DE19819740A1 - Rotor shaft seal for industrial mixer for abrasive mixtures - Google Patents

Abstract

An assembly seals a shaft opening (2) within an industrial mixer housing (1) having a number of rotor shafts (3). Each rotor shaft (3) has a ring surface (6b) turning against a slip ring (9) which is fixed to and sealed against the housing (1). The ring surface (6b) with the slip ring is made of a ceramic material or heat-treated steel, providing enhanced resistance to wear.

Description

The invention relates to a device for sealing a Rotor shaft passage opening in the housing of one with several rotor shafts equipped internal mixer, with one attached to the rotor shaft Ring surface and a slide ring held in contact with it, the rotatable with respect to the housing and over which the Rotor shaft passage opening towards the outside of the housing is sealed against this.

In a generic device - known from the publication DE 26 16 551 C2 - supports the sliding ring called the stuffing box ring for example under the influence of several distributed over its scope Preload springs on the ring surface rotating with the rotor shaft. In addition, the housing is in the area of each preload spring with a Hydraulic cylinder equipped, the piston rod in the operating state the non-rotating slide ring acts and this in the direction of the Presses ring surface. Instead, the slide ring can also be inserted into the front surface using a fork Be held system, which in turn by means of a hydraulic cylinder Direction is applied to the ring surface.  

Due to the pressure acting on the seal in the interior are components of the mixture produced in the internal mixer between the Pressed ring surface and the sliding ring adjacent to this and lead there (i.e. in the contact area between the two ring surfaces mentioned) to one Abrasion sliding wear. Hard, dusty components such as silica in particular have one undesirable rapid abrasion on the non-rotating slide ring, which is usually made of a bronze alloy with an elevated Wear resistance exists. Also the one that rotates with the rotor shaft Ring surface - which is usually armored - is through such abrasive mixture components removed. The occurring high Accordingly, wear generally requires both interacting components within a period of one year exchange several times.

The invention has for its object to develop a device their service life - even if there are very abrasive fillers in the interior of the internal mixer - is usually above 1 to 2 years.

The object is achieved by a device having the features of claim 1 solved.

The basic idea of the invention is, on the one hand, the ring surface with a high wear resistance compared to abrasive solids train and on the other hand to ensure that the expected Wear essentially only occurs in the contact area of the slide ring. To for this purpose, the ring surface exists at least in the contact area with the Sliding ring made of ceramic and the latter at least there made of one of the materials Steel or ceramic. If the slide ring is also out of the specified range Ceramic is made, it should be softer than that Ceramic material of the ring surface.  

In the context of the invention, the slide ring can be designed such that made of steel with the ring area one through Heat treatment caused increased wear resistance (claim 2) or that he has a steel coating with increased Wear resistance (claim 3).

Furthermore, on the side of the slide ring facing the ring surface Steel plates - conveniently detachable - attached to each other Form circular surface (claim 4).

The steel plates have either a corresponding Heat treatment have an increased wear resistance or are with an effective coating in this sense.

In an advantageous embodiment of the subject matter of the invention Ring surface on its side facing the slide ring several at least in Direction of rotation of the rotor shaft on immovable ceramic plates form an annular surface with one another (claim 5).

Any of the following can be used to fasten the ceramic plates to the ring surface known fasteners are used. In particular the ceramic plates can also be glued to the ring surface (claim 6). If the slide ring - at least in the contact area with the ring surface - also consists of ceramic, it is preferably according to claim 5 and / or 6 educated.

The invention is explained below with reference to the drawing. This shows schematically a partial section through an internal mixer in the closer surroundings of a rotor shaft passage opening.

The other rotor shaft average openings of the internal mixer can each be designed accordingly, each rotor shaft (cf. the previously mentioned previously) two each Has rotor shaft passage openings.  

As can be seen from the illustration, the housing of the internal mixer designated 1 in the region of interest here is equipped with a rotor shaft passage opening 2 through which a rotor shaft 3 is guided. A rotor component 5 is fastened to the latter, lying in the interior 4 of the housing 1 , with which a ring element 6 is connected via a plurality of retaining screws 7 .

Outside the area of the retaining screws 7 , the ring element 6 merges into a projection 6 a which is delimited on the right-hand side by an end face 6 b perpendicular to the rotor shaft 3 . A plurality of ceramic plates 8 , which form a closed circular ring surface with one another, are fastened to this - lying side by side in the circumferential direction. The projection 6 a preferably occupies such a position with respect to the rotor component 5 that the ceramic plates 8 are also supported on the rotor component 5 on the side facing away from the rotor shaft 3 .

To seal the interior 4 from the outside, a sliding ring 9 , which consists of a heat-treated steel and is sealed in the rotor shaft passage opening 2 by means of a sealing element 10 against the housing 1 , is held on the ceramic plates 8 .

Outside of the slide ring 9 (ie, in the illustration on the right side) a plurality of cylinder units are secured to the housing 1 in each case via an angular bracket 11 in the circumferential direction held with respect to 12 of the housing 1 a stationary manner, the piston rod 12 a acts in the operating state to the slip ring 9, and this thereby holding the ceramic plates 8 in contact. Each cylinder unit 12 is connected via a pressure line 13 to an energy source, not shown, and can be acted upon by a pressurized fluid - in particular compressed air.

In addition, a prestressed retaining spring 14 is supported between each cylinder unit 12 and the slide ring 9 .

In order to ensure that the slide ring 9 is held in a rotationally fixed manner with respect to the housing 1 , it is supported via a parallel key 15 held in its circumference in a longitudinal groove 1 a in the housing 1 .

Above the contact area between the ceramic plates 8 and the slide ring 9 , a lubricating oil bore 16 opens into the interior 4 and merges into a feed pipe 17 outside the housing 1 .

The sliding ring 9 is also provided in the area of the ceramic plates 8 with a plurality of bores 18 , via which lubricating oil can also be supplied.

It goes without saying that the slide ring 9 can be formed in several parts if necessary, for example composed of half-ring segments, which can engage in the circumferential direction via projections or recesses adapted to them.

In the context of the invention, the sliding ring 9 can also be equipped on its side facing the ceramic plates 8 with steel plates or ceramic plates attached to it, which together form an annular surface.

The subject of the invention is not related to use the tracking devices already mentioned (cf. the publication DE 26 16 551 C2) limited. In particular, the tracking device also be mechanical, d. H. from several spring packs exist, which are distributed over the circumference of the slide ring and themselves on the side facing away from the slide ring on the housing or on a Support the housing component.  

The advantage achieved by the invention is, in particular, that the service life of the seal formed between parts 8 and 9 can be considerably improved by using ceramic in cooperation with, for example, a suitable steel alloy. Since ceramics have a high wear resistance in the context mentioned here, only the slide ring 9 or, if necessary, only the steel plates or ceramic plates attached to it have to be replaced.

The subject of the invention thus also contributes to operational safety to improve the associated seal and thereby the maintenance of the Simplify internal mixer.

Claims (6)

1. Device for sealing a rotor shaft passage opening ( 2 ) in the housing ( 1 ) of an internal mixer equipped with a plurality of rotor shafts ( 3 ), with an annular surface ( 6 b) fastened to the rotor shaft ( 3 ) and a slide ring held thereon in a trackable manner ( 9 ), which is rotationally fixed with respect to the housing ( 1 ) and via which the rotor shaft passage opening ( 2 ) is sealed against the outside of the housing ( 1 ), characterized in that the annular surface at least in the contact area with the slide ring ( 9 ) made of ceramic ( 8 ) and the latter at least there consists of one of the materials steel or ceramic. 2. Device according to claim 1, characterized in that the steel sliding ring ( 9 ) in the contact area with the annular surface ( 8 ) has an increased wear resistance caused by heat treatment. 3. Apparatus according to claim 1, characterized in that the sliding ring ( 9 ) in the contact area with the annular surface ( 8 ) has a steel coating with increased wear resistance. 4. The device according to at least one of claims 1 to 3, characterized in that on the ring surface ( 8 ) facing side of the slide ring ( 9 ) steel plates are attached which together form an annular surface. 5. The device according to at least one of the preceding claims, characterized in that the annular surface on its side facing the slide ring ( 9 ) has a plurality of ceramic plates ( 8 ) which are held immovably at least in the direction of rotation of the rotor shaft ( 3 ) and which together form an annular surface. 6. The device according to claim 5, characterized in that the ceramic plates ( 8 ) with the annular surface ( 6 b) are glued.