CN219308028U - High-efficient sedimentation tank water installations - Google Patents

Abstract

The utility model relates to a high-efficiency sedimentation tank water inlet device which comprises a stainless steel flow guide pipe with two high ends and a low middle part, wherein a circle of stainless steel water baffle plate surrounding the stainless steel flow guide pipe in the middle is fixedly connected to the outer side of the middle part of the stainless steel flow guide pipe, the stainless steel water baffle plate is arranged in a water drop port between a lifting pump tank and the high-efficiency sedimentation tank, a circle of sealing strips are arranged on the periphery of the stainless steel water baffle plate, and the sealing strips are clamped between the stainless steel water baffle plate and the inner side wall of the water drop port. The beneficial effects are that: the stainless steel guide pipe and the stainless steel water baffle are arranged in the water falling port, so that water flow in the lifting pump pool is prevented from falling into the efficient sedimentation tank directly through the water falling port, and on the other hand, water flow flows into the efficient sedimentation tank in a full pipe state through the stainless steel guide pipe, the impact force of the water flow on the efficient sedimentation tank is reduced, and the influence of water inflow on the sedimentation efficiency of the efficient sedimentation tank is reduced.

Description

High-efficient sedimentation tank water installations

Technical Field

The utility model relates to the technical field of sewage treatment, in particular to a water inlet device of a high-efficiency sedimentation tank.

Background

Because the liquid level of the secondary sedimentation tank is lower than the water level of the high-efficiency sedimentation tank, when water in the secondary sedimentation tank is required to be led into the high-efficiency sedimentation tank, the water in the secondary sedimentation tank is required to be pumped into the lifting pump tank firstly by using the lifting pump, then the water can naturally drop into the high-efficiency sedimentation tank through a water drop port between the lifting pump tank and the high-efficiency sedimentation tank, and because the water inflow is daily 700m < 3 >/h, a water drop phenomenon is caused by large water flow impulsive force, and the sedimentation efficiency of the high-efficiency sedimentation tank is affected.

Disclosure of Invention

The utility model aims to overcome the problems existing in the prior art and provide the efficient sedimentation tank water inlet device.

In order to achieve the technical purpose and the technical effect, the utility model is realized by the following technical scheme:

the utility model provides a high-efficient sedimentation tank water inlet device, includes the high low stainless steel honeycomb duct in middle, the middle part outside rigid coupling of stainless steel honeycomb duct has the round to enclose the stainless steel breakwater in the centre with the stainless steel honeycomb duct, the stainless steel breakwater is installed in the drop mouth between elevator pump pond and the high-efficient sedimentation tank, and the round sealing strip is installed to the periphery of stainless steel breakwater, the sealing strip presss from both sides between the inside wall of stainless steel breakwater and drop mouth.

Further, one side of the stainless steel water baffle, which is close to the efficient sedimentation tank, is provided with an L-shaped stainless steel support plate, one side of the stainless steel water baffle, which is close to the lifting pump tank, is provided with an L-shaped stainless steel connecting plate, the horizontal part of the stainless steel support plate and the horizontal part of the stainless steel connecting plate are installed at the bottom end of the water falling port through fasteners, and the stainless steel water baffle is clamped between the vertical part of the stainless steel support plate and the vertical part of the stainless steel connecting plate.

The vertical part of the stainless steel connecting plate is connected with the stainless steel water baffle and the wall of the lifting pump pool respectively through fasteners.

The periphery of the stainless steel water baffle is provided with a circle of sealing strip clamping grooves, the mounting part of the sealing strip is clamped in the sealing strip clamping grooves, and the sealing part of the sealing strip is exposed out of the sealing strip clamping grooves.

The cross section of the stainless steel honeycomb duct is rectangular or circular.

The stainless steel guide pipe stretches into the bottom end of the pipe orifice in the lifting pump pool and is higher than the bottom end of the stainless steel water baffle, and the bottom end of the pipe orifice in the stainless steel guide pipe stretches into the efficient sedimentation pool and is lower than the bottom end of the stainless steel water baffle.

The beneficial effects of the utility model are as follows: the stainless steel guide pipe and the stainless steel water baffle are arranged in the water falling port, so that water flow in the lifting pump pool is prevented from falling into the efficient sedimentation tank directly through the water falling port, and on the other hand, water flow flows into the efficient sedimentation tank in a full pipe state through the stainless steel guide pipe, the impact force of the water flow on the efficient sedimentation tank is reduced, and the influence of water inflow on the sedimentation efficiency of the efficient sedimentation tank is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a schematic view of a water inlet device installed in a water falling port;

FIG. 2 is a schematic view of the water inlet device of the present utility model;

FIG. 3 is a schematic view of the combination of a stainless steel draft tube and a stainless steel baffle plate according to the present utility model;

FIG. 4 is a schematic view of the seal strip of the present utility model in a cut-away configuration;

the reference numerals in the figures illustrate: the high-efficiency sedimentation tank comprises a lifting pump tank 100, a high-efficiency sedimentation tank 200, a water drop port 300, a stainless steel guide pipe 1, a stainless steel water baffle 2, sealing strips 3, a stainless steel support plate 4, a stainless steel connecting plate 5, sealing strip clamping grooves 6, an installation part 3a and a sealing part 3b.

Detailed Description

The utility model will be described in detail below with reference to the drawings in combination with embodiments.

As shown in fig. 1 to 4, a high-efficiency sedimentation tank water inlet device comprises a stainless steel guide pipe 1 with a high middle and two low ends, wherein a circle of stainless steel water baffle plates 2 surrounding the stainless steel guide pipe in the middle are fixedly connected to the outer side of the middle of the stainless steel guide pipe 1, and the stainless steel water baffle plates 2 are arranged in a water drop port 300 between a lifting pump tank 100 and a high-efficiency sedimentation tank 200; the bottom end of the pipe orifice of the stainless steel flow guide pipe 1 extending into the lift pump tank 100 is higher than the bottom end of the stainless steel water baffle 2, and the bottom end of the pipe orifice of the stainless steel flow guide pipe 1 extending into the efficient sedimentation tank 200 is lower than the bottom end of the stainless steel water baffle 2.

The periphery installation round sealing strip 3 of stainless steel breakwater 2, the periphery of stainless steel breakwater 2 is equipped with round sealing strip draw-in groove 6, and the installation department 3a card of sealing strip 3 is in sealing strip draw-in groove 6, and the sealing part 3b of sealing strip 3 exposes in the outside of sealing strip draw-in groove 6. The sealing strip 3 is clamped between the stainless steel water baffle 2 and the inner side wall of the water drop port 200.

An L-shaped stainless steel support plate 4 is arranged on one side, close to the high-efficiency sedimentation tank 200, of the stainless steel water baffle 2, an L-shaped stainless steel connecting plate 5 is arranged on one side, close to the lifting pump tank 100, of the stainless steel water baffle 2, the horizontal part of the stainless steel support plate 4 and the horizontal part of the stainless steel connecting plate 5 are arranged at the bottom end of the water falling port 300 by fasteners, and the stainless steel water baffle 2 is clamped between the vertical part of the stainless steel support plate 4 and the vertical part of the stainless steel connecting plate 5; the upright parts of the stainless steel connecting plates 5 are respectively connected with the stainless steel water baffle 2 and the tank wall of the lift pump tank 100 by fasteners; the stainless steel supporting plate 4 is matched with the stainless steel connecting plate 5 to fix the stainless steel water baffle in the water falling port 300.

The stainless steel flow guide pipe 1 and the stainless steel water baffle 2 are arranged in the water drop port 300, so that on one hand, water in the lift pump tank 100 is prevented from directly falling into the high-efficiency sedimentation tank 200 through the water drop port 300, and on the other hand, water flows into the high-efficiency sedimentation tank 200 in a full pipe state through the stainless steel flow guide pipe 1, the impact force of the water on the high-efficiency sedimentation tank 200 is reduced, and the influence of water inflow on the sedimentation efficiency of the high-efficiency sedimentation tank 200 is reduced.

The cross section of the stainless steel flow guiding pipe 1 in the embodiment is rectangular. In addition, the cross section of the stainless steel flow guiding pipe 1 can be round.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (6)

1. The utility model provides a high-efficient sedimentation tank water installations which characterized in that: the stainless steel guide pipe is characterized by comprising a stainless steel guide pipe with two high ends and two low ends in the middle, wherein the outer side of the middle of the stainless steel guide pipe is fixedly connected with a circle of stainless steel water baffle plate which surrounds the stainless steel guide pipe in the middle, the stainless steel water baffle plate is arranged in a water drop port between a lifting pump pool and a high-efficiency sedimentation tank, a circle of sealing strip is arranged on the periphery of the stainless steel water baffle plate, and the sealing strip is clamped between the stainless steel water baffle plate and the inner side wall of the water drop port.

2. The water inlet device of claim 1, wherein: the stainless steel water baffle is provided with the stainless steel backup pad of L type on one side that is close to high-efficient sedimentation tank, one side that is close to the elevator pump pond of stainless steel water baffle is provided with the stainless steel connecting plate of L type, the bottom at the water fall is installed with the fastener to the horizontal part of stainless steel backup pad and the horizontal part of stainless steel connecting plate, stainless steel water baffle presss from both sides between the upright portion of stainless steel backup pad and the upright portion of stainless steel connecting plate.

3. The water inlet device of claim 2, wherein: the upright parts of the stainless steel connecting plates are respectively connected with the stainless steel water baffle and the tank wall of the lifting pump tank by fasteners.

4. The water inlet device of claim 1, wherein: the periphery of stainless steel breakwater is equipped with round sealing strip draw-in groove, the installation department card of sealing strip is in the sealing strip draw-in groove, the sealing portion of sealing strip exposes in the outside of sealing strip draw-in groove.

5. The water inlet device of claim 1, wherein: the cross section of the stainless steel honeycomb duct is rectangular or circular.

6. The water inlet device of claim 1, wherein: the bottom end of the pipe orifice of the stainless steel flow guide pipe extending into the lifting pump pool is higher than the bottom end of the stainless steel water baffle, and the bottom end of the pipe orifice of the stainless steel flow guide pipe extending into the efficient sedimentation pool is lower than the bottom end of the stainless steel water baffle.

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