KR200330431Y1 - Oil separator - Google Patents

Abstract

The present invention relates to an oil water separator.

In the present invention, the primary separation tank (1) into which the raw water in a mixed state of water and oil is introduced so that the oil is first floated by the guide plate (15) and the baffle plate (16) formed by zigzag, and the secondary portion In the tank (2) it is possible to control the discharge according to the concentration of the raw water by the discharge water control device 21, the fine oil component remaining in the raw water discharged from the discharge water control device 21 is filtered adsorption tank (3) It is to be absorbed by the adsorbent 31 of the oil can be separated.

Description

Oil Separator {Oil separator}

The present invention relates to an oil / water separator which separates and discharges water and oil from raw water in which water and oil are mixed.

In general, water and oil have a physical characteristic that the oil floats on the upper part of the water due to the significant difference in specific gravity and does not mix with each other, but the minute molecules of the oil do not float due to mechanical or chemical causes. .

When oil is mixed in water, oil may be mixed in water as a vortex caused by a rotating screw as a physical cause or a high flow rate in a pipe due to a suction force of a pump. Due to the chemical reaction of, the water and oil properties can be neutralized and mixed with each other, or they can be mixed by ultrasonic waves.

This oil component in the water has a serious impact on the environmental pollution, it is necessary to separate the oil component mixed in the water from the water.

In particular, when a large amount of wastewater flows into the wastewater treatment plant, it is necessary to perform oil-water separation in advance because it is difficult to treat wastewater, such as excessive use of treatment chemicals.

On the other hand, when water-soluble oils used in machine tools, such as cutting oil, grinding oil, rolling oil, and drawing oil, are used for a long time, water-insoluble oils naturally occur and float on the upper surface. The bacteria are multiplied and decayed in the water mixed with the water-soluble oils, which shortens the service life of the water-soluble oils, and also requires oil water separation.

Separation of water and oil from raw water mixed with water and oil include specific gravity separation, filter separation, electrocoagulation and aeration.

The specific gravity separation method uses the phenomenon that oil rises on the water because the specific gravity of oil is lower than water. The raw water gradually flows along several guide plates installed in the separation tank, and the oil floats on the water surface. It is a method of collecting using (oil skimmer).

The filter separation method is a method in which fine oil particles in raw water pass through the filter to coarse and float on the surface, or to collect oil using a special fiber filter.

Electro-aggregation is a method of electrically neutralizing the negative charges of emulsified oil particles.

The aeration method is a method of aspirating bubbles at the bottom of the aeration tank so that fine oil particles adhere to the bubbles and then float.

The electrocoagulation method and aeration method require a larger treatment facility than the specific gravity separation method and the filter separation method.

Relatively specific gravity separation and filter separation are possible for small-scale treatment facilities and relatively easy to maintain, so that raw water from small-scale companies that generate waste water can be treated immediately at an unspecified time.

However, the specific gravity separation method requires a large-sized separation tank because the raw water must be stopped for a considerable time, and the filter separation method has a limitation in that it cannot process a large amount of raw water due to the problem of easily contaminating the filter. .

The present invention allows the specific gravity separation method and the filter separation method to be combined in one system to compensate for the advantages and disadvantages of each oil separation method, and finally, in the water using an absorbent having an excellent function to absorb oil. An oil-water separator is provided to completely remove the remaining oil components.

1 is a perspective view of the present invention

2 is a side cross-sectional view of the present invention

3 is a plan view of the present invention

* Explanation of symbols for the main parts of the drawings

1: primary separation tank 2: secondary separation tank

3: filtration adsorption tank 11: raw water inlet

17: the first oil outlet 18: the second oil outlet

20: blocking plate 21: discharge water control device

31: adsorbent 32: box

210: guide 220: elevating pipe

221: water outlet

Oil-water separator of the present invention for achieving the above object, the first inflow of the raw water inlet of the raw water in the water and oil mixed state, and the oil discharge port is discharged to discharge the oil rising on the water surface Lyso; Raw water in progress of oil separation is transported through the lower portion of the primary separation tank, at least one separation plate is formed, and secondary floatation of oil proceeds, and a secondary separation tank having a discharge water control device for controlling the discharge of raw water being processed. ; It is characterized in that it comprises a filter adsorption tank having an adsorbent for removing the fine oil component remaining in the raw water discharged from the secondary separation tank.

The present invention is such that the raw water flowing into the raw water inlet is first accommodated in the primary separation tank and the oil contained in the raw water floats on the water surface and is discharged to the oil outlet in the course of flowing slowly, and the water of the lower portion of the high specific gravity is discharged into the secondary separation tank. The secondary flotation of the oil contained in the raw water flowing into the primary separation tank proceeds.

In the secondary separation tank, the specific gravity of the primary separation tank is somewhat high or dissolved in water, so that the oil component that has not risen to the top layer rises to the top layer. The oil component thus floated is discharged through the water outlet of the discharge control device and then transferred to the filtration adsorption tank.

A powerful oil adsorbent is installed in the filter adsorption tank to absorb even the fine oil remaining in the transferred water and then discharge it.

Features and advantages of the present invention will be clearly understood by the embodiments described by the accompanying drawings.

The following describes an embodiment in which the present invention is embodied.

1 shows a perspective view of the present invention.

The present invention consists of a primary separation tank (1), secondary separation tank (2) and filtration adsorption tank (3).

One side of the primary separation tank (1) is provided with a supply hose connector 10 is connected to the hose for supplying the raw water, the lower portion is formed for the cleaning drain 11, the upper portion of the supply hose connector 10 The cover 12 is covered while being opened to observe the inflow state, and the lower part has a first filtration network 13 for preventing foreign substances of relatively large size from entering the oil / water separator.

The primary separation tank (1) is a raw water inlet 14 is formed in the lower portion of the front surface is supplied with raw water supplied through the supply hose connector 10, a plurality of guide plates 15 are formed in a zigzag form raw water It is possible to flow in a horizontal direction to form a grain, the barrier plate 16 is formed in a layered form at an appropriate interval between the guide plate 15, the first oil on the front to discharge the oil rising to the top An outlet 17 is formed, and a second oil outlet 18 is formed on the upper surface.

The secondary separation tank (2) is separated into the primary separation tank (1) and the diaphragm (4), a continuous space is formed by the through-hole 40 formed in the lower portion of the diaphragm (4) and the raw water is transferred, the raw water flows rapidly The blocking plate 20 is formed at a position in which the through hole 40 is close to prevent the discharge hole, and an outlet adjusting device 21 for discharging the raw water containing the oil component is formed.

Effluent control device 21 is formed of a guide 210 and the lifting pipe 220, the guide 210 is formed with a female screw 211 is fixed to the inner surface of the upper plate 212 of the secondary separation tank (2).

The elevating pipe body 220 has a water discharge port 221 and a handle 222 formed thereon, and a male screw 223 fastened to the female screw 211 of the guide 210 is formed to form a female screw 211 formed in the guide 210. ) And is elevated according to the direction in which the handle 222 is turned.

Filtration adsorption tank (3) is adsorbents are installed detachably from the second filtration net 30 and the second filtration net 30 to the raw water discharged by the discharge water control device 21 is inserted into the adsorbent (31) Box 32 and a drain 34 for discharging the raw water is filtered out of the adsorbent box (32).

The bottom of the adsorbent box 32 is formed with a permeable net 35 so that raw water can be discharged.

Looking at the process of separating the raw water into water and oil in the oil water separator is configured as follows.

The supply hose connector 10 is connected to a pump (not shown) and a supply hose (not shown).

The raw water to be treated is introduced into the primary separation tank 1 through the first hose 13 and the raw water inlet 14 through the supply hose connector 10 by a pump.

The raw water flowing into the primary separation tank 1 to maintain an appropriate water level has a raw water inlet 14 formed at the front, and a through hole 40 transferred to the secondary separation tank 2 is formed at the rear, and the space therebetween. This zigzag guide plate 15 is provided to provide a residence time in which separation due to specific gravity can occur while moving slowly.

Thus, the raw water passing between the plurality of guide plates 15 meets the plurality of baffle plates 16, and in the process, oil having a low specific gravity floats and slowly floats on the surface of the water. Therefore, only oil is detected in the first oil outlet 17 and the second oil outlet 18.

In the primary separation tank 1, the oil component is floated and the water having a large specific gravity positioned below is supplied to the secondary separation tank 2 through the through hole 40 of the diaphragm 4.

The raw water flowing into the secondary separation tank 2 meets the blocking plate 20 to re-float the oil component finely mixed in the raw water passing through the primary separation tank 1.

This secondary floating oil component, unlike the floating oil component in the primary separation tank (1) is a state in which fine molecules are mixed in the raw water.

This raw water is discharged through the water discharge port 221, it is possible to determine the degree to which the raw water is discharged in accordance with the direction of turning the handle 222.

That is, when the elevating pipe 220 rises along the guide 210 by turning the handle 222 so that the lower portion of the water outlet 221 is on the uppermost layer of the water, the raw water with the greatest amount of oil is discharged, and the elevating pipe 220 The lower the position of the water outlet (221) is lowered so that the lower portion of the water outlet 221 is lower than the top of the water surface can be adjusted arbitrarily the raw water discharged by the discharge of raw water in a clear state than the top water.

The raw water discharged from the secondary separation tank 2 includes oil components in a fine molecular state. The raw water passes through the adsorbent 31 prepared in the adsorbent box 32 through the second filtration network 30, and the oil components are completely removed. Excluded and then discharged to drain 34.

According to the present invention as described above it is possible to effectively carry out the flow by the primary separation tank, secondary separation tank and filtration adsorption tank composed of a relatively small and simple device.

Therefore, when the water and oil mixed water or water-soluble oil is disposed of, the oil and water separation can be performed before the transfer to the wastewater treatment plant, thereby eliminating the difficulty of treating the wastewater.

Claims (3)

A primary separation tank having a raw water inlet through which raw water in a mixed state of water and oil is introduced, and an oil outlet through which oil floating on the surface of the water is discharged; Raw water during oil separation is transferred through the lower part of the primary separation tank, at least one separation plate is formed, and secondary floatation of oil proceeds, and the secondary portion includes a discharge water control device for controlling the discharge of raw water being processed. Lyso; Oil-water separator characterized in that it comprises a filtration adsorption tank having an adsorbent for removing the fine oil component remaining in the raw water discharged from the secondary separation tank. The oil / water separator as claimed in claim 1, wherein the primary separation tank has a plurality of diaphragms formed in a zigzag shape, and an obstruction plate having an appropriate interval is formed in a layered form between each diaphragm. The oil / water separator according to claim 1, wherein the discharge water adjusting device is screwed to the guide fixed to the bottom surface of the secondary separation tank, and a water discharge port is formed at an upper portion of the elevating pipe.