KR101348684B1 - Filter press of filter cloth inversion with double head moving type - Google Patents

Abstract

A double head moving type movable filter press with invertible filter cloth of the present invention is provided to prevent the fall of high concentrated sludge remaining in a sludge inlet unit during the discharge of a cake. Moreover, the filter press is applied to secure many spaces in a small space.

Description

Filter Head of Filter Cloth Inversion with Double Head Moving Type

The present invention relates to a double head moving type filter cloth upside down and movable filter press for dewatering sludge produced as a by-product during the treatment of a water treatment plant or a sewage treatment plant. In general, the sludge dewatering device is roughly divided into a belt press and a filter press. The present invention includes a filter press including a movable head, a head feeder, and a head retraction prevention device, which are attached to a hydraulic cylinder of a filter press, in order to reduce an installation area of a filter press. To face toward the installation to reduce the installation area and to increase the dewatering efficiency.

Conventional technology related to the present invention is disclosed in Korean Patent Registration No. 10-0870708. 1 is a block diagram of a conventional filter cloth up and down inverting mobile filter press filed by the present applicant. In FIG. 1, the length L of the filter press 1 is determined by the number of filter plates required in the conventional filter cloth upside down movable filter press, and the shear frame is in a range of distance at which the whole filter plates can be opened at regular intervals. The distance between the rear frame and the rear frame is determined, and the frame is connected between the front frame and the rear frame by sidebars or overhead beams, and the cylinders fixed to the rear frame are linearly arranged by the piston movement. The filter plate is to be pressed through the push plate. The basic structure of the main body 1 is the same as that of the existing filter press, but supports the expansion pressure by the high pressure compressed water injected into the filter plate, and the strength of the frame and the hydraulic cylinder to prevent the leakage of sludge or the compressed water between the filter plates. The pressure should be maintained higher than that of the existing filter press, and the sludge is filtered in the sludge filtration part of the filter cloth installed so that the filter plate is pressed and sealed by the hydraulic cylinder and the airtightness is maintained. After press-fitting, the pressurized sludge is injected into the rubber or PP expansion part of the surface of the filter plate by pressing the pressurized sludge into the sludge secondary to dewater the sludge cake of the target moisture content. After the compression dehydration, the cylinder (piston) retreats, and the entire filter plate is opened at regular intervals by a connecting device connecting the entire filter plate, so that a subsequent process of detachment and washing is performed. In addition, the filter plate is formed with a constant filtrate discharge path through which the filtrate filtered from the filter cloth is discharged, and the filtrate check valve is installed in the filtrate discharge path of the side portion of the individual filter plate, so that a large number of filter plates and filter cloths can be easily removed even after the closing plate of the filter plate. The leakage in the filtrate due to the damage occurring in the can be confirmed. In addition, the filter cloth installed between the filter plate and the filter plate mounted on the sidebar or overhead beam supporting the side or the top of the filter press and the sludge cake is attached to the filter cloth does not detach the sludge cake in the process of simply opening the filter plate. After opening at regular intervals to secure the necessary space for the filter cloth movement, the sludge cake forming part inside the filter cloth is inverted by 180 ㅀ to the outside of the filter cloth so that the sludge cake can be peeled off at the same time as the filter cloth is moved to the upper and lower portions of the filter cloth. The sludge cake is detached by the sludge cake peeling from the inverting part and the weight of the sludge cake to the lower part, and in order to move the filter cloth accurately, a limit switch is installed on the traction line to pull the filter cloth from above and below the filter cloth so as to move the filter cloth at an appropriate position. Prevent them from moving In order to achieve stable sludge cake desorption, a limit switch and a motor operation time upper and lower time limit are set for the number of rotations required for the movement of the filter cloth on the filter cloth moving motor side, which transmits the rotational force required for the movement of the filter cloth. In addition, the filter cloth after the desorption is completed, the solids remaining due to the sludge filtration, the more the solids remain, the more difficult the filtration of the sludge is to remove the solids remaining inside and outside the filter cloth. In other words, the washing of the filter cloth is performed by intensively spraying the pressure water on the top and bottom of the filter cloth in the same process as the up and down movement of the filter cloth in the desorption step, the injection of the pressure water in the cleaning nozzle installed in each filter plate The washing water is sprayed by washing water (about 4 ~ 5kg / ㎠), and the washing water reinforces the inner nozzle so that the filter cloth is intensively sprayed around the inner side of the filter cloth directly contacting the sludge, and removes the fine particles passing through the filter cloth. In order to supplement the filter cloth outer nozzle in order to further improve the cleaning effect. In addition, the washing water falls to the washing basin installed in the lower part of the filter plate so as to be in contact with the already dewatered sludge cake, and is discharged to the drain.The washing water tray is opened only when the dewatering cake is discharged so that the moisture content of the dewatering cake does not increase. You need to configure it. In addition, the washing water should be cleaned for every operation process for the whole filter plate, but for the purpose of maintenance, the washing water may be washed on the filter plate so that the cleaning of the filter cloth can be selected due to the contamination of the specific part of the filter cloth or the replacement of the specific filter cloth. In the divided washing device that divides the cleaning block before supplying, the whole cleaning block can be cleaned at the same time.If necessary, the washing water is supplied only to the blocks that need cleaning, and the other blocks block the washing water supply to suppress the use of unnecessary washing water. The rationality of operation can be achieved. In addition, since the washing water is sprayed upward at high pressure between the open filter plates, the washing water is scattered upward and laterally, and the scattering of the washing water is scattered along with the water and the solids attached to the filter cloth and diffused around the filter press. Odor and cleanliness caused by moisture and fine dust are a problem, so transparent water spray curtains are installed at the bottom of the dehydrator where the cleaning water is supplied to prevent the movement of the cleaning water supply line, the divided washing block, and the filter plate. It is installed on both sides of the frame press or check table to block the scattering of the washing water at all times and to easily remove it during maintenance, and to the outlet of the washing water trough when the washing water is discharged through the washing water trough. Install a screen to prevent solids in the wash water from leaking out through the pipes. Should be After the filter cloth cleaning is finished, the dewatering process is completed by closing the filter plates that were opened at regular intervals by the hydraulic device, the cylinder, and the piston, and the operation time is shortened by simultaneous opening and closing of the filter plates and simultaneous removal and cleaning of the filter cloth of the sludge. It is possible to reach the target moisture content in the inside, thereby reducing the number of filter plates required, thereby miniaturizing the filter press.

The conventional filter cloth upside down filter press as described above is to install a hydraulic cylinder with a long stroke distance to secure the space for the up and down reverse of the filter cloth for the separation plate of the filter plate and the dewatered cake to ensure the space between the filter plate The longer the rod, the larger the installation area and the problem of having to increase the strength of the supporting structure by the weight of the longer rod. In addition, the prior art as described above has a problem that clogging of the cleaning nozzle occurs because foreign matter is mixed and flows into the washing water due to the fine powder generated by the corrosion of the pipeline and the hardening of the rubber material hose. In addition, the conventional technology has a problem that the cleaning water discharge and the filtrate discharge is not smooth and periodically clean as the dewatered cake that is not detached from the filter cloth during the cleaning of the filter cloth is introduced into the filtrate discharge path through the washing water receiver is stacked. will be. In addition, the prior art as described above has a problem that the sludge cleaning time is long, so that the amount of the washing water is excessive, as well as the sludge of high concentration that is not cleaned when the cake is discharged falls with the cake and is discharged. Double head moving filter cloth up and down reversible mobile filter press of the present invention for solving the problems of the prior art as described above is to make a hydraulic cylinder short and attached to the hydraulic cylinder head and moving the head itself to the power position to the head after It is to fix with a fixing device and to advance the closing plate of the filter plate with the hydraulic cylinder, and to solve the clogging of the filter cloth washing water nozzle. In addition, another object of the present invention is to solve the problem that some of the cake is not detached during the cleaning of the filter cloth is laminated to the filtrate discharge path. In addition, another object of the present invention is to prevent a high concentration of sludge to fall during the discharge of the cake to remain at a high concentration in the sludge injection unit. In addition, another object of the present invention is to apply when a large number of rooms to secure in a narrow space.

Hydraulic cylinder moving head moving filter moving filter vertically inverted movable filter press applied to the double head moving filter cloth up and down inverted mobile filter press for achieving the above object is mounted on the frame (1), the frame (1) A filter plate 2, a filter plate connecting device 40 connected to the side of the filter plate 2 and connected to open and close the whole filter plate by hydraulic cylinder transfer, and transported back and forth to open or close the whole filter plate 2. Hydraulic cylinder 4, a hydraulic cylinder moving head fastened to an outer surface of the hydraulic cylinder 4, power transmission means for transmitting power to transfer the hydraulic cylinder moving head back and forth, and the power transmission means. Cyclone deceleration electric motor that is fastened to generate power, a filter cloth that is installed independently from the filter plate, and the upper and lower portions of the filter cloth A filter cloth support portion provided to support the filter cloth, a washing water spraying device for spraying the washing water onto the front and rear surfaces of the filter cloth during the up and down movement of the filter cloth, and a washing water receiver provided to prevent the dehydrated cake from mixing with the water. The sludge feed pipe installed in the frame by injecting sludge between the sludge filtrate discharge port and the sludge filtrate discharge port disposed in the lower part of the wash water receiver and discharged sludge, and the sludge filter cloth, and the sludge inlet and the compressed water. When the air cylinder is installed on one side of the filter plate and the hydraulic cylinder equipped with the hydraulic cylinder moving head transferred by the operation of the cyclone deceleration electric motor is used to extend the rod to extend the rod in all directions to close the plate, the hydraulic cylinder is retracted. Characterized in that it consists of blocking means for preventing It is.

The hydraulic cylinder moving head moving filter moving filter vertically inverted movable filter press applied to the double head moving filter cloth up and down inverted mobile filter press of the present invention configured as described above is the high pressure crimping, dehydration, temporary filter plate opening, closing plate, and simultaneous filter cleaning of all filter cloths. As a result, the operating time is short and the effect of producing sludge of low moisture content is obtained. In addition, the present invention is a hydraulic cylinder moving head moving type filter cloth up and down reversible mobile filter press applied to the double head moving filter cloth up and down reversible mobile filter press does not increase the size of the hydraulic cylinder and hydraulic unit even when the filter plate is additionally installed. In the same installation area, the processing capacity is more than doubled. In addition, another effect of the present invention is to minimize the hydraulic cylinder and the hydraulic unit which occupies most of the weight of the filter press can be installed at the device weight of 80% on the basis of the same processing capacity, thereby reducing the structural reinforcement of the building It works. In addition, the present invention can be installed so that the hydraulic cylinder moving head moving type filter cloth up and down inverted movable filter presses facing each other can be installed in a narrow and long space.

1 is a block diagram of a conventional filter cloth up and down reversible mobile filter press,
2 is a configuration diagram of a hydraulic cylinder moving head moving filter moving filter vertically inverted mobile filter press applied to the double head moving filter cloth up and down inverted mobile filter press of the present invention,
3 is a configuration of the present invention the double head moving filter cloth up and down reversible movable filter press,
Figure 4 is a side view of the hydraulic cylinder moving head moving filter moving filter vertically inverted mobile filter press applied to the double head moving filter cloth up and down inverted mobile filter press,
5 is a block diagram of a power transmission means applied to the present invention,
Figure 6 is a block diagram of a block means consisting of two-side rod hydraulic cylinder applied to the present invention,
7 is a block diagram of an automatic power control device applied to the present invention,
8 is a configuration of the wash basin is configured with a wash basin vertical notch applied to the present invention,
9 is a configuration diagram of a washing water nozzle applied to the present invention;
Figure 10 is a configuration of the injection opening is applied to the present invention,
11 is a schematic view illustrating a filter plate closing plate process applied to the present invention;
12 is a schematic view illustrating a filter plate opening process applied to the present invention.

The hydraulic cylinder moving head moving filter moving filter vertically inverted movable filter press applied to the double head moving type filter cloth upside down movable filter press of the present invention having the above object will be described with reference to FIGS. 2 to 12.

Figure 2 is a block diagram of a hydraulic cylinder moving head moving filter moving filter vertically inverted mobile filter press applied to the double head moving filter cloth up and down inverted mobile filter press. 2, the hydraulic cylinder moving head moving type moving filter moving up and down moving filter filter applied to the double head moving filter cloth up and down inversion mobile filter press of the present invention is a frame 1 and a filter plate (2) mounted on the frame (1). And a filter plate connecting device 40 connected to the side of the filter plate 2 so as to open and close the whole filter plate by a hydraulic cylinder action, and a hydraulic cylinder for conveying back and forth to open or close the whole filter plate 2. 4) and a hydraulic cylinder moving head 3 which is conveyed by a power transmission means to be fastened or released from an outer surface of the hydraulic cylinder 4, and to transfer the hydraulic cylinder moving head 3 back and forth. A power transmission means for transmitting power, a cyclone deceleration electric motor (7) fastened to the power transmission means (5) to generate power, and separated from the filter plate (2). A filter cloth 21 to be installed, a filter cloth support portion installed on and under the filter cloth 21 to support the filter cloth, and a washing water spraying device 12 for spraying washing water to the front and rear surfaces of the filter cloth during the vertical and reverse movement of the filter cloth. ) And the dehydrated cake is installed in the lower part of the filter cloth to prevent mixing of the water and the cake which is not detached during the cleaning falls and enters the sludge filtrate discharge tank 11 through the washing water receiver so that it does not accumulate. Injecting sludge between the sludge filtrate (11) provided with the vertical notch (10), the sludge filtrate (11) for discharging the sludge filtrate which is installed in the lower part of the scrubber (9), and the sludge filter cloth. A sludge inlet pipe 27 installed on the frame, an air inlet provided on one side of the filter plate to supply air for cleaning the sludge inlet and discharging the compressed water; In order to prevent retraction of the hydraulic cylinder 4 when the hydraulic cylinder 4 with the hydraulic cylinder moving head 3 transferred to the cyclone deceleration electric motor 7 in operation extends the rod in all directions and performs the closing plate. It is characterized in that it consists of a blocking means and the tension adjusting means (8) for adjusting the tension of the power transmission means. In the above, the power transmission means includes a gear installed in the hydraulic cylinder moving head 3 and the frame 1, a first chain 42 connecting the gear installed in the frame and the cyclone deceleration electric motor, and the frame. It characterized in that it comprises a second chain 44 for connecting the gear installed in the gear and the hydraulic cylinder moving head installed in the, and the turnbuckle 6 for adjusting the length of the second chain (44). In addition, the blocking means is installed on the rear of the hydraulic cylinder moving head 3, the second hydraulic cylinder 17 having a bidirectional rod and the moving head push block 18 for supporting the second hydraulic cylinder 17. And, it is installed on the side frame placed on the left and right from the front to the back to support the filter plate 2 is characterized in that it consists of a fixed block 19 is formed so that the push block is moved to the left and right.

Figure 3 is a block diagram of the present invention double head moving filter cloth up and down reversible movable filter press. In FIG. 3, the double head moving filter cloth upside down and movable filter presses of the present invention are installed so as to face two hydraulic cylinder moving head moving filter cloth upside down and movable filter presses. The frame 1 and the filter plate mounted on the frame ( 2), a filter plate connecting device 40 connected to the filter plate side part to connect the whole filter plate to open and close the plate by hydraulic cylinder transfer, and a hydraulic cylinder 4 to transfer the whole filter plate back and forth to open or close the plate. A power transmission unit which transfers power to transfer the hydraulic cylinder transfer head 3 and the hydraulic cylinder transfer head 3 back and forth, which are conveyed by a power transmission means to be fastened, fixed or released from the outside of the hydraulic cylinder 4. Means 5, a cyclone deceleration electric motor 7 fastened to the power transmission means to generate power, and separated from the filter plate 2; A filter cloth 21 that is independently installed, a filter cloth support portion that is provided above and below the filter cloth 21 to support the filter cloth, and a washing water spraying device that sprays the washing water to the front and back surfaces of the filter cloth during the up and down movement of the filter cloth. 12) and the washing water tray (9) provided with the washing water receiving vertical notch (10) and the washing water receiving bowl (9) under the washing water tray so as not to mix the dehydrated cake installed in the filter cloth with water. The sludge filtrate discharge port 11 for discharging the sludge filtrate to be supplied, and the sludge injection pipe 27 to be installed in the frame to supply sludge between the sludge filter cloth, and to supply air for cleaning the sludge inlet and discharge of the compressed water The air injection port provided on one side of the filter plate and the hydraulic cylinder 4 fastened to the hydraulic cylinder moving head 3 transferred by the operation of the cyclone deceleration electric motor 7 perform the closing plate. In order to prevent the retraction of the hydraulic cylinder when the rod is extended in all directions to produce a pressure, the hydraulic cylinder moving head moving type moving filter moving up and down movable type consisting of a tension adjusting means (8) for adjusting the tension of the power transmission means The filter press is placed facing each other.

Figure 4 is a side view of a hydraulic cylinder moving head moving filter moving filter vertically inverted mobile filter press applied to the present invention double head moving filter cloth up and down inverted mobile filter press. 4 is a hydraulic cylinder moving head moving filter moving filter vertically inverted mobile filter press applied to the double head moving filter cloth upside down movable filter press of the present invention (a) is a right side configuration diagram, and (b) is a left side configuration diagram. It is shown. In FIG. 4A, a filter cloth conveying guide motor 13 is installed on the upper side, and a hydraulic cylinder moving head drive shaft 16 is positioned below the filter cloth conveying guide motor 13, and the lower portion of the hydraulic cylinder moving head drive shaft 16 is located. The cyclone deceleration electric motor 7 is mounted, and the sludge injection pipe 27 is positioned on the left and right sides of the hydraulic cylinder moving head, and the sludge pressurized water pipe 15 is disposed below the cyclone deceleration electric motor 7. The sludge pressurized water pipe 15 has a washing water receiver 9 and a sludge filtrate discharge container 11 located therein, and a washing water spray device 12 and sludge are disposed on the right side of the sludge pressurized water pipe 15. The filtrate piping 23 is located. In addition, (b) of FIG. 4 shows that the washing water receiver 9 and the sludge filtrate discharge container 11 are positioned below the filter press rear frame.

5 is a block diagram of a power transmission means applied to the present invention. In FIG. 5, the power transmission means 5 applied to the present invention includes a gear installed in the hydraulic cylinder moving head 3 and the frame 1, a gear installed in the frame, and a cyclone deceleration electric motor 7. A first chain 42 for connecting, a second chain 44 for connecting a gear installed in the frame and a gear installed in the hydraulic cylinder moving head 3, and a length configured in the second chain 44 It shows that it is composed of a turnbuckle (6) to adjust.

Figure 6 is a block diagram of a block means consisting of a two-side rod hydraulic cylinder applied to the present invention. Blocking means consisting of the two-side rod hydraulic cylinder applied to the present invention in Figure 6 is installed on the rear of the hydraulic cylinder moving head (3) having a second hydraulic cylinder (17) having a bi-directional rod, the second hydraulic cylinder ( 17 is installed on the moving head push block 18 supporting the filter head 2 and the side frame supporting the filter plate 2 and positioned on the left and right sides from the front to the rear side so that the moving head push block 18 moves to the left and right. It shows that it consists of the fixed blocks 19 which become.

Figure 7 is a block diagram of an automatic tension control device applied to the invention. In FIG. 7, the automatic tension adjusting device 8 applied to the present invention has a tension of the chain controlled by the elastic force of the spring 20 configured to face each other in the enclosure and a small chain fastened at both sides of the first chain 42. It is a structure that becomes.

Figure 8 is a configuration of the wash basin is configured with a vertical wash water notch applied to the present invention. In FIG. 8, the washing water receiving vertical notch 10 applied to the present invention is composed of a sludge filtrate discharge container 11 configured at the end of the washing water receiving bowl 9 and installed at the lower portion of the washing water receiving bowl 9. It is showing.

9 is a block diagram of a washing water spraying device applied to the present invention. In FIG. 9, in the washing water spraying apparatus 12 applied to the present invention, a plurality of nozzles 24 are formed in the washing water pipe so that the washing water is sprayed into and out of the filter cloth. It is a structure.

10 is a schematic diagram of a condenser input pipe applied to the present invention. 9 is a structure in which a sludge inlet is formed by passing through a filter cloth so that sludge is injected into a plurality of filter cloths 21 installed between the filter plates 2. In FIG. 10, (a) shows the sludge inlet viewed from the side of the plurality of filter cloths, and (b) shows the sludge inlet viewed from the front of the filter cloth.

11 is a schematic view for explaining a filter plate closing plate process applied to the present invention. In the filter plate closing plate process applied to the present invention in FIG. 11 (a) is a structure in which sludge is injected into the sludge inlet by placing the filter cloth 21 inside the filter plate 2 so that sludge can be injected into the chamber 46. The diaphragm 48 is installed at one side of the filter cloth 21, and a sludge filtrate pipe 23 is formed at one side of the filter plate, and a roller for lowering the filter cloth up and down by the operation of the filter cloth transfer guide motor at the lower part of the filter cloth 21. 50) and the washing | cleaning water spraying apparatus 12 for injecting washing water into a filter cloth is shown. In addition, (b) shows that the sludge is pumped at a pressure of 5kg / ㎠ to the sludge transfer pump of the thickening tank is injected into the chamber 46 formed by the filter cloth 21, the sludge is pressed in the chamber by the advance of the hydraulic cylinder Dehydration is made by the indentation pressure as described above, and the solids remain in the filtrate 46 and the desorption filtrate is discharged through the sludge filtrate pipe 23. In addition, (c) shows the sludge crimping process. The pressurized water is supplied to the diaphragm 48 by the pressurized pump to expand the diaphragm 48 and press the sludge to compress the sludge. Remaining inside and the desorption filtrate is discharged through the sludge filtrate pipe (23).

It is a schematic diagram for demonstrating the filter plate opening process applied to this invention. In FIG. 12, (a) shows the operation of the hydraulic pump and the reverse of the hydraulic cylinder 4 to simultaneously open the entire filter plate at a constant interval between the filter plates 21 to prepare the cake discharge, and (b) The filter cloth conveying guide motor 13 shows that the upper end of the filter cloth is lowered by the filter plate 2, and the lower part of the filter cloth is rotated 360 degrees starting from the return roller in the lower part of the filter plate to the upper filter plate, and then reversed up and down while discharging the cake. c) shows a process in which the filter cloth 21 is cleaned by the washing water sprayed from the nozzle of the washing water spraying device 12 while the filter cloth 21 is moved upside down after discharging the cake as in (b). It is.

In addition, when describing the entire dehydration process applied to the present invention in detail, sludge injection into the chamber of the filter press of the present invention → cyclone deceleration electric motor drive → drive power transmission means → hydraulic cylinder moving head transfer to fix to the hydraulic cylinder → hydraulic cylinder blocking Drive the device → Advance the hydraulic cylinder to supply 210 kg / ㎠ pressure in the hydraulic cylinder → Sludge pressurization and dewatering → Cleaning the sludge injection section → Sludge pressurization dewatering → Cleaning the sludge injection section → Pushing the sludge in the sludge injection section by air injection → Compressed water natural drainage → Forced discharge of residual compressed water by air injection and vacuum suction after compressed water drainage → Opening of the water receiving basin → Reversed by releasing the hydraulic cylinder pressure, unlocking the hydraulic cylinder moving head, and driving the cyclone deceleration electric motor to reverse the power transmission means Open filter plate → upper and lower filter cloth Desorption by moving → Closing of washing water tray → Inverting filter cloth up and down reversing → Cleaning of washing water tray is closed, which is not washed when the cake is discharged through the sludge inlet cleaning process and the sludge inlet cleaning process By solving the problem that the high concentration of sludge falls with the cake is discharged to increase the dehydration efficiency. In the above sludge inlet cleaning process, the sludge inlet and outlet valves are opened, and after the washing water is injected, the cleaning is performed for a set time, and the outlet is closed. After the time delay, the inlet valve is closed and the washing water supply pump is characterized in that the operation is stopped.

1: frame, 2: filter plate,
3: hydraulic cylinder moving head, 4: hydraulic cylinder,
5: power transmission means, 6: turnbuckles,
7: cyclone deceleration electric motor, 8: automatic tension control device,
9: washing water receiver, 10: washing water receiver vertical notch,
11: sludge filtrate discharge container, 12: washing water injection device,
13: filter cloth transfer guide motor, 15: sludge pressurized water pipe,
16: hydraulic cylinder moving head drive shaft, 17: second hydraulic cylinder,
18: push block, 19: fixed block,
20: tension control spring, 21: filter cloth,
22: foreign matter discharge valve for washing water pipe, 23: sludge filtrate pipe,
24: washing water spray nozzle, 40: filter plate connecting device,
42: first chain, 44: second chain,
46: female room, 48: diaphragm,
50: Roller

Claims (9)

delete In the hydraulic cylinder moving head moving type filter cloth up-and-down inversion mobile filter press for dewatering a large number of filter cloth at once,
The hydraulic cylinder moving head moving type filter cloth up and down inversion movable filter press,
A frame 1;
A filter plate 2 mounted on the frame 1;
A filter plate connecting device (40) connected to the side of the filter plate (2) and connected to open and close the entire filter plate by a hydraulic cylinder;
A hydraulic cylinder (4) having an internal pressure of 210 kg / cm < 2 > by transferring the whole filter plate (2) back and forth to open or close the plate;
A hydraulic cylinder moving head (3) which is conveyed by a power transmission means and fastened or fixed to an outer surface of the hydraulic cylinder (4);
In order to transfer the power to transfer the hydraulic cylinder moving head (3) back and forth, the gears respectively installed on the hydraulic cylinder moving head (3) and the frame (1), the gears installed on the frame and the cyclone reduction motor Adjusting the length of the first chain 42 for connecting, the second chain 44 for connecting the gear installed in the frame and the gear installed in the hydraulic cylinder moving head, and the second chain (44) A power transmission means composed of a turnbuckle 6;
A cyclone deceleration electric motor (7) fastened to the power transmission means to generate power;
A filter cloth 21 separated from the filter plate 2 and installed independently;
A filter cloth supporter installed above and below the filter cloth 21 to support the filter cloth;
A washing water spraying device (12) for spraying washing water on the front and back surfaces of the filter cloth during the up and down movement of the filter cloth;
A washing water receiver 9 installed below the filter cloth to prevent the dehydrated cake from being mixed with water;
A sludge filtrate discharge container 11 installed below the washing water receiver 9 to discharge the sludge filtrate falling;
A sludge inlet pipe 27 installed in the frame by injecting sludge between the sludge filter cloths;
An air inlet installed at one side of the filter plate to supply air for cleaning the sludge inlet and discharging the compressed water;
In order to prevent retraction of the hydraulic cylinder 4 when the hydraulic cylinder 4 with the hydraulic cylinder moving head 3 attached to the cyclone deceleration electric motor 7 is operated to extend the rod in all directions to perform the closing plate. Blocking means;
And a tension adjusting means (8) for adjusting the tension of the power transmission means.
3. The method of claim 2,
The blocking means,
A second hydraulic cylinder 17 installed at the rear of the hydraulic cylinder moving head 3 and having a bidirectional rod;
A moving head push block 18 for supporting the second hydraulic cylinder 17;
And a fixed block 19 supporting the filter plate 2 and installed on the side frames placed from the front to the rear to the left and the right side so that the push block is moved by the left and right. Up and down reversible mobile filter press.
delete 3. The method of claim 2,
The wash water receiver,
Hydraulic cylinder moving head moving type filter cloth up-and-down reversal, characterized in that the washing water receiving vertical notch 10 is attached to the end so that the cake falls on the end and flows into the sludge filtrate discharge container 11 through the washing water receiving container so as not to be deposited. Removable filter press.
3. The method of claim 2,
The washing water injection device 12,
Hydraulic cylinder moving head moving filter moving up and down inverted mobile filter press, characterized in that the cleaning water pipe foreign matter discharge valve 22 is attached to one side to facilitate the discharge of foreign matter.
The dehydration process using the hydraulic cylinder moving head moving filter cloth up and down inversion mobile filter press,
Sludge injection into the chamber of the filter press → Cyclone deceleration electric motor drive → Power transmission means drive → Hydraulic cylinder moving head conveyed and fixed to hydraulic cylinder → Hydraulic cylinder blocking means driven → Hydraulic cylinder advanced to supply 210 kg / ㎠ pressure in hydraulic cylinder → Sludge indentation dewatering → Cleaning of pre-sludge inlet → Dewatering of sludge → Cleaning of sludge inlet → Pushing sludge out of sludge inlet by air injection → Natural drainage of compressed water → Forced residual compressed water by natural inlet after compressed water drainage and vacuum suction Discharge → Opening the wash basin → Retracting the hydraulic cylinder pressure and retracting, Unlocking the hydraulic cylinder moving head, Driving the cyclone deceleration electric motor to open the filter plate with the reverse of the power transmission means → Detach by moving the filter cloth up and down Filter cloth up and down reversal movement washing → tax Can dewatering step using a hydraulic cylinder moving the head moving filter cloth type vertical inversion a removable filter press which comprises in the order of receiving closed.
The method of claim 7, wherein
The pre-sludge injection unit cleaning step,
After the sludge inlet and outflow valves are opened, the sludge inlet and inlet valves are opened.Then, after the start of the inlet of the washing water, the washing is performed for a set time and the inlet valve is closed after a delay of "injection volume ÷ washing water capacity" A dehydration process using a hydraulic cylinder moving head moving type filter cloth upside down movable filter press, characterized in that the washing water supply pump operation is stopped.
delete

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