DE102010029826A1 - Screw extruder for separation of liquid out of suspension, preferably slurry or fibrous material, comprises screw shaft, which is rotated in cylindrical shell and presses suspension through annular gap from inlet opening to outlet opening - Google Patents

Abstract

Screw extruder for separation of liquid out of a suspension, preferably slurry or fibrous material, comprises a screw shaft (1) rotating preferably in a cylindrical shell (2), where the suspension is pressed through a annular gap (3) formed between the shell and the screw shaft, from an inlet opening (4) to an outlet opening (5). Liquid discharge openings are provided in the area of the annular gap. Multiple screw shafts promote the suspension from respective at least one separate inlet opening to a common outlet opening.

Description

The invention relates to a screw press for separating liquid from a suspension, in particular sludge or pulp, with at least one, rotating in a preferably cylindrical shell screw shaft, wherein the suspension by an annular gap formed between the shell and the screw shaft from at least one inlet Outlet opening is pressed and provided in the region of the annular gap Flüssigkeitsabführöffnungen.

Such dewatering devices have been known for a long time and are used successfully in the thickening of pulp suspensions in machines for producing a fibrous web.

Steam is often added to aid fabric treatment. The vapor pressure then lies on the discharge side in the screw press.

For a high consistency at the outlet but usually also a high pressure is required, which leads to a significant load on the bearings and the other components in the screw press.

The object of the invention is therefore to reduce the load on the components in particular the storage of the screw press, without affecting the efficiency of the drainage.

According to the invention, this object is achieved in that a plurality of screw shafts promote the suspension of at least one separate inlet opening to a common outlet opening. Ideally, the power flow to the outlet opening almost rises. This considerably reduces the axial load on the bearing of the worm shafts.

At least two screw shafts should have approximately opposite directions of conveyance.

With regard to an axial balance of forces and thus a minimization of the bearing load, however, it is of particular advantage if the screw press has two, preferably on a common axis line and mutually promoting screw shafts.

The machine cost can still be significantly reduced by the fact that the two worm shafts are driven by a common drive. To minimize the production costs, it may be advantageous if both screw shafts combined, d. H. be made in one piece.

However, better control of the suspension flows to the common outlet opening is possible if both worm shafts have separate drives.

For the uniform feeding of pulp, it is furthermore advantageous if at least one worm shaft is associated with a plurality of inlet openings.

To control the suspension flows to the outlet opening, it is advantageous if the suspension is conveyed from a controllable pump or via an overflow screw or via a controllable valve to the inlet opening and / or the pressure of the suspension in front of the common outlet opening via counter-pressure elements, in particular via flaps, brake pads or Brake rings is changeable.

A change in the pressure of the suspension in front of the outlet opening is possible, in particular, via a change in the thickness of the annular gap in this area or via a hindrance to the movement of the suspension.

It is advantageous if the pressure of the suspension of several screw shafts, which promote the suspension to an outlet, is separately controllable.

As a result, not only reduces the axial load of the bearings of the screw shafts but it also reduces the cost of a seal to prevent steam leakage in the region of the outlet opening, because the seal is made on the dewatered material itself.

The invention will be explained in more detail below with reference to several exemplary embodiments. In the attached drawing shows:

1 a schematic cross section through a screw press and

2 : a different screw press.

The screw presses treated here are used for dewatering a pulp suspension, as used in machines for producing a fibrous web.

The screw presses consist of two screw shafts 1 , each in a cylindrical jacket 2 are mounted rotatably and thereby an annular gap 3 form. The pulp suspension is separated from one or more inlet 4 to a common outlet opening 5 between auger 1 promoted, the width of the annular gap 3 to the outlet opening 5 decreases.

This is the worm shaft 1 from a cone-shaped drum 9 formed on which a single or multiple flight helix 10 is appropriate.

At the exit end of the worm shaft 1 there is a counter-pressure element 12 For example, in the form of a ring, which impedes the flow of pulp suspension and thus provides for the pressure build-up. About a change in position of the ring can be easily, such as in the EP1586439 described as well as the width of the annular gap 3 through which the pulp suspension flows control. Instead of this brake ring and radially and / or axially adjustable brake pads or flaps can be used.

To remove the liquid have the coat 2 , rarely as an alternative or in addition but also the drum 9 Flüssigkeitsabführöffnungen.

When turning the worm shaft 1 The pulp suspension is continuously from the inlet port 4 to the outlet opening 5 and at the same time against the counter-pressure element 12 pressed. In this case, the liquid pressed out of the pulp suspension is discharged via the liquid discharge openings from the screw press. As the pulp suspension against each other to the outlet opening 5 sometimes it can also be applied to counter-pressure elements 12 be waived.

After the counter-pressure element 12 can drain the dehydrated pulp suspension through the outlet port 5 be dissipated.

The worm shaft 1 is preferably on both sides in bearings 8th . 13 held rotatable and by a drive 6 driven.

It is essential in all designs that multiple worm shafts 1 the suspension of one or more separate inlet openings 4 to a common outlet opening 5 promote.

This causes the bearing loads on the worm shafts 1 significantly reduce and no shaft seal at the outlet 5 is necessary. In the 1 shown screw press has two on a common axis line 11 horizontal and mutually supporting screw shafts 1 , For this purpose, the Schneckenwendel 10 both worm shafts 1 aligned so that the pulp suspension from the, lying at both ends of the screw press inlet openings 4 between the two worm shafts 1 lying outlet opening 5 is encouraged.

To simplify the design are the drums 9 both worm shafts 1 coupled together or made in one piece. Furthermore, the storage 13 the drums 9 between the worm shafts 1 omitted, especially if they are relatively short and therefore sufficiently stable.

It is also due to the coupling or integral design of the drums 9 possible, this only via a drive 6 to drive, which means a considerable saving.

Nevertheless, in order to be able to control the suspension flows, these are controlled by valves 7 to the inlet openings 4 directed. In this way, the axial load of the bearings of the screw shafts can be 1 steer and distribute evenly. The control variable for the suspension flows to the inlet openings 4 may be the torque or the axial bearing load.

As in 1 To see, it may as well be beneficial if a worm shaft 1 several inlet openings 4 Has.

In contrast, the worm shafts 1 according to 2 separated, stored separately and driven. The two worm shafts 1 can be operated as two separate screw presses, the advantage of a common discharge is maintained.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1586439 [0022]

Claims (8)

Screw press for separating liquid from a suspension, in particular sludge or pulp with at least one, in a preferably cylindrical shell ( 2 ) rotating worm shaft ( 1 ), wherein the suspension by a between the jacket ( 2 ) and the worm shaft ( 1 ) formed annular gap ( 3 ) of at least one inlet ( 4 ) to an outlet opening ( 5 ) is pressed and in the region of the annular gap ( 3 ) Flüssigkeitsabführöffnungen are provided, characterized in that a plurality of screw shafts ( 1 ) the suspension of at least one separate inlet opening ( 4 ) to a common outlet opening ( 5 ). Screw press according to claim 1, characterized in that these two, preferably on a common axis line ( 11 ) lying and against each other promoting screw shafts ( 1 ) owns. Screw press according to claim 2, characterized in that the two worm shafts ( 1 ) from a common drive ( 6 ) are driven. Screw press according to claim 2, characterized in that the two worm shafts ( 1 ) separate drives ( 6 ) to have. Screw press according to one of the preceding claims, characterized in that at least one screw shaft ( 1 ) several inlet openings ( 4 ) assigned. Screw press according to one of the preceding claims, characterized in that the suspension of a controllable pump, via an overflow screw or via a controllable valve ( 7 ) to the inlet opening ( 4 ). Screw press according to one of the preceding claims, characterized in that the pressure of the suspension in front of the common outlet opening ( 5 ) is changeable. Screw press according to claim 7, characterized in that the pressure of the suspension of several screw shafts ( 1 ), which promote the suspension to an outlet, is separately controllable.

Images