CS215320B1 - Twin shaft mixer - Google Patents

Abstract

The invention solves the arrangement of the outlet end of the mixer with mixing elements arranged on the shaft as a third effective stage of mixing the fed material to the outlet of the processed dough outside its space through the grate. The essence of the invention lies in the fact that each chamber with the shaft is arranged at the outlet end as a polyhedron with longitudinal protrusions, along the length of which there is a double-turned screw on the shaft with screw surfaces arranged so that its surfaces in the left chamber and the right chamber are rotated by 180° relative to each other.

Description

The present invention relates to a double-shaft mixer, for example a ceramic dough, in particular to adjusting the outlet end of its chambers to achieve greater efficiency in kneading and mixing the individual components contained in the ceramic dough.

The mixers used, for example, to prepare the ceramic dough, operate by mixing the dough in addition to the coarse mixing of the blades at the mixer inlet by a simple counter-rotating screw in a screw chamber provided with a perforated insert. When mixing and feeding the dough to the outlet of the grate chamber, the insert holes are thereby filled and prevent it from rotating in the screw space. At the outlet end of the chamber, the dough is forced through the grate and proceeds for further processing. When mixing several components or moistening the dough, this is insufficiently kneaded. It contains lumps of unequal moisture, which in the course of drying and firing adversely affects the quality of thin-walled bricks, scrap, lower performance of the entire production line and higher production costs.

The essence of a two-shaft mixer, for example a ceramic dough, formed by working chambers and parallel arranged shafts provided with mixing elements according to the invention is that each shaft chamber is configured at the outlet end as a polyhedron with longitudinal protrusions. The two-pointed screw with screw surfaces is attached to the projections.

The introduction of the invention results in a better kneading of the dough as it is moistened, thus improving its quality before further processing. By avoiding the formation of lumps of unequal moisture when kneading the dough, the quality of thin-walled bricks is improved in subsequent drying and firing. Perfect dough preparation will reduce scrap, increase line performance and reduce production costs.

The invention is apparent from the drawing, in which Fig. 1 shows a partial longitudinal section A-A of the chamber with the shaft and mixing elements according to Fig. 2; Fig. 2 shows a cross section B-B of the outlet end of the polyhedron chamber according to Fig. 1.

The two-shaft mixer forms chambers 1 longitudinally to guide the dough in mixing from the inlet to the outlet interconnected. Each chamber 1 is provided at the outlet end as a polyhedron 2 and is provided with a shaft 3 connected to the drive unit. This is not obvious from the drawing. The polyhedron 2 at the outlet end of the chamber 1 forms planar curved surfaces 4 with protrusions 5 along their length. There is a grid 6 opposite the polyhedron 2 of the outlet end of the chamber 1. Mixing vanes 7 are mounted on the shaft 3 in the inlet part of the chamber 1, in the outlet part of the chamber 1. augers 8. Between the outlet part of the double-screw chamber 1 on the shaft 3 and the inlet part of the chamber 1 with the mixing blades 7 are located feed screws in its central part on the shaft 3. 3. The double-screw 8 on the shaft 3 of the left chamber 1 with the polyhedron 2 has two screw surfaces 10,

11, the double-worm 8 on the shaft 3 of the right chamber 1 with the polyhedron 2 also has two helical surfaces

The screw surfaces 10, 11 of the double-head screw 8 of the left chamber 1 with the polyhedron 2 and the screw surfaces 12, 13 of the double-head screw 8 of the right chamber 1 with the polyhedron 2 are rotated 180 ° relative to each other in each chamber 1. In this case, the screw surfaces 10, 11 of the double-head screw 8 on the shaft 3 of the left chamber 1 and the screw surfaces 12, 13 of the double-head screw 8 on the shaft 3 of the right chamber 1 are arranged with respect to each other. by the right pitch, the corresponding screw surface 12 of the double-head screw 8 of the right chamber 1 is provided with a left pitch. The screw surface 9a of the feed screw 9 is connected by a screw surface 10, 11, 12, 13 with a double-head screw 8. The edges of the double-head screw 8 in the left chamber 1 and in the right chamber 1 can be offset from each other and interfere in their paths. In this case, the rotation of the double-worm 8 in the left and right chambers 1 is synchronized.

Claims (3)

SUBJECT A two-shaft mixer, for example a ceramic dough, formed by working chambers and parallel arranged shafts provided with mixing elements, characterized in that each chamber (1) with the shaft (3) is arranged at the outlet end as a polyhedron (2) with longitudinal projections (5) wherein a two-worm screw (8) with screw faces (10), (11), (12), (13) is mounted on the shaft (3) of each chamber (1) in the length of the polyhedron (2) with the longitudinal projections (5). A two-shaft mixer according to claim 1, characterized in that the screw faces (10), (11) of the double-head screw (8) of the left chamber (1) with a plurality of wall (2) and the screw faces (12), (13) 8) the right-hand chambers (1) with the polyhedron (2) are rotated 180 ° with respect to each other, the screw faces (10), (11) of the double-head screw (8) on the shaft (3) of the left chamber (1) and the screw faces (12) , (13) of the double-head screw (8) on the shaft (3) of the right chamber (1) are arranged such that the screw face (10) of the double-head screw (8) of the left chamber (1) is made with right lead and the screw face (12) ) of the double-head screw (8) of the right chamber (1) is made with a left lead. A two-shaft mixer according to items 1 to 2, characterized in that at least one helical surface (10), (11), (12), (13) of the double-head screw (8) on the shaft (3) with the polyhedron (2) adjoins the screw surface (9a) of the feed screw (9), wherein a grate (6) is provided at the outlet end of the chamber (1) against the polyhedron (2) with the double-screw (8) on the shaft (3).