CN210857386U - Be applied to waste water circulating device of many 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

Be applied to waste water circulating device of many floors

Technical Field

The utility model relates to a water cyclic utilization technical field especially relates to a be applied to waste water circulating device of many floors.

Background

According to the observation of our life, the water consumption in student apartments is large, and the waste of water resources is serious. Therefore, it is necessary to design the recycling of the domestic water of the student apartment, because the student apartment is a place with centralized water, large amount of water and serious waste, the domestic water of the student apartment is mainly used for daily washing and washing clothes, the water quality of the waste water is much better than that of the industrial water and the domestic water, and under most conditions, the domestic water of the student apartment meets the partial requirement of the water quality of the toilet flushing water and does not need to be treated by a physical or chemical method.

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

SUMMERY OF THE UTILITY MODEL

Based on the technical problem that the background art exists, the utility model provides a be applied to waste water circulating device of many floors.

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.

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

Preferably, the upper layer water collecting tank is internally divided into a first chamber and a second chamber which are communicated with each other up and down; the sewage inlet and the first overflow port are communicated with the first chamber, and the clear water outlet is communicated with the second chamber.

Preferably, the upper water collecting tank is also provided with a sewage outlet, the sewage outlet is positioned below the first overflow port and communicated with the second chamber, and the sewage outlet is also communicated with a sewage conveying pipe; the upper layer water collecting tank is also provided with a first valve which is used for controlling the connection of a sewage outlet and a clear water outlet; the first valve and the second valve are both electromagnetic valves.

Preferably, the device also comprises a processing module, wherein a turbidity detector is arranged in the upper-layer water collecting tank, and a liquid level sensor is arranged in the lower-layer water collecting tank; the processing module is respectively connected with the turbidity detector, the first valve, the liquid level sensor and the second valve.

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

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

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

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

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

The utility model provides a waste water circulating device applied to multi-floor, which utilizes the domestic water of the previous floor to flush the floor toilet, realizes the reuse of waste water, not only saves water resources, but also greatly reduces the discharge of waste water; and simultaneously, the utility model discloses in need not additionally increase power device, energy-efficient. The utility model discloses in, main water supply derives from domestic waste water, when domestic waste water is too few, can realize automatic water supply through the running water inlet again, both made things convenient for in daily water, realized the cyclic utilization of water again, improved the reuse rate of water moreover to avoided the not enough normal use that influences of wastewater collection.

The utility model provides a be applied to waste water circulating device of many floors utilizes common components and parts to constitute, and the cost ratio is lower. The utility model discloses not only be applicable to the student apartment but also be applicable to newly-built district, the enforceability is good.

It is thus clear that the utility model provides a be applied to waste water circulating device of many floors, it is convenient to maintain, long service life, and economic benefits is also high, has very high value of utilizing widely.

Drawings

FIG. 1 is a structural diagram of an upper water collecting tank in a wastewater circulating device applied to multiple floors, which is provided by the utility model;

figure 2 is the utility model provides a be applied to lower floor's header tank structure chart among waste water circulating device of many floors.

The figure is as follows: 1-1 part of a wash basin, 1-2 parts of a first chamber, 1-3 parts of a filter screen, 1-4 parts of a first overflow port, 1-5 parts of an upper-layer water collection tank, 1-6 parts of an automatic power-on switch, 1-7 parts of a turbidity detector, 1-8 parts of a first valve, 1-9 parts of a sewage delivery pipe, 1-10 parts of a clear water delivery pipe, 1-11 parts of a second chamber, 2-1 parts of a second valve, 2-2 parts of a tap water inlet, 2-3 parts of a clear water inlet, 2-4 parts of a second overflow port, 2-5 parts of a lower-layer water collection tank, 2-6 parts of a liquid level sensor, 2-7 parts of a third valve, 2

Detailed Description

Referring to fig. 1, the utility model provides a be applied to waste water circulating device of many floors, include: 1-5 parts of upper-layer water collecting tank, 2-5 parts of lower-layer water collecting tank, 1-10 parts of clear water conveying pipe, 1-9 parts of sewage conveying pipe and 2-9 parts of flushing pipe.

The upper layer 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 positioned below the first overflow port 1-4. The sewage delivery pipe 1-9 is installed on the upper header tank 1-5 and communicates with the first overflow ports 1-4 so that the sewage overflowed from the upper header tank 1-5 is discharged to a designated position through the first overflow ports 1-4 and the sewage delivery pipe 1-9 to prevent the overflow of the sewage.

The lower layer water collecting tank 2-5 is provided with a tap water inlet 2-2, a clear water inlet 2-3, a flushing port and a second overflow port 2-4, and the flushing port is positioned below the second overflow port 2-4. A second valve 2-1 is arranged at the tap water inlet 2-2. Two ends of the clear water conveying pipe 1-10 are respectively communicated with a clear water outlet and a clear water inlet 2-3. Therefore, in a normal state, accumulated water in the upper-layer water collecting tank 1-5 can be conveyed to the lower-layer water collecting tank 2-5 through the clear water conveying pipe 1-10, so that waste water collected by the upper-layer water collecting tank 1-5 can be recycled; meanwhile, when the second valve 2-1 is opened, the lower water collecting tank 2-5 can be filled with tap water through the tap water inlet 2-2, so that the water quantity of the lower water collecting tank 2-5 is sufficient.

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, water in the lower-layer water collecting tank 2-5 can be discharged to a designated position through the flushing pipe 2-9. Two ends of the second overflow port 2-4 are respectively communicated with the second overflow port 2-4 and the flushing pipe 2-9, so that when the lower-layer water collecting tank 2-5 is full, overflowed water is discharged through the flushing pipe 2-9 to avoid the overflow of the lower-layer water collecting tank 2-5.

Specifically, when the wastewater circulating device applied to multiple floors provided by the embodiment is specifically applied, the upper-layer water collecting tank 1-5 can be arranged below the wash basin on the upper floor, and the sewage inlet is communicated with the wash basin; the lower water collecting tank 2-5 is arranged on the ceiling of the next floor and connects the flushing pipe 2-9 with the toilet. Therefore, the upper-layer water collecting tank 1-5 can collect the wastewater discharged by the wash basin conveniently and convey the wastewater to the lower-layer water collecting tank 2-5 for storage through the clear water conveying pipe 1-10, so that the lower-layer water collecting tank 2-5 can collect the wastewater of the previous floor for flushing the toilet, and the wastewater can be recycled. In this embodiment, the sewage transporting pipe 1-9 may be directly connected to the sewage, so that the water overflowing from the upper header tank 1-5 through the first overflow ports 1-4 is directly discharged to the sewage through the sewage transporting pipe 1-9. The sewage discharged by the lower water collection tank 2-5 through the second overflow port 2-4 is used for flushing the toilet through the flushing pipe 2-9, so that the overflow of the lower water collection tank 2-5 is avoided, and the cleanness of the toilet is ensured.

In this embodiment, a filter screen is provided at the sewage inlet. Therefore, the waste water can be coarsely filtered, and large-particle garbage is prevented from entering the upper-layer water collecting tank 1-5. In the embodiment, the upper layer water collecting tank 1-5 is internally divided into a first chamber and a second chamber 1-11 which are communicated up and down. The sewage inlet and the first overflow gap 1-4 are both communicated with the first chamber, and the clear water outlet is communicated with the second chamber 1-11. In this way, the wastewater collected in the upper header tank 1-5 can be further filtered by filling the first chamber 1-2 with a filter filler, such as activated carbon.

In the embodiment, the upper water collecting tank 1-5 is also provided with a sewage outlet, the sewage outlet is positioned below the first overflow port 1-4 and communicated with the second chamber 1-11, and the sewage outlet is also communicated with the sewage conveying pipe 1-9. The upper layer water collecting tank 1-5 is also provided with a first valve 1-8, and the first valve 1-8 is used for controlling the connection of a sewage outlet and a clear water outlet. The first valve 1-8 and the second valve 2-1 are both electromagnetic valves. So, the setting of sewage export is favorable to directly discharging the higher waste water of dirty degree to the sewer through sewage conveyer pipe to guarantee the safety of cycling use of water.

The wastewater circulating device applied to the multiple floors further comprises a treatment module, wherein turbidity detectors 1-7 are arranged in upper-layer water collecting tanks 1-5, and liquid level sensors 2-6 are arranged in lower-layer water collecting tanks 2-5. The processing module is respectively connected with the turbidity detectors 1-7, the first valves 1-8, the liquid level sensors 2-6 and the second valves 2-1. Specifically, in this embodiment, after the processing module is powered on, when the turbidity of the wastewater in the upper water collection tank 1-5 reaches the preset turbidity detected by the turbidity detector 1-7, the processing module controls the first valve 1-8 to conduct the wastewater outlet so as to discharge the wastewater; when the detection value of the liquid level sensor 2-6 is smaller than the preset liquid level value, the processing module controls the second valve 2-1 to be opened so as to input tap water through the tap water inlet 2-2 and ensure the water use of the lower water collecting tank 2-5.

In the embodiment, an automatic power-on switch 1-6 is further installed in the upper-layer water collecting tank 1-5, and the automatic power-on switch 1-6 is connected between the processing module and the power supply device in series. Specifically, the automatic power-on switch is turned on when the liquid level in the upper water collection tank 1-5 reaches a fixed value, and the automatic power-on switch 1-6 is turned off when the liquid level in the upper water collection tank 1-5 is lower than the fixed value. Therefore, the automatic power-on switches 1-6 are arranged, so that the wastewater circulating device is started when enough wastewater exists, and is closed when less wastewater exists, and energy conservation and emission reduction are facilitated.

Specifically, in the present embodiment, the power supply device employs a small duct-type water current generator, a storage battery, and/or an ac power transformation device.

In this embodiment, the upper water collecting tank 1-5 is a cylindrical or semi-cylindrical structure for easy installation. The bottom of the lower water collecting tank 2-5 is a conical structure, and the flushing port is positioned at the tip of the conical structure so as to facilitate flushing and sewage discharge. In the embodiment, the upper water collecting tank 1-5 and the lower water collecting tank 2-5 are both made of graphite so as to be convenient to clean.

The above description is only the specific implementation of the preferred embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can be in the technical scope of the present invention, and according to the technical solution of the present invention and the design of the present invention, equivalent replacement or change should be covered within the protection scope of the present invention.

Claims (10)

1. A waste water circulating device applied to multiple floors is characterized by comprising: an upper layer water collection tank (1-5), a lower layer water collection tank (2-5), a clear water delivery pipe (1-10), a sewage delivery pipe (1-9) and a flushing pipe (2-9);

the upper-layer 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 positioned below the first overflow port (1-4); the sewage delivery pipe (1-9) is arranged on the upper water collecting tank (1-5) and is communicated with the first overflow port (1-4);

the lower-layer water collecting tank (2-5) is provided with a tap water inlet (2-2), a clear water inlet (2-3), a flushing water gap and a second overflow gap (2-4), and the flushing water gap is positioned below the second overflow gap (2-4); a second valve (2-1) is arranged at the tap water inlet (2-2); two ends of the clear water conveying pipe (1-10) are respectively communicated with a clear water outlet and a clear water inlet (2-3); the flushing pipe (2-9) is communicated with a flushing port, and a third valve (2-7) is arranged at the flushing port; two ends of the second overflow port (2-4) are respectively communicated with the second overflow port (2-4) and the flushing pipe (2-9).

2. The wastewater circulation system for multi-stories applications as claimed in claim 1, wherein a filtering net (1-3) is provided at the wastewater inlet.

3. The wastewater circulation equipment for multi-stories as claimed in claim 2, wherein the upper water collecting tank (1-5) is divided into a first chamber and a second chamber (1-11) which are communicated with each other; the sewage inlet and the first overflow port (1-4) are communicated with the first chamber, and the clear water outlet is communicated with the second chamber (1-11).

4. The wastewater circulation installation for multi-stories applications as claimed in claim 1, wherein the upper water collection tank (1-5) is further provided with a wastewater outlet which is located below the first weirs (1-4) and communicates with the second chamber (1-11), the wastewater outlet is further communicated with the wastewater delivery pipe (1-9); the upper layer water collecting tank (1-5) is also provided with a first valve (1-8), and the first valve (1-8) is used for controlling the connection of a sewage outlet and a clear water outlet; the first valve (1-8) and the second valve (2-1) both adopt electromagnetic valves.

5. The wastewater circulating device applied to multiple floors as claimed in claim 4, further comprising a processing module, wherein a turbidity detector (1-7) is arranged in the upper water collecting tank (1-5), and a liquid level sensor (2-6) is arranged in the lower water collecting tank (2-5); the processing module is respectively connected with the turbidity detectors (1-7), the first valves (1-8), the liquid level sensors (2-6) and the second valves (2-1).

6. The wastewater circulation device applied to multi-stories as claimed in claim 5, wherein the upper-story water collection tank (1-5) is further installed with an automatic power-on switch (1-6), and the automatic power-on switch (1-6) is connected in series between the treatment module and the power supply device.

7. The wastewater recycling device applied to multi-stories as claimed in claim 6, wherein the power supply device employs a small-sized pipeline type water current generator, a storage battery and/or an AC power transformation device.

8. The wastewater circulation installation for multi-stories as claimed in claim 1, wherein the upper header tanks (1-5) are of cylindrical or semi-cylindrical structure.

9. Waste water circulation device for multi-storey applications according to claim 1 wherein the lower level water collection tank (2-5) is of conical configuration at the bottom and the flushing port is located at the tip of the conical configuration.

10. Waste water circulation device for multi-storey applications according to any of claims 1 to 9 wherein the upper water collection tank (1-5) and the lower water collection tank (2-5) are made of graphite.

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