SU1348081A1 - Method of producing impeller vane of radial-axial hydraulic machine - Google Patents

Abstract

The invention relates to a hydrostatic design and can be used in the manufacture of welded impellers of radially axial hydraulic machines, mainly hydro turbines. The purpose of the invention is to increase the productivity and quality of manufacture by allowing the blade to be processed without re-installation by selecting the rational position on the machine table. Before processing, three basic points are laid out on the blade, two of which are located at the intersection of the output edge of the working surface of the blade with the edges of the coupling with the hub and the rim of the impeller. Then the output edge of the blade is processed. Install the blade on the table of the machine on the processed output edge. The position of the theoretical axis of the wheel is determined by three base points. Edges are machined with lines that are arranged along arcs of circles whose centers are located on a specified axis in planes perpendicular to the latter. 2 Il. s (L 00 4 :; 00

Description

The avoidance relates to hydraulic engineering and can be used in the manufacture of welded impellers radial-axial hydraulic machines, mainly hydraulic turbines.

The purpose of the invention is to increase the productivity and quality of manufacture by allowing the blade to be processed without reinstallation by choosing a rational position on the machine table.

Figure 1 shows a schematic representation of a radially driven impeller - an axillon of a turbine; figure 2 - processing diagram of the blades of the impeller.

The impeller radial-axial hydraulic turbine (figure 1) consists of three main parts - hub 1, rim 2 and a set of blades 3. The interface of the blades with the hub and rim is formed by rotating the curvilines 1шх forming 4 and 5 hub and rim around the axis of the wheel. The exit edges of the 6 blades are located in radial planes and are flat surfaces.

Edge 7 of the mating with the rim, edge 8 of the mating with the hub, as well as chamfers for welding on these edges are to be processed by the proposed method.

Previously on the concave surface of the blade using the spatial pattern mark three base points a, b and C, corresponding to the known theoretical points of the flow part of the wheel. Points A and B are located at the intersection of the edges of the mating

with a coarse and rim with the output of the cream-up edge of the working surface

whoa. After marking, a flat exit edge 6 is passed through the points A and B.

Before machining the edges of the interface, the blade 3 is set with an output edge on the table of the milling machine, having points A and B in a straight line parallel to the longitudinal course of the machine (along the X axis). Such an arrangement allows the tool to be brought into the machining zones of both edges and chamfers on them without reinstalling the blade. Next, the position of the impeller axis 9 is determined in accordance with the base points A, B, C on the working surface of the blade from the center of the blade installed in its predetermined position. Points A and B belong to the flat exit edge and together with

it lie in the plane of the table. At the same time, in the wheel, the exit edge is located in the radial plane passing through the wheel axis. From this it follows that the wheel axis is located in the plane of the table and intersects with the line passing through points A and B at an angle about, determined from

drawing the flow of the wheel.

Edge processing is performed in a row-wise manner in the direction indicated by the arrows in FIG. 2. Prior to machining, in order to optimize the cutting conditions, the milling cutter using a swivel head is inclined to the surface to be machined. The tool movement is set in three axes X, Y, Z in such a way that the lines 10 (the trajectories of the points of contact of the tool with the surface being processed) are placed on arcs of circles, 11, the centers of which lie on the wheel axis 9 in planes perpendicular to this axis,

and each of these circles intersects respectively with the generatrix 4 hub or with the generatrix 5 rim,

Finally, the chamfers for welding with the hub and the rim are machined in a line-by-line manner on both edges.

Claims (1)

Invention Formula The method of manufacturing the impeller blade radial-axial hydraulic machines, in which three base points are marked on the blade, two of which are located at the intersection blades with edges of the interface with the hub and the rim of the impeller, then install the blade on the machine table on the output edge in accordance with the specified points and do the machining of the edges of the blade with the hub and rim to size, followed by cutting edges for welding, different By the fact that, in order to increase the productivity and quality of production, before processing by three base points, the position of the theoretical axis of the wheel is determined, and the edges are machined with lines that have arcs of circles, whose centers are disposed on said axis in planes perpendicular to the latter. Editor M. Andrushenko Compiled by I. Kolbich Tehred M. Khodanich Proofreader G. Reshetnik Order 5148/11 Circulation 969 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, G. Uzhgorod, st. Project, 4 FIG. 2