KR100803985B1 - Device for separating oil in swarf treatment line - Google Patents

Abstract

SUMMARY OF THE INVENTION An object of the present invention is to provide an oil separation apparatus of a swap processing facility, which is capable of processing a large amount of swaps at a time by compressing the swap.

Accordingly, the present invention is connected to the swab receiving device of the swap processing equipment is collected and discharged in the bottom is formed with a discharge hole in the bottom pressure vessel for discharging oil from the swap, pressurizing means for compressing the swarf by varying the cross-sectional area of the pressure cylinder It is provided on the bottom of the pressure vessel, the oil receiving tank for receiving the oil discharged from the discharge hole, is provided at both ends of the pressure vessel provides an oil separation device of the swap processing equipment including an opening means for opening and closing the pressure vessel.

Pressure vessel, oil sump, pressure cover, drive cylinder, blocking plate

Description

Device for separating oil in swarf treatment line

1 is a schematic view showing a swap processing equipment is installed oil separation apparatus according to the present invention,

2 is a perspective view showing an oil separation device according to the present invention;

3A, 3B and 3C are schematic cross-sectional views showing the state of use of the oil separator according to the present invention.

Explanation of symbols on the main parts of the drawings

10: pressure cylinder 11: discharge hole

20: oil sum container 21: oil pipe

30: pressure cover 31: driving cylinder

40: long hole 41: protrusion

50: rail frame 51: blocking plate

52: blocking cylinder 60: touch sensor

61: touch bar

The present invention relates to a swap processing facility for collecting and treating the swarf generated during the grinding operation by the strip grinder, and more particularly to an oil separation device for separating oil from the swarf.

In general, the coil subjected to annealing is subjected to a polishing line to remove defects on the surface of the strip, which is then sent to the next process, which is performed by strip grinders arranged along the line. The generated swarf is sent to the swarf processing facility through a chute installed at the bottom of the grinder.

The swarf generated during strip polishing is a mixture of coolant oil used for polishing and fine chips polished from the strip, and then aggregated together into a cottony form. The swarf sent to the swarf processing unit is screened and filtered into oil and fine chips. It can be separated and reused.

Conventional swarf processing equipment for treating swarf is a swab conveyor tank that first filters the swarf and oil discharged from the chute, and a conveyor for connecting the conveyor tank to separate fine swarf and oil and transferring fine swarf to the bottom. Filter tank, which is installed on the conveyor, a swab receiving unit for receiving the falling swarf from the conveyor, a centrifuge for separating oil from the swarf introduced through the swab receiving unit, and a collecting box for collecting the swarf discharged from the centrifuge. It is done by

Wherein the centrifugal separator when the drop dropped from the swarf discharge path is contained in the centrifuge tube, the centrifuge cylinder is rotated by the motor drive so that the oil contained in the swap flows into the oil tank through the hole formed in the centrifuge tube The oil collected in the oil tank is recovered to the swap filter tank through the discharge pipe, and the discharged swarf is discharged out of the centrifuge and dropped through the lower discharge path to be collected in the swarf collection box.

By the way, the conventional swarf treatment equipment has a problem that it does not properly handle this when a large amount of swap is generated as a centrifugal separator using centrifugal force is used as the oil separator.

That is, when a large amount of swarf by-products are generated by over-polishing during polishing, the processing capacity is insufficient. Therefore, it is difficult to recycle the swarf as the swarf that is not completely drained is dropped through the discharge path and sent to the processing place. There is a problem that causes environmental pollution during recycling.

In addition, there is a problem in that the swarf must be processed after stopping the line work because the swarf cannot be separated into oil and dried swarf during a large amount of swap treatment.

Accordingly, the present invention has been made to solve the above-mentioned problems, it is an object of the present invention to provide an oil separation device of the swarf treatment equipment to be able to treat a large amount of swap at a time by pressing the swap.

In order to achieve the object as described above, the oil separation device according to the present invention is connected to the swab receiving of the swap processing equipment is collected and discharged in the bottom and the discharge hole is formed in the bottom of the pressure passage for discharging oil from the swap, pressurized It comprises a pressing means for compressing the swarf by varying the cross-sectional area of the cylinder, the opening means for opening and closing the pressure cylinder is installed at the end of the pressure cylinder.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic view showing a swap processing equipment is installed oil separation apparatus according to the present invention, Figure 2 is a perspective view showing an oil separation apparatus according to the present invention.

According to the drawings, the swap processing equipment according to the present invention is a swab conveyor tank (110) for filtering the swarf and oil discharged from the chute 100 and the conveyor tank (110) is connected to the fine swap and oil The filter tank 120 is installed on the bottom and the conveyor 121 for transporting the fine swap, and the swab receiving 130, the swab receiving 130 for receiving the falling swarf pulled up from the conveyor 121 It includes an oil separation device for separating the oil from the swarf introduced through, and the collecting box 140 collecting the swarf discharged from the oil separation device.

Here, the oil separation device is connected to the swab receiving 130 of the swap processing equipment is collected and discharged swarf and the discharge hole 11 is formed on the bottom pressure cylinder 10 for discharging oil from the swarf, pressurized cylinder Pressing means for compressing the swarf by varying the cross-sectional area of the 10, installed on the bottom of the pressure cylinder 10, the oil receiving container 20 for receiving the oil discharged from the discharge hole 11, of the pressure cylinder 10 It is installed at the end and comprises an opening means for opening and closing the pressure vessel (10).

The pressurized cylinder 10 has a semicircular shape, and a plurality of discharge holes 11 are formed at the bottom of the pressurized tube 10, and an oil pipe 21 is connected to a lower end of the oil receiver 20. The collected oil is returned to the treatment plant.

In addition, the pressurizing means is connected to the pressurizing cover 30 which is rotatably connected to the upper end of the pressurizing tube 10 and the support frame 32 on the installation and is connected to the upper end of the pressurizing cover 30 to pressurize the cover. And a drive cylinder 31 for rotating the 30.

Accordingly, when the driving cylinder 31 is stretched and operated, the pressing cover 30 is operated in the form of a case and presses the swarf collected in the pressure barrel 10, so that the swarf is compressed and oil is separated out.

Here, according to a preferred embodiment of the present invention, a structure for smoothly discharging the remaining swarf chunks 90 from the pressure vessel 10 according to the swap compression is required, and for this purpose, the pressure vessel 10 has a lower end. The structure is inclined at an angle toward the bottom.

In addition, it is necessary to drop the swarf caught in the discharge hole 11 formed in the pressure cylinder 10 during the swap compression, and to minimize the contact area between the pressure cylinder 10 and the swab lump 90.

To this end, the pressurized cylinder 10 has a structure in which the bottom center portion is divided into two hinges along the longitudinal direction.                     

Therefore, when the pressure cover 30 is fully folded and opened according to the operation of the driving cylinder 31, the two pressure cylinders 10 separated by two are pulled to both sides, and the center connection part is lifted up, thereby swapping the swab mass ( 90 is dropped from the pressure vessel (10).

At this time, in order to lift the central portion of the pressure cylinder 10, the interval between the upper ends of the pressure cylinder 10 should be opened, as shown in Figure 3b for the flow of the pressure cylinder 10 top in this way ( Long hole 40 is formed in the lower oil receiving container 20 in which 10) is installed to have a structure in which the protrusion 41 installed in the pressure cylinder 10 is fitted into the long hole 40 and slides.

Accordingly, in the semicircle form, the pressurized cylinder 10 can be further opened to both sides as much as the flow length of the long hole 40. As a result, the pressurized cylinder 10 is pulled to both sides and the central portion which is hinged is raised to press the pressurized cylinder ( 10) It is to be able to push up the lump of swap 90 attached to the inner side.

On the other hand, looking at the opening means for collecting the swap in the pressure cylinder 10 or discharge the compressed swarf mass 90, the rail frame 50 is installed in the width direction at the top and bottom of the pressure cylinder 10 and , The blocking plate 51 which is slidably placed along the rail frame 50, is installed between the rail frame 50 and the blocking plate 51 to block the blocking cylinder 52 for moving the blocking plate 51. Include.

Reference numerals 60 and 61 which are not described herein are touch sensors and touch-byes installed at the bottom of the pressure vessel 10 to sense the swap mass 90 discharged from the pressure vessel 10.

Hereinafter, the operation of the present invention will be described with reference to FIGS. 3A, 3B, and 3C.

In FIG. 1, the driving motor for operating the transfer screw 131 in the swab receiving 130 is operated only when the blocking plate 51 of the opening and closing means is opened to send the swarf to the pressure cylinder 10 through the outlet. do.

Through the outlet 132 of the swab receiving 130, the swarf is continuously introduced into the pressure cylinder 10 and collected, where the blocking plate 51 located at the bottom of the pressure cylinder 10 is the blocking cylinder 52. It is moved by the stretching operation of the pressure cylinder 10 to block the lower end, the pressure cover 30 installed in the pressure cylinder 10 is rotated in accordance with the contraction operation of the drive cylinder 31 is open.

In this state, when the swarf is collected in the pressure cylinder 10 or more in a predetermined amount, the blocking cylinder 52 installed on the pressure cylinder 10 is extended to close the blocking plate 51, and the upper and lower ends of the pressure cylinder 10 are closed. In the closed state, the swapping operation is performed.

Swap pressing operation, that is, oil separation is performed by the pressure cover 30, as described above, when the blocking plate 51 is completely moved and the pressure cylinder 10 is sealed, the driving cylinder 31 is extended and flipped. The pressure cover 30 was rotated.

As the pressure cover 30 is rotated toward the pressure cylinder 10, the swarf collected in the pressure cylinder 10 is pressed by the pressure cover 30 coming down and pressed.

In this pressing process, the oil in the swarf is separated from the swarf and is discharged through the oil discharge hole 11 at the bottom of the pressure vessel 10, and the oil discharged from the discharge hole 11 is the oil under the pressure vessel 10. Collected in the receiving container 20 and returned to the facility through the oil pipe (21).

In this way, the present invention is able to finish the oil separation operation more quickly and easily by treating a large amount of swarf in one pressing process.

On the other hand, after the oil separation operation is carried out the oil is separated and the discharge operation of the remaining swap mass 90 is made.

The swab lump discharge operation is achieved by completely rotating the pressure cover 30 and opening the blocking plate 51 at the bottom of the pressure cylinder 10.

As the driving cylinder 31 is contracted and operated, the pressing cover 30 holding the swap is rotated upward to open the upper portion of the pressing cylinder 10, and the pressing cover 30 is connected to the pressing cylinder 10. If it continues to rotate more than the rotation angle is linked to the pressure cover 30, the pressure cylinder 10 is moved to both sides.

As the pressure cylinder 10 is moved to both sides and the gap is widened, the bottom connection portion of the pressure cylinder 10 is changed from the initial semicircle shape and lifted upward.

Accordingly, in the pressing process, the swarf lump 90 which is in close contact with the bottom surface of the pressure cylinder 10 is separated from the pressure cylinder 10, and only the center of the contact portion with the pressure cylinder 10 remains.

As such, as the contact area between the swab lump 90 and the pressurized cylinder 10 is reduced and the contact area is minimized, the swarf lump 90 slides down along the pressurized cylinder 10 installed at an inclined angle by its own weight. .                     

Of course, in the state in which the blocking plate 51 of the lower portion of the pressure cylinder 10 is already open, the swamp mass 90 drops and is collected in the collecting box 140 located under the pressure cylinder 10.

In addition, when the end of the swab mass 90 touches the touch bar 61 in the course of dropping the swab mass 90, the touch sensor 60 is sensed to return each driver to the initial mode according to the touch signal of the touch sensor. Then it is ready for the next oil separation.

According to the oil separation device of the swap processing equipment according to the present invention as described above, there is an effect that can be easily processed a large amount of swap.

The advantage is to increase productivity by eliminating line interruptions by increasing swarf throughput.

Claims (4)

The pressurized passage for discharging oil from the swarf is formed by discharging the swarf connected to the swab receiving device of the swarf processing facility and having a discharge hole at the bottom thereof. Pressing means for compressing the swap by varying the cross-sectional area of the pressure vessel, Oil reservoir for receiving oil discharged from the discharge hole installed at the bottom of the pressure vessel, It is provided at both ends of the pressure cylinder, and includes an opening means for opening and closing the pressure cylinder, The pressurizing means includes a pressurizing cover which is rotatably connected to an upper end of the pressurizing tube, and a driving cylinder connected to a support frame on a facility and connected to an upper end of the pressurizing cover to rotate the pressurizing cover. Oil separator in the treatment plant. delete The oil separator of claim 1, wherein the pressurized barrel is divided into two by being divided into two parts along the longitudinal center of the bottom, and the separated ends are hinged to be rotatable with each other. According to claim 1, The opening means is connected between the rail frame and the blocking plate, the rail frame and the blocking plate which is slidably placed along the rail frame and the rail frame is installed in the width direction at the top and bottom of the pressure cylinder, respectively. Oil separation device of the swap processing equipment, characterized in that it comprises a blocking cylinder for moving the plate.

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