CN220976630U - Intelligent high-efficient dephosphorization equipment - Google Patents

Abstract

The utility model provides intelligent efficient dephosphorization equipment, which comprises an integrated equipment shell, wherein the upper part of the integrated equipment shell is connected with a dosing device, a reaction bin is arranged in the integrated equipment shell, sewage enters the integrated reaction equipment through a front-stage lifting water pump or self-flow, the sewage enters the reaction bin through a water inlet pipeline, a reagent is pumped into the reaction bin through the dosing pump, a stirring rotating brush is arranged in the reaction bin, the mixing of the reagent and the sewage is accelerated through the stirring of the rotating brush, so that the mixing effect is better, the reaction is sufficient, then the mixed liquid enters a mud-water separation area through a guide cylinder, a mud-water mixture is dispersed to the periphery through a baffle plate at the bottom of the guide cylinder, the sludge is precipitated to the bottom of a sludge storage bin due to larger specific gravity, the sewage flows upwards, finally the precipitated clear water is discharged after the sludge precipitated to the bottom of a tank reaches a certain liquid level, a sludge pump is controlled to start through a sludge liquid level meter feedback, and the sludge is discharged into a sludge concentration tank.

Description

Intelligent high-efficient dephosphorization equipment

Technical Field

The utility model relates to the technical field of sewage treatment, in particular to intelligent efficient dephosphorization equipment.

Background

The rural sewage mainly comprises rural domestic sewage and rural production wastewater. The rural domestic sewage is mainly sewage generated in the living process of villagers, and the water consumption is directly influenced by factors such as living condition, living habit, solar terms and the like, such as excrement, shower, household kitchen and washing sewage. With the rapid development of economy, rural sewage pollution is urgent, and the country goes out of the way of many policies to strengthen rural domestic sewage treatment.

Many sewage treatment devices appear in the market, get rid of the total phosphorus pollutant in the sewage through modes such as increase dosing reaction tank, sedimentation tank, but because rural domestic sewage treatment water yield is smaller, so many products still design according to original mode when designing, dosing reaction tank and sedimentation tank separate design, moreover there is no agitating unit, medicament and sewage mixing effect are poor, dephosphorization effect is low, design on control system is simpler, need go to operate daily, cause later operation and maintenance expense high.

Publication number CN 212050864U discloses a car washing water recycling device, the control box is arranged at the upper right side outside the box body; the sewage inlet is arranged at the left side of the top of the box body; the sewage inlet and the medicament delivery machine are communicated with the reaction bin; the stirrer is arranged at the top of the reaction bin; the sludge storage chamber is positioned below the reaction bin; one end of the self-priming pump is communicated with the water outlet of the reaction bin, the other end of the self-priming pump is communicated with the inlet of the filtering chamber, the outlet of the filtering chamber is communicated with the clean water storage chamber, the rotary brush on the stirrer is simple in structure, the brush body is small, the medicament and the sewage can not be fully mixed, the sewage flowing path is short, and the sewage reaction effect is not high.

Disclosure of utility model

In view of this, the utility model proposes an intelligent high-efficient dephosphorization apparatus, one side of the said integrated apparatus body 1 has water inlet pipe 2, another side has drain pipe 3, the upper portion of the said integrated apparatus body 1 connects with the dosing device 4, there are reaction chambers 5 in the said integrated apparatus body 1, sewage enters the integrated reaction apparatus through the preceding stage lift water pump or self-flow, the sewage enters the reaction chamber 5 through the water inlet pipe 2, the medicament is pumped into the reaction chamber 5 through the dosing pump 42, have stirred and rotated the brush 61 in the reaction chamber 5, stir and accelerate medicament and sewage mixing through rotating the brush, make the mixing effect better, react fully, then the mixed liquor enters the mud-water separation area through the guide cylinder 7 again, the mud-water mixture is dispersed all around through the baffle 10 of the bottom of the guide cylinder 7, the mud is discharged after the mud is deposited to the bottom of the mud storage chamber 8 because of the proportion is greater, the sewage is up-flowing, the sewage is discharged after the mud deposited to the bottom of the pool reaches certain liquid level through the wave weir 13, the mud level gauge 17 feedback control the mud pump 15 starts, discharge the mud, can realize the mud is concentrated to be discharged into the mud automatically, can realize the intelligent degree higher; the medicine adding reaction bin 5 is arranged in the equipment, so that the occupied area is reduced, the engineering cost is reduced, and the integration degree is higher; through increasing the brush device for medicament and sewage can intensive mixing, have improved treatment efficiency.

An intelligent high-efficiency dephosphorization device, comprising: the integrated equipment casing 1, one side of integrated equipment casing 1 is equipped with inlet tube 2, and the opposite side is equipped with drain pipe 3, the upper portion of integrated equipment casing 1 is connected with charge device 4, its characterized in that: the integrated equipment shell 1 is internally provided with a reaction bin 5, the output end of the dosing device 4 and the output end of the water inlet pipe 2 penetrate through the integrated equipment shell 1 and are arranged in the reaction bin 5, the reaction bin 5 is internally provided with a stirring device 6 for enabling the medicines and the sewage to be fully mixed, the output end of the reaction bin 5 is connected with a guide cylinder 7, the lower part of the guide cylinder 7 is provided with a sludge storage bin 8, and the sludge storage bin 8 is connected with a sludge discharge pipe 9.

In some embodiments, the drug delivery device 4 comprises: the medicine storage barrel 41, the medicine adding pump 42, the medicine sucking pipe 43, the bottom valve 44 and the medicine adding pipe 45, wherein the input end of the medicine sucking pipe 43 penetrates through the medicine storage barrel 41 to be arranged at the bottom of the medicine storage barrel 41 and is connected with the bottom valve 44, and the output end of the medicine sucking pipe 43 penetrates through the integrated equipment shell 1 to be arranged in the reaction bin 5.

Further, the dosing tube 45 is provided with a dosing pump 42 for lifting the liquid medicine in the medicine storage barrel 41 to the reaction bin 5.

Further, the output end of the water inlet pipe 2 is connected with the output end of the dosing pipe 45, so that the sewage entering equipment and the medicament entering equipment have better mixing effect.

In some embodiments, the stirring device 6 comprises: stirring commentaries on classics brush 61, (mixing) shaft 62, agitator motor 63's output is connected (mixing) shaft 62 one end, agitator shaft 62's the other end is connected stirring commentaries on classics brush 61 and is put into reaction bin 5 inside for make medicament and sewage intensive mixing.

In some embodiments, the baffle 10 is disposed at the lower part of the guide cylinder 7, the baffle 10 is welded with the guide cylinder 7, the mud-water mixture is irradiated to the periphery after being impacted by the baffle 10, the sedimentation effect is better, and meanwhile, the accumulated mud at the bottom can not float upwards due to the impact.

In some embodiments, a plurality of folded plates 11 are arranged around the guide cylinder 7, and the folded plates 11 are welded with the guide cylinder 7 or the integrated equipment shell 1, so that the flowing path of sewage is prolonged, the sewage is fully turbulent in the upward flowing process, the sewage turbulent collision effect is improved, the SS removal efficiency is higher, the design load parameter can be improved, and the occupied area is reduced.

In some embodiments, the sludge storage bin 8 is provided with a sludge liquid level probe 12, the sludge pump 15 can be controlled to timely discharge sludge by adding the sludge liquid level meter 17, the effluent SS can reach the discharge standard, meanwhile, the automatic operation capability of the equipment is improved, the investment of operation and maintenance personnel is reduced, and the intelligent degree is higher.

In some embodiments, the upper end of the interior of the integrated equipment shell 1 is connected with a wave water weir 13, the drain pipe 3 is arranged on the wave water weir 13, and the water outlet of the tank body is balanced through the wave water weir 13, so that the drainage is stable and no short flow is caused.

In some embodiments, the output end of the sludge discharge pipe 9 is connected with a sludge discharge device 14, the sludge discharge device 14 comprises a sludge discharge pump 15, one end of the sludge discharge pump 15 is connected with the sludge discharge pipe 9, and the other end is connected with a sludge concentration tank.

Further, the chemical adding device 4, the stirring device 6, the sludge level probe 12 and the sludge discharging device 14 are connected with the control device 16, and work linkage is preset through PLC program setting in the control device 16, and the follow-up equipment automatically operates according to the PLC program.

The beneficial effects of the utility model are as follows: the utility model provides intelligent efficient dephosphorization equipment, one side of an integrated equipment shell 1 is provided with a water inlet pipe 2, the other side is provided with a water outlet pipe 3, the upper part of the integrated equipment shell 1 is connected with a dosing device 4, the integrated equipment shell 1 is internally provided with a reaction bin 5, sewage enters the integrated reaction equipment through a front-stage lifting water pump or automatically, the sewage enters the reaction bin 5 through a water inlet pipe 2, a reagent is pumped into the reaction bin 5 through a dosing pump 42, a stirring rotary brush 61 is arranged in the reaction bin 5, the mixing of the reagent and sewage is accelerated through the stirring of the rotary brush, so that the mixing effect is better, the reaction is sufficient, then the mixed solution enters a mud-water separation area through a guide cylinder 7, a mud-water mixture is dispersed to the periphery through a baffle 10 at the bottom of the guide cylinder 7, the sludge is precipitated to the bottom of a sludge storage bin 8 because of larger specific gravity, the sewage flows upwards, finally the precipitated clean water is discharged after reaching a certain liquid level through a wave water weir 13, a sludge liquid level meter 17 is used for feedback control, a sludge discharge pump 15 is started, and the sludge is discharged into a sludge concentration tank, so that automatic sludge discharge can be operated, and intelligent degree is higher; the medicine adding reaction bin 5 is arranged in the equipment, so that the occupied area is reduced, the engineering cost is reduced, and the integration degree is higher; through increasing the brush device for medicament and sewage can intensive mixing, have improved treatment efficiency.

Drawings

Fig. 1 is a system diagram of the whole intelligent efficient dephosphorization apparatus of the present embodiment.

Fig. 2 is a plan view of the intelligent efficient dephosphorizing apparatus of the present embodiment.

And (3) main component description:

integrated equipment shell	1
		Water inlet pipe	2
Drain pipe	3
		Medicine adding device	4
Medicine storage barrel	41
		Dosing pump	42
Medicine sucking tube	43
		Bottom valve	44
Dosing tube	45
		Reaction bin	5
Stirring device	6
		Stirring rotary brush	61
Stirring shaft	62
		Stirring motor	63
Guide cylinder	7
		Sludge storage bin	8
Mud pipe	9
		Baffle plate	10
Folded plate	11
		Mud liquid level probe	12
Wave water weir	13
		Mud discharging device	14
Sludge pump	15
		Control device	16
Sludge level meter	17

The utility model will be further described in the following detailed description in conjunction with the above-described figures.

Detailed Description

The following examples are described to aid in the understanding of the application and are not, nor should they be construed in any way to limit the scope of the application.

In the following description, those skilled in the art will recognize that components may be described as separate functional units (which may include sub-units) throughout this discussion, but those skilled in the art will recognize that various components or portions thereof may be divided into separate components or may be integrated together (including integration within a single system or component).

Meanwhile, the connection between components or systems is not intended to be limited to a direct connection. Rather, data between these components may be modified, reformatted, or otherwise changed by intermediate components. In addition, additional or fewer connections may be used. It should also be noted that the terms "coupled," "connected," or "input" are to be construed as including direct connection, indirect connection or fixation through one or more intermediaries.

In the description of the present application, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "side", "vertical", "horizontal", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or directions or positional relationships as used or conventionally recognized in the application product are merely for convenience of describing the present application and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance. The terms "horizontal", "vertical" and the like do not denote that the component is required to be absolutely horizontal or overhanging, but may be slightly inclined. As "horizontal" merely means that its direction is more horizontal than "vertical", and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

1-2, Is a system diagram and a plan diagram of the whole intelligent high-efficiency dephosphorization equipment of the utility model.

An intelligent high-efficiency dephosphorization device, comprising: the integrated equipment casing 1, one side of integrated equipment casing 1 is equipped with inlet tube 2, and the opposite side is equipped with drain pipe 3, the upper portion of integrated equipment casing 1 is connected with charge device 4, its characterized in that: the integrated equipment shell 1 is internally provided with a reaction bin 5, the output end of the dosing device 4 and the output end of the water inlet pipe 2 penetrate through the integrated equipment shell 1 and are arranged in the reaction bin 5, the reaction bin 5 is internally provided with a stirring device 6 for enabling the medicines and the sewage to be fully mixed, the output end of the reaction bin 5 is connected with a guide cylinder 7, the lower part of the guide cylinder 7 is provided with a sludge storage bin 8, and the sludge storage bin 8 is connected with a sludge discharge pipe 9.

The dosing device 4 comprises: the medicine storage barrel 41, the medicine adding pump 42, the medicine sucking pipe 43, the bottom valve 44 and the medicine adding pipe 45, wherein the input end of the medicine sucking pipe 43 penetrates through the medicine storage barrel 41 to be arranged at the bottom of the medicine storage barrel 41 and is connected with the bottom valve 44, and the output end of the medicine sucking pipe 43 penetrates through the integrated equipment shell 1 to be arranged in the reaction bin 5.

The dosing pipe 45 is provided with a dosing pump 42 for lifting the liquid medicine in the medicine storage barrel 41 to the reaction bin 5.

The output end of the water inlet pipe 2 is connected with the output end of the dosing pipe 45, so that the sewage entering equipment and the medicament entering equipment are better in mixing effect.

The stirring device 6 includes: stirring commentaries on classics brush 61, (mixing) shaft 62, agitator motor 63's output is connected (mixing) shaft 62 one end, agitator shaft 62's the other end is connected stirring commentaries on classics brush 61 and is put into reaction bin 5 inside for make medicament and sewage intensive mixing.

The baffle 10 is arranged at the lower part of the guide cylinder 7, the baffle 10 is welded with the guide cylinder 7, the mud-water mixture and the baffle 10 are impacted and radiate to the periphery, the sedimentation effect is better, and meanwhile, accumulated mud at the bottom cannot float upwards due to impact.

The baffle plates 11 are arranged around the guide cylinder 7, the baffle plates 11 are welded with the guide cylinder 7 or the integrated equipment shell 1, the flowing path of sewage is prolonged, the sewage is fully turbulent in the upward flowing process, the turbulent collision effect of the sewage is improved, the removal efficiency of SS is higher, design load parameters can be improved, and the occupied area is reduced.

The sludge storage bin 8 is provided with the sludge liquid level probe 12, the sludge pump 15 can be controlled to timely discharge sludge by adding the sludge liquid level meter 17, the effluent SS can reach the discharge standard, the automatic operation capability of equipment is improved, the investment of operation and maintenance personnel is reduced, and the intelligent degree is higher.

The upper end of the inside of the integrated equipment shell 1 is connected with a wave water weir 13, the drain pipe 3 is arranged on the wave water weir 13, and the water is discharged from the tank body through the wave water weir 13, so that the drainage is stable and short flow cannot be caused.

The output end of the sludge discharge pipe 9 is connected with a sludge discharge device 14, the sludge discharge device 14 comprises a sludge discharge pump 15, one end of the sludge discharge pump 15 is connected with the sludge discharge pipe 9, and the other end is connected with a sludge concentration tank.

The dosing device 4, the stirring device 6, the sludge liquid level probe 12 and the sludge discharge device 14 are connected with the control device 16, and work linkage is preset through PLC program setting in the control device 16, and follow-up equipment automatically operates according to the PLC program.

The beneficial effects of the utility model are as follows: the utility model provides intelligent efficient dephosphorization equipment, one side of an integrated equipment shell 1 is provided with a water inlet pipe 2, the other side is provided with a water outlet pipe 3, the upper part of the integrated equipment shell 1 is connected with a dosing device 4, the integrated equipment shell 1 is internally provided with a reaction bin 5, sewage enters the integrated reaction equipment through a front-stage lifting water pump or automatically, the sewage enters the reaction bin 5 through a water inlet pipe 2, a reagent is pumped into the reaction bin 5 through a dosing pump 42, a stirring rotary brush 61 is arranged in the reaction bin 5, the mixing of the reagent and sewage is accelerated through the stirring of the rotary brush, so that the mixing effect is better, the reaction is sufficient, then the mixed solution enters a mud-water separation area through a guide cylinder 7, a mud-water mixture is dispersed to the periphery through a baffle 10 at the bottom of the guide cylinder 7, the sludge is precipitated to the bottom of a sludge storage bin 8 because of larger specific gravity, the sewage flows upwards, finally the precipitated clean water is discharged after reaching a certain liquid level through a wave water weir 13, a sludge liquid level meter 17 is used for feedback control, a sludge discharge pump 15 is started, and the sludge is discharged into a sludge concentration tank, so that automatic sludge discharge can be operated, and intelligent degree is higher; the medicine adding reaction bin 5 is arranged in the equipment, so that the occupied area is reduced, the engineering cost is reduced, and the integration degree is higher; through increasing the brush device for medicament and sewage can intensive mixing, have improved treatment efficiency.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. An intelligent high-efficiency dephosphorization device, comprising: integration equipment casing (1), one side of integration equipment casing (1) is equipped with inlet tube (2), and the opposite side is equipped with drain pipe (3), the upper portion of integration equipment casing (1) is connected with charge device (4), its characterized in that: be equipped with reaction bin (5) in integration equipment casing (1), the output of dosing device (4) and the output of inlet tube (2) all pass integration equipment casing (1) and put into reaction bin (5), be equipped with agitating unit (6) in reaction bin (5) for make medicament and sewage intensive mixing, guide cylinder (7) are connected to the output of reaction bin (5), the lower part of guide cylinder (7) is equipped with mud storage bin (8), mud storage bin (8) are connected with mud pipe (9).

2. The intelligent high-efficiency dephosphorization apparatus of claim 1, wherein: the dosing device (4) comprises: the medicine storage barrel (41), the medicine adding pump (42), the medicine sucking pipe (43), the bottom valve (44) and the medicine adding pipe (45), the input end of the medicine sucking pipe (43) penetrates through the medicine storage barrel (41) to be arranged at the bottom of the medicine storage barrel (41) and is connected with the bottom valve (44), and the output end of the medicine sucking pipe (43) penetrates through the integrated equipment shell (1) to be arranged in the reaction bin (5).

3. The intelligent high-efficiency dephosphorization apparatus of claim 2, wherein: and a dosing pump (42) is arranged on the dosing pipe (45) and is used for lifting the liquid medicine in the medicine storage barrel (41) to the reaction bin (5).

4. The intelligent high-efficiency dephosphorization apparatus of claim 1, wherein: the output end of the water inlet pipe (2) is connected with the output end of the dosing pipe (45).

5. The intelligent high-efficiency dephosphorization apparatus of claim 1, wherein: the stirring device (6) comprises: stirring is changeed brush (61), (mixing) shaft (62), agitator motor (63) output is connected (mixing) shaft (62) one end, stirring is changeed brush (61) and is placed in reaction bin (5) inside in the other end connection of (mixing) shaft (62) for make medicament and sewage intensive mixing.

6. The intelligent high-efficiency dephosphorization apparatus of claim 1, wherein: the lower part of the guide cylinder (7) is provided with a baffle (10), the baffle (10) is welded with the guide cylinder (7), a plurality of folded plates (11) are arranged around the guide cylinder (7), and the folded plates (11) are welded with the guide cylinder (7) or the integrated equipment shell (1).

7. The intelligent high-efficiency dephosphorization apparatus of claim 1, wherein: the sludge storage bin (8) is provided with a sludge liquid level probe (12), and a sludge pump (15) can be controlled to timely discharge sludge by adding a sludge liquid level meter (17).

8. The intelligent high-efficiency dephosphorization apparatus of claim 1, wherein: the upper end of the inside of the integrated equipment shell (1) is connected with a wave water weir (13), and the drain pipe (3) is arranged on the wave water weir (13).

9. The intelligent high-efficiency dephosphorization apparatus of claim 1, wherein: the output end of the sludge discharge pipe (9) is connected with a sludge discharge device (14), the sludge discharge device (14) comprises a sludge discharge pump (15), one end of the sludge discharge pump (15) is connected with the sludge discharge pipe (9), and the other end of the sludge discharge pump is connected with a sludge concentration tank.

10. The intelligent high-efficiency dephosphorization apparatus of claim 7, wherein: the chemical adding device (4), the stirring device (6), the sludge liquid level probe (12) and the sludge discharging device (14) are connected with the control device (16), and work linkage is preset through PLC program setting in the control device (16), and follow-up equipment automatically operates according to the PLC program.