KR20150061064A - Magnetic particles flaw detecting apparatus for steel billet - Google Patents

Abstract

The present invention relates to a magnetic particle flaw detecting apparatus for a steel billet which detects flaws in a long steel billet (10) whose cross section is a square. The magnetic particle flaw detecting apparatus comprises: a guide roller array (114) wherein guide rollers (112) composed of tapered rollers arranged to face each other are aligned in a line, the steel billet (10) is arranged on the guide rollers (112) in a way that the diagonal lines of the square cross section of the steel billet (10) are horizontal and vertical, and the steel billet (10) is transported while each side of the steel billet (10) forms an inclination angle of ±45° with a vertical axis line (P) of the magnetic particles flaw detecting apparatus; a magnetic particle liquid spray device (118) disposed on a downstream side of the guide roller array (114) with respect to the moving direction of the steel billet (10) above the guide roller array (114) to spray a fluorescent magnetic particle liquid over the entire surface of the steel billet (10); and a magnetizer disposed on a downstream side of the magnetic particle liquid spray device (118) to magnetize the steel billet (10).

Description

TECHNICAL FIELD [0001] The present invention relates to a magnetic particle detector for a steel billet,

The present invention relates to a magnetic particle inspection apparatus for steel billets, and more particularly, to a magnetic particle inspection apparatus for steel billets, in which a long billet of steel billets to be inspected is subjected to only one inspection using a three- And a full magnetic particle test can be performed through the entire length during a moving stroke for the steel billet.

Generally, when a steel billet or a steel billet having a square cross section before rolling with a special steel material is subjected to magnetic particle testing of a steel billet hot-worked by forging or rolling, it is possible to use a shaft- (Inter-pole shape) magnetization method. However, the magnetic billet inspection apparatus of the steel billet using the axial electrification method has a complicated structure, requires a large installation cost, requires a large number of inspection personnel, and has a problem of maintenance cost of the equipment. On the other hand, the magnetic billet inspection system of the steel billet using the intermolecular magnetization method is advantageous in that the installation cost of the apparatus and the number of inspection personnel are also small. However, in the magnetic billet inspection apparatus using the intergalactic magnetization method, the steel billet is moved in one direction through the magnetizer placed at the fixed position and the two faces are detected, and the other two faces are scanned .

For example, Figs. 1 to 6 show that the steel billet 10 shown in Fig. 1 is subjected to magnetic particle analysis in a magnetic particle detector using the intergranular magnetization method described in Figs. 2 to 6. Typically, during the magnetic particle inspection process, the steel billet 10 is rotated 45 degrees about its central axis as shown in FIG. 4, and the diagonal lines intersecting the square cross-section are arranged in a direction perpendicular to the horizontal. Shaped rollers can be conveyed and guided on the guide rollers 12 arranged to face each other. For the sake of explanation, in FIGS. 5 and 6, the four sides of the steel billet 10 having a square cross section are designated by numerals 1, 2, 3 and 4. This steel billet 10 is subjected to magnetic particle analysis while passing through the first guide roller row 14 of the guide roller 12 aligned in a line and the second guide roller row 16 disposed adjacent thereto. The first guide roller row 14 is provided with a spiral disperser (sprinkler) 10 for spraying the fluorescent billet on the steel billet 10 at a predetermined interval from the downstream side to the upstream side with reference to the direction in which the steel billet 10 moves 18, a polarizer 20 for magnetizing the steel billet 10 and a black light 22 for visually confirming the defects present in the steel billet 10. The black bill 22 is provided in the steel billet 10, In the magnetic particle inspection apparatus using this intergranular magnetization method of the related art, the interlayer type magnetizer 20 is in the yoke shape having two magnetic pole faces 24 and 24 'and the magnetic pole faces 24 and 24' (1, 4, or 2, 3) of the steel billet (10) moving in a state of being supported by the base plate (12). The magnetic particle inspection apparatus of the steel billet 10 using such an interlabial magnetizer 20 is provided with at least two guide roller rows 14 and 16 and is provided on each of the guide roller rows 14 and 16, An interdigital transducer 18, a polarizer 20, and a black light 22 are arranged. Here, as shown in FIGS. 5 and 6, the polarizer 20 disposed in the first guide roller row 14 is arranged so that its pole faces 24 and 24 'are located on two sides of the steel billet 10 (1, 4). When the pole faces 24 and 24 of the interlabial device 20 are disposed close to the two sides 1 and 4 of the steel billet 10 the magnetic forces of the pole faces 24 and 24 ' The magnetic force lines are formed on the other two sides of the steel billet 10 so that the steel billets 10 around the steel billets 10 are attracted to the two sides 1 and 4 of the steel billet 10, The magnetic force lines are distributed in the first and second steel billets 2 and 3 to detect defects on the other two sides 2 and 3 of the steel billets 10. The pole faces 24 and 24 'of the interlabial magnetizer 20 with respect to the two side faces 2 and 3 of the steel billet 10 are arranged to be parallel to each other in order to detect the two sides 1 and 4 of the steel billet 10 Should be deployed.

As described above, in the case of the magnetic particle inspection apparatus using the intergranular magnetization method in the prior art, two guide roller rows 14 and 16 for guiding the steel billet 10 are required, and each of the guide roller rows 14, The magnetic pole surfaces 20 and 24 should be arranged on the side surfaces 1 and 4 and the other side surfaces 2 and 3 of the steel billet 10, respectively. Therefore, in order to detect a steel billet 10 of a unit length in the prior art, it is necessary to check and check a defect on one side of the steel billet 10 through a single inspection process of the steel billet 10, There is a burden of requiring a troublesome process of confirming and checking the defects on the other side through the double inspection process of the billet 10.

In the present invention, the present invention has been developed in view of the above points, and it is an object of the present invention to provide a magnetic billet inspection system for a steel billet, which uses a three- It is an object of the present invention to provide a magnetic particle detector for a steel billet in which the front surface, that is, the four side surfaces can be tested in all directions.

To this end, the present invention provides a magnetic particle detector for a steel billet for inspecting a defect of an elongated steel billet having a square cross section. According to the present invention, this apparatus is characterized in that the guide rollers arranged with the tapered rollers facing each other are arranged in a line so that the diagonal line where the steel billets intersect in a square cross section thereof is arranged in a direction perpendicular to the horizontal, A guide roller row for guiding the side of the steel billet in a state of being inclined at an angle of 45 degrees with respect to a vertical axis of the magnetic particle inspection apparatus, A steel billet spreader disposed on the upper side of the steel billet and spraying a fluorophore fraction over the entire surface of the steel billet; And a magnetizing unit for magnetizing the magnet.

In the present invention, the magnetizing device is a three-pole type magnetizer composed of three magnetic poles arranged at an angle of 120 ° and formed with a 360 ° rotating magnetic field on each magnetic pole surface, Wherein one of the magnetic lines of force between two adjacent magnetic poles is placed so as to intersect at right angles to the center axis of the side surface of the steel billet while being placed parallel to the side surface of the steel billet, The rotor system of the three-pole type magnetizers can be uniformly distributed over all four sides of the steel billets so that defects existing on the four sides of the steel billets can be detected.

The present invention will now be described in more detail with reference to the accompanying drawings.

1 is a perspective view showing a steel billet to be inspected according to the present invention;
FIG. 2 is a front view showing a prior art magnetic particle inspection apparatus for inspecting a steel billet using a dipole magnetizer. FIG.
3 is a plan view of a magnetic particle inspection apparatus for explaining a process of inspecting a steel billet according to the related art.
4 is a sectional view taken along the line IV-IV in Fig.
5 is an enlarged cross-sectional view taken along the line VV in Fig.
6 is an enlarged cross-sectional view taken along the line VI-VI of FIG.
7 and 8 are a front view and a plan view of a magnetic particle inspection apparatus according to the present invention.
FIG. 9 is a perspective view showing a triode magnetizer used in the magnetic particle detector of the present invention. FIG.
FIG. 10 is an explanatory view showing a magnetic force line distribution of the triode magnetizer shown in FIG. 9; FIG.
11 is a cross-sectional view taken along the line XI-XI of FIG. 7 for explaining that the triple-pole magnetizers of the magnetic particle inspection apparatus of the present invention are arranged with respect to steel billets to be inspected;
FIG. 12 is an explanatory view showing a magnetic force line distribution of a triode magnetizer of the magnetic particle detector of the present invention. FIG.
13 is an explanatory view showing a relative position of one surface of a steel billet to be inspected by the magnetic particle inspection apparatus of the present invention and a tri-pole magnetizer.

The magnetic particle inspection apparatus of the present invention is for inspecting defects of a steel billet 10 having a square cross section as shown in FIG. This steel billet 10 can be inspected in the course of conveying guidance on the guide roller row 114 aligned in a row with the guide roller 112 constituted by the tapered rollers arranged opposite to each other as in the conventional case .

The steel billets 10 conveyed and guided by the guide rollers 112 of the guide roller row 114 are arranged such that the diagonal lines intersecting the square cross sections are arranged in a horizontal and vertical direction, And guided on the guide roller 112 arranged and configured. Therefore, each side of the steel billet 10 conveyed and guided on the guide roller row 114 is inclined at an angle of 45 degrees with respect to the vertical axis P (see Fig. 11) of the magnetic particle inspection apparatus.

On the upper side of the guide roller row 114, a sprinkler 118 for sprinkling a fluorophore liquid over the entire surface of the steel billet 10 is disposed downstream of the direction of movement of the steel billet 10 And a magnetizer 120 for magnetizing the steel billet 10 is disposed in the middle.

An important feature of this magnetic particle detector of the present invention resides in the magnetizer 120 constructed in accordance with the present invention.

The magnetizing device 120 according to the present invention is basically composed of three magnetic poles 124a, 124b, and 124c that are angularly coincident with 120 degrees. These three magnetic poles consist of three pole coils. These magnetic poles 124a, 124b, and 124c are fixed to the substrate 126 and are received in the housing 128.

Since the three magnetic poles 124a, 124b and 124c of the three-pole magnetizer 120 according to the present invention use a three-phase current having an angle of 120 degrees, the magnetic pole faces 130 of the magnetic poles 124a, 124b, A rotating body of 360 degrees is formed.

This three-pole type magnetizer 120 is designed such that the magnetic pole surface 130 is placed parallel to the side surface of the steel billet 10 so that one of magnetic lines of force between two adjacent magnetic poles 124a, 124b or 124b, 124c or 124a, (FIG. 13) so as to intersect at right angles to the center axis of the side surface of the base 10.

The three-pole type magnetizer 120 according to the present invention is configured such that the pole face 130 is disposed parallel to the side surface of the steel billet 10 and disposed on two opposite sides of the steel billet 10, The rotor system of the magnetizer 120 can be uniformly distributed over all four sides of the steel billet 10 to detect defects present on the four sides of the steel billet 10 12).

Therefore, in the magnetic particle detector according to the present invention, the guide rollers 112 are provided on the opposite opposite sides of the steel billet 10 conveyed and guided through the row of guide rollers 114 arranged in a line, The magnetic billet can be performed on the entire surface of the steel billet 10 having a square cross section even if the steel billet 10 passes through the guide roller row 114 only once.

In this magnetic billet for steel billet according to the present invention, an grinding chamber (not shown) for grinding and removing a defective portion by using a grinder is disposed on the downstream side of the apparatus, and the defect of the steel billet 10 The steel billet 10 having passed through the magnetizing device 120 is provided with a black light (not shown) for allowing the naked eye to confirm the steel billet 10 when the steel billet 10 is defective, The defects of the steel billets 10 are visually confirmed through the bull lights in the room and the defects of the steel billets 10 are ground by a grinder disposed in the grinding chamber.

As described above, in the present invention, a full magnetic particle test can be performed through the entire length of a steel billet having an elongated length, which is a subject to be inspected, through a full-length moving stroke for a single inspection using a rotating system of a three- A magnetic billet for a steel billet is provided.

The present invention relates to a steel billet and a method of manufacturing the same, and more particularly, to a billet dispensing apparatus and method thereof.

Claims (2)

A magnetic particle detector for a steel billet for inspecting defects in an elongated steel billet (10) having a square cross section, the apparatus comprising:
The steel billets 10 are arranged in a line so that diagonal lines intersecting with each other in a square cross section are arranged in a horizontal and vertical direction, A guide roller row 114 for allowing each side surface to be moved in an inclined state at an angle of 45 degrees with respect to the vertical axis P of the magnetic particle inspection apparatus,
A plurality of fluorescent billets 10 are arranged on the upper side of the guide roller row 114 on the downstream side of the guide roller row 114 with reference to a moving direction of the steel billet 10, A liquid distributor 118 for distributing the liquid,
A magnetizer 120 disposed on the downstream side of the magnetic powder disperser 118 to magnetize the steel billet 10,
And the magnetic billet for steel billet. The magnetron according to claim 1, wherein the magnetizer (120) is arranged at an angle of 120 ° and the three magnetic poles (124a, 124b, 124c) on each magnetic pole surface (130) 124b or 124b, 124c or 124a, 124c while the pole face 130 is placed parallel to the side face of the steel billet 10. The three pole type magnetizers 120, Wherein one of the magnetic lines of force between the three sides of the steel billet (10) is arranged to intersect at right angles to the center axis of the side surface of the steel billet (10) The rotary system of the three-pole type magnetizers 120 can be uniformly distributed over all four sides of the steel billets 10, so that defects existing on the four sides of the steel billets 10 So that the steel billet can be detected. Device.

Images