JPH0248418Y2 - - Google Patents

Description

[Detailed description of the invention] Industrial application field This invention is a continuous hot-dip galvanizing apparatus in which the strip is passed continuously through a molten zinc bath, and is used to remove foreign matter that adheres to the sink roll that is immersed in the molten zinc bath. The present invention relates to a wiper device for removing.

Conventional Technology As is well known, in continuous hot-dip galvanizing, a strip (steel plate) whose surface has been cleaned and activated is immersed in a bath of molten zinc, and the direction of travel is changed using sink rolls in the bath to move it upward. This is done by raising the Therefore, since the strip comes into direct contact with the sink roll, it has been common practice to keep the surface of the sink roll clean with a wiper device in order to prevent surface flaws on the strip due to adhesion of foreign matter. It is being done. In particular, in order to improve the workability of the plated layer, 0.1 to 1.2% Al is added to the zinc bath, and the hard and brittle Fe-Zn
This prevents the development of the alloy layer and replaces the Zn-Fe-Al alloy layer with Fe.
Along with forming on the surface, Zn
-Fe-Al alloy particles may get mixed into the zinc bath and adhere to the sink roll, so such foreign particles are removed by a wiper device.

4 and 5 are schematic diagrams showing an example of a conventional wiper device, which is mainly composed of a wiper blade 1 and a wiper frame 2 that supports it. The wiper blade 1 is placed in a zinc bath 3. The wiper frame 2 is formed into a U-shape having a width equal to the axial length of the sink roll 4 to be immersed and a shape matching the crown shape of the sink roll 4, and the wiper frame 2 has the same width as the wiper blade 1. Then, the wiper blade 1 is coldly fixed to the tip of the wiper frame 2, set in the zinc bath 3 together with the sink roll 4, and a rolling force is applied to the wiper so that the wiper blade 1 comes into close contact with the surface of the sink roll 4. It acts through frame 2. Therefore, due to the rotation of the sink roll 4 as the strip 5 runs, the surface of the sink roll 4 is rubbed by the wiper blade 1, and the Zn-Fe
- Foreign substances such as Al alloy particles are removed.

Problems to be solved by the invention The original function of the wiper blade 1 mentioned above is as follows.
The wiper blade 1 and the wiper frame 2 are in close contact with each other over the entire length of the sink roll 4, and may scrape off foreign objects due to relative sliding between the two. However, in conventional wiper devices, the wiper blade 1 and the wiper frame 2 are The wiper blade 1 may be deformed under the influence of heat from the zinc bath 3, and a gap may be created between the wiper blade 1 and the sink roll 4. As a result, the surface purification function of the sink roll 4 may become insufficient and the surface of the sink roll 4 may become deformed. Foreign matter remains attached to the strip 5, which causes surface flaws such as dents on the strip 5. In addition, the gap between the wiper blade 1 and the sink roll 4 as described above is eliminated by the wiper blade 1 being worn out after long-term operation, but in the meantime, the amount of adhesion has increased. Zn-Fe-Al alloy foreign matter has a strong adhesion force and cannot be removed by the wiper blade 1, causing a problem of causing scratches on the strip 5. Furthermore, as shown in FIG. In the case of the sink roll 4 with grooves G on the outer circumferential surface, Zn-Fe
-Al alloy grains may grow relatively large,
If this peels off from the sink roll 4, it floats in the zinc bath 3 and eventually gets caught between the sink roll 4 and the strip 5, causing dents in the strip 5 as described above, or even Zn−
Fe-Al alloy foreign matter is pressed against the surface of the sink roll 4 and becomes stuck. There was a problem that further promoted the occurrence of scratches.

In view of the above-mentioned circumstances, this wiper is designed to reliably prevent foreign matter such as Zn-Fe-Al alloy grains from adhering to sink rolls or their excessive growth, and to eliminate surface flaws such as strip dents. The purpose is to provide a device.

Means for Solving the Problems In order to achieve the above object, this invention moves a wiper blade whose width is smaller than the axial length of the sink roll over the entire axial length of the sink roll. In order to remove foreign matter from the surface and to ensure good adhesion to the sink roll surface, a so-called oscillating mechanism is used to rotate the wiper blade around an axis perpendicular to the direction of movement of the wiper blade. It is characterized by the fact that it has been supported by More specifically, this invention consists of a wiper blade having a width smaller than the axial length of a sink roll that is placed immersed in a molten zinc bath, a rolling device that presses the wiper blade against the outer circumferential surface of the sink roll, and a wiper blade that presses the wiper blade against the outer peripheral surface of the sink roll. and a moving device that moves the wiper blade along with the rolling device in the axial direction of the sink roll, and is attached to the end of the rolling device so that the wiper blade can pivot around an axis perpendicular to the axis of the sink roll. It is characterized by being

Accordingly, in the device of this invention, a wiper blade is moved along the axis of a sink roll, which is immersed in a molten zinc bath and has a strip wound around it, over the entire length of the sink roll together with a rolling down device. In that case, even if thermal deformation occurs or the sink roll has a crown, the wiper blade rotates around the pivot point to the rolling device and changes direction to follow the sink roll's surface shape, so the sink roll maintain close contact with
As a result, foreign matter is removed over the entire surface of the sink roll. Further, when grooves are formed on the outer circumferential surface of the sink roll, a wiper blade having a convex portion corresponding to the shape of the groove is used.

Embodiments Hereinafter, embodiments of this invention will be described with reference to the drawings.

1 and 2 are schematic diagrams showing one embodiment of this invention, and the example shown here is a conventional wiper device, which is an existing wiper blade (hereinafter referred to as
It is constructed using a wiper frame 2 (temporarily referred to as a full-width wire blade) 1 and a wiper frame 2. That is, a moving device 6 is attached to the wiper frame 2, and the moving device 6 has a screw shaft 8 attached to the wiper frame 2 via a bearing 7 so as to be parallel to the sink roll 4, and It consists of a guide shaft 9 attached to the wiper frame 2 in parallel and close to the screw shaft 8, and a motor 10 for rotating the screw shaft 8. Further, the screw shaft 8 and the guide shaft 9 are equipped with a lowering device 11.
is attached, and the lowering device 11 is connected to the screw shaft 8.
The moving block 12 screwed into the rod and passed through the guide shaft 9 is placed facing the sink roll 4, and the rod 13 with its tip facing near the outer peripheral surface of the sink roll 4 is placed facing the sink roll 4. The rod 13 is attached to the moving block 12 so as to move back and forth, and a pressurizer 14 such as an air cylinder that pushes the rod 13 toward the sink roll 4 is attached to the moving block 12.
This is the configuration installed in. A wiper blade 15, which directly removes foreign matter by contacting the sink roll 4, is attached to the tip of the rod 13 by a pin 16 passing through the axis in the direction perpendicular to the direction of movement of the wiper blade 15, that is, in the thickness direction. It is rotatably mounted. As shown in the figure, the wiper blade 15 has a plate shape with a width smaller than the axial length of the sink roll 4 (for example, about 1/10),
In order to counter the frictional force caused by the rotation of the sink roll 4, it is set to move in contact with the front surface of the full-width wiper blade 1 in the rotation direction of the sink roll 4.

In addition, when the sink roll 4 with the groove G is targeted, as shown in FIG.
is attached to the tip of the rod 13 by a pin 16. Although not specifically shown, the full-width wiper blade 1 is configured to move up and down together with the wiper frame 2 along a groove in a pedestal fixed to the zinc bath 3, and is pressed against the outer peripheral surface of the sink roll 4 by a lifting device. It is becoming more and more common.

Next, the operation of the wiper device configured as described above will be explained.

The wiper blade 15 is placed on the outer peripheral surface of the sink roll 4 which is immersed in the zinc bath 3.
The screw shaft 8 is rotated by the motor 10 in the moving device 6 while the sink roll 4 is being rotated in the direction of the arrow in FIG. 1 to make the strip 5 run. . Then, the moving block 12 moves along the guide shaft 9 by the action of the screw shaft 8, and the wiper blade 15 moves along the outer peripheral surface of the sink roll 4 in its axial direction. In this case, since the wiper blade 15 is a so-called oscillating mechanism that rotates around the pin 16, if the sink roll 4 has a crown, the wiper blade 15 follows the shape of the crown and moves while changing its direction. Further, even when thermal deformation occurs, at least a portion of the wiper blade 15 remains in contact with the sink roll 4. Therefore, if the wiper blade 15 is moved over the entire length of the sink roll 4 as described above, the relative sliding caused by the rotation of the sink roll 4 will rub the entire outer peripheral surface of the sink roll 4 and remove foreign particles. can be removed. The wiper blade 15 is basically moved back and forth continuously while the sink roll 4 is rotating, but it may be fixed intermittently at any position to perform wiping.

In addition, when a sink roll having grooves formed on the outer circumferential surface is used, a wiper blade 17 having a convex portion 17a shown in FIG. 3 is attached to the tip of the rod 13 via a pin 16. In this case, all the grooves are wiped by synchronizing the groove cutting direction, the groove pitch, the rotation speed of the sink roll 4, and the movement of the wiper blade 17.

In addition, any of the above wiper blades 15, 1
7, there is no fear that the rod 13 will bend because it is in contact with the full-width wire blade 1 and supported from the back side during wiping.

Effects of the invention As is clear from the above explanation, according to the device of this invention, the wiper blade with a small width is pressed against the outer peripheral surface of the sink roll by the lowering device, and in this state, the wiper blade is moved by the moving device. Since the wiper blade is moved in the axial direction of the sink roll and rotates following the crown shape of the sink roll, the entire outer peripheral surface of the sink roll can be thoroughly wiped without being affected by thermal deformation. It is possible,
It is possible to reliably and effectively prevent scratches on the strip due to adhesion of foreign matter such as Zn-Fe-Al alloy grains and damage due to excessive growth of Zn-Fe-Al alloy grains.

[Brief explanation of drawings]

Fig. 1 is a schematic side view showing one embodiment of this invention, Fig. 2 is a front view of the same, Fig. 3 is a front view showing another example of a wiper blade, and Fig. 4 is a diagram of a conventional wiper device. FIG. 5 is a schematic side view showing an example, FIG. 5 is a front view of the same, and FIG. 6 is a partial view showing a part of the outer periphery of the grooved sink roll. 3...Zinc bath, 4...Sin roll, 5...Strip, 6...Movement device, 8...Screw shaft, 10...Motor,
11... Reducing device, 13... Rod, 14... Pressure machine,
15, 17... wiper blade, 16... pin.

Claims (1)

[Claims for Utility Model Registration] In a wiper device for a sink roll in a continuous hot-dip galvanizing machine in which a strip is wound around a sink roll immersed in a molten zinc bath and runs, the wiper device has a width smaller than the axial length of the sink roll. a wiper blade that is immersed in a molten zinc bath, a rolling device that presses the wiper blade against the outer peripheral surface of a sink roll, and a moving device that moves the wiper blade together with the rolling device in the axial direction of the sink roll. and a continuous type molten zinc characterized in that the wiper blade is attached to an end of the rolling device so as to rotate in an oscillating manner about an axis perpendicular to the axis of the sink roll. Wiper device for sink rolls in plating equipment.