SU2662A1 - Turbine runner - Google Patents

Description

The proposal concerns a vertical turbine operating with water or wind, in several versions. FIG. 1 shows a vertical turbine with square bucket chambers; and in FIG. 2-5, several turbine variants are shown, differing in the shape and location of the bucket chambers. The wind-water on the turbine has a horizontal shaft A (Fig. 1) and consists of a solid flat square frame B, fortified in a plane perpendicular to the axis A and divided by a wall C, C, C perpendicular to the frame, into four equal square bucket, b., by, and b, open along the bypass and downwind. Wind or water coming out of the buckets under pressure drives the turbine into rotational motion, as indicated by the arrow. In view of the fact that the square turbine chambers do not fully utilize the pressure of a jet of air or water, thanks to the remaining voids, it is proposed to make buckets according to FIG. 2, i.e. position their cross section so. diagonal bucket served as a continuation .m radius of the turbine; with a similar arrangement of the walls of the bucket, the pressure of water or air on the bottom of the buckets will be used to a greater extent, but the resistance of air or water on the bottom of the turbine will also be significant. Forlts of buckets, in which the inner wall Cj is located tangentially to the inner circumference of the turbine, and the outer wall C., is located along the tangent circumference of the impeller. The resulting chamber greatly facilitates the movement of the turbine along arrow K. In the embodiment of the chambers shown in FIG. 4, buckets are formed by two walls C, located at an angle of 45 ° and inclined to the bottom (Fig. 4 in cross section); three-sided chambers with pointed front parts are obtained, which facilitate cutting of air during rotation. FIG. 3 shows the new version

in the embodiment depicted in FIG. 5, the bottoms in the chambers are completely destroyed, and the chambers are formed by two inclined walls C ,. C.j, giving an edge M in the intersection, directed but tangent to the turbine circumference.

n 1 to d m n t p l g k p t l.

1.Wind-Baud on a horizontal shaft turbine, characterized using a solid flat square frame 6, installed perpendicular to horizontal shaft A and fitted with partitions C perpendicular to it, consisting of internal cross-wise parts and external parts, perpendicular to them, forming with the internal parts and with the frame B four bucket chambers, i) .., b, and / b. open on the bypass and downwind.

2. Alteration of the horizontal-shaft turbine characterized in paragraph 1, characterized in that the bucket chambers B described in paragraph 1 are arranged around the circumference of the wheel z with the horizontal shaft A and installed in such a way that the diagonals of the square bottoms located in the direction of the radius of the wheel.

3. The variation described in clause 2 in a horizontal-shaft wind turbine, characterized (FIG. 3) in that in each bucket-like chamber, partitions C, intersecting side partitions C, C, are located on the inner circumference of the impeller itself.

4. The variation of the wind-water turbine described in paragraph 2, characterized in (FIG. 4) that each bucket chamber is formed instead of a square-triangular bottom of a b and two side walls inclined to it, partitions or walls C, and C ,

5. The change described in and. 4 wind turbine, characterized (Fig. 5) by the fact that in each bucket chamber the bottom is destroyed and the chamber is formed by only two inclined partitions or walls Ci and C.2.

TNPO-lntograf "Red Pechatnik, Leningrad, International, 75.