KR100337191B1 - Automatic Metal Edge Filter For Dehydrator - Google Patents

Abstract

The filter for the washing water regeneration system of the dehydrator according to the present invention, the washing water inlet and the regeneration water outlet are formed in the center facing, the lower portion is formed of a substantially cylindrical filter main body formed with an outlet; It is installed inside the filtration main body to filter the washing water flowing through the inlet of the filtration main body, and a pair of screens facing each other and the first and second connecting plates connecting the pair of screens. A plurality of filtration slots are formed in the pair of screens along the longitudinal direction, and a plurality of inlet holes are formed in the central portion of the first connecting plate and communicated with the inlet on both sides of the second connecting plate. An outlet hole is formed, and a pair of screens for filtering sludge residues while passing the washing water from the inside to the outside; A brush installed to be in contact with the inner surface of the pair of screens to move up and down to remove sludge residues caught in the filtration slot of the screen; And a brush driving means for moving the brush up and down. According to this, the sludge waste existing in the screen can be removed more effectively, and the sludge waste is removed while the brush moves in the direction of the filtration slot of the screen, so that the screen is not damaged.

Description

Filter for washing water regeneration system of dehydrator {Automatic Metal Edge Filter For Dehydrator}

The present invention relates to a dehydrator for dewatering sludge having a high moisture content by a pressurized belt, and more particularly, to a filter constituting a washing water regeneration system of a dehydrator for reusing a washing water sprayed for washing the dehydrator. It is about.

In the dehydrator for dewatering sludge with high water content using a pressurized belt, the washing water regeneration system is a system for regenerating the recycled water to be recycled to remove sludge residue remaining in the belt pressurized dehydration part after dehydration. One example is disclosed in Korean Patent Publication No. 96-8352 (Notification Date; 1996,06,24).

According to the disclosed water cleaning system of the dehydrator, a guide tank is installed at the lower part of the belt pressurized dewatering unit to allow the washing water sprayed from the injection nozzle to be naturally dropped after collecting the sludge residue, and the guide tank is sequentially compressed. The pumped water is connected to the filter and the washing water is recycled back to the injection nozzle.

The filter has a fastening hole is formed in the partition wall partitioning the inside of the filter main body up and down, the inlet chamber formed on one side of the partition wall is connected to the inlet pipe to which the washing water is pumped, the outflow formed on the other side of the partition wall The seal is connected to an outflow pipe from which regeneration water flows out. In the inflow chamber, a strainer network open at one side of the center part is rotatably installed at a fastening hole of the separation wall, and a brush is installed at an outer circumferential surface of the strainer network.

In the conventional washing water regeneration system configured as described above, the washing water collected by dropping into the guide tank is pumped into the inlet chamber of the filter through the inlet pipe by the compression force of the compression pump. The washing water pumped to the inlet of the filter is filtered while forming a path from the outside of the strainer network to the inside, and the filtered regeneration water passes through an open portion on one side of the center of the strainer network and is formed on the other side of the separation wall. It is pushed into the outlet chamber, and finally through the outlet pipe again to the injection nozzle is reused.

On the other hand, if the washing water regeneration as described above continues, the sludge residues included in the washing water accumulates in the strainer network as time passes, but the net is cleaned by a brush installed to contact the outer peripheral surface of the strainer network, Washing water can be regenerated without degrading regeneration efficiency.

However, in the conventional washing water regeneration system as described above, there is a problem that the structure of the filter is complicated, not only difficult to manufacture but also expensive to produce. That is, the conventional filter has a disadvantage that the structure is complicated, such as rotatably installing a cylindrical strainer network, and driven to rotate by using the power of the stirrer motor.

In addition, the conventional filter is provided with a brush on the outer circumferential surface of the cylindrical strainer network, washing the sludge residue stuck to the strainer network while rotating the strainer network, it is difficult to effectively wash the cylindrical structural structure of the strainer network, and the strainer by the brush There was also the problem of damaging the net.

The present invention has been made in view of the above-described conventional problems, and its object is to provide a filter for a washing water regeneration system for a dehydrator that is not only easy to manufacture due to its structure, but also to reduce manufacturing costs.

Another object of the present invention is to provide a filter for a washing water regeneration system for a dehydrator that can easily remove and clean the sludge residue present in the screen, and can prevent damage to the screen when the screen is washed.

1 is a view schematically showing a washing water regeneration system of a dehydrator to which a filter according to the present invention is applied;

Figure 2 is a longitudinal sectional view showing the structure of the filter according to the present invention,

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a perspective view showing a screen of the filter according to the present invention,

5a and 5b is a plan view and a side view showing a brush structure of the filter according to the present invention, and

6 is a hydraulic circuit diagram showing a brush driving means of the filter according to the present invention,

Explanation of symbols on the main parts of the drawings

20; filtration base 21; washing water inlet

22; wash water outlet 30; pair of screen

31,32; screen 31a, 32a; filtration slot

33, 34; first and second connecting plates 33a, 34a; inlet and outlet holes

36, 36 '; Guide bar 40; Brush

41; connecting bracket 42,43; brush part

44; through 45, 45 '; guide groove

50; brush drive means 51; air cylinder

52; compressed air source 53; directional valve

54; Speed Controller 55,56; Reed Switch

60; control unit

Filter for washing water regeneration system of the dehydrator according to the present invention for achieving the above object is formed in the center and the washing water inlet and the regeneration water outlet is opposed to the substantially cylindrical filtration main body formed with an outlet, the filtration main body It is installed inside the filtration main body to filter the washing water flowing through the inlet of the filter, and consists of a pair of screens facing each other and first and second connecting plates connecting the pair of screens. A plurality of filtering slots are formed in the screen of the pair along the longitudinal direction, and a plurality of inlet holes are formed in the center of the first connecting plate to communicate with the inlet, and a plurality of outflow holes communicating with the outlet are formed on both sides of the second connecting plate. A pair of screens that filter sludge residue while passing water from inside to outside And a brush installed to contact the inner surface of the pair of screens to move up and down, and to remove sludge debris trapped in the filtration slot of the screen, a brush drive means for moving the brush up and down, and a drive for controlling the drive of the brush drive means. It includes a control unit.

Here, the brush drive means is operated by using a source of compressed air for the operation of the belt pressing dehydration unit as a drive source, the air cylinder is installed vertically to be connected to the brush on the upper portion of the filter main body, the direction of the compressed air supplied from the compressed air source A directional valve for switching the engine, a speed controller for varying the speed of the air cylinder by controlling the pressure of the compressed air supplied from the source of the compressed air, and a top dead center position of the air cylinder It consists of two reed switches that set the bottom dead center position.

In addition, the brush is composed of a pair of soles in contact with the pair of screens on both sides of the connecting bracket, respectively, the connecting bracket is formed with at least two through holes through the washing water in the interior of the filter base when the brush is lowered It is characterized by.

On the other hand, the controller compares the pressure of the washing water inlet and the pressure of the regeneration water outlet to determine that a large amount of sludge residue is present on the screen when the pressure difference between them is detected to be lower than the preset reference pressure difference, thereby operating the brush driving means. Although not limited thereto, the control unit may be configured to operate the brush driving means by an operator's operation, or may be configured to automatically operate the brush driving means periodically.

According to the present invention, since the rectangular screen is fixedly installed inside the filtration main body, and a brush for cleaning it is installed on the outer circumferential surface of the screen so as to be movable up and down linearly, so as to rotate the strainer network as in the prior art. It is not necessary to devise means, such that the structure is simple and easy to manufacture, thus reducing the production cost.

In addition, the filter according to the present invention is composed of a screen having a longitudinally arranged filtration slot, and is provided with a brush for removing the sludge debris stuck in the filtration slot while moving linearly along the filtration slot of the screen, washing the sludge residue Efficiency can be increased, and the screen is not damaged during cleaning.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view schematically illustrating a washing water regeneration system of a dehydrator to which a filter according to the present invention is applied, in which reference numeral 1 denotes a belt pressurized dewatering unit and 2 denotes a belt pressurized dewatering unit 1 by stirring sludge. It is a stirrer to supply. In addition, reference numeral 3 is a spray nozzle for spraying the washing water for washing the belt pressurized dehydration unit 1, 4 is a guide tank for collecting and storing the washing water falling from the belt pressurized dehydration unit 1, 5 is a compression pump And 10 is a filter.

Here, the filter 10 serves to receive the washing water pumped from the guide tank 4 by the compression pump 5 and to filter the washing water to be used again to supply the spray nozzle 3.

2 to 6, the filter includes a filter base 20, a pair of screens 30, a brush 40, a brush driving means 50, and a controller 60.

2 and 3, the filtration main body 20 is formed in a cylindrical shape, the inlet through which washing water pumped from the guide tank 4 by a compression pump 5 is introduced into one side of the central portion. 21 is formed, and the other side opposite thereto is formed with an outlet 22 through which filtered regeneration water flows out. In addition, a discharge pipe 23 is formed below the filtration main body 20, and the discharge pipe 23 is provided with a drain valve 24 for selectively opening and closing it.

The pair of screens 30 are installed inside the filtration main body 20 to filter the washing water flowing through the inlet 21. As shown in FIG. 4, the pair of screens 30 are formed by connecting a pair of screens 31 and 32 facing each other with the pair of screens 31 and 32 facing each other. It consists of the 1st and 2nd connecting plates 33 and 34. As shown in FIG. The pair of screens 31 and 32 have a plurality of fine filtration slots 31a and 32a open in the longitudinal direction. In addition, a plurality of inflow holes 33a communicating with the inflow port 21 are formed in the first connection plate 33 so as to be located inside the pair of screens 31 and 32. In addition, a plurality of outlet holes 34a communicating with the outlet 22 are formed at both sides of the second connection plate 34 so as to be located outside the pair of screens 31 and 32. As a result, the washing water flowing into the inlet 21 of the filtration main body 20 is introduced into the screen 30 through the inlet hole 33a of the first connecting plate 33, and the pair of screens 31 are provided. The sludge residue is filtered and regenerated by the screens 31 and 32 while flowing out through the 32. Subsequently, the regeneration water is discharged to the outlet 22 of the filtration main body 20 via the outlet hole 34a of the second connecting plate 34 and sprayed to the belt pressurized dewatering unit 1 by the injection nozzle.

The brush 40 is to remove the sludge residues present in the plurality of filtration slots 31a and 32a formed on the screens 31 and 32. As shown in FIGS. 5A and 5B, a connecting bracket ( The brush portions 42 and 43 which contact the inner surfaces of the screens 31 and 32 are respectively coupled to both sides of the 41. The brush 40 is connected to the connecting bracket 41 on guide bars 36 and 36 'protruding from the first and second connecting plates in the screen 30 by the brush driving means 50 to be described later. The guide grooves 45 and 45 'formed are connected to move up and down, thereby removing the sludge residue present in the filtration slots 31a and 32a. In addition, the connecting bracket 41 is formed with at least two through-holes 44 through which the washing water inside the filtration main body 20 passes when the brush 40 is moved up and down.

The brush driving means 50 is configured to include an air cylinder 51 having an end connected to the connecting bracket 41 of the brush 40 so as to be perpendicular to the upper portion of the filtering base 20. Here, as the driving source of the air cylinder 51, compressed air for operating the belt pressurized dehydration unit 1 provided in the existing regeneration water regeneration system is used. As shown in FIG. 6, the compressed air source ( The excess compressed air of 52) is used. That is, the direction and pressure of the compressed air supplied from the vacuum source 52 by installing the direction switching valve 53 and the speed controller 54 on the pipe connecting the vacuum source 52 and the air cylinder 51 Properly adjusts to operate the air cylinder (51). On the other hand, two reed switches 55 and 56 for setting the top dead center and the bottom dead center of the air cylinder 51 are provided on both sides of the air cylinder 51, respectively.

On the other hand, the control unit 60 controls the operation of the brush drive means 50, in this embodiment by comparing the pressure of the inlet port 21 and the pressure of the outlet port 22 of the filter main body 20 When the pressure difference is smaller than the pre-stored pressure difference, it is configured to automatically operate the brush drive means 50 by determining that a large amount of sludge residue is stuck on the screens 31 and 32, but the present invention is not limited thereto. Alternatively, the controller 60 may operate the brush driving means 50 at regular intervals, or may be configured to operate the brush driving means 50 by an operator.

Hereinafter, the operation of the washing water regeneration system of the dehydrator according to the present invention configured as described above will be described.

The washing water sprayed from the spray nozzle 3 of the dehydrator washes the belt pressurized dehydration unit 1 and then falls to the lower guide tank 4 and is stored therein. Washing water in the guide tank (4) is pumped by the operation of the compression pump (5) is pumped to the inlet (21) of the filter base (20). The washing water thus conveyed flows into the inside of the pair of screens 30 through the inlet hole 33a of the first connecting plate 33 and again to the outside of the two screens 31 and 32. The sludge residues contained in the washing water are filtered through the filter slots 31a and 32b of the screens 31 and 32, and the filtered regeneration water is passed through the outlet hole 34a of the second connecting plate 34. Through the outlet 22 of the filter main body 20 is to be discharged. The reclaimed water flowing out as described above is pumped to the injection nozzle 3 by the pumping force of the compression pump 5, and is again injected to the belt pressurization dehydration unit 1.

On the other hand, if the filtration operation of the wash water as described above continues to some extent, the brush 40 is moved up and down along the longitudinal direction of the strainer network 30 by the operation of the brush drive means 50 by the control unit 60 ( The sludge residues that are present in the filtration slots 31a and 32a of the 31 and 32 are removed. At this time, since the brush 40 moves along the filtration slots 31a and 32a formed in the screens 31 and 32 in the vertical direction, the sludge residue is removed, thereby increasing the efficiency of removing the sludge residue. Damage to the screen 30 can be prevented.

According to the present invention as described above, since the rectangular screen is fixedly installed in the interior of the filter main body, and the brush for cleaning it is installed to be able to move up and down linearly, so as to rotate the strainer network There is no need to take a separate means, such as the structure is simple and easy to manufacture, thus reducing the production cost.

In addition, the filter according to the present invention is composed of a screen having a longitudinally arranged filtration slot, and is provided with a brush for removing the sludge debris stuck in the filtration slot while moving linearly along the filtration slot of the screen, washing the sludge residue Efficiency can be increased, and the screen is not damaged during cleaning.

On the other hand, while the above has been shown and described with respect to preferred embodiments of the present invention, the present invention is not limited to the above-described embodiment, the field to which the invention belongs without departing from the spirit of the invention claimed in the claims below. Of course, any one of ordinary skill in the art that various modifications can be made, of course, such modifications are within the scope of the claims.

Claims (4)

As a filter for a washing water regeneration system for a dehydrator, which is supplied to a spray nozzle by filtering the sprayed washing water to be reused to wash the belt pressurized dewatering unit. A substantially cylindrical filtration main body having a washing water inlet and a regeneration water outlet being opposed to the central portion, and having an outlet formed at the lower portion thereof; First and second connections connecting the pair of screens and the pair of screens disposed to face each other by being installed inside the filtering main body to filter the washing water flowing through the inlet of the filtering main body. It is composed of a plate, the pair of screens are formed with a plurality of filter slots along the longitudinal direction, the central portion of the first connecting plate is formed with at least one inlet hole communicating with the inlet, both sides of the second connecting plate One or more outlet holes are formed in communication with the outlet, the pair of screens for filtering the sludge residue while passing the washing water outward from the inside; A brush installed to contact the inner surface of the pair of screens to move up and down to remove sludge residues caught in the filtration slot of the screen; Brush drive means for moving the brush up and down; And And a control unit for controlling the driving of the brush driving means. The method of claim 1, wherein the brush drive means, An air cylinder installed vertically to be connected to the brush on an upper portion of the filtration main body by operating as a driving source as a compressed air generating source for operating the belt pressurized dewatering unit; A direction switching valve for switching the direction of the compressed air supplied from the compressed air generating source; A speed controller for varying the speed of the air cylinder by controlling the pressure of the compressed air supplied from the compressed air generation source; And And two reed switches respectively provided at both ends of the air cylinder to set a top dead center position and a bottom dead center position of the air cylinder. The brush of claim 1 or 2, wherein the brushes are coupled to both sides of the connecting brackets in contact with the pair of screens, and the connecting brackets are guide grooves on the other sides of the pair of screens not contacting the pair of screens. Is formed is connected to the guide bar (36, 36 ') protruding in the interior of the first and second connecting plate to guide the lifting and lowering of the brush, the connecting bracket is located inside the filtering base when the brush is lowered A filter for washing water regeneration system of a dehydrator, characterized in that at least two through holes are formed by passing the washing water. The method of claim 2, wherein the control unit compares the pressure of the washing water inlet and the pressure of the regeneration water outlet, and breaks that a large amount of sludge residue is present on the screen when the pressure difference between them is detected to be lower than a preset reference pressure difference. A filter for washing water regeneration system of a dehydrator, characterized in that configured to operate the brush drive means.