JPS62273019A - Method for washing electromagnetic filter - Google Patents

Abstract

PURPOSE:To remove adhered foreign matters and oil content by washing filter media of an electromagnetic filter used for coolant system of a cold rolling mill with such an organic solvent as toluene or the like. CONSTITUTION:The coolant of a cold rolling mill is supplied from a coolant tank 4 to an electromagnetic filter 6 by a pump 5 and, after foreign matters in the coolant are removed, returned to the tank 4. Between the electromagnetic filter 6 and the tank 4, a solvent tank 14 containing an organic solvent 13 is connected through a closing valve 15. When the filter media 8 of the electromagnetic filter is clogged, such organic solvent as toluene or the like is led from the solvent tank 14 into the electromagnetic filter 6 for washing. After washing with an organic solvent, water is led into the electromagnetic filter 6 through the closing valve 16 and washing is carried out to prevent the residual organic solvent from mixing into the coolant.

Description

Detailed Description of the Invention 3. Detailed Description of the Invention [Industrial Application Field] The present invention relates to a method for cleaning an electromagnetic filter used for filtering a coolant that is circulated in cold rolling of strips.

[Conventional technology]

Coolant is used as a lubricant and cooling fluid in cold rolling of strips. As this coolant, an emulsion made by mixing cooling water and lubricating oil, and a neat made only of oil are mainly used. All such coolant is ejected towards the conditioning strip and rolling rolls, and is then recovered and used for circulation, so that the abrasion powder of the copper strip generated during rolling of the steel strip gets mixed in as foreign matter.
This causes contamination of the coolant, and as a result, the concentration of wear particles increases, causing foreign matter to get caught between the strip and rolling roll, and causing fine scratches that reduce the gloss of the rolled copper strip. . For this reason, coolant is filtered using an electromagnetic filter to remove foreign substances from within the coolant.

Since rolling oil is attached to the foreign matter that is captured by the electromagnetic filter and removed from the coolant, this acts as an adhesive for the foreign matter, and when the electromagnetic filter is used for a long time, the amount of foreign matter that is captured increases. This results in a decrease in filtration efficiency. Therefore, it is necessary to periodically clean the electromagnetic filter.

Conventionally, electromagnetic filters have been cleaned by the method described in Japanese Patent Application Laid-Open No. 59-69121 and shown in FIG. 3. To explain this conventional method with reference to FIG. 3, coolant is supplied and injected from a coolant tank 4 through a path not shown to the rolling rolls 2 of the cold rolling mill 1 and the steel strip 3 rolled thereby. , these are cooled and lubricated. The coolant is then recovered and circulated to the coolant tank 4. On the other hand, the coolant in the coolant tank 4 is supplied to the electromagnetic filter 6 by the pump 5, and the steel strip 3 mixed in the coolant
After abrasion particles and other foreign matter are removed, the coolant is returned to the coolant tank 4. As shown in FIG. 2, the electromagnetic filter 6 is equipped with an excitation coil 7 and a filter medium 8, and the foreign matter is captured by the filter medium 8. Specifically, the cleaning of the electromagnetic filter 6 involves cleaning the filter media 8, and this is done by first supplying steam to the filter media 8 to remove solids such as rolling oil and wear particles attached to the filter media 8. soften. And secondly, 5-8 kg/
Backwash water 9 pressurized to cj and heated to 70 to 90°C is supplied to the filter media 8 and is discharged from the system together with foreign matter.

[Problem that the invention seeks to solve]

However, with such conventional cleaning methods, it is difficult to sufficiently remove foreign matter within the filter media 8, so the entire electromagnetic filter 6 is overhauled every 3 to 6 months of use. do,
There is a problem in that it is necessary to completely remove foreign substances from the filter media 8.

This invention was made in view of the problems of the prior art, and aims to efficiently clean filter media without requiring frequent overhauls.

[Means for Solving the Problems] The electromagnetic filter cleaning method according to the present invention is characterized in that the filter media of the electromagnetic filter is cleaned with an organic solvent such as toluene.

[Effect]

After stopping the excitation action in the excitation coil of the electromagnetic filter and releasing the magnetism of the foreign matter captured by the filter media, toluene is removed.

Organic solvents such as ethers and alcohols are passed through the filter media to remove foreign substances trapped in the filter media. Since the organic solvent has the property of separating liquid oil and metal at room temperature, the foreign matter removal rate is significantly shorter than that of hot water. The organic solvent remaining in the electromagnetic filter and in the front and rear pipes after removing foreign matter may be flushed out through water.

〔Example〕

FIG. 1 is a diagram illustrating a circuit directly used in implementing the invention. Electromagnetic filter used here Electromagnetic filter 6
is the same as the conventional one and therefore the same as shown in FIG.

The coolant tank 4, the pump 5, and the electromagnetic filter 6 are all connected by a pipe line similar to that of the prior art shown in FIG. can be discharged. Further, between the electromagnetic filter 6 and the coolant tank 4, a solvent tank 14 containing an organic solvent 13 is connected via an on-off valve 15, and between the electromagnetic filter 6 and the coolant tank 4, an on-off valve Water such as industrial water enters through the pipe 16. An on-off valve 17 is also provided on the downstream side.

Each of the devices operates as shown in the operation patterns in Table 1. That is, in the filtration step, the pump 5 is operated, the on-off valves 11.17 are opened, 15° 12.16 are closed, and the excitation coil 7 is turned on.

Therefore, the coolant in the coolant tank 4 is transferred to the pump 5.
After passing through the electromagnetic filter 6 and being filtered, the coolant returns to the coolant tank 4. For electromagnetic filter 6, 30 to 50
The filter media 8, which has a lattice-like mesh structure of approximately 1 sheet, is excited, thereby trapping and removing foreign matter in the refrigerant. When this foreign object is captured, the coolant attached to the magnetic foreign object is also captured at the same time. Since the rolling oil constituting the coolant has a low melting point of 30 to 40°C, it solidifies together with foreign matter within the filter media 8, causing the filter media 8 to become clogged when the electromagnetic filter 6 is used for a certain period of time. Therefore, filter media 8 will be explained next.
cleaning is required.

In the process of cleaning the filter media 8, the on-off valves 11,
17.15 is closed, on-off valve 12.16 is opened, and the exciting coil 7 is turned off. As a result, the pressurized organic solvent 13 in the solvent tank 14 passes through the on-off valve 15 and is introduced into the electromagnetic filter 6, and after cleaning the filter media 8, is discharged through the on-off valve 12. Organic solvent 1
For example, toluene, ethers, and alcohols are used as the filter 3, and are passed through the filter media 8 under pressure of 2 to 5 kg/cal. Solvent 1 at this time
No. 3 is used at room temperature (30 to 40'C). By using such an organic solvent 13, it is possible to completely remove foreign substances from the filter media 8.

Next, the organic solvent remaining in the electromagnetic filter 6 and the piping before and after it is cleaned. That is, in this process.

On-off valve 11.17.15 is closed, on-off valve 12.16 is open,
While the excitation coil 7 remains OFF, water such as industrial water is passed through the filter media 8 in the electromagnetic filter 6 via the on-off valve 16, and further discharged via the on-off valve 12 for treatment. This cleans the inside of the pipe through which the water has passed and the inside of the electromagnetic filter 6, so that no organic solvent remains therein. Therefore, the organic solvent does not mix into the coolant later and deteriorate the emulsification state of the rolling oil.

After cleaning the piping, coolant filtration is restarted. At this time, the on-off valves 11.17 are opened, the on-off valves 15 and 12.16 are closed, and the excitation coil 7 is turned on to filter the coolant in the same manner as described above.

Thus, by cleaning the filter media 8 of the electromagnetic filter 6 with the organic solvent, the filter media 8 of the electromagnetic filter 6 can be cleaned.
It becomes possible to efficiently clean the electromagnetic filter 6, there is no need to use steam for cleaning, and the interval between overhauls of the electromagnetic filter 6 can be extended.

[Effects of the Invention] As explained above, according to the present invention, in order to clean the filter media of an electromagnetic filter with an organic solvent such as toluene, foreign matter and oil adhering to the filter media can be efficiently removed. can. Therefore, the number of overhauls of the electromagnetic filter can be significantly reduced, which has the effect of enabling efficient operation of the electromagnetic filter.

[Brief explanation of drawings]

FIG. 1 is an explanatory diagram of a circuit directly used for implementing this invention,
FIG. 2 is an explanatory diagram of an electromagnetic filter, and FIG. 3 is a circuit diagram showing a conventional method. 4... Coolant tank, 5... Pump, 6...
Electromagnetic filter, 8... Filter media, 13...
Organic solvent, 11, 12, 15. 16... On-off valve

Claims (1)

[Claims] A method for cleaning an electromagnetic filter used in a coolant system of a cold rolling mill, the method comprising cleaning a filter media of the electromagnetic filter with an organic solvent such as toluene.