KR20200129714A - Rainwater reuse facility - Google Patents

Abstract

The present invention relates to a rainwater reuse facility. The rainwater reuse facility comprises: a sedimentation tank (1) in which an inlet (1a) through which rainwater flows into the sedimentation tank is formed; a suction pump (2) which is located in the sedimentation tank (1) and circulates rainwater flowing into the sedimentation tank (1) to a filter; a filter (3); a treatment water tank (4); and a discharge pump (5). According to the present invention, an easy operation of the facility can be induced.

Description

Rainwater reuse facility

The present invention relates to a rainwater reuse facility, and more particularly, after firstly purifying rainwater input to the sedimentation tank through a purification means installed in the sedimentation tank, the purified rainwater is secondaryly purified through a filter, As the remaining foreign matter can be dispersed and collected, it is possible to induce easy operation of the facility by preventing the inconvenience and uneconomic operation of the facility caused by concentrated dust collection of excellent foreign matter in the filter in the conventional rainwater reuse facility. As for the purification means, it relates to an excellent reuse facility that can induce more convenient and economical operation of the facility because the purification means can be used semi-permanently due to the structure that can be easily washed and reused through the cleaning means.

In recent years, as a countermeasure against rapid rise in energy prices and global warming, the movement of the government and industry for environmental conservation and eco-friendly technology development is accelerating. In particular, various eco-friendly technologies such as heavy water facilities for eco-friendly urban development, rainwater (excellent) reuse facilities, use of new and renewable energy, and energy conservation are being developed.

As part of these efforts, rainwater is collected in a tank to reuse the existing rainwater that was thrown away by flowing into the river, and the rainwater is purified and supplied to reusable places such as schools and public facilities, such as toilet water, cleaning water, and landscaping water. A method that can be used as such is proposed.

The rainwater reuse facility as described above includes a sedimentation tank in which an inlet through which rainwater flows in, a suction pump located in the sedimentation tank to distribute rainwater flowing into the sedimentation tank through a filter, and foreign matter remaining in the rainwater supplied through the suction pump It consists of a filter that removes and supplies it to the treatment water tank, a treatment water tank that accommodates the purified rainwater supplied through the filter, and a discharge pump that supplies the rainwater received in the treatment water tank to a rainwater reuse facility. It has the following problems.

First, the conventional rainwater reuse facility collects and purifies excellent foreign matter only with a filter, so many foreign matters are collected in the filter of the filter in a short period of time, and due to the characteristic that frequent replacement of the filter of the filter is required, the replacement cost, replacement time, and There is a problem in that it is difficult and inconvenient to operate the facility due to the need for manpower, etc., and it is difficult to smoothly operate the facility, which requires too much cost for facility operation management.

Second, the conventional rainwater reuse facility has a limitation in the reuse of rainwater because the purification efficiency of the purified rainwater is low due to the characteristics of collecting and purifying foreign matters of rainwater only with a filter, and the field where the rainwater can be reused (applied) is somewhat low.

The present invention has been proposed in order to solve all the problems as described above, and its object is to primarily purify rainwater input to the sedimentation tank through a purification means installed in the sedimentation tank, and then secondaryly purify the purified rainwater through a filter. By purifying with water, it is possible to disperse and collect dust remaining in the rainwater, thereby preventing the inconvenience and uneconomic operation of the facility caused by concentrated dust collection of foreign materials in the filter in the conventional rainwater reuse facility. In addition to being able to induce, the purification means can be used semi-permanently due to the structure that can be easily washed and reused through the cleaning means, providing an excellent reuse facility that can lead to more convenient and economical operation of the facility. .

In addition, the excellent purification efficiency of excellence can be expected due to the characteristics that the rainwater input to the sedimentation tank is purified through a purification means and a filter.Therefore, an excellent reuse facility that can overcome the limitation of reuse of excellence by expanding the range of reuse of excellence in various fields is established. In the offering.

The rainwater reuse facility according to the present invention for achieving the above object includes a sedimentation tank in which an inlet through which rainwater flows is formed, a suction pump positioned in the sedimentation tank to distribute rainwater flowing into the sedimentation tank through a filter, and the suction pump A filter that removes foreign matter remaining in the rainwater supplied through and supplies it to a treatment water tank, a treatment water tank that accommodates purified rainwater supplied through the filter, and a discharge pump that supplies the rainwater contained in the treatment water tank to a rainwater reuse site In the rainwater reuse facility comprising a,

Purification means installed in the sedimentation tank to purify the rainwater flowing into the sedimentation tank and supply the primary purified rainwater through the suction pump to the filter for secondary purification; And, the process of purifying rainwater through the purification means And a washing means for inducing semi-permanent use of the purification means by removing foreign substances collected in the apparatus.

In addition, the purification means is disposed inclined inside the sedimentation tank, and a filter for collecting foreign matter remaining in the rainwater is formed therein, one end and both sides of the first dust collecting member in close contact with or close to the inner surface of the sedimentation tank, and the sedimentation tank It is disposed to be inclined inside and is positioned to face the first dust collecting member, and a filter for collecting foreign matter remaining in the rain is formed inside, one end and both sides are in close contact with or close to the inner surface of the settling tank, and the other end is the first A second dust collecting member that is in close contact with the other end of the dust collecting member and closes the inside of the settling tank together with the first dust collecting member, and is formed to protrude outward from the central portions of both sides of the dust collecting member, so as to be rotatable on the inner surface of the settling tank. A fixed shaft that is coupled and fixed to fix the position of the dust collecting member, a buoyant material formed at one end of the dust collecting member to bring one end of the dust collecting member into close contact with the inner surface of the settling tank through buoyancy, and the other end of the dust collecting member It is characterized in that it comprises a weight that induces the other ends of the first and second dust collecting members to be in close contact with each other through weight.

In addition, by surrounding the edge of the dust collecting member, the elastic member having a predetermined elasticity; characterized in that it is configured to further include.

In addition, the washing means is formed in communication with the sedimentation tank, and is formed on the top of the dust collecting member to guide the rainwater contained in the sedimentation tank to be sucked and discharged to the outside, and the rainwater contained in the sedimentation tank through the outlet. A discharge pump for forced suction, a rotation gear formed on a fixed shaft of the first and second dust collecting members to rotate the dust collecting member together with the fixed shaft, and the fixed shaft of the first dust collecting member A driving unit that provides rotational force with a rotation gear to rotate the first dust collecting member in one direction together with the fixed shaft, and is rotated in one direction by receiving the rotational force from the driving unit, and formed on the fixed shaft of the second dust collecting member And a connection shaft for rotating the second dust collecting member in another direction by forming a connection gear engaged with the rotating gear.

As described above, according to the rainwater reuse facility according to the present invention, after firstly purifying the rainwater input to the sedimentation tank through the purification means installed in the sedimentation tank, the purified rainwater is secondarily purified through a filter, thereby As the remaining foreign matter can be dispersed and collected, it is possible to induce easy operation of the facility by preventing the inconvenience and uneconomic operation of the facility caused by concentrated dust collection of excellent foreign matter in the filter in the conventional rainwater reuse facility. As for the purification means, the purification means can be used semi-permanently due to the structure that can be easily washed and reused through the washing means, which has the effect of inducing more convenient and economical operation of the facility.

In addition, since the rainwater input to the sedimentation tank can be expected to have an excellent purification efficiency due to the characteristics of being purified through a purification means and a filter, there is an effect of overcoming the limitation of reuse of excellence by expanding the reuse range of excellence in various fields.

1 is a cross-sectional view of a rainwater reuse facility according to an embodiment of the present invention
2 is an AA cross-sectional view of the rainwater reuse facility shown in FIG. 1
Figure 3 is a use state diagram of the rainwater reuse facility shown in Figure 1

An excellent reuse facility according to a preferred embodiment of the present invention will be described in detail based on the accompanying drawings. Detailed descriptions of known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention will be omitted.

1 to 3 illustrate a rainwater reuse facility according to an embodiment of the present invention, FIG. 1 is a cross-sectional view of a rainwater reuse facility according to an embodiment of the present invention, and FIG. 2 is a rainwater reuse facility shown in FIG. AA cross-sectional view, Figure 3 is a state diagram showing each of the use state of the rainwater reuse facility shown in FIG.

As shown in the drawing, the rainwater reuse facility 100 according to an embodiment of the present invention is located in a sedimentation tank 1 in which an inlet 1a through which rainwater flows in, and the sedimentation tank 1 A suction pump (2) for distributing rainwater flowing into the sedimentation tank (1) through a filter, and a filter (3) that removes foreign matter remaining in the rainwater supplied through the suction pump (2) and supplies it to the treatment water tank (4). ), and a treatment water tank 4 for receiving the purified rainwater supplied through the filter 3, and a discharge pump 5 for supplying the rainwater received in the treatment water tank 4 to a rainwater reuse destination. In the facility,

It further includes a purification means 10 and a washing means 20.

1 and 2, the purification means 10 is installed in the sedimentation tank 1 to purify the rainwater flowing into the sedimentation tank 1, and is first purified through the suction pump 2 Rainwater is supplied to the filter (3) for secondary purification,

A first dust collecting member (11a) that is disposed inclined inside the sedimentation tank (1), and has a filter (11a) for collecting foreign matter remaining in the rainwater inside, and one end and both sides are in close contact with or close to the inner surface of the sedimentation tank (1) ( 11), and the sedimentation tank (1), which is disposed inclined to face the first dust collecting member (11), and has a filter (12a) for collecting foreign matter remaining in the rainwater therein, one end and both sides Is in close contact with or close to the inner surface of the settling tank 1, and the other end is in close contact with the other end of the first dust collecting member 11 to close the inside of the settling tank 1 together with the first dust collecting member 11 The dust collecting member 12 is formed to protrude outward from the central portions of both sides of the dust collecting member 11 and 12, and is rotatably coupled and fixed to the inner surface of the settling tank 1 so that the dust collecting members 11 and 12 A fixed shaft 13 for fixing the position, and a buoyancy material that is formed at one end of the dust collecting members 11 and 12 and makes one end of the dust collecting members 11 and 12 in close contact with the inner surface of the settling tank 1 through buoyancy ( 14), and a weight (15) formed on the other ends of the dust collecting members (11, 12) and inducing the other ends of the first and second dust collecting members (11, 12) to be in close contact with each other through weight do.

That is, as shown in Fig. 3a, the inside of the settling tank 1 is closed due to the first and second dust collecting members 11 and 12 and is naturally divided into upper and lower portions, so the inlet 1a of the settling tank 1 When the rainwater flows into the furnace and the water level gradually rises, the rainwater naturally passes through the filters 11a and 12a of the dust collecting members 11 and 12 and is first purified. At this time, foreign matter remaining in the rainwater is collected by the dust collecting members 11 and 12 ) Is caught in the lower part of the filter (11a, 12a).

Here, the buoyant member 14 and the weight 15 formed on the dust collecting member 11 and 12 are in close contact with one end of the dust collecting member 11 to the inner surface of the settling tank 1 and the first and second By making the other ends of the dust collecting members 11 and 12 firmly in close contact with each other, the inside of the settling tank 1 through the dust collecting members 11 and 12 is guided to be tightly closed, so that the rain flowing into the settling tank 1 is collected. It is easily purified while passing through the members 11 and 12.

Then, as shown in FIG. 3B, the primary purified rainwater passed through the dust collecting members 11 and 12 is sucked through the suction pump 2 and supplied to the filter 3 for secondary purification. Can lead to very precise purification of. Here, the dust collecting members 11 and 12 are positioned higher than the height of the inlet 1a of the sedimentation tank 1, and the suction pump 2 is positioned higher than the height of the dust collecting members 11 and 12. to be.

Therefore, the reuse place using the rainwater supplied through the rainwater reuse facility 100 of the present invention can use the precisely purified clean rainwater.

On the other hand, as shown in Figs. 1 and 2 to surround the edges of the dust collecting members 11 and 12, the elastic member 30 having a predetermined elasticity; is configured to further include.

That is, as shown in FIG. 3A, the elastic member 30 is formed at the edges of the dust collecting members 11 and 12, so that the dust collecting members 11 and 12 are disposed on the inner surface of the settling tank 1 and the first, 2 By inducing the other ends of the dust collecting members 11 and 12 to be in close contact with each other, it is possible to induce a more precise closing of the sedimentation tank 1 through the dust collecting members 11 and 12, so that the dust collecting members 11 and 12 It induces excellent purification through.

In addition, as shown in Fig. 3c, the dust collecting members 11 and 12 are rotated through the washing means 20 to be installed later, and at this time, the ends of the dust collecting members 11 and 12 are The elastic member 30 absorbs the shock generated by contacting the inner surface and the shock generated by the other ends of the first and second dust collecting members 11 and 12 with each other. ) Can be prevented from being damaged or damaged, thus enhancing the structural safety of the device.

As shown in FIGS. 1 and 2, the cleaning means 20 induces semi-permanent use of the purification means 10 by removing foreign substances collected in the process of purifying rainwater through the purification means 10. By doing,

An outlet 21 formed in communication with the sedimentation tank 1 and formed on the upper portion of the dust collecting member 11 and 12 to guide rainwater received in the sedimentation tank 1 to be sucked and discharged to the outside, and the outlet The discharge pump 22 forcibly sucking rainwater contained in the sedimentation tank 1 through 21 and the fixed shaft 13 respectively formed on the fixed shaft 13 of the first and second dust collecting members 11 and 12 The rotational force is applied to the rotation gear 23 that rotates the dust collecting members 11 and 12 together with the 13 and the rotation gear 23 formed on the fixed shaft 13 of the first dust collecting member 11. A driving unit 24 that rotates the first dust collecting member 11 together with the fixed shaft 13 in one direction and rotated in one direction by receiving a rotational force from the driving unit 24, and the second dust collecting member A connection shaft 25 that engages with the rotation gear 23 formed on the fixed shaft 13 of the member 12 is formed to rotate the second dust collecting member 12 in the other direction. It characterized in that it is configured to include.

That is, as shown in FIG. 3C, a large amount of foreign matter is collected under the filters 11a and 12a of the dust collecting members 11 and 12 due to the long-term use of the purification means 10, and thus the dust collecting member 11, When cleaning of 12) is required, the first dust collecting member 11 rotates in one direction and the second dust collecting member 12 rotates in the other direction through the power of the driving part 24.

Then, the lower part of the dust collecting member 11 and 12 from which the foreign matter is collected is located on the upper part, and at the same time, one end of the first and second dust collecting member 11 and 12 is firmly adhered to each other due to the buoyancy of the buoyancy member 14 And, the other end is firmly adhered to the inside of the settling tank 1 due to the weight of the weight 15.

Then, as shown in FIG. 3D, when the rainwater contained in the sedimentation tank 1 is forcibly sucked through the discharge port 21 through the discharge pump 22, the rainwater located at the bottom of the sedimentation tank 1 is collected. While passing through the filters (11a, 12a) of the members (11, 12), foreign matter collected in the filters (11a, 12a) is floated (emergency), and the foreign matter suspended in this way is transferred to the outside through the outlet (21) along with rainwater. As it is discharged, the filters 11a and 12a of the dust collecting members 11 and 12 are simply cleaned.

Thereafter, when the cleaning of the dust collecting members 11 and 12 is completed, the operation of the discharge pump 22 is stopped, and the dust collecting members 11 and 12 are rotated back to their original positions through the driving unit 24. The washing of the dust collecting members 11 and 12 through the washing means 20 is terminated.

Meanwhile, it goes without saying that the operation of the suction pump 2 is stopped while the washing means 20 is operated.

The rainwater reuse facility 100 of the present invention consisting of the above components primarily purifies the rainwater input to the sedimentation tank 1 through the purification means 10 installed in the sedimentation tank 1, and then the purified By secondary purification of rainwater through the filter (3), foreign matter remaining in the rainwater can be dispersed and collected, so it is inconvenient to operate facilities caused by concentrated dust collection of rainwater in the filter (3) in conventional rainwater reuse facilities. And it is possible to induce easy operation of the facility by preventing uneconomic operation, and the purification means 10 is semi-permanent due to the structure that can be easily washed and reused through the washing means 20. Since it can be used as a product, it has the effect of inducing more convenient and economical operation of the facility.

In addition, rainwater input to the sedimentation tank 2 can be expected to have excellent purification efficiency due to the characteristics of being purified through the purification means 10 and filter 3, so that the reuse range of excellence can be expanded to various fields and reused. There is an effect that can overcome the limitations.

The present invention has been described with reference to the embodiments shown in the accompanying drawings, but these are illustrative and are not limited to the above-described embodiments, and various modifications and equivalent embodiments are possible from those of ordinary skill in the art. You can understand the point. In addition, it goes without saying that modifications can be made by those skilled in the art within a range not impairing the spirit of the present invention. Therefore, the scope of claiming the rights in the present invention is not defined within the scope of the detailed description, but will be limited by the claims and the technical spirit thereof to be described later.

1. Sedimentation tank 1a. Entrance
2. Suction pump 3. Filter
4. Treatment tank 5. Discharge pump
10. Purification means 11. First dust collecting member
11a, 12a. Filter 12. Second dust collecting member
13. Fixed shaft 14. Buoyancy material
15. Weight 20. Cleaning means
21. Outlet 22. Outlet pump
23. Rotating gear 24. Driving part
25. Connecting shaft 25a. Connecting gear
30. Elastic member
100. Excellent reuse facility

Claims (4)

A sedimentation tank 1 having an inlet 1a through which rainwater flows in, a suction pump 2 positioned in the sedimentation tank 1 to distribute rainwater flowing into the sedimentation tank 1 through a filter, and the A filter (3) that removes foreign matter remaining in the rainwater supplied through the suction pump (2) and supplies it to the treatment water tank (4), and a treatment water tank (4) that receives the purified rainwater supplied through the filter (3). ), and in the rainwater reuse facility including a discharge pump 5 for supplying the rainwater contained in the treatment water tank 4 to the rainwater reuse site,
Purification means installed in the sedimentation tank 1 to purify the rainwater flowing into the sedimentation tank 1 and supply the primary purified rainwater through the suction pump 2 to the filter 3 for secondary purification ( 10); And
Rainwater reuse, characterized in that it comprises a; cleaning means (20) for inducing semi-permanent use of the purification means (10) by removing foreign substances collected in the process of purifying rainwater through the purification means (10) facility.
The method of claim 1,
The purification means 10,
A first dust collecting member (11a) that is disposed inclined inside the sedimentation tank (1), and has a filter (11a) for collecting foreign matter remaining in the rainwater inside, and one end and both sides are in close contact with or close to the inner surface of the sedimentation tank (1) ( 11) Wow,
The sedimentation tank 1 is disposed inclined to face the first dust collecting member 11, and a filter 12a for collecting foreign matter remaining in the rainwater is formed inside, and one and both sides of the sedimentation tank ( 1) A second dust collecting member 12 that is in close contact or close to the inner surface, and the other end is in close contact with the other end of the first dust collecting member 11 to close the interior of the settling tank 1 together with the first dust collecting member 11 )Wow,
A fixed shaft that protrudes outward from the central portions of both sides of the dust collecting members 11 and 12 and is rotatably coupled and fixed to the inner surface of the settling tank 1 to fix the position of the dust collecting members 11 and 12 ( 13) and,
A buoyancy material 14 formed at one end of the dust collecting member 11 and 12 to make one end of the dust collecting member 11 and 12 in close contact with the inner surface of the sedimentation tank 1 through buoyancy,
It is formed on the other end of the dust collecting member (11, 12), characterized in that it comprises a weight (15) for inducing the other ends of the first and second dust collecting members (11, 12) firmly in close contact with each other through weight. Excellent reuse facility.
The method of claim 2,
By surrounding the edges of the dust collecting member (11, 12), a predetermined elasticity elastic member (30); Excellent reuse facility characterized in that it is configured to further include.
The method of claim 2,
The washing means 20,
An outlet 21 formed in communication with the sedimentation tank 1 and formed on the dust collecting members 11 and 12 to guide rainwater contained in the sedimentation tank 1 to be sucked and discharged to the outside,
A discharge pump 22 forcibly sucking rainwater contained in the sedimentation tank 1 through the discharge port 21,
Rotating gears 23 respectively formed on the fixed shafts 13 of the first and second dust collecting members 11 and 12 to rotate the dust collecting members 11 and 12 together with the fixed shaft 13,
By providing rotational force to the rotation gear 23 formed on the fixed shaft 13 of the first dust collecting member 11, the first dust collecting member 11 is rotated in one direction together with the fixed shaft 13 A driving unit 24 that makes
A connection gear 25a is formed that is rotated in one direction by receiving a rotational force from the driving unit 24, and meshes with the rotational gear 23 formed on the fixed shaft 13 of the second dust collecting member 12 And a connection shaft (25) for rotating the second dust collecting member (12) in another direction.

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