DE102009022124A1 - Nozzle head for use in filter bag cleaning device, has pair of rings rotated at longitudinal axis in nozzle along tangential effective direction, and another pair of rings arranged between former pair of rings in radial effect direction - Google Patents

Abstract

The head (1) has a pair of nozzle rings (5.1, 5.3) rotated at a longitudinal axis in a nozzle (7) along a tangential effective direction. Another pair of nozzle rings (5.2, 5.4) is arranged between the former pair of nozzle rings in a radial effect direction. The latter pair of nozzle rings is arranged in a torque proof manner relative to the longitudinal axis. A pressure fluid guide generates continuous pressure supply in the nozzle of the former pair of nozzle rings and produces pulsating pressure supply at a nozzle (9) of the latter pair of nozzle rings. An independent claim is also included for a cleaning device for cleaning a filter bag, comprising a nozzle head.

Description

The The present invention relates to a nozzle head with a Longitudinal axis and a plurality around the longitudinal axis rotating first nozzle rings, each with at least one Nozzle with tangential effective direction. The invention relates also a cleaning device for cleaning a filter bag with such a nozzle head.

Out EP 1 543 872 a filter device with a cleaning device is known which has such a nozzle head.

Indeed are the nozzles in such a nozzle head all tangentially aligned so that all nozzles help that the nozzle head or individual nozzle rings in Rotation are offset.

It has now been shown to be an exclusively tangential Effect of the nozzles in many cases not to one optimal cleaning of an object to be cleaned leads.

The Object of the present invention is therefore a nozzle head of the prior art to the effect that the cleaning effect on is improved.

It has surprisingly been found that the arrangement of a another nozzle ring with radial effective direction between two nozzle rings with tangential effective direction the cleaning effect clearly improved.

One Another advantage is when nozzle rings with tangential Alternate effective direction and radial effective direction.

Of the Cleaning effect is further enhanced when the nozzles with tangential direction of action of the first nozzle ring Releasing pressure medium continuously and the second nozzle rings with nozzles radial direction of action a pressure medium pulsates submit. As a result, the of the tangentially acting nozzles dissolved contamination by the subsequent radial knocked off acting nozzles.

The Advantages of the nozzle head also arise for a cleaning device for cleaning a filter bag.

A Embodiment of the present invention will be hereinafter described in detail with reference to the drawing. The only drawing shows a schematic view of a nozzle head with a plurality of first and second nozzle rings, in each of which several Nozzles are arranged.

In the figure is a nozzle head 1 shown schematically. The nozzle head 1 sits in the illustrated embodiment on a lance 3 and in the illustrated embodiment comprises five nozzle rings 5.1 . 5.2 . 5.3 . 5.4 . 5.5 , The first nozzle ring 5.1 , the second nozzle ring 5.2 and the third nozzle ring 5.3 In the present embodiment, the so-called first nozzle rings are those around the lance 3 are rotatably formed. The first nozzle ring 5.1 has a plurality of first nozzles 7 on, tangential to the circumference of the first nozzle ring 5.1 are arranged. In the illustrated embodiment, there is a nozzle opening 7.1 On the right side. The first nozzle ring 5.3 also has nozzles in the present embodiment 7 on, tangential to the circumference of the first nozzle ring 5.3 are arranged. The nozzle opening 7.1 is at the third of the first nozzle rings in the illustrated embodiment on the left side.

The fifth of the first nozzle rings 5.5 also has a plurality of nozzles 7 on, tangential to the circumference of the first nozzle ring 5.5 are arranged and the nozzle opening 7.1 lie on the right side. In other embodiments, the nozzles 7 with its nozzle opening 7.1 be aligned the same at the respective nozzle rings.

Between two rotating second nozzle rings, a non-rotating nozzle ring is arranged in each case. In the present embodiment, the first of the second nozzle rings 5.2 and the second of the second nozzle rings 5.4 a non-rotating nozzle ring. In the second nozzle ring 5.2 and the fourth (second) nozzle ring 5.4 are a plurality of nozzles 9 formed, which are aligned radially to the lance or its longitudinal axis.

In other embodiments, only a total of three nozzle rings 5.1 to 5.3 be provided, in which case the middle nozzle ring 5.2 is the non-rotating second nozzle ring. Embodiments are also conceivable in which more than five nozzle rings in the nozzle head 1 are provided. It is also possible that a last nozzle ring is the non-rotating second nozzle ring.

The rotating first nozzle rings are always the nozzle rings with tangentially arranged nozzles 7 , Depending on the orientation of the nozzle opening 7.1 rotates a first nozzle ring in one or the other direction. Thus, in the present embodiment, the first nozzle ring rotates 5.1 clockwise while the third nozzle ring rotates counterclockwise.

The rotating first nozzle rings 5.1 . 5.3 and 5.5 are rotated by a pressure medium in rotation. The pressure medium is supplied via a supply device (not shown) and via the lance 3 to the nozzle rings 5.1 to 5.5 delivered. Through the tan gentiale arrangement of the nozzles 7 at the respective nozzle rings 5.1 . 5.3 and 5.5 the nozzle rings are rotated. The radial alignment of the nozzles 9 on the second nozzle ring 5.2 and the fourth nozzle ring 5.4 only leads to a radial outlet of the pressure medium from these nozzles 9 but not to a rotation of the nozzle rings 5.2 and 5.4 ,

The non-rotating second nozzle rings 5.2 and 5.4 with the radially aligned nozzles 9 can in an advantageous embodiment with respect to the rotating first nozzle rings 5.1 . 5.3 and 5.4 also differ in that from the nozzles 9 escaping pressure medium pulsates out, while the pressure medium from the nozzle openings 7.1 continuously exits. The generation of a pulsating air flow only in the second nozzle rings 5.2 and 5.4 can be generated by any mechanical means. So could be in front of the jets 9 There is a rigid aperture with the nozzles 9 having coincident openings. Whenever the openings of the aperture with the nozzles 9 coincide, an air flow is discharged to the outside. The number of pulses will then depend on the number of apertures in the aperture. Alternatively or additionally, a separate pressure medium supply to the non-rotating nozzle rings could be provided. Then, at the supply device, a continuous stream of pressure medium for the first, third and fifth nozzle ring could be prepared 5.1 . 5.3 and 5.5 or a pulsating flow of a pressure medium for the second nozzle ring 5.2 and the fourth nozzle ring 5.4 generated and passed to the respective nozzle rings.

The nozzle rings 5.1 and 5.5 are arranged concentrically to each other and have such a small distance that a frictionless rotation of the individual nozzle rings with respect to an adjacent nozzle ring is possible, but the gap is so small that the entry of impurities is hardly possible. To protect contaminants could also be on the lance 3 be by radial brackets mounted guard rings that cover the small gap between the individual nozzle rings to the outside.

LIST OF REFERENCE NUMBERS

1

nozzle head

3

lance

5.1

first nozzle ring

5.2

second nozzle ring

5.3

third nozzle ring

5.4

second nozzle ring

5.5

first nozzle ring

7

first jet

7.1

nozzle opening

9

second jet

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - EP 1543872 [0002]

Claims (9)

A nozzle head having a longitudinal axis and a plurality of first nozzle rings rotating around the longitudinal axis, each having at least one nozzle with a tangential effective direction, characterized in that between two first nozzle rings ( 5.1 ; 5.3 ; 5.5 ) a second nozzle ring ( 5.2 ; 5.4 ) with at least one nozzle ( 7 ; 9 ) is arranged with radial direction of action. Nozzle head according to claim 1, characterized in that a first nozzle ring ( 5.1 ; 5.3 ; 5.5 ) and a second nozzle ring ( 5.2 ; 5.4 ) are arranged alternately. Nozzle head according to claim 1 or 2, characterized in that the second nozzle ring ( 5.2 ; 5.4 ) is arranged rotationally fixed with respect to the longitudinal axis. Nozzle head according to one of the preceding claims, characterized in that a pressure medium guide is provided which in the nozzles ( 7 ) of the first nozzle rings ( 5.1 ; 5.3 ; 5.5 ) generates a continuous pressure medium delivery and at the nozzles ( 9 ) of the second nozzle ring ( 5.2 ; 5.4 ) generates a pulsating pressure medium delivery. Nozzle head according to one of Claims 1 to 4, characterized by a control device for controlling a simultaneous operation of the first and second nozzle rings ( 5.1 ; 5.2 ; 5.3 ; 5.4 ; 5.5 ), Cleaning device for cleaning a filter bag with a nozzle head according to one of claims 1 until 5. Cleaning device according to claim 6, characterized in that the nozzle head ( 1 ) is movable back and forth along a longitudinal axis of a filter tube. Cleaning device according to claim 6 or 7, characterized in that the nozzle head ( 1 ) at one end of a lance ( 3 ) is attached. Cleaning device according to one of claims 6 to 8, characterized in that the nozzle head ( 1 ) is arranged during a cleaning process inside a filter tube.

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