KR101407522B1 - Filter plate - Google Patents

Abstract

In particular, the present invention relates to a filter plate which is a constitution of a filter press for squeezing and dewatering wastewater or the like. In particular, an inlet for supplying wastewater to the filter plate and an outlet for discharging the filtrate cleaned through filtering are provided on the side So that it is possible to independently supply wastewater to each filter plate. Therefore, the present invention relates to a filter plate capable of shortening a filtration process time and selectively using an optimized number of filter plates.

Description

Filter plate

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter plate which is a constitution of a filter press for pressurizing and dewatering a process solution (wastewater or the like), and more particularly to an inlet for supplying a process liquid to a filter plate, Since the process liquid can be supplied independently for each filter plate, it is possible to shorten the filtration process time and to selectively use an optimized number of filter plates will be.

A filter press, which is a squeeze filtration and dehydrator, is used to effectively pressurize and dehydrate a slurry from wastewater (i.e., process liquid) generated in an industrial or household environment and mold and separate into a cake having a low moisture content.

Especially in recent years, as the dumping and landfilling of slurry in the wastewater treatment process becomes impossible, interest in various facilities for solid-liquid separation and dewatering devices such as filter presses is increasing.

Such a filter press is generally filtered by a filter cloth (that is, a filter) provided in the filter plate by passing the slurry discharged through the wastewater treatment system and between the pressurized filter plates.

Accordingly, the filtrate after filtration is discharged to the outside, and the sludge deposited in the filter cloth is subjected to pressurization and dehydration processes to become a cake form, and then to be treated separately.

Meanwhile, the above-described filter press (also referred to as a 'squeezing filter') is proposed in various documents including Korean Patent No. 736369, and it has been proposed that, as shown in FIG. 1, (Hereinafter, also referred to as a slurry or a process liquid) is injected, and the sludge or the like contained in the undiluted solution is removed by performing a press-fitting, a pressing and a desorbing process.

As shown in FIG. 2, the filter presses are provided with a plurality of process liquid supply holes and a filtrate discharge port (not shown) on the front and rear surfaces of a filter plate (i.e., filter plate) And in this state, the process liquid supply holes of the respective filter plates 4 are communicated with each other.

Therefore, when the slurry is fed through the outermost process liquid feed hole, the slurry flows into the process liquid feed holes of the remaining filter plates 4, and the slurry is fed into all the filter plates 4, And filtration was performed in the process of being blown through the filter cloth attached to the rear surface. After filtration, the filtrate was discharged to the outside through the filtrate discharge hole.

However, in the conventional art as described above, in particular, since the process liquid supply holes are formed on the front surface and the rear surface of the filter plate 4 and the process liquid supply holes are connected when the filter plates are in close contact with each other, It was possible to supply the slurry to all of the filter plates. In this case, however, the effect of filtration and dehydration is very low, and the process time is long as well as non-uniform.

This is because the slurry is simultaneously supplied to all the filter plates 4 during the filtration process. If the performance of the filter plate 4 is lowered due to clogging of the filter plates 4, etc., the slurry can not be supplied to the remaining filter plates 4 , And if all the filter plates 4 are not filled with the slurry, the pressure is insufficient and the slurry is not spouted with a strong force so that the filtration process can not be performed while passing through the filter cloth.

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above-mentioned problems, and it is an object of the present invention to provide a filter plate, It is desired to provide a filter plate capable of shortening the filtration process time and selectively using an optimized number of filter plates because the process liquid can be supplied independently for each plate.

To this end, the filter plate according to the present invention includes plate bodies 221a and 221b which are installed so as to be movable in a state in which the filter press is installed on the filter press; An inlet (IN) provided on a side surface of the plate bodies (221a, 221b) where the filter plates are not in contact with each other when they are in close contact with each other and supplying process liquid as a filtration object into the plate bodies (221a, 221b); And an outlet (OUT) provided on a side surface of the plate bodies 221a and 221b for discharging the filtrate from which the sludge contained in the process liquid is removed from the inside of the plate bodies 221a and 221b to the outside .

At this time, a groove-shaped space 222a is formed on the front or rear surface of the plate bodies 221a and 221b to discharge the process liquid supplied to the inlet IN to the outside of the plate bodies 221a and 221b The filtration liquid discharged from the neighboring filter plate flows into the rear surface or the front surface of the plate bodies 221a and 221b on which the space portion 222a is not formed and the suction holes 222b are preferably formed.

The filter plate may be a duplex filter plate comprising a set of a first plate 220a and a second plate 220b in which the plate bodies 221a and 221b are separated from each other, 221b form a single filter plate. In the case of the duplex filter plate, the inlet (IN) is provided on the side of the first plate (220a) and the inlet (IN) is formed on the side of the second plate In the case of the single-piece filter plate, the inlet (IN) and the outlet (OUT) are preferably provided on the side of the single-piece filter plate.

In the case of the duplex filter plate 220, the space 222a is connected to the inlet IN through a first internal passage 223a formed in the first plate 220a, The suction hole 222b is connected to the discharge port OUT through a second internal passage 223b formed in the second plate 220b and the space portion 222a of the single- Is connected to the inlet (IN) through a first internal passage (223a) formed inside the single-piece filter plate, the suction hole (222b) is formed inside the single- (OUT) through a second internal flow path 223b which does not overlap with the second flow path 223a.

In addition, it is preferable that an air bladder 333 which inflates by inflow of air from the outside is attached in the space portion 222a.

The inlet (IN) and the outlet (OUT) are each at least one, and the inlet (IN) is connected to the supply hose (252).

In the present invention as described above, the inlet port for supplying the process liquid and the outlet port for discharging the cleaned filtrate through the filtering are provided on the side of the filter plate, respectively. That is, an inlet port and an outlet port are provided on the side where the filter plates are not in contact with each other during the filtration process.

Accordingly, since the process liquid can be independently supplied to each filter plate, the filtration process time can be shortened and the optimized number of filter plates can be selectively used.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a diagram showing an operation sequence of a general filter press. FIG.
FIG. 2 is a view showing a filter plate feeding apparatus of a filter press according to the prior art.
FIG. 3A is a side view showing a state in which the filter plate according to the present invention is spaced apart. FIG.
FIG. 3B is a side view showing a compressed state of the filter plate according to the present invention.
FIG. 3c is a view showing a state in which the filter plate according to the present invention is installed.
4A is a plan view showing a state of separation of a filter plate according to the present invention.
4B is a plan view showing a compressed state of the filter plate according to the present invention.
5 is a front view showing a filter plate according to the present invention.
6 is a first embodiment showing a filter plate according to the present invention.
7 is a second embodiment of a filter plate according to the present invention.
8 is a third embodiment of the filter plate according to the present invention.
9 is a fourth embodiment of the filter plate according to the present invention.
10 is a fifth embodiment of a filter plate according to the present invention.
11 is a view showing an edge plate of a filter plate according to the present invention.
12 is a view showing a sludge removal state of the filter plate according to the present invention.
13 is a view showing an operating state of the filter plate according to the present invention.

Hereinafter, a filter plate according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, the object to be filtered, such as wastewater or slurry, will be referred to as a "process liquid", suspended solids contained in the process liquid will be referred to as "sludge", and the sludge will be removed Is referred to as a 'filtrate', but it is obvious that it is not limited to this name.

3A to 5, the filter press includes a body 210 and an inlet IN and an outlet OUT at a side thereof. The filter press includes a body 210, A pressing portion 230 for pressing the filter plate 220 to make the filter plate 220 come into close contact with each other and a filtering filter 241 installed to pass through the filter plates 220 in the zigzag direction A process liquid supply unit 250 for supplying the process liquid to the inlet IN and a filtrate discharge unit 260 for discharging the filtrate discharged from the discharge port OUT .

Of course, if necessary, an edge plate 246 installed at the bottom of the filter plate 220 for scraping off the sludge S deposited on the filter 241, And a cleaning unit 280 installed at a lower portion of the body 210 to spray at least one of high-pressure air and cleaning water toward the filtration filter 241.

More specifically, the body 210 is provided with various configurations of the filter press. In particular, as shown in FIG. 4A, the body 210 has a pair of side plates 211 spaced side by side, A sliding guide 211a is provided on the side surface of the filter plate 220, for example.

A plurality of filter plates 220 are assembled side by side between the side plates 211 of the body 210 so that both side portions of the filter plates 220 are assembled to the sliding guides 211a so that they are in close contact with each other . As shown in FIG. 3A, a work support 212 is provided below the body 210.

At this time, the filter plate 220 of the present invention is closely and hermetically sealed to each other in a state where the filter filter 241 is disposed therebetween. When the process liquid is supplied into the sealed filter plates 220, (S) is filtered by the filtration filter (241), so that the sludge (S) is left in the space between the filter plates (220), and only the filtrate is allowed to flow out. That is, mechanical filtration and filtration of the process liquid as the wastewater can be performed.

For this purpose, the filter plate 220 is installed on the body 210 so as to be movable in a state where a plurality of filter plates 220 are installed side by side. When the filter plate 220 is closely contacted with each other for filtration, ). That is, unlike the prior art, the filter plate 220 of the present invention is provided with an inlet IN and an outlet OUT on the side not on the front side and the rear side.

For example, when the duplex filter plate 220 is used, the first filter plate 220 and the second filter plate 220 are separated from each other, The plate 220a and the second plate 220b constitute one set and a plurality of duplex filter plates 220 including the first plate 220a and the second plate 220b are arranged.

6 (a) shows a first plate 220a, and FIG. 6 (b) shows a second plate 220b. FIG. 6 . When the duplex filter plate 220 is used, for example, an inlet IN is provided on a side surface of the first plate 220a and a discharge port OUT is provided on a side surface of the second plate 220b.

A first inner flow path 223a through which the process liquid supplied to the inlet IN flows can be formed inside the plate body 221a of the first plate 220a. Shaped space portion 222a (also referred to as a chamber) through which the liquid is discharged to the outside, and the first internal flow path 223a is connected to the space portion 222a.

The number, the shape, and the position of the first internal flow path 223a connected to the space portion 222a are not particularly limited. That is, although the first internal flow path 223a is connected to the space portion 222a through three flow paths in FIG. 6, a number of flow paths exceeding the first internal flow path 223a may be used.

A second inner flow path 223b through which the filtrate flows can be disposed inside the plate body 221b of the second plate 220b and a suction hole 222b through which the filtrate flows (or sucked) And the second inner flow path 223b connects the suction hole 222b and the discharge port OUT.

3B, when a plurality of double-layered filter plates 220 are in close contact with each other to seal the surfaces contacting each other, the front surface of the first plate 220a of the one filter plate 220 and the surface of the second filter plate 220 of the other filter plate 220, The rear surface of the second plate 220b abuts against each other and the filtration filter 241 is inserted between the front surface of the first plate 220a and the rear surface of the second plate 220b so that the process liquid is filtered as described above .

That is, when the process liquid is sequentially passed through the inlet IN and the first internal flow path 223a and the space portion 222a and then discharged into the space portion 222a of the first plate 220a, Since the sludge S can not pass through the filtration filter 241, the sludge S is accumulated between the space portion 222a of the first plate 220a and the filtration filter 241, 241).

The filtrate having passed through the filtration filter 241 flows into the suction hole 222b of the second plate 220b and then is discharged to the discharge port OUT through the second internal passage 223b. The filtrate thus discharged is collected through the filtrate discharging portion 260 and discharged to the outside. Of course, the sludge S collected between the first plate 220a and the filtration filter 241 is also removed after the completion of the filtering process for a predetermined time.

In the meantime, according to the present invention, an inlet (IN) through which the process liquid flows into the side surface of the filter plate (220) and a discharge port (OUT) through which the filtrate is discharged are provided, so that all the filter plates And to perform an independent filtration process. Therefore, there is no particular limitation on the structure of the filter plate 220 as long as the inlet IN and the outlet OUT can be provided on the side of the filter plate 220.

For example, as shown in FIG. 7A, the double filter plates 310a and 310b are applied as shown in FIG. 7, and the space 312a is provided on the entire surface of the plate body 311a of the first plate 310a, By providing two inlet ports IN and two first internal flow paths 313a, the process liquid can be supplied from two places at the same time.

Of course, preferably, the second plate 310b corresponding to the second plate 310b is provided with a suction hole 312b on the rear surface of the plate body 311b so that the filtrate can be simultaneously discharged from two places, and two outlets OUT and 2 It is preferable that each of the first and second internal flow paths 312b is provided.

However, the inlet IN has three outlets OUT and the inlet IN and the outlet OUT have a single outlet. In this case, It is obvious that the number may be changed in various ways.

As another example of the filter plate 220, a single filter plate may be used in addition to the above-described double filter plate 220. The single filter plate 220 includes a first plate 220a and a second plate 220b integrally combined with each other There is no particular difference in the function thereof. In the case of the single-piece filter plate integrally formed as such, the inlet IN and the outlet OUT are respectively installed on the side of the single-stage filter plate.

8, a groove-shaped space portion 322 is formed on the front surface of the plate body 321 of the fast filter plate, a suction hole 323 is formed on the rear surface thereof, And the inlet OUT is connected to the space 322 through the first inner flow path 324 and the outlet OUT is connected to the suction hole 323 through the second inner flow path 325, .

Of course, although the illustration is omitted, it is also possible to provide a plurality of the inlet IN and the outlet OUT in the case of such a single filter plate, or to provide only one of the inlet IN and the outlet OUT, The possibility is obvious.

9, the air bag 333 is preferably attached to the space portion 332 provided in the filter plate 330 and inflated with air from the outside. The air bladder 333 swells up when the air is injected and further squeezes the sludge S accumulated between the filter filter 241 and the filter plate 330 and the effect that the sludge S deposited on the filter plate 220 is well- To the filter filter 241 side.

The sludge S is deposited only in the filter filter 241 instead of the filter plate 330 and must be removed afterwards so that the sludge S deposited in the filter filter 241 can be removed after being dried in a cake state However, the residual sludge S deposited on the filter plate 330 is difficult to clean.

For example, when the air bag 333 is provided in the double-layered filter plate 330, the space portion 332 is formed in a predetermined groove shape in the plate body 331 of the first plate as shown in FIG. 9 (a) The air bag 333 is firmly installed (or attached) in the space portion 332 to prevent the air bag 333 from being separated.

The inlet IN through which the process liquid is injected is connected to the space portion 332 through the first inner flow path 334 and the air inlet IN_A through which the air is supplied flows through the third inner flow path 335 And is connected to the air bag 333. The air supplied to the air inlet IN_A is regulated through the fifth valve V5. The fifth valve V5 itself may be a valve of various known types.

9B, when air is supplied to the air inlet IN_A by opening the fifth valve V5, the air bag 333 is inflated and settled in the space 332 of the first plate, And to remove and remove residual sludge (S). Although not shown in FIG. 9 (b), one surface of the sludge S is in a state of being deposited on the filtration filter 241.

Similarly, when the air bag 343 is provided in the fast filter plate 340 as shown in Fig. 10, the air bag 343 is not in the state shown in Fig. 10 (a) and the air bag 343 The air bag 343 is installed in the space portion 342 formed on the front surface of the plate body 341 as shown in FIG.

The air inlet IN_A is spaced apart from the inlet IN and the outlet OUT when one inlet plate IN and the outlet OUT and the air inlet IN_A are provided in one filter plate 220 Air is injected only into the air bag 343, and a duplicate description of the other reference numerals in FIG. 10 will be omitted.

3A, the pressing unit 230 pushes the filter plate 220 disposed at the outermost one of the plurality of filter plates 220 during the filtration process, and presses the filter plate 220 And includes a pressurizing drive plate 231, a pressurizing support plate 232, and a pressurizing cylinder 233. As shown in FIG.

The pressure drive plate 231 is disposed at the foremost position with respect to the plurality of filter plates 220 and the pressure support plate 232 is installed at the rear end of the plurality of filter plates 220, All filter plates 220 are disposed between the support plates 232. The cylinder rod of the pressurizing cylinder 233 is connected to the pressurizing drive plate 231, and the pressurizing support plate 232 is maintained in a fixed state to provide a supporting force.

3B, when the cylinder rod of the pressurizing cylinder 233 is pulled out, the pressurizing drive plate 231 is moved to the outermost position of the filter plate 220 So that all the filter plates 220 are in close contact with each other.

When the front and rear surfaces of the filter plates 220 are in close contact with each other (that is, between the front surface and the rear surface of the filter plate contacting each other), the process liquid supplied into the filter plates 220 is prevented from leaking to the outside, And passes through the filtration filter 241 under pressure.

Particularly, the pressure drive plate 231 and the filter plate 220 disposed at the foremost position are connected to each other by the drive plate link L1, and the pressure support plate 232 and the filter plate 220 disposed at the rear end, And the plurality of filter plates 220 are connected to each other by the filter link L3 between the adjacent filter plates 220. The filter plates 220 are connected to each other by the links L2a and L2b.

At this time, the filter link L3 is coupled to the hinge hole hinged to the side of the one filter plate 220 and the side of the other filter plate 220, and has a long hole so that the fastener can be movably fitted .

3A and 3B, the filter plates 220 are connected to each other while rotating at appropriate angles according to the distance between the filter plates 220, .

In addition, the drive plate link L1 and the support plate links L2a and L2b are formed with slots each having a long length in the moving direction of the filter plate 220 so that predetermined fastening members are movably fitted. Thus, all the filter plates 220 can be moved at uniform intervals using the pressure support plate 232 while enabling stable movement.

1, all the filter plates 70 are pulled through the filter cloth 90 and the filter plates 70 are pulled together with the wire 300, The separation distance of the filter plate 70 is not uniform as well as the damage of the filter cloth 90 and the removal of the sludge S deposited on the filter cloth 90 is not properly performed. The present invention solves this problem.

Next, the circulating filtering filter unit 240 attaches to the filter plate 220 a filtering filter (not shown) (also referred to as a 'filtering cloth') cut according to the size of each filter plate 220, (Not shown) in order to remove the sludge S adhering to the filter plate 220 when the filter is used as a filter.

The circulation filtering filter unit 240 includes a filtering filter 241 installed to pass the plurality of neighboring filter plates 220 in a zigzag direction and filtering the sludge S contained in the process liquid, 241) along an infinite orbit.

3C, the driving unit of the circulating filtering filter unit 240 includes a driving roller 242, a driven roller 243, an upper supporting roller 244, a lower supporting roller 245, And a roller (T). The filtration filter 241 is installed to pass in the zigzag direction between the upper support rollers 244 and the lower support rollers 245, and rotates along the endless track.

The driving roller 242 is installed on one side of the upper part of the body 210 and is rotated by the driving motor M while the driven roller 243 is spaced from the driving roller 242 in parallel. The rollers 242 and the driven rollers 243 are arranged side by side in the width direction of the filter plate 220 so that the filter 241 is supplied between the filter plates 220.

The upper support roller 244 is disposed on the upper portion of the odd filter plate 220 of the plurality of filter plates 220 and the lower support roller 245 is disposed on the upper side of the even filter plates 220 among the plurality of filter plates 220. [ And the upper support roller 244 and the lower support roller 245 are alternately arranged from one side to the other side.

The filtration filter 241 is installed across the drive roller 242 and the driven roller 243 and is installed so as to pass in the zigzag direction between the upper support rollers 244 and the lower support rollers 245, And at this time, appropriate tension is applied to the filtration filter 241 by at least one tension roller T.

The upper support rollers 244 arranged side by side are connected to each other by an upper link 244a as shown in Fig. 3A, and similarly, the lower support rollers 245 are connected to each other by a lower link 245a The upper link 244a and the lower link 245a have a structure in which two frames having a pivot hole are hinged to each other at their ends.

Accordingly, when the shafts of the rollers 244 and 245 are inserted into the pivot holes, the upper plate 244a rotates according to the interval of the filter plate 220, (When they are distanced) or bent in a 'V' shape (when they approach each other) to maintain a stable connection between the filter plates 220.

According to the circulating filtration filter 241 having the above-described structure, the filter plate 220 is separated from the clean filter 241, and the cleaned filter 241 is rotated by the drive roller 242 to clean the sludge S The portion of the filter 241 is relocated between the filter plates 220 so that the next filtration process can be started continuously.

Since the filter filter 241 is disposed between the filter plates 220 in the process of rotating along the endless track, the sludge S deposited on the filter 241 is separated by the edge plate 246 And is dropped downward and is cleaned by the high-pressure air or washing water by the cleaning unit 280, so that the portion is reused.

The process liquid supply unit 250 supplies the process liquid in which the sludge S is mixed with the inlet IN of the filter plate 220 as shown in FIGS. 4A and 5, and includes a supply pipe 251, A supply hose 252 connected at one end to the supply pipe 251 and the other end connected to an inlet IN of the filter plate 220 and a connection flange 252a for connecting the supply pipe 251 and the supply hose 252 ) And the like.

4B, the process liquid supplied from the supply pipe 251 is transferred to the inlet IN of the filter plate 220 through the supply hose 252 in a state in which the filter plate 220 is in close contact , And the process liquid supplied to the inlet IN of the filter plate 220 is subjected to filtration as described above. The sludge S is removed through filtration, and the filtered filtrate is discharged to the outside through the filtrate discharging portion 260.

Particularly, in the present invention, the number of the supply hoses 252 connected to the supply pipe 251 is equal to the number of the filter plates 220, and each supply hose 252 is connected to the inlet IN of the filter plate 220 The process liquid supplied through the process liquid supply unit 250 is supplied to the plurality of filter plates 220 independently.

That is, in the present invention, the inlet (IN) for supplying the process liquid and the outlet (OUT) for discharging the filtrate are provided on the side of the filter plate (220). Thus, the process liquid can be supplied individually to each filter plate 220 through the plurality of supply hoses 252. [ Of course, a valve (not shown) may be provided in the supply hose 252 to determine whether or not the process liquid is supplied for each supply hose 252.

Therefore, even if the characteristics of any one filter plate 220 is reduced, the present invention does not affect the performance of the other filter plate 220, thereby maintaining high performance as a whole and shortening the processing time. In addition, a valve may be provided in each supply hose 252 to individually adjust the supply of the process liquid to select the filter plate 220 to be used in the filtration process.

Therefore, in order to supply the process liquid in a state in which the filter plates 220 are in close contact with each other, the inlet IN and the outlet OUT are provided on the front surface and the rear surface of the filter plate 220, Since the process liquid sequentially fills all the filter plates 220, the entire process is affected when any one of the filter plates 220 is abnormally generated. The present invention solves this problem.

The filtrate discharging portion 260 receives the filtrate filtered by the filtration filter 241 through the outlet OUT of the filter plate 220 and discharges the filtrate to the outside. As shown in FIGS. 4A and 5, A discharge hose 262 connected at one end to the discharge pipe 261 and connected at the other end to the discharge port OUT of the filter plate 220 and a discharge hose 262 connected to the discharge pipe 261 and the discharge hose 262 A connecting flange 262a, and the like.

4B, the cleaned filtrate is transferred to the discharge hose 262 through the discharge port OUT of the filter plate 220, and the discharge hose 262 262 are collected in the discharge pipe 261 and then discharged to the outside. Of course, if necessary, the filtrate may be subjected to a secondary treatment to completely remove the harmful substances and discharge the same.

The washing unit 280, which is not shown in the figure, is installed at a lower portion of the body 210 and injects at least one of high-pressure air and washing water toward the filtering filter 241 circulating along the endless track, 241).

The sludge S deposited on the filtration filter 241 falls downward as the filter filter 241 is rotated along the endless track while the filter plates 220 are spaced apart. The residual sludge S and various pollutants may be adhered thereto.

For example, as shown in FIG. 5, the cleaning unit 280 is installed at a rear lower end of a body 210 provided with a driving roller 242. Accordingly, high pressure air or washing water is sprayed to the filtering filter 241 being recovered by the driving roller 242, thereby cleaning the washed portion.

The cleaning unit 280 is provided below the filter 241 and the filter plate 220 and at the same time as the cleaning unit 280 is installed at the outermost side thereof, Contaminated water or other contaminants of the filter 241 or the filter plate 220 due to fine contaminants called by the high-pressure air.

The edge plate 246 is installed at the bottom of the filter plate 220 to scrape off the sludge S attached to the filter 241 to serve as a kind of scraper.

11, the edge plate 246 is fixed to the central axis of the lower support roller 245 as an embodiment, is slightly spaced below the lower support roller 245, and the filter 241, Respectively.

The edge plate 246 scrapes the sludge S deposited on the filtration filter 241 when the filtration filter 241 passes between the lower support roller 245 and the edge plate 246 when rotating along the endless track I will.

As shown in FIG. 12 (a), the distance between the filter plates 220 is increased by the pressing portion 230, and in this state, the filter filter 241 The filtration filter 241 turns the lower support roller 245 at a turning point so that the sludge S is peeled off by itself.

However, if the above-described edge plate 246 is further provided, the sludge S adhering to the filtration filter 241 can be more surely peeled off, and the peeled sludge S can be dropped and discharged downward.

On the other hand, in order to supply air for various purposes such as supplying the process liquid, discharging the filtrate, or drying the air bag 333 and the sludge S as described above, It is necessary to control the flow.

Thus, as shown in Fig. 13, the filter press includes the first valve (V1) to the fifth valve (V5). However, since the valve structure itself for interrupting the supply of the fluid is well known and can be installed anywhere in the body 210, the function of each valve will be described below.

The first valve V1 is installed in the supply pipe 251 of the process liquid supply unit 250 to regulate the supply of the process liquid to be supplied to the filter plate 220 and the second valve V2 is connected to the filtrate discharge unit 260 to regulate the discharge of the filtered filtrate from the filter plate 220.

The third valve (V3) is opened when the first valve (V1) is closed. The first valve (V1) is closed to stop the supply of the process liquid, and instead, the high pressure air for drying is supplied. The high-pressure air flows along the same path as the process liquid and is injected into the sludge S deposited in the filter 241. So as to further lower the water content by spraying the sludge S with high-pressure air.

The fourth valve V4 ventilates the internal air so that the supply of the process liquid is not disturbed in the next filtration process as the high pressure air supplied by opening the third valve V3 remains on the supply pipe 251, Thereby releasing the pressure.

The fifth valve (V5) is used to supply air to the air bag (333) of the filter plate (220). When air is supplied to the air bladder 333 provided in the space portion 222a of the filter plate 220 by opening the fifth valve V5, the air bladder 333 swells up, Compression, peeling, and the like.

Hereinafter, the operation of the filter press to which the filter plate according to the present invention is applied will be described.

12 (a) and 12 (b), when the previous filtration process is completed, the pressure cylinder 233 of the pressure unit 230 is operated to pull the pressure drive plate 231 to hold the filter plate 220 All the filter plates 220 connected through the link L3 are spaced equidistantly.

3A, when the drive roller 242 is operated in a state where all the filter plates 220 are separated from each other, the sludge S is peeled off during the rotation of the filter 241 along the endless track. At this time, the sludge S is scraped off by the edge plate 246 and the sludge S is separated from the filtration filter 241 more reliably. In addition, the cleaning unit 280 or the like is also cleanly cleaned.

Next, when the filtration filter 241 of a clean portion which is not contaminated as the filtration filter 241 rotates is disposed between the filter plates 220, the pressure cylinder 233 of the pressure portion 230 is operated in this state All the filter plates 220 are brought into close contact with each other with the filter 241 therebetween. When the filter plates 220 are in close contact with each other, the space between the filter plates 220 is sealed.

Next, when the space between the filter plates 220 is sealed as shown in FIG. 3B, the first valve V1 is opened to supply the process liquid to the filter plate 220 through the process liquid supply unit 250. That is, the process liquid is supplied to the inlet IN of the filter plate 220 to be discharged through the space 222a on the front surface of the filter plate 220.

Next, the process liquid discharged through the space portion 222a passes through the filter 241, but does not pass through the sludge S, but passes only relatively clean filtrate. The filtrate passes through the adjacent filter plates 220 And flows into the suction hole 222b.

Next, the filtrate flowing into the suction hole 222b of the neighboring filter plate 220 is collected by the discharge pipe 261 through the discharge port OUT, and then discharged to the outside. At this time, the second valve (V2) is opened and the filtrate can be discharged.

Next, after the filtration process as described above is performed for a predetermined time, the first valve V1 is closed to stop the supply of the process liquid, and the third valve V3 is opened to supply the high-pressure air. Accordingly, the sludge S accumulated between the filter plate 220 and the filtration filter 241 is dried to lower the water content of the sludge S.

Next, the fifth valve V5 is opened to blow air into the air bag 333 provided in the space portion 222a of the filter plate 220 so that the air bag 333 swells. Accordingly, the air bag 333 pushes the sludge S, so that the sludge S is separated from the filter plate 220.

12 (a) and 12 (b), when the pressurizing cylinder 233 of the pressurizing unit 230 is operated to pull the pressurizing drive plate 231, the filter plate 220 is also pulled, All of the filter plates 220 connected to each other through the line L3 are spaced at the same interval and the sludge S falls and the process is completed.

The specific embodiments of the present invention have been described above. It is to be understood, however, that the scope and spirit of the present invention is not limited to these specific embodiments, and that various modifications and changes may be made without departing from the spirit of the present invention. If you have, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

210: body 220: filter plate
230: pressurizing portion 240: circulating filtration filter portion
241: Filtration filter 250: Process liquid supply unit
260: filtrate discharge unit 270: controller
280: Cleaning part IN: Inlet
OUT: outlet S: sludge
L1: drive plate link L2a, L2b: support plate link
L3: Filter link

Claims (6)

1. A filter plate used in a state in which a plurality of filter presses are arranged side by side so as to perform a squeeze filtration and a dehydration operation,
A plate body (221a, 221b) installed to be movable in a state in which the filter press is installed on the filter press;
An inlet (IN) provided on a side surface of the plate bodies (221a, 221b) where the filter plates are not in contact with each other when they are in close contact with each other and supplying process liquid as a filtration object into the plate bodies (221a, 221b); And
And an outlet (OUT) provided on a side surface of the plate bodies 221a and 221b for discharging the filtered liquid from the inside of the plate bodies 221a and 221b to the outside while the sludge contained in the process liquid is removed, ,
Wherein at least one of the inlet (IN) and the outlet (OUT) is at least one, and a supply hose (252) is connected to the inlet (IN), respectively. The method according to claim 1,
The front or rear surface of the plate bodies 221a and 221b is formed with a groove-shaped space 222a through which process liquid supplied to the inlet IN is discharged to the outside of the plate bodies 221a and 221b,
The filtrate discharged from the neighboring filter plate flows into the rear surface or the front surface of the plate bodies 221a and 221b on which the space portion 222a is not formed and the suction holes 222b connected to the discharge port OUT, Is formed on the filter plate. 3. The method of claim 2,
The filter plate may be a duplex filter plate formed by a combination of a first plate 220a and a second plate 220b in which the plate bodies 221a and 221b are separated from each other or the plate bodies 221a and 221b, Constituting a single-stage filter plate composed of one plate,
In the case of the duplex filter plate, the inlet (IN) is provided on the side of the first plate (220a) and the outlet (OUT) is provided on the side of the second plate (220b)
And the inlet (IN) and the outlet (OUT) are provided on the side of the single-stage filter plate, respectively. The method of claim 3,
In the case of the duplex filter plate 220,
The space 222a is connected to the inlet IN through a first internal passage 223a formed in the first plate 220a and the suction hole 222b is connected to the second plate (OUT) through a second internal flow path 223b formed in the inside of the first and second flow paths 220a, 220b,
In the case of the single-stage filter plate,
The space portion 222a is connected to the inlet IN through a first internal passage 223a formed in the single-stage filter plate, and the suction hole 222b is formed inside the single- And is connected to the outlet (OUT) through a second internal passage (223b) which does not overlap with the first internal passage (223a). 5. The method of claim 4,
Wherein the space portion (222a) is provided with an air bladder (333) which is inflated with air from the outside. delete

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