SE431064B - Arrangement for separation of liquid from a liquid mixed with particles and containing a rotating perforated drum with feed screw - Google Patents

Abstract

The present invention concerns an arrangement for separation of liquid 14 from a liquid mixed with particles and containing a rotating perforated drum 1, and which has on the inside a screwlike flange element 11 serving to feed the slurry along the drum 1 and following along with the rotational movement of the drum, whose flange 11 extends from the inside 3A of the drum shell in the direction of its centre 13. The invention enables effective separation of the liquid 14 from liquid mixed with particles. A portion A of the feed screw 11, which extends from the drum's inlet end along at least the entire lengthwise dimension of a supply arrangement 37, 38; 28, 30, 31 extending inside and along the drum, which is arranged to supply slurry 12 to the inside of the drum, has increasing flange height a, b, c, etc., calculated in the feed direction, i.e., the distance for the flange 11a, 11b, 11c, etc. in the direction from the drum shell 3 toward the centre 13 of the drum 1 increases, so that material accumulated between the flanges can be received with increasing quantity, reckoning in the feed direction along the dimension of said feeding arrangement in the interior of the drum 1, while at the same time separating liquid from the slurry 12 etc. through the flow openings 2. <IMAGE>

Description

2 » as shown in Figs. 2-4 with the associated supply device turned to different rotational positions, and _ Fig. 7 is a partial view of such a supply device. application to the drum and device shown in Fig. 1.

In the drawings, a liquid separation device is drum, which is applied to the invention, with the number 1. Drum 1 has flow openings 2, in the form of, for example, holes, gaps or net-like openings, such as in the case of cloths, which extend through the mantle wall of the drum 3. The drum 1 is at its one end partially closed by means of a preferably detachable end wall 4, and at the other end of the drum connect the jacket wall 3 to an end wall having the shape of a truncated cone Said end wall 5 delimits an outlet opening 6 in the narrower cone party. Connected to the end wall 4 is one in the feed direction countersunk pipe socket 7, which is arranged coaxially with the sieve drummans mantel 3.

In through the pipe socket 7 into the drum 1 extends a tubular supply device 8, which may be of prior art type or, as in the present embodiment, consists of such a device as shown in Figs. 1 and 7, respectively. in Figures 2-6.

The liquid separation drum 1 is supported by a numbers, preferably paired support rollers 9 resp. 10, som are arranged to run along their respective running paths 1A resp. 1B vid each end of the drum 1. Suitably the rollers 9, 10 may be height adjustable to allow adjustment of the drum 1 to the desired slope.

Inside the drum 1 a feeding device is arranged 11, which is intended for feeding the slurry 12, etc. as is supplied to the drum 1, along the drum 1 in its longitudinal direction. Food- the shaping device 11 has the shape of a screw flange 11, which extends radially from the inside 3A of the jacket 3 towards the drum center 13.

As can be seen from, for example, Figures 3 and 4, the screw 11 shows the rising flange height, calculated in the feed direction, along a substantial portion A of the drum 1, i.e. that the distance a, b, c and so on. for flanges 11a, 11b, 11c and so on. in the direction from the drum jacket 3 towards the center 13 of the drum 1 increases. Conveniently can the increase is chosen so that it becomes substantially constant from the beginning to the end of said section A, but there is also the possibility that SZOOI-Tšfí-O make sure that the flange height decreases step by step. Suitably said distance A approx. 2/3 of the effective length of the drum. The rise of the screw 11 can also be varied in the direction from the inlet 7 of the drum to its outlet 6 in the desired manner.

The screw 11 is terminated after said portion A with the flange height, with a portion B with preferably constant flange height. Suitably said constant flange height is equal to largest the flange height of lot A. The pitch of lot B is selected suitably smaller than for the portion A, as shown in Figs. 1, 2 and 4, to thereby act as an extended dewatering step for goods fed by means of the helical feeding device ningen ll.

The function of the one described above and in the drawings shown drum 1 with associated flange device 11 is according to : The slurry 12, which is fed to the drum 1 into its interior by means of the supply device 8, is effectively separated from liquid 14 on contact with the inner casing wall of the drum 3. Liquid 14 passes thereby through the perforations 2 in the jacket wall 3 and collecting placed in a container 15, which is located under the drum 1, from which the liquid 14 is discharged via an outlet pipe 16. The drum 1 is arranged rotated by means of, for example, a drive motor 17, which via a gear 18 by means of a drive gear 19 cooperates with a drive gear. gear ring 20, which is arranged along the circumference of the drum at the drum man's end wall 4, and drives the drum 1 in the same direction as the pitch of the helical flange device 11 extends, and indicated by arrow 19 in Figs. 5 and 6. Accumulated sludge ~ 12 are transported in the spaces between each other adjacent flanges, thanks to the pitch of the flange device 11, in the direction against the discharge opening 6 of the drum when rotating the drum 1, as stated above, and the slurry 12 is thereby effectively released from liquid 14. Thanks to rising height of the flange element 11 in direction towards the discharge opening 6 it is possible to receive one larger amount of slurry 12 etc. between two adjacent ones flange turns, the further from the feed opening 7 counted.

The liquid separation portion B of the flange element 11 drains the essentially completely dewatered goods, which are fed by means of the helical flange element 11, further before the dewatered cleaner 12A is discharged through the opening 6 for collection in a container, cleaning press or the like not shown in the drawings. .-. '. "' Û G3 {\ J CD (D (JJ In the flow openings 2 possibly accumulated material is removed by means of one against the drum jacket 3, on previously known pressed brush 20, which has a relatively rigid bristle, and a flushing tube directed towards the outer shell surface of the drum for supply seal of liquid. The brush 20 is stored at the storage device 21 resp. 22 rotatable at its respective free ends and supported suitably of a housing 23, a so-called splash hood, for the drum l.

The brush 20 is driven either by means of a separate drive. device or by the brush abutting against the drum jacket 3 and rotated with the drum 1. The cleaning is done by the brush penetrating into the perforations 2 of the drum jacket, which may be, for example circular or slit-shaped, and effectively cleans these from undesirable accumulations of, for example, pollutants.

Would the perforations of the drum jacket 2 still be and the amount of liquid in the interior of the drum will thereby increase the excess liquid to flow out in the direction of the arrow 24 in fig. 3 over the overflow drain formed by the pipe socket 7 which is located at a lower level than the lower edge of the outlet opening 6 of the drum in it opposite end; The excess liquid flows downstream in a collection container 25 and passed therefrom via an outlet line 26.

This liquid can be returned, for example, by means of a pump device 27. to the drainage device via the inlet line 8. A number of suitable sensors can then be arranged in connection to the overflow drain 7 to control the amount of slurry 12 supplied to the device.

During normal operation of the device, a good separating liquid 14 from the slurry 12 etc. provided the device and the dewatered cleaner 12A discharged through the opening 6 thereby becomes very dry.

The supply device 8 shown in Figs. 2-6 opens into an upwardly open tubular gutter-like inlet device 28, preferably with increasing volume in the feed direction, and which extends into and along the drum l about 2/3 of the length of the drum, i.e. substantially along the entire screw flange portion A. The end of said inlet device 28 is preferably formed by one in one direction from the bottom portion of the chute 28 towards the discharge opening 6 of the drum sloping end wall 29, which suitably has a greater height than the side edges of the gutter, and “along said side edges extends a flange 30 projecting in each direction from the gutter 28 8200232-0 resp. 31. Said flanges 30, 31 are located in close proximity to the inner jacket wall 3 of the drum and extends along the flange element ll. Due to said flange elements ll exhibiting rising flange height, calculated in the discharge direction, the two flanges 30, 31 preferably have a lateral distribution laterally therewith end of the chute 28 facing away from the discharge direction, and suitably the flanges 30, 31 are formed with gradually decreasing width seen in the feed direction, and as is clear from fig. 3 and 4. As shown in Figs. 5 and 6, the inlet device 28 is mounted rotatably about the shaft 32, which in the example shown falls with the center axis 13 of the drum.

Slurry supplied through the pipe 8 to the gutter 28 12 etc. passes along said flow flanges 30, 31 in direction of with 33 designated arrows, i.e. in the direction of the drum mantle wall 3 sideways. The dewatering of the slurry 12 is accomplished effectively by adding the bulk of the slurry to the side the mantle surface 3 of the drum 1 where there are no accumulations of liquid.

About 1/3 of the liquid from the added slurry flows through each at the arrow 34 denoted by the arrow marked flow point, at the setting of the supply device 28 with substantially uniformly set flow flanges 30, 31.

When turning the feeder 28 to the position shown in Fig. 6, in the direction of the arrows 35, the slurry 12 is essentially to be applied to only one side wall of the mantle surface 3 in the direction of the arrow 36. By applying the slurry 12 in substantially the same direction as the drum is rotated, such as shown in Fig. 6, a more efficient degree of purification is obtained for the genome the perforations 2 flowing through the liquid 14 than is the case upon application of the slurry 12 substantially against the rotation of the drum direction. in the case of reverse feed, however, one is obtained faster dewatering, which can sometimes be desirable, for example if several purification steps are present, but undesirable particles, such as fibers etc. can then also flow out together with the liquid 14 through the perforations 2.

The supply device used in the embodiment according to Fig. 1, and shown separately in Fig. 7, works differently against previous devices not in the case of the supplied the liquid with the undesired particles desired to be separated from the liquid, ND '820023 -0 without the added slurry etc. must be pressurized by means of for example a pump before it is fed through the pipe 8 into the drum 1.

Said tube 8 opens into a further tube 37, as for example has a versatile cross-sectional shape and which at its free end shows a gable cover 37A. Along said into and along the interior of the drum extending supply pipe 37 is enabled to at a desired distance from each other along the longitudinal direction of the tube 37 fasteners 38 in in the form of nozzles 38. Suitably nozzles 38 are arranged in a row on each side of said tube 37, so that they spread slurry 12 etc. in different directions, seen from the tube 37, on each other diametrically opposite sides of the drum jacket 3. Nozzles 38 with a suitable spreading pattern is then suitably selected after needs, and in the example shown, the nozzles 38 disperse slamming 12 in the form of elliptical-like fields 39, along which the slurry 12 spreads substantially uniformly. The nozzles _38, which at its respective one end has a threaded attachment. portion 38A, is screwed into, for example, openings on the tube 37 and is set to the desired position, so that the spreading field 39 ends up on desired place. Nozzles 38 with varying scattering fields 39 can also be applied and the nozzles 38 with elliptical spread can be rotated so that the longitudinal axis of each scattering field inclined towards and / or in the feed direction of the screw flange elements and / or across the same. More than one spreader tube 37 can also extend into and along the drum 1 and the distribution of nozzles 38 may then differ from the embodiment shown.

Spread the slurry 12 evenly along one elliptical spreading field on the mantle surface 3 of the drum is provided in the example shown by using dysphagic mouthpieces pieces 38, which at its respective discharge end 38B have a preferably V-shaped cut-out 40, which extends transversely the longitudinal direction of the nozzle and that an outflow channel 41 with preferably rounded bottom, extends from the thread of the nozzle. provided end 38A for said milling 40. The device shown in Fig. 1 is suitable for particularly good for further purification of particulate liquids obtained from dewatering in a previous dewatering device, and as it is of great importance that the liquid is purified effectively from undesirable particles. Said supply pipe 37 may also be stored rotatably so that it can be set in the desired rotation position 8200 ,. 04 E's l L.) along the directions of rotation shown in Fig. 1 with the arrows 42, for to enable the desired spread of slurry to be achieved 12 at the desired location along the inner jacket surface A3 of the pipe.

The invention is not limited to those described above and exemplary embodiments shown in the drawings, but can be varied within the scope of the appended claims.

Claims (6)

P a t e n t k r a V Device for separating liquid from a slurry (12) or a particle-laden liquid by means of a rotatable drum (1) provided at its one end (1), the jacket (3) of which has flow openings (2) and which internally has a helical flange element (11) provided for feeding the slurry along the drum, in the intended rotational movement of the drum, the flange (11) of which extends from the inside (3A) of the drum jacket towards its center (13), characterized in that a portion (A) of the feed screw (11) extending from the inlet end of the drum along at least the entire longitudinal extent of a supply device (37, 38; 28, 30, 31 extending into and along the drum ), which is arranged for supplying slurry (12) to the interior of the drum, has an increasing flange height (a, b, c, etc.), calculated in the feed direction, i.e. the distance of the flange (11a, 11b, 11c, etc.) in the direction from the drum jacket (3) towards the center (13) of the drum (1) increases, whereby goods collected between the flanges are made possible to receive with increasing amount calculated in the feed direction along the extent of said supply device in the interior of the drum (1) while simultaneously separating liquid from the slurry (12) etc. through the flow openings (2). Device according to claim 1, characterized in that said portion (A) extends along about 2/3 of the longitudinal extent of the drum, seen along the direction of rotation of the drum. Device according to one of the preceding claims, characterized in that the flange height gradually increases continuously in the direction from the inlet (7). Device according to one of the preceding claims, characterized in that the distance between two adjacent flanges is substantially constant along said screw portion (111A). Device according to one of the preceding claims, characterized in that in the area after said co M <3 .Üš (JJ 9 .a-Ü screw portion (11A) a further likewise screw-shaped portion (118) is arranged, which acts as an extended dewatering step for goods which are fed by means of said helical feeding device in the direction from said first screw portion (11A). Device according to claim 6, characterized in that said compression portion (11B) has a substantially constant flange height, which is at least equal to the largest flange height of said screw portion (11A), which has the increasing flange height.