CN221720626U - A sewage bacteria decomposition equipment with automatic feeding - Google Patents

Abstract

The utility model relates to the technical field of sewage fungus decomposition, and in particular to an automatic feeding sewage fungus decomposition device. Its technical scheme includes: a filter box and a decomposition box body installed on the upper surface of a support platform, the inner wall of the filter box is provided with a filter mechanism for pre-treating sewage, and the inner wall of the filter box is provided with a storage assembly adapted to the position of the filter mechanism; the filter mechanism includes a first pump, a second pump and a filter plate, the first pump is connected to the top of the filter box by a second connecting pipe, the inner cavity of the filter box is provided with a sewage chamber and a clean water chamber, and the sewage chamber and the clean water chamber are connected by a filter plate. The utility model uses the second pump to pump water from the clean water chamber into the storage chamber, and then uses the third pump to pump water from the storage chamber into the decomposition box body for fungus decomposition, pre-treats sewage by setting a filter mechanism, and improves the efficiency of subsequent fungus decomposition after filtering particulate matter through the filter plate.

Description

A sewage bacteria decomposition equipment with automatic feeding

Technical Field

The utility model relates to the technical field of sewage fungus decomposition, in particular to sewage fungus decomposition equipment with automatic feeding.

Background Art

Wastewater treatment is the process of purifying sewage so that it meets the water quality requirements for discharge into a water body or reuse. Wastewater treatment is widely used in various fields such as construction, agriculture, transportation, energy, petrochemicals, environmental protection, urban landscape, medical care, catering, etc., and is increasingly entering the daily lives of ordinary people.

In this regard, for example, Chinese utility model patent with announcement number CN212050688U discloses an automatic magnesium oxide feeding and stirring device for sewage treatment, which includes a main box body, and a motor is fixedly mounted on the top of the main box body through a bracket.

Although the magnesium oxide can be automatically fed through the feed hopper, feed trough, inclined plate and spring, and the feeding speed can be automatically adjusted by the spring, when the flow rate of the magnesium oxide is faster, the inclined plate is subjected to greater pressure, the spring contracts, and the inclination angle of the inclined plate decreases, thereby slowing down the feeding speed of the magnesium oxide. The operation is simple and convenient, but it is relatively simple when pre-treating sewage. If the particulate matter in the sewage is not removed, it will affect the further treatment of the sewage and reduce the sewage treatment efficiency.

Utility Model Content

The utility model aims to solve the problems existing in the background technology and proposes an automatic feeding sewage bacteria decomposition device.

The technical solution of the utility model is: an automatic feeding sewage fungus decomposition device, comprising a filter box and a decomposition box body installed on the upper surface of a support platform, the inner wall of the filter box is provided with a filter mechanism for pre-treating sewage, and the inner wall of the filter box is provided with a storage component adapted to the position of the filter mechanism;

The filtering mechanism includes a first water pump, a second water pump and a filter plate, the first water pump is connected to the top of the filter box with a second connecting pipe, the inner cavity of the filter box is provided with a sewage chamber and a clean water chamber, the sewage chamber and the clean water chamber are connected by a filter plate, one end of the second connecting pipe extends into the sewage chamber, a storage chamber is provided inside the filter box, two groups of water transfer pipes are provided on the lower surface of the second water pump, the water transfer pipes extend into the clean water chamber and the storage chamber; when in use, the sewage is pumped into the sewage chamber by the first water pump through the water pipe, the silt and other particulate matter in the sewage remains on the upper surface of the hinged plate due to gravity, the sewage remains in the clean water chamber after filtration, the water in the clean water chamber is pumped into the storage chamber by the second water pump, and the water in the storage chamber is pumped into the decomposition box body by the third water pump for fungal decomposition, the sewage is pre-treated by setting the filtering mechanism, and the efficiency of subsequent fungal decomposition is improved after the particulate matter is filtered by the filter plate.

Preferably, the storage assembly includes a cylinder, a first hinge rod, a second hinge rod and a hinge plate, the hinge plate is hinged to the inner wall of the filter box, the lower surface of the hinge plate is connected to the second hinge seat, the inner wall of the filter box is connected to the first hinge seat, the first hinge seat is hinged to the first hinge rod, the second hinge seat is hinged to the second hinge rod, the first hinge rod and the second hinge rod are connected by a cylinder, the filtered particulate matter is driven by the contraction of the cylinder to deflect the hinge plate downward, the particulate matter on the upper surface of the hinge plate falls into the collection box, and the blower fan is turned on to drive the particulate matter stuck to the surface of the hinge plate to fall; the opening and closing of the hinge plate is controlled by the cylinder, which improves the convenience of collecting particulate matter.

Preferably, a collecting box is provided on the bottom surface of the filter box, and the collecting box is adapted to the position of the hinged plate.

Preferably, a third water pump is provided between the filter box and the decomposition box body, one end of the third water pump extends into the storage chamber, and a first connecting pipe is connected between the third water pump and the top of the decomposition box body.

Preferably, a water pump is connected to one side wall of the first water pump.

Preferably, a water outlet pipe is installed on one side of the decomposition box body, and a water stop valve is connected to the side of the water outlet pipe.

Preferably, a drying box is provided on one side wall of the filter box, and a blower fan adapted to the position of the cylinder is installed on the inner side wall of the drying box.

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

The utility model pre-treats sewage by arranging a filtering mechanism, and improves the efficiency of subsequent fungal decomposition after filtering particulate matter through a filter plate; and controls the opening and closing of the hinged plate through a cylinder, thereby improving the convenience of collecting particulate matter.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of a first three-dimensional structure of the present invention;

FIG2 is a schematic diagram of the top view of the structure of the utility model;

Fig. 3 is a schematic diagram of the cross-sectional structure of the A-A section in Fig. 2;

FIG4 is a schematic diagram of the structure of a local enlarged area at point C in FIG3;

FIG. 5 is a schematic diagram of a second three-dimensional structure of the present invention.

Figure numerals: 1. support platform; 2. filter box; 3. decomposition box body; 4. water stop valve; 5. first connecting pipe; 6. second water pump; 7. first water pump; 8. second connecting pipe; 9. water pipe; 10. drying box; 11. blower fan; 12. filter plate; 13. sewage chamber; 14. clean water chamber; 15. water transfer pipe; 16. third water pump; 17. storage chamber; 18. water outlet pipe; 19. first hinged seat; 20. first hinged rod; 21. collection box; 22. cylinder; 23. second hinged rod; 24. second hinged seat; 25. hinged plate.

DETAILED DESCRIPTION

The technical solution of the utility model is further described below in conjunction with the accompanying drawings and specific embodiments.

Example

As shown in Figures 1 to 5, the utility model proposes an automatic feeding sewage fungus decomposition device, including a filter box 2 and a decomposition box body 3 installed on the upper surface of a support platform 1, the inner wall of the filter box 2 is provided with a filter mechanism for pre-treating sewage, and the inner wall of the filter box 2 is provided with a storage component adapted to the position of the filter mechanism; the filter mechanism includes a first water pump 7, a second water pump 6 and a filter plate 12, the first water pump 7 is connected to the top of the filter box 2 by a second connecting pipe 8, the inner cavity of the filter box 2 is provided with a sewage chamber 13 and a clean water chamber 14, the sewage chamber 13 and the clean water chamber 14 are connected by a filter plate 12, one end of the second connecting pipe 8 extends into the sewage chamber 13, and the filter box 2 is provided with a storage chamber 17 inside, and two groups of water transfer pipes 15 are provided on the lower surface of the second water pump 6, and the water transfer pipes 15 extend into the clean water chamber 14 and the storage chamber 17; when in use, the sewage is pumped into the sewage chamber 13 by the first water pump 7 through the water pipe 9, and the silt and other particulate matter in the sewage is retained on the upper surface of the hinge plate 25 due to gravity, and the sewage is retained in the clean water chamber 14 after being filtered, and the water in the clean water chamber 14 is pumped into the storage chamber 17 by the second water pump 6, and then the water in the storage chamber 17 is pumped into the decomposition box body 3 by the third water pump 16 for fungal decomposition, and the sewage is pre-treated by setting the filtering mechanism, and the efficiency of subsequent fungal decomposition is improved after the particulate matter is filtered by the filter plate 12. The storage assembly includes a cylinder 22, a first hinge rod 20, a second hinge rod 23 and a hinge plate 25. The hinge plate 25 is hinged to the inner wall of the filter box 2. The lower surface of the hinge plate 25 is connected to the second hinge seat 24. The inner wall of the filter box 2 is connected to the first hinge seat 19. The first hinge seat 19 is hinged to the first hinge rod 20. The second hinge seat 24 is hinged to the second hinge rod 23. The first hinge rod 20 and the second hinge rod 23 are connected through the cylinder 22. The filtered particulate matter is driven by the contraction of the cylinder 22 to deflect the hinge plate 25 downward. The particulate matter on the upper surface of the hinge plate 25 falls into the collection box 21. At the same time, the blower fan 11 is turned on to drive the particulate matter stuck to the surface of the hinge plate 25 to fall down. The opening and closing of the hinge plate 25 is controlled by the cylinder 22, which improves the convenience of collecting particulate matter.

The bottom surface of the filter box 2 is provided with a collection box 21, and the position of the collection box 21 is adapted to the hinge plate 25. A third water pump 16 is provided between the filter box 2 and the decomposition box body 3, one end of the third water pump 16 extends into the storage chamber 17, and a first connecting pipe 5 is connected between the third water pump 16 and the top of the decomposition box body 3. A water pump 9 is connected to one side wall of the first water pump 7. A water outlet pipe 18 is installed on one side of the decomposition box body 3, and a water stop valve 4 is connected to the side of the water outlet pipe 18. A drying box 10 is provided on one side wall of the filter box 2, and a blower fan 11 adapted to the position of the cylinder 22 is installed on the inner side wall of the drying box 10.

In the present embodiment, during use, sewage is pumped into the sewage chamber 13 by the first water pump 7 through the water pump pipe 9, and the silt and other particulate matter in the sewage remains on the upper surface of the hinged plate 25 due to gravity. The sewage remains in the clean water chamber 14 after being filtered, and the water in the clean water chamber 14 is pumped into the storage chamber 17 by the second water pump 6, and then the water in the storage chamber 17 is pumped into the decomposition box body 3 by the third water pump 16 for fungal decomposition. The filtered particulate matter is driven by the contraction of the cylinder 22 to deflect the hinged plate 25 downward, and the particulate matter on the upper surface of the hinged plate 25 falls into the collecting box 21. At the same time, the blower fan 11 is turned on to drive the particulate matter stuck to the surface of the hinged plate 25 to fall down, and the water stop valve 4 is opened, and the decomposed water flows out through the outlet pipe 18.

The above specific embodiment is only a preferred embodiment of the present invention. Based on the technical solution of the present invention and the relevant inspiration of the above embodiment, those skilled in the art can make various alternative improvements and combinations to the above specific embodiment.

Claims (7)

1. An automatic feeding sewage fungus decomposition device, comprising a filter box (2) and a decomposition box body (3) mounted on the upper surface of a support platform (1), characterized in that: the inner wall of the filter box (2) is provided with a filter mechanism for pre-treating sewage, and the inner wall of the filter box (2) is provided with a storage component adapted to the position of the filter mechanism; The filtering mechanism comprises a first water pump (7), a second water pump (6) and a filter plate (12); the first water pump (7) is connected to the top of the filter box (2) via a second connecting pipe (8); a sewage chamber (13) and a clean water chamber (14) are arranged in the inner cavity of the filter box (2); the sewage chamber (13) and the clean water chamber (14) are connected via the filter plate (12); one end of the second connecting pipe (8) extends into the sewage chamber (13); a storage chamber (17) is arranged inside the filter box (2); two groups of water transfer pipes (15) are arranged on the lower surface of the second water pump (6); the water transfer pipes (15) extend into the clean water chamber (14) and the storage chamber (17). 2. An automatic feeding sewage fungus decomposition equipment according to claim 1, characterized in that the storage component includes a cylinder (22), a first hinge rod (20), a second hinge rod (23) and a hinge plate (25), the hinge plate (25) is hinged to the inner wall of the filter box (2), the lower surface of the hinge plate (25) is connected to the second hinge seat (24), the inner wall of the filter box (2) is connected to the first hinge seat (19), the first hinge seat (19) is hinged to the first hinge rod (20), the second hinge seat (24) is hinged to the second hinge rod (23), and the first hinge rod (20) and the second hinge rod (23) are connected through the cylinder (22). 3. The automatic feeding sewage fungus decomposition equipment according to claim 2 is characterized in that a collecting box (21) is provided on the bottom surface of the filter box (2), and the collecting box (21) is adapted to the position of the hinged plate (25). 4. An automatic feeding sewage fungus decomposition equipment according to claim 1 is characterized in that a third water pump (16) is arranged between the filter box (2) and the decomposition box body (3), one end of the third water pump (16) extends into the storage chamber (17), and a first connecting pipe (5) is connected between the third water pump (16) and the top of the decomposition box body (3). 5. The automatic feeding sewage fungus decomposition equipment according to claim 1 is characterized in that a water pump (9) is connected to a side wall of the first water pump (7). 6. An automatic feeding sewage fungus decomposition equipment according to claim 5, characterized in that a water outlet pipe (18) is installed on one side of the decomposition box body (3), and a water stop valve (4) is connected to the side of the water outlet pipe (18). 7. The automatic feeding sewage fungus decomposition equipment according to claim 2 is characterized in that a drying box (10) is provided on one side wall of the filter box (2), and a blower fan (11) adapted to the position of the cylinder (22) is installed on the inner wall of the drying box (10).