CN220449837U - Large-traffic filtration station that intakes - Google Patents

Abstract

The utility model provides a high-flow water inlet filtering station, which comprises: the water inlet pipeline is provided with a water inlet; the water outlet pipeline is provided with a water outlet; the sewage disposal pipeline comprises a main sewage disposal pipeline and an auxiliary sewage disposal pipeline; a filter assembly comprising a water inlet filter, a water outlet filter and a first reaction filter, the water inlet filter is arranged on the water inlet pipeline, and the water outlet filter is arranged on the water outlet pipeline; the control valve comprises a blowdown control valve, a first multichannel control valve and a pressure reducing valve, the blowdown control valve is arranged on the auxiliary blowdown pipeline, the pressure reducing valve is close to the water inlet filter, the first multichannel control valve is provided with a plurality of channels, and the first reaction filter, the water inlet pipeline, the water outlet pipeline and the main sewage draining pipeline are connected with the first multichannel control valve. The utility model has the advantages of high equipment integration level, small occupied area, suitability for various terrains, high automation degree, high operating temperature, simple post maintenance and long service life of equipment.

Description

Large-traffic filtration station that intakes

Technical Field

The utility model relates to the field of sewage filtering equipment, in particular to a high-flow water inlet filtering station.

Background

The water treatment modes comprise physical treatment and chemical treatment. The water treatment method for human has been quite a few years, and the physical method includes using various filter materials with different pore sizes, removing impurities in water by adsorption or blocking method, wherein the important adsorption method is to use activated carbon for adsorption, and the blocking method is to pass water through the filter materials to prevent the impurities with larger volume from passing through, so as to obtain cleaner water.

The existing water treatment method adopts various treatment equipment to assemble, meets the procedures of filtering, cleaning impurities and the like of water treatment, and has the defects that the occupied area is overlarge due to the fact that the equipment is too many, and people are required to detect and operate in real time when the equipment is operated.

The utility model aims to solve the problems, and provides a high-flow water inlet filtering station, wherein a plurality of components are arranged to meet the effects of filtering, forward flushing, back flushing and the like.

Disclosure of Invention

The utility model provides a high-flow water inlet filtering station, which is characterized in that a filtering assembly is arranged to filter wastewater containing impurities and suspended matters, different pipelines are operated by arranging an electric cabinet and a multi-channel control valve, a sewage discharge pipeline and a sewage discharge control valve are connected into the multi-channel control valve, and a plurality of flushing modes are arranged in the electric cabinet, so that the cleanliness of a filter material, a filter screen and a pipeline in the filter is ensured, the integrated arrangement of filtering and cleaning is realized, the occupied area is reduced, and the service life of the filtering assembly is prolonged.

To achieve the above object, the present utility model provides a high flow rate water inlet filter station comprising:

the water inlet pipeline is provided with a water inlet;

the water outlet pipeline is provided with a water outlet;

the sewage disposal pipeline comprises a main sewage disposal pipeline and an auxiliary sewage disposal pipeline, and the auxiliary sewage disposal pipeline is connected with the main sewage disposal pipeline;

the filtering assembly comprises a water inlet filter, a water outlet filter and a first reaction filter, wherein the water inlet filter is arranged on the water inlet pipeline and is close to the water inlet, and the water outlet filter is arranged on the water outlet pipeline and is close to the water outlet;

the control valve comprises a blowdown control valve, a first multichannel control valve and a pressure reducing valve, the blowdown control valve is arranged on an auxiliary blowdown pipeline of the blowdown pipeline, the pressure reducing valve is arranged on the water inlet pipeline and is close to the water inlet filter, the first multichannel control valve is provided with a plurality of channels, a water inlet port and a water outlet port of the first reaction filter are connected with the first multichannel control valve, the water inlet pipeline and the water outlet pipeline are connected with the first multichannel control valve, the main blowdown pipeline is connected with the first multichannel control valve,

wherein, the large-traffic filtration station that intakes includes four kinds of mode:

in the filtering mode, the incoming water at the water inlet is filtered by the water inlet filter, then is decompressed by the decompression valve, then enters the first reaction filter through the first multi-channel control valve to be subjected to coarse filtration, then is subjected to fine filtration through the water outlet filter, and finally is discharged from the water outlet;

a positive flushing mode in which the incoming water at the water inlet is filtered through the water inlet filter, then depressurized through the depressurization valve, then enters the first reaction filter through the first multi-channel control valve, and then flows to the main drain pipe to be discharged through the first multi-channel control valve;

a back flushing mode, in which the incoming water from the water inlet is filtered through the water inlet filter, then depressurized through the depressurization valve, then back flushed through the first multi-channel control valve to the first reaction filter, and finally discharged through the main sewage discharge pipeline;

the back flushing mode is deep cleaning, the back flushing mode is the same as the water flow flowing direction of the back flushing mode, the back flushing mode is used for deep cleaning of the first reaction filter according to the internal pressure value of the first reaction filter, and the cleaning wastewater is discharged through the main sewage discharge pipeline.

Further, the high-flow water inlet filtering station further comprises a second reaction filter and a second multichannel control valve, and the second reaction filter and the second multichannel control valve are communicated with the water inlet pipeline, the water outlet pipeline and the sewage discharge pipeline.

Further, the high-flow water inlet filtering station further comprises a pressure sensor, wherein the pressure sensor is arranged at the water inlet position and the water outlet position of the water inlet filter, the water outlet filter, the first reaction filter and the second reaction filter.

Further, the water inlet filter adopts a basket filter, the water outlet filter adopts a Y-shaped filter, and the first reaction filter and the second reaction filter both adopt fiber ball filters.

Further, the method comprises the steps of, the blowdown control valve, the first multichannel control valve and the second multichannel control valve are electrically controlled to realize opening and closing of the electric signal control valve.

Further, the large-flow water inlet filtering station further comprises an electric cabinet, wherein the electric cabinet comprises a control panel and a pressure gauge set, the pressure gauge set is connected with the pressure sensor, and the control panel is connected with the pressure gauge set.

Further, the high-flow water inlet filtering station further comprises a liquid outlet liquid collector, and the liquid outlet liquid collector is connected with one end of the water outlet pipeline.

Further, the drain outlets of the water inlet filter and the water outlet filter are connected with the auxiliary drain pipeline.

Compared with the prior art, according to the large-flow water inlet filtering station provided by the embodiment of the utility model, the filtering component is connected into the sewage discharge pipeline and the electric cabinet provided with different flushing programs while ensuring the filtering effect by arranging the multi-channel control valve to realize the directions of water inlet and water outlet in different directions, the integration of filtering and flushing procedures is realized, the occupied area of equipment is reduced, the pressure sensor is arranged to be matched with the programs of the electric cabinet, the automatic control of the equipment is realized, the operation of personnel is reduced, the later flushing maintenance is facilitated, the labor intensity of flushing and disassembly of personnel is reduced, meanwhile, the water consumption for flushing is less, the environment-friendly and energy-saving effect is realized, and the suspended matters in water are effectively removed by the filtering component, and the filtering effect is improved.

Drawings

FIG. 1 is a schematic view of the overall elevation of a high flow influent filter station of the present utility model; and

FIG. 2 is a schematic view of the overall plan structure of a high flow influent filter station of the present utility model.

Reference numerals:

1. a water inlet pipeline; 101, a water inlet;

2. a water outlet pipeline; 201, a water outlet;

3. a sewage discharge pipeline; 301. a main sewage discharge pipeline; 302. an auxiliary sewage discharge pipeline;

4. a water inlet filter; 5. a water outlet filter; 6. a first reaction filter; 7. a second reaction filter; 8. a blowdown control valve; 9. a first multi-channel control valve; 10. a second multi-channel control valve; 11. an electric control box; 1101. a control panel; 1102. a pressure gauge set; 12. a liquid outlet and collector; 13. a pressure reducing valve; 14. and a bleed valve.

Detailed Description

For a further understanding of the objects, construction, features, and functions of the utility model, reference should be made to the following detailed description of the preferred embodiments.

Referring to fig. 1-2, a high-flow influent water filtering station according to an embodiment of the present utility model includes:

a water inlet pipeline 1, wherein a water inlet 101 is arranged on the water inlet pipeline 1;

a water outlet pipeline 2, wherein a water outlet 201 is arranged on the water outlet pipeline 2;

the sewage disposal pipeline 3, the sewage disposal pipeline 3 comprises a main sewage disposal pipeline 301 and an auxiliary sewage disposal pipeline 302, and the auxiliary sewage disposal pipeline 302 is connected with the main sewage disposal pipeline 301;

the filter assembly comprises a water inlet filter 4, a water outlet filter 5 and a first reaction filter 6, wherein the water inlet filter 4 is arranged on the water inlet pipeline 1 and is close to the water inlet 101, and the water outlet filter 5 is arranged on the water outlet pipeline 2 and is close to the water outlet 201;

a control valve comprising a blowdown control valve 8, a first multi-channel control valve 9 and a pressure reducing valve 13, wherein the blowdown control valve 8 is arranged on an auxiliary blowdown pipeline 302 of the blowdown pipeline 3, the pressure reducing valve 13 is arranged on the water inlet pipeline 1 and is close to the water inlet filter 4, the first multi-channel control valve 9 is provided with a plurality of channels, the water inlet port and the water outlet port of the first reaction filter 6 are connected with the first multi-channel control valve 9, the water inlet pipeline 1 and the water outlet pipeline 2 are connected with the first multi-channel control valve 9, the main blowdown pipeline 301 is connected with the first multi-channel control valve 9,

wherein, the large-traffic filtration station that intakes includes four kinds of mode:

a filtration mode in which the incoming water of the water inlet 101 is filtered through the water inlet filter 4, then depressurized through the depressurization valve 13, then enters the first reaction filter 6 through the first multi-channel control valve 9 to be coarsely filtered, then finely filtered through the water outlet filter 5, and finally discharged through the water outlet 201;

a positive washing mode in which the incoming water of the water inlet 101 is filtered 4 through the water inlet filter, then depressurized through the depressurization valve 13, then enters the first reaction filter 6 through the first multi-channel control valve 9, and then flows to the main drain pipe 301 by the first multi-channel control valve 9 to be discharged; the positive flushing mode mainly considers flushing residual liquid residues in the water inlet pipeline and the first reaction filter;

a back flushing mode in which the incoming water from the water inlet 101 is filtered through the water inlet filter 4, then depressurized through the depressurization valve 13, then back flushed through the first reaction filter 6 through the first multi-channel control valve 9, and finally discharged through the main drain line 301; the back flushing mode is to perform preliminary cleaning on the first reaction filter;

the back flush mode is deep cleaning, the back flush mode is the same as the water flow direction of the back flush mode, the back flush mode carries out deep cleaning on the first reaction filter 6 according to the internal pressure value of the first reaction filter 6, and the cleaning wastewater is discharged through the main sewage discharge pipeline 301. The back flushing mode repeatedly washes the first reaction filter and washes the filter element in the first reaction filter.

Further, the high-flow water inlet filtering station further comprises a second reaction filter 7 and a second multi-channel control valve 10, and the second reaction filter 7 and the second multi-channel control valve 10 are communicated with the water inlet pipeline 1, the water outlet pipeline 2 and the sewage discharge pipeline 3. The second reaction filter and the second multichannel control valve are arranged for standby in the production filtration process and used for emergency use, and the production efficiency can be ensured by simultaneous use.

Further, the high-flow water inlet filtering station further comprises a pressure sensor, wherein the pressure sensor is arranged at the water inlet position and the water outlet position of the water inlet filter, the water outlet filter, the first reaction filter and the second reaction filter. The pressure sensor can measure the pressure everywhere in real time.

Further, the water inlet filter 4 adopts a basket filter, the water outlet filter 5 adopts a Y-shaped filter, and the first reaction filter 6 and the second reaction filter 7 both adopt fiber ball filters. The basket filter and the Y-shaped filter have the advantages of compact structure, large filtering capacity, small pressure loss, convenient maintenance and the like, and the fiber ball filter has strong interception of wastewater suspended matters, high hydrophilicity, oleophobicity, higher decontamination capability and high backwashing performance.

Further, the blowdown control valve 8, the first multi-channel control valve 9 and the second multi-channel control valve 10 are all electrically controlled to realize opening and closing of the valves controlled by electric signals. The blowdown control valve, the first multichannel control valve and the second multichannel control valve are controlled by the electric cabinet, so that mechanized operation is realized, and the time for opening or closing the control valve by personnel is reduced.

Further, the high-flow water inlet filtering station further comprises an electric cabinet 11, the electric cabinet comprises a control panel 1101 and a pressure gauge set 1102, the pressure gauge set 1102 is connected with the pressure sensor, and the control panel 1101 is connected with the pressure gauge set 1102. The pressure gauges on the pressure gauge group represent independent data of each pressure sensor, the control panel decides to control the opening or closing of the control valve according to the pressure values of all the pressure gauges on the pressure gauge group, and the control panel is provided with four mode switching programs, so that different cleaning modes are selected, and the corresponding cleaning effect is achieved.

Further, the high-flow water inlet filtering station further comprises a liquid outlet liquid collector, and the liquid outlet liquid collector is connected with one end of the water outlet pipeline. The liquid outlet liquid collector is used for collecting the filtered waste water and waiting for the next working procedure.

Further, the drain outlets of the water inlet filter and the water outlet filter are connected with the auxiliary drain pipeline. And discharging the impurities or suspended matters filtered in the water inlet filter and the water outlet filter to an auxiliary sewage discharge pipeline.

Preferably, as shown in fig. 2, the high-flow water intake filtering station further comprises a bleed valve 14, the bleed valve 14 being arranged on top of the first and second reaction filters 9 and 10, respectively. The air release valve discharges the air generated by the filtration in the first reaction filter and the second reaction filter through the air release valve.

In the embodiment of the utility model, when an electric cabinet control program is adjusted to a filtering mode, wastewater containing a large amount of impurities and suspended matters enters a water inlet pipeline from a water inlet, the wastewater is filtered by a water inlet filter (basket filter), the large-particle impurities are intercepted and settled into an auxiliary sewage discharging pipeline, pressure is transmitted to a pressure gauge set arranged at the water inlet and the water outlet of the water inlet filter by pressure sensors arranged at the water outlet of the electric cabinet, the pressure and the flow rate of water outlet are controlled by a pressure reducing valve through a pressure value measured in real time, at the moment, the electric cabinet controls a first multichannel control valve to open a corresponding passage, the primarily filtered wastewater flows to a first reaction filter after passing through the pressure reducing valve, and finally flows to a water outlet pipeline provided with a water outlet filter for final filtering, so that the quality of the wastewater flowing into a liquid collector is ensured.

In the embodiment of the utility model, the electric cabinet is provided with different cleaning modes, namely a positive flushing mode, a backflushing mode and a backflushing mode, wherein in the positive flushing mode, after the water passing through the water inlet is depressurized by the pressure reducing valve, residual liquid inside the water inlet pipeline, the water outlet pipeline and the first reaction filter is cleaned; if the first reaction filter needs to be further cleaned, two modes of back flushing or back flushing on the electric cabinet are selected according to different cleanliness, and the water inlet flow channels under the two modes are the same, but the back flushing and the back flushing are different in flushing water pressure, the back flushing mode can only primarily clean the inside of the first reaction filter, and the back flushing mode can deeply clean the filter element of the first reaction filter.

According to the high-flow water inlet filtering station provided by the embodiment of the utility model, the water inlet basket filter (water inlet filter), the water outlet Y-shaped filter (water outlet filter) and the two groups of fiber ball reactors (the first reaction filter and the second reaction filter) are arranged, so that the filtering precision is improved, suspended matters in water can be effectively removed, meanwhile, the high-flow water inlet filtering station has obvious removing effect on bacteria, viruses, macromolecular organic matters, colloid, iron, manganese and the like in water, the highest precision can reach 40 microns, and the filtering speed is high. According to the utility model, the filtering assembly and the sewage discharge pipeline are arranged to realize the filtering and cleaning procedures, so that the integration level is high, and the occupied area is small. According to the utility model, the electric cabinet and the plurality of electric control valves are arranged, so that the control of a plurality of channels is realized, the automation capacity is improved, and excessive manual participation is reduced. In the utility model, the system in the electric cabinet can automatically adjust the multichannel control valve to change the internal water inlet and outlet directions of each working condition according to the pressure difference or time setting of the pressure sensor, so that the water consumption of back washing is low. In the utility model, each component is made of stainless steel, the filter material is high in reliability, after the filter material is polluted, the quick cleaning is realized by starting the forward flushing, back flushing and back flushing modes arranged in the electric cabinet, the filtering performance of the filter material is recovered, residual liquid residues in the water inlet pipeline, the water outlet pipeline and the first reaction filter are removed, and the service life of each component is prolonged. According to the utility model, the second reaction filter and the second multi-channel control valve are used as standby settings, so that when the first reaction filter and the first multi-channel control valve fail, the first reaction filter and the first multi-channel control valve are switched in time, the production efficiency is ensured, the downtime is reduced, and the efficiency is improved.

In the description of the present utility model, it should be understood that the terms "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer" orientation or positional relationship are merely for convenience of description and to simplify the description, but do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model.

The utility model has been described with respect to the above-described embodiments, however, the above-described embodiments are merely examples of practicing the utility model. It should be noted that the disclosed embodiments do not limit the scope of the utility model. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model.

Claims (8)

1. A high flow influent filter station comprising:

the water inlet pipeline is provided with a water inlet;

the water outlet pipeline is provided with a water outlet;

the sewage disposal pipeline comprises a main sewage disposal pipeline and an auxiliary sewage disposal pipeline, and the auxiliary sewage disposal pipeline is connected with the main sewage disposal pipeline;

the filtering assembly comprises a water inlet filter, a water outlet filter and a first reaction filter, wherein the water inlet filter is arranged on the water inlet pipeline and is close to the water inlet, and the water outlet filter is arranged on the water outlet pipeline and is close to the water outlet;

the control valve comprises a blowdown control valve, a first multichannel control valve and a pressure reducing valve, the blowdown control valve is arranged on an auxiliary blowdown pipeline of the blowdown pipeline, the pressure reducing valve is arranged on the water inlet pipeline and is close to the water inlet filter, the first multichannel control valve is provided with a plurality of channels, a water inlet port and a water outlet port of the first reaction filter are connected with the first multichannel control valve, the water inlet pipeline and the water outlet pipeline are connected with the first multichannel control valve, the main blowdown pipeline is connected with the first multichannel control valve,

wherein, the large-traffic filtration station that intakes includes four kinds of mode:

in the filtering mode, the incoming water at the water inlet is filtered by the water inlet filter, then is decompressed by the decompression valve, then enters the first reaction filter through the first multi-channel control valve to be subjected to coarse filtration, then is subjected to fine filtration through the water outlet filter, and finally is discharged from the water outlet;

a positive flushing mode in which the incoming water at the water inlet is filtered through the water inlet filter, then depressurized through the depressurization valve, then enters the first reaction filter through the first multi-channel control valve, and then flows to the main drain pipe to be discharged through the first multi-channel control valve;

a back flushing mode, in which the incoming water from the water inlet is filtered through the water inlet filter, then depressurized through the depressurization valve, then back flushed through the first multi-channel control valve to the first reaction filter, and finally discharged through the main sewage discharge pipeline;

the back flushing mode is deep cleaning, the back flushing mode is the same as the water flow flowing direction of the back flushing mode, the back flushing mode is used for deep cleaning of the first reaction filter according to the internal pressure value of the first reaction filter, and the cleaning wastewater is discharged through the main sewage discharge pipeline.

2. The high flow influent filter station of claim 1, further comprising a second reaction filter and a second multichannel control valve, the second reaction filter and the second multichannel control valve being in communication with the water inlet line, the water outlet line, and the blowdown line.

3. The high flow influent filter station of claim 1, further comprising a pressure sensor disposed at the influent and effluent locations of the influent, effluent, first and second reaction filters.

4. The high flow influent filter station of claim 2, wherein the influent filter is a basket filter, the effluent filter is a Y-filter, and the first and second reaction filters are fibrous ball filters.

5. The high flow intake filter station of claim 2, wherein the blowdown control valve, the first multichannel control valve and the second multichannel control valve are all electronically controlled to effect opening and closing of the electrical signal control valves.

6. A high flow water filtration station according to claim 3, further comprising an electric cabinet comprising a control panel and a pressure gauge set, the pressure gauge set being connected to the pressure sensor, the control panel being connected to the pressure gauge set.

7. The high flow inlet filtration station of claim 5, further comprising an outlet accumulator connected to one end of the outlet conduit.

8. The high flow influent filter station of claim 4, wherein the influent filter and the effluent filter drain are connected to the auxiliary drain line.