KR101621956B1 - Ejector improved model gravity type filtering equipment - Google Patents

Abstract

The present invention relates to a gravity filtration apparatus for use in a water purification plant, and it is an object of the present invention to improve the structure of a vacuum discharge pipe so as to rapidly discharge air in a siphon connected to a discharge pipe to a main or auxiliary vacuum discharge pipe during a backwash process, And to provide an ejector-modified gravity-type filtration device capable of performing effective backwashing while reducing the size of the ejector.
The present invention is characterized in that a raw water supply tank, a filter medium layer and a water collecting tank are provided below the filtered water storage tank, the filtered water storage tank and the water collecting tank are interconnected by a vent pipe to allow the filtered water to be moved, And the siphon is vacuumed by using the filtered water discharged from the filtered water storage tank during backwashing, and the siphon is returned to the siphon A gravity filtration device comprising: an air discharge means for discharging wash water; The air discharge means includes a main vacuum discharge pipe for sucking air from the tip of the siphon and an auxiliary vacuum discharge pipe for sucking air from the upper end of the siphon to an upper ejector connection port to which the ejector principle is applied to the main vacuum discharge pipe, The lower end of the discharge pipe is connected to the lower part of the filtration water storage tank and the vacuum water discharge pipe having a control valve is connected to the lower ejector connection port. When the filtered water is discharged through the vacuum water discharge pipe, the air in the main vacuum discharge pipe is sucked The siphon is firstly vacuumed, and when the backwash water is discharged by the main vacuum discharge pipe, the secondary vacuum exhaust pipe and the air in the siphon are sucked in, and the siphon is subjected to the second vacuum.

Description

[0001] The present invention relates to an ejector improved gravity type filtering equipment,

The present invention relates to a gravity filtration apparatus for use in a water purification plant, and more particularly, to a vacuum suction apparatus for improving the structure of a vacuum discharge pipe to rapidly discharge air in a siphon connected to a discharge pipe in a backwash process to a main or auxiliary vacuum discharge pipe So that an effective backwashing operation can be performed while shortening the backwashing time, and to provide an improved ejector type gravity-type filtration device.

Filtration devices of various configurations are provided in a water purification plant, and a gravity filtration device is used as a representative example.

BACKGROUND ART As a prior art of a gravity type filtration device, an automatic filtration type backwashing device of Korean Utility Model Publication (Y1) Publication No. 20-1983-0002427 (November, 1983) has been proposed, It is installed as a connection pipe connected to the head tank at the lower end of the pipe so that the backwash water can be discharged by the backwash pipe when water is supplied to the connection pipe when the head tank is raised in water level.

1, the gravity filtration apparatus 1 widely used in recent years is provided with a water collecting tank 2 in the lower part thereof and a filter material layer 3 provided on the upper side of the water collecting tank 2 so as to have a predetermined thickness And a raw water supply tank 5 in which raw water supply pipe 4 is piped so that raw water is continuously supplied is provided on the upper side of the filter medium layer 3 and an upper panel 5a constituting raw water supply tank 5 is provided in the middle The water supply tank 5 is provided with a filtration water storage tank 7 having an upper opening and a water discharge opening 6 for discharging stored filtration water, A plurality of vent pipes 8 vertically installed across the filter medium layer 3 and the raw water supply tank 5 are provided between the reservoir 7 and the backwash water is supplied to the outside of the curved upper panel 5a The backwash water discharge pipe 9 is piped to discharge the backwash water discharge pipe 9, The siphon 11 is installed at the upper end of the siphon 11 so as to have a position higher than the water level of the siphon water storage tank 7. The siphon 11 is provided with air discharge means 12 for forcibly discharging air in the siphon 11 ) Is provided. At this time, the lower end of the discharge side of the siphon (11) is configured to be immersed in the backwashing collection tank (10).

In the case of the above-described air discharge means 12, a main vacuum discharge pipe 13 is installed inside the backwash water discharging pipe 9 so that the upper end thereof is positioned at the front end of the siphon 11, A vacuum water discharge pipe 15 connected to the upper end of the siphon 11 is connected to the lower end of the main vacuum discharge pipe 13 and a vacuum water discharge pipe 15 connected to the filtering water storage tank 7 is connected to the main vacuum discharge pipe 13, And a vacuum ejector 16 is provided at the lower end of the discharge pipe 13.

In this case, the vacuum water discharged through the vacuum water discharge pipe 15 is discharged through the vacuum ejector 16, and the air in the main vacuum discharge pipe 13 must be quickly discharged. As shown in the drawing, the siphon 11 The auxiliary vacuum exhaust pipe 14 connected to the phase of the siphon 11 is connected to the vacuum ejector 16 and takes a long time to suck the air inside the siphon 11 and vacuum it. There has been a demand in the industry for a new, uniform air discharge means 12 capable of solving these problems.

KR 2019830002427 Y1 1983.11.09.

Accordingly, the inventor of the present invention has researched and developed the present invention in order to solve the problems such as a long backwashing time due to the vacuum time stagnation in the siphon in the conventional gravity type filtration apparatus. In the present invention, A vacuum exhaust pipe and an auxiliary vacuum exhaust pipe sucked at the upper end of the siphon are connected to a main vacuum exhaust pipe through an upper ejector connection port to which an ejector principle is applied, a middle lower end of the main vacuum exhaust pipe is connected to a lower portion of a filtering water storage tank, The vacuum water discharge pipe is connected to the lower ejector connection port. When the filtered water is discharged to the vacuum water discharge pipe, the air in the main vacuum discharge pipe is sucked to perform the primary vacuum, and when the backwash water is discharged through the main vacuum discharge pipe, The air in the discharge pipe and the siphon is sucked to make the siphon second vacuum, The present invention provides an improved ejector-type gravity-type filtration device for discharging backwash water in a short time to shorten backwashing time while effectively discharging backwashing water by discharging air in a siphon in a short time. The present invention has been completed.

The filtering water storage tank and the filtered water collecting tank are connected to each other through a vent pipe to allow the filtered water to be moved. In the filtered water collecting tank or the filtered water storage tank, And the siphon is vacuumed by using vacuum water discharged from the filtered water storage tank at the time of backwashing, and the siphon is discharged through the discharge water pipe And an air discharge means for discharging backwash water to the siphon, the apparatus comprising: The air discharge means includes a main vacuum discharge pipe for sucking air from the tip of the siphon and an auxiliary vacuum discharge pipe for sucking air from the upper end of the siphon to an upper ejector connection port to which the ejector principle is applied to the main vacuum discharge pipe, The lower end of the discharge pipe is connected to the lower part of the filtration water storage tank and the vacuum water discharge pipe having a control valve is connected to the lower ejector connection port. When the filtered water is discharged through the vacuum water discharge pipe, the air in the main vacuum discharge pipe is sucked The siphon was firstly vacuumed and the siphon was subjected to a second vacuum when the backwash water was discharged into the main vacuum drain pipe by sucking air in the auxiliary vacuum drain pipe and the siphon.

In addition, the vacuum water discharge pipe is piped downward in the filtered water storage tank to increase the water pressure.

When the ejector-modified gravity type filtration apparatus provided in the present invention is used to clean the filter medium layer due to contamination of the filter medium layer, when the filtered water is discharged through the vacuum water discharge pipe, the main vacuum discharge pipe connected to the ejector connector, And then a part of the backwash water is discharged through the main vacuum drain pipe, air in the siphon is sucked through the auxiliary vacuum drain pipe and a secondary vacuum is generated, so that the wash water can be quickly discharged to the siphon , It is possible to quickly provide a vacuum time within a period of 30 minutes or more within 5 minutes, thereby greatly shortening the backwashing time.

In the present invention, since the inlet of the outlet is disposed close to the water surface of the filtered water storage tank, the occurrence of filtration water in the filtered water storage tank is prevented. Therefore, even when the present invention is installed outdoors, it is possible to prevent the occurrence of green tide, It is possible to expect the effect of eliminating the problems such as the secondary contamination of the filter material layer and the loss of functionality during backwashing.

1 is a cross-sectional view showing an example of a conventional gravity-type filtration apparatus
Fig. 2 is a cross-sectional view showing a preferred embodiment of the ejector-modified gravity-type filtration apparatus provided in the present invention. Fig.
3 is a cross-sectional view illustrating the operation of the upper and lower ejector connector provided in the present invention.
Fig. 4 is a state diagram of the vacuum water discharge tube according to the present invention,

Hereinafter, an embodiment of the ejector-modified gravity-type filtration apparatus provided in the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a cross-sectional view showing a preferred embodiment of the ejector-modified gravity-type filtration apparatus provided in the present invention, and FIG. 3 is an enlarged cross-sectional view showing the structure of the ejector connector used in the present invention. However, in the case of the same member as the conventional one, the same reference numerals are applied to facilitate understanding of the present invention.

As shown in the drawing, the ejector-modified gravity-type filtration apparatus 1 provided in the present invention is provided with a water collecting tank 2 at a lower portion thereof and a filter material layer 3 having a predetermined thickness at the upper side of the water collecting tank 2.

On the upper side of the filter material layer 3, a raw water supply pipe 4 is piped to provide a raw water supply tank 5 in which raw water is continuously supplied. The upper panel 5a constituting the raw water supply tank 5 has a curved shape with a high intermediate portion and the upper panel 5a also serves as a bottom function of the filtering water storage tank 7 to be described later.

A filtration water storage tank 7 is installed at the upper side of the raw water supply tank 5 and has a waterproof opening 6 for opening the upper part and discharging the stored filtrate water.

A plurality of vent pipes 8 vertically installed on the filter medium layer 3 and the raw water supply tank 5 are provided between the water collecting tank 2 and the filtering water storage tank 7, And the filtered water is moved to the upper filtered water storage tank 7.

A backwash water discharge pipe 9 for discharging backwash water to the outside is piped at the center of the curved upper panel 5a and a siphon valve 9 is provided at the upper end of the backwash water discharge pipe 9 at a position higher than the water level of the filtration water storage tank 7, (11). And the lower end of the discharge side of the siphon (11) is immersed in the backwashing collection tank (10).

The raw water in the raw water supply tank 5 is not discharged when the raw water is normally filtered and the raw water in the raw water supply tank 5 and the raw water supply tank 5 ) To be discharged together with the wash water.

The siphon 11 is provided with an air discharging means 12 for forcibly discharging air in the siphon 11 during backwashing.

The gravity-type filtration device 1 having the above-described structure is a well-known technique that is widely used in general.

In the present invention, in the construction of the gravity filtration device 1 configured as described above, first, the structure of the air discharge means 12 is improved to rapidly discharge the air inside the siphon 11, The backwashing can be performed in a short time, and secondly, the structure of the waterproofing hole 6 for discharging the filtered water stored in the filtration water storage tank 7 to the outside is improved, and in particular, the filtered water is stagnated in the summer water filtration water storage tank 7 And the occurrence of green algae phenomenon.

The air discharging means 12 of the present invention for quickly discharging the air inside the siphon 11 is provided with an upper ejector coupling hole 17 at the upper end of a vertically piped main vacuum discharge pipe 13 And a horizontal discharge pipe 13a connected to the front end of the siphon 11 connected to the backwash water discharge pipe 9 is connected to the horizontal coupling portion of the upper ejector connection port 17, And an auxiliary vacuum discharge pipe (14), which is piped to the upper end of the siphon (11) and has a diameter smaller than the diameter of the main vacuum discharge pipe (13), is piped vertically.

The lower ejector connector 18 is connected to the middle lower end of the main vacuum discharge pipe 13 and the horizontal coupling part of the lower ejector connector 18 is connected to the lower part of the filtering water reservoir 7, 15a, and a vacuum water discharge pipe 15 having the same diameter as the main vacuum discharge pipe 13 is piped.

3, the fluid discharged through the vacuum water discharge pipe 15 or the horizontal discharge pipe 13a reaches the main vacuum discharge pipe 13 as shown in FIG. 3, so that the upper ejector connection hole 17 and the lower ejector connection hole 18 The instantaneous suction chamber 19 is formed at the intersection portion, and the air in the vertical side is dropped while forcibly sucking the air in the vertical direction, so that the air in the tubular body connected to the vertical side is discharged to provide a vacuum state.

Therefore, when the filtered water is discharged into the vacuum water discharge pipe 15, the air in the main vacuum discharge pipe 13 is sucked to raise the water level of the backwash water discharge pipe 9 by first vacuuming the siphon 11, The air in the siphon 11 through the auxiliary vacuum discharge pipe 14 connected to the upper end of the siphon 11 when the backwash water which has been raised to the upper discharge port 13a is discharged to the main vacuum discharge pipe 13 through the horizontal discharge pipe 13a, And the backwash water is discharged through the siphon 11 when the secondary siphon 11 is vacuumed.

The configuration of the water outlet (6) for discharging the filtered water stored in the filtered water storage tank (7) is provided so that the entrance of the water outlet (6) is close to the water surface of the filtered water stored in the filtrate water storage tank (7).

This configuration is such that the filtered water is supplied to the bottom of the filtered water storage tank 7 through the vent pipe 8 in the water collecting tank 2 and the filtered water is discharged to the filtered water storage tank 7 through the waterproof opening 6, In particular, it is possible to prevent a green algae phenomenon that may occur due to the stagnation of filtered water in the summer filtration water storage tank 7, thereby solving the problem of contamination of the filter medium layer 3 during backwashing.

FIG. 4 shows a state diagram of the vacuum water discharge tube according to the present invention.

4, the vacuum water discharge pipe 15 can be connected to the lower end of the main vacuum discharge pipe 13 by downwardly sloping it in the filtered water storage tank 7. When the vacuum water discharge pipe 15 is piped, the filtered water is used as the vacuum water while being connected to the filtered water storage tank 7. The water surface of the filtered water storage tank 7 and the lower ceiling of the vacuum water discharge pipe 15 are higher The vacuum pressure of the main vacuum exhaust pipe 13 can be further improved and the backwashing time can be shortened.

The upper and lower ejector connection ports 17 and 18 provided in the present invention apply a known ejector configuration. As mentioned above, the lower ejector connection port 18 allows the first fluid to be discharged from the filtered water storage tank 7 And the second fluid is air discharged from the top of the siphon 11 and the upper end of the siphon 11 and the upper ejector connector 17 is a vacuum fluid in which the first fluid flows over the end of the siphon 11 And the second fluid is air discharged from the top of the siphon 11.

In the figure, reference numeral 20 denotes a water level sensor installed in the filtered water storage tank 7 to sense the low water level of the filtered water.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. Therefore, the scope of protection of the present invention should not be limited to the described embodiment, but should be determined by the equivalents as well as the claims that follow.

Conventional technology
1: gravity type filtration device 2: water collecting tank
3: filter medium layer 4: raw water supply pipe
5: raw water supply tank 5a: upper panel
6: Reservoir 7: Filtered reservoir
8: vent pipe 9: backwash water discharge pipe
10: backwash collection tank 11: siphon
12: air discharge means 13: main vacuum discharge pipe
14: auxiliary vacuum outlet pipe 15: vacuum water outlet pipe
15a: Control valve 16: Vacuum ejector
Invention
13a: Horizontal discharge pipe 17: Upper ejector connector
18: Lower ejector connector 19: Suction chamber

Claims (2)

A raw water supply tank 5, a filter material layer 3 and a water collecting tank 2 are provided below the water storage tank 7 and the water storage tank 7 and the water collecting tank 2 are connected to each other through a vent pipe 8 And a washing water discharge pipe is piped to the raw water supply tank 5. The washing water discharge pipe is connected to a filtered water storage tank 7 The siphon 11 is installed at a higher level than the water level of the siphon 11 and the siphon 11 is vacuumed by using the filtered water discharged from the filtered water storage tank 7 during backwashing, A gravity filtration device (1) comprising means (12);
The air discharge means 12 includes a main vacuum discharge pipe 13 for sucking air at the front end of the siphon 11 and an auxiliary vacuum discharge pipe 14 for sucking air at the upper end of the siphon 11, (13) is connected to an upper ejector connector (17) to which an ejector principle is applied,
A vacuum water discharge pipe 15 having a control valve 15a is connected to a lower portion of the filtration water reservoir 7 at a middle lower end of the main vacuum discharge pipe 13 to be connected to a lower ejector connection port 18,
When the filtered water is discharged to the vacuum water discharge pipe 15, the air in the main vacuum discharge pipe 13 is sucked and the siphon 11 is firstly vacuumed. When the backwash water is discharged into the main vacuum discharge pipe 13, (14) and the siphon (11) are sucked in, and the siphon (11) is subjected to secondary vacuum.
The method of claim 1,
Wherein the vacuum water discharge pipe (15) is piped downwardly inclined in the filtered water storage tank (7) to increase the water pressure.

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