CN217437837U - Gravity whirl pond of control more meticulous - Google Patents

Abstract

The utility model discloses a fine control gravity cyclone tank, which comprises a cyclone tank, wherein the side wall of the cyclone tank is connected with a water inlet pipe, the bottom of the cyclone tank is connected with a sand discharge pipe, the upper end of the cyclone tank is provided with an overflow port, the cyclone tank also comprises a reagent box with a metering and adding function, and the lower end of the reagent box is connected with the cyclone tank through a reagent adding pipeline; still include switch board and turbidity sensor, turbidity sensor and switch board link to each other, and switch board and medicament case link to each other and control medicament dosage, its characterized in that, turbidity sensor is including setting up the turbidity sensor of intaking on the inlet channel and the play water turbidity sensor of setting in overflow mouth department, and the turbidity sensor of intaking links to each other with the switch board respectively with play water turbidity sensor. Compared with the prior art, the utility model, have better processing effect on data processing and analysis. Cost is saved by having an intelligent data collection system; the high-efficiency data processing system increases the market competitiveness; the automatic omnibearing system has the advantages of improving the monitoring and management effect on the settled sand of the cyclone tank and the like.

Description

Gravity whirl pond of control becomes more meticulous

Technical Field

The utility model relates to a sewage treatment technical field, concretely relates to control gravity whirl pond that becomes more meticulous with remote monitoring processing function.

Background

A gravity type cyclone tank is equipment for cyclone sedimentation of sewage in a sewage treatment plant, the sewage is generally fed in a cyclone mode and then moves spirally in the cyclone tank, a heavy silt part is precipitated and falls down, and the remaining supernatant overflows and goes out. Is generally used for the primary sedimentation treatment of sewage.

In order to improve the precipitation treatment effect of the cyclone tank on the sewage, a mode of adding a flocculating agent is adopted in part of the cyclone tank, so that the silt in the sewage can be rapidly precipitated. For example, CN201811517828.9 discloses a hydraulic cyclone sewage treatment apparatus, which comprises a cyclone tank, wherein a cyclone tank water inlet is tangentially arranged at the upper part of the cyclone tank, and an overflow port is arranged on the side wall above the cyclone tank water inlet for discharging the treated sewage; the bottom of the cyclone tank is provided with a bottom hole for discharging sediment; the sewage treatment device is characterized by also comprising a water tank arranged above the rotational flow tank, wherein a water inlet of the water tank is connected with a water pumping pipe which is connected with a sewage source, and a water pumping pump is arranged on the water pumping pipe; the delivery port of water tank bottom and whirl pond water inlet pass through the inlet tube and switch on continuously to still be equipped with the flocculating agent on the water tank and add the mouth, be connected with the flocculating agent on the flocculating agent adds the mouth and add the pipe, the outer end that the flocculating agent adds the pipe forms the flocculating agent input. The invention has the advantages of improving the treatment efficiency, improving the treatment capacity and improving the sewage treatment quality. However, in the patent scheme, the dosage of the flocculating agent is detected and controlled only by a silt content detector arranged on the water pumping pipe. The method has the defects of simpler and lagged control, lower control precision, incomplete intelligent system, insufficient data recording and processing effect, incapability of realizing remote monitoring management, exerting the data processing function to a greater extent, incapability of constructing a large data grid, summarizing and summarizing a database and the like.

SUMMERY OF THE UTILITY MODEL

To the not enough of above-mentioned prior art, the utility model aims to solve the technical problem that: the method is a fine control gravity rotational flow tank which can better realize data acquisition, can more accurately and reliably control the addition of the flocculating agent and improve the treatment effect; and furthermore, the remote monitoring management can be better realized, the realization of the data analysis is facilitated, and the data utilization rate is improved.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a cyclone pool for finely controlling gravity comprises a cyclone pool with a circular horizontal section, wherein a water inlet pipe is connected to the side wall of the cyclone pool, a sand discharge pipe is connected to the bottom of the cyclone pool, an overflow port is formed in the upper end of the cyclone pool, and the cyclone pool further comprises a reagent box with a metering and adding function, and the lower end of the reagent box is connected with the cyclone pool through a reagent adding pipeline; still include switch board and turbidity sensor, turbidity sensor and switch board link to each other, and switch board and medicament case link to each other and control medicament volume of throwing, its characterized in that, turbidity sensor is including setting up the turbidity sensor of intaking on the inlet channel and setting up the play water turbidity sensor in overflow mouth department, and the turbidity sensor of intaking links to each other with the switch board respectively with a play water turbidity sensor.

Like this, this scheme can rely on the turbidity sensor of intaking that sets up respectively on the inlet channel to detect the turbidity of intaking, obtain the silt content proportion of intaking, and then control the chemical tank and drop into the flocculation medicament that corresponds the proportion, then detect the silt content of water simultaneously through the play water turbidity sensor that sets up in overflow mouth department, be used for the feedback to judge the flocculation and precipitation effect and adjust the medicament volume of throwing in, so can realize data acquisition and accurate medicament better and throw in control, improve the sedimentation treatment effect in whirl pond better.

Furthermore, turbidity sensor still including setting up the sediment turbidity sensor in whirl bottom of the pool portion, sediment turbidity sensor and switch board link to each other, still are provided with the electric valve for the sediment removal on the sediment ejection pipe, and the sediment is linked to each other with electric valve and switch board for the sediment removal.

Can rely on the sediment turbidity sensor to detect the silt sediment condition in whirl pond like this, control when reaching the predetermined threshold value and arrange sand and open with electric valve, arrange sand. The dosage of the medicament can be correspondingly increased or decreased according to the detected sediment content condition at the bottom. And the detection information of the other two turbidity sensors is combined, so that the fine control of the added medicament is better realized, and the medicament adding effect is better ensured.

Furthermore, a sand discharge electromagnetic flow meter is arranged on the sand discharge pipe and connected with the control cabinet.

Like this, silt flow is removed in detection and control that can be better, realizes the mud of arranging control and obtains corresponding data better to do benefit to and realize the data ization analysis, improve control accuracy.

When the sand discharging pipe is used, a sludge pump can be arranged on the sand discharging pipe and used for improving sand discharging power when sand discharging is not smooth.

When in use, the outer end of the sand discharge pipe can be connected with a sewage collection sedimentation tank. Can be further precipitated by a sludge-collecting sedimentation tank and then concentrated and discharged for treatment.

Furthermore, the bottom surface of the lower end of the cyclone pool is conical, and the sediment turbidity sensor is arranged at the position, close to the sand discharge pipe, of the conical bottom surface.

Thus, the turbidity sensor can better detect the sediment deposition condition.

Furthermore, the water inlet pipeline is also provided with a water inlet electromagnetic flow meter and a water inlet electric valve, and the water inlet electromagnetic flow meter and the water inlet electric valve are respectively connected with the control cabinet.

Like this, can detect and control the inflow better, can calculate the concrete content of silt of obtaining into water according to the inflow and the turbidity of intaking that detect accurately, then control the medicament case and throw the flocculation medicament of dosing to accurate response, realize more accurate control effect. Meanwhile, because the sand discharge pipeline and the water inlet pipeline are both provided with the flow meter and the electric valve, and are combined with the turbidity sensors at all positions, the opening of the electric valve can be automatically controlled after each data is detected and accurately calculated, the accurate integral linkage control effect is realized, and the water outlet effect of the stable water head is ensured.

Furthermore, a water tank is also arranged, and a water inlet pipeline is connected between the lower end of the water tank and the rotational flow tank.

Therefore, sewage can be buffered through the water tank, the water inflow of the cyclone tank is ensured to be continuous and stable, the control precision is prevented from being reduced due to unstable water inflow, and the detection control accuracy is improved.

Furthermore, a circle of overflow weir is arranged on the periphery of the rotational flow tank, an ecological filter ring is arranged in the overflow weir in a stacking mode, and the water outlet end of the overflow weir is connected with the water storage tank.

Like this, the play water fall of overflow mouth department gets into the overflow weir, is mingled with a large amount of oxygen, sets up ecological filter ring in the overflow weir earlier, can play and cultivate good oxygen nitrobacteria, plays preliminary biochemical filterable effect, reduces follow-up biochemical filterable burden. In practice, the reservoir connected with the water outlet end of the overflow weir is usually a secondary sedimentation tank.

Furthermore, a layer of pebbles is piled above the ecological filter ring.

Thus, the pebbles can play a physical filtering effect, filter substances such as scum and the like, and avoid the substances from entering the ecological filter ring to influence the bacterial nitrification effect.

Furthermore, a water level sensor is also arranged on the circumferential wall of the rotational flow tank and is connected with the control cabinet.

Therefore, the water level of the cyclone tank can be conveniently detected and monitored, and stable water inlet and outlet are guaranteed to be controlled.

Furthermore, the upper edge of the chemical box is vertically provided with metering scale marks, a metering pump is arranged in the chemical box and is connected with a chemical feeding pipeline, and the metering pump is connected with a control cabinet.

Like this, the last measurement scale mark that sets up of medicament case can be convenient when adding medicine at every turn, and the control is calculated and is added the water proportion for can conveniently formulate into the liquid medicine for fixed proportion when adding the medicament, then rely on the control to the metering pump again, can realize throwing the accurate control of volume of adding to the medicament, simple structure and control are convenient, and the accuracy is high.

Furthermore, a stirring device is also arranged in the medicament box.

Thus, the medicine can be quickly stirred and uniformly mixed after being conveniently added.

Furthermore, a local control screen is arranged on the control cabinet.

The method and the device are convenient to realize instruction input, modify and confirm the control program and adjust the control effect.

Furthermore, the remote monitoring system also comprises a remote monitoring platform, and the remote monitoring platform is in communication connection with the control cabinet.

Therefore, the remote monitoring platform can remotely control and change the automatic operation parameters of the programs in the control cabinet; the system can monitor the site-level operation parameters and site in real time and video, ensure the normal operation of the system, and remotely take emergency measures if emergency occurs. The server database may employ Mysql 5.7. After the initialization is completed, the password of the root user is a password generated randomly, SSL security access configuration is provided, and the security of the database is ensured by adopting an SSL encryption mode for default connection. And the data can be backed up at regular time, so that the data is not lost and can be recovered. When the method is implemented, data transmission between the site level and the server can be realized in a wired mode and a 485 communication mode.

During implementation, data intelligent acquisition mainly comes from online turbidity detectors, electromagnetic flow meters, electric valves and water depth sensors before and after sewage treatment in the gravity type cyclone pool, the online turbidity detectors, the electromagnetic flow meters, the electric valves and the water depth sensors are connected with an internet uploading data display screen, data grids are constructed while data are clearly displayed, the data are uploaded to a remote monitoring platform through the data display screen, data storage and effective storage are achieved, data such as content concentration of various kinds of sewage or rainwater in different areas are recorded, and future research such as scientific research is facilitated. The site-level control software can monitor the automatic operation parameters in real time and control key processes of the automatic operation, such as system switching control, parameter modification and the like. The measured data, the operation parameters and the like can be remotely transmitted to the database of the upper computer server in real time. During specific operation, an optimization algorithm can be adopted, and the respective valve opening degree can be automatically adjusted according to the water quantity and the water inflow size of the reservoir, so that the water head is stabilized.

Therefore, the utility model discloses application data intelligence collection system and remote interaction processing system, through electromagnetic flowmeter, online turbidity detector and depth of water sensor, connect internet and establish field level control software and remote management platform, data and establish the database around the on-line operation record gravity type whirl pond is handled, realize data acquisition and remote interaction, not only can real-time supervision, video monitoring, can also simulate in advance, and control and change remote automation operating parameter, guarantee system normal operating, can effectively utilize data simultaneously, performance data processing's importance, help creates the basis and the phenomenon that more research needs, realize the unlimited enlargeization of intangible benefit behind the tangible data processing.

Compared with the prior art, the utility model, have better processing effect on data processing and analysis. Cost is saved by having an intelligent data collection system; the high-efficiency data processing system increases the market competitiveness; the automatic omnibearing system has the advantages of improving the monitoring and management effect on the sand setting of the cyclone tank and the like.

Drawings

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

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

The implementation mode is as follows: referring to fig. 1, the cyclone pool for finely controlling gravity comprises a cyclone pool 1 with a circular horizontal section, wherein the side wall of the cyclone pool 1 is connected with a water inlet pipe 2, the bottom of the cyclone pool is connected with a sand discharge pipe 3, the upper end of the cyclone pool is provided with an overflow port 4, the cyclone pool also comprises a reagent box 5 with a metering and adding function, and the lower end of the reagent box 5 is connected with the cyclone pool 1 through a reagent adding pipeline 6; still include switch board 7 and turbidity sensor, turbidity sensor and switch board 7 link to each other, and switch board 7 and chemical tank 5 link to each other and control the medicament volume of throwing, wherein, turbidity sensor is including setting up the water inlet turbidity sensor 8 on the inlet channel and setting up the play water turbidity sensor 9 in overflow mouth department, and water inlet turbidity sensor 8 and play water turbidity sensor 9 link to each other with switch board 7 respectively.

Like this, this scheme can rely on the turbidity sensor of intaking that sets up respectively on the inlet channel to detect the turbidity of intaking, obtain the silt content proportion of intaking, and then control the chemical tank and drop into the flocculation medicament that corresponds the proportion, then detect the silt content of water simultaneously through the play water turbidity sensor that sets up in overflow mouth department, be used for the feedback to judge the flocculation and precipitation effect and adjust the medicament volume of throwing in, so can realize data acquisition and accurate medicament better and throw in control, improve the sedimentation treatment effect in whirl pond better.

Wherein, turbidity sensor still including setting up the sediment turbidity sensor 10 in the whirl bottom of the pool portion, sediment turbidity sensor 10 links to each other with switch board 7, still is provided with the electric valve 12 for the sediment removal on the sediment ejection pipe 3, and the electric valve 12 for the sediment removal links to each other with the switch board.

Can rely on the silt that deposits turbidity sensor and detect the whirl pond to deposit the condition like this, control when reaching the predetermined threshold value and arrange sand and open with electric valve, arrange sand. The dosage of the medicament can be correspondingly increased or decreased according to the detected sediment content condition at the bottom. And the detection information of the other two turbidity sensors is combined, so that the fine control of the added medicament is better realized, and the medicament adding effect is better ensured.

Wherein, arrange sand pipe 3 and still be provided with sediment outflow electromagnetic flowmeter 11, sediment outflow electromagnetic flowmeter 11 links to each other with switch board 7.

Like this, silt flow is removed in detection and control that can be better, realizes the mud of arranging control and obtains corresponding data better to do benefit to and realize the data ization analysis, improve control accuracy.

When the sand discharging pipe is used, a sludge pump can be arranged on the sand discharging pipe and used for improving sand discharging power when sand discharging is not smooth.

In practice, the outer end of the sand discharge pipe can be connected with a sewage collecting sedimentation tank 22. Can be further precipitated by a sludge-collecting sedimentation tank and then concentrated and discharged for treatment.

Wherein, the bottom surface of the lower end of the rotational flow tank 1 is conical, and the sediment turbidity sensor 10 is arranged at the position of the conical bottom surface close to the sand discharge pipe.

Thus, the turbidity sensor can better detect the sediment precipitation condition.

Wherein, still be provided with into water electromagnetic flowmeter 13 and intake on the inlet channel 2 and use electric valve 14, intake electromagnetic flowmeter 13 and intake are connected with the switch board respectively with electric valve 14.

Like this, can detect and control the inflow better, can calculate the concrete content of silt of obtaining into water according to the inflow and the turbidity of intaking that detect accurately, then control the medicament case and throw the flocculation medicament of dosing to accurate response, realize more accurate control effect. Meanwhile, because the sand discharge pipeline and the water inlet pipeline are both provided with the flow meter and the electric valve, and are combined with the turbidity sensors at all positions, the opening of the electric valve can be automatically controlled after each data is detected and accurately calculated, the accurate integral linkage control effect is realized, and the water outlet effect of the stable water head is ensured.

Wherein, still be provided with water tank 15, inlet channel 2 is connected between water tank 15 lower extreme and whirl pond 1.

Therefore, sewage can be buffered through the water tank, the water inflow of the cyclone tank is ensured to be continuous and stable, the control precision is prevented from being reduced due to unstable water inflow, and the detection control accuracy is improved.

Wherein, the periphery of the rotational flow tank 1 is provided with a circle of overflow weir 16, the interior of the overflow weir 16 is piled with an ecological filter ring, and the water outlet end of the overflow weir is connected with a reservoir.

Like this, the play water drop of overflow mouth department gets into the overflow weir, is mingled with into a large amount of oxygen, sets up ecological filter ring earlier in the overflow weir, can play and cultivate good oxygen nitrobacteria, plays preliminary biochemical filterable effect, reduces follow-up biochemical filterable burden. In practice, the reservoir connected with the water outlet end of the overflow weir is usually a secondary sedimentation tank.

Wherein, a layer of pebbles is piled above the ecological filter ring.

Thus, the pebbles can play a physical filtering effect, filter substances such as scum and the like, and avoid the substances from entering the ecological filter ring to influence the bacterial nitrification effect.

Wherein, a water level sensor 17 is also arranged on the peripheral wall of the rotational flow tank 1 and is connected with the control cabinet.

Therefore, the water level of the cyclone tank can be conveniently detected and monitored, and stable water inlet and outlet are guaranteed to be controlled.

Wherein, the upper edge of the chemical box 5 is vertically provided with a metering scale mark, a metering pump 18 is arranged in the chemical box 5 and is connected with a chemical feeding pipeline, and the metering pump 18 is connected with a control cabinet.

Like this, the last measurement scale mark that sets up of medicament case can be convenient when adding medicine at every turn, and the control is calculated and is added the water proportion for can conveniently formulate into the liquid medicine for fixed proportion when adding the medicament, then rely on the control to the metering pump again, can realize throwing the accurate control of volume of adding to the medicament, simple structure and control are convenient, and the accuracy is high.

Wherein, a stirring device 19 is also arranged in the medicament box 5.

Thus, the medicine can be quickly stirred and uniformly mixed after being conveniently added. When the stirring device 19 is used, the stirring device is connected with the control cabinet to realize automatic control.

Wherein, the control cabinet 7 is also provided with a local control screen 20.

The method and the device are convenient to realize instruction input, modify and confirm the control program and adjust the control effect.

The intelligent control system further comprises a remote monitoring platform 21, and the remote monitoring platform 21 is in communication connection with the control cabinet. When the system is implemented, the remote monitoring platform can be a mobile phone or a remote computer.

Therefore, the remote monitoring platform can remotely control and change the automatic operation parameters of the programs in the control cabinet; the system can monitor the site-level operation parameters and site in real time and video, ensure the normal operation of the system, and remotely take emergency measures if emergency occurs. The server database may employ Mysql 5.7. After initialization is completed, the password of the root user is a password generated randomly, SSL security access configuration is provided, and the security of the database is ensured by adopting an SSL encryption mode for default connection. And the data can be backed up at regular time, so that the data is not lost and can be recovered. When the method is implemented, data transmission between the site level and the server can be realized in a wired mode and a 485 communication mode.

During implementation, data intelligent acquisition mainly comes from online turbidity detectors, electromagnetic flow meters, electric valves and water depth sensors before and after sewage treatment in the gravity type cyclone pool, the online turbidity detectors, the electromagnetic flow meters, the electric valves and the water depth sensors are connected with an internet uploading data display screen, data grids are constructed while data are clearly displayed, the data are uploaded to a remote monitoring platform through the data display screen, data storage and effective storage are achieved, data such as content concentration of various kinds of sewage or rainwater in different areas are recorded, and future research such as scientific research is facilitated. The site-level control software can monitor the automatic operation parameters in real time and control key processes of the automatic operation, such as system switching control, parameter modification and the like. The measured data, the operation parameters and the like can be remotely transmitted to the database of the upper computer server in real time. During specific operation, an optimization algorithm can be adopted, and the respective valve opening can be automatically adjusted according to the quantity of water in the reservoir and the size of water inflow, so that the water head is stabilized.

Therefore, the utility model discloses application data intelligence collection system and remote interaction processing system, through electromagnetic flowmeter, online turbidity detector and depth of water sensor, connect internet and establish field level control software and remote management platform, data and establish the database around the on-line operation record gravity type whirl pond is handled, realize data acquisition and remote interaction, not only can real-time supervision, video monitoring, can also simulate in advance, and control and change remote automation operating parameter, guarantee system normal operating, can effectively utilize data simultaneously, performance data processing's importance, help creates the basis and the phenomenon that more research needs, realize the unlimited enlargeization of intangible benefit behind the tangible data processing.

Claims (10)

1. A cyclone pool for finely controlling gravity comprises a cyclone pool with a circular horizontal section, wherein a water inlet pipe is connected to the side wall of the cyclone pool, a sand discharge pipe is connected to the bottom of the cyclone pool, an overflow port is formed in the upper end of the cyclone pool, and the cyclone pool further comprises a reagent box with a metering and feeding function, and the lower end of the reagent box is connected with the cyclone pool through a reagent feeding pipeline; still include switch board and turbidity sensor, turbidity sensor and switch board link to each other, and switch board and medicament case link to each other and control medicament volume of throwing, its characterized in that, turbidity sensor is including setting up the turbidity sensor of intaking on the inlet channel and setting up the play water turbidity sensor in overflow mouth department, and the turbidity sensor of intaking links to each other with the switch board respectively with a play water turbidity sensor.

2. The fine control gravity rotational flow pool of claim 1, wherein the turbidity sensor further comprises a sediment turbidity sensor arranged at the bottom of the rotational flow pool, the sediment turbidity sensor is connected with the control cabinet, the sand discharge pipe is further provided with an electric valve for sand discharge, and the electric valve for sand discharge is connected with the control cabinet.

3. The fine control gravity rotational flow pond according to claim 2, wherein the sand discharge pipe is further provided with a sand discharge electromagnetic flow meter, and the sand discharge electromagnetic flow meter is connected with the control cabinet.

4. The fine control gravity cyclone pond as claimed in claim 2, wherein the bottom surface of the lower end of the cyclone pond is conical, and the sediment turbidity sensor is installed on the conical bottom surface near the sand discharge pipe.

5. The fine control gravity rotational flow pool of claim 2, wherein the water inlet pipe is further provided with a water inlet electromagnetic flow meter and a water inlet electric valve, and the water inlet electromagnetic flow meter and the water inlet electric valve are respectively connected with the control cabinet.

6. A fine control gravity cyclone cell as claimed in claim 5, wherein a water tank is provided, and the water inlet pipe is connected between the lower end of the water tank and the cyclone cell.

7. The fine control gravity rotational flow tank as claimed in claim 2, wherein a ring of overflow weir is arranged on the periphery of the rotational flow tank, an ecological filter ring is piled in the overflow weir, and the water outlet end of the overflow weir is connected with a water storage tank; a layer of pebbles is piled above the ecological filter ring.

8. The fine control gravity rotational flow tank as claimed in claim 2, wherein a water level sensor is further disposed on the circumferential wall of the rotational flow tank, and the water level sensor is connected with the control cabinet.

9. The fine control gravity rotational flow tank according to claim 2, wherein the chemical tank is vertically provided with metering scale marks, a metering pump is arranged in the chemical tank and connected with a chemical feeding pipeline, and the metering pump is connected with the control cabinet.

10. The fine control gravity rotational flow tank of claim 2, wherein the control cabinet is further provided with an in-situ control screen; the remote monitoring system further comprises a remote monitoring platform, and the remote monitoring platform is in communication connection with the control cabinet.

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