EP0706829B1 - Centrifuge drum - Google Patents

Description

The invention relates to a centrifugal drum of a self-draining centrifuge with a hydraulically operated, axially movable piston valve, the one Seals solids space against at least one solids outlet, the piston valve via one with a locking medium, preferably locking water fillable lock chamber is held in its closed position, preferably one hydraulically movable piston valve, which is arranged in an outlet chamber is and the closing chamber seals against an outlet, whereby the piston valve on an energy accumulator arranged in the outlet chamber, preferably supports one or more compression springs and a passage opening has, through which lock chamber and outlet chamber connectable are, and a control line, via which control fluid to the energy storage opposite effective area of the piston valve can be fed.

Such centrifugal drums are known from the prior art. For example DE-PS 19 09 996 discloses a centrifugal drum of a clarifier with a rotor body, in which a separation space and a set of plate inserts are arranged. The wall of the rotor body has outlet openings on, which are closed by a piston valve, the Movement of the spool with a control liquid, for example water is performed. The control liquid is a via a fixed line Space fed to the bottom of the spool. The room has an outlet, which can be closed by means of a ring valve supported on springs is. This ring valve is arranged in one chamber and can be opened in a second Control line with control liquid are applied so that the ring valve the outlet opening of the space located below the piston valve opens.

With such a centrifugal drum, partial emptying as well a complete emptying of the separation space through the outlet openings in the rotor wall be performed. When fully emptied, the ring valve becomes like this charged with control liquid that it is arranged in the below the ring valve Chamber is pressed against the force of the springs, causing the Control fluid below the spool due to the on the spool pressure of the centrifugal chamber flows out. About one in the Ring valve arranged hole, the control liquid gets into the below the ring valve arranged space, from where it has an outlet can escape. This outlet is designed as a throttle. Will the control liquid arriving above the ring valve is drained off via outlets, so the spring pressure exceeds the liquid pressure, so that the ring valve in its starting position is returned and that below the spool arranged control room seals.

In order to carry out partial emptying, this known centrifugal drum has another control line with the one below the ring valve arranged space is connected. When the solid space is partially emptied if this space is previously filled with control liquid via the control line, so that with further inflow of control fluid via the in the ring valve arranged bore the pressure in this room increases and the ring valve after a short opening time pushes back into the starting position.

This previously known centrifugal drum enables accelerated partial emptying the drum, however, can be by the simultaneous supply of Closing and opening water a complete emptying with safe keeping of the Discharge openings not closed. In the practical operation of self-draining However, centrifuges are required to perform full emptying in this way can that the solids space can be kept safely open to any Rinsing the plate pack to remove solid deposits to be able to perform.

There are also a variety of designs of centrifugal drums previously known to use control systems with chambers that at a When completely drained, take up the entire closing water liquid and at Partial drains can be prefilled. These chambers are over throttled Outlets opened, so that the operation of such centrifugal drums exactly dosed control water supply presupposes, which is often complicated in practice is and requires complex control water treatment. Besides, it is structurally complex, the corresponding paths and closing speeds to master the spool in such centrifugal drums, so that among other things, complex control valves must be used, the one additional opening of the chamber to the outside to create inertia minimize these remarks. The use of such control valves is however very limited, because of the limited executable Bore cross sections only a restricted escape of the control fluids is possible. Alternatively, the scope of such Centrifugal drum several control valves are provided, which in addition should avoid tilting of the valve spool.

Such a centrifugal drum is known for example from DE-PS 32 40 093, which is provided with a valve slide, which is used in the more common Partial emptying constantly via a pressure medium, namely one Closing liquid is pressed into its closed position. When operating this previously known centrifugal drum must therefore maintain constant pressure be what structurally dimensioned channels and requires the constant supply of locking liquid.

Finally, it is known - USA-3 494 546 - for the different modes of operation Partial emptying and full emptying two staggered in the axial direction To provide ring valves, each via its own assigned channels, the pressure in the Lock chamber - space below the piston valve - influence that either an assigned ring valve for each type of emptying or one for partial emptying assigned ring valve and both ring valves for full emptying. The outflow ducts of the closing water that discharge the closing water with the valve seat open Ring valves open permanently outside the centrifugal drum Spaces so that there is no outlet chamber that can be optionally closed and opened is available.

Based on the prior art described above, the invention has for its object to design a centrifugal drum of the type mentioned in such a way that partial emptying with accelerated closing and large lifting height of the piston valve are possible and optionally completely controllable full emptying of the drum without the negative influence of a Collection chamber on the outflow of the closing liquid and in particular without being able to carry out the pre-filling in the event of partial emptying.

The solution to this problem is provided in a centrifugal drum according to the invention that the outlet chamber is sealed by means of a preferably hydraulically controllable control slide against at least one outlet opening into which the flowing medium flowing into the outlet chamber flows freely when the solids space is completely emptied, the control slide mechanically over at least an energy store is held in its closed position.

This configuration has the particular advantage that the outlet chamber through a hydraulically controllable control slide is closed, for its opening it requires a fluid pressure, the closing process after reducing the Fluid pressure, however, mechanically via an energy accumulator, preferably several Compression springs. This takes place in the centrifugal drum according to the invention Partial emptying in a procedure known per se, i.e. that in the Locking chamber below the spool in the existing locking medium Exhaust chamber drains below the piston valve until the exhaust chamber is filled and the increasing liquid pressure in the outlet chamber Piston valve returns to its closed position and thus before the Piston valve due to the constant supply of jamming closing medium in front of the solids outlet. A full drain should now be carried out become, during the above process without Closing medium supply of the controllable control slide by means of a Control liquid controlled so that it releases the outlet opening, via which can drain the closing medium arranged in the outlet chamber. The drum now remains open until the control liquid supply is over stopped the piston valve and then the closing chamber again is filled with locking liquid. Now the one that disengages the spool Reduced pressure in the control line, the energy store presses, namely the Compression springs return the control spool to its original position, so that the Outlet opening of the outlet chamber is sealed and in the Exhaust chamber increasing fluid pressure sealing the piston valve against the Outlet pushes. The closing water remaining in the outlet chamber can then flow out through a throttled outlet.

According to a further feature of the invention it is provided that the control slide is substantially U-shaped in cross section and with its Legs forms part of the housing. Accordingly, the spool has an essentially pot-shaped design and encompasses with his Legs the area of the housing in which the outlet chamber is arranged.

In an advantageous embodiment, the control slide and the piston valve are through coordinated calibration of feed channels for opening the Control spool on the one hand and the movement of the piston valve on the other, in Connection with the dimensioning of the radius R via a common control water supply controllable. The radius R is the dimension the supply chamber for the control liquid. This feed chamber can be in shape an overflow weir be formed that the two feed channels to the Control spool on the one hand and to the piston valve on the other hand separates.

Finally, it is alternatively provided that the control slide and the piston valve can be controlled via separate control water supply lines. With this configuration it is particularly advantageous that appropriate amounts of control water in different sizes to control the piston valve or Control spool are adjustable.

Further features and advantages result from the following description the accompanying drawing in the a preferred embodiment of the Centrifugal drum according to the invention is shown. The drawing shows in schematic representation of the main part of a half of a centrifugal drum Axial section.

A centrifugal drum shown in the drawing has a centric Inlet 1 for a solid-liquid mixture to be separated, via which the solid-liquid mixture arrives in a centrifugal space 2, which consists of a separation space 4 and a solid space 6 is composed. The solid space 6 is designed as a double cone and in its lower area by one Piston slide 8 limits one provided in the drum jacket 9 Solid outlet for the solids closes or releases when the Piston slide 8 axially from the closed position shown in the drawing is moved within the centrifugal space 2.

The centrifugal drum has a drum cover 3 in its upper region closed, which is connected by a locking ring 5 to the drum shell 9 is.

Between the drum shell 9 and the piston slide 8 is one with a Locking liquid, namely locking water via a fixed control water supply line 30 and a channel 28 acted upon closing chamber provided in whose outer peripheral region are arranged outlet channels 11, which Connect the lock chamber 10 to an outlet chamber 12.

An annular valve in the form of a piston valve 16 is arranged in the outlet chamber 12, which is supported on springs 21. The piston valve 16 is thus can be moved parallel to the piston slide 8 in the axial direction of the centrifugal drum stored in the outlet chamber 12. The piston valve 16 supporting springs 21 are supported on a ring member 19 which with the Drum shell 9 is screwed tight.

On the piston valve 16, sealing bodies 23 are arranged, which are the outlet channels seal from the closing chamber 10 against the outlet chamber 12. For this is the piston valve 16 by means of the springs 21 against the inner surface of the Drum shell 9 pressed, in which the outlet channels 11 are arranged.

The centrifugal drum also has a control water supply line 32, which via channels 24 and 27 control water between the piston valve 16 and the Drum casing 9 promotes, so that hydraulic pressure builds up in this area which is larger than that by the springs on the underside of the Piston valve 16 applied pressure so that the piston valve 16 by acting with control water via the control water supply line 32 and the channels 24 and 27 moved in the axial direction of the centrifugal drum into the outlet chamber becomes.

That existing in the locking chamber 10, the piston valve 8 in its Control water holding the closed position can thus enter the outlet channel 11 into the Outlet chamber 12 and through passages 22 in the piston valve 16 in a below of the piston valve 16 arranged chamber 17 suddenly flow. The repression the control water from the lock chamber 10 takes place here by the pressure built up in the separation chamber 2, which acts on the piston slide 8 and moved this down. Through this movement of the spool 8 the ejection openings 7 released so that solids via the ejection opening 7 can emerge from the centrifugal drum.

The chamber 17 arranged below the piston valve 16 has a smaller one Volume than the closing chamber 10, so that the chamber 17 is only a part of the escaping locking water escaping from the locking chamber 10. The Closing water flowing under the piston valve 16 thus builds on the underside of the piston valve 16 a pressure supporting the spring 21, which the Piston valve 16 returns to its closed position. By closing the Outlet channel 11 and the constant supply of closing water increases Pressure in the closing chamber 10 so that the closing water Piston slide 8 also transferred to its closed position and this the Ejection opening 7 closes.

The procedure described above describes a partial emptying of the Solids chamber 6 in which the piston valve 8 only for fractions of a second opens.

The closing water flowing into the outlet chamber 12 during the partial emptying flows through throttled outlets after the opening process is completed 13 from.

The centrifugal drum also has an axially movable control slide 20 on the springs 25 against a sealing ring 14, for example made of polyamide, is pressed. The springs 25 are supported in one, one in cross section U-shaped recess from the ring, which is fixed to the drum shell 9 is screwed. The control slide 20 closes the chamber 17th between the piston valve 16 and a ring member 19 which is fixed to the Drum shell 9 is connected and on which the springs 21 of the Support piston valve 16.

As can be seen from the drawing, the control slide 20 is in cross section formed essentially U-shaped, with its legs part of the outer surface the centrifugal drum and have throttled outlets 15 and 18, which allow the control fluid to flow out.

Between the drum jacket 9 and the control slide 20 is a channel 26 for Supply of control water arranged, the channel 26 to a control water supply line 31 is connected. By adding control water between the Control slide 20, the ring part 19 and the drum jacket 9, a pressure generated that is greater than the pressure acting on the spool 20 Springs 25 so that the spool 20 in the axial direction towards the springs 25 is moved. This movement of the control slide 20 gives an annular gap in the Area of the sealing ring 14 free, so that located in the chamber 17 Control water can flow through this annular gap. The chamber 17 is thus ineffective. After the supply of the control water via the Control water supply line 31 and the channel 26 flows between the Control slide 20 and the drum jacket 9 remaining control water the throttled outlet 18 and the springs 25 move the spool 20 again in the closed position, so that the control slide 20 with his Leg end rests sealingly on the sealing ring 14.

With the start of the separation process in the centrifugal drum, the lock chamber 10 via the fixed closing water supply line 30 and the channel 28 filled with closing water to close the spool 8 in its closed position convict.

After accumulation of a certain amount of solids in the solid space 6 can partial or full emptying can be carried out.

To initiate partial emptying, control fluid is supplied via the control water supply 32 and the channels 24 and 27 of the outlet chamber 12 are supplied. In the Outlet chamber 12 creates a hydraulic pressure that the piston valve 16 after below, i.e. moves against the force of the springs 21 and the outlet channels 11 opens. As a result, the pressure in the closing chamber 10 drops and the pressure on the piston valve in the centrifugal chamber 2 shifts the Piston slide 8 displacing what is arranged in the locking chamber Closing water in the axial direction such that the discharge openings 7 be released.

The closing water emerging from the outlet channel 11 passes through the passages 22 in the piston valve 16 in the arranged under the piston valve 16 Chamber 17. However, this chamber 17 cannot hold the entire amount of Take up closing water, with closing water via the throttled outlets 13 and 15 flows out delayed, so that on the piston valve 16 a spring force the spring 21 supporting pressure by the flowing into the chamber 17 Closing water acts by accelerating the closing of the outlet channel Moving the piston valve 16 in its closed position causes. Because about that Channels 29 and 28 from the fixed closing water supply constantly closing water the lock chamber 10 is fed, the ejection opening 7 in Fractions of seconds closed again by the piston slide 8. As a result, partial discharge of the centrifugal drum can take place be performed.

When the centrifugal drum is completely emptied, the control and / or Locking water supply line 31 control and / or locking water into channel 26 passed so that between the spool 20 and the Drum shell 9 screwed ring part 19, a pressure is built up after Overcoming the force from the springs 25, the spool 20 in this way moves that the annular gap is opened in the area of the sealing ring 14, so that existing or inflowing closing water in the chamber 17 can flow out this annular gap. If one now carries out the procedure of above-mentioned partial emptying, it can be seen that the Chamber 17 is ineffective, so that closing water flowing into this chamber does not cause the piston valve to move out of the Open position is transferred to its closed position. Furthermore, this procedure is supported by the fact that the locking chamber 10 does not further closing water is supplied so that a permanent opening of the Piston slide 8 is guaranteed for the period in which the Closing water supply line 30 closing water between the control slide 20 and the drum jacket 9 is supplied and the opening water supply for Outlet chamber 12 was previously stopped.

The illustrated embodiment of the centrifugal drum according to the invention sees separate control or closing water supply lines 30 and 31 for the control slide 20 and the piston valve 16 before. But it is also conceivable that the Control slide 20 and the piston valve 16 by coordinated calibration of supply channels 24, 26 and 27 for the opening of the control slide 20 on the one hand and the movement of the piston valve 16 on the other hand with the dimensioning of the radius R via a common control water supply are controllable. In this case, in the area of the control water supply lines a so-called overflow weir arranged by a Partition plate between the two feed channels 26 and 27 is formed and the the inflow of the control water into one or the other feed channel controls.

Claims (4)

1. Drum of a self-dumping centrifuge, comprising a hydraulically actuated, axially movable piston slide valve (8) which seals a solid material space (6) against at least one solid material outlet (7), said piston valve (8) being held in its closing position through the means of a closing chamber (10) that can be filled with a closing medium, preferably closing water; a preferably hydraulically movable plunger valve (16) which is arranged in an outlet chamber (17) and seals the closing chamber (10) against an outlet, said plunger valve (16) taking support on an energy accumulator, preferably on one or more pressure springs (21), and having a passage opening (22) through which the closing chamber (10) and the outlet chamber (17) can communicate; and a control passage (24) through which control fluid can be supplied to the effective surface of the plunger valve (16) opposite the energy accumulator,
   characterized in
   that the outlet chamber (17) is sealed against at least one outlet opening by means of a preferably hydraulically controlled spool valve (20), through which outlet opening the closing medium flowing into the outlet chamber (17) flows off when the solid material space (6) is completely emptied, said spool valve (20) being kept in its closing position through at least one energy accumulator (25).
2. Drum according to claim 1, characterized in
   that the spool valve (20) has a substantially U-shaped cross-section and forms with the legs thereof part of the housing.
3. Drum according to claim 1, characterized in
   that the spool valve (20) and the plunger valve (16) are controllable by means of a mutually coordinated calibration of supply channels (24, 26, 27) for the opening of the spool valve (20) on one hand and the movement of the plunger valve (16) on the other hand, in connection with the dimensioning of the radius R, via a common control water supply passage.
4. Drum according to claim 1, characterized in
   that spool valve (20) and the plunger valve (16) can be controlled via separate control water supply passages (30, 31).

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