KR101574692B1 - Rain Recycling System by Using Tourmaline Urethane Filter - Google Patents

Abstract

The excellent recycling system using the tourmaline filter paper layer according to the present invention comprises a storm water tank installed on the roof of a house or a building and rain water collected from the storm water tank, A water filtration tank for re-filtering the rainwater filtered by the foreign material in the strainer and the strainer installed at a lower position than the storm tank, a purified water tank for precipitating and purifying the substances contained in the rainwater filtered in the tourmaline filtration tank, A circulation pump for circulating the medium, a circulation pump for circulating the circulation medium, a circulation pump for circulating the circulation medium, and a circulation pump for circulating the circulation medium, Heat exchange with tank to hot water tank A first solenoid valve installed between a hot water tank for transferring warm water having a high temperature conveyed from the heat energy recovery system to a heating system of the building, and an outflow side well pipe of the purified water tank and a toilet wash water supply pipe; And a controller for controlling the first solenoid valve and the second solenoid valve, wherein the second solenoid valve is installed in the toilet wash water supply pipe to turn off tap water supply.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a recycling system using a tourmaline filter paper (Rain Recycling System by Using Tourmaline Urethane Filter)

The present invention relates to a rainwater recycling system. Rainwater, in general, is a useful resource, but it is not recycled and it flows into rivers. The present invention is intended to contribute to saving resources and reducing carbon emissions by filtering and purifying water using abandoned rainwater as described above, thereby recycling water for toilet and cooling and heating.

      A conventional technique related to the present invention is disclosed in Korean Patent Registration No. 10-1179715 (2012. 09.04. Announcement). 1 is a configuration diagram of the conventional rainwater recycling system. 1, the conventional rainwater recycling system includes a first collecting unit 100, a second collecting unit 200, a pre-treatment filter 300, a first storage tank 400, a first pump 500, 600, a second storage tank 700, and a second pump 800. The first collecting unit 100 collects rainwater flowing on a roof, a roof, and an outer wall of a building in a rainy season. The first collecting unit 100 is installed on a roof or a roof of a building or on an outer wall And all the facilities installed for the purpose of collecting rainwater on a building such as rainwater drainage facilities. The first collecting unit 100 is connected to the pretreatment filter 300 and the connection between the first collecting unit 100 and the pretreatment filter 300 can be connected using a pipe. In addition, the rainwater collected through the first collecting part (100) is transferred to the pretreatment filter (300) through a pipe. In addition, the second collecting unit 200 collects rainwater existing in the surrounding land and general land in a rainy day. The second collecting unit 200 includes all the rainwater collecting facilities except the rainwater collecting facilities installed directly on the building . The second collecting unit 200 is connected to the pretreatment filter 300 and the connection between the second collecting unit 200 and the pretreatment filter 300 can be connected using a pipe. The rainwater collected through the second collecting unit 200 is transferred to the pretreatment filter 300 through a pipe, and the pretreatment filter 300 removes foreign matter of large particles contained in the rainwater, 300 may include a lattice network having openings such that foreign particles of large particles contained in rainwater can not pass through. The size of the lattice of the lattice network included in the preprocessing filter 300 is preferably 0.1 cm * 0.1 cm or more. The size of foreign matter removed from the water filter 600 is reduced, the amount of foreign matter is reduced, the efficiency of the water filter 600 is increased, and the life of the water filter 600 Able to extend

It is effective. The pretreatment filter 300 is connected to the first storage tank 400 and the connection between the pretreatment filter 300 and the first storage tank can be connected using a pipe. The first storage tank 400 is connected to the first pump 500 and the first pump 500 is connected to the water filter 600. Also, the water filter 600 is connected to the second storage tank, and the connection between the water filter 600 and the second storage tank 700 can be connected through a pipe. The second storage tank 700 is connected to the second pump 800. The rainwater filtered and purified by the pretreatment filter and the water filter is moved to a place to be recycled by the second pump 800 and is recycled will be.

The conventional rainwater recycling system has a problem in that the use of the system is stopped in order to remove particles having large particles accumulated in the filtering process in the pretreatment filter. Further, in the conventional rainwater recycling system, there is a problem that power is additionally required when recycling rainwater by using a plurality of pumps. In addition, the conventional rainwater recycling system has a problem that the removal of foreign matter and odor is insufficient. In order to solve the problems of the prior art as described above, the excellent recycling system using the tourmaline urethane filter of the present invention seeks to use less energy by filtering rainwater through natural descent. Another object of the present invention is to remove water and odor substances by using a filter paper layer as a layer of dried paper.

The excellent recycling system using the tourmaline filter paper layer according to the present invention has a rainwater collector installed on the roof of a house or a building and rainwater collected from the rainwater collector, 2, a strainer which is installed at a lower position than the storm tank and a torre-dry filtration tank for re-filtering the rainwater filtered by the foreign material in the strainer, and a purification tank for precipitating and purifying the substances contained in the rainwater filtered in the tourmaline filtration tank A storage tank for supplying purified water from the purified water tank to the toilet or the like, a heat exchanger installed at the stall wall, a heat storage tank for absorbing and storing heat by means of a medium circulating the heat exchanger, A circulation pump for circulating the heat, A hot water tank for transferring hot water having a high temperature transferred from the heat energy recovery system to the heating system of the building, and a hot water tank for transferring hot water from the hot water tank to the heating water tank, A second solenoid valve installed on the first solenoid valve and the toilet wash water supply pipe to turn off tap water supply, and a controller for controlling the first solenoid valve and the second solenoid valve.

The excellent recycling system using the tourmaline filter paper according to the present invention has the effect of recycling rainwater while reducing energy using natural spring. In addition, the present invention has the effect of easily removing foreign substances contained in rainwater and easily removing odors. In addition, using rainwater and tourmaline, the energy contained in rainwater can be used for heating and cooling the building. Also, in the present invention, when rainwater is used as main washing water in a toilet and tap water is used when rainwater is insufficient, the user can use rainwater as toilet washing water without inconvenience.

1 is a block diagram of a conventional rainwater recycling system,
FIG. 2 is a view showing the entire structure of an excellent recycling system using the tourmaline filtration tank of the present invention,
Fig. 3 is a schematic view of the strayer applied to the present invention,
4 is a cross-sectional view of a strainer applied to the present invention,
5 is a cross-sectional view of a tourmaline filtration tank applied to the present invention,
6 is a sectional view of a purified water tank applied to the present invention,
7 is a perspective view of a purified water tank to which the present invention is applied.
8 is a block diagram of a switching solenoid valve system according to the present invention,
9 is a configuration diagram of a solenoid valve controller applied to the present invention.

The excellent recycling system using the tourmaline filter paper of the present invention having the above objects will be described with reference to FIGS. 2 to 9.

FIG. 2 is a diagram showing the entire structure of an excellent recycling system using the tourmaline filtration tank of the present invention. 2, the excellent recycling system using the tourmaline filtration tank according to the present invention comprises a rainwater collector 10 in which rainwater is collected, and rainwater collected through a plurality of rainwater collectors 10 in one place, A strainer 30 for receiving rainwater from the stormwater tank and for removing foreign particles having a large amount of rainwater, and a water level sensor 20 for passing the water level sensor 2 A tourmaline filtration tank 40 for allowing a small amount of rainwater to pass through a tourmaline filtration bed having a particle size of a predetermined size so as to remove small foreign matter and odor inducing substances, and a tourmaline filtration tank 40 for transporting the filtered rainwater through the tourmaline filtration tank 40 A water purification tank 50 for passing the water through a plurality of water inlet walls provided in the water tank 50, (60), and the rainwater can be filtered and purified and used again as a toilet washing water. In addition, the excellent recycling system using the tourmaline filtration tank includes a heat energy recovery system 70 for recovering the heat source included in the rainwater by installing the wall of the sump of the purified water tank 50 as a plate type heat exchanger, and a heating system 80 ), As shown in Fig. When the water level is lowered to a position lower than the water level sensor 2, the solenoid valve 1 is closed and the solenoid valve 1 is closed. When the water level is lowered to the level of the water level sensor 2, 2 is opened by the controller.

Fig. 3 is a stray or structural view applied to the present invention. Fig. 3, the strainer 30 according to the present invention includes an inlet-side fastening flange 33 connected to a storm sewer pipe 24 connected to the outflow side of the stormwater tank, and an extension piping member 33 fastened to the inlet- An outflow side flange 35 which is fastened to the outflow side fine line pipe 24-1 at the other side of the extension pipe portion 34 and a drain valve 37 ). ≪ / RTI >

4 is a cross-sectional view of a strainer applied to the present invention. 4, the strainer 30 according to the present invention includes an excellent pipe 24 through which rainwater collected in an excellent tank is conveyed, an extended pipe portion 34 that extends the pipe to control the amount of rainwater passing through the strainer 30, An inlet side fastening flange 33 for fastening the storm sewer piping 24 and the expansion piping 34 to each other and an expansion piping section 204 extending from the other end of the expansion piping 34 to the outlet piping 204 A coaxial screen 39 which is integrally fastened to the expansion pipe portion 204 from the inside of the inlet-side fastening flange 33, and a coaxial screen 39 which is fastened integrally with the expansion pipe portion 204, A drain pipe 37 to be fastened to the strainer fastening portion 36 and a drain valve 37 provided at the rear end of the drain pipe 38, . The strainer 30 constructed as described above flows in through the storm sewer pipe 24 and the inflowing rainwater passes outside the screen 39 in the direction of the arrow 39 And then flows to the rear outflow side excellent piping 24-1. The foreign matter that has not passed through the screen while the rainwater flows as described above moves and accumulates in the strainer fastening part 36, which is the other end of the coaxial screen, according to the flow of the rainwater. The foreign matter interferes with the flow of the fluid that is excessively accumulated inside the strainer fastening portion 36. As a result, the pressure of the storm sewer pipe 24 rises and the flow rate of the storm sewer pipe 24-1 slows A phenomenon occurs. As described above, when the oil pressure of the inlet rich pipe 24 rises or the flow rate of the outlet-side rich pipe 24-1 decreases, the drain valve 37 is opened to rapidly discharge the foreign matter accumulated inside the coupling portion to the outside .

5 is a sectional view of the tourmaline filtration tank according to the present invention. In FIG. 5, the tourmaline filtration tank 40 is made of tourmaline ore having a diameter of 0.45 mm to 0.7 mm, and the filtration layer is formed to a thickness of 300 mm to 500 mm. And the filtration efficiency is improved by providing the outflow side on the upper side of the filtration tank. The tourmaline filtration material is removed by the tourmaline filter material and the water pressure of the incoming rainwater And the temperature of the rainwater is raised by the friction material. Further, in order to increase the mutual friction of the Tori-dried filter media, a separate air blower may be installed together with the non-return valve.

6 is a sectional view of the purified water tank applied to the present invention. 6, the purified water tank 50 according to the present invention is fastened to the base 520 of the purified water tank body at regular intervals by bolts and nuts at the upper end of the receiving part, and the plate heat exchanger 55 The partition walls are formed in one side wall of the purified water tank so that a plurality of compartments 535 are formed. Therefore, the rainwater flowing into the purified water tank 50 is gradually deposited and purified while flowing in the respective compartments 535. The plate-type heat exchangers 55 installed in the purified water tank exchange heat from the rainwater in the purified water tank 50 to absorb the heat of the object to be heated (low-temperature hot water) in the plate-type heat exchanger. The heated object (hot hot water) in the plate heat exchanger 55 absorbing heat from the purified water tank 50 is recovered to the heat storage tank 72. The heat source of the heat storage tank 72 is again returned to the heat pump (74) to heat the water in the hot water tank (76). The pump P1 is for forcibly transferring the hot water of the storage tank 72 into the plate heat exchanger 55 and the pump P2 is forcibly pumping the hot water of the heat pump 74 to circulate in the storage tank 72 The pump P3 circulates the hot water in the hot water tank 76 into the heat pump 74 to recover heat from the heat storage tank 72 in which the heat obtained in the plate heat exchanger 55 is accumulated, System 70 shown in FIG.

7 is a perspective view of a purified water tank applied to the present invention. 7, the purified water tank 50 according to the present invention includes an excellent pipe 24-2 into which rainwater flows from the purified water tank main body 51 and the tourmaline filtration tank 40, And a discharge-side fine discharge pipe (24-3) through which purified rainwater flows out. In addition, the water tank 50 of the present invention is provided with a plate-shaped heat exchanger 55 at one side of the main body and a plate-like heat exchanger 55 at the opposite side of the main body between the plate- It is a structure to install intersections. The purified water tank 50 having the above structure is subjected to precipitation purification while passing the rainwater flowing into the inlet side stormwater pipe 24-2 through each of the compartments formed by the plate heat exchanger 55. The plate type heat exchanger 55 provided in the base 520 of the purified water tank 50 is formed with a hot water inlet 56 into which hot water flows at a low temperature and a hot water outlet 57 with a hot tap. The hot water of low temperature flowing into the plate heat exchanger 55 from the heat storage tank 72 is pumped by the pump P1 and flows into the hot water inlet 56 of the plate heat exchanger 55 by the branch pipe 526 And is discharged into each of the hot water outlets 57, is integrated into one pipe by the branch pipe 527, and is returned to the heat storage tank 72 again. The heat storage tank 72 is heated by the heat pump 74 and piping and the hot water is circulated by the pump P2. The hot water heated by the heat pump 74 is transferred to the hot water tank 76 So that the user can use the water in the hot water tank or use the heating system to supply heating. The plate type heat exchanger 55 is coupled to the main body base 520 by bolts and nuts at two support parts 525 formed on the base 520 of the main body. The plate heat exchanger 55 and the heat storage tank 72 are coupled to each other and the heat pump 74 is formed at the rear end of the heat storage tank 72 so as to mutually exchange heat. However, the heat storage tank 72 is omitted, The hot water inlet 56 and the hot water outlet 57 of the heat exchanger 55 are directly connected to the heat pump 74 through the branch pipes 526 and 527 and heat exchanged by the heat pump 74, ) May be optionally heated.

8 is a block diagram of a switching solenoid valve system according to the present invention. 8, the switching solenoid valve system includes a solenoid valve 1 (92) which is fastened to the outflow side excellent piping (24-3) of the purified water tank (50), a solenoid valve (94) which is fastened to the water supply pipe (664) And a toilet washing water pipe 64 fastened between the solenoid valve 1 (92) and the solenoid valve 2 (94). In the solenoid valve system constructed as described above, the solenoid valve 1 (92) is opened and the solenoid valve 2 is closed at normal times, and the purified rainwater of the purified water tank is supplied to the toilet wash water pipe. The valve 1 is closed and the solenoid valve 2 is opened so that the wash water is supplied from the water pipe to the wash water pipe.

9 is a configuration diagram of a solenoid valve controller applied to the present invention. 9, the solenoid valve controller converts a water level signal from the water level sensor 1 (21) and the water level sensor 2 (22) into a digital signal and receives the water level signal from the water level sensor 1 (21) The solenoid valve 1 (92) is opened and the solenoid valve 2 (94) is closed, and when the water level information is received from the water level sensor 1 (21), the alarm device 96 is controlled to operate And a control unit 95 for closing the solenoid valve 1 92 and opening the solenoid valve 2 94 when the water level information is received from the water level sensor 1 21 and the water level sensor 22 .

The rainwater recycling system constructed as described above is advantageous in that it can be used as toilet washing water by purifying the rainwater or by using the tourmaline filter material which generates heat when friction occurs, the temperature of the rainwater can be raised to be used as heating of the building.

10: Rainwater catcher, 20: Excellent tank,
21: water level sensor 1, 30: stretcher,
34: fixed pipe portion, 37: drain valve,
39: coaxial screen, 40: tourmaline filtration tank,
50: purified water tank, 55: plate heat exchanger,
72: heat storage tank, 76: hot water tank,
92: Solenoid valve 1, 94: Solenoid valve 2,
95: control unit, 96: alarm device

Claims (6)

delete delete delete In an excellent recycling system for collecting and recycling rainwater,
In the excellent recycling system,
A plurality of rain gutters (10) for collecting rainwater;
An excellent tank 20 in which rainwater collected through a plurality of rainwater collectors 10 is collected and stored in one place, and the water level sensor 1 21 and the water level sensor 2 22 are installed by height difference;
The rainwater is transported from the storm tank to remove the large particles containing rainwater. The rainwater that is collected in the storm tank is transported to the stormwater pipe (24) and the expansion and expansion of the stormwater pipe Side piping portion 34 and an inflow-side fastening flange 33 for fastening the storm sewer piping 24 and the expansion piping 34 to each other; Side coalescing flange 35 and a coaxial screen 39 integrally fastened to the expansion pipe portion 204 from the inside of the inflow-side fastening flange 33, A drain pipe 37 which is fastened to the strainer fastening part 36 and a drain valve 37 which is provided at the rear end of the drain pipe 38 are formed by a strainer fastening part 36 formed at the end of the coaxial screen 39 A configured strainer (30);
A tourmaline filtration tank 40 for allowing rainwater passing through the strainer 30 to pass through a tourmaline filtration bed having a particle size of a predetermined size to remove small foreign matter and odor causing substances;
The filtration rainwater is transferred through the tourmaline filtration tank 40 and flows into a compartment formed by a plurality of partition walls formed of a plate heat exchanger in the form of a jig jig, 50);
A solenoid valve 1 (92) to be connected to the outflow side excellent piping (24-3) of the purified water tank 50, a solenoid valve 2 (94) to be connected to the water supply pipe 664, a solenoid valve 1 (92) 2, 94, and the solenoid valve 1 (92) is normally opened and the solenoid valve 2 is closed by the solenoid valve controller control, and the purified rainwater of the purified water tank is supplied to the toilet water pipe A solenoid valve system in which the solenoid valve 1 is closed and the solenoid valve 2 is opened so that the washing water is supplied from the water pipe to the toilet water pipe;
And the cold water recovered from the purified water tank is supplied to the plate heat exchanger 55 from the heat storage tank 72. The hot water is pumped by the pump P1 and is supplied to the plate heat exchanger 55 by the branch pipe 526, And then flows into the hot water inlet 56 of the storage tank 72 and is heated to flow out to the hot water outlet 57. The hot water is then collected by the branch pipe 527 into one pipe and returned to the storage tank 72, The hot water circulated by the pump P2 and the hot water heated by the heat pump 74 is transferred to the hot water tank 76 to be used by the user And a heat energy recovery system (70) configured to store the heat energy recovered by the heat recovery system.
5. The method of claim 4,
The solenoid valve controller includes:
When the water level signal is received from the water level sensor 1 (21) and the water level sensor 2 (22) and converted into a digital signal and the water level information is not received from the water level sensor 1 (21) 1 92 and closes the solenoid valve 2 94 and controls the alarm device 96 to operate when the level information is received from the level sensor 1 21 and controls the level sensor 1 21 and the level And a control unit (95) for closing the solenoid valve (1) (92) and opening the solenoid valve (2) (94) when the level information is received from the sensor (22).
6. The method of claim 5,
Wherein the tourmaline filtration quartz layer comprises:
Wherein the filtration layer is formed of a filter material having an effective diameter of 0.45 mm to 0.7 mm and a thickness of 300 mm to 500 mm.

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