screw mandrel, promote described cross sliding clock and slide in chute.
3. probe regulating device as claimed in claim 1 is characterized in that: also be provided with rule on the described panel.
4. probe regulating device as claimed in claim 1 is characterized in that: described arrangement for adjusting height is a height set screw, is arranged on the sidewall of probe containing hole.
5. probe regulating device as claimed in claim 1 is characterized in that: described cross sliding clock is provided with a connecting portion that upwards protrudes out, and this connecting portion is the U type, be located in the side of probe contiguous block, is connected with the probe contiguous block by a pair of lock-screw.
6. probe regulating device as claimed in claim 5 is characterized in that: described probe contiguous block and cross sliding clock are provided with a verticality and regulate bearing pin.
7. probe regulating device as claimed in claim 1 is characterized in that: described probe contiguous block is provided with two probe containing holes.
8. as claim 1 or 7 described probe regulating devices, it is characterized in that: also be provided with the probe rotary sleeve in the described probe containing hole.