DE202017105625U1 - Device for separating the constituents of a liquid containing solids - Google Patents

Abstract

Device (1) for separating the constituents of a liquid containing solids, comprising a housing (2) with an inlet (3) for the supply of the solids-containing liquid and a press zone formed by a plurality of pneumatically or hydraulically controlled membrane flaps (4) closable outlet (5) for the regulated discharge of the solids deposited from the liquid, wherein in the housing (2) further comprises a sieve (6) having a rotatably disposed therein by a drive (7) in rotation offset pressing screw (8) for separation the solid is taken up by the liquid components of the liquid to be separated and the liquid components separated by the sieve (6) are discharged via a drain (9), characterized in that the inner lateral surface (10) of the outlet nozzle (5) designed as a press zone opposing at least one of the outlet movement of the solids cake en, having a raised projection in the form of a spur (11).

Description

The invention relates to a device for separating the components of a liquid containing solids.

Devices for separating the components of a liquid containing solids of the type in question consist of a housing, with an inlet for the supply of solids containing liquid and designed as a press zone and closed by a plurality of pneumatically or hydraulically controlled membrane flaps outlet for the regulated discharge of the liquid deposited solids in the form of solid particles or preferably as a solid cake. In the housing, for example, in press screw separators, a sieve with a rotatably arranged therein, offset by a drive in rotation press screw for separating the solid from the liquid components of the liquid to be separated is added. The separated by the sieve, liquid components of the liquid are discharged through a drain and used or disposed of.

A significant problem in the processing of solids containing liquids is the different composition of the media to be processed. For example, it makes a significant difference whether bovine manure or pig manure is to be processed, or these media differ significantly from liquids containing, for example, plastics. The separation of the liquid constituents from the liquid results in the previously mentioned solid cake, which can be further used in biological waste, for example in biogas plants or as fertilizer.

However, this solid cake still has too many liquid components unsatisfactorily in known devices for separating the components of a solids-containing liquid. For this purpose, there are different approaches, each relating to the generation of the ejection movement of the solids cake counteracting pressure, which is influenced by the closing devices of the outlet. In the process, the aim to increase the content of the solid cake to dry matter through the design of the outlet nozzle and here in particular of the membrane flaps, and thus to reduce its liquid portions conversely, has always been pursued so far.

So is for example from the DE 698 06 346 T2 a closure of the outlet is known, which consists of a spring-loaded locking device in the form of a the outlet port opening occlusive wedge.

The EP 2 109 591 B1 describes a solution in which the outlet nozzle has circular segment-like, elastically deformable elements made of plastic with a metal insert, which are separated by slots. Due to the special material properties of the plastic with a metal insert it succeeds in countering the solids cake with a defined pressure, which means that the output of the solid cake only takes place when it has a certain dry matter.

Another variant is in the DE 19 31 474 A1 disclosed. Here, the outlet consists of a plurality of trapezoidal flaps, each flap is coupled to a compressed air cylinder, which generates the pressure already mentioned above, so that the outlet is opened only when the solid cake has a sufficient dry matter content. This solution is complex because of the large number of individual flaps and the required compressed air cylinder and also prone to failure.

Similar statements also go beyond the DE 20 2007 007 606 U1 and the DE 20 2010 001 759 U1 out. In this case, individual flaps of the outlet nozzle are each acted upon by a hydraulic cylinder or a spring with a pressure that can only be overcome by the solid cake, if this has a certain dry matter.

The known solutions definitely lead to acceptable results. Nevertheless, there is an urgent need to be able to determine the dry matter content of the solid cake as accurately as possible and thus dissipate liquid ingredients in an improved manner.

The invention has for its object to provide a device for separating the components of a liquid containing solids available, in which the discharged solids have the highest possible dry matter content and which is as simple as possible.

The invention solves this task with the features of claim 1. Further embodiments of the invention are the subject of the dependent claims.

A device for separating the constituents of a solids-containing liquid, comprising a housing, having an inlet for the supply of the solids-containing liquid and a press zone formed by a plurality, pneumatically or hydraulically controlled membrane flaps closable outlet for the regulated removal of solids deposited from the liquid, wherein in the housing a sieve with a rotatably disposed therein, set by a drive in rotation displaceable press screw for separating the solid from the liquid components of the liquid to be separated and the liquid constituents separated off by the sieve are discharged via a drain, the invention has been developed such that the inner lateral surface of the outlet nozzle formed as a pressing zone has at least one outlet movement of the solids cake having a raised projection in the form of a spur.

In the present case, the inventive idea consists, quite generally speaking, in providing uplifting projections on the inner lateral surface of the outlet nozzle, which resist the movement of the solids cake. According to the invention spurs are used for this, which consequently protrude into the interior of the outlet. This makes it possible in a simple and surprising manner to increase the dry matter content of the solid cake and thus to influence it in a positive manner, without having to provide structurally complex changes to the membrane flaps or the closure of the outlet.

According to a first embodiment of the invention, the spur can be formed by a survey of the inner circumferential surface, that is, be formed as a survey of the inner circumferential surface or used in the inner circumferential surface. In the case of a spur inserted into the inner lateral surface, it is possible to fix it by mounting on the inner lateral surface or, for example, to provide a material connection with the inner lateral surface.

A particularly simple embodiment represents a spur having a cam or rod shape. The cam can already be formed in the production of the outlet or later fixed to the inner surface. A spur embodied as a rod can be inserted, for example, through a bore which is previously introduced into the lateral surface of the outlet nozzle designed as a press zone. The rod penetrates the lateral surface into the interior of the outlet nozzle.

In order to improve the dry matter content of the solid cake, it is also particularly advantageous if along the inner circumferential surface of the outlet nozzle several spurs are present. These can be arranged randomly or evenly distributed along the inner circumferential surface of the outlet.

Furthermore, it is possible according to an advantageous development of the invention to equip the spurs with different geometries. Consequently, the inner circumferential surface of the outlet nozzle may have spurs of various shapes.

In order to be able to adjust the dry matter content of the solid cake as accurately as possible and in dependence on the liquid to be processed, it is particularly advantageous if at least one spur is made adjustable with respect to its penetration into the interior of the outlet nozzle. If, for example, a rod-shaped spur is used, its penetration into the interior of the outlet nozzle determines the resistance which it opposes to the movement of the solids cake, and thus its dry matter content. If the penetration depth is increased, so does the resistance.

To realize the adjustability of the spur, both a mechanical, a pneumatic or a hydraulic adjusting device can be used. The choice of the agent depends on the effort and the required accuracy of the dry matter content of the solid cake.

A significant solution of the invention is also to be seen in that at least one spur has a sensor or is itself a sensor. By means of the sensor used various values can be detected at the outlet port of the device for separating the constituents of a liquid containing solids. For example, it is possible to use a sensor to measure the moisture content, volume, pressure or rate of travel of the solids cake. From the data obtained, it is possible to record exactly the dry matter content of the solids cake. In addition, the spur embodied as a sensor has the aforementioned advantages of generating an increased resistance within the outlet nozzle.

The invention will be explained in more detail with reference to the accompanying drawings. The exemplary embodiment shown here represents no restriction to the illustrated variant, but merely serves to explain a principle of the invention.

Identical or similar components are always denoted by the same reference numerals. In order to illustrate the operation of the invention, are only strong in the figures shown simplified schematic diagrams in which was dispensed with the components not essential to the invention. However, this does not mean that such components are not present in a solution according to the invention.

It shows:

1 : a device for separating the constituents of a liquid containing solids using the example of a press screw separator in partial section and in a side view,

2 a discharge port of a press screw separator designed as a press zone as a separate individual part and with closed membrane flaps and

3 : designed as a press zone outlet of a press screw separator 1 as a separate item, but with partially opened membrane valves.

The in the 1 The apparatus for separating the constituents of a liquid containing solids is a press screw separator 1 , This has a housing 2 on which the load-bearing construction of the entire press screw separator 1 forms. For feeding the solids containing and by the press screw separator 1 in solid and liquid components to be separated liquid is in the upper section of an inlet 3 , In the case 2 is also a sieve 6 taken in the one by a drive 7 in a rotational movement displaceable press screw 8th is added to separate the solid from the liquid components. The through the sieve 6 separated, liquid components are then over a drain 9 discharged and further processed or disposed of. Between the drive 7 and the screw press 8th is here to translate the speed of the drive 7 a gearbox 13 , At the drive 7 If the example shown is an electric motor. The end of the press screw in the conveying direction 8th is through an outlet 5 formed, whose opening by several along its circumference arranged, pneumatic or hydraulically controlled membrane flaps 4 is closed. In the lateral surface of the outlet nozzle 5 are distributed along its circumference, introduced several holes in each of which a spur 11 is inserted. The spurs 11 protrude as raised projections from the inner circumferential surface 10 the outlet nozzle 5 emerge and put the solid cake through the press screw 8th in the direction of the outlet 5 is moved, a resistance. This resistance leads to a significant improvement in the dry solids content of the solids cake. At least one spur is used to measure the moisture content of the solids cake 11 equipped with at least one sensor, which together with an electronic control unit, a regulation of the hydraulic or pneumatic membrane valves 4 allows. This has the consequence that the membrane valves open only when the solid cake has a desired dry matter content.

The 2 shows a designed as a press zone outlet 5 a press screw separator 1 as a separate item and in a spatial view. Here are the existing membrane valves 4 shown in a closed state. In the 3 is the same outlet 5 shown in a side view. The 3 illustrates the membrane valves 4 the outlet nozzle 5 in a partially open position.

The outlet nozzle 5 initially consists of a base plate 14 along their circumference with a variety of individual mounting holes 15 is equipped to the outlet 5 on the press screw separator 1 to be able to fasten. In a central section of the outlet 5 go the base plate 14 in an outlet nozzle cylinder 16 over, which has a circular cylindrical shape in the present case. Along the circumference of the outlet stub cylinder 16 a plurality of bores are introduced, into which from the outside in each case a rod-shaped spur 11 is inserted, which is the wall of the outlet stub cylinder 16 completely penetrates and thus a raised projection on the inner surface 10 the outlet nozzle 5 forms. The upper limit of the outlet nozzle cylinder 16 represents a cover plate 20 that is with the base plate 14 over several spacers 24 connected is. On the top of a printing plate 17 are also several, distributed along its circumference arranged ram 18 put on, with each of the pestles 18 a compression spring 19 picks up on the pressure plate 17 opposite side at the bottom of the cover plate 20 supported. The pestles 18 however, penetrate the cover plate 20 each with a section immediately adjacent to a cam 22 is applied. The cam 22 is in the in the 2 and 3 Example shown a part of a bridge 21 in turn, on the outer surface of a joint 25 swiveling membrane flap 4 is fixed. Like from the 2 and 3 it can be seen has the outlet 5 along its circumference several identical, constructed membrane flaps 4 on.

The base plate 14 is with several hydraulic elements 23 fitted directly to the underside of the pressure plate 17 acting and upon activation, that is, by the extension of the hydraulic piston, the pressure plate 17 raise by a certain amount. This has the consequence that the pestles 18 against the force of the compression springs 19 through the cover plate 20 be moved through and thus against the cam 22 Act. In this way, a closing movement of the membrane valves 4 causes and is a regulation of the closing force of the membrane valves 4 possible.

LIST OF REFERENCE NUMBERS

1

screw extractor

2

casing

3

enema

4

diaphragm valves

5

outlet

6

scree

7

drive

8th

screw press

9

procedure

10

Inner surface area

11

spur

12

electronic control unit

13

transmission

14

baseplate

15

mounting holes

16

Auslassstutzenzylinder

17

printing plate

18

tappet

19

compression spring

20

cover plate

21

web

22

cam

23

hydraulic element

24

spacer

25

joint

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

• DE 69806346 T2 [0005]
• EP 2109591 B1 [0006]
• DE 1931474 A1 [0007]
• DE 202007007606 U1 [0008]
• DE 202010001759 U1 [0008]

Claims (11)

Contraption ( 1 ) for separating the constituents of a liquid containing solids, comprising a housing ( 2 ), with an enema ( 3 ) for the supply of the solids-containing liquid and designed as a press zone and by a plurality of pneumatically or hydraulically controlled membrane valves ( 4 ) closable outlet ( 5 ) for the regulated discharge of the solids separated from the liquid, wherein in the housing ( 2 ) a sieve ( 6 ) arranged with a rotatable therein, by a drive ( 7 ) in rotation offset press screw ( 8th ) is taken to separate the solid from the liquid components of the liquid to be separated and through the sieve ( 6 ) separated, liquid components via a sequence ( 9 ) are discharged, characterized in that the inner circumferential surface ( 10 ) designed as a pressure zone outlet ( 5 ) at least one of the outlet movement of the solids cake resistance, a raised projection in the form of a spur ( 11 ) having. Device according to claim 1, characterized in that the spur ( 11 ) a survey of the inner circumferential surface ( 10 ) or in the inner circumferential surface ( 11 ) is used. Device according to one of the preceding claims, characterized in that the spur ( 11 ) has a cam or rod shape. Device according to one of the preceding claims, characterized in that along the inner circumferential surface ( 10 ) of the outlet ( 5 ) several spurs ( 11 ) available. Device according to claim 4, characterized in that the spurs ( 11 ) indiscriminately or evenly along the inner circumferential surface ( 10 ) of the outlet ( 5 ) are arranged distributed. Device according to claim 4 or 5, characterized in that the spurs ( 11 ) have different geometries. Device according to one of the preceding claims, characterized in that at least one spur ( 11 ) with respect to its penetration into the interior of the outlet ( 5 ) is designed adjustable. Apparatus according to claim 7, characterized in that for realizing the adjustability of the spur ( 11 ) a mechanical, a pneumatic or a hydraulic adjusting device is present. Device according to one of the preceding claims, characterized in that at least one spur ( 11 ) has a sensor or is a sensor. Apparatus according to claim 9, characterized in that the sensor is adapted to measure the moisture content, the volume, the pressure or the speed of movement of the solids cake. Device according to one of the preceding claims, characterized in that the device is a press screw separator.

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