CN113582360A - High-efficient low energy consumption sewage treatment plant - Google Patents

Abstract

One or more embodiments of this description provide a high-efficient low energy consumption sewage treatment plant, which comprises a housin, the welding has the bracing piece on the casing, the welding has the roof on the bracing piece, the water inlet has been seted up on the roof, it is connected with the fretwork cover to rotate in the casing, the fretwork covers and has seted up a plurality of filtration pores, and is a plurality of filtration pore evenly distributed covers at the fretwork, the fretwork covers the welding and has the back shaft, be provided with the flabellum on the back shaft, the welding has the cover body in the casing, be provided with the outlet pipe on the cover body. According to the invention, the guide rod is arranged in the hollow cover, the baffle is welded on the guide rod, the baffle prevents water flow from directly impacting the hollow cover and preventing the hollow cover from being damaged, the spring is arranged on the guide rod, when water enters from the water inlet, the water flow impacts the baffle, particles collide with the baffle to drive the baffle to move downwards, the baffle moves to compress the spring, the water flow impact is buffered, and the particles are prevented from being directly stuck in the filter holes and difficult to remove.

Description

High-efficient low energy consumption sewage treatment plant

Technical Field

One or more embodiments of this description relate to sewage treatment technical field, especially relate to a high-efficient low energy consumption sewage treatment plant.

Background

Sewage treatment is a process of purifying sewage to meet the water quality requirement of discharging the sewage into a certain water body or reusing the sewage. Sewage treatment is widely applied to various fields such as buildings, agriculture, traffic, energy, petrifaction, environmental protection, urban landscape, medical treatment, catering and the like, and is increasingly used in daily life of common people.

Among the prior art, high-efficient low energy consumption sewage treatment plant is to sewage treatment in-process, and the filter screen produces the jam easily, influences filtration efficiency, and simultaneously, the large granule impurity that contains in the sewage can lead to the fretwork cover to damage to fretwork cover long time impact to, the large granule impurity in the device is difficult to the discharge. Accordingly, there is a need for improvements in the art.

Disclosure of Invention

In view of this, the purpose of one or more embodiments of the present disclosure is to provide a high-efficiency and low-energy-consumption sewage treatment apparatus, so as to solve the problems that a filter screen is easily blocked, a hollow cover is damaged due to long-time impact, and large-particle impurities in the apparatus are difficult to discharge.

In view of the above, one or more embodiments of the present disclosure provide a high efficiency, low energy consumption sewage treatment apparatus, which includes a housing, a support rod welded to the housing, a top plate welded to the support rod, a water inlet opening formed in the top plate, a hollow cover rotatably connected to the housing, a plurality of filter holes formed in the hollow cover, the plurality of filter holes being uniformly distributed on the hollow cover, a support shaft welded to the hollow cover, blades arranged on the support shaft, a cover welded to the housing, a water outlet pipe arranged on the cover, blades sleeved in the water outlet pipe, four connecting rods welded to the water outlet pipe, four connecting rods distributed in an annular array in the water outlet pipe, a support sleeve welded to the end of the four connecting rods, a support shaft rotatably connected to the support sleeve, and a guide hole formed in the hollow cover, guide rods are sleeved in the guide holes in a sliding manner, two guide rods are arranged, baffles are welded on the two guide rods, a spring is arranged on the outer side of the guide rod, an installation rod is hinged at the lower end of the baffle, a scraping rod is welded at one end of the installation rod away from the baffle, the surface of the scraping rod is contacted with the hollow cover, a sliding rod is welded on the baffle plate, a pressure spring is arranged on the outer side of the sliding rod, a convex ring is welded on the cover body and is connected with the hollow cover in a sliding way, a water tank is fixedly sleeved in the shell, the lower end of the water tank is connected with an end cover through threads, the side wall of the water tank is provided with an opening, the side wall of the water tank is contacted with a filter membrane, the elastic sleeve is sleeved on the outer side of the water tank and is in contact with the filter membrane, a water pump is fixedly mounted on the side wall of the shell, a suction pipe is arranged on the water pump, and the suction pipe is fixedly sleeved in the shell.

Preferably, the two guide rods are symmetrically distributed on the hollow cover, and the lower ends of the two guide rods are welded with limiting blocks.

Preferably, one end of the spring is in contact with the hollow cover, and the other end of the spring is in contact with the baffle.

Preferably, the number of the mounting rods is four, the four mounting rods are uniformly distributed on the baffle, and the tail end of each mounting rod is welded with the scraping rod.

Preferably, the mounting rod is provided with a sliding groove, and the sliding groove is connected with a sliding rod in a sliding manner.

Preferably, one end of the pressure spring is in contact with the mounting rod, and the other end of the pressure spring is in contact with the baffle.

Preferably, a stop block is welded at one end, far away from the baffle, of the sliding rod, and one end, close to the baffle, of the stop block is in contact with the mounting rod.

Preferably, the hollowed-out cover is provided with an annular groove, and a convex ring is connected in the annular groove in a sliding manner.

From the above, it can be seen that the sewage treatment device with high efficiency and low energy consumption provided by one or more embodiments of the present specification has the following beneficial effects:

1. through covering lower extreme welding back shaft at the fretwork, the back shaft outside sets up the flabellum, and cover body lower extreme sets up the outlet pipe, and the outlet pipe is restrainted rivers, increases the velocity of flow of rivers, and then can increase the impact to the flabellum, increases the rotational speed of fretwork cover, and then avoids the particulate matter to cause the jam to the fretwork cover, has guaranteed sewage treatment efficiency.

2. Through setting up the guide arm in the fretwork cover, welding baffle on the guide arm, the baffle avoids rivers direct impact fretwork cover, avoids the fretwork cover to damage, sets up the spring on the guide arm, and when the water inlet intake, rivers impact the baffle, and the particulate matter collides with the baffle, drives the baffle and moves down, and the baffle removes and makes the spring compressed, cushions the rivers impact, avoids the direct card of particulate matter to be difficult to clear away in the filter hole.

3. Through at the articulated installation pole of baffle lower extreme, at baffle lower extreme welding slide bar, the slide bar outside sets up the pressure spring, and the baffle receives water impact vibrations from top to bottom under the spring action, and then makes the installation pole drive and scrape the pole and cover the surface slip at the fretwork, covers the surperficial particulate matter self-cleaning with the fretwork for debris are convenient for clear up in the device.

Drawings

In order to more clearly illustrate one or more embodiments or prior art solutions of the present specification, the drawings that are needed in the description of the embodiments or prior art will be briefly described below, and it is obvious that the drawings in the following description are only one or more embodiments of the present specification, and that other drawings may be obtained by those skilled in the art without inventive effort from these drawings.

FIG. 1 is a schematic view of one or more embodiments of the present disclosure;

FIG. 2 is a top view of the stencil mask of FIG. 1 in one or more embodiments of the present disclosure;

FIG. 3 is an enlarged view at A in FIG. 1 for one or more embodiments of the present disclosure;

FIG. 4 is an enlarged view at B of FIG. 1 in accordance with one or more embodiments of the present disclosure;

FIG. 5 is an enlarged view at C of FIG. 1 in accordance with one or more embodiments of the present disclosure;

FIG. 6 is an enlarged view at D of FIG. 1 in accordance with one or more embodiments of the present disclosure.

In the figure: 1. a housing; 2. a support bar; 3. a top plate; 4. a water inlet; 5. a hollow cover; 6. filtering holes; 7. a support shaft; 8. a fan blade; 9. a cover body; 10. a water outlet pipe; 11. a connecting rod; 12. a support sleeve; 13. a guide hole; 14. a guide bar; 141. a limiting block; 15. a baffle plate; 16. a spring; 17. mounting a rod; 18. a scraping rod; 19. a chute; 20. a slide bar; 21. a pressure spring; 22. a stopper; 23. a convex ring; 24. an annular groove; 25. a water tank; 26. an end cap; 27. an opening; 28. filtering the membrane; 29. an elastic sleeve; 30. a water pump; 31. a suction pipe.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, the present disclosure is further described in detail below with reference to specific embodiments.

It is to be noted that unless otherwise defined, technical or scientific terms used in one or more embodiments of the present specification should have the ordinary meaning as understood by those of ordinary skill in the art to which this disclosure belongs. The use of "first," "second," and similar terms in one or more embodiments of the specification is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Referring to fig. 1-6, a high-efficiency low-energy-consumption sewage treatment device comprises a shell 1, wherein a support rod 2 is welded on the shell 1, a top plate 3 is welded on the support rod 2, a water inlet 4 is formed on the top plate 3, a hollow cover 5 is rotatably connected in the shell 1, a plurality of filter holes 6 are formed in the hollow cover 5, the plurality of filter holes 6 are uniformly distributed on the hollow cover 5, a support shaft 7 is welded on the hollow cover 5, fan blades 8 are arranged on the support shaft 7, a cover body 9 is welded in the shell 1, a water outlet pipe 10 is arranged on the cover body 9, the fan blades 8 are sleeved in the water outlet pipe 10, four connecting rods 11 are welded in the water outlet pipe 10, the four connecting rods 11 are distributed in an annular array in the water outlet pipe 10, support sleeves 12 are welded at the tail ends of the four connecting rods 11, the support shafts 7 are rotatably connected in the support sleeves 12, guide holes 13 are formed in the hollow cover 5, and guide rods 14 are slidably sleeved in the guide holes 13, the guide rods 14 have two, the welding has baffle 15 on two guide rods 14, the outside of guide rod 14 is provided with spring 16, the lower extreme of baffle 15 articulates there is installation pole 17, the one end welding that installation pole 17 kept away from baffle 15 has the pole 18 of scraping, the surface and the contact of fretwork cover 5 of scraping pole 18, the welding has slide bar 20 on the baffle 15, the outside of slide bar 20 is provided with pressure spring 21, the welding has bulge loop 23 on the cover body 9, bulge loop 23 and the 5 sliding connection of fretwork cover, casing 1 internal fixation has cup jointed basin 25, the lower extreme of basin 25 has end cover 26 through threaded connection, opening 27 has been seted up to the lateral wall of basin 25, the lateral wall contact of basin 25 has filter membrane 28, the outside of basin 25 cup joints elastic sleeve 29, elastic sleeve 29 and filter membrane 28 contact, the lateral wall fixed mounting of casing 1 has water pump 30, be provided with suction tube 31 on the water pump 30, the fixed cover has connect suction tube 31 in the casing 1.

In this embodiment, two guide rods 14 are symmetrically distributed on hollow cover 5, and the lower ends of two guide rods 14 are all welded with limiting blocks 141. The guide rod 14 is limited by the limiting block 141.

In this embodiment, one end of the spring 16 contacts the hollow cover 5, and the other end of the spring 16 contacts the baffle 15. The damper 15 is cushioned by providing a spring 16.

In this embodiment, there are four mounting rods 17, the four mounting rods 17 are uniformly distributed on the baffle 15, and the end of each mounting rod 17 is welded with a scraping rod 18. By providing four mounting bars 17, four wiper bars 18 can be mounted.

In this embodiment, the mounting rod 17 is provided with a sliding slot 19, and a sliding rod 20 is slidably connected in the sliding slot 19. The slide bar 20 is slidable within the mounting bar 17 by the provision of a slide slot 19.

In this embodiment, one end of the compression spring 21 contacts the mounting rod 17, and the other end of the compression spring 21 contacts the shutter 15. The scraping rod 18 is kept sliding on the surface of the hollow cover 5 by arranging the compression spring 21.

In this embodiment, a stopper 22 is welded to an end of the sliding rod 20 away from the baffle 15, and an end of the stopper 22 close to the baffle 15 contacts the mounting rod 17. The mounting rod 17 is limited by the stopper 22.

In this embodiment, the hollow cover 5 is provided with an annular groove 24, and the annular groove 24 is slidably connected with a convex ring 23. Through setting up annular groove 24 and the cooperation of bulge loop 23, reduce the frictional force between fretwork cover 5 and the cover body 9.

The specific implementation process of the invention is as follows: when the water purifier is used, water enters through the water inlet 4, water entering from the water inlet 4 impacts the baffle 15, the baffle 15 prevents water flow from directly impacting the hollow cover 5, particles collide with the baffle 15, the impact force drives the baffle 15 to move downwards, the baffle 15 moves to enable the spring 16 to be compressed to buffer water flow impact, the spring 16 rebounds to enable the baffle 15 to ascend, further the baffle 15 generates vibration, the particles are prevented from being directly clamped in the filter holes 6 by water flow impact and being difficult to clean, the baffle 15 vibrates up and down under the action of the spring 16 by water flow impact, the mounting rod 17 drives the scraping rod 18 to slide on the surface of the hollow cover 5, the pressure spring 21 acts on the mounting rod 17 to enable the scraping rod 18 to be tightly pressed on the surface of the hollow cover 5 to slide, the particles on the surface of the hollow cover 5 are automatically cleaned, impurities in the water purifier are convenient to clean, and water passing through the hollow cover 5 enters the water outlet pipe 10 through the cover body 9, make flabellum 8 in the outlet pipe 10 receive water impact and drive back shaft 7 and rotate, back shaft 7 rotates and drives fretwork cover 5 and rotate, through at 5 lower extreme welding back shaft 7 of fretwork cover, back shaft 7 outside sets up flabellum 8, cover body 9 lower extreme sets up outlet pipe 10, outlet pipe 10 is received rivers and is restrainted, increase the velocity of flow of rivers, and then can increase the impact to flabellum 8, increase the rotational speed of fretwork cover 5, and then avoid the particulate matter to cause the jam to fretwork cover 5, sewage treatment efficiency has been guaranteed, rivers pass through in outlet pipe 10 gets into basin 25, the suction of water pump 30 makes sewage discharge after 28 secondary filter of filter membrane.

It is intended that the one or more embodiments of the present specification embrace all such alternatives, modifications and variations as fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements, and the like that may be made without departing from the spirit and principles of one or more embodiments of the present disclosure are intended to be included within the scope of the present disclosure.

Claims (8)

1. The high-efficiency low-energy-consumption sewage treatment device comprises a shell (1) and is characterized in that a support rod (2) is welded on the shell (1), a top plate (3) is welded on the support rod (2), a water inlet (4) is formed in the top plate (3), a hollow cover (5) is rotationally connected in the shell (1), a plurality of filter holes (6) are formed in the hollow cover (5), the filter holes (6) are uniformly distributed on the hollow cover (5), a support shaft (7) is welded on the hollow cover (5), fan blades (8) are arranged on the support shaft (7), a cover body (9) is welded in the shell (1), a water outlet pipe (10) is arranged on the cover body (9), the fan blades (8) are sleeved in the water outlet pipe (10), four connecting rods (11) are welded in the water outlet pipe (10), and the four connecting rods (11) are distributed in an annular array manner in the water outlet pipe (10), the tail end of the four connecting rods (11) is welded with a supporting sleeve (12), a supporting shaft (7) is rotatably connected in the supporting sleeve (12), a guide hole (13) is formed in the hollow cover (5), guide rods (14) are slidably sleeved in the guide hole (13), two guide rods (14) are welded on the two guide rods (14), a baffle (15) is arranged on the outer side of the guide rod (14), a spring (16) is arranged at the outer side of the guide rod (14), a mounting rod (17) is hinged to the lower end of the baffle (15), a scraping rod (18) is welded at one end, far away from the baffle (15), of the mounting rod (17), the surface of the scraping rod (18) is in contact with the hollow cover (5), a sliding rod (20) is welded on the baffle (15), a pressure spring (21) is arranged on the outer side of the sliding rod (20), a convex ring (23) is welded on the cover body (9), and the convex ring (23) is in sliding connection with the hollow cover (5), fixed cover has been connect basin (25) in casing (1), there are end cover (26) lower extreme of basin (25) through threaded connection, opening (27) have been seted up to the lateral wall of basin (25), the lateral wall contact of basin (25) has filter membrane (28), elastic sleeve (29) are cup jointed in the outside of basin (25), elastic sleeve (29) and filter membrane (28) contact, the lateral wall fixed mounting of casing (1) has water pump (30), be provided with suction tube (31) on water pump (30), fixed cover has been cup jointed suction tube (31) in casing (1).

2. The sewage treatment device with high efficiency and low energy consumption according to claim 1, wherein the two guide rods (14) are symmetrically distributed on the hollow cover (5), and the lower ends of the two guide rods (14) are welded with limiting blocks (141).

3. A high efficiency and low energy consumption sewage treatment plant according to claim 1, wherein one end of said spring (16) is in contact with said hollowed-out cover (5), and the other end of said spring (16) is in contact with said baffle (15).

4. A high efficiency and low energy consumption sewage treatment plant according to claim 1, wherein said mounting rods (17) are four, four said mounting rods (17) are uniformly distributed on the baffle (15), and the end of each said mounting rod (17) is welded with a scraping rod (18).

5. A high efficiency and low energy consumption sewage treatment plant according to claim 1, wherein said mounting rod (17) is provided with a slide slot (19), and a slide rod (20) is slidably connected in said slide slot (19).

6. A high efficiency and low energy consumption sewage treatment plant according to claim 1 wherein one end of said compression spring (21) is in contact with said mounting rod (17) and the other end of said compression spring (21) is in contact with said baffle (15).

7. A high efficiency and low energy consumption sewage treatment plant according to claim 1, wherein a stop (22) is welded to the end of the slide bar (20) far from the baffle (15), and the end of the stop (22) near the baffle (15) is in contact with the mounting bar (17).

8. A high-efficiency low-energy-consumption sewage treatment device according to claim 1, wherein the hollow cover (5) is provided with an annular groove (24), and the annular groove (24) is internally and slidably connected with a convex ring (23).

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