CN211445349U - Waste water treatment device capable of improving filtering and impurity removing effects - Google Patents

Abstract

The utility model discloses a wastewater treatment device for improving filtering and impurity removing effects, which comprises a shell forming an integral framework of the device, wherein a separation chamber, a coagulation chamber, an electrolysis chamber and a clarification chamber are sequentially arranged in the shell from left to right, and the separation chamber is communicated with the coagulation chamber through a first water channel; the coagulation chamber is communicated with the electrolysis chamber through a second flowing water channel; the electrolysis chamber is communicated with the clarification chamber through a third water flowing channel; therefore, the treatment of the wastewater is divided into a plurality of steps, and each step is completed in a respective treatment chamber, so that the mutual influence among various substances is avoided, and the wastewater treatment efficiency is improved; meanwhile, the impurities are separated and removed one by using a filter screen, the sewage cannot generate counter flow, and finally clear water is obtained through a clarifying chamber; the device has the advantages of simple structure, easy realization, compact and reasonable structure, small occupied area, suitability for being applied to various occasions, and particular suitability for the wastewater treatment of factories and the sewage treatment of sewers.

Description

Waste water treatment device capable of improving filtering and impurity removing effects

Technical Field

The utility model relates to a waste water treatment field technique especially indicates an improve waste water treatment device who filters edulcoration effect.

Background

With the acceleration of the urbanization process in China, the discharge amount of domestic sewage and industrial sewage is increased, the wastewater contains a plurality of solid impurities and metal ions, and if the wastewater is directly discharged into rivers, the pollution of the rivers is more serious, the ecological environment balance of the rivers is damaged, and the health of human beings is damaged; therefore, a plurality of wastewater treatment devices are provided, and when the traditional wastewater treatment device is used for treating wastewater, the phenomenon of sewage backflow is easy to occur, so that repeated treatment is caused, and the wastewater treatment efficiency is limited; in addition, the existing wastewater treatment device still generally has large volume and large occupied area, is limited to the application occasions of the wastewater treatment device, brings inconvenience to wastewater treatment projects, and is not beneficial to the promotion of the wastewater treatment projects.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a wastewater treatment device for improving the filtration and impurity removal effects, which is designed to divide the wastewater treatment into several steps, each step is completed in a respective treatment chamber, thereby avoiding the mutual influence among various substances and improving the wastewater treatment efficiency; meanwhile, the impurities are separated and removed one by using the filter screen, the sewage cannot generate counter flow, and finally clear water is obtained through the clarifying chamber.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a wastewater treatment device for improving filtering and impurity removing effects comprises a shell forming an integral frame of the device, wherein a separation chamber, a coagulation chamber, an electrolysis chamber and a clarification chamber are sequentially arranged in the shell from left to right, and the separation chamber is communicated with the coagulation chamber through a first water flowing channel; the coagulation chamber is communicated with the electrolysis chamber through a second flowing water channel; the electrolysis chamber is communicated with the clarification chamber through a third water flowing channel; wherein:

the left wall of the separation chamber is provided with a water inlet, a first slag discharge port and a second slag discharge port which are sequentially arranged from top to bottom, the lower end of the water inlet is provided with a grid net and a screening net which are low at the left and high at the right, the left end of the grid net is connected with the first slag discharge port, and the left end of the screening net is connected with the second slag discharge port;

the lower ends of the left walls of the first flowing water channel, the second flowing water channel and the third flowing water channel are water inlet ends of the corresponding separation chamber, the coagulation chamber and the electrolysis chamber, and are respectively provided with a filter screen; the upper ends of the right walls of the first flow channel, the second flow channel and the third flow channel are water outlet ends, the heights of the water outlet ends are sequentially decreased from left to right, and the height of the first flow channel is lower than that of the separation screen;

the right end of the clarifying chamber is provided with a water outlet, and the height of the water outlet is lower than the water outlet end of the third water flowing channel.

Preferably, the first flow channel, the second flow channel and the third flow channel are vertically arranged, a vertical separation wall is arranged at the right spacing side of the corresponding separation chamber, the coagulation chamber and the electrolysis chamber, and the corresponding flow channel is formed between the vertical separation wall and the outer wall of the chamber.

As a preferred scheme, the upper end of the coagulating chamber is provided with a first feeding hole, the first feeding hole is used for adding a coagulant, the upper end of the first feeding hole is provided with an outward expansion port, a first stirrer is installed in the coagulating chamber, and the first stirrer is connected with a first motor.

As a preferable scheme, two electrode plates and a second stirrer are arranged in the electrolytic chamber, and a second feeding hole is formed in the upper end of the electrolytic chamber; meanwhile, the electrolysis chamber is connected with a first PH value automatic control system, the first PH value automatic control system is connected with a first acid inlet pipe and a first alkali inlet pipe which enter from a second feed inlet, the electrode plate is electrically connected with an external power supply, and the second stirrer is connected with a second motor.

As a preferred scheme, the clarifying chamber is connected with a second automatic pH value control system, the upper end of the clarifying chamber is provided with a third feeding port, and the second automatic pH value control system is provided with a second acid inlet pipe and a second alkali inlet pipe which enter from the third feeding port.

Preferably, the separation chamber, the coagulation chamber, the electrolysis chamber and the clarification chamber are provided with openable and closable sewage discharge tanks.

As a preferred scheme, be equipped with the concave position that makes things convenient for the staff to open the blowdown groove on the blowdown groove, the blowdown groove has installed the rubber limit with corresponding separation chamber, coagulating chamber, electrolysis chamber, clarification chamber closed department, the lower extreme of blowdown groove is equipped with the apopore, install filtration membrane in the apopore, the outside of apopore is equipped with closed lid.

Preferably, the separation chamber, the coagulation chamber, the electrolysis chamber and the clarification chamber are provided with observation windows.

As a preferred scheme, the water outlet of the sewage draining groove is connected to the temporary sewage storage tank through a pipeline, and water in the subsequent temporary sewage storage tank is connected to the water inlet of the wastewater treatment device again.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, particularly, according to the technical scheme, the wastewater treatment device is mainly designed to divide the wastewater treatment into a plurality of steps, each step is completed in the respective treatment chamber, and the mutual influence among various substances is avoided, so that the wastewater treatment efficiency is improved; meanwhile, the impurities are separated and removed one by using a filter screen, the sewage cannot generate counter flow, and finally clear water is obtained through a clarifying chamber; secondly, this device simple structure, easy realization, compact structure is reasonable, and area is little, is fit for being applied to multiple occasion, is particularly useful for the sewage treatment to the waste water treatment of mill and sewer.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a perspective view of an embodiment of the present invention;

fig. 2 is an internal schematic view of an embodiment of the present invention.

The attached drawings indicate the following:

1. vertical partition wall 2, filter screen

10. Separation chamber 11, grid mesh

12. Screening net 13 and first slag discharge port

14. Second slag discharge port 15 and first water flow channel

16. Water inlet 20, coagulation chamber

21. First feed inlet 22 and first stirrer

23. Second flow channel 30, electrolytic chamber

31. Second feed inlet 32, second stirrer

33. Third water flow passage 34 and electrode plate

40. Clarifying chamber 41, third inlet

42. Water outlet 50 and pollutant collecting box

60. Dirt discharge groove 61 and concave position

62. A viewing window 63 and a water outlet.

Detailed Description

Referring to fig. 1 to 2, specific structures of embodiments of the present invention are shown.

The wastewater treatment device for improving the filtering and impurity removing effects comprises a shell forming an integral framework of the device, wherein a separation chamber 10, a coagulation chamber 20, an electrolysis chamber 30 and a clarification chamber 40 are arranged in the shell, and the separation chamber 10 is communicated with the coagulation chamber 20 through a first water flowing channel 15; the coagulation chamber 20 is communicated with the electrolysis chamber 30 through a second water flowing channel 23; the electrolysis chamber 30 is communicated with the clarification chamber 40 through a third flow channel 33; the left end of the shell is provided with a water inlet 16, the right end of the shell is provided with a water outlet 42, the water inlet 16 is positioned at the upper end of the left wall of the separation chamber 10, the water inlet 16 is connected with a water inlet pipe, one end of the water inlet pipe is connected with the water inlet 16, the other end of the water inlet pipe is connected with a water suction pump, and the water suction pump provides power for sewage to enter the wastewater treatment device; the water outlet 42 is connected with a water outlet pipe, and the water inlet pipe and the water outlet pipe are preferably flexible permeable pipes or canvas water hoses.

Sewage enters a wastewater treatment device of the wastewater treatment device through a water inlet 16, the sewage enters a separation chamber 10 after being filtered by a grid mesh 11 and a screening mesh 12, and the sewage in the separation chamber 10 enters a coagulation chamber 20 through a first water flowing channel 15; the sewage in the coagulation chamber 20 reacts with a coagulant, small particle pollutants are coagulated into large particles, the sewage in the coagulation chamber 20 enters the electrolysis chamber 30 through the second water flow channel 23, the large particle pollutants in the sewage in the coagulation chamber 20 are isolated in the coagulation chamber 20 by the filter screen 2 of the second water flow channel 23, and the sewage entering the electrolysis chamber 30 is further electrolyzed; the treated sewage enters the clarifying chamber 40 through the third flowing water channel 33; as can be seen from fig. 2, the first flow channel 15, the second flow channel 23, and the third flow channel 33 have substantially the same structure: each water flow channel is vertically arranged, the water inlet side of each water flow channel is at a low position, the water outlet side of each water flow channel is at a high position, each water flow channel is provided with a vertical partition wall 1 at the water outlet side of the corresponding separation chamber 10, the coagulation chamber 20 and the electrolysis chamber 30, the water flow channel is formed between the vertical partition wall 1 and the outdoor wall, and the heights of the vertical partition walls 1 at the water outlet sides of the separation chamber 10, the coagulation chamber 20 and the electrolysis chamber 30 are sequentially decreased progressively, so that the sewage cannot flow reversely.

A first slag discharge port 13 and a second slag discharge port 14 are arranged at the lower end of a water inlet 16 on the left wall of the separation chamber 10, and the first slag discharge port 13 and the second slag discharge port 14 penetrate through the inner cavity of the shell to be communicated with the outside and the pollutant collecting box 50; meanwhile, a grid net 11 is arranged at the first slag discharge port 13, and the grid net 11 is arranged at the first slag discharge port 13 at a certain inclination (lower left and higher right); the second slag discharge port 14 is provided with a screening net 12, and the screening net 12 is arranged at the first slag discharge port 14 at a certain inclination (lower left and higher right); the screening net 12 is installed at the lower end of the grid net 11.

The upper end of the coagulation chamber 20 is provided with a first feeding hole 21, the first feeding hole 21 is used for adding a coagulant, an outward expansion port is formed in the upper end of the first feeding hole 21, feeding of workers is facilitated, and a first stirrer 22 is installed in the coagulation chamber 20 and used for stirring sewage and improving coagulation efficiency; a first motor is connected to the first agitator 22.

Two electrode plates 34 and a second stirrer 32 are arranged in the electrolytic chamber 30, and a second feeding hole 31 is formed in the upper end of the electrolytic chamber 30; meanwhile, the electrolysis chamber 30 is connected with a first PH automatic control system, the first PH automatic control system is connected with a first acid inlet pipe and a first alkali inlet pipe which enter from the second feed inlet 31, the electrode plate 34 is electrically connected with an external power supply, the second stirrer 32 is connected with a second motor, and the second stirrer 32 is used for stirring sewage and improving the electrolysis speed.

The clarifying chamber 40 is connected with a second automatic PH control system, the upper end of the clarifying chamber 40 is provided with a third feed inlet 41, the second automatic PH control system is provided with a second acid inlet pipe and a second alkali inlet pipe which enter from the third feed inlet 41, the water outlet 42 is arranged on the right wall of the clarifying chamber 40, preferably, the water outlet 42 is arranged in the middle section of the right wall, the water outlet 42 is connected with a water outlet pipe, one end of the water outlet pipe is connected with the water outlet 42, the other end of the water outlet pipe is connected with the drainage side, and the treated purified water can be discharged into a river channel or can be recycled; the water outlet pipe is preferably a flexible water permeable pipe or a canvas water hose.

The lower ends of the left walls of the first flowing water channel 15, the second flowing water channel 23 and the third flowing water channel 33 are water inlet ends, and are respectively provided with a filter screen 2; the upper ends of the right walls of the first flow channel 15, the second flow channel 23 and the third flow channel 33 are water outlet ends, the heights of the water outlet ends are sequentially decreased from left to right, and the height of the first flow channel 15 is lower than that of the separation net 12; the height of the water outlet 42 is lower than that of the water outlet end of the third water flowing channel 33;

the separation chamber 10, the coagulation chamber 20, the electrolysis chamber 30 and the clarification chamber 40 are respectively provided with an openable sewage discharge groove 60, the sewage discharge groove 60 is provided with a concave position 61, the concave position 61 is convenient for a person to open the sewage discharge groove 60, the closed positions of the sewage discharge groove 60 and the corresponding separation chamber 10, the coagulation chamber 20, the electrolysis chamber 30 and the clarification chamber 40 are provided with rubber edges, the rubber edges can enhance the air tightness of the connection position and prevent indoor water from flowing out, the lower end of the sewage discharge groove 60 is provided with a water outlet 63, a filtering membrane is arranged in the water outlet 63, and the outer side of the water outlet 63 is provided with a closed cover; the separation chamber 10, the coagulation chamber 20, the electrolysis chamber 30 and the clarification chamber 40 are all provided with observation windows 62, and the observation windows 62 are used for observing the working conditions in the chambers; when the device normally works, the closing cover is closed, and when indoor pollutants need to be treated, the closing cover is opened, indoor water is discharged firstly, and then the pollution discharge groove 60 is opened to treat the pollutants in the device;

when the sewage treatment device is used, the water suction pump works to pump sewage into the sewage treatment device, the sewage passes through the grid mesh 11, most of large-particle impurities in the sewage are filtered by the grid mesh 11, the large-particle impurities slide into the pollutant collecting box 50 through the first slag discharge port 13 under the action of gravity, then the sewage enters the screening mesh 12, the small-particle impurities in the sewage are filtered by the screening mesh 12, the small-particle impurities slide into the pollutant collecting box 50 through the second slag discharge port 14 under the action of gravity, and the sewage falls into the bottom of the separation chamber 10 and enters the first flow channel 15 through the filter screen 2; the filter screen 2 keeps the impurities which are not completely removed in the sewage in the separation chamber 10; when the sewage in the first flow channel 15 reaches a certain height, the sewage enters the coagulation chamber 20 from the top end of the vertical partition wall 1, and the first stirrer 22 stirs the sewage in the coagulation chamber 20 to accelerate the coagulation speed; the second filter screen 231 keeps impurities in the coagulation chamber 20; the sewage passes through the filter screen 2 and enters the second flowing water channel 23; when the sewage in the second flow channel 23 reaches a certain height, the sewage enters the electrolytic chamber 30 from the top end of the vertical partition wall 1, the second stirrer 32 stirs the sewage in the electrolytic chamber 30 to accelerate the electrolysis speed, and the pH value can be set to be the most suitable pH value for electrolysis firstly due to the automatic pH value control system connected with the electrolytic chamber 30; the sewage enters the third water flowing channel 33 through the third filter screen 331, and the filter screen keeps impurities obtained after electrolysis in the electrolysis chamber 30; when the water in the third water flowing channel 33 reaches a certain height, the sewage enters the clarifying chamber 40 from the top end of the vertical partition wall 1, the second PH value automatic control system connected with the clarifying chamber 40 can control the PH value of the sewage in the clarifying chamber 40 and adjust the PH value to be suitable for the ecological environment, and when the water in the clarifying chamber 40 reaches a certain height, the water flows out of the device through the water outlet 42; simultaneously, the staff accessible observation window 62 observes each indoor pollutant and piles up the condition, and when indoor pollutant piles up a quantitative, can open earlier apopore 63 of blowdown groove 60 and emit earlier to the water in the device, opens the pollutant in blowdown groove 60 is cleared up the device again. Here, the water outlet 63 of the sewage draining tank 60 is connected to the temporary sewage storage tank through a pipeline, and water in the temporary sewage storage tank is connected to the wastewater treatment device again and is sequentially treated by the separation chamber 10, the coagulation chamber 20, the electrolysis chamber 30 and the clarification chamber 40.

Preferably, the lower end of the wastewater treatment device can be pivoted with the roller for facilitating the carrying and moving of the wastewater treatment device by workers.

The utility model is mainly designed to divide the wastewater treatment into a plurality of steps through the design of the wastewater treatment device, and each step is completed in the respective treatment chamber, thereby avoiding the mutual influence among various substances and improving the wastewater treatment efficiency; meanwhile, the impurities are separated and removed one by using a filter screen, the sewage cannot generate counter flow, and finally clear water is obtained through a clarifying chamber; secondly, this device simple structure, easy realization, compact structure is reasonable, and area is little, is fit for being applied to multiple occasion, is particularly useful for the sewage treatment to the waste water treatment of mill and sewer.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (9)

1. The utility model provides an improve effluent treatment plant who filters edulcoration effect which characterized in that: the device comprises a shell forming an integral frame of the device, wherein a separation chamber (10), a coagulation chamber (20), an electrolysis chamber (30) and a clarification chamber (40) are sequentially arranged in the shell from left to right, and the separation chamber (10) is communicated with the coagulation chamber (20) through a first water flowing channel (15); the coagulation chamber (20) is communicated with the electrolysis chamber (30) through a second water flowing channel (23); the electrolysis chamber (30) is communicated with the clarification chamber (40) through a third flowing water channel (33); wherein:

a water inlet (16), a first slag discharge port (13) and a second slag discharge port (14) are sequentially arranged on the left wall of the separation chamber (10) from top to bottom, a grid net (11) with a lower left and a higher right and a screening net (12) are arranged at the lower end of the water inlet (16), the left end of the grid net (11) is connected with the first slag discharge port (13), and the left end of the screening net (12) is connected with the second slag discharge port (14);

the lower ends of the left walls of the first flowing water channel (15), the second flowing water channel (23) and the third flowing water channel (33) are water inlet ends of the corresponding separation chamber (10), the coagulation chamber (20) and the electrolysis chamber (30), and a filter screen (2) is arranged on each of the water inlet ends; the upper ends of the right walls of the first water flowing channel (15), the second water flowing channel (23) and the third water flowing channel (33) are water outlet ends, the heights of the water outlet ends are sequentially reduced from left to right, and the height of the first water flowing channel (15) is lower than that of the screening net (12);

a water outlet (42) is arranged at the right end of the clarifying chamber (40), and the height of the water outlet (42) is lower than that of the water outlet end of the third water flowing channel (33).

2. The wastewater treatment device for improving the filtering and impurity removing effects according to claim 1, wherein: the first water flowing channel (15), the second water flowing channel (23) and the third water flowing channel (33) are all vertically arranged, a vertical partition wall (1) is arranged on the right spacing side of the corresponding separation chamber (10), the coagulation chamber (20) and the electrolysis chamber (30), and the corresponding water flowing channel is formed between the vertical partition wall (1) and the outer wall of the chamber.

3. The wastewater treatment device for improving the filtering and impurity removing effects according to claim 1, wherein: the utility model discloses a coagulating chamber, including coagulating chamber (20), first feed inlet (21) are used for adding the coagulant, outwards expand mouthful have on first feed inlet (21), install first agitator (22) in coagulating chamber (20), first agitator (22) are connected with first motor.

4. The wastewater treatment device for improving the filtering and impurity removing effects according to claim 1, wherein: two electrode plates (34) and a second stirrer (32) are arranged in the electrolytic chamber (30), and a second feeding hole (31) is formed in the upper end of the electrolytic chamber (30); meanwhile, the electrolysis chamber (30) is connected with a first PH value automatic control system, the first PH value automatic control system is connected with a first acid inlet pipe and a first alkali inlet pipe which enter from a second feed port (31), the electrode plate (34) is electrically connected with an external power supply, and the second stirrer (32) is connected with a second motor.

5. The wastewater treatment device for improving the filtering and impurity removing effects according to claim 1, wherein: the clarifying chamber (40) is connected with a second PH value automatic control system, the upper end of the clarifying chamber (40) is provided with a third feeding port (41), and the second PH value automatic control system is provided with a second acid inlet pipe and a second alkali inlet pipe which enter from the third feeding port (41).

6. The wastewater treatment device for improving the filtering and impurity removing effects according to claim 1, wherein: the separation chamber (10), the coagulation chamber (20), the electrolysis chamber (30) and the clarification chamber (40) are all provided with openable sewage discharge tanks (60).

7. The wastewater treatment device for improving the filtering and impurity removing effects according to claim 6, wherein: be equipped with on blowdown groove (60) and make things convenient for the people hand to open concave position (61) of blowdown groove (60), the rubber limit has been installed with corresponding separating chamber (10), coagulating chamber (20), electrolysis chamber (30), clarification chamber (40) closed department in blowdown groove (60), the lower extreme of blowdown groove (60) is equipped with apopore (63), install filtration membrane in apopore (63), the outside of apopore (63) is equipped with the closed lid.

8. The wastewater treatment device for improving the filtering and impurity removing effects according to claim 6, wherein: the separation chamber (10), the coagulation chamber (20), the electrolysis chamber (30) and the clarification chamber (40) are all provided with observation windows (62).

9. The wastewater treatment device for improving the filtering and impurity removing effects according to claim 6, wherein: apopore (63) of blowdown groove (60) are connected to the pond of keeping in sewage through the pipeline, and the water in follow-up pond of keeping in sewage inserts waste water treatment plant's water inlet (16) once more.

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