NL8303970A - Magnetic material remover for food processing system - extracts magnetic particles, e.g. swarf, rust, etc. from stream of human or animal foodstuff - Google Patents

Abstract

The material being processed is in the form of liq., granules, powder, etc. It enters and leaves the separator casing (1) via a conical inlet (2) and outlet (3). The flow is slowed and guided onto the magnetic assembly (5) by a spreader (7) and funnel vane (8). The thin non-magnetic shield (4) of the magnetic assembly has a keyhole-shaped cross-section and contains a shaft (10) on which permanent magnets (11) are mounted radially around 240 deg.. During normal flow, the magnetic particles are attracted to the rounded top of the shield, where they are held. At regular intervals, the flow from the outlet is diverted to a waste channel and the shaft is rotated. The particles move round the shield and drop off the angled lower skirt (13).

Description

i λ * -1-23554 / JF / ps

Short designation: Device for removing magnetic material from a substantially non-magnetic material flow.

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The invention relates to a device for removing magnetic material from a substantially non-magnetic material flow, comprising a jacket with an inlet and an outlet, a treatment zone in the passage defined between the inlet and outlet and a treatment zone arranged magnet device.

An apparatus of the above-mentioned type is known from German patent specification 1,261,451.

The jacket of the above-mentioned known device is provided with a pivotable opening part, i.e. an openable door, which forms a part of the jacket. The door is further equipped with a support beam for receiving a magnet device. The magnet device can herein be arranged rotatably on the support beam around its longitudinal axis.

The fact that this known device is provided with a door to which the magnet device is attached is necessary for cleaning the magnet device of magnetic material, which is separated from the substantially non-magnetic material 20 flowing through it during operation. To remove this magnetic material, the door must be opened and the magnetic material scraped off the magnet device.

Because of the construction described above, the known device has the following drawbacks.

In operation, the magnet device contacts the substantially non-magnetic material flowing through the jacket, whereby the magnet device is subject to wear. Furthermore, since the magnetic plates of the magnetic device cannot be made of stainless steel, oxidation of the magnetic plates can occur, thereby accelerating the wear of the magnetic plates, among other things. The abovementioned wear results in high maintenance costs, among other things.

The object of the invention is to eliminate the drawbacks mentioned and to this end provides an apparatus of the type mentioned in the preamble, characterized in that the magnet device is surrounded at least on the side facing the inlet by a shielding member, which contact occurs between the material flow and the magnet device and to which the magnetic material adheres under the influence of a magnetic field generated by the magnet device 8303970 VJ>% -2-23554 / JF / ps.

Due to the above-mentioned measures, on the one hand, the magnet device no longer comes into contact with the substantially non-magnetic material flowing through the jacket and, on the other hand, it is no longer necessary to remove the magnetic material collected during operation from the magnet device. scrape. Namely, by canceling or modifying the magnetic field generated by the magnetic device, the magnetic material can be detached from the envelope. In contrast to the magnetic plates, the shielding member can be made of stainless steel.

A further advantage of the present invention is that the removal of the magnetic material can be carried out automatically and even fully automatically.

The invention will now be explained in more detail with reference to an embodiment, which is not limiting the invention and with reference to the attached drawing, in which drawing: fig. 1 is a cross-sectional view of an advantageous embodiment of the device according to the invention ; Fig. 2 shows the device of Fig. 1 with a different position of the magnet device thereof; Fig. 3 corresponds to Fig. 1, but the device is provided with a valve box, the position of the valve corresponding to the position of the magnetic device; and fig. 4 shows the device of fig. 3, but in the manner shown in fig.

2 corresponding position of the magnet device.

The invention thus relates to a device for removing magnetic material from a substantially non-magnetic material flow.

A substantially non-magnetic flow of material is understood to mean, though not exhaustively, a flow of floury, granular, powdery and even liquid material. Magnetic material can, for example, comprise iron particles. The facility is, although not only, applicable in the feed and food industry. The substantially non-magnetic material flow, together with the magnetic material absorbed therein, flows through a pipe or conduit system. The device according to the invention can be included in such a system.

The device according to the invention comprises a jacket 1 with an inlet 2 and an outlet 3. Both the inlet 2 and the outlet 3 can be conical, the inlet opening of the inlet and the outlet opening of the outlet at 8303970 ... .

-3- 23554 / JF / ps the cross-sectional configuration of the pipe or conduit into which the device is to be incorporated may be adapted. The conical shape of the inlet 2 already spreads the input current of substantially non-magnetic material, while the outlet 3, due to its conical shape, converges the treated output current. A magnetic device 5 is arranged in the jacket 1, which will be discussed in more detail below. The magnetic device 5 is surrounded by a shielding member 4, which in this embodiment is an envelope with a key-hole-shaped cross section. An angle profile 7 is further provided on the inlet side of the jacket in order to promote the spreading of the inlet stream and, furthermore, on the inner side of the jacket between the inlet 2 and the casing 4, alignment members 8 are arranged in order to aim the casing 4. The magnetic device 5 is thereby placed in a treatment zone, which is located in the passage defined between the inlet and outlet.

As already noted, the magnetic device 5 is provided with a housing 4 with a keyhole-shaped cross-section. It is noted, however, that it is not necessary for the shielding member to be a casing 4 enclosing the magnet device 5. It is sufficient if the magnet device 5 is surrounded at least on the side facing the inlet 2 by a shielding member, which is preferably adapted to the contour of the magnet device directed towards the inlet.

The magnet device 5 can be an electromagnet. However, this is not preferred, since when the device is in operation, the electromagnet device must be permanently energized, which entails necessary energy costs. An advantage of the electromagnet device is that by removing the magnetic material collected on the casing 4 it is sufficient to switch off the electromagnet device.

Preferably, however, an electropermanent magnet device or permanent magnet device is used. In the case of the electropermanent magnet device, it is preferable to use a type which is on and off switch by a pulse-shaped signal. This substantially reduces energy costs.

In the case of a permanent magnet device, measures must be taken to cancel or modify the magnetic field in the treatment zone. One possibility is to make provisions for sliding the permanent magnet device out of the jacket, including 8303970

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-4- 23554 / JF / ps toe the jacket should be provided with an opening. It is advantageous in this case when the jacket contains at least two opposite parallel plates and the ends of the shielding member are connected to the plates of the jacket at corresponding places and of course at the treatment zone, at least one of these plates being has an opening at the location of the connection to the shielding member. When the permanent magnet device is extended from the jacket, the magnetic material will be retained by that part of the jacket, in which the opening is arranged, the opening of at least a part of the interior of the jacket being shielded by the shielding member. Subsequently, however, a stopper may be provided, for example at a certain distance from each end of the shielding member, for example in the form of an upright plate of limited height, which is arranged transversely to the surface of the shielding plate or the casing. In the embodiments 15 shown in the drawing, however, the magnet device 5 comprises a shaft 10 on which are placed alternately oppositely pole-mounted permanent magnets 11 in axial and radially spaced positions. The shaft 10 can herein have a polygonal cross-section, wherein no permanent magnet is placed on at least one of its sides and permanent magnets are placed on an odd number of adjacent sides. This provides a non-magnetic zone 6 to be discussed further. In the shown embodiment, the shaft 10 has a hexagonal cross section and block magnets are placed on five longitudinal sides of the shaft. The magnetic device is arranged horizontally rotatable about the longitudinal axis.

As noted, the envelope 4 shown in the drawing is closed and the magnet device 5 completely encloses. The magnet device 5 is rotatable horizontally about its longitudinal axis and has a longitudinal non-magnetic zone 6. Furthermore, the casing 4 has on its side facing the outlet a longitudinal stop member, which can again be a plate and in this case a hanging plate placed on the underside of a cylindrical envelope 4 of circular cross section.

In Fig. 4, however, the casing is substantially cylindrical, but is keyhole-shaped in cross-section, the hanging portion of which may have a rectangular cross-section. In the drawing, however, the stopper member portion of the casing 4 has a trapezoidal cross section. In other words, the stopper extends outward. The stopper is indicated by the reference numeral 12 and the longitudinal notches determined by the stopper 12 8303970/5 * 23554 / JF / ps are indicated by the reference number 13.

In Fig. 2, the magnetic material is shown as a collection of balls 14, in which the magnet device is turned to the right by a certain amount, whereby the balls 14 are taken along and accumulate in the right-hand notch 13. On further rotation in the same direction of the magnetic device more and more particles will be collected in the notch 13 and when the dead zone 6 has reached this notch 13 there will be no substantial magnetic field and the accumulated balls fall off along the oblique side of the stopper. Thus, by rotating the magnetic device, the magnetic field is modified such that the magnetic material at the location of the stop member detaches from the envelope. When transmitting a substantially non-magnetic material flow through the device, the magnet device is locked, as shown in Fig. 1.

An advantageous configuration of the jacket is an eight sided jacket or an octagonal jacket. As mentioned, when there is no current of substantially non-magnetic material, the magnet device 5 can be rotated to drop the envelope 4 of magnetic material. This magnetic material can be collected by a drawer, the bottom of which is removable, placed between the shielding member or the housing 4 and the outlet. Figures 3 and 4 schematically show how a valve box 15 can be used for this purpose, wherein the valve box 15 consists of a pipe piece 16 and a branching bending piece 17 as well as a valve 18, which forms the connection between the bend pieces 16 and 17 and the exhaust can shut off. Fig. 3 shows the condition that a flow of non-magnetic material flows from the inlet to the outlet and through the pipe section 16. FIG. 4 on the other hand shows the case that the magnetic material accumulates in the right notch 13 and after release falls into pipe piece 17. In this way the different materials can be easily separated. In addition, it is possible to automatically operate the locking and rotation of the magnetic device, the supply of the substantially non-magnetic material flow and the valve 18, so that a fully automatic operating device can be obtained.

Finally, it is also noted that the diameter of the casing 4 is adapted to the tube diameter of the tube, in which the device according to the invention is incorporated. The space between the casing and the inner wall of the jacket, that is, the free passage for the flow of substantially non-magnetic material, is also related to the diameter of the input and output transport conduit.

In summary, the advantages of the invention are that there is no contact of the flow of non-magnetic material with oxidation parts of the magnet device, that the removal of the magnetic material such as iron can be performed fully automatically, that there is no wear, no maintenance and no or minimal power consumption is that the entire device, with the exception of the magnet device, can be made of stainless material, eg stainless steel, and that the price and of course also the maintenance costs can be minimized.

8303970

Claims (19)

Device according to claim 1, characterized in that the magnet device is an electropermanent magnet device. 3. Device according to claim 2, characterized in that the electro-permanent magnet device can be switched on and off by means of a pulse-shaped signal. Device according to claim 1, characterized in that the magnet device is a permanent magnet device. Device according to claim 4, characterized in that the magnet device comprises a shaft on which are placed alternately opposedly poled permanent magnets in axial direction and radially spaced apart. 6. Device according to claim 5, characterized in that the shaft has a polygonal cross-section and no permanent magnet is placed on at least one of the sides and permanent magnets are placed on an odd number of adjacent sides. Device according to claim 6, characterized in that the shaft has a hexagonal cross section and block magnets are placed on five sides of the shaft. Device according to any one of claims 1 to 7, characterized in that the jacket contains at least two opposite parallel plates and the ends of the shield member are correspondingly located at the treatment zone with these plates of the jacket connected. Device as claimed in claim 8, characterized in that at least one of the plates has an opening at the location of the connection with the shielding member. 83 03 97 0 '4 -8- 23554 / JF / ps 10. Device according to claim 9, characterized in that the magnet device is extendable through at least one opening in a respective plate. ' 11. Device as claimed in claim 9, characterized in that the shielding member is provided at at least one end with a stop member for retaining the magnetic material when the magnetic device is extended. 12. Device as claimed in any of the claims 1-1,1, wherein the reed magnet device is arranged rotatably about a longitudinal axis in the jacket, characterized in that the magnet device is arranged horizontally with the longitudinal axis. Device according to any one of claims 1-11, characterized in that the scraper means is an enclosure enclosing the magnet device. Device according to any one of claims 12-13, characterized in that the magnet device has a longitudinal non-magnetic zone and in that the casing has a longitudinal stop member on its side facing the outlet. Device according to any one of claims 13-14, characterized in that the casing is substantially cylindrical. 16. Device as claimed in any of the claims 14-15, characterized in that the casing is keyhole-shaped in cross section. Device according to claim 16, characterized in that the stop member extends outwards. 18. Device according to any one of claims 13-16, characterized in that the magnet measuring device is lockable such that the non-magnetic zone is directed towards the outlet. Device according to any one of claims 1-18, characterized in that the jacket is octagonal. A device according to any one of claims 1-19, characterized in that a valve box is arranged at the outlet. 21. Device according to any one of claims 1-18, characterized in that between the shielding member and the outlet is provided a drawer which can be slid out of the jacket, the bottom of which is removable. Eindhoven, November 1983.8303970