CN220676851U - Sewage treatment equipment capable of performing real-time sedimentation treatment - Google Patents

Abstract

The utility model discloses sewage treatment equipment capable of performing real-time precipitation treatment, which comprises an upper section of the treatment equipment, wherein the bottom of the upper section of the treatment equipment is fixedly connected with the middle section of the treatment equipment, one end, far away from the upper section of the treatment equipment, of the middle section of the treatment equipment is fixedly connected with the lower section of the treatment equipment, meanwhile, one end, far away from the middle section of the treatment equipment, of the lower section of the treatment equipment is fixedly connected with a sludge pond, a sludge outlet pipe is arranged at the bottom of the sludge pond, and a clear water outlet pipe is arranged at the right side of the upper section of the treatment equipment. This sewage treatment device that can deposit processing in real time, sewage enters into four sets of sedimentation separation areas in proper order from raw water advance pipe, shunt tubes and drain pipe, and large granule impurity deposits to the inside of sludge impoundment, and the supernatant overflows naturally to the inside of clear water exit tube to in the self-cleaning water exit tube circulation to next sewage treatment process, need not to install the water pump additional and take out to the supernatant, realize real-time purpose of depositing, improve the sedimentation efficiency of sewage, simple structure, easy operation.

Description

Sewage treatment equipment capable of performing real-time sedimentation treatment

Technical Field

The utility model relates to the field of sewage treatment, in particular to sewage treatment equipment capable of performing real-time precipitation treatment.

Background

The sedimentation tank is a structure for removing suspended matters in water by sedimentation and is used for purifying water; removing suspended matters in water by utilizing the natural precipitation or coagulating sedimentation of the water; the sedimentation tank is divided into a horizontal sedimentation tank and a vertical sedimentation tank according to the water flow direction; the sedimentation effect is determined by the flow rate of the water in the sedimentation tank and the residence time of the water in the tank; in order to improve the sedimentation effect;

the sewage treatment process in the prior art is shown in the attached figure 1 of the specification: placing sewage into a first sedimentation tank and a second sedimentation tank, standing for a period of time, and conveying supernatant in the sedimentation tanks to sewage treatment equipment through a water pump after sedimentation is finished; in the process of standing, when a large amount of waste water is consumed, the sewage cannot be precipitated in real time, and therefore the efficiency of the sewage treatment process device is directly reduced.

Disclosure of Invention

The utility model aims to provide sewage treatment equipment capable of carrying out real-time sedimentation treatment, so as to solve the defects in the background art.

In order to achieve the above purpose, a sewage treatment device capable of performing real-time precipitation treatment is provided, which comprises an upper section of the treatment device, wherein the bottom of the upper section of the treatment device is fixedly connected with a middle section of the treatment device, one end of the middle section of the treatment device, which is far away from the upper section of the treatment device, is fixedly connected with a lower section of the treatment device, one end of the lower section of the treatment device, which is far away from the middle section of the treatment device, is fixedly connected with a sludge tank, the bottom of the sludge tank is provided with a sludge outlet pipe, the right side of the upper section of the treatment device is provided with a clear water outlet pipe, the left side of the upper section of the treatment device is provided with a raw water inlet pipe, the end of the raw water inlet pipe is welded and fixed with a water diversion pipe, and the inside of the upper section of the treatment device is provided with an inclined plate flow limiting component;

the upper straight plate bottom and the upper inclined plate fixed connection on the inclined plate current limiting assembly, the one end that goes up the inclined plate and keep away from the upper straight plate simultaneously is with well inclined plate fixed connection to the one end that well inclined plate kept away from the upper inclined plate is with lower inclined plate fixed connection, the bottom and the lower straight plate fixed connection of lower inclined plate.

Preferably, the water diversion pipes are arranged at the right end of the raw water inlet pipe and are uniformly welded with four groups of drain pipes at the bottoms of the two groups of water diversion pipes, and meanwhile, the section of each drain pipe is rectangular.

Preferably, the upper section of the treatment equipment, the middle section of the treatment equipment, the lower section of the treatment equipment and the sludge tank are combined together to form a sewage treatment equipment outer shell, and four groups of inclined plate flow limiting assemblies are uniformly arranged in the sewage treatment equipment outer shell.

Preferably, the whole sewage treatment equipment outer shell body is arranged in an S shape, and the interior of the sewage treatment equipment outer shell body is isolated by four groups of inclined plate flow limiting assemblies to form four groups of precipitation separation areas.

Preferably, the inclined plate flow limiting assembly is of an S-shaped structure made of stainless steel materials, and two adjacent groups of inclined plate flow limiting assemblies are arranged in parallel.

Preferably, the swash plate flow limiting assembly comprises an upper straight plate, an upper swash plate, a middle swash plate, a lower swash plate and a lower straight plate, wherein the upper swash plate and the lower swash plate are arranged in parallel, and the inclination angles of the upper swash plate and the middle swash plate are 60 degrees.

Compared with the prior art, the utility model has the beneficial effects that:

the water inflow amount per unit volume is divided into four groups, sequentially enters into four groups of precipitation separation areas, and impacts the surfaces of the upper inclined plate, the middle inclined plate and the lower inclined plate, so that the impact precipitation area between the sewage and the inclined plate flow limiting assembly can be increased, the removal rate of particles in the sewage can be increased, and the precipitation efficiency of the sewage can be increased;

sewage enters the four groups of precipitation separation areas from raw water inlet pipes, water distribution pipes and drain pipes in sequence, large-particle impurities are precipitated into the sludge tank, supernatant naturally overflows into the clear water outlet pipes and flows into the next sewage treatment process from the clear water outlet pipes, a water pump is not required to be additionally arranged to pump out the supernatant, the purpose of real-time precipitation is achieved, the precipitation efficiency of the sewage is improved, and the sewage treatment device is simple in structure and easy to operate.

Drawings

FIG. 1 is a flow chart of a sewage treatment process mentioned in the background art;

FIG. 2 is a schematic elevational view of the structure of the present utility model;

FIG. 3 is a top view of the upper section of the structural treatment apparatus of the present utility model;

FIG. 4 is an external view of the structure of FIG. 2 of the present utility model;

fig. 5 is a three-dimensional view of the swash plate flow restricting assembly of the present utility model.

Reference numerals in the drawings: 1. raw water inlet pipe; 2. a water diversion pipe; 3. a drain pipe; 4. an upper section of the processing apparatus; 5. clear water outlet pipe; 6. a middle section of the processing equipment; 7. a lower section of the processing apparatus; 8. a sludge pool; 9. a sludge outlet pipe; 10. a swash plate flow restricting assembly; 101. a straight plate is arranged on the upper part; 102. an upper sloping plate; 103. a middle sloping plate; 104. a lower sloping plate; 105. a lower straight plate; 11. sewage treatment equipment shell body.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. 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.

Referring to fig. 1-5, the utility model provides a sewage treatment device capable of performing real-time sedimentation treatment, which comprises an upper treatment device section 4, wherein the bottom of the upper treatment device section 4 is fixedly connected with a middle treatment device section 6, one end of the middle treatment device section 6, which is far away from the upper treatment device section 4, is fixedly connected with a lower treatment device section 7, one end of the lower treatment device section 7, which is far away from the middle treatment device section 6, is fixedly connected with a sludge pond 8, a sludge outlet pipe 9 is arranged at the bottom of the sludge pond 8, a clear water outlet pipe 5 is arranged on the right side of the upper treatment device section 4, a raw water inlet pipe 1 is arranged on the left side of the upper treatment device section 4, the end part of the raw water inlet pipe 1 is fixedly welded with a water distribution pipe 2, and an inclined plate flow limiting component 10 is arranged in the upper treatment device section 4;

the bottom of an upper straight plate 101 on the inclined plate flow limiting assembly 10 is fixedly connected with an upper inclined plate 102, meanwhile, one end of the upper inclined plate 102, which is far away from the upper straight plate 101, is fixedly connected with a middle inclined plate 103, one end of the middle inclined plate 103, which is far away from the upper inclined plate 102, is fixedly connected with a lower inclined plate 104, and the bottom of the lower inclined plate 104 is fixedly connected with a lower straight plate 105.

Working principle: four groups of inclined plate flow limiting assemblies 10 are uniformly arranged in the outer shell 11 of the sewage treatment device, four groups of sedimentation separation areas are formed in the outer shell 11 of the sewage treatment device through the four groups of inclined plate flow limiting assemblies 10 in an isolated mode, sewage enters the four groups of sedimentation separation areas through the four groups of drain pipes 3 respectively, the water inflow amount per unit volume is divided into four groups and enters the four groups of sedimentation separation areas in sequence, and the four groups of water inflow amount per unit volume impacts the surfaces of the upper inclined plate 102, the middle inclined plate 103 and the lower inclined plate 104, so that the impact sedimentation area between the sewage and the inclined plate flow limiting assemblies 10 can be increased, and the removal rate of particles in the sewage can be increased; and simultaneously improves the precipitation efficiency of sewage.

Sewage enters into four groups of precipitation separation areas from raw water inlet pipe 1, water diversion pipe 2 and drain pipe 3 in proper order, large particle impurities precipitate to the inside of sludge impoundment 8, supernatant naturally overflows to the inside of clear water outlet pipe 5 to in self-cleaning water outlet pipe 5 circulates to next sewage treatment process, need not to install the water pump additional and take out to supernatant, realizes the purpose of real-time precipitation, improves the precipitation efficiency of sewage, simple structure, easy operation.

As a preferred embodiment, the water diversion pipes 2 are arranged in two groups at the right end of the raw water inlet pipe 1, four groups of water drainage pipes 3 are uniformly welded at the bottoms of the two groups of water diversion pipes 2, and meanwhile, the cross sections of the water drainage pipes 3 are rectangular.

As shown in fig. 1-2: four groups of drain pipes 3 are uniformly welded at the bottom of the water diversion pipe 2, the water diversion pipe 2 is arranged into two groups, eight groups of drain pipes 3 are arranged in total, and synchronous liquid supply is carried out on a precipitation separation area formed between two adjacent groups of inclined plate flow limiting assemblies 10.

As a preferred embodiment, the upper section 4, the middle section 6, the lower section 7 and the sludge tank 8 of the treatment device are combined together to form the outer shell 11 of the sewage treatment device, and four groups of inclined plate flow limiting assemblies 10 are uniformly arranged in the outer shell 11 of the sewage treatment device.

As shown in fig. 1 and 4: four groups of inclined plate flow limiting assemblies 10 are uniformly arranged in the outer shell 11 of the sewage treatment equipment, the inclined plate flow limiting assemblies 10 are integrally arranged in an S shape, the residence time and the sedimentation time of sewage on the surface of the inclined plate flow limiting assemblies 10 can be increased, and the sedimentation efficiency of the sewage is improved.

As a preferred embodiment, the outer casing 11 of the sewage treatment apparatus is integrally provided in an S-shape, and the inside of the outer casing 11 of the sewage treatment apparatus is isolated by four sets of inclined plate flow limiting assemblies 10 to form four sets of precipitation separation areas.

As shown in fig. 1 and 4: the four groups of inclined plate flow limiting assemblies 10 in the outer shell 11 of the sewage treatment equipment are isolated to form four groups of precipitation separation areas, sewage is divided into four water flows, S-shaped flow is carried out in the precipitation separation areas, and large-particle impurities in the sewage are separated from water under the action of gravity in the flowing process, so that the impurity precipitation work of the sewage is completed.

In a preferred embodiment, the swash plate flow restricting assemblies 10 are formed of stainless steel in an S-shaped structure, and two adjacent swash plate flow restricting assemblies 10 are arranged in parallel.

As a preferred embodiment, the swash plate flow restriction assembly 10 includes an upper straight plate 101, an upper swash plate 102, a middle swash plate 103, a lower swash plate 104 and a lower straight plate 105, and the upper swash plate 102 and the lower swash plate 104 are disposed in parallel, and the inclination angles of the upper swash plate 102 and the middle swash plate 103 are 60 °.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a sewage treatment device that can deposit in real time, includes treatment facility upper segment (4), its characterized in that: the bottom of the upper section (4) of the treatment equipment is fixedly connected with the middle section (6) of the treatment equipment, one end of the middle section (6) of the treatment equipment, which is far away from the upper section (4) of the treatment equipment, is fixedly connected with the lower section (7) of the treatment equipment, one end of the lower section (7) of the treatment equipment, which is far away from the middle section (6) of the treatment equipment, is fixedly connected with the sludge pond (8), the bottom of the sludge pond (8) is provided with a sludge outlet pipe (9), the right side of the upper section (4) of the treatment equipment is provided with a clear water outlet pipe (5), the left side of the upper section (4) of the treatment equipment is provided with a raw water inlet pipe (1), the end part of the raw water inlet pipe (1) is fixedly welded with the water distribution pipe (2), and the inside of the upper section (4) of the treatment equipment is provided with an inclined plate flow limiting component (10);

the bottom of an upper straight plate (101) on the inclined plate flow limiting assembly (10) is fixedly connected with an upper inclined plate (102), one end, away from the upper straight plate (101), of the upper inclined plate (102) is fixedly connected with a middle inclined plate (103), one end, away from the upper inclined plate (102), of the middle inclined plate (103) is fixedly connected with a lower inclined plate (104), and the bottom of the lower inclined plate (104) is fixedly connected with a lower straight plate (105).

2. The sewage treatment apparatus capable of performing real-time precipitation treatment according to claim 1, wherein: the right end of the raw water inlet pipe (1) of the water diversion pipe (2) is provided with two groups, four groups of drain pipes (3) are uniformly welded at the bottoms of the two groups of the water diversion pipes (2), and meanwhile, the section of each drain pipe (3) is rectangular.

3. The sewage treatment apparatus capable of performing real-time precipitation treatment according to claim 1, wherein: the sewage treatment device comprises a sewage treatment device outer shell (11), wherein the upper section (4), the middle section (6), the lower section (7) and the sludge pond (8) of the treatment device are combined together to form the sewage treatment device outer shell (11), and four groups of inclined plate flow limiting assemblies (10) are uniformly arranged in the sewage treatment device outer shell (11).

4. A sewage treatment apparatus capable of performing a real-time precipitation treatment according to claim 3, wherein: the sewage treatment equipment outer shell (11) is integrally arranged in an S shape, and four groups of sedimentation separation areas are formed in the sewage treatment equipment outer shell (11) through isolation of four groups of inclined plate flow limiting assemblies (10).

5. The sewage treatment apparatus capable of performing real-time precipitation treatment according to claim 1, wherein: the inclined plate flow limiting assemblies (10) are of an S-shaped structure made of stainless steel materials, and two adjacent groups of inclined plate flow limiting assemblies (10) are arranged in parallel.

6. The sewage treatment apparatus capable of performing real-time precipitation treatment according to claim 1, wherein: the swash plate flow limiting assembly (10) comprises an upper straight plate (101), an upper swash plate (102), a middle swash plate (103), a lower swash plate (104) and a lower straight plate (105), wherein the upper swash plate (102) and the lower swash plate (104) are arranged in parallel, and meanwhile, the inclination angles of the upper swash plate (102) and the middle swash plate (103) are 60 degrees.