KR102541113B1 - Recycling supply apparatus for shower water - Google Patents

Abstract

A shower water recycling supply device is disclosed. The shower water recycling supply device includes a first recovery pipe connected to a drain formed on the bottom surface of the shower space and installed inside the floor surface, a waste water sensor installed in the first recovery pipe to sense the inflow of waste water, and a first recovery pipe installed in the first recovery pipe. A recovery pump installed in a recovery pipe to pump sewage flowing into the first recovery pipe; a control unit receiving a sensing signal from a sewage sensor and driving and controlling the recovery pump when sewage flows into the first recovery pipe; A second recovery pipe connected to the recovery pump to move the sewage moved by the pumping operation of the recovery pump, and a storage tank storing filtered water in a state in which the sewage recovered through the second recovery pipe is filtered. A filter unit for filtering the sewage moved through the first recovery pipe and the second recovery tube, and a filtered water supply unit for supplying the filtered water in the storage tank to the toilet. and a power supply unit providing driving force to the recovery pump.

Description

Shower water recycling supply device {RECYCLING SUPPLY APPARATUS FOR SHOWER WATER}

The present invention relates to a shower water recycling supply device capable of filtering shower water, storing it in a storage tank, and then recycling the water so that it can be supplied to a water tank of a toilet bowl.

Due to the recent increase in population and the improvement of the standard of living due to industrialization, the amount of domestic sewage discharged from various lodging facilities, sales facilities, bathrooms, and flush toilets, baths, showers, laundry rooms, and kitchens in factories has rapidly increased. It increased and exceeded the purification capacity of the existing river.

Therefore, domestic sewage containing a large amount of organic matter, nitrogen, phosphorus, etc. is discharged into rivers or public waters in an unpurified state, increasing water pollution in rivers.

For this reason, it is stipulated that sewage purifying devices be installed on a unit-by-unit basis in each place where a lot of polluted domestic sewage is discharged to meet the set water quality standards.

In addition, while the demand for water is gradually increasing due to the increase in population and income, water resources are gradually becoming scarce.

Therefore, in high-rise buildings or collective residences, it is recommended to purify and reuse gray water, excluding drinking water, once used.

On the other hand, sewage generated after a shower is discharged to the outside through a drain, but is not recycled, so there is a problem in that water is not effectively recycled.

Publication of Patent Publication 10-2005-0013890

One embodiment of the present invention is to provide a shower water recycling supply device capable of recycling and supplying sewage generated after showering by a filter member and storing it in a storage tank for use in a toilet.

One embodiment of the present invention is a first recovery pipe connected to a drain formed on the bottom surface of a shower space and installed inside the floor surface, a sewage sensor installed in the first recovery pipe to sense the inflow of sewage water, A recovery pump installed in a first recovery pipe to pump sewage flowing into the first recovery pipe; a control unit receiving a sensing signal from a sewage sensor and driving and controlling the recovery pump when sewage flows into the first recovery pipe; A second recovery pipe connected to the pipe to move the sewage moved by the pumping operation of the recovery pump, and a storage tank storing filtered water in a state in which the sewage recovered through the second recovery pipe is filtered. A filter unit for filtering the sewage moved through the first recovery pipe and the second recovery tube, and a filtered water supply unit for supplying the filtered water in the storage tank to the toilet. and a power supply unit providing driving force to the recovery pump.

The filter unit may include a first filter member installed in the first recovery pipe and a second filter member installed in the second recovery pipe.

The filtered water supply unit may be a water supply pipe connected to the lower portion of the storage tank and connected to the toilet.

The power supply unit may be a solar panel that supplies power to the recovery pump.

A first water level sensor installed at the bottom of the storage tank to sense the level of the filtered water and transmit a sensing signal to the control unit, and a first water level sensor installed on the upper side of the first water level sensor inside the storage tank to sense the arrival of the set level of the filtered water and a second water level sensor for transmitting a sensing signal to the control unit.

A water supply pipe connected to the side of the storage tank to supply water to the inside of the storage tank, a reverse flow pipe connected to the side of the storage tank to discharge filtered water stored in excess of the set water level sensed by the second water level sensor, and a controller It may include an opening/closing valve that opens and closes the backflow pipe according to the control of the.

According to one embodiment of the present invention, sewage generated after a shower is supplied to the storage tank through a first recovery pipe installed inside the drain and a second recovery pipe connected to the first recovery pipe and the storage tank, and a filter member It is installed to resupply the filtered water to the toilet through the filter. Therefore, since shower water can be reused and supplied for use in a toilet bowl, it is possible to save energy by minimizing water consumption, thereby improving user satisfaction.

1 is a diagram schematically showing a shower water recycling device according to an embodiment of the present invention.
FIG. 2 is a diagram schematically illustrating a flow state of sewage in the shower water recycling device of FIG. 1 .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. However, the present invention may be embodied in many different forms and is not limited to the embodiments described herein. In order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification.

1 is a diagram schematically showing a shower water recycling device according to an embodiment of the present invention, and FIG. 2 is a diagram schematically showing a flow state of sewage in the shower water recycling device of FIG. 1 .

As shown in Figures 1 and 2, the shower water recycling device 100 according to an embodiment of the present invention is connected to the drain 12 formed on the bottom surface of the shower space 11 to the inside of the bottom surface The first recovery pipe 10 installed, the sewage sensor 20 installed in the first recovery pipe 10 to sense the inflow of sewage, and the first recovery pipe 10 installed in the first recovery pipe 10 A recovery pump 40 for pumping the sewage introduced into the ), a controller 80 for driving and controlling the recovery pump when the sewage flows into the first recovery pipe 10 by receiving a sensing signal from the sewage sensor 20, and , The second recovery pipe 50 connected to the first recovery pipe 10 and moving the wastewater moved by the pumping operation of the recovery pump 40, and filtering the sewage recovered through the second recovery pipe 50 The storage tank 60 for storing the filtered water in the filtered state, the filter unit 30 for filtering the sewage moving through the first recovery pipe 10 and the second recovery pipe 50, and the storage tank 60 It includes a filtered water supply unit 65 for supplying filtered water to the toilet and a power supply unit 90 for providing driving power to the recovery pump 40 .

The first recovery pipe 10 is connected to the drain hole 12 formed on the bottom surface of the shower space 11 and may be installed in an extended state in the interior space of the bottom surface. A sewage sensor 20 for sensing the inflow of sewage may be installed in the first recovery pipe 10 .

The sewage sensor 20 may pass through the drain hole 12 to sense the flow of sewage generated after showering into the first collection pipe 10 and transmit a sensing signal to the control unit 80 .

In addition, a first filter member 31 may be installed in the first recovery pipe 10 to primarily remove foreign substances contained in the sewage. Therefore, sewage may be supplied to the first recovery pipe 10 in a state in which it is primarily filtered by the filtration action of the first filter member 31 in a state in which it flows into the first recovery pipe 10 .

A recovery pump 40 for pumping sewage may be installed in the first recovery pipe 10 .

The recovery pump 40 may be driven by the control operation of the control unit 80 in a state in which the inflow of sewage water is sensed by the sewage sensor 20 .

As such, by driving the recovery pump 40 , sewage may be pumped from the first recovery pipe 10 and supplied to the second recovery pipe 50 . Here, it is also possible that a drain pipe 14 for draining water when the recovery pump 40 is not operating is connected to the first recovery pipe 10 .

The second recovery pipe 50 is installed to connect between the first recovery pipe 10 and the storage tank 60, and the wastewater primarily filtered through the first recovery pipe 10 is stored in the storage tank 60. can be installed to supply

A second filter member 33 for secondary filtering of sewage may be installed in the second recovery pipe 50 .

As described above, the filter unit 30 includes a first filter member 31 installed in the first recovery pipe 10 and a second filter member 33 installed in the second recovery pipe 50, Sewage generated after showering may be sequentially filtered as filtered water while passing through the first filter member 31 and the second filter member 33 .

In this way, the filtered water passing through the second filter member 33 of the second recovery pipe 50 may be supplied to the storage tank 60 .

As described above, the storage tank 60 stores sewage generated after a shower in a filtered state as filtered water through the filter unit 30, and may be installed to supply filtered water to a toilet bowl (not shown).

First/second water level sensors 61 and 63 for sensing the storage level of the filtered water may be installed inside the storage tank 60 .

The first water level sensor 61 may be installed at a bottom position inside the storage tank 60 to sense the level of filtered water and transmit a sensing signal to the control unit 80 . That is, the first water level sensor 61 may be installed to sense the inflow state of the filtered water at the bottom of the storage tank 60 .

The second water level sensor 63 is installed above the first water level sensor 61 inside the storage tank 60 to sense the arrival of the set level of the filtered water and transmit a sensing signal to the control unit 80. can

That is, the second water level sensor 63 may be installed to sense the filtered water so that it is not stored above a set water level in a state where the filtered water is stored inside the storage tank 60 .

Meanwhile, a backflow pipe 70 may be installed in the storage tank 60 to discharge the filtered water to the outside when an overflow occurs in which the filtered water is stored above a set water level.

The backflow pipe 70 may be installed in a state in which one side is connected to the upper side of the storage tank 60 and the other side is extended to a drainage position. Therefore, the filtered water overflowing in the storage tank 60 may be discharged to the outside through the backflow pipe 70 .

A discharge sensor 71 may be installed in the backflow pipe 70 to sense the discharge state of filtered water discharged in an overflow state and transmit the detected state to the control unit 80 . Here, it is also possible to install an on/off valve 73 opened and closed by the control operation of the control unit 80 in the backflow pipe 70 .

Accordingly, when it is confirmed that the filtered water is discharged through the backflow pipe 70 by the sensing of the discharge sensor 71, the control unit 80 may control the recovery pump 40 to be stopped.

That is, the control unit 80 controls that the filtered water exceeds the set water level inside the storage tank 60 through the sensing of the second water level sensor 63, and the filtered water through the discharge sensor 71 through the reverse flow pipe 70. When it is confirmed that the water is discharged to the outside, the operation of the recovery pump 40 may be stopped so that the supply of filtered water into the storage tank 60 may be stopped.

On the other hand, it is also possible that the ventilation hole 64 is formed in the upper part of the storage tank 60 . Therefore, it is possible to prevent contamination of the filtered water stored in the storage tank 60 in a sealed state.

In addition, it is also possible that the water supply pipe 67 is installed on the side of the storage tank 60. Therefore, it is possible to supply filtered water and tap water to the inside of the storage tank 60 together.

As described above, the filtered water stored by the storage tank 60 may be supplied to the toilet by the filtered water supply unit 65 .

The filtered water supply unit 65 is connected to the lower portion of the storage tank 60 and may be applied as a water supply pipe connected to the toilet. Hereinafter, the same reference number is used for the filtered water supply unit and the water supply pipe.

The water supply pipe 65 may be installed such that one side is connected to the lower portion of the storage tank 60 and the other side is connectable to the water tank of the toilet bowl. It is also possible that a water supply valve 65a opened and closed by the control operation of the controller 80 is installed in the water supply pipe 65 .

Therefore, since the filtered water stored in the storage tank 60 can be supplied to the water tank of the toilet through the water supply pipe 65, it is possible to effectively recycle sewage generated after a shower in the form of filtered filtered water.

Meanwhile, power for driving the recovery pump 40 may be supplied by the power supply unit 90 .

The power supply unit 90 is installed outside the storage tank 60 and may be applied as a solar panel capable of generating solar power.

Therefore, it is possible to supply power capable of operating the recovery pump 40 by photovoltaic power generation without a separate driving power source, thereby reducing maintenance costs and enabling effective recycling and supply of shower water.

Meanwhile, in addition to the solar panel, the power supply unit 90 may further include a power outlet 91 for supplying power when solar power generation is impossible due to weather conditions.

As described above, the shower water recycling device 100 of this embodiment, the first recovery pipe 10 installed inside the drain, the first recovery pipe 10 and the storage tank 60 It is supplied to the storage tank 60 through the second recovery pipe 50 connected thereto, and the filtered water filtered through the filter unit 30 is installed to be re-supplyed to the toilet.

Therefore, since shower water can be reused and supplied for use in a toilet bowl, it is possible to save energy by minimizing water consumption, thereby improving user satisfaction.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and implementations are possible within the scope of the claims and the detailed description of the invention and the accompanying drawings, and this is also the present invention. It is natural to fall within the scope of

10... First collection hall 11... Shower area
12 ... drain 20 ... sewage sensor
30 ... filter unit 31 ... first filter member
33 ... second filter member 40 ... recovery pump
50 ... second recovery pipe 60 ... storage tank
61 ... first water level sensor 63 ... second water level sensor
64 ... Tungfeng Port 65 ... Filtered water supply unit, water supply piping
67 ... Water supply piping 70 ... Backflow piping
71 ... emission sensor 73 ... on-off valve
80 ... control unit 90 ... power supply unit, solar panel

Claims (5)

A first recovery pipe connected to a drain formed on the floor of the shower space and installed inside the floor;
A sewage sensor installed in the first recovery pipe to sense the inflow of sewage;
a recovery pump installed in the first recovery pipe to pump sewage introduced into the first recovery pipe;
a drain pipe installed in the first recovery pipe to drain sewage when the recovery pump is not operating;
a control unit that receives a sensing signal from the sewage sensor and drives and controls the recovery pump when sewage flows into the first recovery pipe;
a second recovery pipe that is connected to the first recovery pipe and moves wastewater moved by the pumping operation of the recovery pump;
a storage tank for storing the filtrate recovered through the second recovery pipe as filtrate in a filtered state;
a filter unit filtering the waste water moving through the first recovery pipe and the second recovery pipe;
a filtered water supply unit supplying filtered water from the storage tank to the toilet; and
a power supply unit providing a driving force to the recovery pump;
Including,
a first water level sensor installed at a lower surface inside the storage tank to sense the level of the filtered water and transmit a sensing signal to the control unit; and
a second water level sensor installed above the first water level sensor in the storage tank to sense when the filtered water reaches a set water level and transmit a sensing signal to the control unit;
a water supply pipe connected to a side surface of the storage tank and supplying water to the inside of the storage tank;
a reverse flow pipe connected to a side surface of the storage tank and discharging filtered water stored in excess of the set water level sensed by the second water level sensor;
a discharge sensor installed in the backflow pipe to sense discharge of filtered water;
an opening/closing valve opening and closing the backflow pipe under the control of the control unit;
Including more,
The control unit receives a sensing signal from the discharge sensor and controls to stop the operation of the recovery pump when filtered water flows into the backflow pipe.
According to claim 1,
The filter part,
a first filter member installed in the first recovery pipe; and
a second filter member installed in the second recovery pipe;
Containing, shower water recycling supply device.
According to claim 2,
The filtered water supply unit is a water supply pipe connected to the lower part of the storage tank and connected to the toilet,
The power supply unit is a solar panel that supplies power to the recovery pump, shower water recycling supply device.
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