CN214833282U - A safe reposition of redundant personnel cuts dirty device for on municipal pipe network - Google Patents

Abstract

The utility model belongs to the technical field of the municipal administration pipeline, especially, relate to a safe reposition of redundant personnel cuts dirty device for on municipal pipe network. The technology is including controlling first processing pond and the second processing pond that mutual independence set up, first processing pond top is provided with the inlet tube, first processing pond and second processing pond are through from last third pipeline that sets gradually extremely down, first pipeline and second pipe connection communicate with each other, be provided with first filter in the first processing pond, be provided with the second filter in the second processing pond, the lateral wall that the pond was handled to the second is provided with first outlet pipe and second outlet pipe, in the use, rivers pass through the filtration in two processing ponds, deposit and reposition of redundant personnel, the blowdown to rivers has been strengthened, and according to the difference of rivers velocity of flow and water yield, carry out the reposition of redundant personnel of different modes, reach the purpose of safe reposition of redundant personnel blowdown.

Description

A safe reposition of redundant personnel cuts dirty device for on municipal pipe network

Technical Field

The utility model belongs to the technical field of the municipal administration pipeline, especially, relate to a safe reposition of redundant personnel cuts dirty device for on municipal pipe network.

Background

With the rapid development of society and economy as human beings enter industrial civilization, human beings begin to intensively live in a large quantity, urbanization occurs, in the process of urbanization, original vegetation and soil are replaced by impervious ground, so that the discharge of various domestic sewage and the discharge of rainwater in rainy days can be only treated through underground passages, finally water resources are deteriorated, the underground water level is reduced, the problem of difficulty in urban water use is solved, China spends huge capital on south-to-north water transfer projects, but the problem of water use in partial regions can only be met. As the rainwater is used as a clean water source, the rainwater plays an important role in the aspects of environment and water resource utilization and has profound significance for human living environment and water conservancy ecology. More and more countries begin to pay attention to the collection of clean rainwater, and rainwater collects and flows into underground passage through roof, ground road, greenery patches, natural hillside etc. usually, is mingled with a large amount of pollutants, silt and impurity in the initial stage rainwater, consequently, the initial stage rainwater should be abandoned and flowed the emission, collects concentrated, later stage clean rainwater, gets rid of the impurity filtration of rainwater simultaneously, guarantees later stage water storage system's normal operating to guarantee drainage safety. The traditional device is not good enough to the processing of cutting dirty, and the effect when shunting is also not strong.

SUMMERY OF THE UTILITY MODEL

According to the not enough among the above prior art, the utility model discloses the technical problem who solves is: the utility model provides a safe reposition of redundant personnel cuts dirty device for on municipal pipe network, strengthens the safe reposition of redundant personnel to rivers, strengthens the interception and the filtration to impurity in the rivers through multiple filtration.

The safe shunting and sewage intercepting device for the municipal pipe network comprises a first treatment tank and a second treatment tank which are mutually independent from left to right, wherein a water inlet pipe is arranged at the top of the first treatment tank, the first treatment tank and the second treatment tank are connected and communicated through a third pipeline, a first pipeline and a second pipeline which are sequentially arranged from top to bottom, one end of the second pipeline is arranged at the bottom in the right side wall of the first treatment tank, one end of the third pipeline is arranged at the top in the left side wall of the second treatment tank, a first filter plate is arranged in the first treatment tank, the horizontal height of the first filter plate is higher than that of the third pipeline, a second filter plate is arranged in the second treatment tank, the horizontal height of the second filter plate is lower than that of the second pipeline, a first water outlet pipe and a second water outlet pipe are arranged on the side wall of the second treatment tank, and the first water outlet pipe is positioned at the bottom in the side wall of the second treatment tank, the second water outlet pipe is positioned between the first water outlet pipe and the second filter plate.

According to the scheme, the inner bottoms of the first treatment tank and the second treatment tank are inclined planes.

The scheme is further optimized, and the bottoms of the first treatment tank and the second treatment tank are both provided with a door and a drain outlet.

The scheme is further optimized, a first inductor is arranged in the second treatment tank, the first inductor is located between the second filter plate and the second water outlet pipe, and a first pump is arranged on the first water outlet pipe.

The scheme is further optimized, a second pump is arranged on the first pipeline, a second inductor is arranged in the first processing pool, and the second inductor is located between the first filter plate and the third pipeline.

Compared with the prior art, the utility model discloses following beneficial effect has:

in the use, rivers have strengthened the blowdown to rivers through two filtration of modes such as handling pond and two filter, deposit and reposition of redundant personnel to according to the difference of rivers velocity of flow and water yield, carry out the reposition of redundant personnel of different modes, reach the purpose of safe reposition of redundant personnel blowdown.

Drawings

FIG. 1 is a schematic structural diagram of the present invention

Names of components in the drawings: 1. the device comprises a water inlet pipe 2, a first treatment pool 3, a first filter plate 4, a door 5, a sewage draining exit 6, a first pipeline 7, a second pipeline 8, a second filter plate 9, a first water outlet pipe 10, a first pump 11, a second water outlet pipe 12, a first inductor 13, a second treatment pool 14, a second pump 15, a third pipeline 16 and a second inductor.

Detailed Description

The present invention is further described with reference to the following embodiments, which are not intended to limit the present invention, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Example 1

The safe shunting and sewage intercepting device for the municipal pipe network comprises a first treatment tank 2 and a second treatment tank 13 which are mutually independent from left to right, wherein the top of the first treatment tank 2 is provided with a water inlet pipe 1, the first treatment tank 2 and the second treatment tank 13 are communicated through a third pipeline 15, a first pipeline 6 and a second pipeline 7 which are sequentially arranged from top to bottom, one end of the second pipeline 7 is arranged at the bottom in the right side wall of the first treatment tank 2, one end of the third pipeline 15 is arranged at the top in the left side wall of the second treatment tank 13, a first filter plate 3 is arranged in the first treatment tank 2, the horizontal height of the first filter plate 3 is higher than that of the third pipeline 15, a second filter plate 8 is arranged in the second treatment tank 13, the horizontal height of the second filter plate 8 is lower than that of the second pipeline 7, the side wall of the second treatment tank 13 is provided with a first water outlet pipe 9 and a second water outlet pipe 11, the first water outlet pipe 9 is positioned at the inner bottom of the side wall of the second treatment tank 13, and the second water outlet pipe 11 is positioned between the first water outlet pipe 9 and the second filter plate 8.

This embodiment has the following effects:

in use, as shown in fig. 1, water flow enters the first treatment tank 2 from the water inlet pipe 1, intercepts large impurities such as branches in water through the first filter plate 3, then enters the second treatment tank 13 from the first pipeline 6 and the third pipeline 15 after being precipitated at the bottom of the first treatment tank 2, and is discharged from the first water outlet pipe 9 and the second water outlet pipe 11 after being filtered by the second filter plate 8.

In the specific implementation process, the second pipeline 7 is provided with a valve, in the operation process, the valve is closed all the time, so that water flow cannot enter the second treatment tank 13 from the second pipeline 7, and after long-time use, when the inner bottom of the first treatment tank 2 needs to be desilted, the valve is opened to discharge all the water in the first treatment tank 2 to the second treatment tank 13; the water flow is precipitated in the first treatment tank 2, so that the water level begins to rise, overflows from the first pipeline 6 and enters the second treatment tank 13, when the water amount is too large, the first pipeline 6 cannot be discharged, the water level continues to rise, and then overflows from the third pipeline 15 and enters the second treatment tank 13; and after being filtered by the second filter plate 8 again in the second treatment tank 13, the wastewater is discharged from the first water outlet pipe 9 in an overflowing way, and when the wastewater is not discharged from the first water outlet pipe 9 and the water level exceeds the second water outlet pipe 11, the wastewater is discharged from the second water outlet pipe 11 in an overflowing way.

In an emergency situation, the second pipe 7 can also be opened for diversion.

Example 2

In this embodiment, the inner bottom of the first and second treatment wells 2 and 13 is a slope.

This embodiment has the following effects:

in use, as shown in fig. 1, the right side of the inner bottom of the first treatment tank 2 is higher, the left side is lower, the left side of the inner bottom of the second treatment tank 13 is higher, the right side is lower, the inner bottom of the tank is designed into an inclined plane, so that the sludge is convenient for workers to clean the sludge, the sludge flows to the lower side during cleaning, the workers do not need to clean the whole bottom, time and labor are saved, the construction is simpler, and the position where the bottom of the tank is higher, the position where the bottom of the tank is lower is determined according to actual conditions; of course, the two sides can be designed to be high and the middle can be designed to be low according to specific use conditions, so that the sludge can be collected towards the middle, and the sludge can also be designed.

Example 3

In this embodiment, the technology is further explained, and the bottom of the first treating tank 2 and the bottom of the second treating tank 13 are both provided with a door 4 and a sewage draining exit 5.

This embodiment has the following effects:

in the in-service use, as shown in fig. 1, after using for a long time, there is a large amount of silt bottom, the workman just can open 4 door entering cavities clean, after a large amount of silt is cleaned, remaining smallclothes are difficult to by the sanitization, just at this moment can open drain 5, let remaining smallclothes silt discharge from drain 5, drain 5 is difficult also not to be blockked up like this, in order to make drain 5 reach best blowdown effect, drain 5 sets up on the lower side of bottom of the pool the best. Of course, the sewage draining exit 5 can be changed into a groove-shaped structure according to the actual situation.

Example 4

In this embodiment, the technology is further explained, a first sensor 12 is disposed in the second treatment tank 13, the first sensor 12 is located between the second filter plate 8 and the second water outlet pipe 11, and the first water outlet pipe 9 is provided with a first pump 10.

This embodiment has the following effects:

in use, as shown in fig. 1, when the water volume is large, the first water outlet pipe 9 and the second water outlet pipe 11 cannot be discharged, the water level continuously rises, after the first sensor 12 is continuously soaked by the water flow for a period of time, the first pump 10 starts to work, the flow speed is higher than the overflow speed when the pump pumps water, the water discharge of the first water outlet pipe 9 is accelerated, and the first sensor 12 needs to be provided with a waterproof measure or be waterproof. Certainly, the first sensor 12 is not needed, and when the worker sees that the water level exceeds the second water outlet pipe 11, the first pump 10 is started to accelerate the discharge amount of the first water outlet pipe 9; of course, the pump may be omitted, and then several first water outlet pipes 9 or second water outlet pipes 11 may be additionally provided to accelerate the discharge of the water flow.

Example 5

In this embodiment, the second pump 14 is disposed on the first pipe 6, the second sensor 16 is disposed in the first treating tank 2, and the second sensor 16 is disposed between the first filter plate 3 and the third pipe 15.

This embodiment has the following effects:

in use, as shown in fig. 1, when the water amount is large and the first pipe 6 and the third pipe 15 are not discharged, the water level continues to rise, and after the second sensor 16 is continuously soaked by the water flow for a period of time, the second pump 14 starts to work, because the water is pumped by the pump at a faster speed than when overflowing, the water discharge amount of the first pipe 6 is increased, and the second sensor 16 needs to be waterproof or waterproof. Of course, the second sensor 16 may be omitted, and when the worker sees that the water level exceeds the third pipe 15, the second pump 14 is turned on to accelerate the water discharge of the first pipe 6; it is of course also possible to dispense with a pump and then to provide several first conduits 6 or third conduits 15 more than necessary to speed up the discharge of the water flow.

Claims (5)

1. The utility model provides a safe reposition of redundant personnel cuts dirty device for on municipal pipe network, handles pond (13) including controlling first processing pond (2) and the second that mutual independence set up, its characterized in that: the top of the first treatment tank (2) is provided with a water inlet pipe (1), the first treatment tank (2) and the second treatment tank (13) are connected and communicated through a third pipeline (15), a first pipeline (6) and a second pipeline (7) which are sequentially arranged from top to bottom, one end of the second pipeline (7) is arranged at the bottom in the right side wall of the first treatment tank (2), one end of the third pipeline (15) is arranged at the inner top of the left side wall of the second treatment tank (13), a first filter plate (3) is arranged in the first treatment tank (2), the horizontal height of the first filter plate (3) is higher than that of the third pipeline (15), a second filter plate (8) is arranged in the second treatment tank (13), the horizontal height of the second filter plate (8) is lower than that of the second pipeline (7), the side wall of the second treatment tank (13) is provided with a first water outlet pipe (9) and a second water outlet pipe (11), the first water outlet pipe (9) is positioned at the inner bottom of the side wall of the second treatment pool (13), and the second water outlet pipe (11) is positioned between the first water outlet pipe (9) and the second filter plate (8).

2. The safe flow-dividing and sewage-intercepting device for the municipal pipe network according to claim 1, characterized in that: the inner bottoms of the first treatment tank (2) and the second treatment tank (13) are inclined planes.

3. The safe flow-dividing and sewage-intercepting device for the municipal pipe network according to claim 1, characterized in that: the bottom of the first treatment pool (2) and the bottom of the second treatment pool (13) are both provided with a door (4) and a sewage outlet (5).

4. The safe flow-dividing and sewage-intercepting device for the municipal pipe network according to claim 1, characterized in that: and a first inductor (12) is arranged in the second treatment tank (13), the first inductor (12) is positioned between the second filter plate (8) and the second water outlet pipe (11), and a first pump (10) is arranged on the first water outlet pipe (9).

5. The safe flow-dividing and sewage-intercepting device for the municipal pipe network according to claim 1, characterized in that: the first pipeline (6) is provided with a second pump (14), the first treatment tank (2) is internally provided with a second inductor (16), and the second inductor (16) is positioned between the first filter plate (3) and the third pipeline (15).

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