DE1211602B - Magnet-mechanical flow filter - Google Patents

Description

Magnet-mechanical flow-through filter The invention relates to a magnet-mechanical flow filter Flow-through filter with one inlet and one outlet nozzle each, with the one in the central area an essentially prismatic housing, a permanent magnet and around this at a distance from him and the housing wall is provided with passage openings, made of ferromagnetic material adapted to the cylindrical magnet shape, arranged at least one continuous longitudinal gap having flow divider is.

There are magnet-mechanical flow filters known, their essentially prismatic housing is provided with an inlet and outlet connection each. In the central Area of this housing is a permanent magnet and around this at a distance from it and a flow divider is arranged on the housing wall.

This flow divider is adapted to the cylindrical magnet shape and consists of ferromagnetic material provided with sieve-like openings. Due to the sieve-like flow divider, the liquid is already in front of the permanent magnet divided and the flow energy partially canceled. This will only be part of it the ferromagnetic impurities come into contact with the magnet body. Of the The degree of elimination is therefore still in need of improvement.

It is the object of the invention, by utilizing the flow conditions the elimination efficiency with the lowest possible construction costs and the smallest dimensions to perfect wear-promoting impurities. The pressure losses compared to the purely mechanical acting filters are brought to a minimum so that they can also be installed in suction lines in the future. Furthermore, blockages are said to be be largely excluded.

This is achieved according to the invention in that this flow divider has a relatively wide gap opposite the inlet opening in the housing, whose cross-section is dimensioned approximately the same as that of the inlet opening. The sieve- or filter material can also be corrugated, zigzag star-shaped or the like or in addition be designed with baffles to achieve a larger filter surface and or to make better use of the flow for the elimination of impurities.

The invention is explained with reference to the drawings. It shows Fig. 1 a flow filter with a flow divider that is open on the inlet side, FIG. 2 a pass-through filter as in Fig. 1 with inlet and outlet openings arranged at right angles to one another, F i g. 3 a flow-through filter as in FIG. 1 with two concentrically arranged to one another Flow dividers, Fig. 4 and 5 flow dividers made of thin sheet metal for highly viscous Media.

Fig. 1 shows a filter housing 1 with a diametrical inlet and outlet represents, wherein the inlet to the filter housing 1 has a longitudinal slot 2.3 to a To wash around the full length of the filter system 4.5.

In the filter space is at a distance from the housing wall as a flow divider an annular sieve 5 with an inlet opening 6 is arranged. In this ring sieve 5 again at a distance there is a magnet system 4. which at the same time also makes the ring sieve 5 magnetic can induce. The outlet 3 from the housing 1 is again arranged in the shape of a slot, in order to achieve a uniform flushing of the entire filter system 4, 5. Of the Slot-shaped outlet 3 also goes back to the inlet side via an antechamber into a round tube cross-section.

The housing structure is shown in FIG. 2 about the same as in Fig. 1, however, the outlet is arranged at right angles to the inlet. Essentially hits the description of FIG. 1 to, but with the difference that from the housing inlet a connection 14 is arranged to the ring sieve, which forces the medium to be cleaned, to flow through the ring sieve in any case only in the lower radius range.

F i g. 3 again represents the same filter as FIG. 1, however with double ring sieve inserts 5.1 and 5.2. The openings in the ring sieves 5 can To influence the flow conditions, bent inwards in the shape of a shovel will. The filter housing 1. the magnet body 4 and the ring sieve 5 can be spherical in shape to have. Certain flow conditions can be determined by the formation of the Achieve magnets 4 in the form of drops.

A flow divider made of thin sheet metal (Fig. 4) consists of two half-shells 7 and 8 attached to their upper and lower ends are connected. In In the longitudinal direction of the shells 7 and 8, the edges remain at a distance of 6.1 from each other, while the rear edges 9 and 10 lie one above the other, bent inwards and run downwards in a wedge shape.

The flow divider according to FIG. 5 is largely similar to that in FIG. The rear edges are not on top of each other, but with a slit Distance from each other. The slot 11 runs downward in a wedge shape. About this Slot 11 is attached to a somewhat wider cover plate 12, the longitudinal edges of which are also are rolled up and run downwards in a wedge shape in the same way as the edges of the slot 11.

The process is as follows: The one interspersed with impurities Medium to be cleaned enters the filter housing 1 through the opening 2 into the filter space a, whereby by the inertia and the kinetic energy the impurities are flooded into the opening 6 of the ring sieve 5. That inside the filter housing 1 located magnet system 4, which can also induce the ring sieve 5, binds especially the magnetic impurities, which increases the filter efficiency contributes significantly. The fact that only in the ring sieve 5, the flow is less than on the outlet side 3 of the filter housing 1, the impurities are further flushed into the filter chamber and a small part of it settles on the ring sieve 5, but for the most part on the floor in the flow-free space.

There is always the free flow cross-section, even when the filter is fully saturated is guaranteed, the pressure losses are only a minimum compared to the pure mechanical filters, but above all these pressure losses remain during the entire The filter period is constant until it is cleaned, suggesting the placement of a pressure relief valve makes redundant. Cleaning is very easy without replacement parts.

Claims (3)

Claims: 1. Magnet-mechanical flow-through filter, each with one Inlet and outlet nozzles, in which one is essentially prismatic in the central area designed housing a permanent magnet and around this at a distance from him and the Housing wall a cylindrical magnet shape provided with passage openings adapted, made of ferromagnetic material, at least one continuous Is arranged longitudinal gap having flow divider, d u r c h e k e n n z ei ch n e t that this flow divider (5) opposite the inlet opening (2) in the housing (1) has a relatively wide gap (6), the cross section of which is approximately is dimensioned the same as that of the inlet opening (2). 2. Filter according to claim 1, characterized in that a plurality of flow dividers (5.1,5.2) are arranged concentrically to one another. 3. Filter according to claim 1, characterized in that the permeable Body (7 and 8) is formed by separate halves and made of sheet metal and opposite the drain opening (3) is overlapped or covered is perforated. Considered publications: German utility model no. 1 857562; Austrian Patent No. 207 769; French patent specification No. 1 227 022.