CN210857386U - A wastewater recycling device applied to multiple floors - Google Patents

Abstract

The utility model provides a be applied to waste water circulating device of many floors, include: the upper layer water collecting tank, the lower layer water collecting tank, the clear water conveying pipe, the sewage conveying pipe and the flushing pipe; the upper-layer water collecting tank is provided with a sewage inlet, a clean water outlet and a first overflow port, and the clean water outlet is positioned below the first overflow port; the sewage conveying pipe is arranged on the upper-layer water collecting tank and is communicated with the first overflow port; the lower-layer water collecting tank is provided with a tap water inlet, a clear water inlet, a flushing port and a second overflow port, and the flushing port is positioned below the second overflow port; a second valve is arranged at the tap water inlet; two ends of the clear water conveying pipe are respectively communicated with the clear water outlet and the clear water inlet; the flushing pipe is communicated with the flushing port, and a third valve is arranged at the flushing port; two ends of the second overflow port are respectively communicated with the second overflow port and the flushing pipe. The utility model discloses a cyclic utilization of water has improved the reuse rate of water moreover to avoided the not enough influence normal use of wastewater collection.

Description

A wastewater recycling device applied to multiple floors

technical field

The utility model relates to the technical field of water recycling, in particular to a wastewater recycling device applied to multiple floors.

Background technique

According to the observations in our daily life, the domestic water consumption in student apartments is relatively large, and the waste of water resources is also relatively serious. Therefore, it is quite necessary to design the recycling and reuse of domestic water in student apartments, because student apartments are a place where water is concentrated, large in volume and serious waste. The domestic water in student apartments is mainly for daily washing and laundry, and the quality of wastewater is relatively industrial It is much better than domestic water. In most cases, the living water in the above-mentioned student apartments meets the requirements of the water quality for flushing toilets, and there is no need to take physical or chemical methods for water treatment.

If the recycling and reuse of domestic water is implemented in the student apartment, a large amount of water resources can be saved, the reuse rate of water can be increased, and the economic expenditure of domestic water in the student apartment can be reduced.

Utility model content

Based on the technical problems existing in the background technology, the utility model proposes a wastewater circulation device applied to multiple floors.

The utility model proposes a waste water circulation device applied to multiple floors, comprising: an upper water collecting tank, a lower water collecting tank, a clean water conveying pipe, a sewage conveying pipe and a flushing pipe;

The upper water collection tank is provided with a sewage inlet, a clean water outlet and a first overflow port, and the clean water outlet is located below the first overflow port; the sewage conveying pipe is installed on the upper water collection tank and communicated with the first overflow port;

The lower water collecting tank is provided with a tap water inlet, a clean water inlet, a flushing port and a second overflow port, and the flushing port is located below the second overflow port; a second valve is installed at the tap water inlet; both ends of the clean water delivery pipe are respectively connected to the clean water outlet and the clean water inlet; the flushing pipe is communicated with the flushing port, and a third valve is arranged at the flushing port; the two ends of the second overflow port are respectively connected with the second overflow port and the flushing pipe.

Preferably, a filter screen is provided at the sewage inlet.

Preferably, the upper water collecting tank is divided up and down into connected first chamber and second chamber; both the sewage inlet and the first overflow port communicate with the first chamber, and the clean water outlet communicates with the second chamber.

Preferably, the upper water collecting tank is also provided with a sewage outlet, the sewage outlet is located below the first overflow port and communicates with the second chamber, and the sewage outlet is also connected with the sewage conveying pipe; a first valve is also installed on the upper water collecting tank, the first The valve is used to control the sewage outlet and the clean water outlet to choose one to conduct; the first valve and the second valve are electromagnetic valves.

Preferably, it also includes a processing module, the upper water collecting tank is provided with a turbidity detector, and the lower water collecting tank is provided with a liquid level sensor; the processing module is respectively connected to the turbidity detector, the first valve, the liquid level sensor and the second valve.

Preferably, an automatic power-on switch is also installed in the upper water collecting tank, and the automatic power-on switch is connected in series between the processing module and the power supply device.

Preferably, the power supply device adopts a small pipeline type water flow generator, a storage battery and/or an alternating current transformer device.

Preferably, the upper water collecting tank has a cylindrical or semi-cylindrical structure.

Preferably, the bottom of the lower water collecting tank is a conical structure, and the flushing port is located at the tip of the conical structure.

Preferably, both the upper water collecting tank and the lower water collecting tank are made of graphite.

The utility model proposes a waste water circulation device applied to multiple floors, which uses the domestic water on the upper floor to flush down the toilet on the floor to realize the reuse of waste water, which not only saves water resources but also greatly reduces the discharge of waste water; at the same time, the utility model has the advantages of There is no need to add additional power units in the new model, which is highly efficient and energy-saving. In the utility model, the water supply mainly comes from domestic waste water. When the domestic waste water is too small, automatic water supply can be realized through the tap water inlet, which is not only convenient for daily water use, but also realizes the recycling of water, and improves the reuse rate of water. , and avoid insufficient waste water collection to affect normal use.

The utility model proposes a waste water circulation device applied to multiple floors, which is composed of common components and has a relatively low cost. The utility model is not only suitable for student apartments but also for newly built residential quarters, and has good practicability.

It can be seen that the waste water circulation device applied to multiple floors proposed by the utility model has the advantages of convenient maintenance, long service life, high economic benefit, and high promotion and utilization value.

Description of drawings

Fig. 1 is a kind of structure diagram of the middle and upper water collecting tank of a waste water circulation device applied to multiple floors proposed by the utility model;

FIG. 2 is a structural diagram of a water collecting tank in the middle and lower layers of a waste water circulation device applied to multiple floors proposed by the utility model.

Illustration: washbasin 1-1, first chamber 1-2, filter 1-3, first overflow 1-4, upper water collecting tank 1-5, automatic power-on switch 1-6, turbidity detector 1 -7. The first valve 1-8, the sewage conveying pipe 1-9, the clean water conveying pipe 1-10, the second chamber 1-11, the second valve 2-1, the tap water inlet 2-2, the clean water inlet 2- 3. The second overflow port 2-4, the lower water collecting tank 2-5, the liquid level sensor 2-6, the third valve 2-7, the toilet 2-8, the flushing pipe 2-9

Detailed ways

Referring to FIG. 1, a waste water circulation device applied to multiple floors proposed by the present utility model includes: an upper water collecting tank 1-5, a lower water collecting tank 2-5, a clean water conveying pipe 1-10, a sewage conveying pipe 1-9 and Flush pipes 2-9.

The upper water collecting tank 1-5 is provided with a sewage inlet, a clean water outlet and a first overflow port 1-4, and the clean water outlet is all located below the first overflow port 1-4. The sewage conveying pipe 1-9 is installed on the upper water collecting tank 1-5 and communicates with the first overflow port 1-4, so as to overflow the upper water collecting tank 1-5 through the first overflow port 1-4 and the sewage conveying pipe 1-9 The sewage is discharged to the designated location to avoid sewage overflow.

The lower water collecting tank 2-5 is provided with a tap water inlet 2-2, a clean water inlet 2-3, a flush outlet and a second overflow outlet 2-4, and the flush outlet is located below the second overflow outlet 2-4. A second valve 2-1 is installed at the tap water inlet 2-2. Two ends of the clean water conveying pipe 1-10 are respectively connected to the clean water outlet and the clean water inlet 2-3. In this way, under normal conditions, the accumulated water in the upper water collecting tank 1-5 can be transported to the lower water collecting tank 2-5 through the clean water conveying pipe 1-10, so as to recycle the waste water collected by the upper water collecting tank 1-5; The second valve 2-1 is opened, and the lower water collecting tank 2-5 can also be filled with tap water through the tap water inlet 2-2, so as to ensure sufficient water in the lower water collecting tank 2-5.

The flushing pipe 2-9 is communicated with the flushing port, and the flushing port is provided with a third valve 2-7, so that when the third valve 2-7 is opened, the water in the lower water collecting tank 2-5 can pass through the flushing pipe 2-9 Discharge to the designated location. The two ends of the second overflow port 2-4 are respectively connected to the second overflow port 2-4 and the flushing pipe 2-9. In this way, when the lower water collecting tank 2-5 overflows, the overflowed water is discharged through the flushing pipe 2-9. In order to avoid overflow of the lower collection tank 2-5.

Specifically, in the specific application of the wastewater circulation device applied to multiple floors provided by this embodiment, the upper water collecting tanks 1-5 can be installed under the washbasin on the upper floor, and the sewage inlet is connected with the washbasin; the lower water collecting tank 2-5 is installed on the ceiling of the next floor, and communicates the flush pipe 2-9 with the toilet. In this way, it is convenient for the upper water collecting tank 1-5 to collect the waste water discharged from the wash basin and transport it to the lower water collecting tank 2-5 through the clean water conveying pipe 1-10 for storage, so that the lower water collecting tank 2-5 can collect the waste water on the upper floor for flushing toilet to realize the recycling of waste water. In this embodiment, the sewage conveying pipe 1-9 can be directly connected to the sewer, so that the water overflowing from the upper water collecting tank 1-5 through the first overflow port 1-4 is directly discharged to the sewer through the sewage conveying pipe 1-9. The sewage discharged from the lower water collecting tank 2-5 through the second overflow port 2-4 flushes the toilet through the flushing pipe 2-9, which avoids the overflow of the lower water collecting tank 2-5 and helps to ensure the cleanliness of the toilet.

In this embodiment, a filter screen is provided at the sewage inlet. In this way, the wastewater can be coarsely filtered to prevent large-particle garbage from entering the upper water collecting tanks 1-5. In this embodiment, the upper water collecting tank 1-5 is divided up and down into a first chamber and a second chamber 1-11 that communicate with each other. The sewage inlet and the first overflow port 1-4 are both communicated with the first chamber, and the clean water outlet is communicated with the second chamber 1-11. In this way, by filling the first chamber 1-2 with filter fillers, such as activated carbon, the waste water collected in the upper water collecting tank 1-5 can be further filtered.

In this embodiment, the upper water collecting tank 1-5 is also provided with a sewage outlet, the sewage outlet is located below the first overflow port 1-4 and communicates with the second chamber 1-11, and the sewage outlet is also communicated with the sewage conveying pipe 1-9 . A first valve 1-8 is also installed on the upper water collecting tank 1-5, and the first valve 1-8 is used to control the connection between the sewage outlet and the clean water outlet. Both the first valve 1-8 and the second valve 2-1 use solenoid valves. In this way, the arrangement of the sewage outlet is beneficial to discharge the sewage with high turbidity directly to the sewer through the sewage conveying pipe, thereby ensuring the safety of circulating water.

The wastewater recycling device applied to multiple floors provided by this embodiment further includes a processing module, a turbidity detector 1-7 is arranged in the upper water collecting tank 1-5, and a liquid level sensor 2-7 is arranged in the lower water collecting tank 2-5 6. The processing modules are respectively connected to the turbidity detector 1-7, the first valve 1-8, the liquid level sensor 2-6 and the second valve 2-1. Specifically, in this embodiment, after the processing module is powered on, when the turbidity detector 1-7 detects that the turbidity of the wastewater in the upper water collecting tank 1-5 reaches the preset turbidity, the processing module controls the first valve 1-7 8 Turn on the sewage outlet to discharge the sewage; when the detection value of the liquid level sensor 2-6 is less than the preset liquid level value, the processing module controls the second valve 2-1 to open, so as to input tap water through the tap water inlet 2-2 , in order to ensure the water of the lower water collecting tank 2-5.

In this embodiment, an automatic power-on switch 1-6 is also installed in the upper water collecting tank 1-5, and the automatic power-on switch 1-6 is connected in series between the processing module and the power supply device. Specifically, the automatic power-on switch is turned on when the liquid level in the upper water collecting tank 1-5 reaches a fixed value, and when the liquid level in the upper water collecting tank 1-5 is lower than the fixed value, the automatic power-on switch 1-6 is turned off. In this way, the setting of the automatic power-on switches 1-6 enables the waste water circulation device to start when there is enough waste water, and close when there is less waste water, which is conducive to energy saving and emission reduction.

Specifically, in this embodiment, the power supply device adopts a small pipeline-type water flow generator, a storage battery and/or an alternating current transformer device.

In this embodiment, the upper water collecting tanks 1-5 are cylindrical or semi-cylindrical structures for easy installation. The bottom of the lower water collecting tank 2-5 is a conical structure, and the flushing port is located at the tip of the conical structure to facilitate flushing and sewage. In this embodiment, the upper water collecting tank 1-5 and the lower water collecting tank 2-5 are both made of graphite to facilitate cleaning.

The above are only the preferred specific implementations of the present invention, but the protection scope of the present invention is not limited to this. The technical solutions of the present invention and the concept of the utility model are equivalently replaced or changed, and all should be covered within the protection scope of the present invention.

Claims (10)

1. A waste water circulation device applied to multiple floors is characterized in that, comprising: upper water collecting tank (1-5), lower water collecting tank (2-5), clear water conveying pipe (1-10), sewage conveying pipe ( 1-9) and flush pipe (2-9); The upper water collecting tank (1-5) is provided with a sewage inlet, a clean water outlet and a first overflow port (1-4), and the clean water outlet is located below the first overflow port (1-4); the sewage conveying pipe (1-9) is installed on the upper water collecting tank (1-5) and communicated with the first overflow port (1-4); The lower water collecting tank (2-5) is provided with a tap water inlet (2-2), a clean water inlet (2-3), a flush outlet and a second overflow outlet (2-4), and the flush outlet is located at the second overflow outlet (2-4). -4) below; a second valve (2-1) is installed at the tap water inlet (2-2); both ends of the clean water delivery pipe (1-10) are respectively connected to the clean water outlet and the clean water inlet (2-3); flushing The water pipe (2-9) is communicated with the flushing port, and the flushing port is provided with a third valve (2-7); the two ends of the second overflow port (2-4) are respectively connected to the second overflow port (2-4) and the Flush hose (2-9). 2. The wastewater recycling device applied to multiple floors according to claim 1, characterized in that a filter screen (1-3) is provided at the sewage inlet. 3. The wastewater circulation device applied to multiple floors as claimed in claim 2, characterized in that, the upper water collecting tank (1-5) is divided up and down into a first chamber and a second chamber (1-11) that communicate with each other. ); both the sewage inlet and the first overflow port (1-4) are communicated with the first chamber, and the clean water outlet is communicated with the second chamber (1-11). 4. The wastewater circulation device applied to multiple floors as claimed in claim 1, wherein the upper water collecting tank (1-5) is also provided with a sewage outlet, and the sewage outlet is located below the first overflow (1-4) and communicate with the second chamber (1-11), the sewage outlet is also communicated with the sewage conveying pipe (1-9); the upper water collecting tank (1-5) is also installed with a first valve (1-8), the first valve (1-8) is used to control the sewage outlet and the clean water outlet to choose one to conduct; the first valve (1-8) and the second valve (2-1) both use solenoid valves. 5. The wastewater recycling device applied to multiple floors according to claim 4, characterized in that it further comprises a processing module, a turbidity detector (1-7) is arranged in the upper water collecting tank (1-5), and a lower collecting tank (1-5) is provided with a turbidity detector (1-7). The water tank (2-5) is provided with a liquid level sensor (2-6); the processing module is respectively connected to the turbidity detector (1-7), the first valve (1-8), the liquid level sensor (2-6) and the The second valve (2-1). 6. The wastewater circulation device applied to multiple floors according to claim 5, characterized in that, an automatic power-on switch (1-6) is also installed in the upper water collecting tank (1-5), and the automatic power-on switch (1-6 ) in series between the processing module and the power supply. 7 . The wastewater circulation device applied to multiple floors according to claim 6 , wherein the power supply device adopts a small pipeline type water flow generator, a storage battery and/or an alternating current transformer device. 8 . 8 . The wastewater circulation device applied to multiple floors according to claim 1 , wherein the upper water collecting tank ( 1 - 5 ) has a cylindrical or semi-cylindrical structure. 9 . 9. The wastewater circulation device applied to multiple floors according to claim 1, characterized in that the bottom of the lower water collecting tank (2-5) is a conical structure, and the flushing port is located at the tip of the conical structure. 10. The wastewater recycling device applied to multiple floors according to any one of claims 1 to 9, characterized in that the upper water collecting tank (1-5) and the lower water collecting tank (2-5) are both made of graphite.

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