AT515250A1 - Screw press for dewatering wet material - Google Patents

Abstract

A screw press for dewatering wet material with a press screw (2) connected to an inlet for the wet product is described, whose shaft passes through a screen basket (12) continuing the screw housing (7), to which a storage device (21) opens (FIG. 17) for the dewatered Gutstrang. In order to create advantageous design conditions, it is proposed that the screw shaft (3), which is hollow in the region of the screen basket (12), forms a screen drum (23).

Description

The invention relates to a screw press for dewatering wet material with a press screw connected to an inlet for the wet product, the shaft of which passes through a screen basket continuing the screw housing, to which a dewatering device opening into a crop discharge follows for the dewatered material strand.

For dewatering of screenings, for example, from wastewater treatment, the treatment of production waste or plastic waste, it is known to use screw presses in which the wet material to be dewatered is pressed with the aid of a press screw in a screw housing continuing Siebkorb at the output of a storage device for connected to the dewatered Gutstrang. This stowage device results in a corresponding delivery resistance, so that a pressing pressure on the wet material can be exerted on the wet material with the effect that the liquid adhering to the wet material is discharged via the screen basket to the outside via the press screw within the screen basket interspersed by the screw shaft. The dewatered Gutstrang is then dropped over a subsequent to the storage device Gutaustrag in a collection container. The disadvantage of these known screw presses is, above all, that a considerable use of energy is required for the drainage in order to be able to build up the required pressing pressure within the strainer basket. Despite the application of comparatively high compression pressures within the strainer basket, the degree of drainage remains unsatisfactory.

The invention is therefore based on the object, a screw press for dewatering wet material in such a way that with a relatively low energy consumption, a high degree of dewatering can be realized.

Based on a screw press of the type described above, the invention solves the task by the fact that the hollow shaft in the form of a sieve basket forms a sieve drum.

By this measure, a drainage of the Gutstrangs is ensured not only through the screen basket radially outward, but also within the strainer through the drum of the hollow screw shaft radially inwards, whereby the drainage performance is significantly improved, because the average way, the Liquid must be taken through the pressed Gutstrang, is shortened. Starting from a central region of the guided between the outer screen basket and the inner screen drum under a pressure, hollow cylindrical Gutstrangs yes, the liquid is displaced on the one hand radially outward and on the other hand radially inward. It can therefore be achieved despite a lower compression pressure and thus a comparatively low energy requirement, an increased degree of dewatering.

In order to improve the drainage of the wet material used, the screen basket may be preceded by a dewatering chamber with a screen casing extending the screw housing up to the screen basket, the pressing screw opening into the dewatering chamber having a separate conveying section between the dewatering chamber and the screen basket. The pre-dewatering made possible in the dewatering chamber upstream of the screen basket can be carried out with a lower pressure because an increased pressure can be built up in the transitional area to the screen basket to the pre-dewatered wet material in the screen basket area in conjunction with the damming device via the separate conveying section of the press screw. This increase in the pressing pressure in the region of the screen basket can additionally be assisted by the fact that the separate conveying section of the pressing screw has an outlet end with a reduced pitch.

The liquid forced out radially inwards through the sieve drum can be removed in a simple manner through the hollow worm shaft. Particularly advantageous construction conditions arise in this context, when the hollow screw shaft receives over the length of the drum and the accumulating device extending, coaxial discharge tube, leaving an annular gap in the region of the end facing the accumulation device in flow communication with the flow tube, in the area the opposite end, however, is closed at the front. According to these measures, the separated from the Gutstrang by the sieve drum liquid in the annular gap between the hollow screw shaft and the discharge pipe is passed through the region of the storage device before it enters the discharge pipe and flows through the discharge pipe into the hollow screw shaft, through which the liquid then is discharged in the region of the shaft end. Through this liquid guide the worm shaft is cooled in the area of the storage device, so that the heat load of the worm shaft is limited in this subsequent to the screen drum storage area. Due to the pressing pressure and the consequent friction between the material strand and the worm shaft can otherwise result in significant heat loads on the worm shaft.

If the press screw is designed to be more continuous, then the product feed can be made more uniform by the press screw and thus the pressing pressure.

In the drawing, the subject invention is shown, for example. Show it

1 shows a screw press according to the invention for dewatering wet material in a schematic longitudinal section,

2 shows this screw press in a section along the line II-II of FIG. 1 on a larger scale,

Fig. 3 is a section along the line III-III of FIG. 1 also on a larger scale and

4 shows the press screw in the region of the discharge end of the delivery section between the dewatering chamber and the screen basket in an enlarged side view.

The illustrated screw press for dewatering wet material has a frame 1, which receives a press screw 2. The hollow worm shaft 3 is rotatably supported by end bearings 4 and 5 in the frame 1 and is driven by a geared motor 6, which is flanged to the frame 1. The press screw 2 is arranged in a screw housing 7, which is connected on the feed side of the press screw 2 to a hopper 8. The press screw 2, which is provided with two screw flights 9, first flows into a dewatering chamber 10, which has a screen casing 11 which continues the screw casing 7. At this dewatering chamber 10 finally in extension of the screen shell 11 to a screen basket 12, wherein in the transition region of the dewatering chamber 10 to the screen chamber formed in the region of the screen basket 12 13, a separate conveyor section 14 of the screw press 2 is provided. Both the screen jacket 11 of the dewatering chamber 10 and the screen basket 12 of the screen chamber 13 are provided above a collecting trough 15 for the dewatering liquid, which drains via a drain 16 from the sump 15.

To the screen chamber 13 is followed in the conveying direction by a storage device 17 for the dewatered Gutstrang. This storage device 17 has two with respect to the worm shaft 3 opposite housing shells 18, which are hinged according to FIG. 1 on the frame 1 in the region of the screen basket 12 via parallel pivot axes 19 and overlap each other along the longitudinal side, as shown in FIG. 2 can be removed. The housing shells 18 are resiliently acted upon by actuating drives 20, in the exemplary embodiment via bellows cylinders, so that a ring space tapering in the conveying direction of the material strand results between the housing shells 18 and the worm shaft 3. The consequent conveying resistance allowed in the screen chamber 13 a corresponding pressure build-up for

Drainage of the Gutstrangs. The storage device 17 opens into a Gutaustrag 21 over which the dried material is dropped. For better discharge of the dried Gutstrangs the worm shaft 3 is provided in the region of Gutaustrags 21 with driving wings 22, which loosen the emerging from the storage device 17, still pressed Gutstrang.

In contrast to conventional screw presses, the hollow screw shaft 3 forms in the region of the screen chamber 13 a screen drum 23, via which liquid can be removed from the wet material also radially inwards, which considerably improves the drainage of the wet material. The liquid draining radially inwards over the sieve drum 23 from the product strand to be drained passes into an annular space 24 between the hollow worm shaft 3 and a discharge tube 25 inserted coaxially into the worm shaft 3. The annular space 24 is closed on the side of the sieve drum 23 and is within the range the opposite, the bearing point 5 associated end via passage openings 26 with the interior of the discharge pipe 25 in fluid communication, so that the liquid discharged via the drum screen 23 first flows through the annular space 24 before it can flow through the discharge pipe 25 back into the hollow worm shaft 3, from which it flows off at the end via an outlet opening 27 into the drip pan 15 or the drain 16. The liquid discharged through the sieve drum 23 can thus be advantageously utilized for cooling the worm shaft 3 in the region of the storage device 17.

As can be seen from FIG. 4, the screw flights 9 of the conveying section 14 of the pressing screw 2 are provided with an outlet end 28 which has a smaller pitch than the remaining part of the screw flights 9, whereby the pressure build-up within the material strand in the region of the screen chamber 13 is improved becomes. The axial promotion of Gutstrangs is supported by axially parallel conveyor bars 29, which are provided both on the inside of the screen shell 11 of the dewatering chamber 10 and on the inside of the screen basket 12.

Claims (5)

Patent Attorneys Dipl.-Ing. Helmut Hübscher Dipl.-Ing. 1. Winch press for dewatering wet material with a press screw (2) connected to an inlet for the wet product, the shaft of which passes through a screen basket (12) which continues the screw housing (7) which connects to a Gutaustrag (21) opening stowage device (17) for the dewatered Gutstrang, characterized in that in the region of the strainer basket (12) hollow screw shaft (3) forms a sieve drum (23). 2. Screw press according to claim 1, characterized in that the sieve basket (12) is preceded by a drainage chamber (10) with a screw housing (7) to the strainer basket (12) extending Siebmantel (11) and that in the dewatering chamber (10). opening press screw (2) between the dewatering chamber (10) and the screen basket (12) has a separate conveyor section (14). 3. screw press according to claim 2, characterized in that the separate conveying section (14) of the press screw (2) has an outlet end (28) with a reduced pitch. 4. screw press according to one of claims 1 to 3, characterized in that the hollow screw shaft (3) over the length of the screen drum (23) and the storage device (17) extending, coaxial discharge pipe (25) receiving an annular gap, which in the region of the stowage device (17) facing the end of the flow tube is in flow communication, in the region of the opposite end, however, the end face is closed. 5. screw press according to one of claims 1 to 4, characterized in that the pressing screw (2) is designed to be more continuous. Linz, January 13, 2014 ABZ Zierler Ges.m.b.H. &Amp; Co. KG by: / Dl Helmut Hübscher / (electronically signed)