DE721850C - Infeed device for compressed air conveyor systems - Google Patents

Description

Infeed device for compressed air conveying systems The invention applies an infeed device for compressed air supply systems, in which a conical Cell wheel in a non-rotatable sleeve inserted in the device housing running around. Devices of this type are particularly used as blow-mopping machines in the underground Gruhenbetrieb used. To compensate for the considerable that occurs with these machines If there is wear between the cellular wheel and the liner, the cellular wheel is in the housing mounted axially displaceably and one attached to the housing between the cellular wheel and the housing Adjustment device provided. In this way, the cell wheel could be pulled in in the housing the wear is compensated within certain limits and thereby also the compressed air losses in the area of the cellular wheel are significantly reduced. at These known transfer devices, however, require that the cellular wheel support Serving storage also carries out the axial displacement of the star feeder. aside from that the adjusting device must be provided on the housing in such a way that it is at the geared connection with the cellular wheel does not interfere with its rotary movement. The drive pinion for the cellular wheel must also be displaceable with respect to the cellular wheel shaft, e his and be secured on the housing of the device against stripping to, a to maintain permanent good engagement with the pinion of the drive motor; also prepares also the seal of the star feeder in the housing sleeve difficulties, as this does not take part in the rotary movement of the star feeder, but with axial displacement should be moved with the cell wall. It is well known the poetry in the housing sleeve to be arranged in a fixed manner, but this version requires a Enlargement of the overall length of the cellular wheel, namely to achieve the adjustment path of the star feeder @ correspondingly long dimensioned sealing surfaces.

The above-mentioned difficulties and disadvantages are solved by the invention thereby eliminates that the cell wheel in the housing end wall against axial displacement stored securely and the sleeve, which is cylindrical on the outside, in the device housing is guided axially displaceably and coupled to the adjusting gear. It can now be found there is no longer any adjustment of the star feeder in relation to the housing, but this Rather, readjustment takes place by moving a non-rotatable part of the device, namely the rifle. As a result, however, the storage of the cellular wheel with the housing can be made in a simple and good manner, since the consideration of an axial Movability no longer needs to be done. Another advantage. lies in that also the adjusting gear of the rotating cellular wheel and its axis is independent and now in the simplest way with the non-rotating sleeve coupling is. This fixed position of the star feeder to the housing also enables a simple arrangement of the sealing means between the cellular wheel and the bushing, as this Sealing means are no longer under the influence of adjustability.

In a further embodiment of the invention, the front side of the Cell wheel provided seals and pressure rings between the liner and cell wheel in the simplest way now from an inwardly projecting ring collar Housing end walls carried. The pressure screws for pressing the seals can here also be stored in the end walls. With the infeed device, en with a cylindrical bucket wheel, it is known to put these seals on a collar of the To arrange housing end walls. However, these are known machines never around those in which an axial one for the purpose of a wear readjustment Relative displacement between the parts before direction takes place.

In the device according to the invention, the i @, speed adjustment gear be designed in different ways; however, this is useful on a Front wall of the housing attached and with the bushing through openings in the housing end wall coupled with the interposition of a traverse. The bearings for the cellular wheel shaft can here due to the fixed position to the cell wheel on the inside the housing end walls are provided, in a space which is in the known machines essentially for the support means of the seal and. the postponement of the cell wheel was required. This also shortens the overall length throughout the facility.

In the drawing, the subject matter of the invention is based on an exemplary embodiment represented, represented.

Fig. I is a vertical longitudinal section through the rotary valve.

FIG. 2 is a plan view of FIG.

The conical cell wheel i is on its shaft 2 in the two end walls 3 and the housing 5 stored in the bearings 6. The cell wheel rotates here in a sleeve 7, which is cylindrical on the outside and in the housing 5 is axially displaceable. The housing end walls 3 and: 1 have after inwardly directed collar 8, which extends approximately to the side walls of the cellular wheel are sufficient. In the annular space formed between the sleeve 7 and the collar 8 are Seals 9 are provided, which io with the help of the screws and the pressure rings i i against the side walls of the cellular wheel and at the same time against the bush 7 be pressed. In this way, the star feeder receives a fixed value in the housing Position which does not allow axial displacement. The ones on the front walls of the housing 3 and ¢ provided bearing approaches are also like the collar 8 towards the inside directed.

On the housing front wall q. a housing 12 is attached, in which. a worm wheel 13 rotatably mounted, but secured against axial displacement is. This worm wheel is arranged axially to the cell wheel ellle. The worm wheel 13 is with the help of the worm 1 4th and the hand crank protruding from the housing 12 15 rotatable. A traverse 17 is connected to the bush 7 via the stud bolts 16, which overlaps the housing 12 of the worm wheel like a bridge. The studs 16 are through openings 18 in the housing end wall q. passed through. The traverse 17 is coupled to the worm wheel 13 through the threaded pin i9, so that when Rotation of the worm wheel senses an axial displacement of this G. the traverse including the sleeve 7 must be done.

The sleeve 7 has a corresponding one below the hopper 2o Inlet opening 21 and on the underside, d. H. towards the blow trough 22, a corresponding one Outlet opening 23. On the side of the smaller cell wheel diameter are the Bushing openings 21 and 23 widened outwardly in a funnel shape, such that Inclined surfaces 24 formed will. The at the inlet opening 2 The inclined surface 24 provided undercuts the inner edge of the filling funnel 20 approximately by the amount of readjustment that becomes necessary in the course of operation, so that at the end of the adjustment the inclined surface 24 ehva the extension of the inclined surface of the funnel 20 forms. The. Bevel 24 at the outlet opening favors the removal of the backfill material falling into the blow trough 22. Laterally of the star feeder, which is in the area of the seals 9 and the pressure rings i i, are the bores of the sleeve 7 are cylindrical.

Claims (4)

PATENT CLAIMS: i. Schleusvorxichtung for compressed air conveying systems, in particular blow displacement machines with a conical cellular wheel, which rotates in a non-rotatable sleeve inserted in the device housing, the wear between the sleeve and. Cell wheel can be compensated for by its relative displacement by means of a gear fixed in place on the housing, characterized in that the cell wheel (i) is mounted in the housing end walls (3, 4) secured against axial displacement and the sleeve (7), which is cylindrical on the outside, is in the device housing ( 5) is axially displaceable and is coupled to the sewing bell gear (13, 14). 2. Transfer device according to claim i, characterized in that the end face of the cellular wheel between the bushing (7) and the cellular wheel (i) provided seals (9) and pressure rings (i i) from inwardly projecting annular collars of the housing end walls (3, 4) are worn. 3. Insertion device according to claim i and 2, characterized in that that the Nachs.tellantrieb axially to the cellular wheel axis on a housing front wall (4) is attached and at least one cross member (17) through openings (18) the housing end wall is coupled through with the bushing (7). 4. Infeed device according to claim i to 3, characterized. marked that the under the hopper (20) lying filling opening (21) and given, if necessary, also the outlet opening (23) funnel-shaped outwards on the side of the smaller cell wheel diameter is extended, so that when the machine is not in use, the outermost edge of the inclined Surface (24) around the inner edge of the funnel (2o) about. the amount of total adjustment undercut.