KR200457585Y1 - Strainer assembly cleanable without dismantling and reassembling - Google Patents

Abstract

The present invention relates to a strainer assembly for filtering various foreign substances contained therein when water is taken from a raw water pipe, and in particular, a pneumatic injection nozzle having a plurality of nozzle holes formed in an inner space of a strainer inserted into a sub-branch branched from the raw water pipe. And pneumatic lines connected to one end of the pneumatic injection nozzle that protrudes to the outside, so that when the blockage of the strainer is confirmed, it is possible to apply high pressure to clean the foreign matter accumulated in the strainer, so that the strainer assembly is cleaned without disassembly and reassembly. Relates to a possible strainer assembly.

Description

Strainer assembly cleanable without dismantling and reassembling}

The present invention relates to a strainer assembly for filtering various foreign substances contained therein when water is taken from a raw water pipe, and in particular, a pneumatic injection nozzle having a plurality of nozzle holes formed in an inner space of a strainer inserted into a sub-branch branched from the raw water pipe. After connecting the pneumatic line to one end of the pneumatic injection nozzle protruding to the outside, if the strainer is blocked, it is possible to apply the high pressure to clean the foreign matter accumulated in the strainer, so that the strainer can be cleaned without disassembling and reassembling the strainer assembly. To an assembly.

Background Art A structure for taking in water, for example, cooling water, which is supplied to various equipment through subsidiary pipes branched from raw water pipes is widely used. For example, the dual-use vertical pumping and drainage pump developed by the present applicant shown in FIG. A floating motor coolant cooler 500 is provided. At this time, the low-temperature heat exchange fluid is withdrawn from the discharge pipe line 400, which is a raw water pipe.

In many cases, however, the water taken from the raw water pipe contains a large number of foreign substances. If these foreign substances are used without filtration, it is necessary to filter out the foreign substances, since the flow path in the pipe or equipment through which the withdrawn water flows becomes clogged and further operation is impossible. Filtration of foreign matter is accomplished by using mechanical, chemical, biological methods, and the like, when the required degree of filtration is low, only simple mechanical filtration may be used. One such mechanical filtration device is a strainer, which is a sort of strainer that draws fluid (water) through a hole smaller than the minimum size of foreign material to be filtered.

Such a strainer is installed in the form of a bucket or a cone in the middle of the pipe, wherein a valve is installed at each of the front and rear ends of the strainer. If the strainer needs to be repaired, close the valves at the front and rear of the strainer to interrupt the flow of fluid, and then remove the strainer from the pipe and clean it or replace it with a new one.

As described above, the conventional strainer mounting structure has a problem that the convenience of work is considerably inferior because the fluid flow through the pipe must be closed and the strainer must be disassembled and reassembled after the maintenance of the strainer. The bigger problem is that to repair the strainer, the entire machine must be shut down. Also, if the disassembly and assembly of the strainer is frequent, there is a risk that the threaded portion of the pipe is worn and damaged, and eventually, a part of the pipe itself needs to be replaced. If the fluid flow in the pipe is degraded, it is necessary to disassemble the strainer. There is a problem that it is not easy to check because only know.

The present invention has been made to solve the problems of the conventional strainer as described above, it is possible to check the blockage of the strainer without disassembling the strainer, and also to clean the strainer assembly that can be cleaned without disassembling and reassembling the strainer It is to offer.

The strainer assembly according to the present invention is a sub-branch branched from the raw water pipe; and a flange fastened to the sub pipe; and a strainer coupled to one side of the flange and inserted into the sub pipe; and one end protrudes from the other side of the flange A pipe-shaped body fixed and disposed so that the other end is positioned in the strainer, the air pressure injection nozzle having a plurality of through-hole nozzle holes formed on a surface of the pipe located in the strainer; and the air pressure injection nozzle protruding from the other surface of the flange. A pneumatic pressure control valve coupled to one end of the pneumatic pressure inlet, which is an input end of the pneumatic line supplied from the outside; It includes; and purified water supply pipe fixed to the other surface of the flange so as to penetrate the inner space of the strainer.

Herein, the strainer preferably has a length at which an end thereof protrudes from the sub pipe and is located inside the raw water pipe.

And in the embodiment of the present invention the surface of the strainer located in the sub-pipe is formed of a perforated plate or mesh.

Meanwhile, in the exemplary embodiment of the present invention, a flow switch may be installed in the purified water pipe connected to the purified water supply pipe, and the control unit opens the pneumatic line connected to the pneumatic inlet when the flow signal measured from the flow switch is less than a preset reference value. Control as possible.

In another embodiment of the present invention, a pressure switch may be installed in the purified water pipe connected to the purified water supply pipe, and the controller may include a pneumatic line connected to the pneumatic inlet when the pressure signal measured from the pressure switch is less than a preset reference value. Control to open.

The strainer assembly of the present invention having the structure as described above is easy to check and clean the strainer without disassembling and assembling the strainer, so that the maintenance of the strainer is easy and there is no need to stop the operation of the strainer device. As the frequency of disassembling and assembling of the strainer is significantly reduced, there is little possibility that the screwed portion of the strainer with the pipe is less likely to be damaged.

1 is a view showing a configuration in which the cooler cooling water is taken in a discharge pipe that is a raw water pipe in the dual-use vertical pumping and drainage pump developed by the present applicant.
Figure 2 shows a strainer assembly according to the present invention.
3 is a view illustrating an embodiment in which the control unit and the flow rate sensor are further included in the strainer assembly of FIG. 2.

Hereinafter, exemplary embodiments of the strainer assembly 10 according to the present invention will be described in detail with reference to the accompanying drawings.

In describing one embodiment of the present invention, descriptions of well-known configurations that can be obvious to those skilled in the art will be omitted so as not to obscure the subject matter of the present invention. In addition, when referring to the drawings it should be considered that the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description.

Meanwhile, terms used to describe one embodiment of the present invention and to define relative positions such as front, rear, left, and right sides used are based on the accompanying drawings. It should be noted, however, that this definition of relative position may be altered in an equivalent arrangement without altering the essential part of the design.

2 is a view showing a strainer assembly 10 according to the present invention, Figure 3 is an embodiment in which the control unit 700 and the flow switch 710 which is a flow rate sensor in the strainer assembly 10 of FIG. Figure showing.

As shown in FIG. 2, the strainer assembly 10 according to the present invention includes a sub-pipe 100 branched from the raw water pipe 20, a flange 200 fastened to the sub-pipe 100, and the flange 200. Strainer 300 is coupled to one side of the) is inserted into the secondary pipe 100, the pneumatic injection nozzle 400 is fixed to the flange 200 and inserted into the strainer 300, and the pneumatic injection nozzle 400 Pneumatic control valve 500 coupled to one end of the) and the purified water supply pipe 600 fixed to the other surface of the flange 200 so as to penetrate the inner space of the strainer 300.

The raw water pipe 20 is a conduit through which raw water flows, and the auxiliary pipe 100 refers to a conduit branched from the raw water pipe for intake. The surface of the strainer 300 located in the sub-pipe 100 is formed of a perforated plate or a mesh, so that foreign matter is filtered out and raw water is collected.

On the other hand, the pneumatic injection nozzle 400 is a pipe-shaped body which is fixed so that one end is protruded from the other surface of the flange 200 and the other end is positioned in the strainer 300, and penetrates the surface of the pipe located in the strainer 300. A plurality of nozzle holes 410 are formed.

In addition, the air pressure control valve 500 is coupled to one end of the air pressure injection nozzle 400 protruding from the other surface of the flange 200, and is provided with an air pressure inlet 510 which is an input end of the pneumatic line 40 supplied from the outside.

Therefore, when foreign matter is attached to the outer surface of the strainer 300 and the supply of filtered purified water is not smooth, the pneumatic inlet 510 is connected to the pneumatic line 40 without the need for removing the strainer 300. Blowing air may cause foreign matter to escape. In particular, the present invention does not need to be disassembled to check the blocked state of the strainer 300, it can be known by simply opening the air pressure control valve 500 and inspecting how much water comes out from the air pressure inlet 510. The removed foreign matter is included in the raw water has the advantage that it is naturally discharged to the outside.

In particular, in a preferred embodiment of the present invention, the strainer 300 has a length, the end of which protrudes from the sub-pipe 100 is located inside the raw water pipe 20. According to this configuration, a portion of the strainer 300 is exposed to the flow of raw water, thereby minimizing adhesion of foreign substances to the strainer 300 by the flow rate of the raw water.

In addition, the present invention may be configured so that the cleaning of the strainer 300 is automatically performed without the naked eye and regular inspection of the operator.

To this end, a flow switch 710 which is a sensor for detecting the flow of purified water is installed in the purified water pipe 30 connected to the purified water supply pipe 600. When the flow rate signal measured from the flow switch 710 is less than a preset reference value, the controller 700 controls the pneumatic line 40 connected to the pneumatic inlet 510 to be opened. That is, when the controller 700 detects that the flow rate calculated by the signal input from the flow switch 710 is lower than the reference value, the control unit 700 opens the pneumatic line 40 to operate the pneumatic injection nozzle 400. Of course, when the flow rate of the purified water is returned to the normal level by the cleaning process, the pneumatic line 40 is closed again. Opening and closing of the pneumatic line 40 is made by a solenoid valve, a pneumatic valve, or the like, and the control unit 700 controls the operation of the solenoid valve and the like.

Although not shown in the drawing, a pressure switch for measuring the pressure (water pressure) of the purified water may be provided in place of the flow switch 710. The pressure switch is different only in that it calculates the supply amount of purified water from pressure, and the structure of the other control part 700 etc. is the same.

While the preferred embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that the present invention may be modified without departing from the principles or spirit of the present invention. . Therefore, the scope of the present invention will be defined by the appended claims and equivalents thereof.

Description of the Related Art
10: strainer assembly 20: raw water pipe
30: purified water pipe 40: pneumatic line
100: auxiliary tube 200: flange
300: strainer 400: pneumatic injection nozzle
410: nozzle hole 500: air pressure control valve
510: pneumatic inlet port 600: purified water supply pipe
700: control unit 710: flow switch

Claims (7)

A lieutenant branch branched from the raw water pipe;
A flange fastened to the sub-pipe;
A strainer coupled to one surface of the flange and inserted into the auxiliary pipe;
An air pressure injection nozzle fixed at one end to the other surface of the flange and arranged at the other end of the strainer, and having a plurality of nozzle holes penetrated at a surface of the pipe located in the strainer;
An air pressure control valve coupled to one end of the air pressure injection nozzle protruding from the other surface of the flange and having an air pressure inlet port which is an input end of a pneumatic line supplied from the outside; And
Purified water supply pipe fixed to the other surface of the flange so as to penetrate the inner space of the strainer;
Strainer assembly comprising a. The method according to claim 1,
And the strainer has a length at which an end thereof protrudes from the secondary pipe and is located inside the raw water pipe. The method according to claim 1,
Strainer assembly, characterized in that the surface of the strainer located in the sub-pipe formed of perforated plate or mesh. The method according to claim 1,
Strainer assembly, characterized in that the flow switch is installed in the purified water pipe connected to the purified water supply pipe. The method of claim 4,
And the controller controls the pneumatic line connected to the pneumatic inlet to be opened when the flow rate signal measured from the flow switch is less than a preset reference value. The method according to claim 1,
Strainer assembly, characterized in that the pressure switch is installed in the purified water pipe connected to the purified water supply pipe. The method of claim 6,
And the controller controls the pneumatic line connected to the pneumatic inlet to be opened when the pressure signal measured from the pressure switch is less than a preset reference value.

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