SE519126C2 - Drivslidmätare - Google Patents

Abstract

An impeller 24a,24b for carrying diametrically extending blades (28, Fig 1) of a driven-vane flowmeter is metallically sealed axially and radially in a housing (10) by at least one raised portion 38, in the form of radial web which extends axially on the outer circumference of the impeller 24b and which seals against a wall (22) of the housing (10), and/or by at least one a radially extending portion 32,34 defined between adjacent sectors or segments of sunk surfaces (shaded dark in Fig 2) formed in an end face of the rotor 24a and which seals against an end lid of the housing (10). In use, any impurities carried in the fluid will move from between sealing surfaces of the impeller 24a,24b and the housing (10) and will collect in the gap regions between the sealing surfaces, minimising potential leakage through damaged sealing surfaces and consequential loss in flow measurement accuracy. Bores 32' extend axially through the impeller.

Description

25 30 519 126 »u ~ p u u ~ | o now 2 determined at the runner's circumference and / or ends. Thereby a kind of edge seal is maintained for the runner in the housing, which as it has been shown provides a sufficient tightness without any loss in accuracy of the meter. The other surfaces form much larger gaps, for example in the order of 1 mm. Hard dirt particles can no longer dig into the material and accumulate in these gap tower threads at the surfaces rotating towards each other. In this way, a total blockage of the meter is avoided. In the remaining edges, although hard dirt particles can form grooves and over time reduce the density to some extent, they can not dig into the material and accumulate, but automatically reach the larger free spaces between the webs. Therefore, cutting in the measuring chamber of the drive slide counter according to the invention is avoided.

Nevertheless, it is possible to maintain the conventional anticorrosive aluminum alloy for the manufacture of the housing and the runner.

A further advantage of the drive slide meter according to the invention is that the accuracy can be achieved with less adjustment work during assembly in the plant. The meter is less sensitive.

According to an embodiment of the invention, it is ensured that the radial web is formed in a section of the runner's circumference trailing with respect to a radial recess at a certain distance from the recess. In the case of the webs located at the ends or end sides, it is ensured according to an embodiment of the invention that they are arranged on the leading or extending side of the radial recess, preferably immediately in front of it. Two webs can also be arranged between the present two recesses at the end of the runner, the other web being arranged at a distance from the trailing side of the present radial recess.

Preferably, life is arranged both at the perimeter and at the ends of the runner. It is expedient to arrange these in such a way that radial and located bodies located at the end sides are approximately radially aligned with each other, so as not to form any flow gaps, which would be e.g. 1 mm wide.

The invention is described in more detail in the following with reference to exemplary embodiments shown in the drawings, whereby fi g. 1 shows partly from the side, partly in section, a drive slide meter of conventional design; Fig. 2 shows a runner for a drive slide meter according to fi g. 1 in embodiment according to the invention; and Fig. 3 shows a further embodiment of the runner according to the invention.

The one on fi g. The drive slide meter shown in itself has a conventional construction, which is why it is only described with respect to essential parts. There, a housing jacket 10 is shown, partly in section.

The housing casing is closed by a cover or lid at opposite ends, whereby the cover facing the viewer is removed. Furthermore, there is an inlet 12 in the housing jacket, through which \\ SPB \ VOL3 \ users \ MD \ DOK \ WORD-DOK \ P33745SEO0.b.doc 10 15 20 25 30 519 126 -s sr. u u | ø. a n. | n .a 3 the medium flows in in the direction of the arrow 14. Furthermore, there is an outlet 16, from which the medium flows in the direction of the arrow 18. In the housing jacket 10 there is formed a chamber 20, the round wall 20 of which is made according to a predetermined curve.

Eccentrically with respect to the center of the chamber 20, a runner 24 is rotatably mounted at the housing covers. The runner has four radial recesses 26 arranged at a circumferential distance of 90 °, in which wings 28 are slidably and sealingly received. Diametrically opposite wings 28 are rigidly connected to each other via a rod 30. The mutual distance between the wings 26 and the shape of the wall 22 of the core 20 is such that during rotational movement of the runner 24 the wings are sealingly engaged with the wall 22 and move under the runner's. 24 rotation alternating out of resp. into the recess 26, as shown in fi g. The medium flowing in via the inlet 12 therefore sets the runner 24 in rotation, the number of turns of rotation being a measure of the volume transported. In order to obtain as accurate a measurement or calculation as possible, care must therefore be taken to avoid "short circuits" due to leaks. It is therefore known to design the covers and the runner so that a minimal gap remains. The same applies to the gap between the runner 24 and the wall 22 in the area between the inlet 12 and the outlet 16. As already stated, however, such narrow gaps present considerable problems in the presence of contaminated media. I fi g. 2 and 3 show examples of running discs by means of which such problems are to be eliminated.

I fi g. 2 shows a runner 24, which in terms of construction is similar to the runner 24 according to fi g. 1, however, axial bores 32 ”are arranged between each recess 26. The wings located in the recesses 26 are shown neither in Fig. 2 nor in fi g. 3.

It appears that between the recesses are arranged raised resp. submerged areas. The raised areas are light while the sunken areas are marked in the dark. It can be seen that a raised section (life) 32 extends approximately radially up to the bearing bore, more precisely in the running direction in front of the recess 26. A further radially extending section 34 lies behind the recess 26 and behind a recessed section 36. Between the radial sections 32, 34 are sectors resp. segments of submerged surfaces. It can be seen from this that a metallic seal is obtained between the covers (not shown) and the runner of the drive wear meter only in the narrow or linear areas. However, this has the advantage that hard contaminants which are trapped in the gap between the sections 32, 34 and the associated cover, through the rotation thereafter reach into the larger gap areas and thereby do not cause any damage.

The runner 24b is similar to the one in fi g. 2. It may be provided with raised and recessed sections arranged at the end sides, as shown in fi g. 2, but it can also in the yest surface sections form a narrow gap with the housing covers arranged at the ends, \\ SPB \ VOL3 \ users rs \ MD \ DOK \ WORD-DOK \ P33745SE00. b .doc 10 519 12 6 §II = - 4 as this is the case in the execution according to fi g. 1. Towards the runner according to fi g. The special feature is that radially raised sections 38 are formed at the circumference of the runner 24b. They each extend at a distance to a radial recess 26 viewed over a certain distance in the running direction of the runner 24b. In each section 38 a small gap faces the wall 22 of the housing mantle 20 (fi g. 1), while the other circumferential sections of the runner 24b have a relatively large distance therefor, e.g. 1 mm.

It will be appreciated that the features of the running discs according to fi g. 2 and 3 can also be used combined. In this case, it is essential only that the raised sections 38 are arranged in a groove area at the perimeter for which a raised section located at the end is arranged, in order to avoid a "short circuit".

\\ SPB \ VOL3 \ users \ MD \ DOK \ WORD-DOK \ P33745SE00.b.d0c

Claims (7)

10 15 20 25 30 519 126 5 n anno Patentkrav A drive slide meter with a housing, which has a housing jacket with an annularly closed inner guide surface, an inlet and an outlet in the housing jacket and two covers connected to the ends of the housing jacket, and a runner rotatably mounted in the housing, which has diametrically opposite radial recesses for receiving radially movable wings, the diagonally arranged wings being connected to each other via a rod for constant engagement of the free ends of the wings with the inner wall and the runner being metallically sealed axially and radially in the housing, characterized in that the metallic seal of the runner (24a, 24b) formed only by at least one radial web (38) at the circumference of the runner (24a, 24b) and by substantially radially extending, raised webs (32, 34) lying between the radial recesses (26) at the end sides of the runner (24a, 24b), that the extent of the radial web (38) and of the radially extending webs (32, 34) in the peripheral direction is small with respect to the remaining peripheral surfaces and the end surfaces of the pair (24a, 24b), and that the gap formed between the remaining surfaces and the walls of the housing is large relative to the gap formed by the radial web (38) and the radially extending webs (32, 34). Drive slide gauge according to claim 1, characterized in that the radial web (38) is located on a trailing section of the circumference of the runner with respect to a radial recess (26) viewed in the direction of rotation. Drive slide gauge according to claim 1 or 2, characterized in that the radially extending webs (32) are arranged at a leading portion of the end surfaces of the runner (24a, 24b) relative to a radial recess (26), preferably immediately in front of the recess viewed in the direction of rotation. .. A drive slide meter according to claim 3, radially extending webs (34) are arranged at a distance from the trailing side of the radial recess (26) viewed in the direction of rotation. characterized by attandra Drive slide gauge according to one of Claims 1 to 4, characterized in that the radial and peripheral webs (38; 32, 34) are substantially radially aligned. Drive slide gauge according to one of Claims 1 to 5, characterized in that the gap between the remaining surfaces and the housing is approximately 1 mm. Drive slide gauge according to one of Claims 1 to 5, characterized in that the gap between the radial web (38) and on the one hand the radially extending webs (32, 34) and on the other hand the walls of the housing is approximately 100 μm or less. . K: \ Patent \ 10- \ 103374500se \ 020905br.doc