KR102683261B1 - Washing water precision filtration treatment device with a flow rate reduction function - Google Patents

Abstract

The present invention relates to a precision filtration treatment device for washing water having a compression pressure flow rate reduction function for scrubbing discharge water, and more specifically, to a filtration treatment device for filtering out foreign substances contained in scrubbing discharge water, into which the scrubbing discharge water flows, A flow rate reduction unit that reduces the flow rate of incoming discharged water; and a filtration treatment unit that receives the discharged water from the flow rate reduction unit and filters out foreign substances contained in the discharged water.
The inventor of the present invention is a washing water precision filtration device with a compressed pressure flow rate reduction function for cleansing discharged water, which reduces the flow rate of discharged water containing foreign substances and filters out foreign substances contained in the discharged water. It can prevent filters and filtration tanks from being damaged or damaged, improve the collection efficiency of foreign substances by filtering out some of the foreign substances contained in the discharged water before moving to the filtration treatment unit, and reduce the load on the filtration treatment unit. .

Description

{Washing water precision filtration treatment device with a flow rate reduction function}

The present invention relates to a precision filtration treatment device for washing water having a compression pressure flow rate reduction function for cleansing discharged water. More specifically, the present invention relates to a washing water precision filtration treatment device that reduces the flow rate of discharged water containing foreign substances and filters out foreign substances contained in the discharged water. It is possible to prevent the filter and filtration tank of the filtration treatment unit from being damaged or damaged due to pressure, and the collection efficiency of foreign substances can be increased by filtering out some of the foreign substances contained in the discharged water before moving to the filtration treatment unit. It relates to a washing water precision filtration treatment device that has a compression pressure and flow rate reduction function for cleansing discharge water that can reduce the load.

In general, various fluid transport pipes, such as large-diameter water pipes supplying tap water, sewer pipes transporting sewage, and pipes transporting various fluids such as oil or gas, deteriorate and deteriorate when used for a long time after installation. Various foreign substances contained in fluids such as tap water, oil, and gas are deposited on the inner wall of the pipe as sludge, or the inner surface of the pipe is oxidized, forming rust, etc., and these harden to form a scale layer.

As described above, the scale layer formed by the accumulation of foreign substances on the inner surface of various fluid transport pipes gradually thickens and hardens over time, thereby interfering with the smooth flow of fluid and causing a drop in fluid pressure. In addition, the scale layer attached to the fluid transport pipe dissolves in the fluid and causes contamination of the fluid, so the fluid transport pipe must be cleaned periodically. In addition, problems caused by the deterioration of fluid transport pipes not only cause significant disruption in maintaining the function of the water supply and sewage pipe network, but also have the serious consequence of increasing energy consumption.

Therefore, in order to solve problems such as corrosion products and damage inside various fluid transport pipes, improvement work or cleaning is performed on old fluid transport pipes.

Discharged water that has undergone conventional cleaning is introduced into a filtration device, foreign substances contained in the discharged water are filtered through the filter of the filtration device and collected, and discharged water with the foreign substances separated is discharged.

However, since the discharged water subjected to conventional tubular cleaning is pumped through a pump and flows into the filtration device, there is a problem in that the filter of the filtration device is damaged by water or hydraulic pressure, and the filtration efficiency of the filtration device decreases due to filter damage. In addition, there was a problem that maintenance costs and time required for filter replacement were excessive, so there was a need for improvement.

The above-described invention refers to the background art of the technical field to which the present invention pertains, and does not mean prior art.

Republic of Korea Patent No. 10-1464248

The present invention was created to solve the above-described conventional problems. The purpose of the present invention is to reduce the flow rate of discharged water containing foreign substances and to filter out foreign substances contained in the discharged water, thereby reducing the pressure due to the flow rate and flow rate. This can prevent the filter and filtration tank of the filtration treatment unit from being damaged or damaged, improve the collection efficiency of foreign substances by filtering out some of the foreign substances contained in the discharged water before moving to the filtration treatment unit, and reduce the load on the filtration treatment unit. To provide a washing water precision filtration treatment device having a compression pressure flow rate reduction function for the discharged water from the washing machine.

In order to achieve the above task, the present invention

A filtration treatment device for filtering out foreign substances contained in customs cleaning discharge water,

a flow rate reduction unit through which the tubular cleaning discharge water flows in and reduces the flow rate of the inflow discharge water; and

Provided is a washing water precision filtration treatment device having a compression pressure flow rate reduction function for tubular cleaning discharge water, which is comprised of a filtration treatment unit that receives discharged water from the flow rate reduction unit and filters out foreign substances contained in the discharge water.

In one embodiment of the present invention,

The flow rate reduction unit,

A deceleration tank in which an inflow pipe is formed to allow the discharged water to flow in, a filling space is provided therein, and a discharge pipe is formed to discharge the discharged water filled therein;

It is characterized in that it is provided at the lower part of the deceleration tank to discharge foreign substances that settle in the inner lower part of the deceleration tank, and is composed of a foreign matter transfer pipe having an opening and closing valve.

Additionally, in one embodiment of the present invention,

The reduction tank is,

An air guide pipe is further formed to discharge air contained in the discharged water.

Additionally, in one embodiment of the present invention,

The deceleration tank is further provided with a multi-stage flow rate reduction means to reduce the flow rate of the incoming discharged water,

The multi-stage flow rate reduction means,

A lower deceleration panel disposed on the inner lower part of the deceleration tank,

a middle deceleration panel disposed above the lower deceleration panel and disposed inside the deceleration tank;

an upper deceleration panel disposed above the middle deceleration panel and disposed inside the deceleration tank;

It is characterized in that it consists of through holes formed in the lower deceleration panel, the middle deceleration panel, and the upper deceleration panel.

Additionally, in one embodiment of the present invention,

The deceleration tank is further provided with flow rate deceleration guidance means,

The flow speed deceleration guidance means is,

a guide pipe disposed inside the deceleration tank, one end of which is connected to the inflow pipe of the deceleration tank, and the other end of which is disposed below the lower deceleration panel;

It is disposed inside the deceleration tank, and is characterized in that it consists of a curved inner discharge guide pipe, one end of which is connected to the discharge pipe, and the other end of which is disposed on the upper side of the upper deceleration panel.

The inventor of the present invention is a washing water precision filtration device with a compressed pressure flow rate reduction function for cleansing discharged water, which reduces the flow rate of discharged water containing foreign substances and filters out foreign substances contained in the discharged water. It can prevent filters and filtration tanks from being damaged or damaged, improve the collection efficiency of foreign substances by filtering out some of the foreign substances contained in the discharged water before moving to the filtration treatment unit, and reduce the load on the filtration treatment unit. .

Figure 1 is a diagram showing a washing water precision filtration treatment device having a compression pressure flow rate reduction function for cleansing discharge water according to the present invention.
Figure 2 is an operating state diagram showing a washing water precision filtration treatment device having a compression pressure flow rate reduction function for cleansing discharge water according to the present invention.
Figure 3 is a diagram showing the flow rate reduction unit of the washing water precision filtration treatment device having a compressed pressure flow rate reduction function for cleansing discharge water according to the present invention.
Figure 4 is a diagram showing another embodiment of the flow rate reduction unit of the washing water precision filtration treatment device having a compressed pressure flow rate reduction function for cleansing discharge water according to the present invention.
Figure 5 is an operating state diagram showing the flow rate reduction unit of the washing water precision filtration treatment device having a compressed pressure flow rate reduction function for cleansing discharge water according to the present invention.
Figure 6 is a diagram showing the process of discharging foreign substances from the flow rate reduction unit of the washing water precision filtration treatment device having a compressed pressure flow rate reduction function for cleansing discharge water according to the present invention.
Figure 7 is a perspective view showing the lower reduction panel of the washing water precision filtration treatment device with the washing water discharge water compression pressure flow rate reduction function according to the present invention.
Figure 8 is a diagram showing another embodiment of the lower reduction panel of the washing water precision filtration treatment device having a washing water discharge water compression pressure flow rate reduction function according to the present invention.

Since the description of the present invention is only an example for structural or functional explanation, the scope of the present invention should not be construed as limited by the examples described in the text. In other words, since the embodiment can be modified in various ways and can have various forms, the scope of rights of the present invention should be understood to include equivalents that can realize the technical idea.

Meanwhile, the meaning of the terms described in the present invention should be understood as follows.

Terms such as “first” and “second” are used to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, a first component may be named a second component, and similarly, the second component may also be named a first component.

When a component is said to be “connected” to another component, it should be understood that it may be directly connected to the other component, but that other components may also exist in between. On the other hand, when a component is said to be “directly connected” to another component, it should be understood that there are no other components in between. Meanwhile, other expressions that describe the relationship between components, such as "between" and "immediately between" or "neighboring" and "directly neighboring" should be interpreted similarly.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as “comprise” or “have” refer to implemented features, numbers, steps, operations, components, parts, or them. It is intended to specify the existence of a combination, and should be understood as not excluding in advance the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

For each step, identification codes (e.g., a, b, c, etc.) are used for convenience of explanation. The identification codes do not explain the order of each step, and each step clearly follows a specific order in context. Unless specified, events may occur differently from the specified order. That is, each step may occur in the same order as specified, may be performed substantially simultaneously, or may be performed in the opposite order.

All terms used herein, unless otherwise defined, have the same meaning as commonly understood by a person of ordinary skill in the field to which the present invention pertains. Terms defined in commonly used dictionaries should be interpreted as consistent with the meaning they have in the context of the related technology, and cannot be interpreted as having an ideal or excessively formal meaning unless clearly defined in the present invention.

Figure 1 is a diagram showing a washing water precision filtration treatment device having a compression pressure flow rate reduction function for cleansing discharge water according to the present invention. Figure 2 is an operating state diagram showing a washing water precision filtration treatment device having a compression pressure flow rate reduction function for cleansing discharge water according to the present invention. Figure 3 is a diagram showing the flow rate reduction unit of the washing water precision filtration treatment device having a compressed pressure flow rate reduction function for cleansing discharge water according to the present invention. Figure 4 is a diagram showing another embodiment of the flow rate reduction unit of the washing water precision filtration treatment device having a compressed pressure flow rate reduction function for cleansing discharge water according to the present invention. Figure 5 is an operating state diagram showing the flow rate reduction unit of the washing water precision filtration treatment device having a compressed pressure flow rate reduction function for cleansing discharge water according to the present invention. Figure 6 is a diagram showing the process of discharging foreign substances from the flow rate reduction unit of the washing water precision filtration treatment device having a compressed pressure flow rate reduction function for cleansing discharge water according to the present invention. Figure 7 is a perspective view showing the lower reduction panel of the washing water precision filtration treatment device with the washing water discharge water compression pressure flow rate reduction function according to the present invention. Figure 8 is a diagram showing another embodiment of the lower reduction panel of the washing water precision filtration treatment device having a washing water discharge water compression pressure flow rate reduction function according to the present invention.

As shown in the drawing, the present invention's washing water precision filtration device 10 (hereinafter referred to as 'precision filtration device' for convenience of explanation) with a washing water discharge water compression pressure flow rate reduction function is used to remove foreign substances contained in the cleaning discharge water. It is a filtration treatment device (10) designed to filter, and is configured to include a flow rate reduction unit (20) and a filtration treatment unit (30).

The flow rate reduction unit 20 causes the custom-cleaning discharge water containing foreign substances to flow in, and reduces the flow rate of the inflow discharge water.

The flow rate reduction unit 20 includes a deceleration tank 21 in which an inflow pipe 211 is formed to allow the discharge water to flow in, a filling space is provided therein, and a discharge pipe 212 is formed to discharge the discharge water filled therein. , It is provided at the lower part of the deceleration tank 21 to discharge foreign substances settling in the inner lower part of the deceleration tank 21, and consists of a foreign matter transfer pipe 22 having an on-off valve.

That is, after the discharge water flows into the deceleration tank 21 and is decelerated in the process of filling, the discharge water discharged from the deceleration tank 21 is moved to the filtration treatment unit 30, so that the discharge water is directly transferred to the filtration treatment unit 30. It is possible to prevent the filter 32 of the filtration processing unit 30 from being damaged or broken due to flow rate and hydraulic pressure.

In addition, foreign substances settling inside the reduction tank 21 can be discharged, thereby increasing the filtration efficiency of foreign substances and reducing the load on the filtration treatment unit 30.

The reduction tank 21 has a square, hexahedral tank structure, and can also be formed into a cylindrical tank structure.

At this time, in the deceleration tank 21, an air guide pipe 23 is further formed to discharge the air contained in the discharged water, so that the air contained in the discharged water flowing into the deceleration tank 21 or flowing in together with the discharged water is emitted.

In other words, gases or odors contained in the air are discharged.

The filtration processing unit 30 receives discharged water from the flow rate reduction unit 20 and filters out foreign substances contained in the discharged water.

The filtration processing unit 30 consists of a filtration tank 31 and filters 32 disposed inside the filtration tank 31.

One end of the connection pipe 33 is connected to the discharge pipe 212, and the other end of the connection pipe 33 is connected to the filtration tank 31, so that the discharged water delivered from the deceleration tank 21 is transferred to the filtration tank. It is delivered to (31).

At this time, the connection pipe 33 is formed lower than the discharge pipe 212, and the filtration tank 31 is formed lower than the deceleration tank 21, so that the discharged water discharged through the discharge pipe 212 falls under its own weight. By allowing it to flow into the filtration tank 31, it is possible to reduce the flow rate and hydraulic pressure by moving it by its own weight rather than by pumping it, thereby preventing the filter 32 from being damaged by the flow rate and hydraulic pressure.

Here, a control valve is fastened to the connection pipe 33 to control the movement of discharged water, and a sensor for detecting the flow rate and water pressure is attached to the inner surface of the connection pipe 33, and when abnormalities of the set flow rate and water pressure are detected, the It is preferable that the detection sensor transmits a signal to the control valve to control the movement of discharged water or reduce the flow rate by driving the control valve.

The deceleration tank 21 is further provided with a multi-stage flow rate reduction means 40 to reduce the flow rate of the incoming discharged water.

The multi-stage flow rate reduction means (40) includes a lower reduction panel (41) disposed at the inner lower part of the reduction tank (21) and fixed to the inner surface of the reduction tank (21) by screwing or welding, and the lower A middle deceleration panel 42 disposed on the upper side of the deceleration panel 41 and fixed to the inner surface of the deceleration tank 21 by screwing or welding, and a middle deceleration panel 42 disposed on the upper side of the middle deceleration panel 42 and the deceleration tank The upper deceleration panel 43 is screwed or welded and fixed to the inner surface of (21), and the through hole formed in the lower deceleration panel 41, the middle deceleration panel 42, and the upper deceleration panel 43 ( 44).

That is, the discharged water flowing into the inlet sequentially rubs against the lower deceleration panel 41, the middle deceleration panel 42, and the upper deceleration panel 43, and is transported while penetrating the through holes 44, thereby achieving deceleration. In this state, discharge water is discharged through the discharge pipe 212.

In addition, foreign substances become caught in the lower deceleration panel 41, middle deceleration panel 42, and upper deceleration panel 43 and are pulverized by impact, causing lump-shaped foreign substances to collide with the filter of the filtration processing unit 30. This prevents the filter 32 from being damaged and also prevents the connection pipe 33 from becoming clogged.

At this time, the lower deceleration panel 41, the middle deceleration panel 42, and the upper deceleration panel 43 may be arranged in multiple stages while dividing and dividing the interior of the deceleration tank 21 as shown in the drawing, It can be arranged in a zigzag shape.

The deceleration tank 21 is further provided with a flow rate deceleration guide means 50.

The flow rate reduction guide means 50 is disposed inside the deceleration tank 21, one end is connected to the inlet pipe 211 of the deceleration tank 21, and the other end is connected to the lower deceleration panel 41. An induction guide pipe (51) disposed on the lower side is disposed inside the deceleration tank (21), one end of which is connected to the discharge pipe (212) and the other end of which is disposed on the upper side of the upper deceleration panel (43). It consists of a curved inner discharge guide pipe (52).

That is, the discharged water flowing in through the other end of the guide pipe 51 is supplied to the inner lower part of the deceleration tank 21, and the discharged water at the inner upper part of the deceleration tank 21 has an overflow structure and is guided to the inner discharge. Discharged through the pipe 52, the decelerated discharged water is supplied to the filtration unit 30.

At this time, the inlet pipe 211 is disposed above the upper deceleration panel 43, and the discharge pipe 212 is formed lower than the inlet pipe 211, as shown in the drawing.

By further screwing and fixing a vibrator, which is a vibrator, to the outer surface of the deceleration tank 21, the vibration of the vibrator is transmitted to foreign substances accumulated in the lower inner part of the deceleration tank 21, preventing them from getting caught during the discharge process and forming them into lumps. It is desirable to prevent clogging during the discharge process by shredding the aggregated foreign matter.

An operating groove is further formed on the inner bottom of the reduction tank 21, a drive motor is inserted into the operating groove, and a stirring impeller is screwed onto the rotation shaft of the drive motor to rotate by driving the drive motor. It is desirable to prevent foreign substances and lump-shaped foreign substances accumulated in the inner lower part of the reduction tank 21 in the stirring impeller from being blocked or partially blocked during the discharge process by agitating and crushing them.

The upper ends of foreign matter retention collision pins made of an elastic synthetic resin material are attached to the bottom of the lower deceleration panel 41, the middle deceleration panel 42, and the upper deceleration panel 43, so that foreign matter is prevented from falling on the foreign matter retention impact pins. It is desirable to increase the collection efficiency of foreign substances by colliding and getting caught, and to prevent lump-shaped foreign substances from being pulverized and clogging the through hole 44.

By further forming deceleration grooves on the bottom of the lower deceleration panel 41, the middle deceleration panel 42, and the upper deceleration panel 43, foreign substances in the form of lumps are caught and shattered, and the moving discharge water In addition to being caught in the reduction groove, it is desirable to generate eddy currents in the process of entering and exiting the reduction groove to reduce the flow rate.

It is preferable to attach and secure one end of friction pins to the inner surface of the deceleration tank 21 so that the incoming discharged water is reduced by rubbing against the friction pins and at the same time, foreign substances contained in the discharged water are filtered out.

At this time, a space is formed on the upper side of the inner discharge guide pipe 52 disposed in the deceleration tank 31, so that the discharged water is discharged through the inner discharge guide pipe 52 by an overflow method, and the deceleration tank It is desirable to control the discharge water flowing into the reduction tank (21) so that a space is provided at the inner upper part of (21). It is desirable to provide a water level sensor in the deceleration tank to transmit a detection signal when discharge water fills the space.

Above, the present invention has been described in detail with reference to the drawings, but it is clear that the embodiments mentioned in the process are only illustrative and not limiting, and that the present invention is provided by the following claims. Changes to components to the extent that they can be handled equally within the scope of the technical idea or field will be considered to fall within the scope of the present invention.

10: filtration processing device 20: flow rate reduction unit
21: reduction tank 211: inlet pipe
212: discharge pipe 22: foreign matter transfer pipe
23: air guide tube 30: filtration processing unit
31: filtration tank 32: filter
33: Connector 40: Multi-stage flow reduction means
41: lower deceleration panel 42: middle deceleration panel
43: upper deceleration panel 44: through hole
50: Flow speed reduction guide means 51: Guidance guide tube
52: inner discharge guide tube

Claims (5)

A filtration treatment device for filtering out foreign substances contained in customs cleaning discharge water,
a flow rate reduction unit through which the tubular cleaning discharge water flows in and reduces the flow rate of the inflow discharge water; and
It is characterized in that it consists of a filtration treatment unit that receives discharged water from the flow rate reduction unit and filters out foreign substances contained in the discharged water,
The flow rate reduction unit,
A deceleration tank in which an inflow pipe is formed to allow the discharged water to flow in, a filling space is provided therein, and a discharge pipe is formed to discharge the discharged water filled therein;
Characterized in that it is provided at the lower part of the deceleration tank to discharge foreign substances that settle in the lower inner part of the deceleration tank, and consists of a foreign matter transfer pipe having an opening and closing valve,
The deceleration tank is further provided with a multi-stage flow rate reduction means to reduce the flow rate of the incoming discharged water,
The multi-stage flow rate reduction means,
A lower deceleration panel disposed on the inner lower part of the deceleration tank,
a middle deceleration panel disposed above the lower deceleration panel and disposed inside the deceleration tank;
an upper deceleration panel disposed above the middle deceleration panel and disposed inside the deceleration tank;
Characterized by consisting of through holes formed in the lower deceleration panel, the middle deceleration panel, and the upper deceleration panel,
The deceleration tank is further provided with flow rate deceleration guidance means,
The flow speed deceleration guidance means is,
A guide pipe disposed inside the deceleration tank, one end of which is connected to the inflow pipe of the deceleration tank, and the other end of which is disposed below the lower deceleration panel;
It is disposed inside the reduction tank and has a curved inner discharge guide pipe with one end connected to the discharge pipe and the other end disposed on the upper side of the upper reduction panel. A washing water precision filtration treatment device.
delete According to claim 1,
The reduction tank is,
A washing water precision filtration device with a compression pressure flow rate reduction function for cleansing discharged water, characterized in that an air guide pipe is further formed to discharge air contained in the discharged water.
delete delete