DE4100879C1 - Stirring rod - has screw section so rod can be screwed into threaded bore in stirring shaft to enable simplified removal of broken rods - Google Patents

Abstract

A stirring rod includes a screw section so that the rod can be screwed into a threaded bore in a stirring shaft or grinding container wall of a stirring unit, and an axial hole inside the threaded section for accommodating a profiled key esp. a hexagonal key. The axial hole extends over part of the stirring rod section that protrudes out of the bore. ADVANTAGE - The arrangement simplifies the removal of broken stirring rods.

Description

The invention relates to a stir bar that can be screwed in ben in a threaded bore of an agitator shaft or grinding container wall of an agitator mill with a screw-in section is provided and within the screw-in section axial hole for a profile key, in particular Hexagon wrench.

In known stirring bars of this type, the axial Hole from the screwed into a threaded hole inner end of the stir bar. The axial hole is however significantly shorter than the screw-in section. It will all commonly considered sufficient if hexagon socket holes for hex keys have an axial length that at least approximately matches the width across flats. A much longer length of such a hole could So far, this did not make sense even with stirring bars for agitator mills appear full.

With one starting from the inner end of a stir bar axial hole for a key, esp. hex keys sel, it has been common until now to make the hole noticeably shorter than dimension the screw-in section to prevent the bottom area of the hole, which is made from manufacturing  Establish a certain discontinuity in the material structure of the Stirring represents in the transition zone between the Screw-in section and the free section of the stir bar lies in this transition zone because of notch tensions that can occur there in operation, an im general particularly high risk of breakage.

Even if you look at it in the previous way tet that pre for a hex key or the like see axial hole at a sufficient distance from the Transition zone between the screw-in section and the the free section of the stir bar ends, the fact remains exist that most breaks of stir bars in operation occur in this transition zone. In many cases then nothing sticks out or just a short stub of the Stir out of the threaded hole that the stirrer can no longer be grasped with pliers to get out of the Threaded hole to be unscrewed.

The inner end of the stir bar can be if this in a continuous threaded hole in a hollow stirrer shaft or has been screwed into the inner wall of the grinding container, make it accessible in principle; but this requires in general that the agitator shaft or the grinding container is largely disassembled. If this is to be avoided or is impossible, there is nothing left but that rest of the stirring rod from drill the fracture surface from it, in order to either the from inner end of the stirring rod outgoing axial hole for the to make the associated key accessible or to handles for an auxiliary tool for unscrewing the To create stirring stick remnants from the threaded hole.

The invention is based, out unscrew the remains of broken stirrers from which to facilitate holding threaded holes.

According to the invention, the task is based on stirring solved the rod of the type described above, that the axial hole over at least part of the im Installation condition protruding from the threaded hole, free portion of the stir bar extends.

This ensures that after stopping a stir its axial hole is exposed, so that without further ado an appropriate key is inserted and the rest of the stirring rods pulled out of the threaded hole receiving it can be screwed.

In one embodiment of the invention, this extends axial hole from the inner end of the stir bar over its entire screw section and further up close the outer end of the stir bar.

In another embodiment of the invention extends the axial hole from the outer end of the stir bar over its entire free section and further over minde least part of the screw-in section. If provided is such a stir bar in a continuous thread screwing the hole, on the one hand, to a grinding chamber and on the other hand, it is adjacent to a coolant space particularly advantageous if the inner end of the stir bar closed is. In this case the threaded hole remains locked even after breaking off the stir bar so that neither coolant in the grinding chamber nor regrind in the cooling can flow in the middle.

In all described embodiments of the invention it is appropriate if the axial hole on each side an area in which the two sections of the Mix the stir bars into each other, have a length that is at least is at least as large as the width across flats of the axial Lochs.  

Exemplary embodiments of the invention are described below hand explained schematic drawings. It shows

Figure 1 shows two stir bars according to a first embodiment of the invention, one of which is undamaged and the other broken off;

Figure 2 for comparison a stir bar according to the presupposed prior art. and

Fig. 3 shows a second embodiment of an inventive stir bar.

Referring to FIG. 1, two stirring rods 10 each have a screw portion 12 with an external thread, starting from a stage of construction in an axially inner Rührstabende 14, as well as a free portion telfläche with smooth cylindrical give 16. In the undamaged stir bar 10 shown in FIG. 1, the free section 16 extends up to a hemispherically rounded outer end 18 ; in the broken stirrer shown on the right, on the other hand, there is only so little left of the free section 16 that it is difficult or impossible to grasp from the outside with pliers or the like.

The stirring bars 10 of FIG. 1 each have an outgoing from their inner end 14 axial hole 20 with hexagon socket profile. This hole 20 is inaccessible when the stirring rod 10 in question , as shown in FIG. 1, has been screwed into a non-continuous threaded bore 22 of a stirring shaft 24 or a grinding container wall. The agitator shaft 24 shown is hollow, so it has an inner wall 26 ; but this is not achieved by the threaded bores 22 so that a coolant existing within the agitator shaft is kept under all circumstances from a grinding chamber in which the agitator shaft works.

If it is not important to maintain such a separation under all circumstances, stirring rods 10 of the type shown in FIG. 1 can also be screwed into continuous threaded bores 22 , as is the case with a grinding container inner wall 28 of the type indicated in FIG. 2, because of the small thickness of such Walls in general are inevitable.

In any case, the axial hole 20 is accessible for a matching hexagon wrench 30 when the stirring rod 10 concerned has broken off. Thus, as shown in the right part of FIG. 1, it is readily possible to unscrew the rest of the stirring rod 10 which is in its threaded bore 22 . For screwing in a new stirring rod 10 into the threaded bore 22 which has thereby become free, if this is a blind hole according to FIG. 1, the hexagon wrench 30 cannot be used; A new stirring rod 10 can, however, be screwed in by hand without difficulty and then tightened with a pair of pliers, which on the free section 16 finds a sufficient contact surface in any case.

In Fig. 2, a known stir bar 10 'is shown for comparison, which, as usual, is screwed into a continuous threaded bore 22 of an inner wall 28 of a grinding container or a stirring shaft. In this stirring rod 10 'is the outgoing from its inner end 14 axial hole 20 with a hexagonal profile only about half as long as a screw section 12th If the stirring rod 10 breaks, it is expected that this happens in the transition zone between the screw-in section 12 and the free section 16 . The then still in the threaded bore 22 rest of the stirring rod 10 'prevents in a desired manner he exchange of medium between the rooms inside and outside the wall 28th However, the axial hole 20 is not easily accessible for the hexagon wrench 30 and must therefore, as described in the introduction, first be exposed.

This problem does not exist with the stirring rod 10 according to FIG. 3 any more than with the stirring rods shown in FIG. 1. Referring to FIG. 3, the axial hole 20 passes from the outer end 18 of the stirring rod 10 and terminating short of its inner end 14. It is obvious that the hexagon wrench 30 can be used to tighten the stirring rod 10 according to FIG. 3, regardless of whether the stirring rod is screwed into a continuous or non-continuous threaded bore 22 . Above all, it is important that the axial hole 20 , wherever the stirring rod 10 may break off, remains accessible for the hexagon wrench 30 . However, the stirring bar 10 has FIG mutandis. 3 also has the advantage of the stirring rod 10 shown in Fig. 2 ', that the residual in the threaded bore 22 residue of the broken stirring rod forms a plug which passes prevents inadvertent medium exchange ver through the threaded bore 22.

The advantages of the stirring rods 10 shown in FIGS . 1 and 3 can be combined with one another by closing the open end of the axial hole 20 , for example with a glued-in stopper. In the case of stirring bars made of sintered metal or ceramic or similar materials, an axial hole 20 , which is closed at both ends from the outset, can be produced in that a corresponding core is inserted, which burns out during a heat treatment or becomes light after breaking off the stirring bar can be pulled out. If, for example, the stirring rod 10 shown in FIG. 3 is also closed at its free end 18 , this has the additional advantage that no regrind can be deposited in the axial hole 20 .

Claims (5)

1. Stirring rod, which is provided for screwing into a threaded bore ( 22 ) of a stirring shaft ( 24 ) or grinding container wall ( 28 ) of an agitator mill with a screw-in section ( 12 ) and an axial hole ( 20 ) for a profile key within the screw-in section ( 12 ) , in particular hexagon wrench ( 30 ), characterized in that the axial hole ( 20 ) extends over at least part of the free section ( 16 ) of the stirring rod ( 10 ) projecting out of the threaded bore ( 22 ) during installation. 2. Stirring rod according to claim 1, characterized in that the axial hole ( 20 ) from the inner end ( 14 ) of the stirring rod ( 10 ) over its entire screw-in section ( 12 ) and further up to the vicinity of the outer end ( 18 ) of the stirring rod ( 10 ) extends. 3. stir bar according to claim 1, characterized in that the axial hole ( 20 ) from the outer end ( 18 ) of the stir bar ( 10 ) over its entire free section ( 16 ) and further over at least part of the screw-in section ( 12 ) it stretches . 4. stir bar according to claim 3, characterized in that the inner end ( 14 ) of the stir bar ( 10 ) is closed. 5. Stirring bar according to one of claims 1 to 4, characterized in that the axial hole ( 20 ) on each side of an area in which the said sections ( 12 , 16 ) of the stirring bar ( 10 ) merge into one another has a length which is at least as large as the width across flats of the axial hole ( 20 ).