KR101218119B1 - Booster pump for water purifier - Google Patents

Abstract

The present invention relates to a system of a pressure pump for a water purification device, wherein the body housing in the vertical direction and the pump housing in the horizontal direction are integrally coupled, and the pressure pump is installed inside the pump housing, and the recovered water introduced into the body housing and After the water flowing into one side of the pump housing is stored in the main body housing, it is pumped by the pressure pump to be supplied at a constant flow rate and a constant pressure to the membrane filter, thereby improving the water purification efficiency, and the lifetime of the membrane filter without overdoing it. There is a feature that can be used as it is.
The present invention is largely composed of four parts, consisting of a cylindrical shape installed vertically, the upper one side of the main body housing 10 is formed with a recovery port 11; A pump housing 20 having a cylindrical shape installed in a horizontal direction so as to penetrate the lower portion of the main body housing 10, and having an inlet 21 formed at one side thereof and an outlet 22 formed at the other side thereof; A pressure pump 30 installed horizontally in the inner center of the pump housing 20; The pressurized pump 30 is installed inside one side of the pump housing 20 so as to be installed in the inner center of the pump housing 20, and includes a ring-shaped mounting hole 40 having a plurality of through holes 41 formed therein. After the water recovered through the recovery port 11 and the water flowing into the inlet 21 are filled in the body housing 10, the membrane is pumped through the outlet 22 at a constant pressure and a constant flow rate by the pressure pump 30. It has an approximate configuration to be supplied to the filter.
According to the present invention configured as described above, the pump housing and the main body housing in which the pressure pump is embedded are constituted by a single body, and then the incoming water and the water recovered from the membrane filter are preferentially stored in the main housing, and then through the pressure pump. By supplying the membrane filter to the membrane filter through the outlet pipe at a constant pressure and flow rate, it is possible to control the exact purified water and a constant purified water flow rate, it is effective to minimize the water discarded from the membrane filter to improve the water purification efficiency.
In addition, since water is supplied at a constant pressure and flow rate, the membrane filter can be used to its full life by not burdening the membrane filter, thereby reducing the cost loss caused by the frequent replacement of the membrane filter. It is formed in the inserted form has another effect of less noise during operation.

Description

System of booster pump for water purifier {Booster pump for water purifier}

The present invention relates to a system of a pressure pump for water purifying apparatus, and in more detail, a vertical main body housing and a horizontal pump housing are integrally coupled, and a pressurized pump is installed inside the pump housing to provide a main body housing. The collected recovered water and the water introduced to one side of the pump housing are stored in the main body housing, and then pumped by a pressure pump to be supplied at a constant flow rate and a constant pressure to the membrane filter, thereby improving water purification efficiency as well as The present invention relates to a system of a pressurized pump for water purification equipment, which is capable of being used sufficiently for its life without being exerted.

Generally, purified water refers to a process of treating turbid water for drinking, industrial, agricultural, etc. through self-cleaning or purification of the earth and other artificial treatment.

For example, tap water refers to a system for supplying reliable drinking water through a water pipe, and the drinking water finally supplied to the user through the water pipe must be purified according to water quality standards.

Therefore, a simple water treatment may be sufficient when high quality raw water close to the target water quality can be obtained. However, water purification is not easy in the downstream part of a large river in which a city, a factory, or farmland is used. Therefore, a separate water purification facility must be used.

Various methods for purifying turbid water have been proposed. Specifically, the method of purifying through flocculation or solid-liquid separation of the suspension; Water purification through coagulation and oxidation of dissolved components, biochemical denaturation, adsorption, and ion exchange; Water purification through coagulation filtration and sterilization of bacteria or viruses; A method of purifying water through neutralization of acid and alkali is mainly used, and these methods are suitably used depending on the purpose, for example, for drinking water, industrial use, and agricultural water use.

Among the recently used water purification devices, water purification devices for purifying raw water by membrane filters are used. Membrane filters such as activated carbon adsorption method, filtration method, ultra filter, nano filter, reverse osmosis, etc. It can be divided into ways to use.

The water purifier using the membrane filter removes contaminants through the micropores of the membrane filter, and pressurizes one side at a predetermined water pressure to push the water toward the opposite side of the membrane filter to filter the contaminants.

As such, a pressure pump is necessary to pass water through the micropores. Referring to a structure in which a conventional pressure pump is connected, a pressure pump is installed at a position adjacent to an inlet that flows into a membrane filter. Is a commonly used pump, it is configured to pressurize the intake water and the water recovered from the membrane filter is supplied back to the membrane filter.

In the conventional water purifier connected to the pressure pump, water is supplied from the water tank when the inflow water flows in, so that a pressure of positive pressure is applied to the primary side of the pressure pump. There was a problem that the water purification efficiency is significantly lowered because a lot of water is discarded from the membrane filter.

In order to solve the above problems, a method of additionally providing a recovery pump in the middle of the pipe of the recovered water is also used, in this case, there is a disadvantage in that the installation cost and power use according to the additional installation of the recovery pump, As the recovery pump cannot pump the recovered water at the correct flow rate, severe fluctuations in the flow rate and pressure discharged from the pressurized pump can cause the exact purified water not to be controlled. There was a problem of deterioration.

Accordingly, the present invention has been made in view of the above problems, and the pump housing and the main body housing in which the pressure pump is built are composed of a single body, so that the water introduced and the water recovered from the membrane filter are preferentially stored in the main body housing. After it is stored, it can be supplied to the membrane filter through the outlet pipe at a constant pressure and flow rate through a pressurized pump to control accurate water purification and constant water flow rate, and to improve water purification efficiency by minimizing the water discarded from the membrane filter. For the purpose.

In addition, by supplying water at a constant pressure and flow rate, the membrane filter can be used to the end of its life by not overwhelming the membrane filter, thereby reducing the cost loss caused by the frequent replacement of the membrane filter. .

The present invention is largely composed of four parts, consisting of a cylindrical shape installed vertically, the upper one side of the main body housing 10 is formed with a recovery port 11; A pump housing 20 having a cylindrical shape installed in a horizontal direction so as to penetrate the lower portion of the main body housing 10, and having an inlet 21 formed at one side thereof and an outlet 22 formed at the other side thereof; A pressure pump 30 installed horizontally in the inner center of the pump housing 20; The pressurized pump 30 is installed inside one side of the pump housing 20 so as to be installed in the inner center of the pump housing 20, and includes a ring-shaped mounting hole 40 having a plurality of through holes 41 formed therein. After the water recovered through the recovery port 11 and the water flowing into the inlet 21 are filled in the body housing 10, the membrane is pumped through the outlet 22 at a constant pressure and a constant flow rate by the pressure pump 30. It has an approximate configuration to be supplied to the filter.

According to the present invention configured as described above, the pump housing and the main body housing in which the pressure pump is embedded are constituted by a single body, and then the incoming water and the water recovered from the membrane filter are preferentially stored in the main housing, and then through the pressure pump. By supplying the membrane filter to the membrane filter through the outlet pipe at a constant pressure and flow rate, it is possible to control the exact purified water and a constant purified water flow rate, it is effective to minimize the water discarded from the membrane filter to improve the water purification efficiency.

In addition, since water is supplied at a constant pressure and flow rate, the membrane filter can be used to its full life by not burdening the membrane filter, thereby reducing the cost loss caused by the frequent replacement of the membrane filter. It is formed in the inserted form has another effect of less noise during operation.

1 is a perspective view of the present invention
Figure 2 is a cross-
3 is a perspective view of the present invention pump housing
Figure 4 is a partial cross-sectional view of the pressure pump of the present invention
5 is a perspective view of the installation fixture of the present invention
Fig. 6 is a graph showing the state of use

The present invention relates to a system of a pressure pump for a water purification device, wherein the body housing in the vertical direction and the pump housing in the horizontal direction are integrally coupled, and the pressure pump is installed inside the pump housing, and the recovered water introduced into the body housing and After the water flowing into one side of the pump housing is stored in the main body housing, it is pumped by the pressure pump to be supplied at a constant flow rate and a constant pressure to the membrane filter, thereby improving the water purification efficiency, and the lifetime of the membrane filter without overdoing it. There is a feature that can be used as it is.

An embodiment of the present invention will be described below with reference to the accompanying drawings.

Figure 1 shows a perspective view of the present invention, Figure 2 shows a front sectional view of the present invention, Figure 3 shows a perspective view of the pump housing of the present invention, Figure 4 shows a partial cross-sectional view of the pressure pump of the present invention, Figure 5 shows a perspective view of the installation fixture of the present invention, Figure 6 shows a state diagram of the use of the present invention, as shown, the pump housing in the horizontal direction so as to penetrate the lower portion of the cylindrical body housing 10 installed vertically 20 is installed, the pressurizing pump 30 is installed in the center of the inside is formed by the installation port 40, the water recovered and the water introduced into the interior of the body housing 10 is filled with pressure, The pump 30 is configured to be supplied to the membrane filter at a constant pressure and a constant flow rate.

First, looking at the configuration of the main body housing 10 of the present invention, it is composed of a cylindrical shape installed vertically, the upper side is formed with a recovery port (11).

The body housing 10 is in the form of a conventional water tank, in addition to storing the water recovered from the membrane filter, the water flowing from the inlet 21 of the pump housing 20 to be described later is stored in the body housing 10 It is configured to keep a certain amount of water inside.

On the other hand, looking at the configuration of the cylindrical pump housing 20 installed in the horizontal direction so as to penetrate the lower portion of the body housing 10, the inlet 21 is formed on one side, the outlet 22 is formed on the other side Bar, the inlet 21 is coupled to the inlet pipe into which the external raw water is introduced, the outlet 22 has a configuration that is coupled to the connecting pipe connected to the membrane filter.

The lower portion of the central portion of the pump housing 20 is formed with a cutout in a semicircular shape so that the water flowing through the inlet 21 can be moved and stored inside the body housing 10.

In addition, looking at the configuration of the pressure pump 30 is installed horizontally in the inner center of the pump housing 20, is formed in a form similar to the conventional submersible water pump, the pressure pump 30 is the pump The submersible motor 31 is positioned at the inlet 21 side of the housing 20, the strainer 32 is positioned at the middle portion where the cutout of the pump housing 20 is formed, and the outlet of the pump housing 20 is located. The submersible pump 33 is installed on the 22 side.

In the submerged pump 33 of the pressure pump 30 installed as described above, a plurality of rotary turbines 35 are installed in multiple stages on the rotary shaft 34 which rotates at high speed by the rotational output of the submersible motor 31, and the submerged motor ( When the power is applied to the 31, the rotary shaft 34 rotates, thereby rotating the rotary turbine 35 installed on the rotary shaft 34 to pump water in the body housing 10. .

Finally, looking at the configuration of the installation port 40 is installed in one side of the pump housing 20 so that the pressure pump 30 is installed in the inner center of the pump housing 20, a plurality of through-holes 41 are formed It consists of a ring with a thickness.

The installation hole 40 is made of a synthetic resin material, the outer diameter is the same as the inner diameter of the pump housing 20, the inner diameter of the through-hole formed in the center is the same as the outer diameter of the submersible motor 31 of the pressure pump (30). Is configured, has a configuration that allows the pressure pump 30 can be installed inside the pump housing (20).

In addition, a plurality of through-holes 41 are formed at a predetermined interval at an edge portion of the installation hole 40, and the through-holes 41 are formed to allow water introduced from the inlet 21 to pass therethrough. The water is configured to flow into the interior of the body housing 10 via the pump housing 20.

Looking at the assembly process of the present invention configured as described above, first install the main body housing 10 vertically, the bottom of the main body 10 by installing a pedestal of the rectangular shape, the main body housing 10 The pump housing 20 is installed in the horizontal direction so as to penetrate the lower part of the.

Then, after fixing the installation hole 40 inside the inlet port 21 side of the pump housing 20, penetrating the installation hole 40 so that the pressure pump 30 is embedded in the center inside the pump housing 20 do.

Thereafter, the cover is coupled through the flanges formed at both ends of the pump housing 20, but the outlet pipe connected to the pressure pump 30 is coupled to protrude outward through the outlet 22 side cover. To complete.

Looking at the installation process of the present invention, the assembly is completed as described above, to the recovery port 11 formed on the upper side of the main body housing 10 is connected to the recovery pipe to recover the water discarded from the membrane filter, the pump housing 20 The inlet 21 is connected to the inlet pipe so that the raw water from the outside, the outlet 22 of the pump housing 20 by connecting the outlet pipe so that the water stored in the main body housing 10 is supplied to the membrane filter Complete the installation of.

Looking at the operating process of the present invention installed above, the water recovered in the recovery port 11 and the water introduced into the inlet 21 is filled in the interior of the body housing 10, the power is applied to the underwater motor 31. On the other hand, the rotary turbine 35 connected by the submersible motor 31 and the rotary shaft 34 rotates to suck the water in the body housing 10 through the strainer 32, and then the membrane filter at a constant pressure and a constant flow rate. Furnace has an operation of supplying through the outlet pipe (22).

10: main body housing 11: recovery port
20: pump housing 21: inlet
22: outlet 30: pressurized pump
31: Submersible motor 32: Strainer
33: submersible pump 34: rotating shaft
35: rotary turbine 40: mounting hole
41: through hole

Claims (3)

In the system of the pressure pump for water purification equipment,
It is configured in the form of a cylinder vertically, the upper one side body housing 10 is formed with a recovery port 11;
A pump housing 20 having a cylindrical shape installed in a horizontal direction so as to penetrate the lower portion of the main body housing 10, and having an inlet 21 formed at one side thereof and an outlet 22 formed at the other side thereof;
A pressure pump 30 installed horizontally in the inner center of the pump housing 20;
The pressurized pump 30 is installed inside one side of the pump housing 20 so as to be installed in the inner center of the pump housing 20, and includes a ring-shaped mounting hole 40 having a plurality of through holes 41 formed therein. After the water recovered through the recovery port 11 and the water flowing into the inlet 21 are filled in the body housing 10, the membrane is pumped through the outlet 22 at a constant pressure and a constant flow rate by the pressure pump 30. System of a pressure pump for water purification equipment, characterized in that configured to be supplied to the filter.
The method of claim 1,
Pressurization for the water purification device, characterized in that the lower portion of the central portion of the pump housing 20 is formed with a cut in a semicircular shape so that the water flowing through the inlet 21 can be moved and stored inside the body housing 10. System of pumps.
The method of claim 1,
The pressurized pump 30 allows the submersible motor 31 to be located at the inlet 21 side of the pump housing 20, and the strainer 32 to be positioned at the middle portion where the cutout of the pump housing 20 is formed. System of the pressure pump for water purification equipment, characterized in that the water pump (33) is configured to be located on the outlet 22 side of the housing (20).

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