KR101344852B1 - An apparatus for rainwater purification with replacement type of multi-filter cartridge - Google Patents

Abstract

Provided is a rainwater treatment device for collecting relatively good quality rainwater excluding initial rainwater and then purifying the rainwater through a multistage replaceable filter cartridge in order to use good quality water when needed for living. The rainwater treatment device of the present invention comprises: a precipitation tank, which collects and settles rainwater through an inlet pipe branched from a discharging pipe, which discharges rainwater; a filter chamber, which filters the rainwater in the precipitation tank by using the multistage replaceable cartridge filter while making the rainwater flow upward through the lower part; an undercurrent tank, which collects the filtered rainwater passing through the filter chamber for being used when needed; and a separator for separating initial rainwater from rainwater to guide relatively good-quality rainwater to the inlet pipe. [Reference numerals] (AA,BB,CC) Separation, installation

Description

An apparatus for rainwater purification with replacement type of multi-filter cartridges

The present invention relates to a rainwater treatment apparatus, and more particularly, to a rainwater treatment apparatus using a multi-stage filter cartridge for selectively receiving relatively high quality rainwater and purifying it through a multi-stage replaceable filter cartridge to reuse water for daily living. It is about.

Since ancient times, Korea is known as a good country with good water and abundant water resources, but now Korea is classified as a water shortage country.

The average annual rainfall in Korea is 1,300mm, which is higher than the average of 880mm of the whole earth, but we live with worrying about water every year. Not to mention this, rain is concentrated in the summer months, but in most regions except Ulleungdo, three-month precipitation in summer exceeds half of the yearly rainfall. On some days, a month of precipitation may occur.

Korea's strata are thinner in the topsoil and have a poor natural desalination capacity. Since 1965, water use has increased every year. Especially, the use of domestic water has increased by 32 times. It is obvious that the shortage of water resources will intensify given the increase in population, industrial development, and the amount of water required for agriculture.

Therefore, in order to increase supply in preparation for water shortage, multi-purpose dams need to be collected to collect rain intensively in summer, but the construction of dams for water conservation is very difficult because it is difficult to select areas. The cost of development has also increased exponentially, making it difficult to pursue water resource development policies.

Even if it is assumed that the increase in the cost of dam construction can be covered by raising the water supply value, there is no solution for damage in the region due to the construction of the dam. As measures to curb or cut down should be devised, it will be necessary to make efforts to habitually save water through the government or environmental groups.

On the other hand, there is a need to actively introduce the concept of Wastewater Reclamation and Reusing System, as well as a method to reduce the amount of water resources required by establishing a rainwater recycling system for each city or region by taking a more comprehensive approach. Seems to be a good alternative.

However, even if the concept of heavy water or rainwater recycling is introduced, it is difficult to immediately introduce it in view of the enormous cost because it requires the installation of a separate pipe from current water and sewage pipes for recovery or transportation. It is necessary to review the policy to set the concept of water and rainwater recycling as a long-term plan, apply it to commercial buildings, manufacturing plants, and some areas, and establish and implement a phased plan that ultimately spreads to general households.

The present invention has been made to meet the above needs, the rainwater treatment for receiving a relatively high quality rain water excluding the initial high pollution, purifying it through a multi-stage replacement filter cartridge for use as high quality water for life To provide a device.

The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above.

The present invention to solve the above problems,

A sedimentation tank for receiving rainwater through the inflow pipe branched from the discharge pipe for draining rainwater;

A filter chamber for filtering the rainwater in the settling tank through a replaceable cartridge filter while flowing upward through the bottom;

A storage tank containing the filtered water passed through the filter chamber so that it can be used if necessary; And

It provides a rainwater treatment apparatus comprising; an initial rainwater separator to induce rainwater of relatively high quality into the inlet pipe by removing the initial rainwater from the rainwater installed in the discharge pipe.

At this time, the initial excellent separator is composed of a fixed plate in which a plurality of fixing holes are drilled up and down while being mounted to the discharge pipe in a transverse direction, and a movable plate in which the movable holes are perforated at the same position as the fixing holes while being mounted to be selectively rotatable overlapping the upper portion of the fixing plate. Can be.

And the center of the movable plate is rotatably coupled to the fixed plate, one side of the movable plate may be provided with a lever to protrude to the outside of the discharge pipe to selectively turn the movable plate.

The lever can also be operated manually or automatically using an electric motor.

On the other hand, the upper side of the initial excellent separator may be further formed a stopper plate inclined or rounded, UV or UV / O ₃ lamp may be installed in the storage tank.

And the power used in the rainwater treatment apparatus may be generated from the photovoltaic power generation and applied.

In addition, a drain valve for discharging the sediment to the outside is formed on one side of the lower end of the settling tank, the bottom surface of the settling tank and the filter chamber may be formed to be inclined to the drain valve side.

As described above, the rainwater treatment device according to the present invention has a filter of the filter chamber mounted in the cartridge in a replaceable form, so that the filter is easily replaced, and the gravity cleaning for the filter is possible.

In addition, the rainwater treatment device according to the present invention has the advantage of being able to selectively use a relatively good quality only because it can exclude the initial rainwater having a high nonpoint source through the initial rainwater separator.

In addition, the rainwater treatment apparatus according to the present invention has the advantage that it is possible to use the photovoltaic power generation equipment to supply water by treating the rainwater even in a place where power supply is difficult.

In addition, by installing a UV or UV / O ₃ lamp in the storage tank in which the water to be used is stored, there is an advantage that can provide water of higher quality than the filtration.

1 is a schematic flowchart of a rainwater treatment apparatus according to the present invention,
2 is a view showing the configuration of the rainwater treatment apparatus according to the present invention,
3 is a plan view from above of the device of FIG. 2;
4 is a view showing in detail the initial excellent separator shown in FIG.
5 is an initial excellent separator operating state diagram of FIG.
6 is another embodiment of the rainwater treatment apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

Rainwater treatment apparatus according to the present invention, as shown in the flow chart of Figure 1, selectively withdraw rainwater of relatively good quality, settle the selected rainwater, and the precipitated rainwater is purified by filtering the filters of the multi-stage upwards to the storage tank It has a structure to be used as water.

Therefore, the rainwater treatment apparatus according to the present invention, as shown in the configuration of Figures 2 and 3, the inlet 110 for selectively inducing only the high quality rainwater in the middle of the discharge pipe 116 is discharged, and The sedimentation tank 130 for sedimenting the foreign matters of the rainwater induced by the inlet 110, the filter chamber 140 for filtering by filtering the rainwater is completed sedimentation, and the storage tank 150 is stored containing the filtered rainwater It is configured to include).

Rainwater flowing into the sedimentation tank 130 as described above is better to use a relatively good water quality roof, rainwater that initially flows out of the roof water is mixed with contaminants and the most polluted. This is because sand, soil, and oil are discharged from the various wastes accumulated on the roof in the early rainwater, and rather than using the initial rainwater purification, it is necessary to discard the initial rainwater having a high point of non-point pollution and select and use some high-quality rainwater. Will be.

Therefore, in the present invention, the inlet 110 is designed to select only rainwater from which rainwater is discharged from the road surface.

The inlet 110 has a gutter 112 formed on a road surface or a roof, a discharge pipe 116 through which rain water flows down the gutter 112, and rainwater discharged through the discharge pipe 116 to the settling tank 130. Inlet pipe 132 extending from the discharge pipe 116 to the settling tank 130 to send, and the initial excellent separator for guiding the rainwater 132 of relatively good rain water is installed in the discharge pipe 116 to exclude the initial rainwater ( 120). At this time, the screen 114 is installed in the trough 112 to filter large foreign objects. In addition, the initial excellent separator 120 may be installed at a higher or lower position such as the inlet pipe 132 to separate the excellent rainwater and the excellent rainwater.

The initial rainwater separator 120 rotates the lever 123 from the outside of the discharge pipe 116 to send rainwater discharged through the discharge pipe 116 to the inlet pipe 132 or to discharge the discharge downward through the discharge pipe 116. The initial excellent separator 120 may be composed of two plates stacked up and down, as shown in FIG.

Therefore, the initial excellent separator 120 is rotated at a predetermined angle by overlapping the fixing plate 124 blocking the discharge pipe 116 in the transverse direction, and the upper portion of the fixing plate 124 as shown in FIG. It is composed of a movable plate 122, each of the fixed plate 124 and the movable plate 122 is a plurality of fixing holes 124a and movable holes 122a that are matched up and down with each other. The fixed plate 124 is fixed so as not to move in the discharge pipe 116, the movable plate 122 can be rotated clockwise or counterclockwise on the fixed plate 124 coupled to the center (C) of the plate. Has a structure. And the lever 123 is formed on one side of the movable plate 122 and the lever 123 protrudes out of the discharge pipe 116 to allow the user to operate arbitrarily.

The initial excellent separator 120 according to the present invention may turn the lever 123 to guide the rainwater discharged through the discharge pipe 116 depending on whether the fixed hole 124a and the movable hole 122a coincide with each other or are displaced. Is determined. That is, as shown in (a) of FIG. 5, when the fixed hole 124a and the movable hole 122a are exactly matched up and down, the discharge pipe 116 is 100% open to be discharged to the entire lower portion of FIG. 5. As shown in (d), when the movable hole 122a is completely removed from the fixed hole 124a, the movable hole 122a is opened to 0% and flows into the settling tank 130 through the total amount inlet pipe 132.

However, even in the case of relatively good rainwater, when there is a large amount of drainage, such as torrential rain, it is difficult to receive the high quality rainwater indefinitely and settle it to 60% and 30% opening as shown in (b) and (c) of FIG. 5. The amount of rainwater flowing into the settling tank 130 may be adjusted.

Although the initial excellent separator 120 is shown to be manually operated, it may be automatically configured through a power transmission device such as an electric motor (not shown) and a cam or gear tooth.

Inlet 110 according to the present invention, if the rainwater drained through the discharge pipe 116 is dropped directly from the gutter 112 to the initial excellent separator 120, the drop is large, or the rainwater is not selected or may be introduced Therefore, in order to prevent this, it may be better to install the inclined or rounded stop plate 118 above the initial excellent separator 120.

Rainwater selected as relatively good quality as described above is introduced into the settling tank 130, the foreign matter is settled, the drain valve 136 is formed on one side on the lower surface of the settling tank 130 for carrying out the foreign matter. In addition, the bypass pipe 134 is formed at the upper side of the sedimentation tank 130 so as to be positioned lower than the initial excellent separator 120 so that the excess rain water that cannot be processed in the sedimentation tank 130 and the filter chamber 140 is discharged again. Drain by refluxing.

The sedimentation tank 130 according to the present invention is separated by the filter chamber 140 and the first partition 135, the lower portion of the first partition 135 is open so as to communicate with the rain water in the precipitation tank 130 filter chamber ( 140). And the lower surface of the sedimentation tank 130 and the filter chamber 140 is formed inclined surface 138 is inclined gradually to the drain valve 136 side sediment deposited on the lower surface of the sedimentation tank 130 and the filter chamber 140 To the drain valve 136 side.

As such, the rainwater directed from the settling tank 130 to the filter chamber 140 is gradually drawn from the lower portion of the filter chamber 140 and transferred to the storage tank 150 through the upper portion of the filter chamber 140. This rainwater is operated by the non-power by the potential energy of the rainwater stored in the sedimentation tank 130, for this purpose, the upper portion of the filter chamber 140 and the storage tank 150 should be located lower than the inlet pipe 116.

The filter chamber 140 according to the present invention is installed so that at least two or more filters 141 are stacked up and down, and each of the filters 141 and 142 is installed in a replaceable manner so as to be drawn out or inserted from the outside. do. That is, the filter chamber 140 is a cartridge method in which the respective filters 141 are opened and closed in a drawer type, and when the filter 141 is replaced, the filter chamber 140 is easily removed from the outside and immediately replaced and then closed again.

In the preferred embodiment of the present invention, three filters 141 are used, the first filter uses a prefilter, the second filter uses a coarse filter, and the third filter uses a fine filter from the bottom. It was. Since the filter chamber 140 is an upflow filtration method, it is possible to easily shake off foreign substances that are blocking the respective filters 141 by backwashing by gravity through the drain valve 136, thereby increasing the use period of the filters. There is also an advantage.

Next, the storage tank 150 is separated by the filter chamber 140 and the second partition wall 145. The upper portion of the second partition wall 145 is drilled to both sides, so that the rainwater in the filter chamber 140 is stored in the storage tank ( 150). The storage tank 150 is a place where the rain water after filtration is completed by the filter 141 is stored, and the filtered water flowing in the filter chamber 140 is stored. In this case, since rainwater that is raised by forcibly raising the filter chamber 140 may generate pressure on the upper surface of the storage tank 150, an air outlet 154 may be formed to release the pressure. In addition, an outlet 152 for using water stored in the storage tank 150 is formed below the storage tank 150.

Such filtered water in the storage tank 150 may be used as a general purpose water such as washing water, landscaping water, etc., which are most used in life, even if the drinking water is not enough.

Alternatively, the rainwater treatment apparatus 100 according to the present invention goes one step further from the filtration of the filter chamber 140, and as shown in the embodiment of FIG. 6, the UV or UV / O ₃ lamp 160 in the reservoir 150. It may be installed to sterilize water in the storage tank 150 or to remove odors. However, the use of UV or UV / O ₃ lamps 160 in this way requires power to drive these lamps, which is not suitable for use with no power, where UV or power may be applied. UV / O ₃ lamp 160 and the initial excellent separator 120 may be automatically driven.

Alternatively, the rainwater treatment apparatus 100 according to the present invention may be supplied with power through a photovoltaic facility 170 as shown in FIG.

The present invention is not limited to the configuration and operation of the embodiments described above. The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

100: rainwater treatment device
110: inlet 112: gutter
114: screen 116: discharge pipe
118: stop plate 120: initial excellent separator
122: movable plate 122a: movable hole
123: lever 124: fixed plate
124a: fixed hole 130: sedimentation tank
132: inlet pipe 134: bypass pipe
135: first partition 136: drain valve
138: slope 140: filter chamber
141: filter 145: second bulkhead
150: storage tank 152: exit
154: air outlet 160: UV or UV / O ₃ lamp
170: photovoltaic power generation equipment

Claims (8)

A sedimentation tank 130 for receiving and settling rainwater through the inflow pipe 132 branched from the discharge pipe 116 for draining the rain water;
A filter chamber 140 for filtering rainwater in the settling tank 130 through a replaceable cartridge filter 141 while flowing upward through a lower portion thereof;
A storage tank 150 for storing the filtered water passing through the filter chamber 140 to be used when necessary; And
Included in the discharge pipe 116 to remove the initial excellent rainwater discharged in the initial excellent separator 120 to induce relatively good rainwater to the inlet pipe 132;
The initial excellent separator 120 is mounted to the discharge pipe 116 in the transverse direction and a plurality of fixing holes 124a are vertically perforated with a fixed plate 124 and the top of the fixing plate 124 and selectively rotateable Rain water treatment apparatus, characterized in that consisting of a movable plate 122 perforated at the same position as the fixing hole (124a) while being mounted.
delete The method of claim 1,
The movable plate 122 is rotatably coupled to the center C of the movable plate 122, and the movable plate 122 protrudes to the outside of the discharge pipe 116 on one side of the movable plate 122. Rainwater treatment device characterized in that the lever (123) for selectively turning).
The method of claim 3, wherein
The lever 123 is rainwater treatment device, characterized in that automatically operated by using a manual or electric motor.
The method of claim 1,
Rainwater treatment apparatus, characterized in that the stopper plate 118 is inclined or rounded to the upper side of the initial excellent separator 120 is further formed.
The method of claim 1,
Rainwater treatment device, characterized in that the storage tank 150 is UV or UV / O ₃ lamp 160 is installed.
The method according to claim 4 or 6,
Power supply used for the rainwater treatment device is a rainwater treatment device, characterized in that the power generation is applied from the photovoltaic facility (170).
The method of claim 1,
A drain valve 136 is formed at one side of the lower end of the settling tank 130 to discharge the precipitate to the outside, and the bottom surface of the settling tank 130 and the filter chamber 140 is inclined to be inclined toward the drain valve 136. Rainwater treatment apparatus characterized in that the (138) is formed.

Images