WO2018027514A1 - Domestic sewage circulating treatment system - Google Patents

Abstract

A domestic sewage circulating treatment system, comprising a sewage inlet pipe (10), a circulating water pump, a flocculation and purification channel and a fluid purification channel. The flocculation purification channel comprises a tilted first guide plate (11) provided at an opening area of the sewage inlet pipe (10). The flocculation purification channel further comprises a flocculation treatment section (20) connected with the first guide plate (11). A flocculation retreatment section (30) is provided under the flocculation treatment section (20). The fluid purification channel includes a fluid purification section (40) communicating with the flocculation treatment section (20). A partition plate (42) between the fluid purification section (40) and the flocculation treatment section (20) is provided as a tilted screen plate. The flocculation section (60) and the fluid section (70) are in communication with a circulating section (80). The circulating section (80) communicates, via a circulating water pump (81) and a circulating water pipe (82), with the sewage inlet pipe (10). A chemical feed port (41) is provided with an automatic chemical feeder. A first fluid level sensor (91) is provided between the sewage inlet pipe (10) and the first guide plate (11), and a second liquid level sensor (92) is provided in the circulating water section (80). The automatic chemical feeder, the first liquid level sensor (91), the second liquid level sensor (92) and the circulating water pump (81) are coupled with an automatic control device. The system is simple in structure and increases the efficiency of domestic sewage purification.

Description

Domestic sewage recycling system Technical field

The invention relates to the technical field of sewage treatment, and more particularly to a domestic sewage circulation treatment system.

Background technique

China has a large population, resulting in a large amount of domestic sewage. At present, the treatment of domestic sewage is mainly transported from urban underground sewage pipe network to sewage treatment plant using traditional activated sludge process. However, this treatment method is complicated and the processing speed is high. Slow, the amount of sludge produced is large, the operating cost is high, and the treated sewage has poor water quality and cannot meet the demand. Therefore, in order to solve the above problems, a new domestic sewage recycling system is provided.

Summary of the invention

The technical problem to be solved by the present invention is to provide a domestic sewage circulation processing system for the above-mentioned drawbacks of the prior art.

The technical solution adopted by the present invention to solve the technical problem thereof is:

Constructing a domestic sewage circulation treatment system, comprising a sewage inlet pipe and a circulating water pump, further comprising a flocculation purification passage and a fluid purification passage; the sewage inlet pipe opening is arranged upward; the flocculation purification passage comprises a sewage disposed at the sewage a first baffle at the inlet opening, the first baffle is inclined; the flocculation purification channel further includes a flocculation treatment zone connected to the first baffle, the flocculation treatment zone is provided with a a crusher; a flocculation reprocessing zone is disposed below the flocculation treatment zone, and the flocculation a second crusher is disposed in the condensation reprocessing zone; a bottom surface of the flocculation reprocessing zone is disposed as a sloped surface; and a bottom surface of the flocculation reprocessing zone is provided with an inclined flocculation diversion port communicating with the flocculation zone;

The fluid purification channel includes a fluid purification zone in communication with the flocculation treatment zone, a partition between the fluid purification zone and the flocculation treatment zone is provided as an inclined mesh plate; a drug outlet; the fluid purification zone is in communication with the fluid zone through the inclined fluid flow port;

The flocculation zone is connected to the fluid zone with a circulating water zone, and the circulating water zone is connected to the sewage inlet pipe through a circulating water pump and a circulating water pipe;

The dosing port is provided with an automatic dosing device, a first liquid level sensor is disposed between the sewage inlet pipe and the first baffle, and the circulating water zone is provided with a second liquid level sensor;

The automatic dosing device, the first liquid level sensor, the second liquid level sensor, and the circulating water pump are connected with an automatic control device.

The domestic sewage circulation processing system of the present invention, wherein the automatic control device comprises:

The loop control circuit is configured to detect a parameter value of the first liquid level sensor and the second liquid level sensor, and determine whether to send a start control command to the circulating water pump.

The domestic sewage circulation processing system of the present invention, wherein the automatic control device further comprises:

A dosing control circuit is electrically connected to the automatic dosing device.

In the domestic sewage circulation processing system of the present invention, the bottom surface of the first baffle is provided with a folding plate controlled by a motor, and the motor is connected to the automatic control device.

The domestic sewage circulation processing system according to the present invention, wherein the first deflector has an inclination angle of 30 degrees.

The domestic sewage circulation processing system according to the present invention, wherein the bottom surface of the flocculation reprocessing zone has an inclination angle of 30 degrees.

The domestic sewage circulation treatment system of the present invention, wherein the flocculation diversion port has a diameter larger than The diameter of the fluid flow port.

The domestic sewage circulation processing system according to the present invention, wherein the folding plate is disposed adjacent to the flocculation processing zone.

The domestic sewage circulation processing system of the present invention, wherein the folding plate can be folded over at an angle of 90 degrees.

The invention has the beneficial effects that: by setting a circulating water pump and a circulating water pipe, the automatic sewage control device realizes the circulation treatment of the domestic sewage; and by setting the flocculation purification channel and the fluid purification channel guided by the natural inclined surface, the floc in the domestic sewage and The fluid is diverted, and the crusher is added to crush the floc, and the fluid is disinfected and purified to achieve a simple structure, improve the purification efficiency of domestic sewage, and facilitate popularization and popularization.

DRAWINGS

In order to more clearly illustrate the embodiments of the present invention or the prior art, the present invention will be further described in conjunction with the accompanying drawings and embodiments. For ordinary technicians, other drawings can be obtained based on these drawings without any creative work:

1 is a schematic block diagram 1 of a domestic sewage circulation processing system according to a preferred embodiment of the present invention;

2 is a schematic block diagram 2 of a domestic sewage circulation processing system according to a preferred embodiment of the present invention;

3 is a block diagram showing the principle of an automatic control device for a domestic sewage circulation processing system in accordance with a preferred embodiment of the present invention.

detailed description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the following will be combined with the present invention. The technical solutions in the embodiments are clearly and completely described. It is obvious that the described embodiments are part of the embodiments of the present invention, and not all of them. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without any inventive effort are within the scope of the present invention.

The schematic block diagram of the domestic sewage circulation treatment system according to the preferred embodiment of the present invention is as shown in FIG. 1, FIG. 2 and FIG. 3, and includes a sewage inlet pipe 10, a flocculation purification passage and a fluid purification passage; the sewage inlet pipe 10 is open upward; flocculation The purification passage includes a first baffle 11 disposed at the opening of the sewage inlet pipe 10, and the first baffle 11 is disposed obliquely; the flocculation purification passage further includes a flocculation treatment zone 20 connected to the first baffle 11, the flocculation treatment zone 20 is provided with a first crusher 21; a flocculation reprocessing zone 30 is disposed below the flocculation treatment zone 20, a second crusher 31 is disposed in the flocculation reprocessing zone 30; a bottom surface of the flocculation reprocessing zone 30 is set as a bevel; and flocculation is reprocessed The bottom side of the zone 30 is provided with an inclined flocculation diversion port 61 communicating with the flocculation zone 60; the fluid purification channel includes a fluid purification zone 40 in communication with the flocculation treatment zone 20, and a separation between the fluid purification zone 40 and the flocculation treatment zone 20. The plate 42 is provided as a slanted stencil; the fluid purification zone 40 is provided with a dosing port 41; the fluid purification zone 40 is in communication with the fluid zone 70 through the inclined fluid diversion port 50; the flocculation zone 60 is in communication with the fluid zone 70 with circulating water Area 80 The circulating water zone 80 is connected to the sewage inlet pipe 10 through the circulating water pump 81 and the circulating water pipe 82; the dosing port 41 is provided with an automatic dosing device, and the first liquid is disposed between the sewage inlet pipe 10 and the first deflector 11 The position sensor 91, the circulating water zone 80 is provided with a second liquid level sensor 92; the automatic dosing device 41, the first liquid level sensor 91, the second liquid level sensor 92 and the circulating water pump 81 are connected with an automatic control device (not shown) . The present scheme controls the circulation treatment of domestic sewage by the automatic control device 100 by setting the circulating water pump 81 and the circulating water pipe 82; and the flocculation and fluid in the domestic sewage are provided by setting the flocculation purification passage and the fluid purification passage guided by the natural inclined surface. The flow is divided, and the crusher is added to crush the floc, and the fluid is disinfected and purified to achieve a simple structure, improve the purification efficiency of domestic sewage, and facilitate popularization and popularization.

Further, in the above domestic sewage circulation processing system, as shown in FIG. 3, the automatic control device 100 includes: a circulation control circuit 101 and a processor 102 for detecting parameters of the first liquid level sensor 91 and the second liquid level sensor 92. The value determines whether or not the start control command is sent to the circulation water pump 81. Specifically, when there are many flocs in the sewage, the processing speed is too slow, and when the liquid level between the sewage inlet pipe 10 and the first baffle 11 rises, it can be induced by the first liquid level sensor 91, and then according to the actual liquid level. The situation controls the sewage entering speed at the opening of the sewage inlet pipe 10, and the water level in the circulating water zone 80 can be sensed by the second liquid level sensor 92. When the water level exceeds a predetermined value, the circulating water pump 81 and the circulating water pipe 82 are controlled to start circulating water treatment. .

Further, in the above domestic sewage circulation processing system, as shown in FIG. 3, the automatic control device 100 further includes: a dosing control circuit 103 electrically connected to the automatic dosing device 93, which can preset the dosing frequency or according to the sewage Processing speed to automatically control the dosing frequency.

Preferably, in the domestic sewage circulation processing system, the bottom surface of the first baffle 11 is provided with a foldable plate 111 controlled by the motor 94 to be opened and closed, and its closed state is as shown in FIG. 1 , and its open state is as shown in FIG. 2 . . Motor 94 is electrically coupled to motor control circuit 104 of the automatic control unit. When there is more floc in the sewage entering from the sewage inlet pipe, the folding plate 111 may be opened periodically, and the floccule accumulated between the sewage inlet pipe 10 and the first deflector 11 is discharged into the flocculation reprocessing zone 30. The floc is crushed by the second crusher 31.

Preferably, the folding plate 111 is disposed adjacent to the flocculation processing zone to facilitate better cleaning of the accumulated flocs.

Preferably, the folding plate 111 is foldable at an angle of 90 degrees downward.

Further, in the domestic sewage treatment device, as shown in FIG. 1, the first deflector 11 has an inclination angle of 20-40 degrees, preferably 30 degrees, and the inclined direction of the first deflector 11 is to sewage from sewage. The inlet tube 10 is introduced into the flocculation treatment zone 20 at the opening.

Further, in the domestic sewage treatment device, as shown in FIG. 1, the bottom surface of the flocculation reprocessing zone 30 has an inclination angle of 20-40 degrees, preferably 30 degrees, and the inclination angle of the bottom surface is to flocculate the flocculated body from flocculation. The treatment zone 30 is directed to the direction within the flocculation zone 60.

Preferably, in the above domestic sewage treatment device, as shown in FIG. 1, the diameter of the flocculation air guiding port 61 is larger than the diameter of the fluid guiding port 50.

It is to be understood that those skilled in the art will be able to make modifications and changes in accordance with the above description, and all such modifications and variations are intended to be included within the scope of the appended claims.

Claims (9)

1. A domestic sewage circulation treatment system, comprising a sewage inlet pipe and a circulating water pump, characterized by further comprising a flocculation purification passage and a fluid purification passage; the sewage inlet pipe opening is arranged upward; the flocculation purification passage comprises a first baffle at the opening of the sewage inlet pipe, the first baffle is inclined; the flocculation purification passage further includes a flocculation treatment zone connected to the first baffle, and the flocculation treatment zone is provided with a first crusher; a flocculation reprocessing zone disposed under the flocculation treatment zone, a second crusher disposed in the flocculation reprocessing zone; a bottom surface of the flocculation reprocessing zone is disposed as a bevel; and the flocculation reprocessing zone The bottom side is provided with an inclined flocculation diversion port communicating with the flocculation zone;

   The fluid purification channel includes a fluid purification zone in communication with the flocculation treatment zone, a partition between the fluid purification zone and the flocculation treatment zone is provided as an inclined mesh plate; a drug outlet; the fluid purification zone is in communication with the fluid zone through the inclined fluid flow port;

   The flocculation zone is connected to the fluid zone with a circulating water zone, and the circulating water zone is connected to the sewage inlet pipe through a circulating water pump and a circulating water pipe;

   The dosing port is provided with an automatic dosing device, a first liquid level sensor is disposed between the sewage inlet pipe and the first baffle, and the circulating water zone is provided with a second liquid level sensor;

   The automatic dosing device, the first liquid level sensor, the second liquid level sensor, and the circulating water pump are connected with an automatic control device.
2. The domestic sewage circulation processing system according to claim 1, wherein said automatic control device comprises:

   The loop control circuit is configured to detect a parameter value of the first liquid level sensor and the second liquid level sensor, and determine whether to send a start control command to the circulating water pump.
3. A domestic sewage circulation processing system according to claim 1, wherein said self-sewage treatment system The mobile control device also includes:

   A dosing control circuit is electrically connected to the automatic dosing device.
4. The domestic sewage circulation processing system according to claim 1, wherein the bottom surface of the first baffle is provided with a foldable plate controlled by a motor, and the motor is connected to the automatic control device.
5. The domestic sewage circulation processing system according to claim 1, wherein the first deflector has an inclination angle of 30 degrees.
6. The domestic sewage circulation processing system according to claim 1, wherein the bottom surface of the flocculation reprocessing zone has an inclination angle of 30 degrees.
7. The domestic sewage circulation treatment system according to claim 1, wherein the diameter of the flocculation diversion port is larger than the diameter of the fluid diversion port.
8. The domestic sewage circulation processing system according to claim 4, wherein the folding plate is disposed adjacent to the flocculation processing zone.
9. The domestic sewage circulation processing system according to claim 4, wherein the folding plate is foldable at an angle of 90 degrees downward.

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