DE1043958B - Vibrating centrifuge - Google Patents

Description

GERMAN

The invention relates “to a vibrating centrifuge with a centrifugal drum which is mounted so that it can vibrate axially ^{in the centrifuge housing 1 and is connected to a vibration generator.}

The centrifugal drum of such, vibratory centrifuge can 'in this case with a unit swing in the same direction and with its mass a two be coupled ¹ -massensdhwingsystem forming counter-mass which is resiliently connected in vibration direction with the centrifuge frame. The mass of the centrifugal drum is then elastically connected to the centrifuge frame in the same way as the violin mass, but in the opposite direction.

In such a vibrating centrifuge, the drum shaft is in a driven hollow drive shaft that cannot be moved in the centrifuge frame guided axially displaceably and by means of a through a longitudinal slot of the hollow shaft Wedge connected to a collar loosely mounted on the hollow shaft. There is also one of the Sohlettdertrommel corresponding counter-mass, on which a hydraulic vibration generator acts, on the hollow shaft axially displaceable, but arranged non-rotatably with respect to this.

A two-mass oscillating system is formed by two helical springs arranged on the hollow shaft on opposite sides against the centrifuge frame and against the collar or the counter mass, as well as a coupling coil spring provided between the collar and the counter mass, so that in the event of periodic excitation the counterweight of the centrifugal drum is made to vibrate by means of the clutch damper spring. The directions of movement of both masses are opposite and therefore do not exert any forces on the centrifuge foundation ¹ .

A centrifugal drum that is conically widened towards the discharge end is provided, in which the discharge of the centrifugal material is effected without a special discharge device solely by the inclination of the drum shaft and the swinging movement of the centrifugal drum supporting the sliding of the centrifugal material on the drum shell. Such centrifuges work quite satisfactorily with centrifuged materials, the flowability of which is adapted to the inclination of the drum shell. On the other hand, when centrifuging hard-to-filter centrifugal materials which leave the centrifugal drum faster than desired, the desired high degree of dewatering is often not achieved, so that repeated centrifuging ¹ to remove the residual moisture is necessary. On the other hand, in the case of centrifuged goods, which because of their easy filterability, only remain in the centrifugal drum for a short time, becomes a vibrating centrifuge

Applicant:

Krauss-Maffei Aktiengesellschaft,
Munich-Allach

Dr.-Ing. Thomas Wirth, Dachau,
has been named as the inventor

Need to achieve the desired degree of water removal, the possible throughput of the vibrating centrifuge is not used. In particular, prepare some centrifuged goods, such as sugar products and citrates, which are in the warm, thin-bodied state in the Centrifugal drum are entered and! Partially solidify in this when it cools, insofar as large Difficulties as they clogged the centrifugal drum by sticking to the drum shell tend.

Although it can be achieved by using different, each of the properties of the material to be spun in the inclination of the drum shell adapted spinning drum the required throughput speed in each case - Density of the centrifugal material can be achieved, however, such a measure would require the purchase of a Variety of centrifugal drum · !! condition apart from changing the centrifugal drums requires a lot of assembly and time. It would also be conceivable by changing the vibration amplitude to change the flow rate of the material to be centrifuged ·, however, you can use this Measure only loosening up the centrifuged material, but not the conveying speed of the Material to be centrifuged can be significantly influenced.

There are also centrifuges with a drum shell that is moved quickly to and fro and extended towards the discharge end and an axially immovable sliding floor arranged in the region of the narrow end of the drum. The frequency of this back and forth movement of the drum shell, however, is only a fraction the oscillating motion of a vibrating centrifuge, while the amplitude of the drum vibrations The pusher centrifuge is a multiple of the bucket vibrating centrifuge. This difference the Frequency and amplitude for both types of centrifuge causes the former to: spin well -through them Effect of centrifugal force initially on the drum -

«09 · 678/612

Claims (2)

inner jacket is thrown as well as compressed and under the influence of the compression pressure firmly adheres to the drum shell. It can be due to His Compaction show only a low degree of dryness, apart from the fact that it is also through the pressure of the push floor when intermittently; Discharge torn from the drum shell and in his crystalline structure is damaged. In contrast, with a vibrating centrifuge, the centrifugal material comes out under the influence of centrifugal force practically, not to stick, because at the moment of its precipitation a new vibration impulse already causes its separation. The mass of the material to be thrown is hence in itself constantly in motion, making it a Loose texture, which results in a high degree of dryness. In addition, the Vibrations of the sieve jacket a continuously flowing discharge with high protection of the grain structure. Thus there is even a bed that is quickly moved around Drum shell of the known pusher centrifuges compared to slowly vibrating drum shells vibrating centrifuges do not have a common border area in which both types of centrifuge touch. The object of the invention is to provide measures on vibrating centrifuges of the type mentioned at the beginning Kind of hit, through, the slingshots of different Consistency can be hurled in an economical manner. To solve this problem it is proposed according to the invention that in the centrifugal drum with at least one cylindrical drum part one of their axial oscillating motion of unaffected S dhiubbboden is arranged rotatably in a known manner in the cylindrical drum part. These measures do not only relate to the invention The underlying task is solved in an expedient manner, but also through: the interaction the axially oscillating. Centrifugal drum with the axially immovable sliding floor regardless of the inclination of the drum shell a clear, continuous feed movement of the one exhibiting a high degree of dryness The centrifugal material causes the discharge end of the centrifugal drum and the carrier speed to an ^ - 4-5 fit, to the respective Schileudeirgutbesdiaffeinheiit im wide limits caused by the change in the oscillation frequency or amplitude. Farther is not only brought about an unrestrained and continuous discharge of the centrifugal material for encrusting and sticking to the drum head tend, but rather as a result of the push floor advance at the same time also esa breaking up of the encrusted surface and thus penetration! of possibly for the application of bathed treatment, in particular Decfcmedien favored. In the end! can advantageously be a cylindrical Schleudeirfcronimel can be used, the manufacturing cost of which is lower than that of a conical drum '. In the drawing is an exemplary embodiment of the Subject of the invention · in a longitudinal section through a part of a Schleucfertromniel having Vibrating centrifuge shown schematically. A vibrating centrifuge, the part that excites the centrifugal drum vibrations is not shown in the drawing, has a cylindrical centrifugal drum 1 with a perforated drum shell 2 which is lined with a sieve insert 3 ″ Centrifuge housing 4 arranged inlet tube 5 is provided which protrudes into the central opening 6 of an inlet funnel 7. According to the invention, a push floor 8 of the usual shape is arranged in the centrifuge chamber, in the middle of which a shaft 9 is attached instead of a reciprocating push rod the inlet funnel 7 and the inlet pipe 5 are passed through it and when it emerges from its elbow-like part 10 it is sealed by a stuffing box 11 to prevent the centrifugal material from escaping from this breakthrough by means of a longitudinal ball bearing 12 and a ball Lquarlager 13 rotatably and immovably mounted in this. The shaft 9 passes through the shoe bottom 8 and is non-rotatable with its other square end 14 in a drum shaft 17 or in its bore 18 corresponding to the square of the shaft 9, but axially displaceable in a drum shaft 17 inserted centrally in the drum end wall 15 or in the drum hub 16 ge £ uh! rt. The inlet funnel 7 is fastened to the shoe bottom 8 in a known manner by means of webs 19. The shoe bottom 8 and the inlet funnel 1 therefore take part in the rotation of the drum. During the centrifuging process, the centrifugal drum 1 is set in rapid reciprocating motion and in rotation by means of the drum shaft 17, whereby the! the inlet pipe 5 brought in and through the inlet funnel 7 in front of the push floor 8 siöh deposited on the outer edge 20 of the Söhubbödens 8 during the drum movement against the outward direction of travel and is pushed on the drum shell 2 to the discharge end. When the centrifugal drum 1 moves in the opposite direction, a free annular space is created on the drum shell between the advanced Söhleudergutschiidnt and the push floor & in a known manner, into which the inlet flows; The tensile force exerted on the while 9 of this push floor 8 while the material is being pushed forward is absorbed by the longitudinal ball bearing 12 « The invention is not based on this embodiment besdfrfatikfc So, instead of the zylmdrisßhen Schleuidertrummell a-ucih a conical to the Carrying out advanced. Spin drum used will. The brushed floor 8 can be used Part of the Trömmeimantels 2 zyündriseih formed to prevent the material being thrown from entering the Space behind the floor S to be avoided. Even kärtn the Tromiöelmantei2 atif its entire length be conical and the fall of the centrifugal drum ί between the shell of the push floor 8 and the Trommelmanfei 2 resulting gap by means of "one on the one hand at the edge of the Äuffen! 2 * 0 of the push floor 8 and others-soap in the · distance of the maximum Hubes' dir Schileuder-pious ί on the Trümmelmanfei 2 attached King cuff made of elastic Material to be sealed. Furthermore, this can also be the S dhileuder drum 1 enclosing centrifuge housing-4 ,. as shown in the drawing, be gastight äüsgiebildef to the centrifugal material under the exclusion of air to be able to spin. Rt * E Nί A N s ¥ E ti fi; ScE ': I. Schiwingzenfrifuge with one in the centrifuge housing centrifugal drum mounted so that it can swing axially and connected to a vibration generator, dadurcil · characterized that in the Sdhleuiderfrommei (1) with at least one cylindrical Drummed! f one of their axial Swinging with no influence on the strainer bath (8) in a manner known to siicttu 'rotatable in the cylindrical Drum part is arranged. 2. vibrating centrifuge according to claim 1, characterized characterized in that the Scnttbboden (8) on one The shaft (9) penetrating the south ejector chamber is arranged, one end of which is rotatable, however axially immovable in the centrifuge housing (4) and axially displaceable with the other end, however is non-rotatably mounted in the drum hub (16). Considered publications:
German patent specification No. 962 058. 1 sheet of drawings