DE102014104515A9 - Device for separating magnetizable parts from pourable and / or flowable material - Google Patents

Abstract

The invention relates to a device for separating magnetizable particles from pourable and / or flowable Good, comprising the following features: - a rotatably mounted, drum, which is wrapped by magnetic coils; - A sleeve surrounding the magnetic coils; - The sleeve is enclosed by a housing, so that sleeve and housing form a chamber; - The chamber has an inlet for uncleaned goods and an outlet for cleaned goods.

Description

The invention relates to a device for separating magnetizable parts from pourable and / or flowable material.

The said good can be in any form, as is the case in industrial or other applications. As magnetizable parts are any metallic magnetizable impurities into consideration, such as iron filings, welding beads. There is a great need for application in the field of car painting. Liquids are produced here which contain, among other things, water, grease, rust, but also the magnetizable particles mentioned. Other branches of industry are also possible, for example the field of paper production.

Numerous devices have become known which operate with magnetic separators. DE 100 06 262 B4 describes a device for separating magnetizable particles. In this case, a collection chamber is used, which generates a helical flow. DE 198 52 142 C2 describes a device with a plurality of rods, which are equipped on their lateral surfaces with magnets. In the single rod, the magnets are helically applied to the lateral surface of the rod. Between two magnet coils is a continuous helix of steel. The rods are rotatably mounted and driven during operation. Each rod is enclosed by a sleeve. The rods together with the magnetic coils, the non-magnetic coils and the sleeve are located in a chamber. The chamber has an inlet for cleanable goods, and an outlet for cleaned goods. The chamber is divided by a wall into two compartments. The magnet coils extend over the larger part. Here the cleaning takes place. The smaller part of the chamber is used to pick up the metal particles that accumulate there in the form of a sludge.

Said partition is designed such that a conductive connection between the two chamber compartments is made. However, this means that there is no sharp separation between the two chamber compartments, and thus no selectivity in the cleaning process is achieved. It will thus unintentionally flow a stream of purified material in the chamber compartment for receiving magnetizable parts. Therefore, the efficiency of this device is insufficient.

• – eine kontinuierliche Betriebsweise
• – eine hohe Trennschärfe des Abscheideprozesses
• – ein minimaler Verschleiß beziehungsweise eine minimale Korrosion der beteiligten Bauteile
• – ein hoher Durchsatz
• – geringe Herstellungskosten.

The invention has for its object to design a device according to the type described above such that the following is achieved:

• - a continuous mode of operation
• - a high selectivity of the deposition process
• - Minimal wear or minimal corrosion of the components involved
• - a high throughput
• - low production costs.

This object is solved by the features of claim 1.

Particular embodiments of the invention are subject matter of claims 2 to 13.

The device according to the invention is constructed as a closed system. It can be operated with an internal pressure of over one bar, for example 2, 3 or 4 bar.

The device can be operated continuously. It can thus flow continuously and without interruption, a stream of material to be cleaned in a surrounding chamber, and elsewhere flow out again.

The metallic impurities are collected in a lock chamber and discharged intermittently through a discharge valve. The drain valve may open at time intervals, or be controlled according to a control that can be detected, for example, by a sight glass from the outside.

The non-magnetizable guide spiral or helix may consist of stainless steel. It is in direct contact with the liquid to be cleaned. It exerts a conveying effect on the liquid, but in particular on the magnetizable particles to be deposited, in the direction of the lock. This results in an increase in the throughput compared to the aforementioned prior art device. The coil can be fixed, but it can also rotate and be rotatable with the rod and the magnets thereon.

The invention is explained in more detail with reference to the drawing. The following can be seen in detail here:

The 1 shows a device in elevation.

The in the 1 The apparatus shown for continuously depositing magnetizable particles from bulk or flowable material comprises in detail the following components:
The central component is a drum 1 , In general, it may be a cylindrical body, such as a rod. This is from magnetic coils 2 entwined. In this case, two magnetic coils are provided, which are parallel to each other Rod 1 entwine. In each case a gap remains between the individual magnets as well as between the two adjacent magnetic coils.

The magnet coils 2 are from a pod 3 surround. The of sleeve 3 enclosed interior is a closed space. This is therefore not affected by the material to be cleaned - here in liquid form.

shell 3 is certain in the present case. But it can also be combined with a drum 1 revolve, for example, that it is rotatably connected to this. shell 3 has a guide spiral 3.1 on.

shell 3 is from a housing 4 enclosed. casing 4 encloses a chamber 5 , chamber 5 is pressure-tight to pressures greater than 1 bar, for example, 2, 3, 4 and more bar.

The chamber 5 has an inlet at its upper end 5.1 for good to be cleaned on, and at its lower end an outlet 5.2 for cleaned goods.

To the bottom of chamber 5 is a lock 6 connected. lock 6 encloses a lock room 6.1 , At the bottom of the lock 6 there is a mud outlet 6.2 , At this a not shown exhaust valve is connected. This can be operated clocked, for example at certain intervals. It is also conceivable to detect the sludge density, for example by a sight glass in the lock 6 , by means of an optical sensor. In such a case, the valve is always opened when needed, that is, when a certain sludge density is reached.

Also, the lock can 6 an inlet valve is connected upstream, which is always closed when the exhaust valve opens.

The drum 1 including the magnet coils 2 is by means of an upper bearing 1.1 and a lower camp 1.2 stored. It is from an electric motor 7 driven.

It may be advantageous to use a guide tube 8th provide that the sleeve 3 encloses and together with this an annulus 9 forms.

The lock 6 is surrounded by magnets 10 of which only one is shown here. Generally you will get a number of magnets 10 around the lock 6 group around, for example three, four and so on. These magnets are used to take over magnetizable metal particles, located in the lower part of the sleeve 3 accumulated during operation. The transfer magnets may be permanent magnets, for example by means of a linear drive 11 can be moved up and down. Again, it is conceivable, the takeover magnets in conjunction with the valve at the mud outlet 6.2 , And if necessary, to cooperate with a valve at the lock inlet.

It is conceivable, a whole system of two or more of the devices according to the 1 together. The system then includes several of the devices shown. The housing 4 then does not necessarily have to be designed as a cylindrical sleeve. Rather, a single housing may enclose a plurality of devices as shown.

The material to be treated can be liquid. It can consist of crumbly and thus pourable material that is moist or dry.

• – Die geschlossene druckdichte Ausführung erlaubt eine hohe Mengenleistung.
• – Die Magnetwendeln 2 befinden sich in einem durch die Hülse 3 abgeschlossenen Raum. Sie sind daher nicht von (flüssigem) Gut berührt und somit geschützt gegen Verunreinigungen.
• – Aufgrund des Aufbaus arbeitet die Vorrichtung kontinuierlich. Es läuft zu reinigendes Gut ohne Unterbrechung durch die Vorrichtung hindurch, ohne Beeinträchtigung durch den Ausschleusvorgang. Dieser kann jederzeit durchgeführt werden, ohne Beeinträchtigung des Reinigungsvorganges.

The advantages of the device according to the invention can be summarized as follows:

• - The closed pressure-tight design allows a high flow rate.
• - The magnetic coils 2 are in one through the sleeve 3 enclosed space. They are therefore not affected by (liquid) Good and thus protected against contamination.
• - Due to the structure, the device works continuously. It runs to be cleaned Good without interruption through the device, without being affected by the Ausschleusvorgang. This can be done at any time, without affecting the cleaning process.

LIST OF REFERENCE NUMBERS

1

 drum

1.1

 upper bearing

1.2

 lower camp

2

 magnetic spiral

3

 shell

3.1

 spiral baffle

4

 casing

5

 chamber

5.1

 Inlet for goods to be cleaned

5.2

 Outlet for cleaned goods

6

 lock

6.1

 lock chamber

6.2

 sludge

7

 engine

8th

 guide tube

9

 annulus

10

 magnet

11

 linear actuator

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 10006262 B4 [0003]
• DE 19852142 C2 [0003]

Claims (13)

Device for separating magnetisable particles from pourable and / or free-flowing material, comprising the following features: a rotatably mounted drum ( 1 ), which are supported by magnetic coils ( 2 ) is entwined; one the magnetic coils ( 2 ) surrounding sleeve ( 3 ); the sleeve ( 3 ) is from a housing ( 4 ), so that sleeve ( 3 ) and housing ( 4 ) a chamber ( 5 ) form; the chamber ( 5 ) has an inlet ( 5.1 ) for uncleaned goods and an outlet ( 5.2 ) for cleaned goods. Apparatus according to claim 1, characterized in that the deposition of magnetizable particles is continuously carried out. Device according to one of claims 1 or 2, characterized in that the drum ( 1 ) is vertical. Device according to one of claims 1 to 3, characterized in that the sleeve ( 3 ) on its outer circumference a Leitspirale ( 3.1 ) of non-magnetic material. Apparatus according to claim 4, characterized in that the guide spiral ( 3.1 ) is established. Device according to one of claims 1 to 5, characterized in that the chamber ( 5 ) is pressure-tight against pressures greater than one bar. Device according to one of claims 1 to 6, characterized in that the chamber ( 5 ) the inlet ( 5.1 ) at its upper end and the outlet ( 5.2 ) at its lower end. Device according to one of claims 1 to 7, characterized in that a lower end of the chamber ( 5 ) to a lock ( 6 ) connected. Apparatus according to claim 8, characterized in that at a lower end of the lock ( 6 ) there is a sludge outlet. Device according to one of claims 1 to 9, characterized in that the sleeve ( 3 ) is established. Device according to one of claims 1 to 10, characterized in that the device one or more take-off magnets ( 10 ), which are movable up and down. Device according to one of claims 1 to 11, characterized in that the wall of the lock ( 6 ) has a sight glass, and that an optical or other means for detecting the sludge density is associated with the sight glass. Plant for separating magnetisable particles from pourable and / or free-flowing material, characterized by a plurality of devices according to one of Claims 1 to 12.

Images