CN216395362U - Sedimentation tank convenient to detect sediment situation - Google Patents

Abstract

The utility model discloses a sedimentation tank convenient for detecting sedimentation conditions, which belongs to the technical field of sedimentation tanks and comprises a tank body, wherein the tank body is respectively divided into a sewage bin, a flow guide bin, an inclined tube sedimentation bin and an overflow water collecting bin; according to the utility model, the sample tube is inserted into the fixed tube, when the end part of the sample tube protrudes out of the end part of the fixed tube, the sealing cover is separated from the fixed tube and is magnetically adsorbed on the end part of the sample tube, liquid enters the sample tube from the water inlet holes on the two sides of the sample tube, the sample tube is extracted, when the sample tube retracts into the fixed tube, the sealing cover is separated from the sample tube, then the sealing cover is magnetically adsorbed on the end part of the fixed tube, so that the fixed tube is isolated from the liquid environment in the cell body, the liquid is poured out from the water inlet hole of the sample tube for detection, the layered sampling can be conveniently carried out on the interior of the cell body from the exterior of the cell body, and the sedimentation condition can be conveniently monitored in real time.

Description

Sedimentation tank convenient to detect sediment situation

Technical Field

The utility model belongs to the technical field of sedimentation tanks, and particularly relates to a sedimentation tank convenient for detecting sedimentation conditions.

Background

The inclined tube sedimentation tank is a sedimentation tank with an inclined tube arranged in a sedimentation area. The assembly form includes two types of inclined pipes and branch pipes. The settling area of horizontal or vertical settling pond is divided into a series of shallow settling layers by inclined parallel pipes or parallel pipelines, and the treated and settled sludge moves and separates from each other in each shallow settling layer.

At present, honeycomb filter equipment is often filled in the pipe chute settling zone of sedimentation tank, and honeycomb filter equipment causes the interference to the sample to can't detect the sediment situation in the sedimentation tank.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: the settling pond convenient to detect the settling condition is provided in order to solve the problem that the settling condition is inconvenient to monitor in real time due to interference of a honeycomb filtering device on sampling.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a sedimentation tank convenient to detect and deposit situation, its includes the cell body, divide into sewage storehouse, water conservancy diversion storehouse, pipe chute sediment storehouse and overflow sump pit in the cell body respectively, communicate each other between each bin, one side of cell body is provided with the inlet tube, the inlet tube intercommunication the sewage storehouse, the opposite side of cell body is provided with the outlet pipe, the outlet pipe intercommunication the overflow sump pit, be provided with a plurality of sampling mechanism on the cell body, sampling mechanism communicates the inside in pipe chute sediment storehouse.

As a further description of the above technical solution:

at least two groups of mixing stirrers are arranged on the tank body, and the mixing stirrers extend into the sewage bin.

As a further description of the above technical solution:

the plurality of sampling mechanisms are arranged along the vertical direction.

As a further description of the above technical solution:

the sampling mechanism comprises a fixed pipe, a sample pipe and a sealing cover, wherein the fixed pipe is fixedly installed on the pool body, the fixed pipe extends into the inclined pipe settling bin, the sample pipe is a sealed hollow pipe, the sample pipe is slidably arranged in the fixed pipe, the sealing cover is magnetically adsorbed to the sample pipe, the sealing cover is magnetically adsorbed to the fixed pipe, the sealing cover is blocked to the fixed pipe, the sealing cover is located in the inclined pipe settling bin, and a water inlet is formed in the side face of the sample pipe.

As a further description of the above technical solution:

the outer wall of the sample tube is provided with a first sealing ring, and a second sealing ring is arranged between the sealing cover and the end part of the fixed tube.

As a further description of the above technical solution:

the closing cap is the magnetic sheet, fixed pipe with the sample cell all is magnetic metal pipe.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

according to the utility model, the sample tube is inserted into the fixed tube, when the end part of the sample tube protrudes out of the end part of the fixed tube, the sealing cover is separated from the fixed tube and is magnetically adsorbed on the end part of the sample tube, liquid enters the sample tube from the water inlet holes on the two sides of the sample tube, the sample tube is extracted, when the sample tube retracts into the fixed tube, the sealing cover is separated from the sample tube, then the sealing cover is magnetically adsorbed on the end part of the fixed tube, so that the fixed tube is isolated from the liquid environment in the cell body, the sample tube is smoothly taken out, and the liquid is poured out from the water inlet hole of the sample tube for detection, so that the layered sampling can be conveniently carried out on the interior of the cell body from the exterior of the cell body, and the sedimentation condition can be conveniently monitored in real time.

Drawings

Fig. 1 is a top view of a settling tank that facilitates detection of settling conditions.

Fig. 2 is a schematic view of the internal structure of a settling tank for facilitating detection of settling conditions.

Fig. 3 is a schematic structural diagram of a sampling mechanism in a sedimentation tank for facilitating detection of sedimentation conditions.

Fig. 4 is a reference diagram of the use state of fig. 3.

Fig. 5 is a schematic view of the internal structure of a settling tank for facilitating detection of settling conditions.

Fig. 6 is a partially enlarged view of a portion a in fig. 5.

Illustration of the drawings:

1. a tank body; 2. a sewage bin; 3. a diversion bin; 4. an inclined tube settling bin; 5. an overflow water collecting bin; 6. a water inlet pipe; 7. a water outlet pipe; 8. a sampling mechanism; 81. a fixed tube; 82. a sample tube; 83. sealing the cover; 9. a mixing stirrer; 10. a water inlet hole; 11. a first seal ring; 12. a second seal ring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a sedimentation tank convenient for detecting sedimentation conditions comprises a tank body 1, wherein the tank body 1 is divided into a sewage bin 2, a diversion bin 3, an inclined tube sedimentation bin 4 and an overflow water collecting bin 5, all the bins are communicated with one another, one side of the tank body 1 is provided with a water inlet pipe 6, the water inlet pipe 6 is communicated with the sewage bin 2, the other side of the tank body 1 is provided with a water outlet pipe 7, the water outlet pipe 7 is communicated with the overflow water collecting bin 5, the tank body 1 is provided with a plurality of sampling mechanisms 8, and the sampling mechanisms 8 are communicated with the interior of the inclined tube sedimentation bin 4;

at least two groups of mixing stirrers 9 are arranged on the tank body 1, the mixing stirrers 9 extend into the sewage bin 2, and have mixing and stirring effects on sewage, so that the sewage uniformly flows into other bins;

the plurality of sampling mechanisms 8 are arranged in the vertical direction, and can detect liquids of different precipitation levels;

the sampling mechanism 8 comprises a fixed pipe 81, a sample pipe 82 and a sealing cover 83, the fixed pipe 81 is fixedly installed on the cell body 1, the fixed pipe 81 extends into the inclined pipe settling bin 4, the sample pipe 82 is a sealed hollow pipe, the sample pipe 82 is slidably arranged in the fixed pipe 81, the sealing cover 83 magnetically adsorbs the sample pipe 82, the sealing cover 83 magnetically adsorbs the fixed pipe 81, the sealing cover 83 blocks the fixed pipe 81, the sealing cover 83 is positioned in the inclined pipe settling bin 4, the side surface of the sample pipe 82 is provided with a water inlet hole 10, the sample pipe 82 is inserted into the fixed pipe 81, when the end part of the sample pipe 82 protrudes out of the end part of the fixed pipe 81, the sealing cover 83 is magnetically adsorbed on the end part of the sample pipe 82, liquid enters the sample pipe 82 from the water inlet holes 10 at two sides of the sample pipe 82, and after sampling is completed, the sample pipe 82 is extracted, when the sample tube 82 retracts into the fixed tube 81, the sealing cover 83 is separated from the sample tube 82, and then the sealing cover 83 is magnetically adsorbed at the end part of the fixed tube 81, so that the fixed tube 81 is isolated from the liquid environment in the cell body 1, and the sample tube 82 is smoothly taken out;

a first sealing ring 11 is arranged on the outer wall of the sample tube 82, and a second sealing ring 12 is arranged between the sealing cover 83 and the end part of the fixed tube 81, so that the sealing property between the fixed tube 81 and the sample tube 82 is ensured, and the sealing property between the sealing cover 83 and the fixed tube 81 is also ensured, thereby preventing the liquid in the cell body 1 from leaking;

the cover 83 is a magnetic plate, and the fixed tube 81 and the sample tube 82 are both magnetic metal tubes.

The working principle is as follows: firstly, sewage enters a sewage bin 2 from a water inlet pipe 6, a mixing stirrer 9 stirs the sewage in the sewage bin 2, the sewage enters an inclined tube settling bin 4 through a diversion bin 3, the sewage is settled in the inclined tube settling bin 4, clear water after settlement overflows into an overflow water collecting bin 5 and is discharged through a water outlet pipe 7, secondly, when sampling is needed, a sample tube 82 is inserted into a fixed tube 81, a sealing cover 83 is magnetically adsorbed on the end part of the fixed tube 81, when the end part of the sample tube 82 protrudes out of the end part of the fixed tube 81, the sealing cover 83 is separated from the fixed tube 81 and is magnetically adsorbed on the end part of the sample tube 82, liquid enters the sample tube 82 from water inlet holes 10 at two sides of the sample tube 82, finally, after the sampling is completed, the sample tube 82 is extracted, when the sample tube 82 retracts into the fixed tube 81, the sealing cover 83 is separated from the sample tube 82, then the sealing cover 83 is magnetically adsorbed on the end part of the fixed tube 81, so that the fixed tube 81 is isolated from the liquid environment in the cell body 1, the sample tube 82 is taken out smoothly, and the liquid is poured out from the water inlet 10 of the sample tube 82 for detection.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (6)

1. The utility model provides a sedimentation tank convenient to detect and deposit the situation which characterized in that: including cell body (1), divide into sewage storehouse (2), water conservancy diversion storehouse (3), pipe chute sediment storehouse (4) and overflow sump (5) in cell body (1) respectively, communicate each other between each bin, one side of cell body (1) is provided with inlet tube (6), inlet tube (6) intercommunication sewage storehouse (2), the opposite side of cell body (1) is provided with outlet pipe (7), outlet pipe (7) intercommunication overflow sump (5), be provided with a plurality of sampling mechanism (8) on cell body (1), sampling mechanism (8) intercommunication the inside in pipe chute sediment storehouse (4).

2. A sedimentation tank for facilitating detection of sedimentation conditions according to claim 1, characterised in that at least two sets of mixing and stirring machines (9) are arranged on the tank body (1), the mixing and stirring machines (9) extending into the sewage silo (2).

3. A sedimentation tank for facilitating detection of sedimentation conditions according to claim 1, characterised in that a plurality of the sampling means (8) are arranged in a vertical direction.

4. The sedimentation tank convenient to detect sedimentation conditions according to claim 1, wherein the sampling mechanism (8) comprises a fixed tube (81), a sample tube (82) and a sealing cover (83), the fixed tube (81) is fixedly installed on the tank body (1), the fixed tube (81) extends into the inclined tube sedimentation bin (4), the sample tube (82) is a sealed hollow tube, the sample tube (82) is slidably arranged in the fixed tube (81), the sealing cover (83) magnetically adsorbs the sample tube (82), the sealing cover (83) magnetically adsorbs the fixed tube (81), the sealing cover (83) blocks the fixed tube (81), the sealing cover (83) is located in the inclined tube sedimentation bin (4), and a water inlet (10) is arranged on the side surface of the sample tube (82).

5. A sedimentation tank facilitating detection of sedimentation conditions according to claim 4, characterized in that a first sealing ring (11) is arranged on the outer wall of the sample tube (82), and a second sealing ring (12) is arranged between the cover (83) and the end of the stationary tube (81).

6. A sedimentation tank facilitating detection of sedimentation conditions according to claim 4, wherein the cover (83) is a magnetic plate and the stationary tube (81) and the sample tube (82) are both magnetic metal tubes.

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