RU2032447C1 - Device for activating suspension press filter - Google Patents

Abstract

FIELD: chemistry. SUBSTANCE: device has U-shaped housing, removable cover, tubular filtering element spaced from the housing along its axis, removable diaphragm coaxially located between the housing and the filtering element, exhaust and pressure unions. The device also has a compartment in whose lower part liquid under pressure encounters; over the surface of the liquid there is a gas containing space. The device is provided also with a pipe through which liquid under pressure is fed from the lower part of compartment to the space between the housing and the diaphragm; pressure pump for the first pipeline; second pipeline connecting the space between the housing and the diaphragm with the gas containing space of compartment; exhaust pump to create low pressure in the gas containing space; maximal and minimal level controlling sensors with switches to switch-on and off exhaust and pressure pumps, respectively. EFFECT: improved design.

Description

 The invention relates to a device for actuating a press filter for a suspension, comprising a filter with a boiler-shaped outer casing, a lid covering the casing from the open end side and mounted with the possibility of removal, a tubular filter element located on the axis of the casing and at a distance from it, turned a membrane located coaxially between the casing and the filter element, suction and pressure supply fittings on the casing.

 A press filter is known in which through the suction and pressure supply nozzles provided on the filter housing, during operation of the filter, it is possible to create an increased and a reduced pressure acting on the membrane, the increased pressure being created by the liquid under pressure, and the reduced pressure being created using a vacuum pump. If the membrane is leaky at the same time, there is a risk that toxic suspensions can enter the liquid under pressure or through a vacuum pump into the atmosphere, which can be dangerous for people and the environment.

 The objective of the invention is to implement the device in such a way that leakage of the membrane can be detected and that even with a leaky membrane the suspension of the suspension to the environment is excluded.

 This problem is solved in such a way that the device for actuating the press filter for the suspension, containing a filter with a boiler-shaped outer casing, a cover that covers the casing from the open end side and installed with the possibility of removal, a tubular filter element located along the axis of the casing and at a distance from it, an invertible membrane located coaxially between the casing and the filter element, suction and pressure nozzles on the casing, also contains a reservoir for liquid under pressure, in which the liquid it occupies the lower part of the tank and there is a gas space above the liquid mirror in the tank, a first pipeline for supplying liquid under pressure from the lower part of the tank to the space between the casing and the press filter membrane, a pressure pump in the first pipe, a second pipe connecting the space between the casing and the membrane press filter with the gas space of the tank, a suction pump to create a reduced pressure in the gas space of the tank, a liquid level indicator in the tank, a sensor with off a sensor for monitoring the normal level, sensors with switches for monitoring the maximum and minimum levels, turning off the suction and pressure pumps, respectively.

 The device is equipped with a bypass pipe with a safety valve connected to the lower part of the tank filled with liquid and the first pipe, and the safety valve opens when the pressure in the first pipe exceeds a certain value.

 In this case, the safety valve is set to certain pressure values.

 In this case, the device is equipped with a pipeline for aspirating gas from the gas space of the tank with a switching valve and a low pressure valve installed on it, while the suction pump is connected to the low pressure valve by a switching valve, by which the pressure in the gas space is set to a certain value.

 The device is equipped with a pipeline for compressed air with a controlled valve to create increased air pressure in the space between the casing and the membrane of the press filter.

 In FIG. 1 shows a press filter in the closed state with a device for actuating the filter; figure 2 is the same, in the open state.

 The press filter contains a boiler-shaped casing 1 of circular cross section, which is closed at one end (right in FIGS. 1 and 2), and open at the opposite end. At the open end, the casing 1 carries a flange consisting of two parts 2, 3, between which one edge 4 is made tightly made of a membrane made in the form of a sleeve of elastic stretchable material 5. From the casing 1, the suction and pressure nozzle 6. extend upward. The casing 1 then goes through the carrier the structure is connected to the sleeve 7 with the possibility of disconnection, and the sleeve 7 can move along a fixed rod 8 parallel to the axis of the casing.

 In the fixed frame 9, the supporting rod 8, the lid 10 is fixed or rotatably fastened to tightly close the open end of the casing 1. Pipe 11 protrudes rigidly from the inside of the casing 1 of the inner side of the lid 10. It carries an end flange at its free end, which, like a flange on the open end of the casing 1, consists of two parts 12, 13. Between these parts 12, 13 the other edge 14 of the membrane 5 is tightly clamped.

 Between the inner side of the cover 10 and the flange portion 12, a tubular filter element 15 extends, for example, in the form of a mesh cylinder coated with a filter cloth. The filter element 15 is sealed relative to the inner side of the cover 10 or on the flange portion 12.

 In the closed state of the filter (see Fig. 1), the sleeve-shaped membrane 5 extends coaxially between the inner side of the casing 1 and the outer side of the filter element 15. In the open state of the filter (see Fig. 2), when the casing 1 and cover 10 are separated by displacing the sleeve 7 along the rod 8 in the direction of their common axis from each other, the membrane 5 is turned out relative to its position along the axis of FIG. 1 so that the inner side of the membrane now becomes the outer side.

 During its own filtering process, the press filter is closed (see figure 1). In this case, the casing 1 by means of the bayonet lock 16 located inside the pipe 11, which is partially carried by the protrusion 17 protruding from the closed end of the casing 1, is firmly connected to the cover 10. By applying a reduced pressure to the fitting 6, the membrane 5 is brought into the position shown in figure 1, so that through the supply pipe 18 provided in the cover 10, the suspension to be filtered can be introduced. After completion of the filling process by applying increased pressure through the nozzle 6, the membrane 5 is pressed against the filter element 15 to conduct the residual liquid through the filter element. The solid components of the suspension remain in the form of a dense precipitate on the filter element 15, while the filtrate pressed through the filter 15 also flows through the drain line 19 provided in the cover 10. In the open state of the filter, the solid residue can be removed from the filter element 15 (see Fig. 2 )

 At the end of the filtering process, the press filter can be cleaned. Membrane 5 for this, when the filter is closed, by applying a reduced pressure, is pulled from the filter element 15, and it can be pressed tightly against the inner wall of the casing 1. Through the drain pipe 19, washing liquid can be introduced to flush the element 15. After the washing process, the washing liquid can be removed during feeding high pressure, while the membrane 5 is pressed against the filter element 15.

 If the cover 10 of the press filter is mounted rotatably, the filter during the filtration process can swing along the double arrow 20 (see Fig. 1) to ensure uniform deposition of solid filter residue. When dumping this residue in the open state of the filter, the cover 10 can also be swung in the direction of the double arrow 20 to facilitate removal of the solid residue.

 The creation of increased pressure on the membrane 5 is carried out by introducing a liquid under pressure into the space between the casing 1 and the membrane 5. For this purpose, the nozzle 6 is connected to the first pipe 21, which is connected through a non-return valve 22 to the pressure side of the high pressure pump 24, driven by an electric motor 23. The suction the side of the pump 24 through another section of the pipe 21 is connected to the lower part of the reservoir 25 through another section. The reservoir 25 contains a liquid 26, for example water or oil. The liquid 26 occupies only the lower part of the tank 25, so that there is a gas space 27 above the liquid mirror in the tank.

 The second pipe 28, on one side, enters the nozzle 6, and on the other side into the gas space 27 of the reservoir 25. The pipe 28 preferably has a remotely controlled shut-off valve 29, which can optionally be installed in the closed or open position. Another pipe 30 is connected on one side to the gas cavity 27 of the reservoir 25, and on the other hand connected to a suction or vacuum pump 32 driven by the motor 31 so that gas, such as air, can be sucked out of the gas space into the atmosphere.

 If during the filtering process it is necessary to apply pressure to the membrane 5, then the pump 24 through the pipe 21 delivers the liquid under pressure from the reservoir 25 into the space between the casing 1 and the membrane 5 of the press filter, so that the membrane 5 approaches the filter element 15 and squeezes the liquid through it . Before moving the press filter from the closed to the open position (see FIG. 2), the pressure supply pump 24 is turned off and the vacuum pump 32 is turned on and it pumps gas from the gas space 27 so that liquid under pressure is pumped out from the space between the housing 1 and membrane 5 through the pipe 28 back to the reservoir 25, while the membrane 5 moves away from the filter element and after reaching a vacuum between the casing 1 and the membrane 5 is adjacent to the casing from the inside.

 If after a long operation of the press filter, the membrane 5 loses its tightness and poisonous slurry can enter the space between the casing 1 and the membrane 5 and mix with the liquid under pressure, then measures are taken after which this mixture does not enter the environment, but enters only in tank 25, where it can not do harm. In the second pipe 28, a sensor 33 may be installed to monitor changes (contamination) of the liquid under pressure. The sensor 33 is triggered when, when the membrane 5 is leaking, the filtered suspension enters the liquid under pressure.

 As shown schematically in FIG. 1 below, a conventional liquid level indicator 34 is mounted on the tank 25, which shows the liquid level in the tank 5. The liquid level indicator 34 has, in a manner known per se, level sensors 35, 36, 37 that monitor certain heights liquid column in the reservoir 25. Switches 38, 39 and 40 are connected to the level sensors 35, 36, 37, which operate at the corresponding height of the liquid column and include control processes.

 The sensor 35 connected to the switch 38 is triggered when it shows the normal liquid level under pressure in the reservoir 25. The sensor 36 located above it and connected to the switch 39 is activated when the liquid level is a certain amount higher than normal. The normal level corresponds to the case when all the liquid under pressure is in the tank 25. The switch 39 is designated as the "maximum switch" and is triggered by the operation of the suction pump 32 if the filtered suspension enters the liquid under pressure when the membrane ruptures. The switch 39 can turn off the suction pump 32 and protect it from damage.

 The sensor 37 connected to the switch 40 is located at some distance below the normal liquid level, so that the switch 40 acts as a minimum level indicator and is triggered when the liquid column is a predetermined value below normal. Due to this, when the pressure pump 24 is operating, it is possible to determine the rupture of the membrane when liquid under pressure through a damaged membrane enters the suspension and flows with it through the drain pipe 19. In this case, the switch 40 can turn off the motor 23 of the high pressure pump 24.

 If, when the high-pressure pump 24 is operating, pressurized liquid enters the space between the casing 1 and the diaphragm 5, then the shut-off valve 9 in the pipeline 28 is closed.

 As can be seen from FIG. 1, the first pipe 21 behind the pump 24 bypass pipe 41 is connected to the lower liquid-filled part of the reservoir 25. The bypass pipe 41 contains a safety valve 42, which opens when the pressure in the first pipe and thereby in the cavity between the casing 1 and membrane 5 exceeds a certain value. Due to this, it is possible to avoid unacceptably high pressure in the space between the casing 1 and the membrane 5. The safety valve 42 can in itself in a known manner be set to the value of the operating pressure.

 The pipe 30 is connected to a pipe 43, which has a series-connected shut-off valve 44 with remote control and an adjustable valve under pressure 45. The valve under pressure 45 enters the free atmosphere. If the valve 44 is in the open (shown in figure 1) position, then using the reduced pressure valve 45 when the pump 32 is running, a certain level of vacuum is established in the gas space 27.

 To transfer the press filter from the closed state to the open state after disconnecting the bayonet lock 16, pressurized air is supplied into the space between the casing 1 and the membrane 5. For this, in addition to pipelines 21 and 28, a pipe 46 is inserted into the nozzle 6, which is remotely controlled via a shut-off valve 47, if necessary, can be connected to a line (not shown) of compressed air.

 It is advisable when transferring the press filter from the open position to the closed position through the pipe 28 in the described manner to give reduced pressure or vacuum to the nozzle 6, which facilitates the turning of the membrane 5 into the working position. It is recommended that when closing the press filter, apply a reduced pressure or vacuum to the nozzle 6 not at full strength, but a lower value, which serves only to introduce the membrane 5. Only in the final phase of closing, when the casing 1 fits onto the seal on the cover 10, the full vacuum or reduced pressure.

Claims (5)

 1. DEVICE FOR DRIVING A SUSPENSION PRESS FILTER, comprising a filter with a boiler-like outer casing, a lid covering the casing from the open end side and mounted with a possibility of removal, a tubular filter element located along the axis of the casing and at a distance from it, an invertible membrane located coaxially between the casing and the filter element, suction and pressure nozzles on the casing, characterized in that it contains a reservoir for liquid under pressure, occupying its lower part, above there is a gas space in the tank, a first pipeline for supplying pressurized liquid from the bottom of the tank to the space between the casing and the press filter membrane, a pressure pump in the first pipe, a second pipe connecting the space between the casing and the press filter membrane with the gas space tank, a suction pump to create a reduced pressure in the gas space of the tank, a liquid level indicator in the tank, a sensor with a switch to control the normal level, d sensors with switches for monitoring the maximum and minimum levels, turning off the suction and pressure pumps, respectively.  2. The device according to claim 1, characterized in that it is equipped with a bypass pipe with a safety valve connected to the liquid-filled part of the tank and the first pipe, and the safety valve opens when the pressure in the first pipe exceeds a certain value.  3. The device according to p. 2, characterized in that the safety valve is set to certain pressure values.  4. The device according to claim 1, characterized in that it is equipped with a pipeline for sucking gas from the gas space of the tank with a switching valve and a low pressure valve installed on it, while the suction pump (optionally) is connected to the low pressure valve by a switching valve, s by which the pressure in the gas space is set to a certain value.  5. The device according to claim 1, characterized in that it is equipped with a pipe for compressed air with a controlled valve to create increased air pressure in the space between the casing and the membrane of the press filter.

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