KR20040057206A - Water removing apparatus of ultrasonic flaw detected strip - Google Patents

Abstract

PURPOSE: A water removing device for an ultrasonic flaw detected strip is provided to effectively remove water from the top and bottom of the strip by moving upper and lower wipers up and down according to the thickness of the strip. CONSTITUTION: An upper wiper(10) is made of rubber, and moves up and down on the top of a strip(S). An upper wiper moving unit moves the upper wiper up and down according to the thickness of the strip. A lower wiper(20) is made of rubber, and moves up and down on the bottom of the strip. A lower wiper moving unit moves the lower wiper up and down.

Description

Water removing apparatus of ultrasonic flaw detected strip

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for removing moisture from an ultrasonic flaw steel sheet, and more particularly, to an apparatus for removing moisture from an ultrasonic flaw steel sheet, which is capable of removing water, which is a flaw detection medium used for ultrasonic flaw detection, from the surface of the steel sheet.

In general, when the quality inspection of the steel sheet product by ultrasonic flaw detection, the flaw detection accuracy is maintained by spraying water, which is a flaw detection medium on the surface of the steel sheet. When water remains on the surface of the steel sheet, it causes corrosion of the steel sheet. Therefore, water is removed from the surface of the steel sheet after the ultrasonic flaw detection operation is completed.

Figure 1 is a schematic configuration diagram showing the ultrasonic flaw detection of the steel sheet according to the prior art and the equipment for removing water from the surface of the steel sheet as a whole, when the steel sheet (S) is placed on the roller 110 constituting the roller table, the roller ( The steel sheet S enters into the ultrasonic flaw detector 100 by the rotation of the 110.

When the steel sheet (S) enters the inside of the ultrasonic flaw detector (100), foreign matter is removed from the surface of the steel sheet (S) by the water sprayed from the injection nozzle (120) and water is detected on the surface of the steel sheet (S). As a certain thickness.

Subsequently, the flaw detection operation is performed by the scanners 141 and 142 moving in contact with the edge portion and the front end, the inner and the end portions of the steel sheet S in the width direction.

Then, the steel sheet (S) is completed the flaw detection is passed through the water removal unit 150, the surface of the water is removed, the conventional water removal unit 150 is as shown in more detail in FIG. The shaft 152 is formed long in the width direction in the upper portion of the steel sheet (S), and both ends are mounted to the installation frame (F) so as to be able to rotate in the axial direction, and is rotatably mounted to the shaft (152). A rubber upper wiper 154 formed long in the width direction of S), a cylinder 155 for rotating the upper wiper 154, and a lower wiper support 156 formed long in the width direction under the steel plate S. And a lower wiper 158 made of a rubber material fixedly installed on the lower wiper support 156 and formed long in the width direction of the steel sheet S.

That is, when the steel sheet S enters the water removing device unit 150, the lower wiper 158 is always in close contact with the lower surface of the steel sheet S and the upper wiper 154 rotates by the lowering of the cylinder 155. It descends and adheres to the upper surface of the steel plate S to remove moisture from the surface of the steel plate S.

However, in the conventional water removal device unit 150, although the wiper is made of a resilient rubber material to be in close contact with the surface of the steel sheet to an appropriate degree to effectively remove moisture from the surface of the steel sheet, the upper wiper ( 154 is in close contact with the steel sheet at a too high pressure when the thickness of the steel sheet is thick because the steel sheet is thick and rolled up and down in a certain range by the driving of the cylinder 155 irrespective of the thickness and width of the steel sheet. On the other hand, when the thickness of the steel sheet is thin, it has a problem in that moisture cannot be properly removed from the surface of the steel sheet, such as being in close contact with the steel sheet at a too small pressure, and of course, these wipers are intensively worn at the edges of the steel sheet. It is made to have a problem that does not properly remove the moisture of the steel sheet It was.

The present invention is to solve the above-mentioned problems, the object of the ultrasonic flaw detection apparatus for removing the moisture on the surface of the steel sheet to be in close contact with the steel sheet to an appropriate degree at all times to effectively remove the moisture on the surface of the steel sheet In providing.

In addition, another object of the present invention is that the upper wiper is provided in several places along the longitudinal direction of the steel sheet, and if necessary, the upper wiper is in contact with the edge portion of the steel sheet by varying the upper wiper in contact with the steel sheet in accordance with the width information of the steel sheet. It is to provide a water removal device of the ultrasonic flaw detection steel sheet to solve the problem that the part is worn locally to reduce the water removal efficiency.

1 is a schematic configuration diagram showing, as a whole, an ultrasonic flaw detection of a steel sheet according to the prior art and a facility for removing water from the surface of the steel sheet.

Figure 2 is a front and side view of Figure 1;

Figure 3 is a schematic configuration diagram showing an overall ultrasonic flaw detection of the steel sheet according to the present invention and a facility for removing water from the surface of the steel sheet.

4 is a front view of FIG. 3;

Figure 5 is a perspective view showing in detail the configuration of the upper wiper, the main portion of the present invention;

Figure 6 is a perspective view showing in detail the configuration of the lower wiper, which is the main part of the present invention.

※ Explanation of symbols about main part of drawing ※

F1: upper frame F2: lower frame

F3: installation frame 10: upper wiper

12, 22: holder 20: lower wiper

32: sliding support 34: sliding shaft

44, 54: drive motor 46, 56: limit switch

48, 58: Striker

As a technical configuration for achieving the above object, the present invention is formed in the width direction of the steel sheet is made of a rubber material and the upper wiper mounted on the upper portion of the steel sheet to be moved up and down, and receives the thickness information of the steel sheet Upper wiper conveying means for moving the upper wiper up and down corresponding to the thickness, a lower wiper formed long in the width direction of the steel sheet and made of a rubber material and mounted to be moved up and down at the bottom of the steel sheet, and the lower wiper By providing a water removal apparatus of the ultrasonic flaw detection steel sheet, characterized in that it comprises a lower wiper transfer means for moving up and down.

The upper wiper may include a permanently operated wiper which always removes moisture from the steel sheet irrespective of the width of the steel sheet, and is positioned at a rearward direction in the traveling direction of the steel sheet compared to the always-operated wiper, and the width of the steel sheet is greater than a predetermined width. A wide wiper for removing moisture from the steel sheet, and a narrow wiper for removing moisture from the steel sheet when the width of the steel sheet is less than a predetermined width and positioned behind the advancing direction of the steel sheet, compared to the normal operation wiper. It features.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a schematic configuration diagram showing the ultrasonic flaw detection of the steel sheet according to the present invention and the equipment for removing water from the surface of the steel sheet as a whole, Figure 4 is a front view of Figure 3, a portion having a similar configuration to the conventional equipment 1 and 2, the same reference numerals are used to designate the same, and detailed description thereof will be omitted.

Ultrasonic flaw detection equipment according to the present invention also has a moisture removal device for removing moisture from the upper and lower surfaces of the steel sheet (S), the ultrasonic flaw is completed as in the prior art.

The water removing apparatus of the present invention has upper and lower wipers 10 and 20 formed in a width direction of the steel sheet S and made of a rubber material so as to be movable up and down on the upper portion of the steel sheet.

The upper wiper 10 is composed of a normally operated wiper 10A, a wide wiper 10B, and a narrow wiper 10C disposed sequentially along the traveling direction of the steel plate S, and these wipers 10A and 10B. 10C is supported to be movable up and down by the same structure.

Referring to FIG. 5, the upper frame F1, which is positioned at an upper portion of the traveling direction of the steel sheet S and is formed long in the width direction of the steel sheet S, is fixedly installed, and the left side of the upper frame F1 is fixed. On the right side, a hollow cylindrical sliding support 32 is fixedly installed to have a long length vertically, and the sliding support 32 is fitted to be slidably axially sliding shaft 34 up and down, and the sliding Each of the shafts 34 is fixed to both ends of the holder 12 supporting the upper wiper 10. Of course, the upper wiper 10 is preferably made of a plurality of parallel to the predetermined distance apart.

The holder 12 is moved up and down relative to the upper frame F1 by the upper wiper conveying means, and the upper wiper conveying means operates the holder 12 and the upper frame F1 by the driving motor 44. It comprises a configuration to connect the distance to each other adjustable by the screw jack 40. That is, when the screw shaft 42 of the screw jack 40 is rotationally driven by the drive motor 44, the holder 12 is moved up and down. Then, the rotation speed of the drive motor 44 or the rotation speed of the screw jack 40 is measured by a rotation speed measuring mechanism such as an encoder and transmitted to a facility control computer (not shown). The up and down height of the holder 12 is known.

Of course, by installing a separate upper and lower limit switch 46 to the upper frame (F1), the striker 48 for operating the limit switch 46 to the holder 12, The lower limit position may be limited.

Referring to Figure 6 the mounting configuration of the lower wiper 20, the lower frame (F2) which is located in the lower portion with respect to the traveling direction of the steel sheet (S) formed in the width direction of the steel sheet (S) is provided, The lower frame F2 is moved up and down with respect to the equipment frame F3 by the lower wiper conveying means, and the lower wiper conveying means moves the lower frame F2 and the equipment frame F3 by the driving motor 54. It comprises a configuration to connect the distance to each other adjustable by the screw jack 50 is operated. That is, when the screw shaft 52 of the screw jack 50 is driven to rotate by the drive motor 54, the lower frame (F2) is moved up and down.

In addition, a holder 22 supporting the lower wiper 20 is fixed to the lower frame F2. Of course, the upper wiper 20 is preferably made of a plurality of parallel to the predetermined distance apart.

In addition, by installing a separate upper and lower limit switch 56 on the installation frame F3, and installing the striker 58 for operating the limit switch 56 on the lower frame F2, The lower limit position may be limited.

The operation of the present invention having the above configuration will be described.

The apparatus of the present invention works in conjunction with the ultrasonic flaw detection of steel sheets.

That is, when the ultrasonic flaw detection of the steel sheet is carried out while removing the moisture from the surface of the steel sheet while maintaining the wiper 10, 20 of the present invention in close contact with the upper and lower surfaces of the steel sheet, when the ultrasonic flaw detection of the steel sheet is completed The wipers 10 and 20 of the present invention also fall from the upper and lower surfaces of the steel sheet (of course, the steel sheet is strictly operated after passing through the water removing device of the present invention so that the wiper falls from the surface of the steel sheet).

When the steel sheet S enters for ultrasonic inspection, the facility control computer determines whether the width of the steel sheet S is larger than the preset width, and if yes, the permanently operated wiper 10A and the wide wiper 10B are placed on the steel sheet ( It is lowered to be in close contact with the upper surface of S), and if no, the ever-operating wiper 10A and the narrow wiper 10C are lowered to be in close contact with the upper surface of the steel sheet (S).

At this time, the lowering degree of the upper wiper 10 is determined by the thickness information of the steel plate (S), the facility control computer by rotating the drive motor 44 in response to the thickness information of the steel sheet (S) input in advance The upper wiper 10 is lowered such that the upper wiper 10 is in close contact with the upper surface of the steel sheet S to an appropriate degree.

At the same time, the drive motor 54 is driven to rotate to raise the lower wiper 20.

Therefore, the upper and lower wipers 10 and 20 are in close contact with the upper and lower surfaces of the steel sheet S, respectively, so that water can be completely removed from the surface of the steel sheet S.

Of course, when the steel sheet S passes through the upper and lower wipers 10 and 20, the driving motors 44 and 54 are driven in opposite directions to move the upper and lower wipers 10 and 20 to their initial positions, respectively. Move to wait for the next task.

As described above, according to the water removal apparatus of the ultrasonic flaw detection steel sheet according to the present invention, by moving the upper and lower wipers up and down corresponding to the thickness of the steel sheet, the wiper is in close contact with the upper and lower surfaces of the steel sheet to remove the moisture great.

In particular, when the width of the steel sheet is larger than the predetermined width, the water is removed by using the wide wiper, and when the width is small, the water is removed by using the narrow wiper to effectively remove water from both the narrow and the wide steel sheets.

Claims (4)

A device configured to remove moisture from a steel plate buried on a surface for ultrasonic flaw detection, An upper wiper 10 formed in a width direction of the steel sheet and made of a rubber material and mounted to be moved upward and downward on an upper portion of the steel sheet; An upper wiper transfer means for receiving the thickness information of the steel sheet and moving the upper wiper 10 up and down corresponding to the thickness; A lower wiper 20 formed long in the width direction of the steel plate and made of a rubber material and mounted to be movable upward and downward at a lower portion of the steel sheet; Ultrasonic flaw detection apparatus characterized in that it comprises a lower wiper transfer means for moving the lower wiper (20) up and down. The upper wiper (10) according to claim 1, wherein the upper wiper (10A) always removes the moisture of the steel sheet irrespective of the width of the steel sheet, and the moving direction of the steel sheet relative to the normal operation wiper (10A) Wide wiper 10B for removing water from the steel sheet when the width of the steel sheet is greater than the predetermined width and positioned at the rear, and the width of the steel sheet is located behind the traveling direction of the steel sheet compared to the always-on wiper 10A. An apparatus for removing water in an ultrasonic flaw detection steel sheet, characterized in that it comprises a narrow wiper (10C) for removing water from the steel sheet when it is smaller than the predetermined width. According to claim 1, wherein the upper wiper conveying means, the screw jack 40 for supporting the upper wiper 10 to move up and down on the upper frame (F1) and the screw jack 40 to the thickness of the steel sheet Ultrasonic flaw detection apparatus characterized in that it comprises a drive motor 44 for rotating in response to the information. According to claim 1, wherein the lower wiper conveying means, the screw jack 50 for supporting the lower wiper 20 to move up and down on the installation frame (F3), and the drive to rotate the screw jack 50 Ultrasonic flaw detection apparatus characterized in that it comprises a motor (54).