KR200257459Y1 - Successive separating system of metal chip in the abandoned cutting oil - Google Patents

Abstract

The present invention relates to an apparatus for continuously separating and removing fine metal chips contained in cutting waste oil discharged during machining of machine tools.

In the conventional method of separating metal and nonferrous metal chips contained in cutting waste oil, relatively large scraps or shear pieces generated during metal processing are separated using an air-front chip conveyor, and relatively fine metal chips are scraper-type chip conveyors or magnet chips. Separation by a conveyor and finer metal chips were carried out by a card clutch filter, a bag filter, a paper, etc., which resulted in a complicated and costly drawback as well as causing secondary pollution.

The present invention has been made to solve the above problems, and the object of the present invention is a cone formed with a hard chromium plating layer on the inner circumferential wall of a cutting waste oil containing a metal chip which is discharged in large quantities during processing of metal and nonferrous metal in a machine tool using a feed pump. Cone) flows into the centrifuge tube (3) shaped to vortex, and at this time, the coolant centrifuged with a lighter specific gravity moves upward to be reused through the coolant discharge pipe (5), and the heavy metal chips and fine metal The colloidal cutting waste oil containing chips falls down and enters the chip settling tank 7 through the chip discharge pipe, where the settled cutting oil is reused through the cutting oil outlet 9, and the deposited metal chips are used as a chain scraper ( 8) to maximize the separation efficiency of the metal chip by collecting by the end treatment.

Description

Successive separating system of metal chip in the abandoned cutting oil

The present invention relates to a continuous separation device for metal chips contained in cutting waste oil, which enables the primary and second continuous separation of metal chips contained in waste cutting oil generated during metal processing of machine tools.

Air and chip scrapers and magnet chip conveyors are used to separate metal or nonferrous metal chips contained in cutting waste oil discharged from metal processing in conventional machine tools. The shear pieces such as scrapers are separated, and the separated cutting oil is reused, and the waste cutting oil contained in the finely separated fine chips is fed back into the sedimentation tank, and the deposited metal chips are collected through a scraper type chip conveyor or a magnet chip conveyor. In addition, the finer metal chips are filtered by a filter such as a cartridge or a back paper, and reused through the coolant discharge port, which is bulky and complicated, resulting in a large area and excessive processing costs as well as causing second pollution. There was a dismissal such as to.

The present invention was devised to solve the above problems. The object of the present invention was to pump a cutting waste oil containing metal chips generated during machining in a machine tool into a centrifuge tube having a cone shape formed of a chromium plating layer on the inner wall thereof. Inflow to the vortex in the centrifuge, where the coolant centrifuged with light weight is conveyed upwards and discharged through the coolant discharge pipe and outlet to be reused, and uncut with solids such as heavy metal chips during centrifugation The waste oil falls down and is introduced into the chip settling tank through the chip discharge pipe and re-separated therefrom, where the settled cutting oil is reused through the cutting oil discharge pipe, and the precipitated metal chips are removed through the chain scraper to be terminated. will be.

1 is a front view of the main portion of the present invention

FIG. 2 is a plan view of FIG. 1

3 is an embodiment of the present invention

* Explanation of symbols for main parts of the drawings

1. Body 1-1. Base 1-2. A high room

1-3. Hook 1-4. Pressure gauge 2. Cutting waste oil inlet

2-1. Inclined Jet 3. Centrifuge 3-1. Extension

3-2. Narrow section 4. pedestal 5. coolant discharge pipe

5-1. Coolant outlet 6. Chip outlet 6-1. Fastener

6-2. Packing 7. Chip Sedimentation Tank 8. Chain Scraper

8-1. Coaxial Sprockets 8-2. Interlocking Sprockets 8-3. Chain tensioner

9. Coolant outlet 10. Chip outlet

This will be described in detail based on the drawings.

The base 1-1 is installed at the bottom of the body 1, the hook 1-3 and the pressure gauge 1-4 are installed at the top, and the upper part is formed at the chamber 1-1 formed therein. A pedestal 4 is provided with a centrifuge tube 3 having a cone shape having a hard chromium plating layer formed on the inner circumferential wall of the expanded portion 3-1 and the narrow portion 3-2. The cutting oil discharge pipe 5 having a 'Ｕ' shape is fitted to the upper end thereof, and the other end of the cutting oil discharge pipe 5 is opened in the chamber 1-2, and the lower portion of the chamber 1-2. When the coolant discharge port 5-1 is installed at one side, a fastener in which the chip discharge pipe 6 is interposed through the packing 6-2 in the pedestal 4, which is below the narrow part 3-2 of the centrifuge tube 3, is provided. (6-1) is rotatably installed, and the tip end of the chip discharge pipe (6) is connected to the chip settling tank (7) installed below the body (1), the inside of the chip settling tank (7) is a tension tension adjustment device (8-3) and coaxial sprockets (8-1) The chain scraper 8 is provided through the plaquette 8-2, the cutting oil outlet 9 is provided at one side of the chip settling tank 7, and the chip outlet 10 is installed at the other side.

The present invention constituted as described above is a continuous separation and removal device of metal chips contained in cutting oil, and when this is carried out, a considerable pressure is applied by a pump in which cutting oil discharged during processing of metal and nonferrous metal in a machine tool is mixed with the metal chip. When introduced into the cutting waste oil inlet (2) in the state having a guide flow is induced by the inclined spraying portion (2-1) formed in the inner end of the cutting oil inlet (2), causing a vortex phenomenon in the centrifuge barrel (3), At this time, the coolant having a low specific gravity separated by the centrifugal force is raised to the enlarged part 3-1 formed in the upper portion, and then flows into the chamber 1-1 through the coolant discharge pipe 5 and then the coolant discharge port 5-1. The metal chips, which are heavy, are dropped into the narrow part 3-2 and mixed with the cutting oil during the centrifugal separation in the centrifuge tube 3, and the chips are discharged and reused. Sedimentation tank Cutting oil introduced into (7) and then sedimented and separated in the chip settling tank (7) is reused through the cutting oil outlet (9), and the deposited metal chips are collected by the chain scraper (8) to the chip outlet (10). It is discharged.

Therefore, the cutting oil containing the metal chips discharged from the metalworking machine is primarily separated into the cutting oil and the metal chips by centrifugal action in the centrifuge tube 3, and the separated cutting light oil is discharged to the cutting oil outlet and Used and heavy metal chips are introduced into the chip settling tank 7 in the state that the undivided coolant is contained and reprocessed. The light separated oil is reused through the coolant outlet 9 and the precipitated specific gravity Since heavy chips are collected by the chain scraper 8 to be terminated, it is possible not only to prevent pollution but also to minimize the processing cost and to maximize the recovery rate of the cutting oil.

As described above, the present invention primarily separates the metal chips contained in the cutting oil generated during the processing of metal and nonferrous metal in the machine tool in the centrifuge tube 3, so that the coolant having a low specific gravity can be reused through the outlet. At this time, the separated heavy metal chips and un-cut cutting waste oil are put into the chip settling tank 7 and reprocessed in the chip settling tank. Since it is collected by the chain scraper (8) to the end treatment, it is possible to significantly reduce the installation cost, the installation area and the processing cost, as well as to prevent pollution, and to maximize the recovery rate of the cutting oil is a very useful design.

Claims (2)

Cutting waste oil inlet (2) to be transported by the pump is installed on the upper one side of the body 1, the cutting oil discharge port (5-1) is installed on the lower one side, cutting oil chamber (1- 1) formed inside the body (1) In the center of 2), a cone-shaped centrifuge tube 3 having a chrome plating layer is installed on the inner circumferential wall via a pedestal 4, and the cutting is performed on one side of the upper end portion 3-1. An inclined jetting part 2-1 formed at the tip of the waste oil inlet 2 is installed, and one end of the cutting oil discharge pipe 5 is fitted to the upper part thereof, and the other end thereof is a high chamber having a cutting oil outlet 5-1 ( 1-2), and the chip discharge pipe through the packing (6-2) and the fastener (6-1) on the bottom of the pedestal (4-2) in the lower narrow portion (3-2) of the centrifuge (3) (6) is a rotational separation device of the metal chip contained in the cutting waste oil, characterized in that is installed rotatably. The cutting oil discharge port 9 is installed at one side of the chip settling tank 7 connected to the chip discharge pipe 6, and the chip discharge port 10 is installed at the other side of the chip discharge pipe 6, and the chain tension control port 8-3 is provided therein. And a chain scraper (8) interposed between the coaxial sprocket (8-1) and the interlocking sprocket (8-2).