CN212772688U - Thing networked control pumping secondary sewage intercepting well - Google Patents

Abstract

The utility model belongs to the technical field of the blowdown equipment technique and specifically relates to a thing networked control pump sending secondary cuts dirty well, including cutting dirty well body, cut dirty well body bottom and be separated by the breakwater and cut dirty pond and clean water basin, cut dirty well body one side and be equipped with the inlet tube, cut dirty well body one side and be equipped with the outlet pipe, cut dirty bottom of the pool portion and offer the recess that is used for placing two water pumps, the water pump is equipped with the grid all around, two water pipes of drawing forth on two water pumps collect and connect the outlet pipe, go out the water piping top and connect electronic three-way valve, electronic three-way valve is connected with sewage discharge pipe and clear water discharge pipe, cuts dirty well body outside. The utility model relates to a thing networked control pump sending secondary intercepting well, thing networking platform do not let sewage flow in rainwater pipe network to control box automatic control and record job log and video under fine weather, realize that the initial stage rainwater collects and send into the river with clean water pump in the pipeline after raining in rainy day, have solved the distribution of rain and sewage problem of difficult point position to the at utmost.

Description

Thing networked control pumping secondary sewage intercepting well

Technical Field

The utility model belongs to the technical field of the blowdown equipment technique and specifically relates to a thing networked control pump sending secondary cuts dirty well.

Background

Current traditional pipe network reposition of redundant personnel can not thoroughly solve the distribution of rain and sewage problem, and partial node position can't be handled, and sewage can flow into the river course through rainwater pipeline at will, for example: 1. some old districts design the balcony at that time and fall into water and insert rainwater pipeline, and the current situation balcony has equipment such as washing machine, and the waste water all flows into rainwater pipeline after using, will thoroughly solve and need to reform transform the whole of district balcony pipeline again, and the construction cycle is long expense height, implements the great position of the degree of difficulty. 2. Some urban rural rainwater and sewage pipe networks are complex in condition, serious in private mixed connection, free of current situation drawings, high in troubleshooting and surveying difficulty and incapable of completing transformation in a short time. 3. Some municipal gutter inlets cannot find sewage sources (possibly hidden pipes of enterprises, rain and sewage pipe networks are broken and the like) in a short time, and have large sewage amount and serious river pollution.

The existing traditional rainwater tail end sewage intercepting well cannot be controlled in an internet of things mode, only has a single liquid level device, cannot distinguish rainy days and fine weather, is always in a working state, increases the burden of a sewage treatment plant, and cannot monitor whether the sewage intercepting well works normally or not in real time. The functions of collecting initial rainwater and pumping clean water in the pipeline into the river after raining cannot be achieved.

SUMMERY OF THE UTILITY MODEL

In order to overcome current terminal dirty well of intercepting of rainwater can not thing allies oneself with the control, can't realize "can be seen, controllable, can trace back" not enough, the utility model provides a thing networked control pump sending secondary intercepts dirty well, through thing networking platform controller control box, and then opens and ends through control box control pump, adjusts the inner tube way flow direction and then controls rivers flow direction clear water discharge pipe and sewage discharge pipe simultaneously through the electron three way valve.

The utility model provides a technical scheme that its technical problem adopted is: a secondary sewage intercepting well controlled by an internet of things and pumping comprises a sewage intercepting well body, wherein an underwater LED lamp is arranged at the corner of the bottom of the sewage intercepting well body, a safety grid is arranged at the upper end of the underwater LED lamp, the bottom of the sewage intercepting well body is divided into a sewage intercepting pool and a clean water pool by a water retaining wall, one side of the sewage intercepting well body and one side of the sewage intercepting pool are connected with a water inlet pipe, one side of the sewage intercepting well body and one side of the clean water pool are connected with a first water outlet pipe, a groove for placing two water pumps are formed in the bottom of the sewage intercepting pool, grids are arranged at the upper end of the groove on the periphery of the water pumps, two water pipes LED out from the two water pumps are collected and connected with a second water outlet pipe, the top end of the second water outlet pipe is connected with an electronic three-way valve, the second outlet end of the, the upper end of the outer side of the sewage intercepting well body is connected with a control box through a support frame, and the control box is connected with the Internet of things platform through a signal line.

Furthermore, the height of the grating is 1-10mm higher than that of the water retaining wall.

Furthermore, it has supporting platform to span including cutting dirty well internal side wall middle part, and the supporting platform below all is equipped with a cat ladder.

Further, including cutting dirty pond in be equipped with thermometer and level gauge, and cut dirty bottom of the pool portion and handle and be provided with the level sensor protection tube, level sensor has been placed in the level sensor protection tube, a plurality of through-holes have been seted up on the level sensor protection tube pipe wall, level sensor passes through the signal line and connects the level gauge.

Further, including intercepting the internal portion of dirty well head department and being equipped with the camera, level gauge, thermometer, water pump, electron three-way valve, camera and LED lamp all pass through signal line connection control box under water.

Furthermore, an electric control gate is arranged on the water retaining wall and is connected with the control box through a signal line.

Furthermore, the electronic three-way valve comprises a three-way valve body, a motor, a driving controller and a rotating plug, wherein the motor is fixed on the three-way valve body, a rotating shaft of the motor penetrates through the three-way valve body to be connected with the rotating plug in the motor, and the driving controller is respectively connected with the motor and the control box through signal lines.

The utility model has the advantages that the utility model discloses a thing networked control pump sending secondary sewage intercepting well solves the rainwater pipeline secondary sewage intercepting problem of difficult point node position, and thing networked platform automatic control does not let sewage flow into the rainwater pipeline net under fine weather, realizes initial rainwater collection in rainy day, has solved the rainwater and sewage reposition of redundant personnel problem of difficult point position to the utmost extent; the secondary sewage intercepting well is convenient to build, can be reformed at any rainwater tail end position according to local conditions, is simple in structure, can be adjusted in shape according to specific conditions on site, does not affect the using effect, adopts a pumping mode, has no requirement on the elevation of a rainwater and sewage pipeline, and greatly increases the operability; the online and offline working mode is adopted, the online and offline working mode is realized, the automatic control is realized through the Internet of things platform in sunny days and rainy days, logs and videos are formed on the Internet of things platform, the running state of equipment is detected, the alarm is given in time and the change is carried out, the controllable, visible and traceable mode of the secondary sewage intercepting well is realized, the management is convenient, and the defect of the single working state of the traditional sewage intercepting well is overcome; the method has the advantages that the effect in the long-term management of the water environment is realized, the platform of the Internet of things collects real-time data of each secondary sewage intercepting well, if the platform of the Internet of things analyzes that the operation data of a certain secondary sewage intercepting well is abnormal, the water in the well can be drained manually, the pipeline video robot is used for reverse investigation, and a final water outlet point is found out.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic structural view of the retaining wall of FIG. 1;

fig. 4 is a schematic structural view of the electronic three-way valve of fig. 1.

In the figure, 1, a sewage intercepting well body, 2, an underwater LED lamp, 3, a safety grid, 4, a water retaining wall, 5, a sewage intercepting pool, 6, a clean water pool, 7, a water inlet pipe, 8, a first water outlet pipe, 9, a water pump, 10, a groove, 11, a grid, 12, a second water outlet pipe, 13, an electronic three-way valve, 14, a clean water outlet pipe, 15, a sewage outlet pipe, 16, a support frame, 17, a control box, 18, a support platform, 19, a ladder stand, 20, a thermometer, 21, a liquid level meter, 22, a liquid level sensor protection pipe, 23, a liquid level sensor, 24, a camera, 25, an electric control gate, 26, a three-way valve body, 27, a motor, 28, a driving controller, 29, a rotating plug and 30 flow meters are.

Detailed Description

As shown in figure 1, the utility model is a schematic structural diagram, a thing networked control pumping secondary sewage intercepting well, comprising a sewage intercepting well body 1, an underwater LED lamp 2 is arranged at the corner of the bottom of the sewage intercepting well body 1, a safety grid 3 is arranged at the upper port of the sewage intercepting well body, the bottom of the sewage intercepting well body 1 is divided into a sewage intercepting pool 5 and a clean water pool 6 by a water retaining wall 4, a water inlet pipe 7 is connected at one side of the sewage intercepting well body 1 and at one side of the sewage intercepting pool 5, a first water outlet pipe 8 is connected at one side of the sewage intercepting well body 1 and at one side of the clean water pool 6, a groove 10 for placing two water pumps 9 is arranged at the bottom of the sewage intercepting pool 5, a grid 11 is arranged at the periphery of the water pumps 9 and at the upper port of the groove 10, two water pipes LED out from the two water pumps 9 are collected and connected with a second water outlet pipe 12, the top end of the, and the clean water discharge pipe 14 tail end is arranged in the clean water basin 6, the sewage discharge pipe 15 is connected to the third exit end of electron three-way valve 13, cut dirty well body 1 outside upper end and be connected with control box 17 through support frame 16, and control box 17 passes through the signal line and connects thing networking platform.

As shown in fig. 1, the height of the grating 11 corresponds to the height of the water blocking wall 4.

As shown in figure 1, a supporting platform 18 spans the middle part of the inner side wall of the sewage intercepting well body 1, and a ladder stand 19 is arranged above and below the supporting platform 18.

Combine fig. 1 and fig. 2 to show, be equipped with thermometer 20 and level gauge 21 in cutting dirty pond 5, and cut dirty 5 bottoms in pond and deal with and be provided with level sensor protection tube 22, level sensor 23 has been placed in the level sensor protection tube 22, a plurality of through-holes have been seted up on the level sensor protection tube 22 pipe wall, level sensor 23 passes through signal line and connects level gauge 21.

As shown in figure 1, a camera 24 is arranged at the upper port inside the sewage intercepting well body 1, and the liquid level meter 21, the thermometer 20, the water pump 9, the electronic three-way valve 13, the camera 24 and the underwater LED lamp 2 are all connected with the control box 17 through signal lines.

Referring to fig. 1 and 3, an electric control gate 25 is provided on the waterwall 4, and the electric control gate 25 is connected to the control box 17 through a signal line.

Referring to fig. 1 and 4, the electronic three-way valve 13 is composed of a three-way valve body 26, a motor 27, a driving controller 28 and a rotating plug 29, the motor 27 is fixed on the three-way valve body 26, a rotating shaft of the motor 27 penetrates through the three-way valve body 26 and is connected with the rotating plug 29, and the driving controller 28 is respectively connected with the motor 27 and the control box 17 through signal lines.

The first embodiment is as follows:

(1) the rainwater well at the tail end of the node position is reformed, the sewage intercepting well body 1 is integrally cast with concrete (a prefabrication mode can be adopted), a groove 10 structure is reserved at the base position for placing two water pumps 9, the water storage capacity is increased by the groove 10, the water in the sewage intercepting well body 1 is favorably drained, an underwater LED lamp 2 is arranged at the bottom of the sewage intercepting well body 1, the water quality condition is conveniently observed by a camera 24, the two water pumps 9 are controlled by an Internet of things platform to be used alternately (or one can be used for another), the service life of the water pumps 9 is prolonged, when the water pumps 9 work abnormally, the Internet of things platform automatically alarms, a grille 11 which is 1-10mm higher than a water retaining wall 4 is arranged at the outer side of the water pump 9, the water inlet pipe is placed at the other side of the water pump, the water flow is favorably formed, the sundries are not easy to accumulate, the secondary sewage intercepting, the deep secondary sewage intercepting well can be provided with a supporting platform 18 in the well to facilitate garbage cleaning and maintenance, the water retaining wall 4 is provided with an electric control gate 25, and when the water flow of the sewage intercepting pool 5 is large (such as in flood season), and overflow cannot be met through the water retaining wall 4, the electric control gate 25 can be opened to accelerate drainage of water of the sewage intercepting well body 1;

(2) in fine weather, sewage flows into a secondary sewage intercepting well, water is blocked by a water retaining wall 4, a starting and stopping pump liquid level is arranged on a liquid level meter 21, the starting and stopping pump liquid level is lower than the height of the water retaining wall 4, when the water level reaches the starting liquid level of the liquid level meter 21, the liquid level meter 21 transmits a signal to a control box 17, the control box 17 is connected with an Internet of things platform, the Internet of things platform controls the starting and stopping of a water pump 9 through the signal, the sewage is led to a sewage discharge pipe 15 from a second water outlet pipe 12 and is discharged (in some areas with higher sewage well water levels, the liquid level meter 21 can be arranged in a sewage pipe network and is connected with the control cabinet 17, when the elevation of a peripheral sewage well exceeds the limit height, the Internet of things platform forcibly stops the water pump 9 to work so as to prevent the sewage pipe network from overflowing), data are recorded by a flowmeter 30 on the pipeline and transmitted to the platform and recorded in a log, the control, the working time and the flow are automatically recorded, and the data are automatically uploaded to an Internet of things platform when the network is connected;

(3) when raining, the thing networking platform carries out batch control to the secondary cut dirty well according to weather forecast and regional rainfall detector data analysis: the platform of the internet of things enables the secondary sewage intercepting well to work for a period of time first, water which just rains for a period of time is led to the sewage discharge pipe 15 from the second water outlet pipe 12 to be discharged, the effect of collecting initial rainwater is achieved, then the water pump 9 is turned off, the water level in the sewage intercepting pool 5 rises over the water retaining wall 4, water flows overflow into the clean water pool 6, and after the rain stops, the platform of the internet of things controls the electronic three-way valve 13 and the water pump 9 to lead cleaner water in the sewage intercepting pool 5 to the clean water discharge pipe 14 from the second water outlet pipe 12 to be discharged into the clean water pool 6, so that water resources are effectively saved, and the burden of a sewage treatment plant;

(4) in the long-term management of the water environment, the abnormal point position of the data can be judged through data (real-time electric meter data, tap water consumption, real-time waste indexes and the like of each unit) collected by the thermometer 20, the flowmeter 21 and the Internet of things platform, the water pump 9 is manually controlled, and by means of the design of the base groove 10, water in the sewage intercepting pool 5 of the sewage intercepting well of the secondary sewage intercepting well can be effectively drained, the bottom of the water inlet pipe 7 is exposed, a pipeline video robot can conveniently enter the sewage intercepting pool for checking, reverse checking is carried out, and a water outlet point is checked.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. The utility model provides a thing networked control pump sending secondary cuts dirty well, includes cuts dirty well body (1), cuts dirty well body (1) bottom corner and is equipped with LED lamp (2) under water, and its upper port department is equipped with safety grid (3), characterized by, cut dirty well body (1) bottom and be separated by breakwater (4) and cut dirty pond (5) and clean water basin (6), cut dirty well body (1) one side and be located and cut dirty pond (5) one side and be connected with inlet tube (7), cut dirty well body (1) one side and be located clean water basin (6) one side and be connected with first outlet pipe (8), cut dirty pond (5) bottom and offer recess (10) that are used for placing two water pumps (9), water pump (9) are all around and be located recess (10) upper port department and be equipped with grid (11), two water pipes that draw forth on two water pumps (9) collect and connect second outlet pipe (12), second outlet pipe (12) top is connected with electron three-way valve (13), clear water discharge pipe (14) is connected to electron three-way valve (13) second exit end, and in clear water discharge pipe (14) tail end arranged clear water pond (6), sewage discharge pipe (15) is connected to electron three-way valve (13) third exit end, cut dirty well body (1) outside upper end and be connected with control box (17) through support frame (16), and control box (17) pass through signal line connection thing networking platform.

2. The Internet of things controlled pumping secondary sewage intercepting well of claim 1, wherein the grid (11) is 1-10mm higher than the water retaining wall (4).

3. The secondary sewage intercepting well controlled by the internet of things to pump according to claim 1, wherein a supporting platform (18) spans in the middle of the inner side wall of the sewage intercepting well body (1), and a ladder stand (19) is arranged above and below the supporting platform (18).

4. The secondary sewage intercepting well controlled by the internet of things and pumped by the internet of things as claimed in claim 1, wherein a thermometer (20) and a liquid level meter (21) are arranged in the sewage intercepting pool (5), a liquid level sensor protection tube (22) is arranged at the bottom of the sewage intercepting pool (5), a liquid level sensor (23) is arranged in the liquid level sensor protection tube (22), a plurality of through holes are formed in the tube wall of the liquid level sensor protection tube (22), the liquid level sensor (23) is connected with the liquid level meter (21) through a signal line, a camera (24) is arranged at the upper end opening in the sewage intercepting well body (1), and the liquid level meter (21), the thermometer (20), the water pump (9), the electronic three-way valve (13), the camera (24) and the underwater LED lamp (2) are all connected with a control box (17).

5. The secondary sewage intercepting well controlled by the internet of things and pumped by the internet of things according to claim 1, wherein an electric control gate (25) is arranged on the water retaining wall (4), and the electric control gate (25) is connected with the control box (17) through a signal line.

6. The secondary sewage intercepting well controlled by the internet of things and pumped by the internet of things according to claim 1, wherein the electronic three-way valve (13) is composed of a three-way valve body (26), a motor (27), a driving controller (28) and a rotating plug (29), the motor (27) is fixed on the three-way valve body (26), a rotating shaft of the motor passes through the three-way valve body (26) to be connected with the rotating plug (29) in the motor, and the driving controller (28) is respectively connected with the motor (27) and the control box (17) through signal lines.

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