CN214653812U - Pipeline arrangement structure based on Eco-iGDM technology - Google Patents

Abstract

The utility model discloses a pipeline arrangement structure based on Eco-iGDM technique, including a plurality of milipore filter components, milipore filter component top all is equipped with delivery port and water inlet, the delivery port is connected with outlet conduit, the water inlet is connected with the inlet channel, outlet conduit and inlet channel distribute respectively in first side and second side of membrane pond after milipore filter component top, outlet conduit communicates with circulation system and communicates with producing the water mouth, circulation system is located the below of membrane pond, circulation system communicates with the membrane pond inside through circulation pipeline, the backwash device is equipped with the backwash pipeline, the backwash pipeline communicates with the outlet conduit after the second side, the inlet conduit communicates with the belt cleaning device, the belt cleaning device communicates with the dosing tank and all sets up in the below of backwash pipeline; the utility model has the advantages that: the pipeline is arranged reasonably, a maintenance personnel operation space is reserved, maintenance and repair are facilitated, and the service lives of the pipeline and equipment are effectively prolonged.

Description

Pipeline arrangement structure based on Eco-iGDM technology

Technical Field

The utility model belongs to the technical field of the water treatment, concretely relates to pipeline structure of arranging based on Eco-iGDM technique.

Background

The Eco-iGDM equipment integrates a membrane pool, a pipeline, a valve, an automatic control and a cloud platform into a whole by taking an immersed ultrafiltration membrane as a core treatment process, a port of a peripheral pipeline is reserved on the equipment, the equipment is connected with the peripheral pipeline such as a water inlet pipe, a water supply pipe and a sewage discharge pipe after arriving at the site, and water can be introduced after the system is debugged, so that the Eco-iGDM equipment is simple to install, the site workload is greatly reduced, and the Eco-iGDM equipment has the characteristic of short construction period. The system adopts full-automatic control, and the cloud platform of the Internet of things is used for remote monitoring, so that the operation is simple, the operation management is convenient, and the system is widely applied to small and medium-sized water supply plants in villages and small towns.

The ultrafiltration membrane process has the removal rate of bacteria, viruses, algae, red worms, young eggs and the like in water bodies as high as 99.99 percent, common ultrafiltration membrane columns comprise tubular membranes, hollow fibers, plate frame type membranes, roll type membranes and the like, and currently, the municipal water supply generally adopts hollow fiber membranes which are divided into internal pressure type and external pressure type. In practical application, the ultrafiltration membrane module comprises two forms of a columnar membrane and an immersed membrane, wherein the columnar membrane is used for containing the membrane element in a container. The columnar membrane is generally pressed into the container by a pump to be filtered, and can bear higher pressure. The columnar membrane can be an internal pressure type or an external pressure type; the immersed ultrafiltration membrane is a membrane form in which a hollow fiber membrane is immersed in a water tank or a water pool and is filtered by means of a water head difference between the front and the rear or a suction pump, and the immersed membrane belongs to an external pressure type.

Because the pipeline of the existing integrated ultrafiltration water purification equipment is arranged compactly, staggered and complex, when the pipeline and the equipment are required to be maintained or repaired, maintenance personnel cannot reach the designated maintenance or repair point conveniently, the maintenance or repair is not timely caused or the pipeline or the equipment is required to be disassembled for maintenance or repair, the maintenance or repair of the water purification equipment cannot be finished in a short time, water supply stations often stop water supply, the inconvenience of life is brought to water using personnel, and in addition, the maintenance cost of the integrated ultrafiltration water purification equipment is increased due to the inconvenience of the maintenance and repair.

Disclosure of Invention

An object of the utility model is to overcome above-mentioned limitation, ensure again that the pipeline arranges the compactness, save under the prerequisite of pipeline occupation space, provide a reasonable pipeline that fits practical use and arrange, this pipeline is arranged and is reserved maintenance personal operation space, is convenient for maintain and maintenance to avoid because of maintaining the pipeline structure of arranging that the long and maintenance cost is high based on Eco-iGDM technique of cutting off the water supply time that causes to the at utmost.

The purpose of the utility model is realized through the following technical scheme: the utility model provides a pipeline arrangement structure based on Eco-iGDM technique, including a plurality of milipore filter subassembly, milipore filter subassembly top all is equipped with delivery port and water inlet, the delivery port is connected with outlet conduit, the water inlet is connected with the inlet channel, outlet conduit and inlet channel distribute respectively in the first side and the second side of membrane pond after the milipore filter subassembly top, outlet conduit communicates with circulation system and communicates with each other with producing the water mouth, circulation system is located the below of membrane pond, circulation system passes through circulation pipeline and the inside intercommunication of membrane pond, backwash device is equipped with the backwash pipeline, the backwash pipeline communicates with outlet conduit after passing through the second side, inlet conduit and belt cleaning device intercommunication, belt cleaning device and dosing tank intercommunication just all set up in the below of backwash pipeline.

Preferably, the first side and the second side of the membrane tank are both provided with a first access opening.

Preferably, a second access hole is formed among the plurality of ultrafiltration membrane assemblies, and a walkway leading to the outside of the membrane pool is arranged on one side of the second access hole.

Preferably, the cleaning device is connected with a clean water inlet, and the clean water inlet and the water production port are arranged on the same side of the membrane pool.

Preferably, the bottom in the membrane pool is provided with an aeration device, an air inlet pipe connected with the aeration device is positioned below the membrane pool, and an inflator pump connected with the air inlet pipe is positioned on one side of the first access hole.

To sum up, the utility model has the advantages of it is following: the device has the advantages that the device is reasonable in arrangement of pipelines, convenient to control, maintain and maintain all the pipelines, meanwhile, the operation space of maintenance personnel is reserved in the membrane pool, so that the problems of long water cut-off time and high maintenance cost caused by maintenance are avoided to the maximum extent, the arrangement of space equipment is accurately divided by the whole device, the equipment integration level is obviously improved, the treatment process is compact, after the equipment with the pipeline arrangement arrives at the site, the equipment is only connected with peripheral pipelines such as a water inlet pipe, a water supply pipe and a sewage discharge pipe, water passing can be completed after debugging the system, the installation is simple, the field workload is greatly reduced, the whole membrane pool structure takes 'ultrafiltration technology' as a core based on the Eco-iGDM technology, the advancement of the design concept of a water plant is reflected, and the device is widely suitable for small and medium-sized water supply plants in villages and towns.

Drawings

FIG. 1 is a block diagram of the present invention;

reference numbers in the figures: 1-an ultrafiltration membrane component, 2-a water outlet, 3-a water inlet, 4-a water outlet pipeline, 5-a water inlet pipeline, 6-a membrane pool, 7-a first side, 8-a second side, 9-a circulating system, 10-a backwashing device, 11-a backwashing pipeline, 12-a cleaning device, 13-a dosing tank, 14-a water producing port, 15-a first overhaul port, 16-a second overhaul port, 17-a footpath, 18-a clear water inlet, 19-a circulating pipeline, 20-an aeration device, 21-an air inlet pipe and 22-an inflator pump.

Detailed Description

In order to deepen the understanding of the present invention, the present invention will be further described in detail with reference to the following embodiments and the attached drawings, and the embodiments are only used for explaining the present invention, and do not constitute the limitation to the protection scope of the present invention.

As shown in figure 1, the utility model provides a pipeline arrangement structure based on Eco-iGDM technology, including a plurality of ultrafiltration membrane components 1, ultrafiltration membrane components 1 all are equipped with delivery port 2 and water inlet 3 at the top, delivery port 2 is connected with outlet conduit 4, water inlet 3 is connected with inlet conduit 5, outlet conduit 4 and inlet conduit 5 distribute respectively in first side 7 and second side 8 of membrane pool 6 after ultrafiltration membrane components 1 top, outlet conduit 4 communicates with circulation system 9 and communicates with product mouth 14, circulation system 9 is located the below of membrane pool 6, circulation system 9 communicates with the inside of membrane pool 6 through circulation pipeline 19, circulation system 9 imports ultrafiltration product water into membrane pool 6 through circulation pipeline 19, carry out aeration cleaning once more, backwash device 10 is equipped with backwash pipeline 11, backwash pipeline 11 communicates with outlet conduit 4 after second side 8, namely, when backwashing is carried out, the water outlet pipeline 4 is used for 2 water inlet; the water inlet pipeline 5 is communicated with the cleaning device 12 and used for providing a backwashing water source for the ultrafiltration membrane, the cleaning device 12 is communicated with the dosing tank 13 and is arranged below the backwashing pipeline 11, and the dosing tank 13 is internally provided with an acidic medicament bin and an alkaline medicament bin for chemical cleaning of the ultrafiltration membrane.

The first side 7 and the second side 8 of the membrane pool 6 are both provided with a first access hole 15, the bottom in the membrane pool 6 is provided with an aeration device 20, an air inlet pipe 21 connected with the aeration device 20 is positioned below the membrane pool 6, and an inflator pump 22 connected with the air inlet pipe 21 is positioned on one side of the first access hole 15. The water outlet pipeline 4, the water inlet pipeline 5 and the backwashing pipeline 11 are arranged at the access hole, so that the pipelines can be conveniently overhauled and maintained, and meanwhile, the switch valve of the pipelines and the air inlet inflator pump 22 can be arranged at the access hole, so that the maintenance and the maintenance are also convenient.

Be equipped with second access hole 16 between a plurality of milipore filter subassemblies 1, second access hole 16 one side is equipped with the pavement 17 that leads to outside the membrane pond 6, and the maintenance personnel of being convenient for of setting up of second access hole 16 maintain the maintenance to the inside of milipore filter subassembly 1 and the inside of membrane pond 6.

The cleaning device 12 is connected with a clean water inlet 18, and the clean water inlet 18 and the water producing port 14 are arranged on the same side of the membrane pool 6, so that a water source can be conveniently collected.

Claims (5)

1. A pipeline arrangement structure based on Eco-iGDM technology is characterized in that: the device comprises a plurality of ultrafiltration membrane assemblies (1), wherein the tops of the ultrafiltration membrane assemblies (1) are respectively provided with a water outlet (2) and a water inlet (3), the water outlet (2) is connected with a water outlet pipeline (4), the water inlet (3) is connected with a water inlet pipeline (5), the water outlet pipeline (4) and the water inlet pipeline (5) are respectively distributed on a first side (7) and a second side (8) of a membrane pool (6) after passing through the tops of the ultrafiltration membrane assemblies (1), the water outlet pipeline (4) is communicated with a circulating system (9) and communicated with a water production port (14), the circulating system (9) is positioned below the membrane pool (6), the circulating system (9) is communicated with the inside of the membrane pool (6) through a circulating pipeline (19), the device further comprises a backwashing device (10), the backwashing device (10) is provided with a backwashing pipeline (11), the backwashing pipeline (11) is communicated with the water outlet pipeline (4) after passing through the second side (8), the water inlet pipeline (5) is communicated with the cleaning device (12), and the cleaning device (12) is communicated with the dosing tank (13) and is arranged below the backwashing pipeline (11).

2. The Eco-iGDM-based pipe arrangement of claim 1, wherein: and the first side (7) and the second side (8) of the membrane tank (6) are both provided with a first access hole (15).

3. The Eco-iGDM-based pipe arrangement of claim 1, wherein: a second access hole (16) is arranged among the ultrafiltration membrane assemblies (1), and a footpath (17) leading to the outside of the membrane pool (6) is arranged on one side of the second access hole (16).

4. The Eco-iGDM-based pipe arrangement of claim 1, wherein: the cleaning device (12) is connected with a clean water inlet (18), and the clean water inlet (18) and the water production port (14) are arranged on the same side of the membrane pool (6).

5. The Eco-iGDM-based pipe arrangement of claim 1, wherein: an aeration device (20) is arranged at the bottom in the membrane pool (6), an air inlet pipe (21) connected with the aeration device (20) is positioned below the membrane pool (6), and an inflator pump (22) connected with the air inlet pipe (21) is positioned on one side of the first access hole (15).

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