DE2241506A1 - METHOD AND DEVICE FOR ACCELERATING FERROMAGNETIC GRAIN MATERIAL - Google Patents

Description

Method and device for accelerating ferromagnetic granular material The invention relates to a method and an apparatus for Accelerating ferromagnetic material and is particularly intended to be used in conjunction be used with particle blasting systems ("sandblasting systems").

It is known to use granular material in so-called sandblasting systems of centrifugal turbines to a high speed and to bring them to the To spin the surface of the material to be irradiated. Part of the Surface torn open or carried away by the particles. As a centrifugal agent are next Silicates also use ferromagnetic materials, such as sections of steel wire.

The known accelerators have proven to be disadvantageous that the surface of the casing and blades in the jet turbines is strong Subject to wear, and it was also found that the blades differ Were abraded, so that there is a different mass distribution that led to the imbalance of the wheel.

The task is to use an acceleration method, where the stressed parts are less worn and where the Parti'-el can be accelerated to a comparatively high speed, without the speed of rotation due to imbalances occurring over time of the centrifugal wheel exceeds a critical point.

The object is achieved by an acceleration method in which the ferromagnetic granular material dosed on a moving over a magnetic field Area is given, held there by the strength of the magnetic field, up to a release point is taken and thrown into a centrifugal section at the end of the magnetic field will.

The fact that the particles move against the moving surface themselves do not move, it is not rubbed off as much as when the parts are on it tossing along. Due to the magnetic field it is possible that the surfaces practically can be moved in any direction without the material falling down.

In particular, the method can be carried out with a cylindrical surface carry out. Here it rotates over a magnetic field arrangement occupying a sector of a circle, whereby at the end of the magnetic field the abrasive is thrown off tangentially.

With the help of the drum-shaped surface, a particularly compact Build the accelerator assembly.

The device for performing the method is therefore advantageous from a rotating cylindrical drum made of non-magnetic material.

Underneath the inside of the drum is part of the rotating path at least one magnet arranged. The blasting agent is fed in at the beginning and throwing off at the end of the field built up by the magnets, as far as this penetrates the drum. With the present arrangement it is furthermore advantageous that the magnets in relation to the drum and to the supply and discharge of the blasting media can be adjusted.

A permanent magnet in the form of a magnet can easily be used as the magnet a cylindrical body with a segment-like or sector-like cross-sectional area use.

Since such a magnet neither heats up nor a power supply is required, the drum can easily be arranged dust-tight around the magnet.

The tension angle of the magnet cross-sectional sector is advantageously at an angle of 180 plus minus 900.

The drum and housing of the device can be made of known non-magnetic Steel alloys are produced, which have a particularly high wear resistance to have.

Any known stole abrasive is suitable as a blasting agent.

An embodiment of the device according to the invention is shown in described below.

The device has a cylindrical housing, the diameter of which is greater than about 500 mm. Rotates essentially concentrically in the housing to the housing a hollow drum made of an amagnetic sheet steel is.

The drum has a diameter of about 500 mm and works with approx. 2000 rpm. This allows a tangentiol velocity on the surface of about 52.5 m / sec. achieve.

The modification of the stated values to achieve other speeds and the use of other blasting media is of course a matter of course in a professional manner Discretion. 1.

A permanent magnet is built into the drum.

The magnet has an approximately semicircular-cylindrical shape, its outer rounded surface adapts to the underside of the drum with little play. the Surface of the magnet as far as it is opposite the underside of the drum induced with high remanence. Can be strong to achieve particularly high field Electromagnets can also be arranged below the drum.

The housing has at least two openings in the area of the The beginning and the end of the magnetic field lie.

The outlet opening for the abrasive is tangentially protruding mounted on the entire effective axial length of the drum, in such a way that the material thrown off the drum approximately in the middle of the outlet opening has its trajectory. The entrance opening is at the beginning of the magnetic area for the abrasive, which is fed to the rotating surface via a metered feed pipe is charged.

Due to the immediately effective magnetic field strength, the material is on the Drum related and taken to the end of the magnetic field and there tangentially thrown off.

An advantage of the arrangement described is that the effective axial Length of the drum can be made practically any size, so that the outlet opening can be adapted to the width of the workpieces to be irradiated.

Another embodiment of the subject matter of the invention can also be used realized by a belt rotating around two rollers, so that -a kind of conveyor belt arises, which is underlaid with a magnetic surface and at the end of which the Abrasive can be thrown in any direction.

Claims (8)

Potent claims 1. Proceed to accelerate ferromagnetic granular material, characterized in that the material is dosed on an over a magnetic field moving surface is given) there held by the magnetic field strength up to a Delivery point is taken and at the end of the magnetic field in a centrifugal section is thrown in. 2. The method according to claim 1, characterized by a cylindrical area that rotates over a magnetic field arrangement occupying a sector of a circle, whereby at the end of the magnetic field the abrasive is thrown off tangentially. 3. Apparatus for performing the method according to claim 1 and 2, characterized by a rotating, cylindrical drum made of non-magnetic Material, under the inside of which on part of the rotational path at least a magnet is arranged, with the supply of the blasting agent at the beginning and dos Throwing off at the end of the field built up by the magnet, as far as this the Drum penetrates, take place. 4. Apparatus according to claim 3, characterized by teinen in relation on the surface of the drum and on the feed and discharge magnets. 5. Apparatus according to claim 3 and 4, characterized by a permanent magnet in the form of a cylindrical body with a segment-like and / or sector-like cross-sectional area. 6. Apparatus according to claim 5, characterized by an angle of 180 plus minus 900 as the clamping angle of the cross-sectional sector of the magnet. 7. Device according to claim 3 with a housing, characterized by a drum and / or a housing made of an amagnetic steel material. 8. As abrasive suitable steel granulate for use in the Apparatus according to claim 3. Blank page