CN113336399B - Multifunctional landscape water treatment device and application method thereof - Google Patents

Abstract

The invention discloses a multifunctional landscape water treatment device and a use method thereof, wherein the multifunctional landscape water treatment device comprises a treatment cavity, wherein a filter frame plate, a slow flow area and a filler degradation area are sequentially arranged in the treatment cavity from top to bottom; a plurality of bearing seats for supporting the filter frame plates are uniformly distributed on the inner wall of the treatment cavity in a circle, a filter screen which can be detached and replaced is arranged on the filter frame plates, and the filter frame plates are matched with the filter screen to filter and remove suspended matters, insoluble matters and stone particles in the sewage; the filler degradation zone is used for degrading organic matters in sewage. The multifunctional landscape water treatment device is characterized in that a screw is horizontally arranged between a slow flow area and a filtering frame plate, a plurality of spiral blades which can be spirally formed are uniformly arranged on the screw, sludge in sewage is precipitated and suspended matters are flocculated under the action of alum or flocculant, and at the moment, the spiral blades are matched with the screw to play a conveying role so as to convey the precipitated sludge and the flocculated suspended matters; and (5) carrying out secondary treatment on the sewage.

Description

Multifunctional landscape water treatment device and application method thereof

Technical Field

The invention relates to a multifunctional landscape water treatment device and a use method thereof.

Background

The reasons for pollution of landscape water are mainly that the landscape water is a pool of dead water, has no fluidity, has poor reoxygenation capability and weak biological oxidation capability of organic matters, so that the self-cleaning capability of water is poor. 2. Is an external pollution such as garbage, scraps, flying dust, leaves, pollutants brought by rainwater and other wastewater discharged, etc., and the substances are rotted, diffused, dissolved and precipitated in water, and a large amount of organic matters are generated or directly brought into the water, so that the water quality is further deteriorated. Thirdly, the organism for purifying the water quality in the landscape water body is single, and a corresponding biological chain is not formed, so that the organism with purifying capability is difficult to grow. Fourthly, the endogenous pollution of the landscape water, a plurality of original harmless substances enter the water body to sink into the bottom mud, and after a period of time, the harmless substances react chemically to generate harmful pollutant substances, so that the water body is further deteriorated.

The traditional landscape water treatment device can be rarely provided with a filtering area, a slow flow area and a filler degradation area at the same time, so that the device is easy to damage by filtering out stone particles, the sediment is not precipitated, the sludge discharge water quality is poor, the later operation management cost is high, and the sewage with high dissolved oxygen is difficult to obtain without degrading organic matters in the sewage.

Disclosure of Invention

The invention aims to provide a multifunctional landscape water treatment device and a use method thereof, which are used for solving the problems that the landscape water treatment device provided in the background technology is rarely provided with a filtering area, a slow flow area and a filler degradation area at the same time, the equipment is easy to damage due to the fact that stone particles are filtered out, the quality of sediment-free sludge discharge water is poor, the later operation management cost is high, and the sewage with high dissolved oxygen is difficult to obtain due to the fact that organic matters in the sewage are not degraded.

In order to achieve the above purpose, the present invention provides the following technical solutions: a multifunctional landscape water treatment device and a use method thereof comprise a treatment cavity, wherein a filter frame plate, a slow flow area and a filler degradation area are sequentially arranged in the treatment cavity from top to bottom;

a plurality of bearing seats for supporting the filter frame plates are uniformly distributed on the inner wall of the treatment cavity in a circle, a filter screen which can be detached and replaced is arranged on the filter frame plates, and the filter frame plates are matched with the filter screen to filter and remove suspended matters, insoluble matters and stone particles in the sewage;

the slow flow area is used for slowing down the flowing and penetrating speed of sewage to the filler degradation area, a screw is horizontally arranged in the treatment cavity and between the slow flow area and the filtering frame plate, a plurality of spiral blades are uniformly arranged on the screw, a sewage drain pipe is arranged on the outer wall of one side of the treatment cavity, one end of the screw penetrates through the treatment cavity and stretches into the sewage drain pipe, and a sewage drain outlet is formed in the sewage drain pipe;

the filler degradation zone is used for degrading organic matters in the sewage;

the bottom of the treatment cavity is horizontally provided with a water outlet pipe, and the water outlet pipe is provided with a water outlet.

Preferably, the filler degradation zone comprises a first filler zone, a second filler zone, a third filler zone and a fourth filler zone, wherein the first filler zone is a mixed filler, the second filler zone is an ozone reaction filler, the third filler zone is an ozone destruction-dephosphorization filler, and the fourth filler zone is a bioreaction filler.

Preferably, the top of the processing cavity is provided with an upper lifting cover, a water inlet pipe penetrates through the upper lifting cover, one end of the water inlet pipe stretches into the processing cavity, and the other end of the water inlet pipe is provided with a water inlet.

Preferably, an upper supporting plate for supporting a clamp water inlet pipe is arranged on the outer wall of one side of the treatment cavity away from the sewage pipe, a lower supporting plate is arranged below the upper supporting plate, the upper supporting plate is connected with the lower supporting plate through telescopic rods, and one telescopic rod is arranged at each of four corners of the lower supporting plate.

Preferably, one end of the water inlet pipe with a water inlet sequentially penetrates through the upper support plate and the lower support plate, and a section of water inlet pipe arranged between the upper support plate and the lower support plate is arranged to be a telescopic pipe.

Preferably, a foam board with a density less than that of water is embedded in the bottom surface of the lower support board.

Preferably, at least one pull rod is arranged on the inner wall of the filter frame plate.

Preferably, a motor is arranged at one end of the screw close to the sewage drain pipe, and the output end of the motor is connected with the screw through a coupler.

Preferably, the drain is located at one end of the drain pipe where the motor is located, and the spiral blade on the screw rod is formed in a spiral mode towards one end of the drain pipe where the drain is located.

The application method of the multifunctional landscape water treatment device comprises the following steps:

(A) Installing and positioning; transporting the whole device to the vicinity of a landscape pool to be treated and placing the device stably, so that a water outlet is aligned to the inside of the landscape pool;

(B) Adjusting the depth of the water inlet extending into the landscape water; observing and determining the water level of the landscape water to be extracted, and then stretching or compressing the telescopic rod to adjust the height position of the lower support plate, so that the lower support plate floats on the water surface and the water inlet extends into the landscape water;

(C) Filtering; the sewage in the landscape pool enters the treatment cavity through the water inlet pipe and then passes through the filter screen on the filter frame plate to filter and screen suspended matters, insoluble matters and stone particles in the sewage;

(D) Flocculation; alum or flocculant is added into the filtered sewage to make the sludge in the sewage precipitate and suspended matters flocculate;

(E) Discharging sludge; starting a motor to drive a screw rod to rotate, and spirally forming spiral blades on the motor to be matched with a sewage drain pipe to discharge the precipitated sludge and flocculated suspended matters from a sewage drain;

(F) Degrading organic matters in the sewage; e, enabling the sewage after the step E to flow to a filler degradation area through a slow flow area, and degrading organic matters in the sewage through a first filler area, a second filler area, a third filler area and a fourth filler area in sequence;

(G) And F, discharging the treated landscape water, wherein the landscape water degraded in the step F flows through a water outlet pipe, is discharged from a water outlet and finally enters a landscape pool.

Compared with the prior art, the invention has the advantages that:

1. the invention is provided with the filter frame plate, the filter frame plate is provided with the detachable and replaceable filter screen, and the filter frame plate is matched with the filter screen to filter and remove suspended matters, insoluble matters and stone particles in the sewage, so that the sewage can be pretreated, the difficulty and the strength of post-treatment are reduced, and the damage of stones in the sewage to equipment can be avoided;

2. the invention horizontally sets a screw between the slow flow area and the filtering frame plate, and a plurality of spiral blades which can be formed by spiral are evenly set on the screw, under the action of alum or flocculating agent, the mud sediment and suspended matters in the sewage flocculate, at the moment, the spiral blades cooperate with the screw to play a role in conveying the mud sediment and the flocculated suspended matters; carrying out secondary treatment on sewage;

3. the invention is provided with the filler degradation zone for degrading organic matters in the sewage, and the first filler zone is a mixed filler, so that the sewage and ozone organic matters in the sewage can be fully and uniformly mixed; the second filler area is an ozone reaction filler, ozone enters the ozone reaction filler, and fully reacts with sewage in the layer, so that on one hand, macromolecular organic matters are oxidized into small molecules, and on the other hand, part of organic matters can be mineralized, and the organic matters are degraded to a large extent; the third filler region is an ozone disruption-dephosphorization filler; residual ozone in the sewage is destroyed at the ozone destruction-dephosphorization filling and converted into oxygen; the fourth filler zone is a biological reaction filler, sewage containing higher dissolved oxygen and oxygen enter the biological reaction filler, and microorganisms can grow better in the filler zone.

Drawings

FIG. 1 is a schematic diagram of the overall front view structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1A according to the present invention;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1B according to the present invention;

fig. 4 is an enlarged view of the structure of fig. 1 at C according to the present invention.

In the figure: 1. a processing chamber; 11. lifting the cover; 12. an upper support plate; 121. a lower support plate; 122. a telescopic rod; 2. a water inlet pipe; 21. a water inlet; 3. a filter frame plate; 31. a pull rod; 32. a bearing seat; 4. a screw; 41. a motor; 5. spiral leaves; 6. a blow-down pipe; 61. a sewage outlet; 7. a slow flow region; 8. a filler degradation zone; 81. a first packing region; 82. a second packing region; 83. a third packing region; 84. a fourth packing region; 9. a water outlet pipe; 91. and a water outlet.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-4, the present invention provides a technical solution: a multifunctional landscape water treatment device and a use method thereof comprise a treatment cavity 1, wherein a filter frame plate 3, a slow flow area 7 and a filler degradation area 8 are sequentially arranged in the treatment cavity 1 from top to bottom;

the inner wall of the treatment cavity 1 is uniformly distributed with a plurality of bearing seats 32 for supporting the filter frame plates 3, the filter frame plates 3 are provided with detachable and replaceable filter screens, the filter frame plates 3 are matched with the filter screens for filtering suspended matters, insoluble matters and stone particles in the sewage, the filter frame plates 3 are provided with the filter frame plates 3, the filter frame plates 3 are matched with the filter screens for filtering suspended matters, insoluble matters and stone particles in the sewage, the sewage can be pretreated, the difficulty and the strength of post treatment are reduced, and the damage of stones in the sewage to equipment can be avoided;

the slow flow area 7 is used for slowing down the flowing and penetrating speed of sewage to the filler degradation area 8, a screw 4 is horizontally arranged in the treatment cavity 1 and between the slow flow area 7 and the filter frame plate 3, a plurality of spiral blades 5 are uniformly arranged on the screw 4, a drain pipe 6 is arranged on the outer wall of one side of the treatment cavity 1, one end of the screw 4 penetrates through the treatment cavity 1 and stretches into the drain pipe 6, a drain outlet 61 is formed in the drain pipe 6, sludge in the sewage is precipitated and suspended matters are flocculated under the action of alum or flocculant, and at the moment, the spiral blades 5 play a conveying role in cooperation with the screw 4 so as to convey the precipitated sludge and the flocculated suspended matters; carrying out secondary treatment on sewage;

the filler degradation zone 8 is used for degrading organic matters in the sewage;

the bottom of the treatment cavity 1 is horizontally provided with a water outlet pipe 9, and the water outlet pipe 9 is provided with a water outlet 91.

Further, the filler degradation zone 8 comprises a first filler zone 81, a second filler zone 82, a third filler zone 83 and a fourth filler zone 84, wherein the first filler zone 81 is a mixed filler, the second filler zone 82 is an ozone reaction filler, the third filler zone 83 is an ozone destruction-dephosphorization filler, and the fourth filler zone 84 is a biological reaction filler, and the first filler zone 81 is a mixed filler, so that sewage and ozone organic matters in the sewage can be fully and uniformly mixed; the second filler zone 82 is an ozone reaction filler, and ozone enters the ozone reaction filler to fully react with sewage in the layer, so that macromolecular organic matters are oxidized into small molecules on one hand, and partial organic matters can be mineralized on the other hand, and the organic matters are degraded to a large extent; the third packing region 83 is an ozone destruction-dephosphorization packing; residual ozone in the sewage is destroyed at the ozone destruction-dephosphorization filling and converted into oxygen; the fourth packing region 84 is a bioreaction packing where microorganisms can grow better as the higher dissolved oxygen containing wastewater and oxygen enter the bioreaction packing.

Further, the top of the treatment cavity 1 is provided with the upper lifting cover 11, and the upper lifting cover 11 is penetrated to be provided with the water inlet pipe 2, one end of the water inlet pipe 2 stretches into the treatment cavity 1, and the other end of the water inlet pipe 2 is provided with the water inlet 21, so that the water inlet pipe 2 is convenient for sucking polluted landscape water into the treatment cavity 1 more quickly, and the water treatment efficiency is improved.

Further, be provided with the upper support plate 12 that support clamp inlet tube 2 was used on the outer wall of one side that processing chamber 1 kept away from blow off pipe 6, and the below of upper support plate 12 is provided with down the backup pad 121, is connected through telescopic link 122 between upper support plate 12 and the lower support plate 121, and telescopic link 122 respectively sets up one in the four corners department of lower support plate 121, makes lower support plate 121 put into the surface of water and float the time more steadily stable, avoids lower support plate 121 to appear the condition of turning on one's side at the surface of water.

Further, one end of the water inlet pipe 2 with the water inlet 21 sequentially penetrates through the upper support plate 12 and the lower support plate 121, a section of the water inlet pipe 2 arranged between the upper support plate 12 and the lower support plate 121 is arranged to be a telescopic pipe, and the telescopic pipe can be better matched with the extension and compression of the telescopic rod 122 in an auxiliary mode so as to better adjust the lower support plate 121 to be flush with the water surface according to the water level of sewage.

Further, the foam board with density smaller than that of water is embedded in the bottom surface of the lower support board 121, so that the lower support board 121 is lighter in weight, and is convenient to float on the water surface, and other applicable boards with density smaller than that of water and capable of floating on the water surface can be selected.

Further, the inner wall of the filter frame plate 3 is provided with at least one pull rod 31, which is convenient for the filter frame plate 3 to be pulled up and put down.

Further, a motor 41 is arranged at one end of the screw 4 close to the sewage drain pipe 6, and the output end of the motor 41 is connected with the screw 4 through a coupler.

Further, the drain 61 is located at one end of the drain 6 where the motor 41 is located, the spiral blade 5 on the screw 4 is formed in a spiral manner towards one end of the drain 6 where the drain 61 is located, and the spiral blade 5 cooperates with the screw 4 to perform a conveying function for conveying out precipitated sludge and flocculated suspended matters.

The application method of the multifunctional landscape water treatment device comprises the following steps:

(A) Installing and positioning; transporting the whole device to the vicinity of a landscape pool to be treated and placing the whole device stably, so that the water outlet 91 is aligned to the inside of the landscape pool;

(B) Adjusting the depth of the water inlet 21 extending into the landscape water; observing and determining the level of the landscape water to be extracted, and then adjusting the height position of the lower support plate 121 by stretching or compressing the telescopic rod 122 so that the lower support plate 121 floats on the water surface and the water inlet 21 extends into the landscape water;

(C) Filtering; the sewage in the landscape pool enters the treatment cavity 1 through the water inlet pipe 2 and then passes through the filter screen on the filter frame plate 3 to filter and screen suspended matters, insoluble matters and stone particles in the sewage;

(D) Flocculation; alum or flocculant is added into the filtered sewage to make the sludge in the sewage precipitate and suspended matters flocculate;

(E) Discharging sludge; starting a motor 41 to drive a screw 4 to rotate, and spirally forming a spiral blade 5 on the motor, and discharging the precipitated sludge and flocculated suspended matters from a sewage outlet 61 together with a sewage pipe 6;

(F) Degrading organic matters in the sewage; the sewage after the step E flows to a filler degradation zone 8 through a slow flow zone 7, and organic matters in the sewage are degraded through a first filler zone 81, a second filler zone 82, a third filler zone 83 and a fourth filler zone 84 in sequence;

(G) And F, discharging the treated landscape water, wherein the landscape water degraded in the step F flows through the water outlet pipe 9, is discharged from the water outlet 91 and finally enters the landscape water pool.

Although embodiments of the present invention 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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. A multifunctional landscape water treatment device is characterized in that: the device comprises a processing cavity (1), wherein a filtering frame plate (3), a slow flow area (7) and a filler degradation area (8) are sequentially arranged in the processing cavity (1) from top to bottom;

a plurality of bearing seats (32) for supporting the filter frame plates (3) are uniformly distributed on the inner wall of the treatment cavity (1), a detachable filter screen is arranged on the filter frame plates (3), and the filter frame plates (3) are matched with the filter screen to filter and remove suspended matters, insoluble matters and stone particles in sewage;

the slow flow area (7) is used for slowing down the flowing and penetrating speed of sewage to the filler degradation area (8), a screw (4) is horizontally arranged in the treatment cavity (1) between the slow flow area (7) and the filter frame plate (3), a plurality of spiral blades (5) are uniformly arranged on the screw (4), a sewage draining pipe (6) is arranged on the outer wall of one side of the treatment cavity (1), one end of the screw (4) penetrates through the treatment cavity (1) and stretches into the sewage draining pipe (6), and a sewage draining outlet (61) is formed in the sewage draining pipe (6);

the filler degradation zone (8) is used for degrading organic matters in sewage;

a water outlet pipe (9) is horizontally arranged at the bottom of the treatment cavity (1), and a water outlet (91) is formed in the water outlet pipe (9);

the filler degradation zone (8) comprises a first filler zone (81), a second filler zone (82), a third filler zone (83) and a fourth filler zone (84), wherein the first filler zone (81) is a mixed filler, the second filler zone (82) is an ozone reaction filler, the third filler zone (83) is an ozone destruction-dephosphorization filler and the fourth filler zone (84) is a biological reaction filler;

the top of the treatment cavity (1) is provided with an upper lifting cover (11), a water inlet pipe (2) penetrates through the upper lifting cover (11), one end of the water inlet pipe (2) stretches into the treatment cavity (1), and the other end of the water inlet pipe (2) is provided with a water inlet (21);

an upper supporting plate (12) for supporting a clamp water inlet pipe (2) is arranged on the outer wall of one side, far away from a sewage pipe (6), of the treatment cavity (1), a lower supporting plate (121) is arranged below the upper supporting plate (12), the upper supporting plate (12) is connected with the lower supporting plate (121) through telescopic rods (122), and the telescopic rods (122) are respectively arranged at four corners of the lower supporting plate (121);

one end of the water inlet pipe (2) with a water inlet (21) sequentially penetrates through the upper support plate (12) and the lower support plate (121), and a section of the water inlet pipe (2) arranged between the upper support plate (12) and the lower support plate (121) is arranged to be a telescopic pipe;

a foam plate with density less than that of water is embedded in the bottom surface of the lower supporting plate (121);

the inner wall of the filter frame plate (3) is provided with at least one pull rod (31);

a motor (41) is arranged at one end of the screw (4) close to the sewage drain pipe (6), and the output end of the motor (41) is connected with the screw (4) through a coupler;

the drain outlet (61) is positioned at one end of the drain pipe (6) provided with the motor (41), and the spiral blade (5) on the screw (4) is spirally formed towards one end of the drain pipe (6) provided with the drain outlet (61);

the application method of the multifunctional landscape water treatment device comprises the following steps:

(A) Installing and positioning; transporting the whole device to the vicinity of a landscape pool to be treated and placing the whole device stably, so that a water outlet (91) is aligned to the inside of the landscape pool;

(B) Adjusting the depth of the water inlet (21) extending into the landscape water; observing and determining the level of the landscape water to be extracted, and then adjusting the height position of the lower support plate (121) by stretching or compressing the telescopic rod (122) so that the lower support plate (121) floats on the water surface and the water inlet (21) stretches into the landscape water;

(C) Filtering; sewage in the landscape pool enters the treatment cavity (1) through the water inlet pipe (2), and suspended matters, insoluble matters and stone particles in the sewage are filtered and screened out through the filter screen on the filter frame plate (3);

(D) Flocculation; adding a flocculating agent into the filtered sewage to cause sludge in the sewage to precipitate and suspended matters to flocculate;

(E) Discharging sludge; starting a motor (41) to drive a screw (4) to rotate, and spirally forming a spiral blade (5) on the motor to be matched with a sewage drain pipe (6) to discharge the precipitated sludge and flocculated suspended matters from a sewage drain port (61);

(F) Degrading organic matters in the sewage; the sewage after the step (E) flows to a filler degradation zone (8) through a slow flow zone (7), and organic matters in the sewage are degraded through a first filler zone (81), a second filler zone (82), a third filler zone (83) and a fourth filler zone (84) in sequence;

(G) And (3) discharging the treated landscape water, wherein the landscape water degraded in the step (F) flows through a water outlet pipe (9) and is discharged from a water outlet (91) to finally enter a landscape pool.

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