CN215161221U - Security filtering system without shutdown - Google Patents

Abstract

The utility model relates to a non-stop security filtration system, which comprises a glass fiber reinforced plastic container, a filter element, a water inlet branch pipe, a water inlet header pipe, a steel bracket, a water production branch pipe, a water production header pipe, a pressure gauge, a discharge header pipe, an exhaust pipe, a water inlet and discharge branch pipe and a water production branch pipe, wherein the glass fiber reinforced plastic container and the filter element are connected in an O-shaped ring sealing manner to form a treatment unit, the water inlet and discharge branch pipe, the water production and discharge branch pipe, the discharge header pipe and the exhaust pipe are connected in a hot melting welding manner to form a discharge unit, the water inlet branch pipe, the water inlet header pipe, the water production branch pipe, the water production header pipe and the glass fiber reinforced plastic container are connected in a flange manner to form a water inlet unit and a water production unit, and the pressure gauge, the water inlet header pipe and the water production header pipe are connected in a hose manner to form an instrument unit, the system can be used for a pretreatment system before membrane method treatment for strong brine or seawater desalination with high chlorine content.

Description

Security filtering system without shutdown

Technical Field

The utility model relates to a strong brine or sea water desalination process technical field, concretely relates to security filtration system does not shut down.

Background

With the shortage of water resources all over the world, enterprises advocate the recycling of water resources, and particularly the membrane method technology for desalting and recycling strong brine or seawater attracts attention, but the traditional filter system is adopted in the pretreatment system before the membrane method treatment, so that the phenomena of wasting water resources, corroding containers and pipelines and frequently stopping the machine for washing the subsequent equipment frequently occur, and the membrane method has the defects of troublesome replacement, time consumption, inconvenience in maintenance and large occupied area.

At present, a pretreatment system before membrane treatment for desalting and recycling strong brine or seawater in the industry generally adopts a traditional cylinder type filter system. In the traditional system, the container is made of 304 stainless steel, and the pipeline is made of 304 pipelines, so that the container cannot bear strong brine or seawater with high chlorine content, the phenomena of container perforation, pipeline water leakage and the like frequently occur, and the later-stage investment of manpower and economy is increased; in a traditional system, a filter unit container is generally customized according to water quantity of an owner, the structure is complex, the occupied area is large, and a large number of filter elements are arranged inside the filter unit container, so that the subsequent replacement of the filter elements is time-consuming and labor-consuming, and the labor cost is increased; in traditional system, if the filter core is saturated, need stop the system of itself and follow-up equipment and carry out the renew cartridge with its, this system displacement is big and follow-up equipment need shut down and wash when renew cartridge to water waste is serious and enterprise's production can't reach the requirement that the maximize was utilized. Therefore, the traditional process can only treat strong brine or seawater with small chlorine content and water quantity and has high treatment cost, once the water quality and water quantity are changed, the conditions of water resource waste and equipment and pipeline damage are easy to occur, and the requirement of production maximization utilization of enterprises cannot be met.

With the continuous development of industrial production technology and the stricter requirements on production and utilization of enterprises, the traditional cylindrical filter system is adopted as a pretreatment system before a strong brine with high chlorine content or a seawater desalination membrane method, the water quality and the water quantity cannot meet the requirements on water resource utilization and enterprise production and utilization, and the post-treatment cost is high day by day. Therefore, there is a need for targeted improvement and optimization of conventional cartridge filter systems to meet the requirements of water resource utilization and enterprise production and utilization.

SUMMERY OF THE UTILITY MODEL

The utility model provides a do not shut down guarantor filter system has solved above technical problem.

In order to achieve the purpose, the utility model relates to a non-stop security filtration system, which comprises a glass fiber reinforced plastic container, a filter element, a water inlet branch pipe, a water inlet header pipe, a steel bracket, a water production branch pipe, a water production header pipe, a pressure gauge, a discharge header pipe, an exhaust pipe, a water inlet and drainage branch pipe and a water production drainage branch pipe, the glass fiber reinforced plastic container and the filter element are connected in an O-shaped ring sealing manner to form a processing unit, the water inlet and drainage branch pipes, the water production and drainage branch pipes, the discharge main pipe and the exhaust pipe are connected by a hot melting welding mode to form a discharge unit, the water inlet branch pipe, the water inlet header pipe, the water production branch pipe, the water production header pipe and the glass fiber reinforced plastic container are connected in a flange mode to form a water inlet unit and a water production unit, the pressure gauge, the water inlet main pipe and the water production main pipe form an instrument unit through a hose connection mode.

Further, the glass fiber reinforced plastic container adopts the glass fiber reinforced plastic material, the branch pipe of intaking the water main produce the branch pipe the water main produce the house steward the emission house steward the blast pipe intake the drainage branch pipe and produce the drainage branch pipe and all adopt the high density polyethylene material.

Furthermore, the filter element adopts a structure integrating a filter shell.

Furthermore, the water inlet branch pipe and the water production branch pipe are provided with valves.

Compared with the prior art, the utility model, its beneficial effect is:

the discharge unit, the instrument unit, the water inlet unit, the water production unit, the processing units and the steel bracket form an uninterruptible security filtering system through the connection mode of the hoops, the water inlet main pipe is connected with an external water inlet pipe interface, the discharge main pipe is connected with an external discharge pipe interface, the water production main pipe is connected with an external water production pipe interface, and the processing units run in a parallel mode

The system can be used for a pretreatment system before 'membrane method' treatment for desalting strong brine or seawater with high chlorine content, the purpose of intercepting SS in wastewater is achieved, and finally the effluent reaches the treatment requirement of subsequent equipment, so that the system has the advantage of replacing a filter element without stopping the machine, the defects of water resource waste, large occupied area, container and pipeline corrosion and manpower and financial resource consumption are overcome, the aim of maximum utilization of enterprise production is fulfilled, economic addition force is reduced, and the treatment level of desalting strong brine or seawater is greatly improved.

The application relates to a non-stop security filter system flow, which specifically comprises the following steps:

a) after the quality and quantity regulation of strong brine or seawater desalination water source, firstly, the strong brine or seawater enters a water inlet main pipe through an external water inlet pipe interface, then, the strong brine or seawater enters a processing unit from a left water inlet branch pipe or a right water inlet branch pipe through a manual selective selection, if the strong brine or seawater enters from the left side, all water inlet branch pipes on the right side and water outlet closing valve valves on a water production branch pipe are closed, all water outlet closing valve valves on the left water inlet branch pipe and the water production branch pipe are opened, then, the water source filters and intercepts SS in water through a left filtering unit, finally, the SS is collected to the water production main pipe from the left water production branch pipe, finally, the strong brine or seawater enters a rear equipment through an external water production pipe interface, if the strong brine or seawater enters from the right side, the situation is opposite to the situation that the left valve is opened, the system needs to be exhausted after running, the valve on an exhaust pipe is opened, the exhaust pipe passes through the exhaust main pipe and the external exhaust port, and after the external exhaust pipe discharges water, closing an exhaust valve on the exhaust pipe;

b) knowing the operation condition of the system through the reading on a pressure gauge, if the pressure difference between a water production main pipe and a water inlet main pipe reaches 150kpa, replacing a filter element without stopping, if a) selecting left water inlet, opening all water inlet and outlet isolating valve valves on a right water inlet branch pipe and a water production branch pipe, then closing all water inlet and outlet isolating valve valves on the left water inlet branch pipe and the water production branch pipe, if a) selecting right water inlet, the opening condition of the left valve is opposite, and after the valves are switched, exhaust treatment is required, wherein the treatment mode is the same as the step a);

c) after the partition valve is switched and the air is exhausted, performing a water drainage step and a filter element changing step, if a) selecting left side water inlet, opening all discharge valve valves on the left side water inlet branch pipe and the left side water production branch pipe, after all water in the left side treatment unit is exhausted, closing all discharge valve valves on the left side water inlet branch pipe and the left side water production branch pipe, then opening a cover plate of a left side glass fiber reinforced plastic membrane shell in a quick opening mode in sequence, drawing out the filter element, changing a new filter element, installing the cover plate, and if a) selecting right side water inlet, performing the water drainage step and the filter element changing step as same as the left side water inlet, wherein the opening condition of the left side valve is opposite;

and sequentially circulating the steps a) -b) -c) without stopping the security filter system.

To sum up the utility model provides a do not shut down guarantor filter system has solved above technical problem.

Drawings

FIG. 1 is a perspective view of a non-stop security filtration system of the present invention;

FIG. 2 is a top view of a non-stop safety filtration system of the present invention;

FIG. 3 is a front view of a non-stop safety filtration system of the present invention;

FIG. 4 is a left side view of a non-stop safety filtration system of the present invention;

in the figure: 1. a glass fiber reinforced plastic container; 2. a filter element; 3. a water inlet branch pipe; 4. a water inlet main pipe; 5. a steel bracket; 6. a water producing branch pipe; 7. a water production main pipe; 8. a pressure gauge; 9. a discharge header pipe; 10. an exhaust pipe; 11. a water inlet and outlet branch pipe; 12. a produced water drainage branch pipe; 13. an external water inlet pipe interface; 14. an external water production pipe interface; 15. an external discharge pipe interface; 16. and (4) a manual valve.

Detailed Description

In order to explain the technical content, structural features, achieved objects and functions of the present invention in detail, the following embodiments are described in detail with reference to the accompanying drawings.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be taken as limiting the scope of the invention.

Referring to fig. 1 and fig. 2 to 4, the present invention provides an embodiment:

the utility model provides a for realizing the above-mentioned purpose, a non-stop safety filtration system of the utility model comprises a glass fiber reinforced plastic container 1, a filter element 2, a water inlet branch pipe 3, a water inlet header pipe 4, a steel bracket 5, a water production branch pipe 6, a water production header pipe 7, a pressure gauge 8, a discharge header pipe 9, an exhaust pipe 10, a water inlet and drainage branch pipe 11 and a water production drainage branch pipe 12, wherein the glass fiber reinforced plastic container 1 and the filter element 2 are connected by an O-shaped sealing manner to form a treatment unit, the water inlet and drainage branch pipe 11, the water production drainage branch pipe 12, the discharge header pipe 9 and the exhaust pipe 10 are connected by a hot melting welding manner to form a discharge unit, the water inlet branch pipe 3, the water inlet header pipe 4, the water production branch pipe 6, the water production header pipe 7 and the glass fiber reinforced plastic container 1 are connected by a flange manner to form a water inlet unit and a water production unit, the pressure gauge 8, the water inlet main pipe 4 and the water production main pipe 7 form an instrument unit through a hose connection mode.

The discharge unit, the instrument unit, the water inlet unit, the water production unit, the processing units and the steel bracket 5 form an uninterruptible security filtering system in a connection mode of a hoop, the water inlet main pipe 4 is connected with an external water inlet pipe interface 13, the discharge main pipe 9 is connected with an external discharge pipe interface 15, the water production main pipe 7 is connected with an external water production pipe interface 14, and the processing units run in a parallel mode

The system can be used for a pretreatment system before 'membrane method' treatment for desalting strong brine or seawater with high chlorine content, the purpose of intercepting SS in wastewater is achieved, and finally the effluent reaches the treatment requirement of subsequent equipment, so that the system has the advantage of replacing the filter element 2 without stopping the machine, the defects of water resource waste, large occupied area, container and pipeline corrosion and manpower and financial resource consumption are overcome, the aim of maximum utilization of enterprise production is fulfilled, economic addition force is reduced, and the treatment level of desalting strong brine or seawater is greatly improved.

The application relates to a non-stop security filter system flow, which specifically comprises the following steps:

a) after the strong brine or seawater desalination water source is subjected to conditioning and quantity regulation, the strong brine or seawater desalination water source firstly enters the water inlet main pipe 4 through the external water inlet pipe connector 13, then is artificially and selectively selected to enter the treatment unit from the left side water inlet branch pipe 3 or the right side water inlet branch pipe 3, if the strong brine or seawater desalination water source enters from the left side, the water outlet isolating valve valves on the right side water inlet branch pipe 3 and the water production branch pipe 6 are completely closed, the water outlet isolating valve valves on the left side water inlet branch pipe 3 and the water production branch pipe 6 are completely opened, then the water source is filtered and intercepted by the left side filtering unit to obtain SS, finally the SS is collected to the water production main pipe 7 from the left side water production branch pipe 6, finally the SS is collected to the rear equipment through the external water production pipe connector 14, if the strong brine or seawater desalination water source enters from the right side, the system needs to be exhausted after running, the valve on the exhaust pipe 10 is opened, and the exhaust main pipe 9 and the external exhaust pipe connector 15 is connected to an external exhaust pipe, after the external discharge pipe discharges water, the exhaust valve on the exhaust pipe 10 is closed;

b) knowing the operation condition of the system through the reading on a pressure gauge 8, if the pressure difference between a water production main pipe 7 and a water inlet main pipe 4 reaches 150kpa, replacing the filter element 2 without stopping the machine, if a) selects left water inlet, opening all water inlet and outlet isolating valve valves on the right water inlet branch pipe 3 and the water production branch pipe 6, then closing all water inlet and outlet isolating valve valves on the left water inlet branch pipe 3 and the water production branch pipe 6, if a) selects right water inlet, the opening condition of the left valve is opposite, after the valves are switched, exhaust treatment is required, and the treatment mode is the same as the step a);

c) after the partition valve is switched and the air is exhausted, performing a water drainage step and a filter element 2 replacing step, if a) selecting left side water inlet, opening all discharge valve valves on the left side water inlet branch pipe 3 and the left side water production branch pipe 6, after all water in the left side treatment unit is exhausted, closing all discharge valve valves on the left side water inlet branch pipe 3 and the left side water production branch pipe 6, then opening a cover plate of a left side glass fiber reinforced plastic membrane shell in a quick opening mode in sequence, drawing out the filter element 2, replacing a new filter element 2, installing the cover plate, and if a) selecting right side water inlet, performing the water drainage step and the filter element 2 replacing step as same as the left side water inlet, wherein the opening condition of the left side valve is opposite;

and sequentially circulating the steps a) -b) -c) without stopping the security filter system.

To sum up the utility model provides a do not shut down guarantor filter system has solved above technical problem.

Further, glass steel container 1 adopts the glass steel material, water inlet branch pipe 3 water inlet manifold 4 produce water branch pipe 6 produce water manifold 7 discharge manifold 9 blast pipe 10 water inlet and drain branch pipe 11 and produce water drain branch pipe 12 and all adopt the high density polyethylene material.

The glass fiber reinforced plastic and the high-density polyethylene have the characteristics of corrosion resistance and long service life, the corrosion resistance of a system is enhanced, and the later-stage labor and economic investment are reduced.

Further, the filter element 2 adopts a structure with an integrated filter shell.

The integrated filter shell is simple in structure, and when the filter element 2 is replaced in the later period, the operation is convenient, time and labor are saved, and the investment of later-period manpower and economy is reduced.

Further, manual valves 16 are installed on the water inlet branch pipe 3 and the water production branch pipe 6.

Installation manual valve 16 is used for realizing not needing to close whole filtration system when renew cartridge 2 through manual valve 16's switching, has guaranteed the continuous operation of its subsequent equipment, realizes the requirement of enterprise's production maximize utilization, stops to cause the problem that follow-up equipment need be shut down and wash because of shutting down, and this system displacement is few, has practiced thrift the water resource greatly, has avoided the waste of water resource.

Claims (4)

1. The utility model provides a do not shut down safety filter system which characterized in that: comprises a glass fiber reinforced plastic container (1), a filter element (2), a water inlet branch pipe (3), a water inlet main pipe (4), a steel support (5), a water production branch pipe (6), a water production main pipe (7), a pressure gauge (8), a discharge main pipe (9), an exhaust pipe (10), a water inlet and discharge branch pipe (11) and a water production and discharge branch pipe (12), wherein the glass fiber reinforced plastic container (1) and the filter element (2) are connected in an O-shaped sealing manner to form a processing unit, the water inlet and discharge branch pipe (11), the water production and discharge branch pipe (12), the discharge main pipe (9) and the exhaust pipe (10) are connected in a hot melting welding manner to form a discharge unit, the water inlet branch pipe (3), the water inlet main pipe (4), the water production branch pipe (6), the water production main pipe (7) and the glass fiber reinforced plastic container (1) are connected in a flange manner to form a water inlet unit and a water production unit, the pressure gauge (8), the water inlet main pipe (4) and the water production main pipe (7) form an instrument unit through a hose connection mode.

2. The non-stop security filter system of claim 1, wherein: the glass fiber reinforced plastic container (1) is made of glass fiber reinforced plastic materials, the water inlet branch pipes (3), the water inlet header pipes (4), the water production branch pipes (6), the water production header pipes (7), the discharge header pipes (9), the exhaust pipes (10), the water inlet and drainage branch pipes (11) and the water production and drainage branch pipes (12) are made of high-density polyethylene materials.

3. The non-stop security filter system of claim 1, wherein: the filter element (2) adopts a structure with an integrated filter shell.

4. The non-stop security filter system of claim 1, wherein: and valves (16) are arranged on the water inlet branch pipe (3) and the water production branch pipe (6).

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