CS200066B1 - Apparatus for manufacturing non-circular cross-section bodies,especially stators for screw pumps - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for the manufacture of spindle bodies of non-circular cross-section, in particular to stators of screw pumps.

There are known devices for producing the stators of single-spindle pumps from a tubular blank using a forming mandrel, the shape of which corresponds to the shape of a double-pass spindle. This shaping mandrel, together with the tubular blank, is extruded by means of a pressure device through at least one shaping ring. Either the shaping mandrel or the shaping ring is provided with a separate drive to impart a forced rotational motion corresponding to a one-turn condition over a distance of one pitch of the shaped stator. The disadvantages of these devices are the production of limited lengths of the spindle stators, the limited wall thickness of the stators, the lengthy preparation of the blanks before the actual melting, the forming itself for several operations and the relative complexity of the production of the forming device.

The invention is an apparatus for producing spindle bodies of non-circular cross-section, in particular of screw pump stators, in the body of which a conical cavity is formed, in which molding elements are displaceably supported with a spindle-shaped through cavity comprising of the calibration part and its essence lies in the fact that the through cavity of the forming elements has a circular cross section in the leading part with a diameter d _Q , the size of which is given by

200 066 d £? Λ & · ^ ϊ- ± 4ϊ..χ ,. £ ΐ, _kd .

⁰ ~ 5Γ. β stator • ja axoantricity of rotor and ja pitch Helix a

L is equal to a helix length of one pitch and in the calibration portion having a cross-section of the double-walled spindle, the deformation portion of the through cavity forming a continuous transition from the circular cross-section d _Q to the cross-section of the double-walled spindle.

According to the invention, a higher effect is achieved in comparison with the devices used up to now, in that it is possible to produce in a single operation spindle bodies of non-circular cross-section of virtually unlimited length, and using a jig for rotary pump rotors.

An exemplary embodiment of the device is shown schematically in the accompanying drawing, in which Fig. 1 is a front sectional view of the device, Fig. 2 is a partial side sectional view of the device of Fig. 1 in plane AA; Figures 4 to 7 are a view P in the forming direction and the sectional views 1-1, II-II, III-III of the through cavity of Fig. 3 shown sequentially.

The molding device is formed by a base plate 1 to which a tool body 2 of generally cylindrical external shape is attached, e.g. by screws. This body 2 has, on the side facing the base plate 7, a cylindrical recess 21, of which a conical cavity 22 extends from the central part, extending away from the base plate 1. The cylindrical recess 21 accommodates a resilient lifting element 2, e.g. The support washer 4, in the present case, is formed as four conical jaws, which are housed in the conical cavity 22 of the body 2. The shaping elements 5 have on the abutting side surfaces, i.e., in the separating planes 51, bores 52 for resilient relief elements 6, e.g. coil springs, which ensure the opening of the molding elements 5 upon release of the lie pressure. The pressure of the press exerted on the faces 53 of the molding elements 6 through the push-in liner below which the leading cone bore 71 is formed and which abuts against the faces 53. The molding elements 6 have a spindle-shaped through cavity 54, consisting of a lead-in portion 541, a deforming portion 542a of a calibration portion 543, which are continuously connected to each other. The lead-in portion 541 has an initial circular cross-section with a diameter d _Q corresponding to the minimum diameter of the tubular blank for forming. The value of this average is given by:

d _o f + 4? · A? _where s

r is the radius of the final shape of the stator,

L is the length of one helix lead, s is the helix lead and e is the rotor eccentricity.

The circular cross section of diameter D _Q of the deforming portion 542 dutihy passage 54 continuously changes the shape of the twin screw spindle, as is shown sequential sectional views of FIG. 4.

The device according to the invention flows in such a way that, during the shaping, the tubular blank is incrementally pushed by the press force in the direction of the arrow P between the shaping elements 2, which are both axially displaced and radially clamped. Their return movement is provided by the resilient lifting element 2 ^{through the} support pad 4 as soon as the pressure of the press ceases. The molding elements 5 also slide on the conical surface of the conical cavity 22 of the body 2 as they move backwards, since they are opened by the elastic relief elements 6. At the same time, the molded tube is released during opening. During the further press stroke of the press the tube is again clamped, displaced axially and further shaped.

Claims (1)

OBJECT OF THE INVENTION Apparatus for producing spindle bodies of non-circular cross-section, in particular of screw stators, in the body of which a conical cavity is formed, in which molding elements with a spindle-shaped through cavity are displaceably comprised of a lead-in portion, a deformation portion and a calibration portion. that the continuous cavity (54) forming element (5) has a leading portion (541) of circular cross-section diameter (d _Q), whose magnitude is given by the relation a> ^2, wherein ^0-3 tons. sr is the stator radius e is the rotor eccentricity s is the helix pitch a E is the length ěroubovice of one pitch and in the calibration section. (543) has a section shaped twin spindle, the deforming portion (542) through the cavity (54) has the shape of a smooth transition from-circular cross-section (d _{Q) of} a cross section of a twin spindle.