DE2225726B1 - SCREEN DEVICE - Google Patents

Description

35 is arranged at a distance from the circumferential circle of the separator housing, which is approximately

dius corresponds to the deflector flap. However, can

the deflector flap a little bit into this circumferential circle when the radial position is not swiveled out.

The invention relates to a Siebvorrich- 4 ° gene. It should, however, in pivoted positions, device for separating solids from a where a swirl flow is stimulated into the Liquid flow in a pipeline, consisting of said circumferential circle, practically no longer inem cylindrical separator housing, with a protrude.

arranged therein, concentrating to the separator housing The invention is based on the knowledge that

Irish sieve, a radial inlet nozzle, a swirl flow stimulated by the deflector flap axial outlet nozzle for the cleaned liquid must remain as free from disturbance as possible in order to keep its flow and a deduction for the secluded written function to perform. Malfunctions were Solids in the area of the sieve base, the sieve absorbing the energy of the swirl flow and the swirl flow for the desired effect of closure and in the area of the other end of the sieve with 50 contaminants deposited on the sieve Housing cover is connected, further making unsuitable in the gene. The invention reduces daradial Inlet nozzles have a deflector flap in order to minimize the disturbances caused by the Axis parallel to the sieve axis pivotable angeord- deflecting flap itself go out, namely with overranet is and the deduction for the separated solids - seemingly simple and yet very effective co-substances 55 parts consist of a tangential drainage duct. Otherwise, it contributes to stability if in according to patent application P 2 058 395. Combination of the measures described the

In general, the arrangement of the sieve devices is correct so that the inlet nozzle, according to the main patent application, has a trumpet-like widened cross section, preferably with a deflecting flap with the cross section of the inlet nozzle widening angles of about 15 ° and more. At zens match. The screening devices according to the main ^{screening device patent application, which} does not work with deflection flaps, mainly serve as trumpet-shaped extensions of the one-named mussel filter in cooling water systems of step nozzles (German disclosure power plants and have proven themselves. Copy 2 026 556). In the context of the invention, the flap can be adjusted so that from the liquid it, the sieve in the separator housing in the direction of keitsstrom entrained impurities - and ⁶ 5 of the axis of the inlet port eccentrically to be arranged mussels and others, z. B. fibrous veins. If the eccentricity extends from the impurities - deposited on the sieve and away from the outlet connection, the axis of the deflection of a small partial flap running over the fume cupboard can move closer to the circumference

will. If the eccentricity extends towards the inlet connection, the axis of the deflection flap can further away from the circumference.

The advantages achieved are to be seen in the fact that in the device according to the invention the swirl flow, which flows around the sieve in the separator housing, if it applies, impurities deposited on the sieve to be removed, is practically no longer disturbed by the deflector flap. Nonetheless the swirl flow can be influenced over a wide range with the help of the deflector flap and consequently the screening device can be adapted to different operating conditions. It forms a swirl flow that is optimal for the desired cleaning effect is always achieved.

In the following, the invention is illustrated by means of an exemplary embodiment Drawing explained in more detail. It shows in a schematic representation:

F i g. 1 shows an axial section through an inventive Sieve device,

F i g. 2 shows a section in the direction AA through the object according to FIG. 1.

The in the F i g. 1 and 2 shown sieve device is used to separate solids from a liquid flow in a pipeline. In its basic structure, there is the sieve device initially from a cylindrical separator housing 1 with a separator housing arranged therein 1 concentric screen 2, a radial inlet nozzle 3, an axial outlet nozzle 4 for the purified liquid stream and a vent 5 for the separated solids in the Area of the sieve base 6, the sieve 2 being connected with its sieve base 6 to the outlet nozzle 4 and in the area of the other end of the sieve with a housing cover? connected is. First of all, the Arrangement made so that in the radial inlet nozzle 3 a deflector 8 around a sieve axis 9 parallel axis 10 is pivotably arranged, while the trigger 5 for the separated Solids consists of a tangential flue. With a suitable setting of the deflector flap 8 experiences the liquid flow entering the sieve device via the inlet connection 3, as it were at the top a swirl flow around the screen 2, the conditions can be set up so that this swirl flow decreases and entrains contaminants deposited on the sieve 2, however the impurities taken by the swirl flow and via the exhaust duct 5 with a Partial flow of the liquid can be discharged. So that this swirl flow from the deflector 8 is not disturbed, the axis 10 of the deflector 8 is at a distance 11 from the circumferential circle 12 of the separator housing 1, which corresponds approximately to the radius of the deflector flap 8, which in turn is shown in their diameter are adapted to the inlet nozzle 3. In addition, the inlet connection 3 is trumpet-shaped widened, in the exemplary embodiment and according to a preferred embodiment of the invention the broadening angle 13 can be at least about 15 ° and even considerably larger.

1 sheet of COPY drawings

Claims (3)

1 2 electricity can be discharged without getting stuck on the sieve. A choke in the flue 1. Sieve device for separating solids, which can be adjusted independently of the deflector flap, substances from a liquid flow in a 5 can facilitate the adaptation to different operational pipeline, consisting of a cylindrical conditions. The described effect of the separator housing, with a darm arranged discharge of the separated impurities, sieve concentric to the separator housing, via the drainage duct, without the risk of a radial inlet nozzle, an axial seizure or growth of this impurity outlet nozzle for the purified liquid io Gen on the sieve, is based on the fact that the outflow and a deduction for the separated flap the excitation of an intense swirl flow solids in the area of the sieve base, the müng around the sieve basket, in such a way, sieve with its sieve base on the outlet supports that the swirl flow closes the impurities and decreases in the area of the other sieve next from the sieve, otherwise, however, is connected to a housing cover, 15 possibly after contact with the wall of the Abwobei also in the radial inlet connection a separator housing to the exhaust duct hiking flap around one parallel to the sieve axis, so that the axis exiting via the discharge duct is pivotable and the discharge partial flow can discharge these impurities, for the separated solids from a tan- in the area in which the swirl flow P 2058 395, as indicated by this, is stable and sufficiently energetic, but η e t _; that the axis (10) of the deflecting flap (8) go with certain settings of the deflecting flap at a distance (11) from the circumferential circle (12) of this disturbance of the swirl flow. In order for the separator housing (1) to be arranged, the control width or setting width, as it were, is determined by approximately the radius of the deflection flap (8) according to the known device. speaks. The invention is based on the object 2. Sieve device according to claim 1, characterized in that the sieve device according to the Häüpt patent application characterized in that the inlet nozzle (3) to improve that on the deflector flap as possible is widened like a trumpet. minor disturbances of the swirl flow occur and 3. Sieve device according to claim 2, characterized 30 the inevitable pressure losses to a minimum characterized in that the broadening angle can be reduced. (13) the trumpet-like widening, against- To solve this problem, the invention teaches above the axis of the inlet connection, about 15 ° starting from the sieve device after the main or is more. Patent application that the axis of the deflector