DE2155792A1 - Thickener/disintegrator - with eccentric screw pump and high pressure jets - Google Patents

Abstract

In the appts for continuous intake and thickening of a suspension or dispersion, by means of an eccentric screw pump rotating in a filter tube surrounded by a cage formed by two frames, the planes of which intersect on the axis of the filter tube, in DT 2128930, the improvement whereby the cage is enclosed by a sleeve concentric with but spaced from the filter tube, to which an outer tube of a stiff plastic film surrounding the eccentric screw and high press. tube, is attached, and whereby some of the nozzles which can be charged with a press. medium are constructed as recoil propellant nozzles and directed into the annular space between the outer tube and the eccentric screw pump to form a water shield, delimited by a closure wall between the two tubes and spaced from the propellant nozzles.

Description

Device for the continuous suction and thickening of a suspension or dispersion with an eccentric screw pump.

In the main patent is a device for continuous suction and Thickening of a suspension or dispersion with an eccentric screw pump is described. An Archimedean snail is arranged around a filter tube. The filter tube, which is surrounded by a metal housing, is rigid with the stator housing the eccentric screw pump assembled and the filter tube on the one hand and the On the other hand, the Archimedes' snail revolving in it are electrical from one another isolated. They serve as electrodes for forming an on the suspension or dispersion between the filter tube and the screw. The essentially Archimedean snail made of metal exists in the area of the circumference their spiral duct walls made of elastically resilient Insulating material, in particular an elastomer, and has a sleeve formed by a perforated tubular sleeve Hub, the interior of which communicates with the suction side of the eccentric screw pump is connected and which has approximately the same diameter as the cylindrical housing the eccentric screw pump arranged in alignment with it and one attached to it subsequent high pressure hose line.

The hollow cylindrical body forming the filter tube has its large connection openings on both ends and is enclosed by a kind of cage, which is formed by at least two frames, the planes of which are in the filter tube axis cut. On the filter tube and / or the cage frame are differently directed Flushing and / or driving nozzles for separately and / or in groups that can be switched on and off Pressure medium flows provided.

Such a device is suitable for thickening and conveying away Solid components in the form of a sludge when operating below a liquid level, for example for the extraction of raw materials such as zinc blende from the seabed, or but also for gravel or sand extraction in a pit filled with water of relative shallow depth or possibly also for use in a drying pit in which lime, Chalk or marl is mined with rinsing blasting.

The present invention is based on the object of such Establishment with the aim of creating a mining or drilling rig, for example for tunneling or underground mining.

To give the facility the strong propulsive force required for this to give, according to the invention, the cage is from a distance to the filter tube and enclosed concentrically to this arranged jacket to which a die Eccentric screw pump and the high-pressure hose surrounding it at a distance, from one rigid plastic film connects to existing outer hose; part of with DUsen which can be charged with a pressure medium is designed as a recoil drive nozzle and into the annular space between the outer hose and the eccentric screw pump or the inner high pressure hose, which forms a water shield that by an end wall arranged at a distance from the propellant nozzle between the two hoses are bounded by one by a hydraulic or pneumatic Pressure medium held under high internal pressure annular plastic bubble formed is parallel to its axis of one provided with a pressure relief valve Passage opening is penetrated for the content of the water shield.

To do this during operation in front of the front end of the facility existing soil or rock too loosen and / or crush, is according to a further proposal of the invention part of the with a pressure medium loadable nozzles at the open front end of the device conically arranged directed inwards, so that thereby a high pressure jet mill is formed will.

Included. it is particularly advantageous to use the front end of the annular space between the filter tube and the jacket concentrically surrounding it to be provided with a ring-shaped, sieve-like or grid-like collecting basket.

The plastic bladder delimiting the water shield can also be equipped with a additional closable axially parallel passage opening serving as a manhole be provided.

It is also particularly advantageous at the inlet end of the eccentric screw pump one coupled to its rotor, reaching into the interior of the filter tube Arrange entry screw.

The invention is exemplified below with reference to the drawing explained in more detail. 1 shows the schematic representation of a device according to the invention in longitudinal section, Fig. 2 shows a cross section through the device according to Fig. 1 looking towards the cutting plane AB of Fig. 1, Fig. 3 shows a cross section looking towards the cutting plane CD from FIG. 1, FIG. 4 shows a partial cross section looking towards the plane EF of FIG. 1.

lol is the cylindrical housing of the progressing cavity pump, the has an inner jacket 102. 105 is the stator and 104 the rotor of the eccentric screw pump, of a cardan shaft 105 which is also designed as a stirrer device Oil pressure motor 106 is driven. The pressure chamber 107 of the pump has silver connection openings loS in connection with the concentric annulus log between the walls 101 and 102, which in turn is connected to the interior of the double-walled high-pressure hose line 110 is, the wall gap for receiving high pressure supply lines 111 (Fig. 3 and 4) is used for the various nozzles to be described in more detail, which on are attached to the front of the device. 112 is the perforated hollow hub of the rotatably arranged worm wheel with the worm wheel walls 113, which are in the area their circumference made of elastically flexible insulating material, in particular an elastomer, exist and inside the fixed filter tube ll4, preferably this coating, circulating. The metal parts of the screw and the filter tube are used as electrodes for the formation of the electric field. The filter tube 111C is from enclosed in a kind of cage, which is formed by rectangular lines 115, iib and who in turn of one at a distance from the filter tube 114 and concentri.sch to this arranged jacket 117 is enclosed. On the filter tube 114, the cage frame 115, 116 and / or the jacket 117 are differently directed groups of nozzles, which are fed from the high pressure lines 111, attached, in particular recoil propulsion nozzles Itg, which are directed backwards, nozzles 119, which are directed radially and obliquely are and jet mill nozzles 120, the cone shape directed at the front end of the device are appropriate.

To the jacket 117, which surrounds the filter tube 114 at a distance and also encloses the cage, closes the eccentric screw pump lol - 1o6 and the high-pressure hose 110 at a distance surrounding it made of a stiff plastic film existing outer hose 125. The recoil propulsion nozzles 118 are in the annulus 126 between this outer hose 125 and the eccentric screw pump or the inner high pressure hose directed so that the space 126 forms a water shield.

It is arranged at a distance from the drive nozzles 118 by a End wall between the two hoses 125, 11o bounded by a a hydraulic or pneumatic pressure medium held under high internal pressure annular plastic bladder 127 is formed, which parallel to its axis from a passage opening provided with a pressure relief valve (not shown) 128 for the content of the water shield 126 is penetrated.

The front end of the annular space between the filter tube 114 and the jacket 117 is provided with an annular, sieve-like or grid-like collecting basket 15o provided.

At the inlet end of the eccentric screw pump there is one with the rotor 104 of which is coupled and extends into the interior of the worm wheel hub 112 Intake auger 151.

The nozzle groups 118, 119J 120 Supplied with switchable pressure medium flows via the hose lines 111. the Blowback nozzles 118, which are directed into the water shield space 126, effect the Driving the facility. The excess water can be removed from the water shield 126 via the passage 128, which is provided with a pressure relief valve, into the rear Part of the hose 125, possibly by a special hose line (not shown) in this drain. The leading edge of the shell 117 acts as a cutting edge and the nozzles 120, as a jet mill, comminute the soil lying in front of the device or rock. The grid 150 is used to prevent the ingress of rocks into the cylindrical space between the jacket 117 and the filter tube 114. The from The sludge produced by the jet mill penetrates the annular space between the filter tube and the perforated Hub 112 and is there between these subjected to both parts designed as electrodes of the electrophoresis effect. As a result, the thicker parts of the sludge preferentially pass through the perforations inside the hub 112 and are driven by the eccentric screw pump lol - 105 conveyed into the high-pressure hose llo, their movement still being carried out by the feed screw 131 is supported. The nozzles 119 can be used for external flushing and also for a about intended directional influencing of the advance of the device used will. Si.e can for the latter purpose in separately switchable on the scope the device distributed nozzle groups can be divided.

The new facility promises when used as a drilling or Dismantling device a particularly economical operation with extensive avoidance of outwardly propagating vibrations.

Claims (5)

Expectations S Device for continuous suction and thickening of a suspension or dispersion with an eccentric screw pump and one circulating in a filter tube arranged Archimedean snail, in which the surrounded by a metal housing The filter tube is rigidly assembled with the stator housing of the eccentric screw pump and the filter tube on the one hand and the Archimedean snail revolving in it on the other hand are electrically isolated from each other and used as electrodes to form one on the Suspension or dispersion between the filter tube and the screw acting electrical And the Archimedes' snail, which is essentially made of metal in the area of the circumference of their screw flight walls made of elastic insulating material, in particular an elastomer, and one through a perforated tubular sleeve has formed hub, the interior of which with the suction side of the eccentric screw pump communicating and which has approximately the same diameter as the cylindrical Housing of the eccentric screw pump arranged in alignment with it and a adjoining high-pressure hose line, during which the filter tube is formed Hollow cylindrical body large connection openings on its two end faces and is enclosed by a type of cage, which is formed by at least two frames is formed, the planes of which intersect in the filter tube axis, on the filter tube and or the cage frame differently directed SpAl and / or driving nozzle for separated and / or pressure medium flows are provided in groups which can be switched on and off, according to the patent .... (Registration P 21 28 95o.5), characterized in that the cage of a enclosed at a distance from the filter tube and concentrically to this arranged jacket is, on which the eccentric screw pump and the high pressure hose are at a distance the surrounding outer hose made of a rigid plastic film is connected, and that a part of the nozzles which can be charged with a pressure medium are a3 recoil propulsion nozzles formed and in the annular space between the outer hose and the eccentric screw pump or the inner high pressure hose, which formed a water shield by an end wall arranged at a distance from the propellant nozzles between the two hoses are bounded by one by a hydraulic or a pneumatic one Pressure medium held under high internal pressure annular plastic bubble formed which is parallel to its axis of one provided with a pressure relief valve Passage opening is penetrated for the content of the water shield. 2. Device according to claim 1, characterized in that a part of the nozzles, which can be charged with a pressure medium, on the open, front end face End of the device is arranged conically inwardly directed so that through this a high pressure jet mill is formed. 3. Device according to claim 1 and / or 2, characterized in that that the front end of the annular space between the filter tube and the it concentrically surrounding jacket with an annular, sieve-like or lattice-like Collecting basket is provided. 4. Device according to one of claims 1 -), characterized in that that the plastic bubble delimiting the water shield with an additional closable serving as a manhole is provided axially parallel passage opening. 5. Device according to one of claims 1 - 4, characterized in that that at the inlet end of the eccentric screw pump a coupled with its rotor, is arranged up to reaching into the interior of the filter tube entry screw. Blank page