KR102385055B1 - Automatic back-washing using a triple filter - Google Patents

Abstract

The present invention relates to an automatic backwash filtration structure using three filters, and specifically, to an automatic backwash filtration structure using three filters, wherein when discharging introduced water to an outlet, the water is filtered using three filters having mesh networks of different sizes, and when the filters are clogged based on the pressure load of the filters, backwashing is automatically performed.

Description

Automatic back-washing using a triple filter

The present invention relates to an automatic backwash filtration structure using three filters.

Specifically, in discharging the obtained water to the outlet, water is filtered using three filters each having a mesh of different size, but based on the pressure load of the filter, when the filter is clogged, backwashing is automatically performed. , it relates to an automatic backwash filtration structure using three filters.

The automatic backwash filtration apparatus refers to a filtering apparatus in which automatic processes such as filtration and backwashing are fully automatic as a variation of the gravity sand filtration method.

Such an automatic backwash filtration device can obtain high-quality water without incurring operation and maintenance costs. A defect that causes a gradual decrease in the cleaning speed can be compensated by connecting several units and adjusting the start of each device.

The present applicant intends to propose a technology in which three filters are applied to such an automatic backwash filtration device.

Regarding automatic backwashing technology, Korean Patent Publication No. 10-2005801 describes an automatic backwashing filter system.

The above technology proposes an automatic backwash filter system for preventing foreign substances from being caught in the sensor. The automatic backwash filter system according to the above technology increases the period of time for foreign substances to accumulate on the surface of the sensor probe as well as the filter due to the impact generated by the beads as they reciprocate in the pipe where the sensor probe is installed, thereby reducing the cleaning cycle of the filter and probe. It can be increased more than twice, and the effect of improving the reliability of the value measured from the sensor probe can be achieved.

In addition, Korean Patent Publication No. 10-1461719 discloses an automatic backwash filter device.

The above technology discloses an automatic backwash filter device capable of backwashing the filter while filtering foreign substances and microorganisms contained in seawater or freshwater.

To this end, the technology is a hollow shape in which a plurality of filter housings for inflow and outflow of water used for sailing ships, and a plurality of filter housings are installed in the filter housing, and a split pipe of a multi-stage folded shape is inserted and fastened on the inside to filter water. and a backwashing unit selectively connected to the lower end of the filter element to backwash the filter element so that foreign substances in the water filtered by the filter element are removed from the filter element, wherein the divided pipe of the filter element comprises: There is provided an automatic backwash filter device, characterized in that the interface is formed in an open shape to uniformly distribute the flow rate of water flowing into the upper and lower portions.

In addition, Patent Registration No. 10-2154669 discloses a filter device having an automatic cleaning function.

The above technology relates to a filter device having an automatic cleaning function, and a filter that filters out foreign substances or fine dust is installed on one side of the mesh network, and wings are formed in an annular shape on one side of the mesh network, but a brush is formed between the wings. By rotatably coupling the rotating device part and coupling the other surface of the mesh network to the suction pipe, foreign substances or dust contained in the air flowing into the suction pipe are purified by the filter, and then rotated while flowing into the suction pipe through the through hole of the mesh network. It is to provide a filter device having an automatic cleaning function in which the blade of the device unit rotates in one direction by the air flow rate flowing into the suction pipe, and the brush is integrally rotated to remove foreign substances or dust adhering to the filter.

According to this, the blades rotate to correspond to the air volume supplied to the suction pipe and the brushes are integrally driven to rotate, and the brush removes foreign substances or dust adhering to the filter, and the dust or foreign substances removed from the filter is removed from the external air. There is no fear of being dispersed in the air and remaining on the filter while being dispersed by the air, and the blades and brushes are rotated by the amount of air without additional power, so that the energy consumption rate is not generated. By automatically removing dust or foreign substances, it is possible to obtain the effect of maintaining the filter in a clean state.

Lastly, Korean Patent No. 10-1239260 discloses a chemical filtration filter device capable of automatic backwashing.

The chemical filtration filter device capable of automatic backwashing according to the above technology has an inlet through which polluted water flows and an outlet through which purified purified water is discharged, and a filter having a drain pipe at the bottom that serves to discharge residual water and backwash water at the same time. housing; a filter media layer installed under the chamber of the filter housing; a chemical discharging unit installed to be embedded in the lower side of the filter medium layer and horizontally installed with a length similar to the lateral length of the filter medium layer to discharge chemicals to the inner upper side of the filter medium layer; a chemical supply pump for supplying sodium hypochlorite, a cleaning chemical, to the chemical discharge unit via a chemical supply line connected to the chemical storage tank; a drug control solenoid valve installed on the drug supply line to regulate and control drug supply; It is installed on the upper side of the drug supply line in the filter media layer to discharge air to primarily diffuse the drug discharged from the drug outlet to the filter media layer, and is installed horizontally with a length similar to the lateral length of the drug outlet. 1 air discharge unit; It is installed on the upper side of the first air outlet in the filter media layer to discharge air to serve to secondaryly diffuse the drug away from the sphere of influence of the first air outlet to the filter media layer, and is similar to the lateral length of the first air outlet. a second air discharge unit installed horizontally in length; an air supply line having a branch pipe for supplying air to the first and second air discharge units, respectively; an air compressor providing air to each of the air discharge units via the air supply line; an air interception solenoid valve installed on the air supply line to regulate and control the air supply; and a backwash control means for controlling the supply and blocking of the chemical and air automatically, wherein the filter media layer further comprises that a gravel layer, a sand layer, an anthracite layer and an activated carbon layer are sequentially stacked, the filter housing Further comprising an electromagnet or a permanent magnet installed outside of the filter housing for precipitating iron content contained in the contaminated water in the filter housing, and a warning speaker or warning light that functions as an alarm when the chemical supply pump is stopped will be.

Registered Patent Publication No. 10-2005801 (2019.07.31. Announcement) Registered Patent Publication No. 10-1461719 (2014.11.19. Announcement) Registered Patent Publication No. 10-2154669 (2020.09.10. Announcement) Registered Patent Publication No. 10-1239260 (2013.03.06. Announcement)

An object of the present invention is to filter water using three filters having mesh networks of different sizes in discharging the obtained water to the outlet, but automatically backwashing when the filter is clogged based on the pressure load of the filter It is to provide an automatic backwash filtration structure using three filters to perform.

The automatic backwash filtration structure using three filters according to the present invention was devised to achieve the above object, and includes: a pipe 1 having an inlet through which water is obtained; In the automatic backwash filtration structure using three filters including; a pipe 2 including an outlet through which water is finally discharged,

The pipe 1 and the pipe 2 are coupled through a pipe including a valve,

A connection pipe is connected to the other side of the pipe 1 through a pipe including another valve,

A second connecting pipe is connected to the other side of the pipe 2 through a pipe including another valve,

A filter body and a corrugated pipe are connected between the connecting pipe connected to the pipe 1 and the connecting pipe connected to the pipe 2, characterized in that it is configured.

At this time, a hollow is formed inside the filter body, and a cylindrical filter in which a semi-cylindrical first filter and a second filter are combined are interpolated into the hollow, wherein the first filter is smaller than the second filter. It is characterized in that it has an opening size.

In addition, the front end of each of the first and second filters, and the third filter is characterized in that the pressure gauge is provided at any one side selected from the front end or the rear end.

In addition, each of the first and second filter front and rear ends of the filter body,

Each further includes a discharge pipe for inducing and discharging water in a different direction using a valve,

Each discharge pipe is configured to be connected to a water collecting pipe,

A discharge pipe is further connected to the water collecting pipe, and a pump is connected to one side of the discharge pipe.

In addition, a third filter is coupled to the space between the flange coupling the pleated pipe and the second connecting pipe, and the third filter has a larger mesh opening size than the second filter, and includes a coupling wing extending to one side. Including, in the flange of the second connection pipe, a groove formed concavely along the circumferential direction of the flange; groove 2; and a packing is inserted into the groove to improve watertightness, and the coupling wing of the third filter is fitted into the groove 2 and is fixed between the flange of the pleated pipe. .

According to the automatic backwash filtration structure using three filters according to the present invention, water is filtered using three filters having different size meshes in discharging the obtained water to the outlet, but based on the pressure load of the filter, When the filter is clogged, it is possible to provide an automatic backwash filtration structure using three filters to automatically perform backwashing.

1 is a plan view showing an automatic backwash filtration structure using three filters according to the present invention.
2 is a side view showing the automatic backwash filtration structure using three filters according to the present invention.
3 shows a filter body of an automatic backwash filtration structure using three filters according to the present invention.
4 shows in detail the third filter of the automatic backwash filtration structure using three filters according to the present invention.
5 shows an example in which the third filter of the automatic backwash filtration structure using three filters according to the present invention is combined.

The terms or words used in the present specification and claims should not be construed as being limited to their ordinary or dictionary meanings, and the inventor may appropriately define the concept of the term in order to best describe his invention. Based on the principle, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Accordingly, the embodiments described in the present specification and the matters shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical spirit of the present invention, so various equivalents that can be substituted for them at the time of the present application It should be understood that there may be water and variations.

Hereinafter, prior to the description with reference to the drawings, it is not shown or specifically described for the known components that are not necessary to reveal the gist of the present invention, that is, a known configuration that can be added obviously by those skilled in the art with ordinary knowledge. reveal the sound

The present invention relates to an automatic backwash filtration structure using three filters.

Specifically, in discharging the obtained water to the outlet, water is filtered using three filters each having a mesh network of different sizes, but when the filter is clogged based on the pressure load of the filter, automatically backwashing is performed. It relates to an automatic backwash filtration structure using three filters.

1 is a plan view showing an automatic backwash filtration structure using three filters according to the present invention, FIG. 2 is a side view showing an automatic backwash filtration structure using three filters according to the present invention, and FIG. It shows the filter body of the automatic backwash filtration structure using the following three filters.

In addition, FIG. 4 shows in detail the third filter of the automatic backwash filtration structure using three filters according to the present invention, and FIG. 5 is a third filter of the automatic backwash filtration structure using three filters according to the present invention is combined An example is shown.

The automatic backwash filtration structure using three filters according to the present invention includes: a pipe 1 having an inlet through which water is received; Finally, a pipe 2 including an outlet through which water is discharged; includes.

At this time, the pipe 1 and the pipe 2 may be connected by a pipe including a valve, and the valve is opened and closed by a separate motor control of an administrator.

At this time, the structure including the motor of the valve is obvious to those skilled in the art, and to adopt the configuration of various known techniques.

A connecting pipe is laterally coupled to the above-described pipe 1 . At this time, the connecting pipe is configured to be curved, and to be coupled using the pipe 1 and the flange. The coupling between the connecting pipe and the pipe 1 is configured to communicate.

At this time, the pipe including the second valve is coupled between the pipe 1 and the connecting pipe, and the pipe at this time is also coupled using a flange.

A filter body is coupled to the other end of the connecting pipe using a flange.

This filter body is shown in FIG. 3 of the accompanying drawings, and an extension pipe including a flange for coupling to the connection pipe is configured on one side of the filter body, and the extension pipe is configured to extend including the flange to the other side. do.

However, a hollow is formed inside the filter body, and the first filter and the second filter are interpolated and coupled to the hollow. A flange is configured on one side of the first and second filters, and the flange of the filter and the flange of the filter body are fastened with bolts so that they can be coupled.

At this time, the first filter is to have a smaller mesh opening than the second filter, preferably, the first filter has a size of 0.4 mm, and the second filter has a size of 0.2 mm.

Specifically, the first and second filters have a cylindrical shape, and by dividing the cylindrical shape in half, one side is configured as the first filter and the other side is configured as the second filter. That is, each filter has a semi-cylindrical shape.

A pleated pipe is coupled to one side of the extension pipe extending to the other side of the filter body using a flange, and a second connecting pipe having a curved shape is coupled to the next end of the pleated pipe using a flange.

In this case, the second connecting pipe is coupled to the pipe 2 through a flange using a pipe including a valve.

According to this structure, when the valve connected to the pipe 2 is closed, the water received into the pipe 1 through the inlet flows into the connection pipe, is filtered in the filter body, and then discharged through the outlet of the pipe 2.

On the other hand, when the pleated pipe and the second connecting pipe are coupled using a flange, the third filter may be further coupled as shown in FIG. 4 of the accompanying drawings.

The third filter has a larger mesh size than the second filter, and preferably has an opening of 0.1 mm or less.

In addition, the third filter has a cylindrical shape, and is configured such that a coupling blade extends to one side as shown in FIG. 5 of the accompanying drawings.

And a groove is formed along the circumferential direction of the flange in the flange of the connecting pipe connected to the corrugated pipe as shown in FIG. 4 of the accompanying drawings, and the packing is coupled to the groove to improve watertightness.

In addition, in the flange of the connecting pipe connected to the corrugated pipe, a groove 2 may be formed along the circumferential direction of the flange.

Prior to the description, the above-described second connection pipe may have an expanded shape at the end of the corrugated pipe direction. However, in order to have an expanded shape, it may have a shape integrated with the connection pipe, but may have a separate configuration using a flange as shown in the accompanying drawings.

The coupling blade of the third filter is inserted into the groove 2 and coupled, so that the third filter can be fixedly coupled.

On the other hand, a pressure gauge may be provided on either side selected from the front end of each of the first and second filters, and the front end or the rear end of the third filter, and the pressure gauge is generated as the filter is clogged by the adsorption of foreign substances in each filter. It performs the function of measuring the applied pressure.

In addition, each of the first and second filter front and rear ends of the filter body may further include a discharge pipe (not shown) for inducing and discharging water in a different direction using a valve, and the discharge pipe is configured to be connected with a separate water collecting pipe (upper pipe in FIG. 2 ). The connection at this time also uses a flange.

And the valve coupled to each discharge pipe is opened and closed based on the measured value of the pressure gauge.

In addition, a separate discharge pipe may be further connected to the water collecting pipe, and a pump is connected to one side of the discharge pipe.

That is, when the pressure in the pressure gauge is measured to exceed a certain value, the valve of each discharge pipe is opened, and the water that has not passed through the filter through the induction of water by the pump of the discharge pipe changes the direction so that backwashing is performed. At this time, foreign substances adsorbed to each filter and accumulated are removed from the filter, so that the filter can be cleaned.

On the other hand, the configuration of [Table 1] may be further included in order to firmly couple the above-described third filter.

According to [Table 1], an additional groove is further formed in the aforementioned groove 2 . In this case, the additional groove is configured so that two side grooves are further formed on any two surfaces of the inner wall.

The body is inserted into these additional grooves, the body extends to one side, a fixed wing inserted into one side groove, and the opposite surface of the extended surface of the fixed wing, a rotating wing rotated from the body is coupled.

The rotation blade is interpolated to the other side of the additional groove.

However, the rotating wing has a 'C' shape, is coupled to the protrusion extending to the body using a hinge, and a space between the protrusion and the rotating wing is configured to further include a torsion spring fitted to the outer surface of the hinge.

Accordingly, the rotation wing rotates in the body direction with the hinge as an axis, and can be restored to the shape of [Table 1] by the elasticity of the torsion spring.

At this time, the additional groove is formed to have a size somewhat larger than the size when the rotation blade is rotated and folded in addition to the body, and accordingly, when the body is inserted into the additional groove while inserting the fixed blade into the side groove of the additional groove, it rotates As the wing is pushed and folded, it is inserted together into the additional groove, and then, when it reaches the other side groove of the additional groove, the rotating blade is unfolded so that the body can be completely fixed in the additional groove.

In this case, a plurality of springs may be coupled (bolting, bonding, welding, etc.) to one surface of the body in the direction of the additional groove.

This spring exerts a force to expose the body from the additional groove, and accordingly, the body pushes one surface of the coupling wing of the third filter, so that the third filter can be more firmly coupled.

What has been described above using the drawings is to describe only the main points of the present invention, and as many designs are possible within the technical scope, it is obvious that the present invention is not limited to the configuration of the drawings.

Claims (5)

a pipe 1 having an inlet through which water is received; In the automatic backwash filtration structure using three filters including; a pipe 2 including an outlet through which water is finally discharged,
The pipe 1 and the pipe 2 are coupled through a pipe including a valve,
A connection pipe is connected to the other side of the pipe 1 through a pipe including another valve,
A second connecting pipe is connected to the other side of the pipe 2 through a pipe including another valve,
A filter body and a corrugated pipe are connected between the connecting pipe connected to the pipe 1 and the connecting pipe connected to the pipe 2,
A hollow is formed inside the filter body,
A cylindrical filter in which a semi-cylindrical first filter and a second filter are combined are interpolated into the hollow, and the first filter has a smaller mesh opening size than that of the second filter,
A pressure gauge is provided on either side selected from the front end of each of the first and second filters, and the front end or the rear end of the third filter,
At each of the first and second filter front and rear ends of the filter body,
Each further includes a discharge pipe for inducing and discharging water in a different direction using a valve,
Each discharge pipe is configured to be connected to a water collecting pipe,
A discharge pipe is further connected to the water collecting pipe, and a pump is connected to one side of the discharge pipe,
A third filter is coupled to the space between the flange coupling the pleated pipe and the second connecting pipe,
The third filter is
It has a larger mesh opening size than the second filter, and includes a coupling wing extending to one side,
In the flange of the second connection pipe,
a groove formed concavely along the circumferential direction of the flange; Including the composition of Home 2;
Packing is interpolated into the groove to improve watertightness,
An automatic backwash filtration structure using three filters, characterized in that the groove 2 is fitted with a coupling blade of the third filter and is fixed between the flange and the corrugated pipe. delete delete delete delete

Images