DE660877C - Infeed device with cell wheel for pressure conveyor systems - Google Patents

Description

Infeed device with cellular wheel for pressure conveyor systems For pressure conveyor systems with cellular wheel, especially in blow-molding systems, it is known that the game between the cellular wheel and the housing surrounding the same as a result of wear these parts gradually becomes so large that the pressure medium to the point of application escapes to such an extent that the operation of the system is endangered. One has tries to compensate for this wear in several ways, for example by pressing the housing walls against the cell wheel or by conical design of cell wheel and housing, which are then axially displaceable relative to one another are.

The invention relates to a design in which an automatic axial displacement of the bucket wheel is provided, namely the displacement takes place by means of a pressure medium, which acts on the larger cell wheel face. Appropriately is the same pressure medium as for conveying the goods in the pipeline used, but this is not absolutely necessary. In order to avoid excessive pressure of the Pressure means to make the axial displacement of the cell wheel not so @important, that its sealing surfaces are pressed against those of the housing so strongly that de rotational movement of the cellular wheel is adversely affected as a result of braking, can the smaller front side are also put under pressure, so that only the acted upon The difference in area between the two end faces is effective. The pressure can also go through Interposition of a throttling can be reduced, for each cell wheel face separated so that the different faces work with different pressures can. Furthermore, it is not necessary that the entire end faces acted upon but it is often sufficient for axial displacement if the pressure medium acts only on part of the end faces.

The drawing illustrates an embodiment of a blow molding machine designed according to the invention in FIG. 1 in a longitudinal section in the horizontal plane. In the conical housing i, the cellular wheel 2 rotates around the shaft 3, which is mounted in the bearings 4 and 5. The end faces 12 of the star feeder have tubular projections 32 and 35, respectively, into which tubular projections 33 and 36, respectively, of the covers 3o and 42, respectively, protrude. To achieve the termination of the pressure medium, the lugs 33 and 36 are provided with spring washers 34 and 37, respectively. The covers 30 and 42 are equipped with inlet ports 38 and 40, respectively, through which the pressure medium can enter. To regulate the pressure medium supply, the inlet ports 38 and 40 are provided with throttle devices 39 and 41, respectively.

To an automatic axial displacement of the star feeder 2 in the housing To achieve i according to the wear and tear of the latter two parts, one allows a pressure medium access through the throttle device 39 and the nozzle 38 in the Print room that is from the cover 3o, the tubular lugs 33 and 32, the cellular wheel face 12 and the housing i is formed. By actuation the throttle device 39, the pressure ix pressure chamber can be selected so that it 2 for 'axial displacement of the cell wheel is sufficient without a disadvantageous one Braking effect of the star feeder on the housing due to excessive displacement pressure is feared. To with clamping rods of the star feeder 2 in the housing i through in the conveyed material iron parts contained a sufficiently large clearance between housing i and rotary valve To be able to create 2, the other cell wheel face can also be from the pressure medium be applied. The pressure medium enters through the throttle device ¢ i and the nozzle 4o in the pressure space, which is from the deck e1 q.2, the tubular Lugs 36 and 35, the cell gear face i 2 and the housing i are formed * d. Since only the difference in the areas exposed to the various Cell wheel front sides of the corresponding pressure chambers is effective, can .dank the throttle devices 39 and, 41 the pressure in the smaller pressure chamber can be kept so high that it is so much is greater than the pressure in the larger pressure chamber that an axial displacement of the Cell wheel 2 in the housing z in the direction of the larger pressure chamber is possible, whereby Clamps between the star feeder 2 and the housing i can be eliminated. on the other hand the effect of the smaller pressure area can also be used for this purpose with the corresponding pressure to weaken and regulate the effect of the larger pressure chamber.

Claims (3)

PATENT CLAIMS: i. Infeed device with cell wheel for pressure conveying systems, in particular for blow offset, characterized in that the axial displacement of the conical cell wheel in the associated housing automatically by a pressure medium takes place, which one or both cellular wheel front sides wholly or partially acted upon. 2. Device according to claim i, characterized in that the pressure of the pressure medium can be different at the different cell wheel front sides, so that an axial Shifting of the star feeder in one direction or the other is possible. 3. Device according to Claims 1 and 2, characterized in that the pressure medium acted upon cellular wheel end faces are of different sizes.