CN220502706U - Integrated high-quality impurity drainage recycling device - Google Patents

Abstract

The utility model discloses an integrated high-quality impurity drainage recycling device, which relates to the technical field of water circulation treatment and comprises a water supply vertical pipe, a sewage vertical pipe, a backwater treatment assembly, a water inlet and drainage assembly and a control assembly; the backwater treatment assembly comprises a first water storage part and a first backwater treatment part; the water inlet and outlet assembly comprises a first water inlet piece and a first water outlet piece; the first water inlet piece is communicated with the sewage vertical pipe; the control assembly comprises a controller, a first control piece, a second control piece, a third control piece and a liquid level sensor; the high-quality miscellaneous drainage in the toilet basin is introduced into the first backwater treatment part through the first water inlet part for filtering treatment and is stored in the first water storage part, and the opening or closing of the first control part, the second control part and the third control part are respectively controlled by the controller according to the data signals of the liquid level sensor, so that the flow direction of the miscellaneous drainage and tap water are controlled to supplement water for the first water storage part, the toilet flushing water is ensured, and the drainage safety is ensured.

Description

Integrated high-quality impurity drainage recycling device

Technical Field

The utility model relates to the technical field of water circulation treatment, in particular to an integrated high-quality impurity drainage circulation recycling device.

Background

Reclaimed water recycling equipment is generally arranged outdoors or indoors in a basement, sewage and wastewater in one or more buildings are collected in a concentrated mode, a booster pump is specially arranged to supply reclaimed water to a water use point, the collected and converged sewage and wastewater is used as raw water for treatment, the treatment process is complex, and the equipment management and maintenance requirements are high.

The current reclaimed water recycling equipment has large water treatment amount, the occupied area of the needed equipment is large, reclaimed water is supplied to water points, the design lift of a booster pump is large, and the power consumption of the pump are large; the reclaimed water recycling equipment is arranged in a concentrated mode, so that water in the whole reclaimed water supply range can be influenced when equipment is maintained and overhauled, the influence range is large, a large number of pipelines are required to be added in a building, and a large building space is required to be occupied.

The utility model patent number CN207659273U discloses a high-quality miscellaneous drainage recycling integrated device, a system is installed in a bottom independent treatment room of a building structure, reclaimed water is used for flushing a toilet and greening irrigation after being treated, in the patent, high-quality miscellaneous drainage is uniformly collected into the bottom treatment room of the building for treatment and then recycled to the toilet or greening irrigation, and when recycled to the toilet, a special water suction pump is required to be arranged to convey water to a high layer due to higher building, so that the cost is higher.

Disclosure of Invention

The utility model mainly aims to provide an integrated high-quality miscellaneous drainage recycling device which is used for solving the problems of high energy consumption and high cost of the existing high-quality miscellaneous drainage during recycling.

In order to achieve the purpose, the utility model provides an integrated high-quality impurity drainage recycling device which comprises a water supply vertical pipe and a sewage vertical pipe; further comprises:

the water return treatment assembly comprises a first water storage part communicated with the water supply vertical pipe and a first water return treatment part communicated with the first water storage part;

the water inlet and outlet assembly comprises a first water inlet piece communicated with the first water return treatment piece and a first water outlet piece communicated with the first water storage piece; the first water inlet piece is communicated with the sewage vertical pipe;

the control assembly comprises a controller, a first control piece arranged between the first water inlet piece and the first water return treatment piece, a second control piece arranged between the water supply vertical pipe and the first water storage piece, a third control piece arranged between the first water inlet piece and the sewage vertical pipe, and a liquid level sensor arranged in the first water storage piece; the controller is respectively and electrically connected with the first control piece, the second control piece, the third control piece and the liquid level sensor; the controller receives data signals of the liquid level sensor and respectively controls the first control piece, the second control piece and the third control piece to be opened or closed.

As a further improvement of the utility model, a first connecting pipe is arranged between the first backwater treatment piece and the first water storage piece; a second connecting pipe is arranged between the first water inlet piece and the first water return treatment piece; a third connecting pipe is arranged between the first water storage piece and the water supply vertical pipe; a fourth connecting pipe is arranged between the first water inlet piece and the sewage pipe; the first control piece is arranged on the second connecting pipe; the second control piece is arranged on the third connecting pipe; the third control member is disposed on the fourth connection pipe.

As a further improvement of the utility model, the liquid level sensor comprises a first sensor, a second sensor and a third sensor which are arranged in the first water storage piece at intervals; the first sensor, the second sensor and the third sensor are sequentially arranged from bottom to top.

As a further improvement of the utility model, the controller controls the opening or closing of the second control member according to the data signal of the first sensor; the controller controls the opening or closing of a control piece and a third control piece according to the data signal of the second sensor; the controller controls the second control piece and the third control piece to be opened or closed according to the data signal of the third sensor.

As a further improvement of the utility model, a first disinfection piece is arranged between the first water draining piece and the first water storing piece.

As a further improvement of the utility model, a fifth connecting pipe is also arranged on the first backwater treatment piece; a fourth control piece is arranged on the fifth connecting pipe; the fourth control piece is electrically connected with the controller.

The beneficial effects of the utility model are as follows:

introducing high-quality miscellaneous drainage in the toilet basin into the first backwater treatment piece through the first water inlet piece for filtering treatment, storing the high-quality miscellaneous drainage in the first backwater treatment piece, and respectively controlling the opening or closing of the first control piece, the second control piece and the third control piece through the controller according to data signals of the liquid level sensor, so as to control the flow direction of the miscellaneous drainage and the tap water to supplement water for the first backwater treatment piece, thereby ensuring the toilet water, and simultaneously maximally utilizing the high-quality miscellaneous drainage of the public toilet basin as raw water of the toilet water; and simultaneously ensures the safety of drainage; the whole set of equipment automatically flows by gravity, so that the energy consumption is low; the device is arranged inside the building in a dispersing way, and the occupied space is small.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an integrated high-quality miscellaneous drainage recycling device;

FIG. 2 is a schematic diagram of a recovery processing assembly of the integrated high-quality miscellaneous drainage recycling device;

reference numerals illustrate:

1. a water feed riser; 2. a sewage vertical pipe; 3. a backwater treatment assembly; 4. a first water inlet member; 5. a first drain; 6. a first water storage member; 7. a first backwater treatment member; 8. a first control member; 9. a second control member; 10. a third control member; 11. a liquid level sensor; 12. a first connection pipe; 13. a second connection pipe; 14. a third connection pipe; 15. a fourth connection pipe; 16. a service valve; 17. a first sensor; 18. a second sensor; 19. a third sensor; 20. a first sterilizing member; 21. a fifth connection pipe; 22. and a fourth control member.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the described embodiments are merely some, but not all embodiments of the present utility model. Embodiments and features of embodiments in this application may be combined with each other without conflict. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In an embodiment, referring to fig. 1, the integrated high-quality impurity drainage recycling device of the utility model comprises a water supply vertical pipe 1, a sewage vertical pipe 2, a backwater treatment component 3, a water inlet and drainage component and a control component.

Wherein, referring to fig. 2, the backwater treatment assembly 3 comprises a first water storage member 6 communicated with the water supply riser 1, and a first backwater treatment member 7 communicated with the first water storage member 6; the water inlet and outlet assembly comprises a first water inlet piece 4 communicated with a first water return treatment piece 7 and a first water outlet piece 5 communicated with a first water storage piece 6; the first water inlet piece 4 is communicated with the sewage vertical pipe 2; the control assembly comprises a controller, a first control piece 8 arranged between the first water inlet piece 4 and the first water return treatment piece 7, a second control piece 9 arranged between the water supply vertical pipe 1 and the first water storage piece 6, a third control piece 10 arranged between the first water inlet piece 4 and the sewage vertical pipe 2, and a liquid level sensor 11 arranged in the first water storage piece 6; the controller is respectively and electrically connected with the first control member 8, the second control member 9, the third control member 10 and the liquid level sensor 11, and the controller receives the data signals of the liquid level sensor 11 to respectively control the opening or closing of the first control member 8, the second control member 9 and the third control member 10.

Preferably, the first water storage part 6 adopts a water tank, and the first water inlet part 4 comprises a backwater water inlet pipe; the first backwater treatment piece 7 adopts a self-cleaning filter; the first drain 5 comprises a return water drain.

Preferably, the first water inlet 4 is in communication with the sewer pipe of the toilet basin.

Further, referring to fig. 2, a first connecting pipe 12 is provided between the first backwater treating element 7 and the first water storage element 6; a second connecting pipe 13 is arranged between the first water inlet piece 4 and the first water return treatment piece 7; a third connecting pipe 14 is arranged between the first water storage piece 6 and the water supply vertical pipe 1; a fourth connecting pipe 15 is arranged between the first water inlet piece 4 and the sewage pipe; the first control member 8 is arranged on the second connecting pipe 13; the second control member 9 is provided on the third connection pipe 14; the third control member 10 is disposed on the fourth connection pipe 15.

Preferably, the first control member 8 comprises a first inlet valve; the second control member 9 includes a second inlet valve; the third control member 10 comprises a bypass valve.

Preferably, a service valve 16 is also provided between the second control member 9 and the sewage riser 2.

Further, referring to fig. 2, the liquid level sensor 11 includes a first sensor 17, a second sensor 18 and a third sensor 19 which are disposed in the first water storage member 6 at intervals, and the first sensor 17, the second sensor 18 and the third sensor 19 are disposed in order from bottom to top with a height difference therebetween.

Preferably, the first sensor 17, the second sensor 18 and the third sensor 19 are differential pressure type liquid level sensors 11.

Further, referring to fig. 2, the controller controls the opening or closing of the second control member 9 according to the data signal of the first sensor 17; the controller controls the opening or closing of a control member and the third control member 10 according to the data signal of the second sensor 18; the controller controls the opening or closing of the second control member 9, the third control member 10 according to the data signal of the third sensor 19.

Preferably, when the liquid level in the water tank is lower than the liquid level of the first sensor 17, the second water inlet valve is opened, the first water inlet valve is kept in an opened state, the bypass valve is closed, and the first water storage part 6 is supplemented with water, so that raw water of toilet flushing water is ensured; when the water level reaches the second sensor 18, the first inlet valve closes.

Preferably, when the water level in the water tank is lower than the water level in the second sensor 18, the first water inlet valve is opened, the bypass valve is closed, high-quality impurity drainage of the toilet basin enters the self-cleaning filter, and impurities in the water are filtered and then enter the water tank.

Preferably, when the liquid level of the water tank reaches the third sensor 19, the first water inlet valve is closed, the bypass valve is opened, and the drainage of the wash basin in the public washroom is directly discharged into the waste water drainage pipeline through gravity flow, so that the drainage safety is ensured.

Further, referring to fig. 2, a first sterilizing member 20 is further provided between the first drain member 5 and the first reservoir member 6.

Preferably, the first sterilizing element 20 is an ultraviolet sterilizer.

Preferably, the device further comprises a device housing, wherein the device housing wraps the first water storage piece 6, the first backwater treatment piece 7, the first disinfection piece 20, the first control piece 8, the second control piece 9 and the third control piece 10.

Further, referring to fig. 2, a fifth connecting pipe 21 is further provided on the first backwater treatment element 7, and a fourth control element 22 is provided on the fifth connecting pipe 21; the fourth control member 22 is electrically connected to the controller.

Preferably, the fifth connecting pipe 21 is communicated with the water outlet of the first water return treatment member 7, and the fourth control member 22 comprises a water discharge valve; when the self-cleaning filter is blocked, the drain valve is opened, and impurities washed in the filter are indirectly discharged into the sewage drain pipe.

Preferably, through holes are respectively arranged on the equipment shell corresponding to the backwater water inlet pipe, the backwater water outlet pipe, the third connecting pipe 14 and the fifth connecting pipe 21.

The controller, the liquid level sensor 11, the first water inlet valve, the second water inlet valve, the bypass valve, the drain valve, the self-cleaning filter, and the ultraviolet sterilizer are all existing structures, and in this embodiment, no improvement is provided to the structure, and only the connection mode of the installation position and the electrical control of the limiter is provided.

In the embodiment, the water return water inlet pipe is communicated with the sewer pipe of the toilet basin, gravity flows into the first water return treatment piece 7 arranged at the lower layer, a bypass valve in the device is closed, when the differential pressure type liquid level sensor 11 detects that the liquid level in the water tank is lower than the liquid level of the second sensor 18, the first water inlet valve is opened, the bypass valve is closed, high-quality impurity drainage of the toilet basin in the public toilet enters a self-cleaning filter, and impurities in the water are filtered and then enter the water tank;

when the liquid level of the water tank reaches the liquid level of the third sensor 19, the first water inlet valve is closed, the bypass valve is opened, and the drainage of the wash basin in the public washroom directly flows into the waste water drainage pipeline by gravity for drainage, so that the drainage safety is ensured.

When the liquid level of the water tank is lower than the liquid level of the first sensor 17, the second water inlet valve is opened, tap water in the water inlet vertical pipe is supplemented to the water tank, when the water level reaches the liquid level of the second sensor 18, the second water inlet valve is closed, so that the flushing water is ensured, and meanwhile, the high-quality miscellaneous drainage of the public toilet basin is utilized as raw water of the flushing water to the greatest extent.

When the self-cleaning filter is blocked, the drain valve is opened, and impurities washed in the filter are indirectly discharged into the sewage vertical pipe 2.

The water treated by the first backwater treatment piece 7 enters the first disinfection piece 20 for disinfection treatment, and the prepared reclaimed water is supplied to the toilet flushing sanitary appliance through a backwater drain pipe.

The whole set of system is used for diverting waste water at the source, collecting and recycling high-quality impurity drainage of the hand basin with better water quality, and has simple and reliable process and higher water quality assurance rate of recycled water; the equipment is arranged in a scattered way, when the equipment is maintained and overhauled, only the water for flushing the toilet at the lower layer is influenced, and the influence range is small; the whole reclaimed water collecting, treating, storing and recycling flow of the equipment adopts gravity self-flowing, a booster pump is not required, and only an electric valve and a liquid level sensor 11 need a small amount of electricity consumption in the reclaimed water recycling process; the device is arranged inside a building in a dispersing way, each set of device is arranged below the hand washing basin, the underground garage parking space is not occupied, and the device is not influenced by the size and the topography of an outdoor field. The equipment has wide application range and simple installation.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (6)

1. An integrated high-quality impurity drainage recycling device comprises a water supply vertical pipe (1) and a sewage vertical pipe (2); characterized by further comprising:

the backwater treatment assembly (3) comprises a first water storage piece (6) communicated with the water supply vertical pipe (1) and a first backwater treatment piece (7) communicated with the first water storage piece (6);

the water inlet and outlet assembly comprises a first water inlet piece (4) communicated with the first water return treatment piece (7) and a first water outlet piece (5) communicated with the first water storage piece (6); the first water inlet piece (4) is communicated with the sewage vertical pipe (2);

the control assembly comprises a controller, a first control piece (8) arranged between the first water inlet piece (4) and the first backwater treatment piece (7), a second control piece (9) arranged between the water supply vertical pipe (1) and the first water storage piece (6), a third control piece (10) arranged between the first water inlet piece (4) and the sewage vertical pipe (2), and a liquid level sensor (11) arranged in the first water storage piece (6); the controller is respectively and electrically connected with the first control piece (8), the second control piece (9), the third control piece (10) and the liquid level sensor (11); the controller receives data signals of the liquid level sensor (11) to respectively control the opening or closing of the first control member (8), the second control member (9) and the third control member (10).

2. The integrated high-quality impurity drainage recycling device according to claim 1, wherein the integrated high-quality impurity drainage recycling device is characterized in that: a first connecting pipe (12) is arranged between the first backwater treatment piece (7) and the first water storage piece (6); a second connecting pipe (13) is arranged between the first water inlet piece (4) and the first water return treatment piece (7); a third connecting pipe (14) is arranged between the first water storage piece (6) and the water supply vertical pipe (1); a fourth connecting pipe (15) is arranged between the first water inlet piece (4) and the sewage pipe; the first control piece (8) is arranged on the second connecting pipe (13); the second control piece (9) is arranged on a third connecting pipe (14); the third control element (10) is arranged on a fourth connecting tube (15).

3. The integrated high-quality impurity drainage recycling device according to claim 2, wherein: the liquid level sensor (11) comprises a first sensor (17), a second sensor (18) and a third sensor (19) which are arranged in the first water storage piece (6) at intervals; the first sensor (17), the second sensor (18) and the third sensor (19) are sequentially arranged from bottom to top.

4. The integrated high-quality impurity drainage recycling device according to claim 3, wherein: the controller controls the second control member (9) to be opened or closed according to the data signal of the first sensor (17); the controller controls the opening or closing of a control member and a third control member (10) according to the data signal of the second sensor (18); the controller controls the second control member (9) and the third control member (10) to be opened or closed according to the data signal of the third sensor (19).

5. The integrated high-quality impurity drainage recycling device according to claim 4, wherein the integrated high-quality impurity drainage recycling device is characterized in that: a first disinfection piece (20) is further arranged between the first drainage piece (5) and the first water storage piece (6).

6. The integrated high-quality impurity drainage recycling device according to claim 5, wherein the integrated high-quality impurity drainage recycling device is characterized in that: a fifth connecting pipe (21) is further arranged on the first backwater treatment piece (7); a fourth control piece (22) is arranged on the fifth connecting pipe (21); the fourth control element (22) is electrically connected with the controller.