CS217535B1 - Separator, especially metal parts from liquid - Google Patents

Abstract

The invention falls into the field of substance separation and solves the problem of reducing the hydrodynamic resistance of a separator consisting of a body, behind the inlet of which a screw is fixedly mounted in the longitudinal axis of the body. The essence of the invention is that the pitch angle of the helix is variable, increasing up to 90° towards the inlet of the separator.

Description

The invention relates to a separator, in particular to metal parts from a liquid.

At present, systems for the cleaning of liquids from mechanical impurities are used, the cleaning effect of which is derived from the properties of the entrained impurities or the properties of the carrier medium. For example, devices are known where the medium is screen-cleaned.

The disadvantage of these devices is that the cleaning effect is limited by the mesh size of the sieve and is therefore not suitable for the finest dirt.

Furthermore, devices are known in which metal particles are trapped electromagnetically. These devices have the disadvantage that they need an electrical supply and, in the event of a power failure, the trapped impurities are released back into the carrier medium. Furthermore, devices are known where the impurities are separated by the rotation of the carrier medium. For example, a device is known in which the medium enters tangentially into the upper portion of the cone-shaped chamber. The impurities, which have a higher density than the carrier medium, collect at the wall of the chamber and sink down to the drain line, while the cleaned liquid is collected at the top of the chamber ·

The disadvantage of this device is that it cannot be inserted into a straight pipe and that λ as much as half of the input volume of the carrier medium flows into the waste stream through the separator.

It is further known to comprise a vertical cylindrical hollow body having an inlet throat at its upper end and a carrier throat at its lower end. In the longitudinal axis of the body, a screw with a constant pitch angle is fixed behind the inlet throat and a pipe connected by one end to the outlet throat and behind the screw is provided with connecting holes at the opposite end. The body has a drain hole on the pipe side. The disadvantage of this device is the considerable hydrodynamic resistance caused by turbulence at the inlet part of the screw.

Disadvantages of the known solutions are essentially eliminated by the invention, which is a separator, in particular of metal parts from a liquid, consisting of a body, whose inlet neck is fixed at least one worm screw in the longitudinal axis of the body. variable on the inlet part of the screw, increasing towards the inlet throat of the separator.

It is a further object of the invention that the inlet angle of the screw helix is 90 °.

The higher effect of the invention is achieved by reducing the hydrodynamic resistance of the device by shaping the separator screw. The device according to the invention can be inserted into a straight pipe, does not require an electrical supply and shows minimal losses of the carrier medium.

An example of a particular embodiment of the invention is shown schematically in the accompanying drawing, representing a separator with the present invention in front view.

According to the invention, the separator 1 consists of a vertical cylindrical rotary body 2 provided with an inlet throat at its upper end and an outlet throat at its lower end.

In the longitudinal axis of the upper part of the body 2, a screw 2 is fixedly fixed, the angle a of the helix 2 rising continuously towards the inlet neck J of the separator 1 up to 90 ° at the inlet 2.

At the bottom of the housing 2 is disposed perpendicular to the longitudinal axis of the body 2 of the partition wall 2, provided with a central orifice g. The central hole g continuation pipe 2 stored above the partition 2 in the longitudinal axis of the body g. Tube 2 d ^ene and its upper end connecting holes 10.

The body 2 by ^E below in its lower part above the partition 2 is provided with an outlet opening JJ.

with shut-off valve 12.

The contaminated liquid enters through the inlet throat J into the separator body 2. As it passes through the screw 2 ^{, the} liquid gradually enters rotation. Impurities having a higher specific gravity than the carrier liquid will be affected by the normal acceleration component and the centrifugal forces generated by it will move the impurities to the peripheral wall 13 of the body 2. At the location of the greatest rotation of the liquid, that is just behind the screw 2, we also exert the greatest centrifugal forces, the impurities are best separated from the liquid and the cleaned liquid flows through the connecting openings 10 into the tube 2 ^and from there to the outlet. The deposited dirt is discharged continuously or cyclically through the outlet opening 11.

The separator 1 according to the invention can be easily inserted into a straight pipeline, does not require an electrical power supply and shows minimal losses of the carrier medium during the separation of e.g. By varying the angle α of the helix 6 of the screw 2 and e, it achieves a gradual change in the direction of fluid flow, thereby reducing turbulence and the resulting hydrodynamic losses.

Not only impurities having a higher specific gravity than the carrier medium can be separated by the device according to the invention. It can also remove impurities having a lower specific gravity than the carrier medium, the impurities leaving, for example, through the outlet orifice 6 and the cleaned medium through the outlet orifice. Similarly, this device can be used to divide media of different density. The separators according to the invention can therefore be used both for the purification of liquids and gases and for the separation of substances.

Claims (2)

A separator, in particular a metal part of a liquid, consisting of a body, behind which the inlet neck is fixed in the longitudinal axis of the body at least a simple screw, characterized in that the helix angle (6) of the screw (5) is at least the inlet part of the screw (5) is variable, increasing towards the inlet throat (3) of the separator (1). Separator according to claim 1, characterized in that the helix angle (6) of the helix (6) of the screw (5) is 90 °.