CN207047043U - A prefabricated multiphase flow dynamic membrane sewage treatment integrated device - Google Patents

Abstract

The utility model discloses an assembly type multiphase flow dynamic membrane sewage treatment integrated device, which comprises a first treatment chamber, a second treatment chamber and a detection water tank, wherein the first treatment chamber, the second treatment chamber and the detection water tank are sequentially installed, a filter plate is installed at the upper end of one side inside the first treatment chamber, a grid is installed at the middle part of the inner side of the first treatment chamber, a first water pump is installed at one side outside the first treatment chamber, the water inlet end of the first water pump is connected with one side, far away from the filter plate, inside the first treatment chamber, the second treatment chamber is installed at one side outside the first treatment chamber, the inside of the second treatment chamber is divided into a physical disinfection chamber and a chemical treatment chamber through a partition plate, the upper end of the inside of the physical disinfection chamber is connected with the water outlet end of the first water pump, a reagent guide box is installed at the upper end of the chemical treatment chamber outside the second treatment chamber, the detection water tank is arranged at the other side of the second processing chamber. The utility model discloses effectual sewage can be fast handled.

Description

A prefabricated multiphase flow dynamic membrane sewage treatment integrated device

technical field

The utility model relates to the field of sewage treatment equipment, in particular to an assembled multiphase flow dynamic membrane sewage treatment integrated device.

Background technique

The rapid development of industry has brought economic development, but at the same time it has also brought more and more serious environmental pollution. However, when the traditional sewage treatment device treats sewage, it simply filters the sewage and then discharges it.

The traditional treatment device has the following problems: 1. When the sewage is filtered, the filtration is not thorough, which makes the subsequent treatment methods inconvenient; 2. The pH of the sewage is not tested, and the direct discharge leads to soil outbursts. The acid-base imbalance can seriously affect the growth of crops.

Utility model content

The purpose of this utility model is to provide an assembled multi-phase flow dynamic membrane sewage treatment integrated device to solve the problems raised in the above-mentioned background technology.

In order to achieve the above purpose, the utility model provides the following technical solutions: an assembled multiphase flow dynamic membrane sewage treatment integrated device, including a first treatment chamber, a second treatment chamber and a detection water tank, the first treatment chamber, the second The second treatment chamber and the detection water tank are installed in sequence, the upper end of one side of the first treatment chamber is equipped with a filter plate, the inner middle part of the first treatment chamber is equipped with a grille, and the outer side of the first treatment chamber is installed There is a first water pump, and the water inlet end of the first water pump is connected to the side of the first treatment chamber away from the filter plate, the second treatment chamber is installed on the outside side of the first treatment chamber, and the second treatment chamber The interior of the chamber is divided into a physical disinfection chamber and a chemical treatment chamber through a partition, and the inner upper end of the physical disinfection chamber is connected to the water outlet of the first water pump, and the outside of the second treatment chamber is equipped with reagents at the upper end of the chemical treatment chamber An introduction box, the lower end of the reagent introduction box is connected to the inside of the chemical treatment chamber through a conduit, the detection water tank is installed on the other side of the second treatment chamber, a second water pump is installed outside the detection water tank, and the The water inlet end of the second water pump is connected to the inside of the detection water tank, and the water outlet end of the second water pump is connected to the inside of the chemical treatment chamber.

Preferably, a water inlet pipe is installed above the filter plate in the first treatment chamber, and an activated carbon absorption plate is installed inside the first treatment chamber on the side of the grill away from the filter plate.

Preferably, the detection water tank is connected to the inside of the chemical treatment chamber through a water guide pipe, and a control cabinet is installed on the outside of the detection water tank away from the upper end of the second treatment chamber, and the input ends of the first water pump and the second water pump are respectively connected to The output end of the control cabinet is electrically connected, and an outlet pipe is installed on the outside of the detection water tank below the control cabinet, and a first electromagnetic valve is installed on the outlet pipe, and the input end of the first electromagnetic valve is connected to the control The output end of the chassis is electrically connected, and a first pH sensor is installed inside the detection water tank.

Preferably, an electric heater is installed at the inner lower end of the physical disinfection chamber, the input end of the electric heater is electrically connected with the output end of the control cabinet, a temperature sensor is installed on one side of the physical disinfection chamber, and The output end of the temperature sensor is electrically connected with the input end of the control cabinet.

Preferably, the physical disinfection chamber and the chemical treatment chamber are connected by installing a water conduit on the partition, and the water conduit is equipped with a second electromagnetic valve at one end of the physical disinfection chamber, and the input end of the second electromagnetic valve is connected to the control cabinet The output terminals are electrically connected.

Preferably, a first pH sensor is installed on one side of the chemical treatment chamber, and the output ends of the first pH sensor and the second pH sensor are electrically connected to the input end of the control cabinet.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. The utility model installs a filter plate on the upper end of one side of the first treatment chamber, installs a grille in the middle, and installs an activated carbon absorption plate on the side of the grille away from the filter plate, so as to effectively filter the sewage and facilitate the treatment of waste water. Subsequent treatment of sewage.

2. The utility model is divided into a physical disinfection room and a chemical treatment room by installing a partition inside the second treatment room. First, the sewage is heated and sterilized by an electric heater, and then reagents are added to the inside of the chemical treatment room to sterilize the sewage. The ionic compounds can be eliminated, and the acidity and alkalinity of sewage can also be adjusted.

3. The utility model detects the treated sewage by installing a detection water tank outside the second treatment chamber, and at the same time installs a second water pump outside the detection water tank to pump the sewage back to the second treatment chamber for secondary treatment.

Description of drawings

Fig. 1 is the overall structural representation of the utility model;

Fig. 2 is the control flowchart of the utility model.

In the figure: 1-first treatment room; 11-filter plate; 12-grid; 13-first water pump; 14-inlet pipe; 15-activated carbon absorption plate; 2-second treatment room; 21-physical disinfection room; 211-electric heater; 212-temperature sensor; 213-second solenoid valve; 22-chemical treatment chamber; 221-second PH sensor; 23-reagent introduction box; Control box; 33-outlet pipe; 331-the first solenoid valve; 34-the first PH sensor.

detailed description

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

Please refer to Figure 1-2, the utility model provides a technical solution: an assembled multiphase flow dynamic membrane sewage treatment integrated device, including a first treatment chamber 1, a second treatment chamber 2 and a detection water tank 3, the The first processing chamber 1, the second processing chamber 2, and the detection water tank 3 are installed in sequence, and a filter plate 11 is installed on the upper end of one side inside the first processing chamber 1, and a grid is installed on the inner middle part of the first processing chamber 1. 12. A first water pump 13 is installed on the outside side of the first treatment chamber 1, and the water inlet end of the first water pump 13 is connected to the side of the first treatment chamber 1 away from the filter plate 11. The first water pump 13 Two treatment chambers 2 are installed on one side of the first treatment chamber 1 outside, and the inside of the second treatment chamber 2 is divided into a physical disinfection chamber 21 and a chemical treatment chamber 22 by a partition, and the inner upper end of the physical disinfection chamber 21 is connected to the The water outlet of the first water pump 13 is connected, the outside of the second treatment chamber 2 is equipped with a reagent introduction box 23 on the upper end of the chemical treatment chamber 22, and the lower end of the reagent introduction box 23 is connected with the inside of the chemical treatment chamber 22 through a conduit, The detection water tank 3 is installed on the other side of the second processing chamber 2, and a second water pump 31 is installed on the outside of the detection water tank 3, and the water inlet end of the second water pump 31 is connected with the inside of the detection water tank 3, The water outlet of the second water pump 31 is connected to the inside of the chemical treatment chamber 22 .

The first treatment chamber 1 is equipped with a water inlet pipe 14 above the filter plate 11, and an activated carbon absorption plate 15 is installed on the side of the grid 12 away from the filter plate 11 in the inside of the first treatment chamber 1; The water tank 3 is connected to the inside of the chemical treatment chamber 22 through a water guide pipe, and a control cabinet 32 is installed on the outside of the detection water tank 3 away from the upper end of the second treatment chamber 2, and the input ends of the first water pump 13 and the second water pump 31 are respectively It is electrically connected with the output end of the control cabinet 32, and the outside of the detection water tank 3 is equipped with a water outlet pipe 33 below the control cabinet 32, and a first electromagnetic valve 331 is installed on the water outlet pipe 33, and the first electromagnetic valve 331 is installed on the water outlet pipe 33, and the first The input end of solenoid valve 331 is electrically connected with the output end of control cabinet 32, and the first pH sensor 34 is installed in the inside of described detection water tank 3; Electric heater 211 is installed in the inner lower end of described physical disinfection chamber 21, and described The input end of the electric heater 211 is electrically connected to the output end of the control cabinet 32, and a temperature sensor 212 is installed on the inner side of the physical disinfection chamber 21, and the output end of the temperature sensor 212 is connected to the input end of the control cabinet 32. Electrically connected; the physical disinfection chamber 21 and the chemical treatment chamber 22 are connected by installing a water conduit on the dividing plate, and the water conduit is equipped with a second electromagnetic valve 213 at one end of the physical disinfection chamber 21, and the second electromagnetic valve 213 The input end of the chemical treatment chamber 22 is electrically connected to the output end of the control cabinet 32; the second PH sensor 221 is installed on the inner side of the chemical treatment chamber 22, and the output ends of the first PH sensor 34 and the second PH sensor 221 are connected to the control cabinet The input terminal of 32 is electrically connected.

Working principle: when working, the sewage is discharged into the first treatment chamber 1 through the water inlet pipe 14, and the sewage is thoroughly filtered and absorbed by the filter plate 11, the grid 12, and the activated carbon absorption plate 15 to remove the insoluble impurities, and then Start the first water pump 13 by controlling the cabinet 32 to pump the sewage into the second treatment chamber 2, and carry out disinfection treatment by the electric heater 211. The temperature sensor 212 detects the temperature of the sewage, and after disinfection, the second solenoid valve 213 is opened to make the sewage Enter the chemical treatment chamber 22, add reagents to the chemical treatment chamber 22 from the reagent introduction box 23, treat the ionic compounds in the water, and adjust the pH of the sewage at the same time, detect the pH of the sewage by the second pH sensor 221, and finally enter the detection water tank 3 , when the sewage treatment is qualified, it is discharged from the outlet pipe 33, and when the sewage treatment is unqualified, the control cabinet 32 starts the second water pump 31, and the sewage in the detection water tank 3 is drawn into the chemical treatment chamber 22 for further treatment.

Although the embodiments of the present invention have been shown and described, those skilled in the art can understand that various changes and modifications can be made to these embodiments without departing from the principle and spirit of the present invention , replacements and modifications, the scope of the present utility model is defined by the appended claims and their equivalents.

Claims (6)

1. a kind of assembled multiphase flow Dynamic Membrane integrated sewage treatment device, including the first process chamber（1）, second processing room （2）With detection water tank（3）, it is characterised in that：First process chamber（1）, second processing room（2）, detection water tank（3）Pacify successively Dress, first process chamber（1）Internal side upper end is provided with filter（11）, first process chamber（1）Inner side in Portion is provided with grid（12）, first process chamber（1）Outside side the first water pump is installed（13）, and first water Pump（13）Water inlet end and the first process chamber（1）Internal remote filter（11）Side connection, the second processing room（2）Peace Mounted in the first process chamber（1）Outside side, the second processing room（2）Inside physical disinfection room is divided into by dividing plate（21）With Chemical processing（22）, and the physical disinfection room（21）Inner upper end and the first water pump（13）Water side connection, institute State second processing room（2）Outside in chemical processing（22）Upper end is provided with reagent and imports case（23）, the reagent importing case （23）Lower end pass through conduit and chemical processing（22）Inside connection, the detection water tank（3）Installed in second processing room （2）Opposite side, the detection water tank（3）Outside the second water pump is installed（31）, and second water pump（31）Enter Water end (W.E.) and detection water tank（3）Inside connection, second water pump（31）Water side and chemical processing（22）Inside connect Connect.

A kind of 2. assembled multiphase flow Dynamic Membrane integrated sewage treatment device according to claim 1, it is characterised in that： First process chamber（1）In filter（11）Top water inlet pipe is installed（14）, and first process chamber（1）It is interior Portion is in grid（12）Away from filter（11）Side activated carbon baffle is installed（15）.

A kind of 3. assembled multiphase flow Dynamic Membrane integrated sewage treatment device according to claim 1, it is characterised in that： The detection water tank（3）Pass through aqueduct and chemical processing（22）Inside connection, the detection water tank（3）Outside it is remote Second processing room（2）Upper end controlling machine box are installed（32）, first water pump（13）, the second water pump（31）Input point Not and controlling machine box（32）Output end be electrically connected with, and the detection water tank（3）Outside in controlling machine box（32）Under Side is provided with outlet pipe（33）, the outlet pipe（33）On the first magnetic valve is installed（331）, and first magnetic valve （331）Input and controlling machine box（32）Output end be electrically connected with, the detection water tank（3）Inside the first PH is installed Sensor（34）.

A kind of 4. assembled multiphase flow Dynamic Membrane integrated sewage treatment device according to claim 3, it is characterised in that： The physical disinfection room（21）Interior lower end electric heater is installed（211）, the electric heater（211）Input and control Cabinet processed（32）Output end be electrically connected with, the physical disinfection room（21）Interior side temperature sensor is installed（212）, And the temperature sensor（212）Output end and controlling machine box（32）Input be electrically connected with.

A kind of 5. assembled multiphase flow Dynamic Membrane integrated sewage treatment device according to claim 3, it is characterised in that： The physical disinfection room（21）And chemical processing（22）Connected by installing aqueduct on dividing plate, and aqueduct is in physics Disinfection room（21）One end second solenoid valve is installed（213）, the second solenoid valve（213）Input and controlling machine box （32）Output end be electrically connected with.

A kind of 6. assembled multiphase flow Dynamic Membrane integrated sewage treatment device according to claim 3, it is characterised in that： The chemical processing（22）Interior side the second PH sensor is installed（221）, and the first PH sensor（34）, second PH sensor（221）Output end and controlling machine box（32）Input be electrically connected with.