JP2002263758A - Cleaner device for steel plate, and foreign matter removing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a cleaner device for steel plate and a foreign matter removing method capable of reliably removing the dust of steel plates with a simple facility in a small space. SOLUTION: A steel plate press line for pressing the steel plate 4 by a steel plate press machine 3 comprises a suction roll device 1 for removing grease G on the surface of the steel plate 4 and a dust suction device 2 for removing the dust D on the surface of the steel plate 4. The dust suction device 2 is disposed continuously behind the suction roll device 1, and the steel press machine 3 is disposed behind the dust suction device 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steel sheet cleaner and a foreign matter removing method in a steel sheet press line.

[0002]

2. Description of the Related Art Oil is applied to the surface of a steel sheet to be pressed by a press machine, and dust is attached to the oil. Therefore, at the time of press working, dust generated on the surface of the molded product due to the dust may cause not only defective products but also damage to the press machine (die), and it is essential to install a device capable of removing these foreign substances. is there.

Conventionally, as shown in FIG.
Oil pressure G 'on the surface of the steel plate 45
And the feed direction X ′ from the upstream side to remove dust D ′.
A device in which a water washer 41, a dryer 42, and an oil sprinkler 43 are disposed toward, and a steel plate 45 is sent to a steel plate press 44 by a conveyor 46 or the like is widely used. Alternatively, a device that cleans the surface of the steel plate 45 using only a dry cleaner is widely used.

[0004]

A water washing machine shown in FIG.
In 41, a large amount of water is consumed, and after the process, a dryer 42 for drying the steel plate 45 is always required.These facilities are large and high-output devices, so initial costs, In addition, there is a problem that the running cost is high. Further, since these devices are very large, there is a problem that a large installation space is required. Further, dust D 'containing oil G' could not be completely removed only by the dry cleaner.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a steel sheet cleaner and a foreign matter removing method which can reliably remove dust from a steel sheet in a small space with simple equipment.

[0006]

In order to achieve the above-mentioned object, a steel sheet cleaner according to the present invention comprises a steel sheet cleaner installed in a steel sheet press line for forming a steel sheet by a steel sheet press. An upstream suction roll device for removing oil on the surface of the steel plate and a downstream dust suction device for removing dust on the surface of the steel plate are provided in front of a feeder to the steel plate press. It is.

Further, the method for removing foreign matter for a steel sheet according to the present invention is directed to removing dust containing oil attached to the surface of the steel sheet.
The oil is removed first, and then the dust is removed by suction.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail based on the illustrated embodiments.

FIG. 1 shows an embodiment of a steel sheet cleaner according to the present invention, which is in front (upstream) of a steel sheet press 3.
And a conveyor 5 for transporting the steel sheet 4 to the stage 7 of the steel sheet press 3 by the conveyor 5. On this conveyor 5, the oil content G adhering to the surface of the steel plate 4
A suction roll device 1 and a dust suction device 2 for removing dust and dust D are provided, and an oil spraying machine 6 is provided. The installation order is from the upstream side to the suction roll device 1,
The dust suction device 2 is arranged continuously, and an oil spraying machine 6 is arranged behind (downstream side), and is connected to the steel plate pressing machine 3 by the conveyor 5.

A product formed from the steel sheet 4 by the steel sheet pressing machine 3 is used for household electric appliances and automobile bodies, and the steel sheet 4 is plated or laminated. There is a composite steel plate having a structure.

As shown in FIG. 1, a steel plate 4 is a conveyor 5
Move from the upstream side in the feed direction X, and the dust D containing oil G adhered to the surface of the steel plate 4
First, the oil component G is removed by the suction roll device 1. Thereafter, the steel sheet 4 having only the dust D remaining on the surface is sent to the dust suction device 2 and becomes completely clean without leaving any foreign matter (dust D) on the surface.
Sent to.

The dust D on the surface of the steel plate 4 is hard to be removed by the water washing machine, especially the dust D mixed with the oil G. In the foreign matter removing method according to the present invention, first, the oil G on the surface of the steel plate 4 is efficiently removed (sucked), and the oil G and the dust D are separated, so that the dust D is separated (sucked) from the steel plate 4. Removal). According to this method, not only the dust D merely placed on the steel plate 4 but also the dust D mixed with the oil component G, and even the sticky (strongly adherent) dust D, easily and reliably. It can be removed.

[0013] Next, FIG.
FIG. 2 shows a simplified front view of the suction roll device 1. The suction roll device 1 is arranged in the width direction of the steel plate 4, and the length in the width direction is set to be larger than the width of the steel plate 4.

FIG. 3 is a sectional view of the suction roll device 1. The suction roll device 1 includes a hollow rotary shaft 12 to which an oil suction roll 11 is externally fitted and fixed. The oil-adsorbing roll 11 is formed of an oil-adsorbing body formed by laminating a felt, a metal net, a nonwoven fabric, or the like and forming the roll into a roll. The axial length of the oil adsorption roll 11 is set longer than the width of the steel plate 4. That is, the steel plate 4 is in sliding contact with the oil suction roll 11 over the entire length of the steel plate 4 in the width direction (perpendicular to the feed direction X).

The hollow rotary shaft 12 is provided with a plurality of through-holes serving as oil suction ports 13 in the pipe wall in the circumferential direction and the pipe axis direction, and both ends thereof are supported by bearings 14 as shown in FIG. A rotary drive unit M is connected to the extension via a drive shaft / joint (not shown), and the rotary shaft 12 is driven to rotate. As a result, the oil adsorption roll 11 fixed to the rotating shaft 12 is also moved in the direction of arrow A in FIG.
(In the same direction as the feed direction X of the camera). In this case, the rotation speed of the outer peripheral surface of the oil suction roll 11 and the feed speed of the steel plate 4 do not necessarily have to be synchronized. Or
The rotary shaft 12 may be configured to have no driving device and to be rotated by the frictional force of the oil absorbing roll 11 sliding on the surface of the steel plate 4 when the steel plate 4 is fed in the feed direction X.

In FIG. 2, a vacuum pump P is connected to an extension of the rotary shaft 12 (the inner space of the rotary shaft 12).
With this vacuum pump P, the inside of the rotary shaft 12 can be brought into a negative pressure state with respect to the outside air pressure. The oil adsorption roll 11 is arranged to press the conveyor 5 against the moving steel plate 4.

Then, as shown in FIG. 3, the oil G and the dust D adhered to the surface of the steel plate 4 are first adsorbed by the oil adsorption roll 11 only. The oil G that has been adsorbed by the oil adsorbing roll 11 is
And is sucked (arrow B) from the oil suction roll 11 into the negative pressure rotary shaft 12 through the oil suction port 13 of the rotary shaft 12 provided therein. Then, oil G
Can be sucked out from the rotating shaft 12 and discharged by a separator having a filter function (not shown).

Next, FIG.
FIG. 2 shows a sectional view of the dust suction device 2. The dust suction device 2 includes a dust suction head 16 and a blower unit (not shown).
Then, the dust suction head 16 is arranged at a position close to the surface of the steel sheet 4 fed by the conveyor 5.

The dust suction head 16 has an air suction chamber 18 having an air suction port 17 opened at a position close to the steel plate 4, and a rotary member disposed inside the air suction chamber 18 so as to be able to slide on the steel plate 4. A brush roll 19 and dust D adhering to and rotating on the rotating brush roll 19 in close proximity to and in contact with the rotating brush roll 19
And a nozzle 20 for sucking and removing the air.

More specifically, the dust suction head 16 has a long casing 21 whose length is set to be larger than the width of the steel plate 4, and the air suction chamber 18 is provided inside the casing 21 over substantially the entire length. Is formed. A slit-shaped air inlet 17 is formed on the lower surface of the casing 21.

One end of an air suction passage (not shown) is connected to the air suction chamber 18, and a blower unit for sucking air from the air suction chamber 18 is connected to the other end of the suction passage. Then, by the suction force of the blower unit, the air in the air suction chamber 18 is sucked into the blower unit through the air suction passage, and the outside air is sucked into the air suction chamber 18 from between the air suction port 17 and the steel plate 4.

As shown in FIG. 4, the rotating brush roll 19 is provided rotatably around an axis C parallel to the slit-shaped air suction port 17 in the air suction chamber 18 of the casing 21.
It is rotationally driven in the direction of arrow B in FIG. 4 by a rotary drive device not shown. And, by this rotating brush roll 19,
The dust D attached to the surface of the steel plate 4 is swept away. That is, the dust D remaining on the surface of the steel plate 4 is swept by the rotating brush roll 19 to remove the dust D from the steel plate 4, and the dust D is sucked by the blower unit communicating with the air suction chamber 18. Is discharged, and the surface of the steel plate 4 has the foreign matter removed.

Then, as shown in FIG. 1, the steel plate 4 is sent to the position of the oil spreader 6 by the conveyor 5, and
The processing oil is applied to the entire surface by the oil spraying machine 6 and moves to the stage 7 of the steel plate pressing machine 3, where the steel plate 4 is pressed. The cleaner device according to the present invention is a dry cleaner system that does not perform water washing, but unlike the conventionally used cleaner device, can reliably remove dust D from the steel plate 4.

FIG. 5 shows another embodiment of the steel sheet cleaner according to the present invention. As in the embodiment shown in FIG. 1, a conveyor 5 is provided in front (upstream side) of the steel plate press 3, and the steel plate 4 is conveyed to the stage 7 of the steel plate press 3 by the conveyor 5. The suction roll device 1 and the dust suction device 2 are arranged continuously from the upstream side on 5, and the oil spraying machine 6 is arranged behind (downstream side),
It is followed by a conveyor 5 to a steel sheet press 3.
In the present invention according to FIG. 5, the dust suction device 2 is of a dust suction device 2a for removing dust D by ultrasonic air E and air suction.

FIG. 6 is a sectional view of the dust suction device 2a provided in the steel plate press line. The dust suction device 2a includes a dust suction head 25 and a blower unit (not shown). Then, the dust suction head 25 is arranged at a position close to the surface of the steel sheet 4 fed by the conveyor 5.

The dust suction head 25 comprises a casing 26 arranged in a direction perpendicular to the feeding direction X of the steel plate 4, and ultrasonic generators 27, 27 provided in the casing 26. Inside the casing 26, a cylindrical partition wall 28 has an air discharge chamber 29 outside the partition wall 28 and an air intake chamber 30 inside the partition wall 28.
The two vertical strip walls 32, 32 hanging from the partition wall 28 communicate with the lower wall of the casing 26.

An air supply passage 31 is connected to the air discharge chamber 29 and an air suction passage (not shown) is connected to the air suction chamber 30. Then, air is supplied from the blower unit to the air discharge chamber 29 through the air supply path 31, and the air in the air suction chamber 30 returns to the blower unit through the air suction path.

Since the partition wall 28 is located substantially at the center of the casing 26, the air flowing out of the air supply passage 31 is moved along the outer peripheral surface of the cylindrical partition wall 28 so that the lower ultrasonic generator 2
Flow into 7,27 evenly. In addition, ejection nozzles 33, 33 for ejecting ultrasonic air in directions approaching (facing) each other are provided on the lower wall of the casing 26, and a suction nozzle 34 is arranged between the ejection nozzles 33, 33. Set up.
The suction nozzles 34 are respectively connected to the two vertical strip walls 32, 32, and are connected to the air suction chamber 30.

The air supplied to the air discharge chamber 29 is high speed,
After passing through the ultrasonic generators 27, 27, this air is ultrasonic air E
As a result, dust D that is blown out from the blowing nozzles 33 and 33 and remains on the surface of the steel plate 4 due to the so-called air knife effect
From the steel plate 4. Then, the separated dust D is sucked into the air suction chamber 30 through the suction nozzle 34. Thus, the dust D is removed from the steel plate 4.

According to the dust absorbing device 2a, a boundary layer having a low air flow rate is not formed on the surface of the steel plate 4, and the dust D is not trapped in the boundary layer. It can be reliably removed.

Next, FIG. 7 shows still another embodiment of the steel sheet cleaner according to the present invention. As in the embodiment shown in FIGS. 1 and 5, a conveyor 5 is provided in front (upstream) of the steel sheet press 3 and the steel sheet 4 is transferred to the conveyor 5.
In this configuration, the suction roll device 1 and the dust suction device 2 are continuously arranged on the conveyor 5 from the upstream side, and the oil spreader 6 is located behind (downstream side) the conveyor 5. Are arranged and continued to the steel plate press 3 by the conveyor 5. In the present invention according to FIG. 7, the dust suction device 2 is of a cooperative dust suction device 2b of a device using ultrasonic air E and air suction and a device having a rotating brush roll 19.

This is due to the air knife effect by the ultrasonic air E and the sweeping effect by the rotating brush roll 19, as described above. More specifically, the rotating brush roll 19 is mounted in the dust-absorbing head 36 of the dust-absorbing device 2b so as to be able to slide and rotate on the steel plate 4, and the ultrasonic brush rolls 19 The generators 27 and 27 are provided respectively. Above the rotating brush roll 19, an air suction chamber 18 is provided.
The dust D is discharged by the suction force of a blower unit (not shown) communicating with the air suction chamber 18, and the surface of the steel plate 4 is free of foreign matter.

Thus, even if the dust D has any direction, that is, various dusts D that cannot be easily removed (not peeled off), the dust D adhering to the steel plate 4 is generated by this synergistic action. It can be removed more reliably.

As another embodiment, the present invention in FIGS. 5 and 6 uses the ultrasonic air E and air suction in the dust suction device 2, but does not have the ultrasonic generator 27.
High-speed air ejection may be performed on the surface of the steel plate 4 by the ejection nozzle 33 to remove the dust D by the air knife effect.

As still another embodiment, the dust suction device 2a in which the ultrasonic generators 27, 27 are arranged on both sides of the suction nozzle 34 shown in FIG. A dust suction device 2a in which the ultrasonic generators 27 and 27 are arranged on both sides of the suction nozzle 34 shown in FIG. 6 or a dust suction device by the rotary brush roll 19 shown in FIG. The device 2 may be adjacent to the upstream side and the downstream side in parallel. With this configuration, dust D on the surface of the steel plate 4 can be more reliably removed.

In the present invention, as shown in FIGS. 1, 5 and 7, an apparatus for removing dust D mixed with oil G only on the upper side (one side) of the steel plate 4 has been described. And the dust suction device 2 may be arranged on the lower surface side, or the suction roll device 1 and the dust suction device 2 may be arranged on both sides.

[0037]

According to the present invention, the following effects can be obtained by the above configuration.

By arranging the suction roll device 1 and the dust suction device 2 (according to claim 1), it is possible to configure the apparatus with small and simple equipment, and the small size can be achieved without being affected by the installation position of the steel plate press machine 3. The foreign matter (dust D) of the steel plate 4 can be reliably and efficiently removed from the surface of the steel plate 4 because it can be installed in a space. The removal of the dust D
It can be performed in a dry state. Further, the foreign matter is not only the dust D merely placed on the steel plate 4 but also a dust D mixed with the oil component G and is a sticky dust D. However, it can be reliably removed from the surface of the steel plate 4.

By separating the oil component G and the dust D first (according to claim 2), the dust D can be easily separated from the surface of the steel plate 4, and can be reliably and easily separated from the steel plate 4. Dust D mixed with oil G can be removed. The dust D is a dust D mixed with the oil component G and is a sticky dust D.
However, it can be reliably removed from the surface of the steel plate 4.

[Brief description of the drawings]

FIG. 1 is an overall view showing an embodiment of the present invention.

FIG. 2 is a front view showing components of the present invention.

FIG. 3 is a side sectional view showing components of the present invention.

FIG. 4 is a side sectional view showing components of the present invention.

FIG. 5 is an overall view showing another embodiment of the present invention.

FIG. 6 is a side sectional view showing components of the present invention.

FIG. 7 is an overall view showing another embodiment of the present invention.

FIG. 8 is an overall view showing one embodiment of a conventional example.

[Description of Signs] 1 Suction roll device 2 Dust suction device 3 Steel plate press machine 4 Steel plate G Oil D Dust

Claims (2)

[Claims] 1. An upstream suction roll device 1 for removing oil G on the surface of a steel sheet 4 in a steel sheet cleaner installed in a steel sheet press line for forming a steel sheet 4 by a steel sheet press machine 3. And a downstream-side dust suction device 2 for removing dust D on the surface of the steel plate 4 is provided in front of a feeder to the steel plate press 3. 2. A method for removing foreign matter for a steel sheet, wherein the dust G containing the oil component G attached to the surface of the steel sheet is removed first, and then the dust D is removed by suction.