CN211170164U - Intelligent urban sewage collection and treatment device based on BIM and GIS - Google Patents

Abstract

The utility model provides a BIM and GIS based smart city sewage collection and treatment device, which comprises an electrical control cabinet, a collection mechanism, a booster pump, a sedimentation tank, a degerming mechanism, a purification mechanism, a clean water tank and a metering dosing pump, the gas-liquid mixing pump, an ozone generator, the arrangement of the collection mechanism and the metering dosing pump, when sewage enters the collection mechanism, the hanging basket filters large granular impurities in the sewage, regularly cleans impurities in the hanging basket, ensures normal operation of the hanging basket, silt and the like in the sewage are settled in the collection tank, regularly cleans the silt in the collection tank through a mud cleaning cover, ensures normal operation of the collection mechanism, the ozone generator generates ozone, ozone is fully dissolved in the sewage through the gas-liquid mixing pump, improves the degerming effect of the ozone, the electrical control cabinet controls the metering dosing pump to be electrified to operate, and conveys the coagulation liquid into the sedimentation tank through a pipeline, reduce COD and BOD value of the sewage and achieve the effect of purifying the sewage.

Description

Intelligent urban sewage collection and treatment device based on BIM and GIS

Technical Field

The utility model belongs to the technical field of sewage treatment, especially, relate to a wisdom urban sewage collects and administers device based on BIM and GIS.

Background

Along with the continuous development of our society, the continuous expansion of urban scale, the continuous increase of urban water consumption and water discharge, the aggravation of water shortage and water pollution, the increasingly prominent environmental problems, the lagged sewage treatment industry behind the urban development needs, the technology lags behind, for a long time, our sewage treatment technology is a route and a treatment technology which are all along the last century in European and American countries, namely AB method, A/0 method, A/A/0 method, CASS method, SBR method, oxidation ditch method and the like which are popularized at present, and is also the improvement of active sludge method and biochemical method, the sludge is the inevitable associated product of the existing sewage treatment, the water quantity is huge, the sludge accumulates the wanted harmful substances in sewage treatment, the sludge has complex components, contains pathogenic microorganisms, parasitic ova, toxic and harmful heavy metals and a large amount of difficultly-degradable substances, if the treatment is improper, secondary pollution to the environment is very easy to cause.

Chinese patent publication No. CN 108658352 a, entitled a comprehensive treatment method for municipal domestic sewage, which comprises removing floating materials from sewage, receiving the sewage from a flow control tank, injecting microbubbles to float and remove floating contaminants contained in the sewage, and filtering the sewage from which the floating contaminants have been removed by using at least one pressure-resistant filtering apparatus to discharge treated water; backwash wastewater discharged by the backwashing pressure-resistant filtering device is filtered by at least one immersed filtering device and then returns to the flow regulator, the backwash wastewater discharged by the backwashing immersed filtering device is concentrated and collected in an immersed filtering tank provided with the immersed filtering device, sludge can be dewatered and discharged by a sludge dewatering machine, a polydopamine-modified porous matrix is added in the immersed filtering tank, heavy metals in sewage can be adsorbed on the one hand, and filtered water can be evaporated and collected by a water vapor collector to enter a water container on the other hand. But current municipal sewage treatment plant lacks pretreatment mechanism, and large granule impurity influences subsequent processing operation in the sewage, reduces sewage treatment efficiency, lacks degerming mechanism, and quality of water after influence such as bacterium, organic matter in the sewage is handled, is unfavorable for the recycle of sewage, and sewage treatment is not thorough, causes the problem of the waste of water resource.

Therefore, the invention of the intelligent urban sewage collection and treatment device based on the BIM and the GIS is very necessary.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a wisdom urban sewage collects treatment device based on BIM and GIS to solve current urban sewage treatment device and lack pretreatment mechanism, large granule impurity influences subsequent processing operation in the sewage, reduces sewage treatment efficiency, lacks degerming mechanism, and bacterium, organic matter etc. in the sewage influence the back quality of water of handling, are unfavorable for the recycle of sewage, and sewage treatment is not thorough, causes the problem of the waste of water resource. A smart urban sewage collection and treatment device based on BIM and GIS comprises an electrical control cabinet, a collection mechanism, a booster pump, a sedimentation tank, a sterilization mechanism, a purification mechanism, a clean water tank and a metering dosing pump, wherein the sedimentation tank is fixed on the right side of the collection mechanism through bolts and is connected with the collection mechanism through a pipeline, and the pipeline is provided with the booster pump; the metering dosing pump is fixed above the sedimentation tank through bolts and is respectively connected with the sedimentation tank and the coagulation liquid through pipelines; the electric control cabinet is fixed on the front side of the sedimentation tank through bolts; the degerming mechanism is fixed on the right side of the sedimentation tank through bolts and connected with the sedimentation tank through a pipeline, and a booster pump is arranged on the pipeline; the purification mechanism is fixed on the right side of the degerming mechanism through a bolt and is connected with the degerming mechanism through a pipeline; the clean water tank is fixed on the right side of the purification mechanism through bolts, is connected with the purification mechanism through a pipeline, and is provided with a liquid level meter and a water outlet valve, and the pipeline is provided with a booster pump.

The collecting mechanism comprises a collecting pool, a mud removing cover, a hanging basket and a flowmeter, wherein the mud removing cover is fixed in the middle position below the front side of the collecting pool through threads and is provided with a sealing gasket; the hanging basket is fixed on the inner wall of the collecting tank through bolts, and the upper end of the hanging basket penetrates through the outer side of the collecting tank; the flowmeter is fixed on a water inlet pipeline on the left side of the collecting tank through a bolt and is positioned above the hanging basket.

The degerming mechanism comprises a degerming pool, an ozone generator and a gas-liquid mixing pump, wherein the ozone generator is fixed on the left side above the degerming pool through bolts; the gas-liquid mixing pump is fixed above the sterilization tank through bolts and is respectively connected with the ozone generator and the sterilization tank through pipelines.

The ozone generator is connected with the electrical control cabinet through a lead, the F L-8A type is selected, the gas-liquid mixing pump is connected with the electrical control cabinet through a lead, the GH-QYHHB-63R type is selected, the electrical control cabinet controls the ozone generator and the gas-liquid mixing pump to be electrified and operated, the ozone generator generates ozone, the ozone is fully dissolved in the sewage through the gas-liquid mixing pump, the ozone is fully contacted with the sewage, the sterilization effect of the ozone is improved, bacteria, organic matters and the like in the sewage are removed, and the recovery utilization rate of the sewage is improved.

The purification mechanism comprises a purification box, two filter screens, an activated carbon layer, a resin ball layer and an RO (reverse osmosis) membrane layer, wherein the two filter screens are fixed on two sides in the purification box through bolts; the activated carbon layer is fixed inside the purifying box through bolts and is positioned between the filter screens; the resin ball layer is fixed in the purification box through bolts and is positioned on the right side of the activated carbon layer; the RO membrane layer is fixed in the purification box through bolts and is positioned on the right side of the resin ball layer.

The booster pump is connected with the electric control cabinet through a lead, and is of a 40-125-3KW type; the metering dosing pump is connected with an electrical control cabinet through a wire, the GM0240 model is selected, the electrical control cabinet controls the metering dosing pump to be electrified and operated, the coagulation liquid is conveyed into a sedimentation tank through a pipeline, the COD (chemical oxygen demand) and BOD (biochemical oxygen demand) values of the sewage are reduced, and the effect of purifying the sewage is achieved.

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

1. the utility model discloses a setting of gas-liquid mixture pump and ozone generator, electrical control cabinet control ozone generator and gas-liquid mixture pump circular telegram operation, ozone generator produce ozone, make ozone fully dissolve in sewage through the gas-liquid mixture pump, make ozone and sewage fully contact, improve the degerming effect of ozone, detach bacterium, organic matter etc. in the sewage, improve the recycle ratio of sewage.

2. The utility model discloses a collection mechanism's setting, when sewage got into collection mechanism, large granule impurity in the hanging flower basket filtering sewage was favorable to subsequent processing operation, regularly clears up the impurity in the hanging flower basket, guarantees hanging flower basket normal operating, and silt etc. in the sewage subsides in collecting the pond, through the silt of clear mud lid regular clearance in the collection pond, guarantees to collect mechanism normal operating.

3. The utility model discloses a setting of purification mechanism, sewage are when purification mechanism, and peculiar smell, pigment etc. in the sewage are adsorbed on the activated carbon layer, and nitrate, sulfate etc. in the sewage are filtered on the resin ball layer, and metal ion in the sewage is filtered on the RO membrane layer, reaches the purpose of thoroughly purifying sewage, enlarges the application scope of handling the back water resource.

4. The utility model discloses a setting of measurement dosing pump, electrical control cabinet control measurement dosing pump circular telegram operation will mix in the condensate liquid carries the sedimentation tank through the pipeline in, reduces COD, the BOD value of sewage, reaches the effect of purifying sewage.

Drawings

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

Fig. 2 is a schematic structural diagram of the collecting mechanism of the present invention.

Fig. 3 is a schematic structural diagram of the degerming mechanism of the present invention.

Fig. 4 is a schematic structural diagram of the purification mechanism of the present invention.

In the figure:

1-an electrical control cabinet, 2-a collection mechanism, 21-a collection tank, 22-a mud removing cover, 23-a hanging basket, 24-a flow meter, 3-a booster pump, 4-a sedimentation tank, 5-a degerming mechanism, 51-a degerming tank, 52-an ozone generator, 53-a gas-liquid mixing pump, 6-a purification mechanism, 61-a purification box, 62-a filter screen, 63-an active carbon layer, 64-a resin ball layer, 65-an RO membrane layer, 7-a clean water tank and 8-a metering dosing pump.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 4

The utility model provides a BIM and GIS based smart urban sewage collection and treatment device, which comprises an electrical control cabinet 1, a collection mechanism 2, a booster pump 3, a sedimentation tank 4, a degerming mechanism 5, a purification mechanism 6, a clean water tank 7 and a metering dosing pump 8, wherein the sedimentation tank 4 is fixed on the right side of the collection mechanism 2 through bolts and is connected with the collection mechanism 2 through a pipeline, and the pipeline is provided with the booster pump 3; the metering dosing pump 8 is fixed above the sedimentation tank 4 through bolts and is respectively connected with the sedimentation tank 4 and the coagulation liquid through pipelines; the electrical control cabinet 1 is fixed on the front side of the sedimentation tank 4 through bolts; the sterilizing mechanism 5 is fixed on the right side of the sedimentation tank 4 through bolts and is connected with the sedimentation tank 4 through a pipeline, and the pipeline is provided with a booster pump 3; the purification mechanism 6 is fixed on the right side of the degerming mechanism 5 through bolts and is connected with the degerming mechanism 5 through a pipeline; the clean water tank 7 is fixed on the right side of the purification mechanism 6 through bolts, is connected with the purification mechanism 6 through a pipeline, is provided with a liquid level meter and a water outlet valve, and is provided with a booster pump 3 on the pipeline.

The collecting mechanism 2 comprises a collecting pool 21, a mud removing cover 22, a hanging basket 23 and a flowmeter 24, wherein the mud removing cover 22 is fixed in the middle position below the front side of the collecting pool 21 through threads and is provided with a sealing gasket; the hanging basket 23 is fixed on the inner wall of the collecting tank 21 through bolts, and the upper end of the hanging basket penetrates through the outer side of the collecting tank 21; the flowmeter 24 is fixed on the water inlet pipeline on the left side of the collecting tank 21 through bolts and is positioned above the hanging basket 23.

The degerming mechanism 5 comprises a degerming pool 51, an ozone generator 52 and an air-liquid mixing pump 53, wherein the ozone generator 52 is fixed on the left side above the degerming pool 51 through bolts; the gas-liquid mixing pump 53 is fixed above the sterilizing tank 51 by bolts and is respectively connected with the ozone generator 52 and the sterilizing tank 51 by pipelines.

The ozone generator 52 is connected with the electrical control cabinet 1 through a lead, the F L-8A type is selected, the gas-liquid mixing pump 53 is connected with the electrical control cabinet 1 through a lead, the GH-QYHHB-63R type is selected, the electrical control cabinet 1 controls the ozone generator 52 and the gas-liquid mixing pump 53 to be electrified and operated, the ozone generator 52 generates ozone, the ozone is fully dissolved in the sewage through the gas-liquid mixing pump 53, the ozone is fully contacted with the sewage, the sterilization effect of the ozone is improved, bacteria, organic matters and the like in the sewage are removed, and the recovery utilization rate of the sewage is improved.

The purification mechanism 6 comprises a purification box 61, two filter screens 62, an activated carbon layer 63, a resin ball layer 64 and an RO membrane layer 65, wherein the two filter screens 62 are fixed on two sides inside the purification box 61 through bolts; the activated carbon layer 63 is fixed inside the purification box 61 and positioned between the filter screens 62 through bolts; the resin ball layer 64 is fixed inside the purification box 61 through bolts and is positioned on the right side of the activated carbon layer 63; the RO membrane layer 65 is fixed inside the purification tank 61 by bolts and is located on the right side of the resin sphere layer 64.

The booster pump 3 is connected with the electric control cabinet 1 through a lead and is of a 40-125-3KW type; the metering dosing pump 8 is connected with the electric control cabinet 1 through a wire, a GM0240 model is selected, the electric control cabinet 1 controls the metering dosing pump 8 to be electrified and operated, the coagulation liquid is conveyed into the sedimentation tank 4 through a pipeline, the COD (chemical oxygen demand) and BOD (biochemical oxygen demand) values of the sewage are reduced, and the effect of purifying the sewage is achieved.

Principle of operation

In the utility model, when in use, the electric control cabinet 1 is connected with the commercial power to supply power and control the system, the electric control cabinet 1 controls the ozone generator 52 and the gas-liquid mixing pump 53 to be electrified and operated, the ozone generator 52 generates ozone, the ozone is fully dissolved in the sewage through the gas-liquid mixing pump 53, the ozone is fully contacted with the sewage, the degerming effect of the ozone is improved, bacteria, organic matters and the like in the sewage are removed, the recovery utilization rate of the sewage is improved, the electric control cabinet 1 controls the metering dosing pump 8 to be electrified and operated, the coagulation liquid is conveyed into the sedimentation tank 4 through a pipeline, the COD and BOD value of the sewage are reduced, the effect of purifying the sewage is achieved, when the sewage enters the collecting mechanism 2, the hanging basket 23 filters large-particle impurities in the sewage, the subsequent treatment operation is facilitated, the impurities in the hanging basket 23 are regularly cleaned, the normal operation of the hanging basket 23 is ensured, regularly clear up the silt in the collecting pit 21 through mud cover 22, guarantee to collect 2 normal operating of mechanism, sewage is through purifying when mechanism 6, and peculiar smell, pigment etc. in the sewage are adsorbed to activated carbon layer 63, and nitrate, sulfate etc. in the sewage are filtered to resin ball layer 64, and metal ion in the sewage is filtered to RO rete 65, reaches the purpose of thoroughly purifying sewage, enlarges the application scope of handling the back water resource.

Utilize technical scheme, or technical personnel in the field are in the utility model discloses under technical scheme's the inspiration, design similar technical scheme, and reach above-mentioned technological effect, all fall into the utility model discloses a protection scope.

Claims (6)

1. The utility model provides a wisdom urban sewage collects administers device based on BIM and GIS which characterized in that: the device comprises an electrical control cabinet (1), a collecting mechanism (2), a booster pump (3), a sedimentation tank (4), a sterilizing mechanism (5), a purifying mechanism (6), a clean water tank (7) and a metering dosing pump (8), wherein the sedimentation tank (4) is fixed on the right side of the collecting mechanism (2) through bolts and is connected with the collecting mechanism (2) through a pipeline, and the booster pump (3) is arranged on the pipeline; the metering dosing pump (8) is fixed above the sedimentation tank (4) through bolts and is respectively connected with the sedimentation tank (4) and the coagulation liquid through pipelines; the electric control cabinet (1) is fixed on the front side of the sedimentation tank (4) through bolts; the degerming mechanism (5) is fixed on the right side of the sedimentation tank (4) through bolts and is connected with the sedimentation tank (4) through a pipeline, and a booster pump (3) is arranged on the pipeline; the purification mechanism (6) is fixed on the right side of the degerming mechanism (5) through bolts and is connected with the degerming mechanism (5) through a pipeline; the clean water tank (7) is fixed on the right side of the purification mechanism (6) through bolts, is connected with the purification mechanism (6) through a pipeline, is provided with a liquid level meter and a water outlet valve, and is provided with a booster pump (3) on the pipeline.

2. The intelligent BIM and GIS based urban sewage collection and treatment device according to claim 1, wherein: the collecting mechanism (2) comprises a collecting pool (21), a mud removing cover (22), a hanging basket (23) and a flowmeter (24), wherein the mud removing cover (22) is fixed in the middle position below the front side of the collecting pool (21) through threads and is provided with a sealing gasket; the hanging basket (23) is fixed on the inner wall of the collecting tank (21) through bolts, and the upper end of the hanging basket penetrates through the outer side of the collecting tank (21); the flowmeter (24) is fixed on a water inlet pipeline on the left side of the collecting tank (21) through bolts and is positioned above the hanging basket (23).

3. The intelligent BIM and GIS based urban sewage collection and treatment device according to claim 1, wherein: the degerming mechanism (5) comprises a degerming pool (51), an ozone generator (52) and a gas-liquid mixing pump (53), wherein the ozone generator (52) is fixed on the left side above the degerming pool (51) through bolts; the gas-liquid mixing pump (53) is fixed above the sterilizing tank (51) through bolts and is respectively connected with the ozone generator (52) and the sterilizing tank (51) through pipelines.

4. The BIM and GIS based intelligent urban sewage collection and treatment device according to claim 3, wherein the ozone generator (52) is connected with the electric control cabinet (1) through a wire, and is selected from F L-8A type, and the gas-liquid mixing pump (53) is connected with the electric control cabinet (1) through a wire, and is selected from GH-QYHHB-63R type.

5. The intelligent BIM and GIS based urban sewage collection and treatment device according to claim 1, wherein: the purification mechanism (6) comprises a purification box (61), a filter screen (62), an activated carbon layer (63), a resin ball layer (64) and an RO membrane layer (65), wherein the two filter screens (62) are fixed on two sides of the interior of the purification box (61) through bolts; the activated carbon layer (63) is fixed inside the purification box (61) through bolts and is positioned between the filter screens (62); the resin ball layer (64) is fixed inside the purification box (61) through bolts and is positioned on the right side of the activated carbon layer (63); the RO membrane layer (65) is fixed inside the purification box (61) through bolts and is positioned on the right side of the resin ball layer (64).

6. The intelligent BIM and GIS based urban sewage collection and treatment device according to claim 1, wherein: the booster pump (3) is connected with the electric control cabinet (1) through a lead, and is of a 40-125-3KW type; the metering dosing pump (8) is connected with the electric control cabinet (1) through a lead, and is GM 0240.

Images