KR102114227B1 - Filter - Google Patents

Abstract

The present invention relates to an apparatus for separating each material using a filter from units having different particle sizes, and regenerating the filter. Specifically, the apparatus comprises: a supply container (100) in which a solid material and a liquid material are simultaneously accommodated therein; a first porous plate (210) forming a closed space, and having filter particles seated therein; a first chamber (200) supplying the solid material and the liquid material of the supply container at the same time; and a first recovery container (300) receiving the liquid material separated from the first chamber.

Description

Filter {Filter}

The present invention relates to a device capable of self-regeneration without replacement of a filter from the outside.

Patent invention 001 relates to an automatic regenerative air filter device for air purification, in particular, it regenerates by spraying foreign substances such as dust collected in the filter with high-pressure compressed air, easily discharging dust, and filtration by maximizing the filtration area Presenting a regenerative air filter device for automatic air purification capable of improving performance and maintaining low pressure loss.

Patent invention 002 is a main body having a vent hole, a rotary disk type filter installed in the vent hole and installed to be rotatable by a rotary shaft support and a filter rotary drive device, and a filter washing device installed on both sides of the filter As for a dust collecting device, the filter cleaning device is installed on the opposite side of the air inlet direction, and is provided in at least one high pressure air injection device for injecting high pressure air toward a contaminated filter, and the high pressure air injection device installed in the air inlet direction To provide a dust collection system capable of continuous regeneration of a filter composed of at least one air intake device facing the high pressure air injection device so as to inhale high pressure air passing through the filter by spraying, Patent Invention 002 The filter can be cleaned using high pressure water and air, and the filter action continues even when the filter is washed, so that the filter can be used continuously, and in case of emergency, the filter housing rotates at a right angle to filter the air flowing in from outside. It suggests that the function of ventilation and air supply duct when a fire occurs by allowing it to flow directly in or out without passing through.

Patent invention 003 provides the convenience of maintenance and management of the filter-type filtration device by automatically performing a series of processes to remove foreign substances attached to the filter, and also a regeneration function that can reduce the user's economic burden for filter replacement. As for a filter-type filtration device having a patent invention 003 is installed on a pipeline through which water to be filtered is required, a housing installed to be connected to a discharge pipe and a foreign substance discharge pipe through which the filtrate is discharged; A filter unit installed in the housing to filter foreign substances contained in water; A drying unit installed inside the housing and heated by a heat source supplied from the outside to transfer heat to the filter unit to dry the filter unit; And a filter-type filtering device having a regeneration function composed of an air nozzle that separates foreign substances attached to the filter unit by spraying air to the filter unit dried by the drying means.

Patent invention 004 relates to a rotor filter system having an automatic regeneration function, a rotor filter rotatable around one axis of rotation through which only the liquid excluding foreign substances is filtered by filtering a stock solution in which foreign substances and liquid are mixed; And a filter configured to concentrically embed the rotor filter, to allow the stock solution to be injected through the inlet formed on one side, and to filter the foreign material through the rotor filter, and to be discharged through the outlet formed on the top. In the rotor filter system including a housing, between the inner surface of the filter housing and the outer surface of the rotor filter, fixedly installed in parallel with the axis of rotation of the rotor filter, according to the rotation of the rotor filter, of the rotor filter Foreign matter removal device for physically scraping off the foreign matter attached to the outer surface; And a foreign substance discharge device for collecting and discharging foreign substances from the lower surface of the filter housing. Accordingly, it is proposed to automatically remove and regenerate foreign substances adsorbed on the surface of the rotor filter during the filtering process.

KR 20-0278984 Y1 (Date of registration June 5, 2002) KR 10-0888043 B1 (Registration date March 03, 2009) KR 10-0961827 B1 (Registration Date May 28, 2010) KR 10-2017-0122153 A (published November 03, 2017)

The present invention relates to a device capable of self-regeneration without replacement of a filter from the outside.

The present invention is an invention for a filter, and a supply container (100) in which solid and liquid materials are simultaneously accommodated therein; forms a closed space, and a first perforated plate (210) in which filter particles are seated inside; And a first chamber 200 to which the solid material and the liquid material of the supply container are simultaneously supplied; and a first recovery container 300 to receive the liquid material separated from the first chamber.

The present invention is an invention for a filter, in the invention presented above, to form a closed space, the second perforated plate 410 and the third perforated plate 420; spaced apart, one side is the first The first chamber is in communication with the other side, the first side is in communication with the first container, the middle side is the second collection container 500 ;, and the second chamber 400 in communication with.

The present invention is an invention for a filter, and in the invention presented above, a supply pump 511 formed in a supply pipe 510 communicating with one side of the supply container and the first chamber; and the first recovery container and the first A first circulation pump 521 formed in a first circulation pipe 520 communicating with the other side of the chamber; and a second circulation pump formed in a second circulation pipe 530 communicating with the other side of the second chamber and the first recovery container (531) ;, A third circulation pipe 540 communicating with one side of the first chamber and one side of the second chamber ;, A discharge pipe 550 communicating with the intermediate side of the second chamber and the second recovery container; includes do.

The present invention is an invention for a filter, and in the invention presented above, it is formed under the second recovery container, and a plurality of residual outlets 501 are formed.

The present invention is an invention for a filter, and in the invention presented above, the pressure sensor 610 located in the first chamber; the water level sensor 620 mounted on the first recovery container; and the pressure sensor and the water level It includes; a main controller 600 for measuring the sensor signal, and controlling the operation of the supply pump, the first circulation pump and the second circulation pump.

The present invention is an invention for a filter, and in the invention presented above, the recovery pipe 560 which is branched to the supply pipe and communicates with the supply container; and a relief valve 561 located at the branch point of the supply pipe; Includes.

The present invention can be reused without additional supply of filter particles, and has the effect of separating solid and liquid substances. Since the present invention uses various functional filter particles, it has an effect of adding not only state separation but also functionality. Since the present invention is operated as a control device, it is possible to perform the function of filter regeneration and filter generation by automation. Since the present invention is operated by a pressure sensor and a water level sensor, stability can be secured. Since the present invention includes a relief valve, it is possible to prevent damage due to excessive pump pressure.

1 is a structural arrangement diagram of the filter system of the present invention.
Figure 2 is a filter generation, filter regeneration, filter process flow chart of the present invention

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to explain in detail that a person having ordinary knowledge in the technical field to which the present invention pertains can easily implement the present invention. Citation relations of the following embodiments are only numbers provided to help technical understanding, and other embodiments not cited may be cited. Even if the configuration is not specified in the Examples below, it can be substituted for objects that exhibit similar purposes and effects. Even the concept of a sub-concept not specified in the following examples is regarded as specified.

[Example 1-1] The present invention relates to a filter, specifically, a supply container 100 in which solid and liquid substances are simultaneously accommodated therein; forming a closed space, and having filter particles settled therein Perforated plate 210; Forming, the first chamber 200 to which the solid material and the liquid material of the supply container is simultaneously supplied ;, The first recovery container 300 for receiving the liquid material separated from the first chamber ) ;.

The present invention is an invention for a filter, and specifically, to separate solid and liquid monomers generated in a process in which polymers are separated into monomers by a chemical reaction. As another use, in the process of recycling the banner, the ink attached to the banner is separated with sodium hydroxide, and the solid ink particles, which are inorganic substances, are aggregated to a certain size to separate the solid ink particles and the liquid sodium hydroxide. It is to do. Conventional filters separate solid and liquid substances by state, and filters that have reached their limit in the separation process are discarded. The present invention aims to enable filter regeneration. In order to implement this, the present invention is a supply container, a first chamber, the first recovery container as a basic essential configuration. A first porous plate is formed inside the first chamber, and filter particles are placed on the first porous plate to form a filter layer. The filter layer separates solid and liquid materials. The supply container may contain solid and liquid units, or liquid sodium hydroxide and solid inorganic ink agglomerates may be present.

[Example 1-2] The present invention relates to a filter, and in Example 1-1, the particle size of the filter particles is larger than the hole size of the first porous plate.

[Example 1-3] The present invention is an invention for a filter, and in Example 1-1, the filter particles are formed of any one selected from activated carbon, diatomaceous earth, maculite, and granite.

The hole of the first porous plate cannot be larger than the filter particles. When the hole of the first porous plate is larger than the particle diameter of the filter particles, a porous plate material such as a nonwoven fabric can be seated and used. That is, the hole of the nonwoven fabric should be formed smaller than the particle diameter of the filter particles. The filter particles are preferably formed with a uniform particle diameter, and may also include functionality. Therefore, activated carbon, diatomaceous earth, maculite granite, etc. can be used, and a single material or a mixture of two or more materials can be used.

[Example 1-4] The present invention relates to a filter, and in Example 1-1, it is formed on the lower portion of the first recovery container, and opens and closes the valve 320; It includes.

[Example 1-5] The present invention relates to a filter, and in Example 1-4, the lower portion of the first recovery container is inclined, and the supply port is located at the bottom of the inclined surface.

The first receptacle holds the final material in liquid form. The liquid material is discharged to the outside through the supply port at the bottom of the first recovery container, and the supply port is equipped with an on-off valve for selective opening and closing.

[Example 2-1] The present invention relates to a filter, and in Example 1-1, a closed space is formed, and the second porous plate 410 and the third porous plate 420 are formed therein. It is spaced apart, one side is in communication with the first chamber, the other side is in communication with the first recovery container, the middle side is the second recovery container 500 ;, and the second chamber 400 in communication with; .

[Example 2-2] The present invention relates to a filter, and in Example 2-1, the pore sizes of the second and third porous plates are differently formed.

[Example 2-3] The present invention relates to a filter, and in Example 2-1, the second porous plate is located at the top, and the third porous plate is located at the bottom.

[Example 2-4] The present invention relates to a filter, and in Example 2-1, the hole size of the third porous plate is smaller than that of the second porous plate.

The present invention forms a second chamber in communication with the first chamber. The second chamber is intended to replace the filter particles of the first porous plate. One side of the first chamber and one side of the second chamber are coupled, and the other side of the first chamber and the other side of the second chamber are in communication with the first recovery container. In addition, the middle side of the second chamber communicates with the second recovery container. Also, inside the second chamber, second and third perforated plates having different hole sizes are formed. When forming the filter layer, the filter particles of the second chamber are introduced into the upper portion of the first chamber together with the liquid material. The filter particles put on the top are seated on the top of the first porous plate to form a filter layer. The liquid material passes through the first perforated plate and is received in the first recovery container, and the liquid material of the first recovery container transports the filter particles of the second chamber back to the first chamber. That is, the liquid material continuously circulates through the first chamber and the second chamber, and transfers the filter particles above the second chamber to the top of the first chamber to form a filter layer. When the filter layer is regenerated, the liquid material is transferred in the opposite direction to the filter layer formation process. That is, the liquid material of the first recovery container is transferred to the upper portion through the lower portion of the first chamber, and moves the filter layer to the second chamber during the transfer process. The filter layer contains residual solid material. That is, the remaining solid material and filter particles are transferred into the second chamber, and are separated by the second and third porous plates in the second chamber. The solid material having a large particle size is settled on the top of the second porous plate in the uppermost layer, and the filter particles with a small particle size are settled on the top of the third porous plate in the lowest layer. The solid material seated on the upper portion of the second perforated plate is discharged to the outside of the second chamber and accommodated in the second recovery container. On the other hand, the solid material and the liquid material that transported the filter particles penetrate the second and third porous plates and are accommodated in the first recovery container.

[Example 2-5] The present invention relates to a filter, and in Example 2-1, the second porous plate is inclined.

[Example 2-6] The present invention relates to a filter, and in Example 2-1, the hinge 411 is rotatably coupled to one side of the second perforated plate and the inner surface of the second chamber. .

[Example 2-7] The present invention relates to a filter, and in Example 2-6, the actuator 412 is coupled to the hinge and rotates the second porous plate.

The second porous plate separates the solid material. The solid material should be discharged outside the second chamber.

For easy discharging, the second perforated plate forms an inclined surface so that the solid material is located on one side of the second perforated plate. In addition, a portion of the side surface of the second chamber forms an open hole, and the hole mounts the door 430. The door is selectively opened and closed, and the solid material of the second perforated plate is discharged when the door is opened. For easy discharge, the inclined surface of the second perforated plate is located on the side of the door. In addition, the inclined surface is coupled by a hinge, and can be rotated by a hinge. That is, when the door is opened, the hinge is rotated at the same time, so that the solid material on the second perforated plate is easily discharged outside the second chamber. The hinge is automatically operable by an actuator. It is preferable that the actuator uses an electric motor, or it can be replaced with an object exhibiting the same purpose and effect. The hinge rotates during the filter creation process, to prevent interference during the reverse movement of the filter particles.

[Example 3-1] The present invention relates to a filter, and in Example 2-1, a supply pump 511 formed in a supply pipe 510 communicating with the supply container and one side of the first chamber; A first circulation pump 521 formed in a first circulation pipe 520 communicating with the first recovery container and the other side of the first chamber; and a second circulation pipe communicating with the other side of the second chamber and the first recovery container ( A second circulation pump 531 formed in 530; a third circulation pipe 540 communicating with one side of the first chamber and one side of the second chamber; communicating with the middle side of the second chamber and the second recovery container Exhaust pipe 550 to be included.

[Example 3-2] The present invention relates to a filter, and in Example 3-1, the first circulation pump and the second circulation pump are selectively changed in the supply and discharge directions; It includes.

The filter creation process and the filter regeneration process consist of moving the first and second chambers of the liquid material. In order to facilitate the movement of the liquid material, the first, second and third circulation pipes are mounted between the first chamber, the second chamber and the first recovery container, respectively, and the first and second circulation pumps are provided with the first and second circulation pipes. To be fitted. The circulation pumps have different transport directions depending on the operating state (filter creation, filter regeneration). Therefore, a pump that easily changes the direction of fluid change with one pump is used. Liquid and solid substances exist simultaneously in the supply container. It is transferred to the first chamber through a supply pipe, and the transfer power is made by a supply pump. The supply pump is mounted in the middle of the supply pipe. In addition, the supply pump generates pressure above a certain pressure. Therefore, pressure is applied to the upper portion of the first chamber. The pressure is intended to pass the first porous plate through the liquid material. That is, high pressure is applied to the upper end portion of the first chamber at a constant pressure, thereby ensuring a rapid penetration effect of the liquid material.

[Example 3-3] The present invention is an invention for a filter, and in Example 3-1, one side of the third circulation pipe is branched in the middle of the supply pipe, and is connected to the third circulation pipe and the supply pipe connection in three directions. And a valve 512.

[Example 3-4] The present invention relates to a filter, and in Example 3-3, the main controller 600 controls the operation of the first circulation pump, the second circulation pump, and the three-way valve; It includes.

The supply pipe and the first circulation pipe may be respectively connected to the upper portion of the first chamber, or the first circulation pipe may be connected to the middle of the supply pipe. When the first circulation pipe is connected in the middle of the supply pipe,

A three-way valve is installed on the connecting part. The three-way valve changes the open position according to the operating state. The three-way valve is controlled by the main controller signal.

[Example 4-1] The present invention relates to a filter, and in Example 2-1, it is formed under the second recovery container and includes a plurality of residual water outlets 501.

[Example 4-2] The present invention relates to a filter, and in Example 4-1, the second recovery container is located inside the first recovery container, and is located above the water surface of the first recovery container. ;.

[Example 4-3] The present invention relates to a filter, and in Example 4-1, the first and second recovery containers are fastened by an assembly means.

Examples 4-1 to 4-3 of the present invention show the coupling relationship between the first and second recovery containers. The first receptacle accommodates the liquid substance, and the second receptacle contains the solid substance. The first and second receptacles may be installed separately, or the second receptacle may be seated at the upper end of the first receptacle. The second receptacle receives the solid material, but is transported by the liquid material during the transfer process, so that the liquid material may remain on the surface. A plurality of residual water outlets are formed at the bottom of the second recovery container in order to utilize the remaining liquid material without wastewater and reuse it. The residual water discharge port is intended to facilitate external discharge of a liquid material buried on the surface of a solid material. It is preferable that the liquid material discharged to the residual water discharge port is transferred to the first recovery container. To facilitate the transfer problem, the second receptacle is accommodated in the first receptacle, and placed on the surface of the first receptacle. That is, the residual water in the liquid state discharged by gravity is discharged and enters the inside of the first recovery container. Assembling means are formed to secure the ease of coupling of the first and second receptacles. The assembly means is formed by any one selected from a step formed inside the first recovery container, a pedestal formed inside the first recovery container, and a sliding guide positioned outside the second recovery container and inside the first recovery container.

[Example 5-1] The present invention relates to a filter, and in Example 2-1, a pressure sensor 610 located in the first chamber; and a water level sensor 620 mounted on the first recovery container It includes ;;, the main controller 600 for measuring the pressure sensor and the water level sensor signal, and controls the supply pump, the first circulation pump and the second circulation pump operation.

There is a constant pressure inside the upper portion of the first chamber, and the liquid material passes through the first porous plate and is supplied to the first recovery container by the pressure. When the liquid substance inside the first container reaches the limit, the liquid substance can no longer be supplied. To prevent this, a water level sensor is attached to the first receptacle. The water level sensor may detect the water level by an ultrasonic measuring device and a ball top, or may measure the water level by measuring the weight by a load cell under the first recovery container. When the pressure in the upper portion of the first chamber is excessively applied, the filter layer may collapse or breakage of the first chamber may occur. To prevent this, a pressure sensor is mounted on the first chamber. That is, the signals of the pressure sensor and the water level sensor are detected by the main controller, and the main controller can control the operation of the first and second circulation pumps and the supply pump.

[Example 6-1] The present invention relates to a filter, and in Example 2-1, the recovery pipe 560 is branched to the supply pipe and communicates with the supply container; and located at a branch point of the supply pipe Relief valve 561 to include.

When the supply pump operation is excessive, the upper end portion inside the first chamber reaches a limit pressure, which causes a damage to the first chamber. To prevent this, a relief valve is mounted on the supply pipe. The relief valve changes the flow direction by its own pressure (supply pipe pressure) to recover the feed (liquid material and solid material) into the supply container.

100: supply container 200: first chamber
210: first perforated plate 300: first receptacle
310: supply port 320: on-off valve
400: second chamber 410: second perforated plate
411: hinge 412: actuator
420: third perforated plate 430: door
500: second receptacle 501: residual water outlet
510: Supply pipe 511: Supply pump
512: 3-way valve 520: 1st circulation pipe
521: first circulation pump 530: second circulation pipe
531: Second circulation pump 540: Third circulation pipe
550: discharge pipe 560: recovery pipe
561: relief valve 600: main controller
610: pressure sensor 620: water level sensor

Claims (6)

In the filter,
A supply container 100 in which solid and liquid materials are simultaneously accommodated;
Forming a closed space, the first porous plate 210, the filter particles are seated therein; to form,
A first chamber 200 to which solid and liquid materials of the supply container are simultaneously supplied;
A first recovery container 300 accommodating the liquid material separated from the first chamber;
Forming a closed space, the second perforated plate 410 and the third perforated plate 420 ;, are spaced apart,
One side is in communication with the first chamber, the other side is in communication with the first recovery container,
The middle side of the second recovery container 500; And, the second chamber 400 in communication with;
It is formed on the bottom of the second recovery container, a filter comprising a; a plurality of residual water outlet (501).
delete The method according to claim 1,
A supply pump 511 formed in a supply pipe 510 communicating with the supply container and one side of the first chamber;
A first circulation pump 521 formed in a first circulation pipe 520 communicating with the first recovery container and the other side of the first chamber;
A second circulation pump 531 formed in a second circulation pipe 530 communicating with the other side of the second chamber and the first recovery container;
A third circulation pipe 540 communicating with one side of the first chamber and one side of the second chamber;
And a discharge pipe 550 communicating with the second chamber intermediate side and the second recovery container.
delete The method according to claim 3,
Pressure sensor 610 located in the first chamber ;,
Water level sensor 620 mounted to the first recovery container ;,
And a filter for measuring the pressure sensor and the water level sensor signal and controlling the supply pump, the first circulation pump, and the second circulation pump.
The method according to claim 3,
A recovery pipe 560 branched to the supply pipe and communicating with the supply container;
A filter comprising a; relief valve (561) located at the branch point of the supply pipe.

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