JPS635168B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an improvement in a circulating device for lubricating fluid for cold rolling.

(Prior Art) In cold rolling of thin plates and the like, lubricating fluid is used to reduce friction on the contact surfaces between rolls and plates and to eliminate frictional heat and plastic deformation heat. A circulation method is usually adopted in which the used lubricating fluid is filtered, cooled, and then circulated and reused.

FIG. 2 shows a circulation system for lubricating fluid in an aluminum cold rolling mill. It is comprised of a clean tank 4 that communicates with it, and a circulation pump 6 that supplies lubricating fluid pumped up from the clean tank 4 to the rolling mill via a cooler 5. By driving the circulation pump 6, the used lubricating fluid stored in the dirty tank 2 is filtered by the filter 3, flows into the clean tank 4, passes through the circulation pump 6, and is cooled by the cooler 5. After that, it is supplied to the rolling mill 1.

(Problems to be Solved by the Invention) However, in the circulation device, if the used lubricating fluid collected from the rolling mill reaches a temperature of 50°C or higher, bubbles are generated in the dirty tank 2 and overflow to the outside. There is a problem with this.

Therefore, it is possible to eliminate the bubbles by cooling the entire lubricating liquid stored in the dirty tank 2 or adding additives, but the drop in temperature of the lubricating liquid may deteriorate the filtration performance in the filter 3. Furthermore, the additives are not preferred because they reduce the lubricating performance.

The present invention was made in view of such problems, and it is possible to eliminate the bubbles generated in the dirty tank without changing the performance of the circulating lubricant, and to make it possible to reuse the used lubricant. The object of the present invention is to provide a circulating device for lubricating fluid for cold rolling.

(Means for Solving the Problems) In order to solve the above problems, the circulation device according to the present invention includes a dirty tank for temporarily storing used lubricating fluid collected from a rolling mill, and a system that connects the dirty tank and a filter. a circulation pump that supplies the lubricant pumped up from the clean tank to the rolling mill via a cooler; and a circulation pump installed downstream of the cooler to supply a portion of the cooled lubricant to the dirty tank. and a cooling means for cooling the surface of the lubricant temporarily stored in the lubricant.

(Example) Next, an apparatus according to the present invention will be described based on the drawings.

FIG. 1 shows a circulation system for a lubricant based on mineral oil in an aluminum cold rolling mill, which is essentially the same as the conventional circulation system shown in FIG. They are essentially the same, and corresponding parts are given the same numbers and their explanation will be omitted. The shower nozzle 7 is
It is attached via a valve 8 to a pipe that branches downstream of the cooler 5, and is positioned above the liquid level of the dirty tank 2.

In the lubricating fluid circulation system having the above configuration, by driving the circulation pump 6, the used lubricating fluid stored in the dirty tank 2 is filtered by the filter 3, stored in the clean tank 4, and further stored in the cooler. After being cooled in step 5, the lubricant is supplied to the rolling mill 1, and a portion of the lubricant cooled in the cooler 5 is dropped onto the liquid surface of the dirty tank 2 in a shower shape by opening the valve 8 to cool the liquid surface. do. Therefore, the bubbles formed on the liquid surface of the dirty tank 2 are cooled and reduced in size by the dripping lubricant, or the generation of bubbles is suppressed. Further, the lubricating liquid cooled by the cooler 5 drops from the shower nozzle 7 onto the liquid surface of the dirty tank 2 in a shower shape, thereby physically destroying the bubbles formed on the liquid surface.

The flow rate to the shower nozzle 7 is adjusted by a valve 8, and is adjusted depending on the temperature of the lubricant in the dirty tank 2 and the state of bubble generation. Moreover, it is preferable that the lubricating liquid is cooled to 35 to 45°C in the cooler 5. If the temperature of the lubricant dripping from the shower nozzle 7 is low and the flow rate is large, the temperature of the lubricant in the dirty tank 2 will drop, which will adversely affect the filterability of the filter 3. For this reason, it is preferable that the temperature of the lubricating liquid dripped from the shower nozzle 7 is 35 to 45°C, and the dripping amount is about 30 to 50/m ² min.

Furthermore, in the above embodiment, a shower nozzle is used as a cooling means to cool the surface of the lubricant stored in the dirty tank. You may also do so. That is, the lubricating liquid cooled by the cooler is passed through the heat transfer tube to exchange heat with the lubricating liquid near the liquid surface, and then returned to the clean tank. In this case, if the temperature rise of the lubricant in the heat exchanger tube after heat exchange is small and does not affect the temperature of the lubricant supplied to the rolling mill, it may be returned to the supply line to the rolling mill without returning to the clean tank. Can be done.

(Effects of the Invention) As is clear from the above description, according to the present invention, only the surface of the lubricant temporarily stored in the dirty tank is cooled by a part of the lubricant cooled by the cooler, and Since it does not cool the entire temporarily stored lubricant and does not use additives, it does not cool the entire lubricant in the dirty tank without changing the filtration performance of the filter or the lubricity of the lubricant. This makes it possible to eliminate the bubbles in the lubricant and to suppress the generation of bubbles, allowing the used lubricant to be reused.

[Brief explanation of the drawing]

FIG. 1 is a system diagram showing a circulation device according to the present invention, and FIG. 2 is a system diagram showing a conventional circulation device. 1...Rolling mill, 2...Dirty tank, 3...
Filter, 4...Clean tank, 5...Cooler,
6... Circulation pump, 7... Shower nozzle (cooling means).

Claims (1)

[Claims] 1. A dirty tank that temporarily stores the used lubricant collected from the rolling mill, a clean tank that communicates with the dirty tank via a filter, and a lubricant pumped from the clean tank to the rolling mill via a cooler. and a cooling means provided on the downstream side of the cooler to cool the surface of the lubricant temporarily stored in the dirty tank with a part of the cooled lubricant. Circulation device for lubricating fluid for rolling.