SU1258139A1 - Impeller of variable centrifugal pump - Google Patents

Abstract

one.

Description

N9 SL

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00 The invention relates to a pump-down and can be used in centrifugal pumps. The purpose of the invention is to maintain a given value of efficiency in the control range, providing the possibility of automating the control and regulation during the development of the impeller with two-sided entry. In FIG. 1 shows a rotor of a centrifugal variable pump, a longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 - section bb in FIG. 2; in fig. 4 shows the rotor of a centrifugal adjustable pump when the working wheel is made with a double-sided inlet; the section in FIG. 5 is longitudinal in section B – B in FIG. 4 in FIG. 6 and in section G – D in FIG. 5. The rotor of the Centrifugal variable pump contains an impeller having at least one drive 2 and one driven 3 disks connected to the shaft 1, each of which is equipped with blades 4, 5, respectively. At that, the disks 2, 3 are mounted with relative displacement a friend in the circumferential direction and at least one of the disks provided with a means of movement. To enable automation of adjustment, the driven disk 3 is equipped with axial blades 6, shaft 1 is filled-hollow, and the displacement means is in the form of a worm gear 7, the shaft 8 connected to the worm gear 7 is mounted in the hollow of shaft 1, and the blades 6 are fixed on the last (see, fig. 1). In order to allow adjustment when executing an impeller with two-sided entry, the displacement means is made in the form of a spline connection 9 of drive disks 2c with shaft 1 (see Fig. 4). At the ends of the blades 4, 5, end seals 10 can be installed (see Fig. 3). The rotor is installed in the outlet 11, and the blades 6 are connected to the stem 8 by means of the sleeve 12 and the keys 13, Blades 4, 5 form interloop channels 14. The device works as follows, 392 where the velocity head is converted into pressure, and then goes to the consumer. If it is necessary to change the characteristics of the pump, backfire on the worm gear 7 as a result, the rod 8 1 rotates and by means of the key 13, bushings 12 and blades 6 rotates the driven disk 3 together with lorats 5 fixed on it with respect to the driving disk 2 and its blades 4 (see Fig. 2, where the dotted and dashed lines indicate the positions of the blades 5 of the disk 3 as a result of its rotation). As a result of rotation, the distance between adjacent blades 4, 5 varies, i.e.,, the shape of interscapular channels 14 changes, which is influenced by the relative eddies arising in them. As a consequence, the magnitude and direction of the relative flow rate exiting the interscapular channels 14 change. In this case, the magnitude and direction of the absolute velocity of the flow at the wheel outlet changes, which leads to a change in the pump head without deteriorating its efficiency, since the throughput of the impeller due to the invariance of its width, it remains constant and the corresponding throughput capacity of the outlet 11. - When executing the impeller with two-sided entry (see Figs. 4, 5, 6), the adjustment of its characteristics is d t in a stepwise disassembly of the rotor, permutation with rotation of one of the driving disks 2 together with the corresponding drive 3 and blades 4 one or more steps of the spitz connection 9 relative to the other driving disk 2 with the corresponding driven disk 3 and the blades 5 and subsequent assembly of the rotor. For each position of the Blades 4 relative to the blades 5, you can get a family of pressure, energy and vibroacoustic characteristics of a centrifugal pump, using a well-known methods to build a universal characteristic and determine the optimum working area of the rotor of the centrifugal pump using it and when in the indicated zone. At the same time, in the range of regulation, due to gz,

The flow sections of the impeller and the outlet will be supported by optimal operating conditions. Pump.

In addition, by turning the discs and blades relative to each other, it is possible to establish the maximum correspondence between the rotor and the outlet for securing 139A

The minimum level of vibration and noise of the pumping station is particularly important for some ship pumping installations, for example, submarines in which the vibro-acoustic parameters of the pump are subject to the same requirements.

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