KR102318310B1 - Device for oil-water separation - Google Patents

Abstract

The present invention relates to an oil-water separation device, and more particularly, by intermittently stagnating the flow of an oil-water mixture containing oil components and solid impurities, while securing an appropriate time for moisture to sufficiently pass through the hydrophilic filter, clogging of the hydrophilic filter It relates to an oil-water separation device that can minimize the phenomenon.
The oil-water separation device according to the present invention is an oil-water separation device for separating and discharging an oil component and water from an oil-water mixture in which an oil component is mixed. A filter having oiliness or lipophilicity is provided, and a passage is provided for the oil-water mixture to flow from one filtration part to the other filtration part between adjacent filtration parts, and the initially disposed filtration part is introduced so that the oil-water mixture flows into it. It is characterized in that the filter unit is connected to the last, and the filter unit is provided with an opening/closing unit that intermittently opens and closes the passage connecting the adjacent filter units and the filter unit is connected to the discharge unit for discharging the water or oil filtered through the filter. .

Description

Oil-water separation device {DEVICE FOR OIL-WATER SEPARATION}

The present invention relates to an oil-water separation device, and more particularly, by intermittently stagnating the flow of an oil-water mixture containing oil components and solid impurities, while securing an appropriate time for moisture to sufficiently pass through the hydrophilic filter, clogging of the hydrophilic filter It relates to an oil-water separation device that can minimize the phenomenon.

Conventionally, in industrial sites or households, the oil is discharged into a river or sewer without separating the oil from the flowing water that is discharged in a state of mixing a small amount of oil, thereby polluting rivers or sewage. However, as the need for environmental protection has recently emerged, an oil-water separation device for removing oil components from the oil-water mixture discharged has been used.

The oil-water separation device employs a specific gravity separation method, a filter separation method, an electric coagulation method, or an aeration separation method. First of all, the specific gravity separation method uses the specific gravity difference between water and oil, but it has a disadvantage that the size of the device is large and it takes a long time for oil-water separation. In addition, in the filter separation method, the coaleser filter method, which coarsens fine oil particles when they pass through the filter and floats to the surface, and the filtration filter method, which uses special fibers as a filter to filter oil and pass only water However, since the processing speed is slow and the filter function is lost when oil gets on the filter, it has a disadvantage that the filter must be washed or replaced regularly. The electrocoagulation method is a method of electrically neutralizing the negative charge of the emulsified oil particles and causing them to coagulate and float. . In addition, the aeration method is a method of attaching and floating fine oil particles to the bubbles by aeration of the bubbles at the bottom of the aeration tank.

The oil-water separation device using the above method has advantages and disadvantages, so that the amount of incoming raw water is limited according to the processing capacity, is configured to be treated through a process of 2 to 3 steps, or is used at the same time as the specific gravity separation method and the filter separation method A solution such as using a mixture of several methods is required, such as the technology disclosed in Korean Patent Laid-Open No. 10-2005-0100503 (Oil-Water Separator, 2005.10.19). Among the oil-water separation methods, simple installation is possible and processing efficiency is high. Korean Patent No. 10-0886477 (Solid and oil-water separation treatment system of wastewater and rainwater using a polymer filter, 2009.02.24), Korean Patent No. 101795731 Heo (Oil-water separation device using surface wettability, 2017.11.02) And as in Korean Patent Registration No. 10-1765077 (oil-water separation device, 2017.07.31), research on an oil-water separation device of a filter separation method using the difference in wettability between water and oil is being actively conducted.

However, as described above, in the case of the filter separation method, there is a problem that the filter is clogged by oil. In particular, when the oil-water mixture contains solid impurities, the function is lost due to clogging of the filter.

In order to solve this problem, as in Korean Patent Laid-Open No. 10-2004-0070110 (oil-water separation device equipped with backwashing device, 2004.08.06), a technique for minimizing filter clogging by backwashing is used. Due to the backwashing device, the scale is increased and the operation of the device is complicated due to the control of the backwashing device.

In addition, in the case of a filter using the difference in wettability between water and oil, the oil-water mixture must stay in the filter for a certain amount of time in order for some components of the oil-water mixture to pass through the filter. After the components passing through the filter have passed through the filter to some extent, the components filtered out by the filter are stagnant on the filter surface, so there is still a problem that the function of the filter is not exerted.

Republic of Korea Patent Publication No. 10-2005-0100503 (October 19, 2005: Oil-water separator Republic of Korea Patent No. 10-0886477 (2009.02.24): Wastewater and rainwater solids and oil-water separation treatment system using a polymer filter Republic of Korea Patent No. 101795731 (2017.11.02): Oil-water separation device using surface wettability) Republic of Korea Patent No. 10-1765077 (July 31, 2017): Oil-water separation device Korean Patent Laid-Open Patent No. 10-2004-0070110 (2004.08.06): Oil-water separation device with backwashing device

The present invention has been devised in recognition of the above points, and an object of the present invention is to intermittently stagnate the flow of an oil-water mixture containing oil components and solid impurities to ensure adequate time for moisture to sufficiently pass through the hydrophilic filter while securing To provide an oil-water separation device capable of minimizing the clogging of the hydrophilic filter.

In order to achieve the above object, an oil-water separation device according to the present invention is an oil-water separation device for separating and discharging an oil component and water from an oil-water mixture in which an oil component is mixed, at least two or more filtration units are sequentially arranged Each filtration unit is provided with a filter having hydrophilic or lipophilic properties, and a passage for the oil-water mixture to flow from one filtration unit to the other filtration unit is provided between neighboring filtration units, and the initially disposed filtration unit has its The inlet part is connected so that the oil-water mixture flows into the inside, and the filter part disposed at the end is connected to the outlet part through which the water or oil filtered by the filter is discharged, and the passage connecting the neighboring filtration parts is intermittently opened and closed. It is characterized in that the means is provided.

In addition, in the oil-water separation device according to the present invention, the filtration means has a plurality of filtration units divided and arranged inside one cylinder, and the filtration unit has a height such that the oil-water mixture flows sequentially from the first filtration unit to the last filtration unit. It is arranged to be lowered in sequence, and the opening/closing means is characterized in that it includes a partition wall provided to open and close the passage between the adjacent filtering units.

In addition, the oil-water separation device according to the present invention, the opening and closing means is characterized in that it consists of a valve for opening and closing the passage, and a valve operation part for intermittently opening and closing the valve.

In addition, the oil-water separation device according to the present invention, characterized in that the filter cleaning means for brushing off foreign matter adhering to the filter of the filtration unit is further provided.

In addition, in the oil-water separation device according to the present invention, the filter cleaning means is provided with a brush contacting the inner surface of the filter, and a brush driving unit for moving the brush relatively to the filter while the brush is in contact with the inner surface of the filter. characterized in that it is composed.

In addition, in the oil-water separation device according to the present invention, the filter cleaning means is characterized in that it is further provided with a brush vibrating part for vibrating the brush.

In addition, in the oil-water separation device according to the present invention, the filtering means includes a cylindrical filter unit in which the filter is mounted in a cylindrical shape on a filter support, and an inflow connected to one end of the filter unit to support one end of the filter unit. a connection unit, and a discharge connection unit connected to the other end of the filter unit to support the other end of the filter unit, and the opening/closing means includes at least one so as to divide the inner space of the filter unit in the filter unit. The above is disposed and is configured to include a disk-shaped partition wall having a rotatable disk-shaped partition formed at a predetermined position to be able to rotate, and the filtering means is located at a high inlet connection unit side and a low discharge connection unit side The filter unit is inclinedly supported by the inlet connecting unit and the outlet connecting unit, and the filtering unit of the filtering means is formed by dividing an inner space of the filter unit by the partition wall of the opening and closing means, and adjacent filtration of the filtering means The passage between the parts is opened when the oil water passage port is moved to a lower position while the partition wall of the opening and closing means is rotated and closed when the oil water passage port is moved to a high position, and the inlet is connected to the inlet connecting unit, and the discharge The connection unit is characterized in that the discharge part is connected.

In addition, in the oil-water separation device according to the present invention, a plurality of partition walls of the opening/closing means are provided and arranged, and the oil-water passage ports are formed at positions that cross each other between the adjacent partition walls.

In addition, in the oil-water separation device according to the present invention, the filter support of the filter unit is formed to have a cylindrical shape in which a plurality of openings are formed in the wall, and the filter of the filter unit is attached to the cylindrical body of the filter support and mounted characterized in that

In addition, in the oil-water separation device according to the present invention, the filter support of the filter unit is formed to have an inner support formed to have a cylindrical shape having a plurality of openings formed on the wall, and a cylindrical body shape having a plurality of openings to the wall. An external support coupled to the outside of the inner support is provided so as to surround the outer surface of the inner support and is configured,

The filter is characterized in that the outer support is attached to the filter support by wrapping the outer surface of the filter in a cylindrical shape wound on the outer surface of the inner support.

In addition, the oil-water separation device according to the present invention is further provided with a filter cleaning means for brushing off foreign substances attached to the filter of the filtration unit, wherein the filter cleaning means is located at the center of a cylinder inside the filter unit in the longitudinal direction A brush shaft having both ends supported by the inlet connecting unit and the outlet connecting unit to be rotatably laid out long, a brush provided on the brush shaft so that the ends are in contact with the inner surface of the filter, and a brush driving unit for rotating the brush shaft It is characterized in that it is provided and configured.

In addition, in the oil-water separation device according to the present invention, the filter cleaning means is further provided with a brush vibrating part integrally coupled to the brush shaft so as to vibrate the brush shaft, and a dust absorbing member is provided at both ends of the brush shaft, Each of which is supported by the inlet connecting unit and the outlet connecting unit.

In addition, in the oil-water separation device according to the present invention, the filter support of the filter unit is supported by the inlet connecting unit and the outlet connecting unit so as to be relatively rotatable with respect to the inlet connecting unit and the outlet connecting unit. do.

In addition, the oil-water separation device according to the present invention is characterized in that the rotation driving means for rotating the filter support of the filter unit is further included.

In addition, in the oil-water separation device according to the present invention, a driven gear circumferentially formed on the outer surface of the filter support of the filter unit is formed, and the rotational driving means is connected to the driving gear for transmitting the driving force to be meshed with the driven gear. characterized.

In addition, in the oil-water separation device according to the present invention, the partition wall of the opening/closing means is integrally formed inside the filter support of the filter unit, and the partition wall of the opening/closing means is rotated by rotation of the filter support.

In addition, the oil-water separation device according to the present invention is further provided with a filter cleaning means for brushing off foreign substances attached to the filter of the filtration unit, wherein the filter cleaning means is located at the center of a cylinder inside the filter unit in the longitudinal direction It is characterized in that it is provided with a brush shaft, each end of which is extended and supported by being connected to the inlet connection unit and the exhaust connection unit, and a brush provided on the brush shaft so that the distal end is in contact with the inner surface of the filter.

In addition, in the oil-water separation device according to the present invention, the filter cleaning means is further provided with a brush vibrating part integrally coupled to the brush shaft so as to vibrate the brush shaft, and a dust absorbing member is provided at both ends of the brush shaft, Each is connected to and supported by the inlet connecting unit and the outlet connecting unit.

According to the above configuration, the oil-water separation device according to the present invention intermittently stagnates the flow of the oil-water mixture containing the oil component and the solid impurities, thereby securing an appropriate time for the moisture to sufficiently pass through the hydrophilic filter, and clogging the hydrophilic filter. It has the advantage of minimizing the phenomenon.

1 is a perspective view showing an oil-water separation device according to an embodiment of the present invention;
2 is an exploded perspective view showing a partially disassembled oil-water separation device according to an embodiment of the present invention;
Figure 3 is an exploded perspective view showing the disassembled filtering means in the oil-water separation device according to another embodiment of the present invention;
4 is a partially cut-away perspective view showing a state in which the filtering means and the filter cleaning means are combined in the oil-water separation device according to an embodiment of the present invention;
5 is a cross-sectional view showing a state in which a part of the filtering means and the filter cleaning means are combined in the oil-water separation device according to an embodiment of the present invention;
6 is a perspective view illustrating a state in which the filter cleaning means is connected to and supported by the inlet connecting unit and the outlet connecting unit in the oil-water separation device according to an embodiment of the present invention;
7 is an exploded perspective view illustrating an example in which the internal support of the filter unit and the partition wall of the opening/closing means are integrally formed in the oil-water separation device according to an embodiment of the present invention;
8 is a perspective view conceptually illustrating the arrangement of the partition wall of the opening and closing means in the oil-water separation device according to an embodiment of the present invention;
9 is a flowchart conceptually illustrating the opening and closing state of the passage between the filtering units by the rotation of the partition wall of the opening and closing means in the oil-water separation device according to an embodiment of the present invention;
10A is a view conceptually illustrating a state in which the partition wall of the opening/closing means is integrally formed with the filter unit in the oil-water separation device according to an embodiment of the present invention and rotates together with the rotation of the filter unit;
10B is a view conceptually illustrating a state in which the partition wall of the opening/closing means is formed separately from the filter unit in the oil-water separation device according to an embodiment of the present invention, and the partition wall is rotated relative to the filter unit;
11 is a view conceptually illustrating a state in which the filter cleaning means is fixed and the filter unit is rotated in the oil-water separation device according to an embodiment of the present invention;
12 is a cross-sectional view conceptually illustrating an embodiment in which a brush having part is further provided in the filter cleaning means in the oil-water separation device according to an embodiment of the present invention;
13 is a view conceptually illustrating a state in which the oil-water separation device according to an embodiment of the present invention is connected and used together with the primary filtering device;
14 is a view conceptually illustrating a state in which the oil-water separation device according to another embodiment of the present invention is connected and used together with the primary filtering device;

Hereinafter, an oil-water separation device according to the present invention will be described in more detail with reference to the embodiments shown in the drawings.

Figure 1 is a perspective view showing an oil-water separation device according to an embodiment of the present invention, Figure 2 is an exploded perspective view showing a partially disassembled oil-water separation device according to an embodiment of the present invention, Figure 3 is the present invention It is an exploded perspective view showing the filtration means in an oil-water separation device according to another embodiment, and FIG. 4 is a partial cut-away showing a state in which the filtration means and the filter cleaning means are combined in the oil-water separation device according to an embodiment of the present invention. 5 is a cross-sectional view showing a state in which a part of the filtering means and the filter cleaning means are combined in the oil-water separation device according to an embodiment of the present invention, and FIG. 6 is an oil-water separation device according to an embodiment of the present invention. In is a perspective view showing a state in which the filter cleaning means is connected to and supported by the inlet connection unit and the discharge connection unit, and FIG. 7 is a partition wall between the internal support body of the filter unit and the opening and closing means in the oil-water separation device according to an embodiment of the present invention. It is an exploded perspective view showing an example formed integrally, and FIG. 8 is a perspective view conceptually illustrating the arrangement of the partition wall of the opening/closing means in the oil-water separation device according to an embodiment of the present invention, and FIG. 9 is an embodiment of the present invention. It is a flowchart conceptually showing the opening and closing state of the passage between the filtering units by rotation of the partition wall of the opening and closing means in the oil-water separation device according to the present invention, and FIG. It is a view conceptually showing a state in which it is formed integrally with the filter unit and rotates along with the rotation of the filter unit. It is a view conceptually illustrating a state of rotation relative to the filter unit, and FIG. 11 is a view conceptually illustrating a state in which the filter cleaning means is fixed and the filter unit is rotated in the oil-water separation device according to an embodiment of the present invention 12 is a cross-sectional view conceptually illustrating an embodiment in which a brush having part is further provided in the filter cleaning means in the oil-water separation device according to an embodiment of the present invention, and FIG. 13 is oil-water separation according to an embodiment of the present invention. The unit is connected with the primary sieve unit It is a view conceptually showing a state in which it is used, and FIG. 14 is a view conceptually illustrating a state in which the oil-water separation device according to another embodiment of the present invention is connected and used together with the primary filtering device.

The oil-water separation device 1 according to the present invention is to separate and discharge the oil component (O) and water (W) from the oil-water mixture (L) in which the oil component is mixed. Usually, the oil-water mixture contains fine particles of solid impurities, and the oil-water separation device according to the present invention can filter out fine particles of solid impurities in the oil-water separation process.

Referring to the drawings, the oil-water separation device 1 according to an embodiment of the present invention includes a filtering means 10 , an opening/closing means 20 and a filter cleaning means 30 .

The oil-water separation device (1) according to the present invention is filtered while sequentially passing the plurality of filtering units (14a to 14f) sequentially provided in the filtering means (10) so that the oil-water mixture is separated to separate the oil and water, and at the same time the opening and closing By means 20, the passage connecting the adjacent filtration parts 14a and 14b, 14b and 14c, 14c and 14d, 14d and 14e, 14e and 14f is intermittently opened and closed so that the oil-water mixture L is temporarily filtered. It is characterized in that it is configured to improve the separation effect of running water by the filter 114 and significantly reduce the clogging of the filter 114 by repeating the flow after being stagnated in the inner space of the portions 14a to 14f.

The filtering means 10 is configured to separate the oil component (O) and water from the oil-water mixture (L) passing while the flow and stagnation are intermittently repeated by the opening/closing means 20 .

At least two or more filtering units (14a n 4b to 14f) are sequentially arranged in the filtering means (10). 1 to 13 show that the filtering means 10 has a structure in which the inside of the cylindrical filter unit 11 is divided into six spaces, and six filtering parts (14a to 14f) are sequentially arranged. 1 to 13, the filter unit 11 is formed in a cylindrical shape and is rotatably supported by the inlet connecting unit 12 and the outlet connecting unit 13, and the filtration unit The inner space of the cylinder of (11) is divided into six spaces by the partition walls 211 to 217 constituting the opening/closing means 20 to form six filtering parts 14a to 14f.

Referring to the drawings, the filtering means 10 includes a filter unit 11 , an inlet connection unit 12 , and an exhaust connection unit 13 .

The filter unit 11 is configured to separate the oil component and moisture of the oil-water mixture L introduced through the inlet connection unit 12 . Referring to the drawings, the filter unit 11 has a filter 114 cylindrically mounted on a filter support 111 formed in a cylindrical shape as a frame, and rotates at both ends of the filter support 111 on which the filter 114 is installed. The support parts 115 and 116 have a structure in which they are integrally coupled.

The filter support 111 is configured to fix the filter 114 to maintain a cylindrical shape. The filter support 111 of the filter unit 11 is formed to have a cylindrical shape in which a plurality of openings are formed in the wall, and the filter 114 of the filter unit 11 is formed in the cylindrical body of the filter support 111 . attached and installed Referring to the drawings, the filter support 111 includes an inner support 112 and an outer support 113 .

The inner support 112 constituting the filter support 111 is configured to support the inner surface of the filter 114 so that the filter 114 maintains a cylindrical shape. The inner support 112 is formed to have a cylindrical shape in which a plurality of openings are formed in the wall. Referring to the drawings, the inner support 112 includes a plurality of circumferential frame parts arranged in a circumferential direction of the cylindrical body ( 112a) and a plurality of height-direction frame portions 112b arranged long in the height direction of the cylindrical body are intertwined while crossing each other to form a lattice-shaped opening in the cylindrical body. A plurality of diaphragms 211 to 217 constituting the opening/closing means 20 are integrally formed inside the internal support 112 formed as described above. Referring to the drawings, the plurality of diaphragms 211 to 217 are generally formed at the position of the circumferential frame portion 112a. As described above, the internal support 112 has a complex shape and structure in which the frame portions 112a and 112b and the diaphragms 211 to 217 are integrally formed. Accordingly, the inner support 112 has a divided structure so that it can be molded using a mold and can be assembled by positioning the filter cleaning means 30 to be described later at the center of the inner support 112 . 7 is a view showing a state in which the inner support 112 is configured to be assembled into a cylindrical body by coupling the upper and lower divided parts 112' and 112" formed to be bisected up and down on a cut surface including the center line of the cylindrical body. .

The outer support 113 constituting the filter support 111 is coupled to the outside of the inner support 112 so as to surround the outer surface of the inner support 112 and is between the inner support 112 and the outer support 113 . It is configured to surround and support the outer surface of the filter 114 attached in a cylindrical shape. Referring to the drawings, the outer support 113 has a structure similar to that of the inner support 112 . That is, the outer support 113 is formed to have a cylindrical shape in which a plurality of openings are formed in the wall, similar to the inner support 112, but the filter 114 installed to surround the outer surface of the inner support 112. It has a difference formed in a larger diameter than the inner support 112 to surround the outside. Referring to the drawings, the outer support 113 is also entangled while crossing the circular frame portion 113a and the height direction frame portion 113b like the inner support 112 to form a grid-like opening in the cylindrical body. have In addition, the outer support 113 has a divided structure to facilitate molding using a mold, and to easily surround and assemble the inner support 112 and the filter 114 located inside the outer support 113 . In Figure 2, the external support 113 is bisected up and down on the cut surface including the center line of the cylindrical body, and the upper and lower divided parts 113' and 113" are formed by dividing a hinge 113d at one corner formed by a long installation. The external support 113 is a structure surrounding the outer surface of the filter 114, and the external support 113 is foldable by a hinge 113d, so the filter The replacement of the 114 is facilitated. The divided parts 113' and 113" of the external support 113 are coupled to the other edge at a position opposite to the one edge on which the hinge 113d is installed in a cylindrical shape. A coupling flange portion 113d coupled to each other with a bolt or a hook hook (not shown in the drawing) is formed so as to be maintained in a fixed state. On the other hand, the filter unit 11 is rotatably supported at both ends by the inlet connecting unit 12 and the outlet connecting unit 13 to be rotated, and a rotation driving means for rotating the filter unit 11 ( 40), a driven gear 113e circumscribing the outer periphery is formed on the outer surface of the outer support 113 constituting the filter support 111 to receive the rotational force of the filter support 111, and rotation for driving the filter unit 11 to rotate The driving gear of the driving means 40 is connected to mesh with the driven gear 113e. In a state in which the filter 114 is wound in a cylindrical shape on the outer surface of the inner support 112 , the outer support 113 surrounds the outer surface and is installed and mounted on the filter support 111 . As described above, the external support 113 is divided into divided parts 113' and 113" and is configured to be folded and unfolded by a hinge 113d. When the filter 114 is replaced, the external support 113 is After unfolding the filter 114 in a state in which the external support 113 is separated from the internal support 112 , the filter 114 is replaced, and the external support 113 is placed on the outer surface of the internal support 112 again. ) by folding and bonding the filter 114 is firmly fixed.

The inner space of the filter unit 11 configured as described above is divided into a plurality of filtering units 14a to 14f by a plurality of partition walls 211 to 217 constituting the opening/closing means 20 . Referring to the drawings, a plurality of partition walls 211 to 217 constituting the opening/closing means 20 are disposed in the filter unit 11 inside the filter unit 11 to form the filter unit 11 . divides the inner space of the , and by the division, the filtering parts 14a to 14f of the filtering means 10 are formed in the inner space of the filter unit 11 . As described above, the inner space of the filter unit 11 is divided by the plurality of diaphragms 211 to 217 to form a plurality of filtering sections 14a to 14f, and adjacent filtering sections 14a and 14b, 14b and 14c. , 14c and 14d, 14d and 14e, 14e and 14f) between the oil-water mixture (L) is formed a passage for flowing from the filter on one side to the filter on the other side. As described above, the passages between the adjacent filtering units 14a and 14b, 14b and 14c, 14c and 14d, 14d and 14e, 14e and 14f are intermittently opened and closed by the opening and closing means 20 . This is achieved by the partition walls 211 to 217 constituting the opening/closing means (20), and the passage between the adjacent filtering units in the filter unit (11) of the filtering means (10) is the partition wall of the opening/closing means (20). As (211 to 2177) is rotated, the oil water passage holes 211b to 216b formed in the partition walls 211 to 217 are opened when moved to a lower position, and closed when the oil water passage holes 211b to 216b are moved to a high position. .

A filter 114 having hydrophilic or lipophilic properties is provided in each of the filtering parts 14a to 14f formed inside the filter unit 11 of the filtering means 10 . Referring to the drawings, the filter 114 is attached to surround the outer periphery of the cylindrical filter unit 11 and surrounds each of the filtering parts 14a to 14f divided in the inner space of the filter unit 11. .

The filter 114 may be a lipophilic filter that allows only an oil component to pass through and filters out water, or a hydrophilic oil-repellent filter that allows water to pass through and filters out an oil component. However, in the drawings, the filter 114 surrounding the filter unit 11 shows an example in which water (W) passes and a hydrophilic oil-repellent filter is used to filter out oil components (O) and fine solid impurities, in the following It will be described on the assumption that the hydrophilic and oil-repellent filter 114 is used. Since the hydrophilic and oil-repellent filter 114 shown in the figure forms a water film layer on the surface to which the oil-water mixture L is in contact, water W passes through the filter 114 on which the water film layer is formed, but the oil component O ) is filtered without passing through the filter 114 in which the water film layer is formed due to the difference in density with water. Accordingly, the oil-water mixture (L) introduced into the inside of the filtration means 10 through the inlet (4a) passes through the plurality of filtration parts (14a to 14f) sequentially arranged as described above in sequence, W) passes through the filter 114 in each of the filtering units 14a to 14f and is discharged to the outside, and the oil component (O) and solid impurities are filtered in each of the filtering units 14a to 14f and discharged through the discharge unit 4b. will be discharged to the outside.

The filter support 111 of the filter unit 11 is rotatable relative to the inlet connecting unit 12 and the outlet connecting unit 13 so that the inlet connecting unit 12 and the outlet connecting unit 13 are rotatable. ) is supported. In order to support the filter support 111 , rotation supports 115 and 116 are coupled to both ends of the filter support 111 , respectively, and the rotation supports 115 and 116 are respectively connected to the inlet connecting unit 12 and the outlet connecting unit 13 . ) can be rotated on each. Referring to the drawings, the rotation support 115 connected to the inlet connection unit 12 is formed in a cylindrical shape as a whole, and one end is inserted into the inlet of one end of the inner support 112 of the filter support 111, are combined with each other In addition, the other end of the rotation support 115 connected to the inlet connecting unit 12 is coupled to the outer ring of the bearing 124 provided in the inlet connecting unit 12 . On the other hand, the rotation support 116 connected to the discharge connection unit 13 is formed in a cylindrical shape as a whole, and one end is inserted into the inlet of the other end of the inner support 112 of the filter support 111 and is coupled to each other. . In addition, the other end of the rotation support 116 connected to the discharge connection unit 13 is coupled to the outer ring of the bearing 132 provided in the discharge connection unit 13 . Between both ends of the rotary support 116 connected to the discharge connection unit 13, the discharge opening 116c for discharging the filtered oil component and solid impurities while passing through the plurality of filtering units 14a to 14b. A plurality of is arranged in the circumferential direction and formed through.

The filtering means 10 has an inlet connection unit 12 connected to one end of the filter unit 11 to support one end of the filter unit 11 , and the other end of the filter unit 11 to support the other end of the filter unit 11 . A discharge connection unit 13 connected to the other end of the filter unit 11 is included and configured.

Each of the inlet connecting unit 12 and the outlet connecting unit 13 is configured so that both ends of the filter unit 11 configured as described above are rotatably supported. In addition, the filter unit 11 is connected to the inlet portion 4a through the inlet connection unit 12 so that the oil-water mixture L is introduced therein, and flows into the filter unit 11 so that a plurality of It is connected to the discharge unit 4b through the discharge connection unit 13 so that the oil component and solid impurities filtered while passing through the two filtering units 14a to 14f sequentially are discharged to the outside.

Referring to the drawings, the inlet connection unit 12 includes a skirt 121 formed in a cylindrical shape to surround the outside of the rotation support 115 of the filter unit 11 , and the outside of the skirt 121 . A tubular inlet 122 protruding outward from the central position, and a tubular inlet extension formed to protrude inward in communication with the inlet 122 at the inner center of the skirt 121 ( 123), and a bearing 124 in which an inner ring is inserted and coupled to the inlet extension 123 is provided. The rotation support 115 connected to the inlet connection unit 12 is coupled to the outer ring of the bearing 124 while the other end thereof enters the inside of the skirt 121 to connect the inflow. The rotation support 115 coupled to the unit 12 is rotatably supported by the inlet connection unit 12 . The inlet 122 of the inlet connection unit 12 is connected to the inlet 4a, and the flow of the oil-water mixture L introduced through the inlet 122 is an inlet extension communicating with the inlet 122 ( 123) through the first filter unit 14a of the filter unit 11 is guided.

Next, the discharge connection unit 13 includes a skirt part 131 formed in a cylindrical shape to surround the outside of the rotation support part 116 of the filter unit 11 , and the position of the outer lower part of the skirt part 131 . A tubular outlet 132 protruding outward from the tubular body-shaped outlet 132, a tubular shaft support 133 protruding inward from the inner center of the skirt 131, and an inner ring on the shaft support 133 The inserted and coupled bearing 134 is provided and configured. The rotation support 116 connected to the discharge connection unit 13 has the other end coupled to the outer ring of the bearing 134 in a state in which the other end enters the inside of the skirt 131 to connect the discharge. The rotation support unit 116 coupled to the unit 13 is rotatably supported by the discharge connection unit 13 . The discharge port 132 of the discharge connection unit 13 is connected to the discharge unit 4b and the oil component discharged through the discharge opening 116c of the rotary support 116 connected to the discharge connection unit 13 and The solid impurities are discharged to the outside through the outlet 132 . The end of the brush shaft 31 of the filter cleaning means 30 positioned at the center of the filter unit 11 is coupled to the shaft support 133 to support the filter cleaning means 30 . Accordingly, through the inlet connection unit 12 so that the oil-water mixture (L) is introduced into the firstly disposed filtration unit 10a among the filtration units formed inside the filter unit 11 of the filtration means 10 . The inlet 4a is connected. Referring to FIG. 13 , the oil-water mixture L from which solids having large particles are removed by the primary filtering device 2 is introduced into the inside of the filtering means 10 through the inlet 4a. In addition, in the filtration part 4f disposed last among the filtration parts formed inside the filter unit 11 of the filtration means 10, the discharge connection unit 13 so that the oil component or moisture filtered by the filter 114 is discharged. ) through which the discharge part 14b is connected.

On the other hand, the filter unit 11 so that the oil-water mixture (L) flows in a natural fall, the inlet connection unit side 12 is high and the discharge connection unit 13 side is located at a low position. It is inclinedly supported by the inlet connecting unit 12 and the outlet connecting unit 13 . A plurality of filtration units (14a to 14f) disposed inside one cylinder so that the oil-water mixture (L) naturally falls and flows between the plurality of filtration units (14a to 14f) without a pressurizing means such as a pump using power They are sequentially arranged to be lowered in height. That is, the plurality of filtration parts 14a to 14f are connected from the first filtration part 14a to the last filtration part 14f so that the oil-water mixture L flows sequentially from the first filtration part 14a to the last filtration part 14b. ) direction, the height is sequentially lowered. The drawing shows an embodiment in which the filter unit 11 of the cylindrical body is inclined at an angle so that the natural falling flow of the oil-water mixture L is made.

The opening/closing means 20 is configured to intermittently open and close the passages between the adjacent filtering units 14a and 14b, 14b and 14c, 14c and 14d, 14d and 14e, 14e and 14f. Referring to the drawings, the opening/closing means 20 is constituted by partitions 211 to 217 integrally formed with the internal support 112 of the internal support 112 constituting the filter unit 11 . In particular, according to the present invention, the inner space of the filter unit 11 is divided into a plurality of filtering units 14a to 14f by the plurality of partition walls 211 , 212 , 213 , 214 and 215 constituting the opening/closing means 20 . That is, a plurality of partition walls 211 to 217 constituting the opening/closing means 20 are disposed inside the filter unit 11 inside the filter unit 11 to define the inner space of the filter unit 11 . By dividing, the filtering parts 14a to 14f of the filtering means 10 are formed in the inner space of the filter unit 11 and at the same time rotated to open and close the passage between the filtering parts 14a to 14f do.

Referring to the drawings, at least one partition wall 211 to 217 constituting the opening/closing means 20 is formed in a disk shape to divide the inner space of the filter unit 11 inside the filter unit 11 . It is disposed and has a structure in which the flowing water passage holes (211b to 216b) are formed at a predetermined position. The drawing shows a structure in which the water passage holes 211b to 216b are formed by removing a portion of the disk-shaped partition walls 211 to 216 . Referring to the drawings, the partition walls 211 to 215 located between the six filtration parts 14a to 14f have a sector-shaped portion corresponding to a quarter removed to form the flowing water passage ports 211b to 215b, The partition wall 216 located on the inlet side of the first filtering unit 14a has a sector-shaped portion corresponding to a semicircle removed to form a running water passage port 216b. In addition, the partition wall 217 located on the outlet side of the last filtering part 14f is formed in a shape in which a step having a certain height goes round in the circumferential direction, so that a constant water level is always maintained in the last filtering part 14f. .

As described above, the passages between adjacent filtering units constituting the filtering means 10 are opened and closed according to the rotation of the partition walls 211 to 217 in which the flowing water passages 211b to 216b are formed. That is, the passage between adjacent filtration units is opened when the partition walls 211 to 217 of the opening and closing means 20 are rotated and the water passage holes 211b to 216b formed in the partition walls 211 to 217 are moved to a lower position. When the flowing water passage holes (211b to 216b) are moved to a high position, they are closed. In addition, the flowing water passage holes 211b to 217b formed in the plurality of partition walls 211 to 217 constituting the opening/closing means 20 are formed between the adjacent partition walls 211 and 212, 212 and 213, 213 and 214, 214 and 215. In the flowing water passage holes (211b to 216b) are formed at positions that cross each other. 8 shows a state in which the water passage holes 211b to 216b are formed at alternating positions, and FIG. 9 is a 90-degree interval of the partition walls 211 to 217 in which the water passage holes 211b to 216b are formed as in FIG. It conceptually shows a state of alternately and intermittently opening and closing the passages connecting the adjacent filtering units 14a and 14b, 14b and 14c, 14c and 14d, 14d and 14e, and 14e and 14f while rotating with each other. Referring to FIGS. 8 and 9 , in FIG. 9 ( a ) is located between the second filtration part 14b and the third filtration part 14c in the state where the filtration unit 11 is positioned as in FIG. 8 . The passage is blocked by the partition wall 214 located between the partition wall 212 and the fourth filtering part 14d and the fifth filtering part 14f, so that the oil-water mixture is in some of the filtering parts 14a, 14b, 14c, and 14d. It shows a stagnant state, and (b) of FIG. 9 shows a state in which the filtration unit 11 is rotated 90 degrees in the state of FIG. 8 and the entire partition walls 211 to 217 are opened. And FIG. 9 (c) shows the partition wall 211 positioned between the first filtration part 14a and the second filtration part 14b by rotating the filtration unit 11 by 180 degrees in the state of FIG. 8, the third filtration The passage is blocked by the partition wall 213 located between the portion 14c and the fourth filtering portion 14d and the partition wall 215 located between the fifth filtering portion 14e and the sixth filtering portion 14f. Some of the filtering units (14a, 14b, 14c, 14d, 14d) show a state in which the oil-water mixture is stagnant, and in FIG. It shows a state in which the entire passage is blocked by (211 to 217).

On the other hand, in Fig. 10a including Figs. 7 to 9, the plurality of partition walls 211 to 217 constituting the opening/closing means 20 are integrally formed with the internal support 112 constituting the filtration unit 11, , and thus the opening and closing of the passage by the partition wall 211 is illustrated in an embodiment in which the partition walls 211 to 217 are rotated integrally with the rotation of the filtration unit 11 . That is, in the embodiment shown in FIG. 10A , when the filtration unit 11 is rotated, the partition walls 211 to 217 of the opening/closing means 20 integrally formed with the filtration unit 11 are configured to rotate. On the other hand, in FIG. 10B, the partition walls 211' to 217' constituting the opening/closing means 20 are separated from the filtration unit 11, and accordingly, only the partition walls 211' to 217' rotate independently of the passage. An embodiment configured to open and close is shown. That is, the present invention means that the rotation of the partition walls 211 to 217 constituting the opening/closing means 20 is sufficient, and the rotation can be configured to be made separately from the filtration unit 11 . However, when the filtration unit 11 is stopped, only a portion of the filter 114 is used because the oil-water mixture L flows in contact with only the lower position of the filter 114, so the filtration unit 11 It is preferable that the silver is rotated in that all of the cylindrically formed filter 114 is used. Furthermore, as described above, the present invention is configured to open and close the passage between the filtration units 14a to 14b constituting the filtration unit 11 while the partition walls 211 to 217 constituting the opening/closing means 20 are rotated. Therefore, the rotation of the filtration unit 11 and the partition walls 211 to 217 are integrally configured to rotate at the same time, thereby simplifying the structure.

On the other hand, the filter cleaning means 30 for brushing off foreign matter from the filter 114 is accommodated and installed inside the filter unit 11, the brush shaft 31 constituting the filter cleaning means 30 passes Shaft through-holes (211a to 216a) are formed in the center of the disk of the plurality of partition walls (211 to 217) constituting the opening and closing means (20).

The filter cleaning means 30 is configured to shake off foreign substances attached to the filter 114 of the filtering units 14a to 14f. The filter cleaning means 30 moves relatively to the filter 114 while the brush 32 is in contact with the inner surface of the filter 114 and the brush 32 is in contact with the inner surface of the filter 114 . A brush driving unit (not shown in the drawing) is provided and configured. Referring to the drawings, the filter cleaning means 30 is located at the center of the cylinder inside the filter unit 11 and is placed long in the longitudinal direction so as to be rotatable at both ends of the inlet connecting unit 12 and the outlet connecting unit. A brush shaft 31 supported by (13), a brush 32 provided on the brush shaft so that the distal end is in contact with the inner surface of the filter 114, and a brush driving unit for rotating the brush shaft 31 ( not shown in the drawing) is provided and configured. Referring to the drawings, one end of the brush shaft 31 is coupled to and supported by the shaft support 133 provided in the discharge connection unit 13 . The brush 32 is spirally attached while circumferring the brush shaft 31 . The brush 32 is formed of a material such as resin or silicone in the form of hair.

As described above, the filter cleaning means 30 composed of the brush shaft 31 and the brush 31 rotates the brush shaft 31 by the brush driving unit (not shown) so that the brush 32 is cleaned. It may be configured to move relative to the inner surface of the filter 114 . However, the relative movement of the brush 32 and the filter 114 can be achieved by rotation of the brush shaft 31, but on the contrary, the brush shaft 31 is fixed and the filter unit 11 on which the filter 114 is installed. Rotation can also be done. In particular, as described above, the oil-water separation device 1 according to the present invention shown in the drawings is configured to rotate the partition walls 211 to 217 constituting the opening/closing means 20 by the rotation of the filter unit 11. Using rotation of the filter unit 11 configured to be rotated at a point, the brush shaft 31 may be configured to be fixed. FIG. 11 conceptually illustrates a state in which the filter unit 11 is rotated and the brush shaft 31 is fixed, so that relative movement occurs between the brush 32 and the filter 114 as described above.

In addition, in the oil-water separation device 1 according to an embodiment of the present invention, the filter cleaning means 30 includes a brush having part 33 for vibrating the brush 32 is coupled to the brush shaft 31, can get 12 shows an embodiment in which the brush exciter 33 is mounted to the brush shaft 31 . By the brush vibrating part 33 , a vibration having a high frequency and a fine amplitude is applied to the brush 32 , so that foreign substances adhering to the filter 114 by the brush 32 are effectively removed. It is preferable that the brush vibrator 33 uses an ultrasonic vibrator capable of generating a vibration of a fine amplitude at a high frequency. Rubber or rubber is applied to both ends of the brush shaft 31 so that the vibration generated by the brush having part 33 is not transmitted to the inlet connection unit 12 and the discharge connection unit 13 to which the brush shaft 31 is connected. Suction members 34a and 34b made of silicon are provided and are respectively connected to the inlet connecting unit 12 and the outlet connecting unit 13 .

The oil-water separation device 1 according to an embodiment of the present invention configured as described above is connected to the primary filtering device 1 through the inlet 4a as shown in FIG. 13 . The oil-water mixture discharged to the inlet 4a after being filtered by the primary sieve 1' provided in the primary sieving device 1 is introduced into the filtration unit of the oil-water separation device 1, , while the introduced oil-water mixture sequentially passes through a plurality of filtration units 14a to 14f, water W passes through the filter 114 and is discharged to the collection tank 3, and the oil component filtered by the filter 114 (O) and the solid foreign material is discharged to the outside through the discharge part (4b), as a result, the water and oil components of the oil-water mixture are separated. At this time, the partition walls 211 to 217 for opening and closing the passage between the filtration units 14a to 14f of the filtration unit 11 are rotated with the rotation of the filtration unit 11 and are formed between the filtration units 14a to 14f. The passages are intermittently and alternately opened and closed, and accordingly, the flow of the oil-water mixture introduced into the filtration unit 11 is repeatedly stagnated and flowed in each of the filtration units 14a to 14f, so that the filter ( 114), the oil-water separation of the oil-water mixture is effectively achieved.

On the other hand, the oil-water separation device according to the present invention is characterized in that the flow of the oil-water mixture introduced into the plurality of filtration units is stagnated and then flowing is intermittently configured to repeat. Separation device 1 is provided with partition walls 211 to 217 integrally formed inside the filtration unit 11 having a cylindrical shape, and as the partition walls 211 to 217 are rotated by the rotation of the filtration unit 11, the oil-water mixture It is designed to intermittently control the flow of

On the other hand, the characteristics according to the present invention as described above, unlike the embodiment shown in Figs. 1 to 13, as in the embodiment shown in Fig. 14, a plurality of independently divided filtering units (14a' to 14f') sequentially It may be configured to intermittently intermittently control the flow of the oil-water mixture passing through the plurality of filtering units 14a' to 14f' by the on/off valves 211' to 216' installed in the passage (pipe) connecting the plurality of filtering units 14a' to 14f'.

The oil-water separation device described above and shown in the drawings is only one embodiment for carrying out the present invention, and should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is defined only by the matters described in the claims below, and improved and changed embodiments without departing from the gist of the present invention are obvious to those of ordinary skill in the art to which the present invention belongs. It will be said that it falls within the protection scope of the present invention.

1 Oil-Water Separation Device
10 Filtration means
11 filter unit
111 filter support
112 inner support
113 external support
114 filter
115 rotary drive means
12 Inlet connection unit
13 exhaust connection unit
14a, 14b, 14c, 14d, 14e, 14f filter section

20 Opening and closing means
211,212,213,214,215,216,217 bulkhead
22 valve
23
30 Filter cleaning means
31 brush axis
32 brush
33 wealth
34a, 34b absorption member
2 primary sieve
3 collection
4a, 4b inlet, outlet
L oil-water mixture
W separated water
O Separated oil component

Claims (18)

delete delete delete delete delete delete In the oil-water separation device for separating and discharging the oil component and water from the oil-water mixture in which the oil component is mixed,
At least two or more filtration units are sequentially disposed, and each filtration unit is provided with a filter having hydrophilic or oil repellent or lipophilic properties, and a passage is provided for the oil-water mixture to flow from one filtration unit to the other filtration unit between adjacent filtration units. , A filtering unit is connected to the inlet to allow the oil-water mixture to be introduced therein to the firstly disposed filtration unit, and to the lastly disposed filtration unit is connected to an outlet through which the water or oil filtered by the filter is discharged; An opening/closing means for intermittently opening and closing a passage connecting between neighboring filtration units; is provided,
The filtering means includes a cylindrical filter unit in which the filter is mounted in a cylindrical shape on a filter support, an inlet connection unit connected to one end of the filter unit to support one end of the filter unit, and the other end of the filter unit. A discharge connection unit connected to the other end of the filter unit to support is included and configured,
At least one opening/closing means is disposed inside the filter unit to divide the inner space of the filter unit and includes a disk-shaped partition wall provided with a rotatable flow-through hole at a predetermined position,
The filtering means is supported by the inlet connecting unit and the outlet connecting unit so that the inlet connecting unit side is high and the outlet connecting unit side is located at a low position, and the filter unit is inclined at an angle,
The filtering unit of the filtering means is formed by dividing the inner space of the filter unit by the partition wall of the opening and closing means,
The passage between the adjacent filtration units of the filtering means is opened when the flow-through port is moved to a lower position while the partition wall of the opening/closing means is rotated and closed when the oil-water passage is moved to a higher position,
An inlet is connected to the inlet connection unit,
Oil-water separation device, characterized in that the discharge unit is connected to the discharge connection unit. 8. The method of claim 7,
A plurality of partition walls of the opening and closing means are provided and arranged,
Oil-water separation device, characterized in that the oil-water passage ports are formed at positions that are alternated with each other between the adjacent partition walls. 9. The method of claim 7 or 8,
The filter support of the filter unit is formed to have a cylindrical shape in which a plurality of openings are formed in the wall,
The filter of the filter unit is an oil-water separation device, characterized in that it is attached to the cylindrical body of the filter support. 10. The method of claim 9,
The filter support of the filter unit includes an inner support formed to have a cylindrical shape having a plurality of openings formed on the wall, and a cylindrical body shape having a plurality of openings formed on the wall to surround the outer surface of the inner support. An external support coupled to the is provided and configured,
The filter is an oil-water separation device, characterized in that in a state wound in a cylindrical shape on the outer surface of the inner support, the outer support wraps the outer surface and is attached to the filter support and mounted. 11. The method of claim 10,
A filter cleaning means for brushing off foreign substances attached to the filter of the filtration unit is further provided,
The filter cleaning means is located at the center of a cylinder inside the filter unit and is placed long in the longitudinal direction to be rotatable at both ends of the brush shaft supported by the inlet connecting unit and the outlet connecting unit, respectively, and the ends are located on the inner surface of the filter. Oil-water separation device comprising a brush provided on the brush shaft in contact with the brush, and a brush driving unit for rotating the brush shaft. 12. The method of claim 11,
The filter cleaning means is further provided with a brush vibrating part integrally coupled to the brush shaft so as to vibrate the brush shaft,
The oil-water separation device, characterized in that each of the both ends of the brush shaft is provided with a dust absorption member supported by the inlet connection unit and the discharge connection unit, respectively. 10. The method of claim 9,
The filter support of the filter unit is an oil-water separation device, characterized in that supported by the inlet connecting unit and the outlet connecting unit to be relatively rotatable with respect to the inlet connecting unit and the outlet connecting unit. 14. The method of claim 13,
Oil-water separation device, characterized in that the rotation driving means for rotating the filter support of the filter unit is further included. 15. The method of claim 14,
A driven gear circumscribing the outer periphery is formed on the outer surface of the filter support of the filter unit,
The rotation driving means is an oil-water separation device, characterized in that the driving gear for transmitting the driving force is connected to mesh with the driven gear. 14. The method of claim 13,
The partition wall of the opening and closing means is integrally formed inside the filter support body of the filter unit,
The partition wall of the opening and closing means is an oil-water separation device, characterized in that rotated by the rotation of the filter support. 14. The method of claim 13,
A filter cleaning means for brushing off foreign substances attached to the filter of the filtration unit is further provided,
The filter cleaning means is located at the center of a cylinder inside the filter unit and is placed long in the longitudinal direction so that both ends are connected to the inlet connecting unit and the outlet connecting unit and supported on the brush shaft, and the ends are in contact with the inner surface of the filter. Oil-water separation device, characterized in that it is provided with a brush provided on the brush shaft. 18. The method of claim 17,
The filter cleaning means is further provided with a brush vibrating part integrally coupled to the brush shaft so as to vibrate the brush shaft,
Oil-water separation device, characterized in that each of the both ends of the brush shaft is provided with a dust absorption member is connected to and supported by the inlet connection unit and the discharge connection unit, respectively.

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