KR0132115Y1 - Oil separating apparatus - Google Patents

Abstract

The oil-water separator of the present invention comprises a trapezoidal inflow passage, two oil-water separation tanks, an oil-water flow control plate, an oil induction plate 20, and an oil discharge plate 4, and reliably separates water and oil. It can be an oil-water separator. Since the oil separated in the secondary oil and water separation tank flows into the oil induction plate 20 and is collected on the oil discharge plate 4 and discharged through the first and second oil discharge pipes, it is possible to clearly separate the oil.

Description

Oil-water separator

1 is a cross-sectional view of the oil and water separation device of the present invention.

2 is a partial internal perspective view of the oil-water separator of the present invention.

3 is a plan view of the oil-and-water separator of the present invention.

4 is a partial cross-sectional view for explaining the one-step oil separation process.

5 is a partial cross-sectional view for explaining the two-step oil separation process.

6 (a) and 6 (b) are partial sectional views illustrating the three-step oil separation process.

* Explanation of symbols for main parts of the drawings

1: inlet 2: inlet

3: 1st oil-water separator 4: oil discharge board

5: submerged pipe 6: temporary storage

7: sudden rise passage 8: secondary oil / water separation tank

9: discharge passage 10: flow control plate

11: water level regulator 12: the top of the barrier

13: outlet 14: first oil discharge pipe

15: second oil discharge pipe 16: the highest water level

17: minimum water level 18: oil outlet

19: oil storage tank A, B: blocking film

20: oil induction plate C: bulkhead

The present invention relates to an oil / water separator for separating oil and oil mixed with water, and more particularly, to an oil / water separator for separating oil-contaminated oil with a small amount of oil, such as around a car wash, a car repair station, and a gas station.

Conventionally, oil and sewage were contaminated by discharged into rivers or sewers without sedimenting oil from oil-water mixed with a small amount of oil, and in order to protect the environment, an oil-water separator was used. Since the oil used to separate the oil rising to the surface after storing the water by hand, there was a problem that its use is inconvenient.

In addition, in the case of the conventional oil / water separator, the oil water introduced through the hose or the pipe passes only a part of the oil / water separator when the oil / water separator flows, so that many dead zones are formed inside the oil / water separator, so that the volume of the oil / water separator cannot be effectively utilized. In addition, since the oil and water separation tank is composed of one, oil and water could not be separated in the oil / water separator.

Therefore, the object of the present invention is to improve the structure around the inlet inlet to overcome the problem that the water flows through only one part of the oil separator, and to efficiently utilize the volume to provide an oil-water separator that can be surely separated. will be.

The construction of the present invention for achieving the above object is described below with reference to the accompanying drawings.

1, 2 and 3 are cross-sectional, partial internal perspective and plan views, respectively, of the present invention. The solid arrows in FIG. 1 represent the flow of water in the runoff, and the dashed arrows represent the flow of oil.

As shown in the figure, the oil and water separation device of the present invention is the inlet (1) to guide the flow of water, the inlet passage (2) formed in a trapezoidal shape in order to spread the flow of the flowing water flowing through the inlet, and separated oil Oil discharge port 18 formed on the upper side to discharge the discharge, and the discharge port 13 is separated and discharged water is configured, and partition wall (C) on one side of the oil-water separation tank (3) so that the oil can be separated over a second The secondary oil-water separation tank (8) formed between the two is formed, and the lower side of each of the two oil-water separation tanks (3, 8) controls the flow of the water, maximizes the space utilization of the oil-water separation tank, and equalizes the precipitation. And inclined flow control plates 10 and 10 for adjusting the flow direction. In addition, a rapid rise passage 7 is formed between the primary and secondary oil and water separation tanks 3 and 8, and the discharge passage through which water from which oil is reliably removed from the primary and secondary oil and oil separation tanks 3 and 8 passes ( 9) And, when the flowing water is continuously introduced, most of the separated water is discharged through the top of the barrier membrane 12, and part is discharged through the water level control hole 11 formed through the bottom of the highest water level ( 16), and when the flow of water is suspended, the top of the barrier film 12 formed at the highest level and the lowest level so that the separated water is discharged through the water level regulator 11 until the minimum level 17 is reached. Consists of a water level control unit 11 formed.

An oil induction plate formed obliquely on the top of the partition C in order to induce the oil of the maximum level separated secondarily from the secondary oil / oil separator into the primary oil / oil separator in the upper portion of the secondary oil / oil separator. (20), the oil induction plate 20 and the oil discharge plate (4) is the primary and secondary oil-water separation tank so that the oil flowing into the oil induction plate 20 flows into the oil discharge plate (4). It is installed to be connected through at the top of the.

The oil discharge plate 4 is a blocking film (B) formed integrally to introduce the oil of the highest water level, the blocking film (A) formed integrally to face downward of the oil discharge plate (4), and the oil discharge plate ( 4) The first oil discharge plate 14 and the second oil discharge plate 15 which are in communication with the lower surface of the oil discharge plate 4 and are directed upward to discharge the oil on the lower surface, and the oil discharge when the oil surface is lowered. An immersion pipe formed below the oil discharge plate 4 to communicate with the upper surface of the oil discharge plate 4 in order to allow the oil on the publication 4 to be discharged into the temporary storage 6 formed by the barrier film A. 5) and is formed on top of the primary oil and water separation tank (3). The oil discharged through the first and second oil discharge plates 14 and 15 is temporarily collected in the oil storage tank 19 and then discharged through the oil discharge port 18.

Effects of the oil-water separation device of the present invention configured as described above will be described below with reference to FIGS. 4, 5, and 6 showing the oil-water separation process of the first, second and third stages, respectively.

Flowing water flowing through the inlet (1) passes through the trapezoidal inlet passage (2), the flow of the flowing water is widened. As a result, the widespread and vertically induced influent is subjected to the primary oil separation in the primary oil separation tank. That is, large oil droplets rise and gather under the surface of the oil-water separation tank or the oil discharge plate 4, and when the inflow of the oil water continues, the oil layer on the surface of the oil-water separation tank and the bottom of the oil discharge plate 4 is continuously thickened.

When the oil layer under the oil discharge plate 4 becomes thick and reaches a predetermined thickness, the first stage oil removal operation is automatically started through the first oil discharge pipe 14 formed to communicate with the lower surface of the oil discharge plate 4 ( See Figure 4. At this time, since the oil level of the oil separation tank is the highest level, the oil layer raised to the water flows into the oil discharge plate 4 through the blocking membrane B.

Fine oil grains not removed by the deoiling operation in the primary oil / oil separation tank 3 are swept away by water and run vertically downward. As the fine oil grains pass through the inclined oil flow control plate 10 and the mutual adsorption occurs, the oil grains increase and enter the secondary oil / water separation tank through the sudden rise passage 7. As the oil droplets grow, the oil layer rises above the water surface of the secondary oil-water separation tank (8). Therefore, fine oil grains are swept away with water and are not immediately discharged through the outlet 13, and are separated from the secondary oil / water separation tank again. Secondary oil separation tank (8) also has a flow of water control plate (10), even if there are fine oil droplets that are not separated, they are again adsorbed to each other to rise above the water surface. Thus, the runoff is more reliably separated.

As described above, fine oil droplets not separated in the primary oil / oil separation tank 3 become large oil droplets while mutually adsorbing, rising to the surface of the secondary oil / water separation tank 8 to form an oil layer. It is guided to the oil induction plate 20 to flow into the oil discharge plate (4). The oil layer is also thicker in the secondary oil / water separator (8), which is in communication with the primary oil / oil separator (3) above the highest water surface.

If the inflow of water continues, the water separated through the outlet 13 is discharged and the amount of oil in the oil separation tank is increased, so that the oil-oil layer of the primary oil separation tank 3 and the secondary oil separation tank 8 continues. It thickens and the oil of the highest level flows on the oil discharge plate 4, thereby filling the oil. When the oil layer is continuously thickened and mixed with the oil layer on the lower surface of the oil discharge plate 4 of the primary oil / water separation tank, the second stage automatic discharge of oil through the first oil discharge pipe 14 is started. See also). Oil continuously flowing into the oil separation system due to the continuous inflow of oil water is automatically transferred to the oil tank (not shown) through the oil outlet 18 through the first oil discharge pipe 14 by a two-step automatic oil discharge process. Discharged.

In addition, the three-step automatic oil discharge process of the present invention allows to remove the oil remaining on the surface of the oil water separator during non-continuous operation, such as the flow of water flow is suspended due to the operation stop.

When the inflow of water is stopped, the separated water is continuously discharged through the water level control unit 11 and the flow of water in the oil-water separation device is lowered to the lowest level 17. At this time, as the water level of the primary oil separation tank (3) and the secondary oil separation tank (8) is lowered, the oil layer on the oil surface is also lowered at the same time. It remains on the oil discharge plate (4). As the water level is lowered, the oil on the oil discharge plate enters the temporary storage 6 through the immersion pipe 5. Since the space of the temporary storage 6 is narrow, the thickness of the oil layer of the temporary storage is formed four times thicker than the oil layer of the bar.

When the flowing water is introduced again and the level of the flowing water is raised to the maximum level again, the oil existing in the temporary storage 6 is discharged through the second oil discharge pipe 15 formed to communicate with the lower surface of the oil discharge plate 4. The oil under the discharge plate 4 is discharged through the first oil discharge pipe 14.

Thus, as the rising and falling of the water surface is repeated, the oil layer gradually decreases, leaving only a thin oil layer on the surface at the end.

Therefore, the oil-water separator of the present invention can spread the flow of the oil-water widely by the trapezoidal inflow passage (2). In addition, since two oil-water separators are constituted by oil-water separators and inclined oil-flow control plates 10 and 10 are installed in the primary and secondary oil-water separators 3 and 8, respectively, the volume in the oil-water separator is utilized to the maximum. It becomes possible. Since the oil induction plate 20 is formed at the top of the partition C of the secondary oil / oil separation tank 8, the oil separated in the secondary oil / water separation tank is collected on the oil discharge plate 4. Since the oil is discharged through the oil discharge pipe, the second stage of oil separation is efficiently performed, so that the separation of the oil is assured.

Claims (1)

Oil inlet (1), inflow passage (2), inflow path (10) formed at the bottom, the oil flow control plate (10) formed at the bottom, and two oil discharge pipes (14, 15) and submerged pipe (5) formed at the top In the oil / water separator for constituting the oil / oil separator (3) consisting of a publication (4) and an oil outlet (18), the inflow passage (2) is formed in a trapezoidal shape so as to spread the oil widely. On one side of 3), the secondary oil / water separation tank 8 is formed with the partition wall C interposed therebetween so that it can be separated over the secondary oil, and the upper portion of the partition wall C of the secondary oil / water separation tank 8 is 2 An inclined oil induction plate 20 is formed to induce the oil of the maximum level separated secondly from the primary oil / oil separation tank 8 to flow into the primary oil / water separation tank 3, and into the oil induction plate 20. Oil induced and collected on the oil discharge plate 4 is discharged through the first and second oil discharge pipes 14 and 15. Oil-water separator, characterized in that configured to be discharged to the sphere (18).