CLEANER APPARATUS FOR STEEL PLATE

Abstract

In a cleaner apparatus for steel plate provided with a brush roll 1 driven to rotate to remove foreign matter D from a surface Wa of a steel plate W to be conveyed, a magnet bar 3 to attract iron powder d among the foreign matter D stuck to the brush roll 1 by magnetic force, a wiping cloth 5 disposed between the brush roll 1 and the magnet bar 3 to remove the foreign matter D attracted by the magnet bar 3; the wiping cloth 5 of belt shape is disposed parallel to an axis L.sub.1 of the brush roll 1.

Claims

1. A cleaner apparatus for steel plate provided with a brush roll driven to rotate to remove foreign matter from a surface of a steel plate to be conveyed, a magnet bar to attract iron powder among the foreign matter stuck to the brush roll by magnetic force, a wiping cloth disposed between the brush roll and the magnet bar to remove the foreign matter attracted by the magnet bar; comprising a construction in which: the wiping cloth of belt shape is disposed parallel to an axis of the brush roll.

2. The cleaner apparatus for steel plate as set forth in claim 1, wherein two magnet bars, disposed parallel to the axis of the brush roll, are provided, and, a cross-sectional configuration of the wiping cloth is arc-shaped corresponding to a peripheral face of the brush roll as to contact the peripheral face.

3. The cleaner apparatus for steel plate as set forth in claim 1, wherein the magnet bar is disposed parallel to the axis of the brush roll, a magnetic long body is disposed between the wiping cloth and the magnet bar, and, the magnetic long body has a shallow concave groove of arc-shaped cross section to make a cross-sectional configuration of the wiping cloth arc-shaped corresponding to a peripheral face of the brush roll as to contact the peripheral face.

4. The cleaner apparatus for steel plate as set forth in claim 1, wherein a supply roll to supply the belt shaped wiping cloth, and, a winding roll and a winding drive portion to wind the wiping cloth, are disposed on positions outside of left and right side ends of the conveyed steel plate.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] The present invention will be described with reference to the accompanying drawings, in which:

[0009] FIG. 1 is a schematic perspective view showing an embodiment of a cleaner apparatus for steel plate of the present invention;

[0010] FIG. 2 is a cross-sectional side view of a principal portion;

[0011] FIG. 3 is a cross-sectional side view of a principal portion showing another embodiment;

[0012] FIG. 4 is a perspective view showing a conventional example; and

[0013] FIG. 5 is a cross-sectional side view of a principal portion showing the conventional example.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0014] Preferred embodiments of the present invention will now be described with reference to the accompanying drawings.

[0015] FIG. 1 and FIG. 2 show an embodiment of a cleaner apparatus for steel plate of the present invention. This cleaner apparatus for steel plate is provided with a brush roll 1 driven to rotate to remove foreign matter D from a surface Wa of a conveyed steel plate W, two magnet bars 3 disposed parallel as to attract and remove iron powder d among the foreign matter D stuck to the brush roll 1 by magnetic force, and a wiping cloth 5 (also called the cloth 5 below) disposed between the brush roll 1 and the magnet bars 3, and sent parallel to a (rotational) axis L.sub.1 of the brush roll 1.

[0016] An axis L.sub.3 of each of the magnet bars 3 is disposed parallel to the (rotational) axis L.sub.1 of the brush roll 1, and on an upstream side Ya to the rotational axis L.sub.1 in conveying direction of the steel plate. The brush roll 1 is driven to rotate in a direction shown with an arrow B by a driving device 7 composed of a motor, a reducer, etc.

[0017] The wiping cloth 5 is to contact the brush roll 1 for removing the foreign matter D, removed from the surface Wa of the steel plate, from the brush roll 1.

[0018] That is to say, the wiping cloth 5 gathers iron powder d attracted from the brush roll 1 by magnetic force of the magnet bars 3, and wipes all foreign matter D including the iron powder d, dust, oil, etc.

[0019] The cloth 5 is formed belt-shaped with woven, knitted, unwoven cloths or combination of them using synthetic fibers such as polyester, polyethylene, nylon, etc. to certainly gather the foreign matter D.

[0020] The cloth 5 is disposed parallel to the axis L.sub.1 of the brush roll 1. That is to say, the cloth 5 is sent parallel to each of the magnet bars 3, namely, sent in a direction C at right angles with the conveying direction of the steel plate W shown with an arrow A. Therefore, the width of the cloth 5 may be approximately same as the diameter of the brush roll 1, preferably, the vertical dimension (width) of the cloth 5 is slightly larger than the diameter of the brush roll 1. Even if the width of the steel plate W, from which the foreign matter D should be removed, is changed, it is not necessary to change the vertical dimension (width) of the cloth 5, the cloth 5 does not need to be changed to clean a steel plate W of different width, and working efficiency can be improved.

[0021] The two magnet bars 3 are disposed apart for a predetermined interval, pressed to the brush roll 1 through the cloth 5 as to make the cloth 5 in area contact with the brush roll 1. The cloth 5 is in area contact with a peripheral face 1a of the brush roll 1 along the arc between the two magnet bars 3 because the two magnet bars 3 are disposed vertically apart (refer to FIG. 2).

[0022] Gathering area of the foreign matter D is large in comparison with a case of one magnet bar 3 (conventional apparatus) and foreign matter removing ability from the brush roll 1 is improved for the area contact state because the magnet bars 3 are pressed to the brush roll 1 through the cloth 5 with a certain size of area. Further, gathering ability of the iron powder d is improved because magnetic field is formed also in a space between the parted two magnet bars 3.

[0023] The cloth 5 is sent and wound by a supply roll 11 and a winding roll 12. The winding roll 12 is driven to rotate by a winding drive portion 12a such as a motor. The supply roll 11, the winding roll 12, and the winding drive portion 12a are disposed on positions out of the side of the brush roll 1. That is to say, they are disposed on positions outside of left and right side ends W.sub.1 and W.sub.2 of the conveyed steel plate W.

[0024] Although in the conventional apparatus, in which the supply reel and the winding reel are disposed on the conveying line of the steel plate as shown in FIG. 4 and FIG. 5, much labor and time are required to change the cloth, the cloth 5 can be easily and swiftly changed with the above construction of the present invention.

[0025] In the foreign matter removal work, sending method and sending speed of the cloth 5 can be freely adjusted considering the width of the steel plate W, sticking condition of the foreign matter D, etc. For example, the cloth 5 is sent continuously or intermittently.

[0026] In case that the cloth 5 is sent intermittently, an encoder 13 is disposed near the winding roll 12 to measure the sending amount to send the cloth 5 intermittently as to correspond to preliminarily set conveying distance of the steel plate W.

[0027] When the cloth 5 is sent intermittently, it is preferable to move the magnet bars 3 pressing the cloth 5 slightly backward in a direction parting from the cloth 5 (namely, in an opposite direction to the arrow A).

[0028] And, as clearly shown in FIG. 2, the cross section of the cloth 5 is “I-shaped” having an arc-shaped portion (along the peripheral face 1a of the brush roll 1) on a middle position between the upper and lower two magnet bars 3. In FIG. 1 and FIG. 2, the “I-shaped” cloth 5 is disposed on an upstream side in the conveying direction of the steel plate W, the foreign matter D is mainly gathered in a space portion 20 triangular in cross section surrounded by the brush peripheral face 1a, the surface Wa of the steel plate, and the cloth 5 (shown in FIG. 2) when the brush roll 1 rotates in the arrow B direction, and the foreign matter D is sent out by the cloth 5 in a direction at right angles with the surface of FIG. 2.

[0029] FIG. 3 shows another embodiment of the present invention.

[0030] In the embodiment of FIG. 3, the magnet bar 3 is one, and diameter of the magnet bar 3 is larger than that of the magnet bar 3 in the embodiment of FIG. 1 and FIG. 2.

[0031] Further, a magnetic long body M is disposed between the brush roll 1 and the magnet bar 3 (through the cloth 5).

[0032] The magnetic long body M is metal which can be magnetic, for example, carbon steel is appropriate.

[0033] A center portion of the magnetic long body M has a shallow concave groove M.sub.1 of concave face having a curvature approximately same as the curvature of the peripheral face 1a of the brush roll 1, and the cloth 5 is deformed along the concave face of the shallow concave groove M.sub.1 to follow the brush roll 1. That is to say, the cloth 5 can be made contact the peripheral face 1a as an arc corresponding to the peripheral face 1a of the brush roll 1, and removal effect of the foreign matter D can be enhanced thereby. Other constructions, working, and functions are same as FIG. 2.

[0034] The present invention is modifiable, for example, the diameter, strength of the magnetic force, etc. of the magnet bar 3 can be freely changed and adjusted considering the state of the surface of the steel plate W to be cleaned, amount of the foreign matter D, etc.

[0035] With the present invention as described above in detail, the wiping cloth 5 of rather small width dimension (for general use) can be sufficient to use because in the cleaner apparatus for steel plate provided with the brush roll 1 driven to rotate to remove foreign matter D from the surface Wa of the steel plate W to be conveyed, the magnet bar 3 to attract iron powder d among the foreign matter D stuck to the brush roll 1 by magnetic force, the wiping cloth 5 disposed between the brush roll 1 and the magnet bar 3 to remove the foreign matter D attracted by the magnet bar 3, the wiping cloth 5 of belt shape is disposed parallel to the axis L.sub.1 of the brush roll 1. The wiping cloth 45 of special large width dimension W, (refer to FIG. 4) is not necessary. And, the magnet bars 3 are easily set, and easily moved in the opposite direction to the arrow A (for the sufficient space as shown in FIG. 1) when the wiping cloth 5 (intermittently sent) is parted from the brush roll 1 (mechanism for the movement is not shown in FIG. 1).

[0036] And, removal effect of foreign matter is increased because two magnet bars 3, disposed parallel to the axis L.sub.1 of the brush roll 1, are provided, and, the cross-sectional configuration of the wiping cloth 5 is arc-shaped corresponding to the peripheral face 1a of the brush roll 1 as to contact the peripheral face 1a. Further, gathering ability of the iron powder d is improved because magnetic field is formed also in the space between the parted two magnet bars 3.

[0037] And, the cloth 5 is widely in area contact with the brush roll 1, and removal effect of the foreign matter D can be enhanced because the magnet bar 3 is disposed parallel to the axis L.sub.1 of the brush roll 1, the magnetic long body M is disposed between the wiping cloth 5 and the magnet bar 3, and, the magnetic long body M has the shallow concave groove M.sub.1 of arc-shaped cross section to make the cross-sectional configuration of the wiping cloth 5 arc-shaped corresponding to the peripheral face 1a of the brush roll 1 as to contact the peripheral face 1a.

[0038] And, the cloth 5 can be easily and swiftly changed, and entire working efficiency can be improved because the supply roll 11 to supply the belt-shaped wiping cloth 5, and, the winding roll 12 and the winding drive portion 12a to wind the wiping cloth 5, are disposed on positions outside of left and right side ends W.sub.1 and W.sub.2 of the conveyed steel plate W. Especially, the foreign matter D stuck to the wiping cloth 5 wound around the winding roll 12 does not stick again on the conveying way or the steel plate W.

[0039] While preferred embodiments of the present invention have been described in this specification, it is to be understood that the invention is illustrative and not restrictive, because various changes are possible within the spirit and indispensable features.