DE1684048A1 - Arrangement for mixing and conveying plaster of paris - Google Patents

Description

Means for mixing and conveying of gypsum, the invention relates to an arrangement for mixing and conveying of gypsum with a knack mixing conveyor with inlet pipe. In the known screw mixing conveyors used for mixing and conveying gypsum, only gypsums can be used to which retarding agents have been mixed beforehand. Up to now, these special gypsums have been fed into the screw mixers as a ready- mixed mixture. The invention has the task of creating an assembly can be at which the suitable for mechanical Anmähen and conveying mixture of gypsum with a delay means on the construction site with little use as possible of additional labor forces carried out directly on the screw mixing conveyor.

The invention consists in that the screw mixer conveyor is connected via a storage container with a mixer for dry mixing of gypsum with a delay means to form a structural unit .

The invention achieves the advantage that ordinary plaster of paris can be mixed economically with the additive on the Bausid.le on the conveyor and the purchase of ready-to-use mixtures is not necessary.

In a further embodiment of the invention, a stirring tool with a drive that is independent of the screw mixer is arranged in the storage container. Thereby, the advantage is achieved that, even when standing still Henden conveyor screw mixing the gypsum mixture can be kept in the reservoir for the prevention of encrustation in motion. In one embodiment of the invention, the mixer also has a mixing tool with a drive that is independent of the screw mixer conveyor. In a further embodiment of the invention, the stirring tool in the storage container and the mixing tool in the mixing container are arranged on a common drive shaft. This results in a particularly economical drive form for mixing and stirring tools. A further development of the invention is that the mixer with the storage container is easily separated by eccentric locks and the storage container with the inlet connection of the housing of the screw mixer by means of a detachable hinge and a pivoting wing screw. This design enables the devices to be cleaned easily. A further development of the invention is finally that on the outlet side of the front part of the housing of the screw mixer conveyor a forwardly narrowed transition nozzle by means of cranked Leaf springs is held, which is attached to the connecting piece in a hinge-like manner and subjected to excessive delivery pressure Release forces automatically. Further details emerge from the following description an embodiment of the invention in connection with the Drawing. The drawing is a simplified side view of the invention proper arrangement. In the case of a screw mixing conveyor 161 which can be driven on wheels 30 Worm 8 driven by an electric motor 17 via a gear 18 in their front part, seen in the direction of feed of the mix, as mixing screw is formed, the inlet connection 9 of the screw housing 11 at its upper edge a flange 19 on which a this corresponding flange 20 of a hollow conical reservoir container 1 by means of a detachable hinge 6 and one pivotable wing screw 21 is attached tiltable and separable. On a flange 22 at the upper end of the storage container 1 is a Mixer 2 with a cylindrical mixing container by means of a attached to the lower end of the flange 23 and easily detachable attached by means of eccentric locks 24. Of the Mixing container is closed at the top with a lid 25, on soft a hopper 26 is attached. On the lid 25 is a Electric motor 3 attached, which has a coaxial in the supply and mixing container arranged down to the lower third of the storage container 1 guided whisk shaft 10 drives. The mixing tank is from that Storage container 1 separated by an intermediate floor 13, which is through a bottom flap 12 to be actuated by means of a hand lever 27 closes is open. Just above the intermediate floor 13 is used as a mixing tool a triangular bracket 15 made of rod material on the agitator shaft 10 appropriate. At its lower end, the agitator shaft carries a two- armed fork 14, the shape of which is adapted to the cross section of the storage container 1 and the arms of which reach into the inlet connection 9 . On the outlet side of the screw housing 11, a forwardly narrowed transition connection 7 is attached. It is held on einQm flange 28 of the screw housing front part by means of a cranked leaf springs, which are hingedly attached to the connecting piece 7 and dissolve under the excessive delivery pressure exerted on them force so that the nozzle 7 coming off when the discharge pressure becomes too large.

The operation of the device is as follows.

Through the funnel 26, plaster of paris is filled in directly from sacks or with buckets, at the same time a delay agent is added with a measuring container; then mixing is carried out with the mixing tool 15 rotating and the bottom flap 12 closed. As the whisker shaft 10 continues rotating, the bottom flap 12 is opened until the storage container 1 is filled, and while the mixing of further refilled plaster of paris with additives continues in the mixing container with the bottom flap 12 closed again, the two-armed fork 14 holds the plaster of paris in the storage container 1 in motion. The mixture of plaster of paris with retarder reaches the screw 8 through the inlet connection 9 , which transports the mixture further in the screw housing 11, in which the plaster of paris is made with the addition of water flowing in at 29. The plaster of paris emerges from the front part of the screw housing 11 through the transition connector 7. If the delivery pressure is too high, the connection between the nozzle 7 and the front part of the screw housing 11 breaks off as described above, and the resulting enlarged outlet cross-section allows the water flowing in at 29 to easily flow away so that it does not flow backwards over the screw housing 11 can penetrate into the storage container 1.

Claims (1)

Claims arrangement for mixing and conveying of gypsum with a worm mixed conveyor with inlet pipe, characterized in that the Schneökenmischförderer (16) is connected via a storage container (1) with a mixer (2) for dry mixing plaster with a delay means to form a structural unit . 2) Arrangement according to claim 1, characterized in that a stirring tool (14) with a drive (3) independent of the screw mixer is arranged in the storage container (1). 3) Arrangement according to claim 1, characterized in that the mixer (2) has a mixing tool (15) with a drive (3) independent of the Schnebksamischförderer (16). 4) Arrangement according to claims 2 and 3, characterized in that the stirring tool (14) and mixing tool (15) are arranged on a common drive shaft (10). 5) Arrangement according to claim 1, characterized in that the mixer (2) with the storage container (1) by eccentric locks (24) and the storage container (1) with the inlet connection (9) of the housing (1i) of the screw mixer (16) by means a disengageable hinge (6) and a pivoting wing screw (21) are easily separated. 6) arrangement according to claim 4, characterized in that a hollow cone-shaped reservoir (1) and to this koaxi & l a mixer (2) with a cylindrical housing is placed on the inlet connection (9), the bottom of the reservoir (1) through an intermediate (13) is separated by the bottom flap (12) and on the lid (25) of which a motor (3) is arranged , which drives a drive shaft (10) running coaxially in the mixer and storage container and reaching into the lower third of the storage container. 7) Arrangement according to claim 1, characterized in that the overall arrangement can be moved by means of running wheels and castors (30) attached to the screw mixer (16) . 8) Arrangement according to claim 1, characterized in that on the exit side of the front part of the housing (11) of the screw mixer (16) a forwardly narrowed transition connector (7) is held by means of cranked leaf springs which are attached to the connector (7) in a hinge-like manner and .solve automatically under the forces exerted on them when there is excessive delivery pressure.