KR200385744Y1 - Overspill baffle equipment of strip oiler - Google Patents

Abstract

The present invention relates to a transient oil prevention device of a strip oiler, and more particularly, when the rust preventive oil is applied to the surface of the strip, the rust preventive oil is prevented from being excessive or partial oil, and in particular, it is possible to solve the excessive oil of the edge portion of the strip. And it relates to a device that can prevent the contamination of the oiler itself. The present invention for achieving the above object, the strip oiler is configured to include a charging plate that is faced with a predetermined distance to the edge portion of the strip and an adjustment unit for adjusting the distance between the charging plate and the strip is attached to one surface of the charging plate It is an anti-over oil prevention device. The adjustment unit is to adjust the gap between the charge plate and the strip, the charge plate is selected in the material with good conductivity in consideration of the conductivity, and the charge plate is to adjust the charge rate as necessary.

Description

OVERSPILL BAFFLE EQUIPMENT OF STRIP OILER}

The present invention relates to a transient oil prevention device of a strip oiler, and more particularly, when the rust preventive oil is applied to the surface of the strip, the rust preventive oil is prevented from being excessive or partial oil, and in particular, it is possible to solve the excessive oil of the edge portion of the strip. And it relates to a device that can prevent the contamination of the oiler itself.

In general, the oiler is a device for applying rust preventive oil to the surface of the strip, atomizing the rust preventive oil and applying static to the atomized particles to apply the rust preventive oil particles to the strip. Anti-rust oil is applied to prevent surface corrosion caused by the lapse of time during the hot rolling process of the steel sheet. If the coating amount is insufficient, the surface of the strip is oxidized and the processing defect is caused by the lack of lubricity. In case of poor coating and poor degreasing performance can occur. In addition, when the rolled cold rolled steel sheet is cut and processed into a required product, uneven oil and excessive oil at the edge portion are cut and the stacked strips are attached to each other to act as a complaining element of the processing company.

Euler's oiling is applied to the principle of electrostatic oiling, which charges atomized dispersed oil particles and applies electricity of different polarity to the strip while passing through it by attaching oil to the surface of the strip by mutual electrostatic force. to be. The oiling amount is adjusted according to the width of the strip, the line speed, and the like, and is generally controlled by controlling the injection amount of the control air, the voltage of the ionizer, or the amount of oil supply. In the case of incomplete control of such control elements, excessive oil and incomplete oiling may occur, and when the feeding speed of the strip is not constant, the oiling rate control becomes very difficult. In other words, the continuous line is accelerated and decelerated frequently due to heat treatment work, mill drawing work, trimming work, splitting work, etc., and it is not possible to control the injection amount due to rapid speed change. Poor and excessive oil problems will occur. If the line speed is low speed, excessive oil may occur in the low speed section, and if it is high speed, unoiled phenomenon may occur.In order to solve this problem, the atomization pressure may be controlled. This is accompanied by a process for changing the speed at a low speed, a temporary speed change, and the like, and there is a problem that the edge portion of the strip is always in an excessive state whenever the speed decreases or the line is stopped. In addition, the problem that the stress is concentrated at the edge portion of the strip and is excessively excessive at the edge portion of the strip is particularly serious.

In addition, unoiled and partially oiled oils are more problematic, so it is more preferable to slightly disperse the amount of atomized oil. The oiled oil is contaminated by the atomized oil, and the spray nozzle of the oiler device A vicious cycle of problems such as excessive oil and partial oil due to contamination in the vicinity and near the return filter may occur.

The present invention is to solve the above problems, even when the speed change or speed deviation of the transfer line of the strip to prevent excessive oil can always be a constant oil on the strip, especially the problem of excessive oil concentration concentrated on the edge of the strip The purpose of the present invention is to provide a transient oil prevention device installed at one end of the oiler to solve the problem and to prevent contamination of the oiler.

The present invention for achieving the above object is a transient of the strip oiler including a charging plate and a charging unit which is attached to one surface of the charging plate facing the edge portion of the strip at a predetermined interval to adjust the distance between the charging plate and the strip U is a prevention device.

At this time, the adjustment unit is to be able to adjust the gap between the charging plate and the strip and the charging plate should select a material having good conductivity in consideration of the conductivity. Therefore, the adjustment unit is preferably any one of a hydraulic control device, a pneumatic control device, a ball screw device.

In addition, the charging plate allows to adjust the charging rate as needed. Thus, the charging plate is preferably aluminum or zinc-based metal. In addition, it is preferable to further include an oil collecting device installed on the lower end of the charging plate to collect the oil adhered to the charging plate.

The oil is oiled on the strip using the oiler, and the electrostatic induction method is used.The negative charge for the current flow in the ionizer contained in the oiler's atomizer is made in the oil and the strip is connected with the ground roll (+). It is a method applied to achieve the charging. In this case, the present invention is a device that can prevent the problems of the excessive oil and the problem that the atomized oil is attached inside the oiler. Positioning the charging plate to face the edge of the strip will cause excess atomized oil to adhere to the charging plate to prevent excessive oil from the strip, especially to prevent excessive oil from the edge of the strip and also to reduce contamination of the oiler itself. It becomes possible.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that in the drawings, the same components or parts denote the same reference numerals as much as possible. In describing the present invention, a detailed description of related known functions or configurations will be omitted so as not to obscure the subject matter of the present invention.

1 is a perspective view illustrating the prevention of excessive oil according to the present invention. As the strip 20 passes through the oiler 10, antirust oil is applied to the surface of the strip. Generally, the amount of atomization of oil is slightly excessive because the problem of unoiled and partial oil is more serious than the problem of excessive oil. This atomization amount of the oil is a problem of the excessive oil of the strip 20 with the contamination of the oiler 10, and also the problem of the excessive oil occurs more as the strip 20 changes the working speed of the continuous line. The problem of excess oil on the edge portion of the strip 20 becomes even greater. When the charging plate 50 faces the edge portion of the strip, it prevents the pulling of charged amount of charge and excessively atomized oil adheres to the charging plate 50 so that the surface 20 and the edge of the strip 20 are excessive. You can prevent the metaphor.

The material of the charging plate 50 is to select a material having good conductivity in consideration of conductivity (charge effect), preferably aluminum or zinc-based metals, more preferably AL6. The distance between the strip 20 and the charging plate 50 is preferably maintained from 0 to 15 mm, and the adjustment may vary depending on the width of the strip 20 and various situations.

An adjustment unit 30 is attached to one surface of the charging plate 50 so as to adjust the gap and depth between the charging plate 50 and the strip 20. The part for operating the adjusting unit 30 is a non-conductive material and is insulated and grounded because there is a risk of electric shock to the operator. In addition, the protection circuit can be configured by the magnetic contactor 40 or the thermo-relay as necessary. The adjustment unit 30 is easy to use the ball screw method and allows the charging plate 50 to be moved along the LM guide 60. Of course, it will be apparent to those skilled in the art that the adjustment unit 30 can be transformed into a pneumatic device, a hydraulic device, or the like as necessary. The charging plate 50 can be used independently due to its own conductivity and can adjust its efficiency as necessary.

2 is a block diagram of a transient oil prevention device according to the present invention. Excessively atomized oil or excess oil at the edge portion on the strip 20 will be treated in the charging plate 50. Accordingly, the oil may be collected by the oil collecting device 70 and processed. In this case, as well as preventing excessive oil of the strip 20 will be able to prevent the contamination of the oiler. The charging plate 50 may properly adjust the distance from the strip 20 by the adjustment unit 30 and the charging plate 50 may move along the LM guide 60. In the example shown here, a method of controlling the interval of the adjustment unit 30 by the motor 80 is expressed, but it may be variously modified. The control panel unit 90 is a control unit such as a sensor unit, an overcurrent interrupting device, and a motor speed adjusting device. This part is preferably adjusted in conjunction with the operating state of the oiler, which is partly controlled by line speed and line speed changes. Detailed description of the part is omitted in order not to obscure the subject matter of the present invention.

The present invention configured as described above can prevent tipping of the charging charge amount and collect excessively atomized oil to prevent incomplete oiling and excessive oiling of the strip, and in particular, can solve the excessive oiling of the edge portion of the strip as well. There is an effect to reduce the contamination of the Euler itself.

1 is a perspective view for explaining a transient oil prevention device according to the present invention.

Figure 2 is a block diagram of a transient oil prevention device according to the present invention.

<Description of Major Symbols in Drawing>

10 Euler 20 Strip

30: adjustment unit 40: magnet contactor

50: charging plate 60: LM guide

70: oil collecting device 80: motor

90: control panel unit

Claims (4)

An apparatus for preventing over-oiling of a strip oiler comprising a charging plate facing at an interval portion of the strip and a charging unit attached to one surface of the charging plate to adjust a gap between the charging plate and the strip. The method of claim 1, The adjusting unit is any one of a hydraulic control device, a pneumatic control device, a ball screw device. The method of claim 1, The charging plate is a transient oil prevention device of the strip oiler, characterized in that the aluminum or zinc-based metal. The method of claim 1, The oiler excessive oil prevention device further comprises an oil collecting device for collecting the oil adhered to the charge plate is installed on the lower end of the charge plate.